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Trim

.clang-format

@@ -3,4 +3,5 @@ IndentWidth: 4
 
 UseTab: Never
 ColumnLimit: 80
-AlignConsecutiveAssignments: false 
+AlignConsecutiveAssignments: false 
+AlignConsecutiveMacros: true

CMakeLists.txt

@@ -46,6 +46,21 @@ option(SLS_BUILD_DOCS "docs" OFF)
 option(SLS_BUILD_EXAMPLES "examples" OFF)
 option(SLS_TUNE_LOCAL "tune to local machine" OFF)
 
+# set(ClangFormat_BIN_NAME clang-format)
+set(ClangFormat_EXCLUDE_PATTERNS  "build/" 
+                                    "libs/" 
+                                    "slsDetectorCalibration/" 
+                                    "ctbGui/" 
+                                    "manual/"
+                                    "python/"
+                                    "sample/"
+                                    ${CMAKE_BINARY_DIR})
+find_package(ClangFormat)
+
+#Enable LTO if available
+check_ipo_supported(RESULT SLS_LTO_AVAILABLE)
+
+
 # Use ld.gold if it is available and isn't disabled explicitly
 option(SLS_USE_LD_GOLD "Use GNU gold linker" ON)
 if (SLS_USE_LD_GOLD)

cmake/FindClangFormat.cmake

@@ -0,0 +1,39 @@
+# Find Clang format
+if(NOT ClangFormat_BIN_NAME)
+	set(ClangFormat_BIN_NAME clang-format)
+endif()
+
+# if custom path check there first
+if(ClangFormat_ROOT_DIR)
+    find_program(ClangFormat_BIN 
+        NAMES
+        ${ClangFormat_BIN_NAME}
+        PATHS
+        "${ClangFormat_ROOT_DIR}"
+        NO_DEFAULT_PATH)
+endif()
+
+find_program(ClangFormat_BIN NAMES ${ClangFormat_BIN_NAME})
+
+include(FindPackageHandleStandardArgs)
+FIND_PACKAGE_HANDLE_STANDARD_ARGS(
+    ClangFormat
+    DEFAULT_MSG 
+    ClangFormat_BIN)
+
+mark_as_advanced(
+    ClangFormat_BIN)
+
+if(ClangFormat_FOUND)
+    exec_program(${ClangFormat_BIN} ${CMAKE_CURRENT_SOURCE_DIR} ARGS --version OUTPUT_VARIABLE CLANG_VERSION_TEXT)
+    string(REGEX MATCH "([0-9]+)\\.[0-9]+\\.[0-9]+" CLANG_VERSION ${CLANG_VERSION_TEXT})
+    if((${CLANG_VERSION} GREATER "9") OR (${CLANG_VERSION} EQUAL "9"))
+        # A CMake script to find all source files and setup clang-format targets for them
+        message(STATUS "found clang-format \"${CLANG_VERSION}\" adding formatting targets")
+        include(clang-format)
+    else()
+        message(STATUS "clang-format version \"${CLANG_VERSION}\" found but need at least 9. Not setting up format targets")
+    endif()
+else()
+    message(STATUS "clang-format not found. Not setting up format targets")
+endif()

cmake/clang-format.cmake

@@ -0,0 +1,47 @@
+# A CMake script to find all source files and setup clang-format targets for them
+
+# Find all source files
+set(ClangFormat_CXX_FILE_EXTENSIONS ${ClangFormat_CXX_FILE_EXTENSIONS} *.cpp *.h *.cxx *.hxx *.hpp *.cc *.ipp *.c)
+file(GLOB_RECURSE ALL_SOURCE_FILES ${ClangFormat_CXX_FILE_EXTENSIONS})
+
+# Don't include some common build folders
+set(ClangFormat_EXCLUDE_PATTERNS ${ClangFormat_EXCLUDE_PATTERNS} "/CMakeFiles/" "cmake")
+
+# get all project files file
+foreach (SOURCE_FILE ${ALL_SOURCE_FILES}) 
+    foreach (EXCLUDE_PATTERN ${ClangFormat_EXCLUDE_PATTERNS})
+        string(FIND ${SOURCE_FILE} ${EXCLUDE_PATTERN} EXCLUDE_FOUND) 
+        if (NOT ${EXCLUDE_FOUND} EQUAL -1) 
+            list(REMOVE_ITEM ALL_SOURCE_FILES ${SOURCE_FILE})
+        endif () 
+    endforeach ()
+endforeach ()
+
+#target for formatting soruce files
+add_custom_target(format
+    COMMENT "Running clang-format to change files"
+    COMMAND ${ClangFormat_BIN}
+    -style=file
+    -i
+    ${ALL_SOURCE_FILES}
+)
+
+
+#target to check format on source files 
+add_custom_target(format-check
+    COMMENT "Checking clang-format changes"
+    # Use ! to negate the result for correct output
+    COMMAND !
+    ${ClangFormat_BIN}
+    -style=file
+    -output-replacements-xml
+    ${ALL_SOURCE_FILES}
+    | grep -q "replacement offset" 
+)
+
+# debug to check which file will be formatted
+add_custom_target(
+    listformatfiles
+    COMMAND
+    echo ${ALL_SOURCE_FILES}
+)

ctbGui/patternGenerator/generate.sh

@@ -21,6 +21,7 @@ if [ -f "$infile" ]
 then
 gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\""  -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c ; 
 echo compiling
+echo gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\""  -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c ; 
 $exe ; 
 echo cleaning
 rm $exe

docs/src/gendoc.cpp

@@ -1,7 +1,7 @@
-/** 
+/**
- * Utility program to generate input files for the command line 
+ * Utility program to generate input files for the command line
  * documentation. Uses the string returned from sls_detector_help cmd
- * 
+ *
  */
 #include <fstream>
 #include <iostream>
@@ -9,7 +9,6 @@
 #include <string>
 #include <vector>
 
-
 #include "CmdProxy.h"
 #include "Detector.h"
 #include "sls_detector_defs.h"
@@ -52,5 +51,4 @@ int main() {
         auto help = replace_all(tmp, "\n\t", "\n\t\t");
         fs << '\t' << cmd << usage << help << "\n";
     }
-
 }

integrationTests/test-eigerIntegration.cpp

@@ -1,5 +1,5 @@
-#include "catch.hpp"
 #include "DetectorImpl.h"
+#include "catch.hpp"
 #include "string_utils.h"
 #include "tests/globals.h"
 #include <iostream>

integrationTests/test-integrationDectector.cpp

@@ -2,9 +2,9 @@
 #include "catch.hpp"
 
 #include "ClientSocket.h"
-#include "logger.h"
 #include "DetectorImpl.h"
 #include "Module.h"
+#include "logger.h"
 #include "sls_detector_defs.h"
 
 #include "Timer.h"
@@ -79,7 +79,6 @@ TEST_CASE("Set control port then create a new object with this control port",
     d.freeSharedMemory();
 }
 
-
 TEST_CASE("single EIGER detector no receiver basic set and get",
           "[.integration][eiger]") {
     // TODO! this test should take command line arguments for config
@@ -130,8 +129,6 @@ TEST_CASE("single EIGER detector no receiver basic set and get",
     d.freeSharedMemory();
 }
 
-
-
 TEST_CASE("Locking mechanism and last ip", "[.integration][.single]") {
     Module d(test::type);
     d.setHostname(test::hostname);
@@ -154,13 +151,12 @@ TEST_CASE("Locking mechanism and last ip", "[.integration][.single]") {
     d.freeSharedMemory();
 }
 
-TEST_CASE("Set settings", "[.integration][.single]"){
+TEST_CASE("Set settings", "[.integration][.single]") {
     Module d(test::type);
     d.setHostname(test::hostname);
     CHECK(d.setSettings(defs::STANDARD) == defs::STANDARD);
 }
 
-
 TEST_CASE("Timer functions", "[.integration][cli]") {
     // FRAME_NUMBER, /**< number of real time frames: total number of
     // acquisitions is number or frames*number of triggers */ ACQUISITION_TIME,
@@ -204,8 +200,7 @@ TEST_CASE("Timer functions", "[.integration][cli]") {
     if (test::type != dt::EIGER) {
         auto delay = 10000;
         d.setDelayAfterTrigger(delay);
-        CHECK(d.getDelayAfterTrigger() ==
+        CHECK(d.getDelayAfterTrigger() == delay);
-              delay);
     }
 
     auto triggers = 2;
@@ -218,10 +213,9 @@ TEST_CASE("Timer functions", "[.integration][cli]") {
         CHECK(d.getSubExptime() == subtime);
     }
     // for (int i =0; i!=frames; ++i)
-        d.startAndReadAll();
+    d.startAndReadAll();
 
     d.freeSharedMemory();
-
 }
 
 // TEST_CASE("Aquire", "[.integration][eiger]"){
@@ -382,8 +376,8 @@ TEST_CASE("Chiptestboard Loading Patterns", "[.ctbintegration]") {
     }
 }
 
-
+TEST_CASE("Chiptestboard Dbit offset, list, sampling, advinvert",
-TEST_CASE("Chiptestboard Dbit offset, list, sampling, advinvert", "[.ctbintegration][dbit]") {
+          "[.ctbintegration][dbit]") {
     SingleDetectorConfig c;
 
     // pick up multi detector from shm id 0
@@ -403,27 +397,27 @@ TEST_CASE("Chiptestboard Dbit offset, list, sampling, advinvert", "[.ctbintegrat
 
     // dbit list
 
-    std::vector <int> list = m.getReceiverDbitList();
+    std::vector<int> list = m.getReceiverDbitList();
     list.clear();
     for (int i = 0; i < 10; ++i)
         list.push_back(i);
     m.setReceiverDbitList(list);
-    
+
     CHECK(m.getReceiverDbitList().size() == 10);
 
     list.push_back(64);
     CHECK_THROWS_AS(m.setReceiverDbitList(list), sls::RuntimeError);
-    CHECK_THROWS_WITH(m.setReceiverDbitList(list), 
+    CHECK_THROWS_WITH(m.setReceiverDbitList(list),
-        Catch::Matchers::Contains("be between 0 and 63"));
+                      Catch::Matchers::Contains("be between 0 and 63"));
 
     list.clear();
     for (int i = 0; i < 65; ++i)
         list.push_back(i);
     CHECK(list.size() == 65);
-    CHECK_THROWS_WITH(m.setReceiverDbitList(list),  
+    CHECK_THROWS_WITH(m.setReceiverDbitList(list),
-        Catch::Matchers::Contains("be greater than 64"));
+                      Catch::Matchers::Contains("be greater than 64"));
 
-    list.clear(); 
+    list.clear();
     m.setReceiverDbitList(list);
     CHECK(m.getReceiverDbitList().empty());
 
@@ -441,8 +435,8 @@ TEST_CASE("Chiptestboard Dbit offset, list, sampling, advinvert", "[.ctbintegrat
     m.setExternalSamplingSource(62);
     CHECK(m.getExternalSamplingSource() == 62);
     CHECK_THROWS_WITH(m.setExternalSamplingSource(64),
-         Catch::Matchers::Contains("be 0-63"));
+                      Catch::Matchers::Contains("be 0-63"));
-    CHECK(m.getExternalSamplingSource() == 62); 
+    CHECK(m.getExternalSamplingSource() == 62);
     m.setExternalSampling(1);
     CHECK(m.getExternalSampling() == 1);
     m.setExternalSampling(0);
@@ -450,20 +444,23 @@ TEST_CASE("Chiptestboard Dbit offset, list, sampling, advinvert", "[.ctbintegrat
     m.setExternalSampling(1);
     CHECK(m.getExternalSampling() == 1);
     CHECK(m.readRegister(0x7b) == 0x1003E);
-    
 }
 
-TEST_CASE("Eiger or Jungfrau startingfnum", "[.eigerintegration][.jungfrauintegration][startingfnum]") {
+TEST_CASE("Eiger or Jungfrau startingfnum",
+          "[.eigerintegration][.jungfrauintegration][startingfnum]") {
     SingleDetectorConfig c;
 
     // pick up multi detector from shm id 0
     DetectorImpl m(0);
 
     // ensure ctb detector type, hostname and online
-    REQUIRE(((m.getDetectorTypeAsEnum() == slsDetectorDefs::detectorType::EIGER) || (m.getDetectorTypeAsEnum() == slsDetectorDefs::detectorType::JUNGFRAU)));
+    REQUIRE(
+        ((m.getDetectorTypeAsEnum() == slsDetectorDefs::detectorType::EIGER) ||
+         (m.getDetectorTypeAsEnum() ==
+          slsDetectorDefs::detectorType::JUNGFRAU)));
     REQUIRE(m.getHostname() == c.hostname);
 
-     CHECK(m.setNumberOfFrames(1) == 1);
+    CHECK(m.setNumberOfFrames(1) == 1);
 
     // starting fnum
     uint64_t val = 8;
@@ -498,7 +495,8 @@ TEST_CASE("Eiger readnlines", "[.eigerintegration][readnlines]") {
     DetectorImpl m(0);
 
     // ensure detector type, hostname
-    REQUIRE((m.getDetectorTypeAsEnum() == slsDetectorDefs::detectorType::EIGER));
+    REQUIRE(
+        (m.getDetectorTypeAsEnum() == slsDetectorDefs::detectorType::EIGER));
     REQUIRE(m.getHostname() == c.hostname);
 
     m.setDynamicRange(16);
@@ -507,7 +505,7 @@ TEST_CASE("Eiger readnlines", "[.eigerintegration][readnlines]") {
     CHECK(m.getReadNLines() == 256);
     m.setReadNLines(1);
     CHECK(m.getReadNLines() == 1);
-        
+
     m.setDynamicRange(8);
     m.setReadNLines(256);
     CHECK(m.getReadNLines() == 256);

integrationTests/test-integrationMulti.cpp

@@ -1,5 +1,5 @@
-#include "catch.hpp"
 #include "DetectorImpl.h"
+#include "catch.hpp"
 #include "string_utils.h"
 #include "tests/globals.h"
 #include <iostream>
@@ -24,8 +24,6 @@ TEST_CASE("Initialize a multi detector", "[.integration][.multi]") {
     d.freeSharedMemory();
 }
 
-
-
 TEST_CASE("Set and read timers", "[.integration][.multi]") {
 
     DetectorImpl d(0, true, true);
@@ -57,7 +55,6 @@ TEST_CASE("Set and read timers", "[.integration][.multi]") {
     // PROGRESS, /**< fraction of measurement elapsed - only get! */
     // MEASUREMENTS_NUMBER,
 
-
     // FRAMES_FROM_START,
     // FRAMES_FROM_START_PG,
     // SAMPLES,
@@ -78,7 +75,6 @@ TEST_CASE("Set and read timers", "[.integration][.multi]") {
         CHECK(d.setSubFrameExposureDeadTime(-1) == Approx(subframe_deadtime));
     }
 
-    
     if (test::type == dt::EIGER) {
         // 32bit is needed for subframe exposure
         d.setDynamicRange(32);

python/slsdet/detector.py

@@ -160,6 +160,13 @@ class Detector(CppDetectorApi):
     def frames(self, n_frames):
         self.setNumberOfFrames(n_frames)
 
+    @property
+    def triggers(self):
+        return element_if_equal(self.getNumberOfTriggers())
+
+    @triggers.setter
+    def triggers(self, n_triggers):
+        self.setNumberOfTriggers(n_triggers)
 
     @property
     def exptime(self):

slsDetectorCalibration/dataStructures/moench04CtbZmq10GbData.h

@@ -156,7 +156,7 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
     if (dSamples>isample) {
       ptr=data+32*(isample+1)+8*isample;
       sample=*((uint64_t*)ptr);
-    cout << isc << " " << ibit[isc] << " " << isample << hex << sample << dec << endl;
+      // cout << isc << " " << ibit[isc] << " " << isample << hex << sample << dec << endl;
     if (sample & (1<<ibit[isc]))
       return 1;
     else

slsDetectorCalibration/dataStructures/moench04CtbZmqData.h

@@ -120,7 +120,7 @@ class moench04CtbZmqData : public slsDetectorData<uint16_t> {
     if (dSamples>isample) {
       ptr=data+aoff+8*isample;
       sample=*((uint64_t*)ptr);
-    cout << isc << " " << ibit[isc] << " " << isample << hex << sample << dec << endl;
+      // cout << isc << " " << ibit[isc] << " " << isample << hex << sample << dec << endl;
     if (sample & (1<<ibit[isc]))
       return 1;
     else

slsDetectorCalibration/moenchExecutables/Makefile.zmq

@@ -5,12 +5,15 @@ LDFLAG= -L/usr/lib64/ -lpthread -lm  -lstdc++  -lzmq -pthread -lrt -ltiff   -O3
 
 #DESTDIR?=../bin
 
-all:  moenchZmqProcess 
+all:  moenchZmqProcess moenchZmq04Process
  #moenchZmqProcessCtbGui
 
 moenchZmqProcess:  moenchZmqProcess.cpp   clean
 		      g++ -o moenchZmqProcess  moenchZmqProcess.cpp  $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF)  -DNEWZMQ -DINTERP 
 
+moenchZmq04Process:  moenchZmqProcess.cpp   clean
+		      g++ -o moench04ZmqProcess  moenchZmqProcess.cpp  $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF)  -DNEWZMQ -DINTERP -DMOENCH04 
+
 #moenchZmqProcessCtbGui:  moenchZmqProcess.cpp   clean
 #		      g++ -o moenchZmqProcessCtbGui  moenchZmqProcess.cpp  $(LDFLAG) $(INCDIR) $(LIBHDF5) $(LIBRARYCBF)  -DNEWZMQ -DINTERP -DCTBGUI
 

slsDetectorCalibration/moenchExecutables/moenchZmqProcess.cpp

@@ -8,7 +8,13 @@
 #include "sls_detector_defs.h"
 #include "ZmqSocket.h"
 #ifndef RECT
+#ifndef MOENCH04
 #include "moench03T1ZmqDataNew.h"
+#endif
+#ifdef MOENCH04
+#include "moench04CtbZmq10GbData.h"
+#endif
+
 #endif
 #ifdef RECT
 #include "moench03T1ZmqDataNewRect.h"
@@ -73,6 +79,10 @@ int main(int argc, char *argv[]) {
   char* socketip2 = 0;
   uint32_t portnum2 = 0;
 
+  zmqHeader zHeader, outHeader;
+  zHeader.jsonversion = SLS_DETECTOR_JSON_HEADER_VERSION;
+  outHeader.jsonversion = SLS_DETECTOR_JSON_HEADER_VERSION;
+
   uint32_t nSigma=5;
 
   int ok;
@@ -124,7 +134,12 @@ int main(int argc, char *argv[]) {
   }
 
   //slsDetectorData *det=new moench03T1ZmqDataNew(); 
+#ifndef MOENCH04
   moench03T1ZmqDataNew *det=new moench03T1ZmqDataNew(); 
+#endif
+#ifdef MOENCH04
+  moench04CtbZmq10GbData *det=new moench04CtbZmq10GbData(); 
+#endif
   cout << endl << " det" <<endl;
   int npx, npy;
   det->getDetectorSize(npx, npy);
@@ -140,13 +155,15 @@ int main(int argc, char *argv[]) {
   char dummybuff[size];
   
 
-  int ncol_cm=CM_ROWS;
-  double xt_ghost=C_GHOST;
   moench03CommonMode *cm=NULL;
   moench03GhostSummation *gs=NULL;
 #ifdef CORR
-  cm=new moench03CommonMode(ncol_cm);
+  
-  gs=new moench03GhostSummation(det, xt_ghost);
+  //int ncol_cm=CM_ROWS;
+  //double xt_ghost=C_GHOST;
+
+  cm=new moench03CommonMode(CM_ROWS);
+  gs=new moench03GhostSummation(det, C_GHOST);
 #endif
   double *gainmap=NULL;
   float *gm;
@@ -308,9 +325,10 @@ int main(int argc, char *argv[]) {
 	uint64_t bunchId = 0;
 	uint64_t timestamp = 0;
 	int16_t modId = 0;
+	uint32_t expLength=0;
 	uint16_t xCoord = 0;
 	uint16_t yCoord = 0;
-	uint16_t zCoord = 0;
+	//uint16_t zCoord = 0;
 	uint32_t debug = 0;
 	//uint32_t dr = 16;
 	//int16_t *dout;//=new int16_t [nnx*nny];
@@ -341,6 +359,7 @@ int main(int argc, char *argv[]) {
 	filter->getImageSize(nnx, nny,nnsx, nnsy);
 
 	
+	std::map<std::string, std::string> addJsonHeader;
 
 
 
@@ -350,16 +369,13 @@ int main(int argc, char *argv[]) {
 
 	  //  cout << "+++++++++++++++++++++++++++++++LOOP" << endl;
 		// get header, (if dummy, fail is on parse error or end of acquisition)
-#ifndef NEWZMQ	
-	  if (!zmqsocket->ReceiveHeader(0, acqIndex, frameIndex, subframeIndex, filename, fileindex)){
-#endif
 
-#ifdef NEWZMQ	
+
-	    rapidjson::Document doc;
+
-	    if (!zmqsocket->ReceiveHeader(0, doc, SLS_DETECTOR_JSON_HEADER_VERSION)) {
+	  //  rapidjson::Document doc;
+	    if (!zmqsocket->ReceiveHeader(0, zHeader, SLS_DETECTOR_JSON_HEADER_VERSION)) {
 	      /* zmqsocket->CloseHeaderMessage();*/
 
-#endif
 	    //	  if (!zmqsocket->ReceiveHeader(0, acqIndex, frameIndex, subframeIndex, filename, fileindex)) {
 	       cprintf(RED, "Got Dummy\n");
 	      //   t1=high_resolution_clock::now();
@@ -378,7 +394,11 @@ int main(int argc, char *argv[]) {
 	    if (newFrame>0) {
 	      cprintf(RED,"DIDn't receive any data!\n");
 	    if (send) { 
-	      zmqsocket2->SendHeaderData(0, true, SLS_DETECTOR_JSON_HEADER_VERSION);
+	      
+	      //zHeader.data = false;
+	      outHeader.data=false;
+	      //  zmqsocket2->SendHeaderData(0, true, SLS_DETECTOR_JSON_HEADER_VERSION);
+	      zmqsocket2->SendHeader(0,outHeader);
 	      cprintf(RED, "Sent Dummy\n");
 	    }
 	    } else {
@@ -510,14 +530,39 @@ int main(int argc, char *argv[]) {
 
 	    if(send_something) {
 	   
- 	    zmqsocket2->SendHeaderData (0, false,SLS_DETECTOR_JSON_HEADER_VERSION , dr, fileindex, 1,1,nnx,nny,nnx*nny*dr/8,acqIndex, frameIndex, fname,acqIndex,0 , packetNumber,bunchId, timestamp, modId,xCoord, yCoord, zCoord,debug, roundRNumber, detType, version, 0,0, 0,&additionalJsonHeader);   
+	      //  zmqsocket2->SendHeaderData (0, false,SLS_DETECTOR_JSON_HEADER_VERSION , dr, fileindex, 1,1,nnx,nny,nnx*nny*dr/8,acqIndex, frameIndex, fname,acqIndex,0 , packetNumber,bunchId, timestamp, modId,xCoord, yCoord, zCoord,debug, roundRNumber, detType, version, 0,0, 0,&additionalJsonHeader);   
-			
 	      
+	      outHeader.data=true;
+	      outHeader.dynamicRange=dr;
+	      outHeader.fileIndex=fileindex;
+	      outHeader.ndetx=1;
+	      outHeader.ndety=1;
+	      outHeader.npixelsx=nnx;
+	      outHeader.npixelsy=nny;
+	      outHeader.imageSize=nnx*nny*dr/8;
+	      outHeader.acqIndex=acqIndex;
+	      outHeader.frameIndex=frameIndex;
+	      outHeader.fname=fname;
+	      outHeader.frameNumber=acqIndex;
+	      outHeader.expLength=expLength;
+	      outHeader.packetNumber=packetNumber;
+	      outHeader.bunchId=bunchId;
+	      outHeader.timestamp=timestamp;
+	      outHeader.modId=modId;
+	      outHeader.row=xCoord;
+	      outHeader.column=yCoord;
+	      outHeader.debug=debug;
+	      outHeader.roundRNumber=roundRNumber;
+	      outHeader.detType=detType;
+	      outHeader.version=version;
+	      
+	      zmqsocket2->SendHeader(0,outHeader);
 	      zmqsocket2->SendData((char*)dout,nnx*nny*dr/8);
 	      cprintf(GREEN, "Sent Data\n");
 	    }
-	    
+	    outHeader.data=false;
-	    zmqsocket2->SendHeaderData(0, true, SLS_DETECTOR_JSON_HEADER_VERSION);
+	    zmqsocket2->SendHeader(0,outHeader);
+	    // zmqsocket2->SendHeaderData(0, true, SLS_DETECTOR_JSON_HEADER_VERSION);
 	    cprintf(RED, "Sent Dummy\n");
 	    if (dout)
 	      delete [] dout;
@@ -544,33 +589,84 @@ int main(int argc, char *argv[]) {
 
 	    }
 
-#ifdef NEWZMQ
+	    //#ifdef NEWZMQ
 	    if (newFrame) {
-    begin = std::chrono::steady_clock::now();
+	      begin = std::chrono::steady_clock::now();
-    //time(&begin);
+   
-	      // t0 = high_resolution_clock::now();
+	      size       = zHeader.imageSize;//doc["size"].GetUint();
-	      //cout <<"new frame" << endl;
+	      
+	      // dynamicRange  = zheader.dynamicRange; //doc["bitmode"].GetUint();
+	      // nPixelsX = zHeader.npixelsx; //doc["shape"][0].GetUint();
+	      // nPixelsY = zHeader.npixelsy;// doc["shape"][1].GetUint();
+	      filename        = zHeader.fname;//doc["fname"].GetString();
+	      acqIndex = zHeader.acqIndex; //doc["acqIndex"].GetUint64();
+		// frameIndex       = zHeader.frameIndex;//doc["fIndex"].GetUint64();
+	      fileindex        = zHeader.fileIndex;//doc["fileIndex"].GetUint64();
+	      expLength   = zHeader.expLength;//doc["expLength"].GetUint();
+	      packetNumber=zHeader.packetNumber;//doc["packetNumber"].GetUint();
+	      bunchId=zHeader.bunchId;//doc["bunchId"].GetUint();
+	      timestamp=zHeader.timestamp;//doc["timestamp"].GetUint();
+	      modId=zHeader.modId;//doc["modId"].GetUint();
+	      debug=zHeader.debug;//doc["debug"].GetUint();
+	      //  roundRNumber=r.roundRNumber;//doc["roundRNumber"].GetUint();
+	      detType=zHeader.detType;//doc["detType"].GetUint();
+	      version=zHeader.version;//doc["version"].GetUint();
+	      /*document["bitmode"].GetUint(); zHeader.dynamicRange
 
-	      //  acqIndex, frameIndex, subframeIndex, filename, fileindex
+document["fileIndex"].GetUint64(); zHeader.fileIndex
-	      size       = doc["size"].GetUint();
-	      // multisize  = size;// * zmqsocket->size();
-	      // dynamicRange  = doc["bitmode"].GetUint();
-	      //  nPixelsX = doc["shape"][0].GetUint();
-	      // nPixelsY = doc["shape"][1].GetUint();
-	      filename        = doc["fname"].GetString();
-	      //acqIndex = doc["acqIndex"].GetUint64();
-	      //frameIndex       = doc["fIndex"].GetUint64();
-	      fileindex        = doc["fileIndex"].GetUint64();
-	      //subFrameIndex    = doc["expLength"].GetUint();
-	      //packetNumber=doc["packetNumber"].GetUint();
-	      //bunchId=doc["bunchId"].GetUint();
-	      //timestamp=doc["timestamp"].GetUint();
-	      //modId=doc["modId"].GetUint();
-	      //debug=doc["debug"].GetUint();
-	      //roundRNumber=doc["roundRNumber"].GetUint();
-	      //detType=doc["detType"].GetUint();
-	      //version=doc["version"].GetUint();
 
+document["detshape"][0].GetUint();
+zHeader.ndetx
+
+document["detshape"][1].GetUint();
+zHeader.ndety
+
+document["shape"][0].GetUint();
+zHeader.npixelsx
+
+document["shape"][1].GetUint();
+zHeader.npixelsy
+
+document["size"].GetUint(); zHeader.imageSize
+
+document["acqIndex"].GetUint64(); zHeader.acqIndex
+
+document["frameIndex"].GetUint64(); zHeader.frameIndex
+
+document["fname"].GetString(); zHeader.fname
+
+document["frameNumber"].GetUint64(); zHeader.frameNumber
+
+document["expLength"].GetUint(); zHeader.expLength
+
+document["packetNumber"].GetUint(); zHeader.packetNumber
+
+document["bunchId"].GetUint64(); zHeader.bunchId
+
+document["timestamp"].GetUint64(); zHeader.timestamp
+
+document["modId"].GetUint(); zHeader.modId
+
+document["row"].GetUint(); zHeader.row
+
+document["column"].GetUint(); zHeader.column
+
+document["reserved"].GetUint(); zHeader.reserved
+
+document["debug"].GetUint(); zHeader.debug
+
+document["roundRNumber"].GetUint(); zHeader.roundRNumber
+
+document["detType"].GetUint(); zHeader.detType
+
+document["version"].GetUint(); zHeader.version
+
+document["flippedDataX"].GetUint(); zHeader.flippedDataX
+
+document["quad"].GetUint(); zHeader.quad
+
+document["completeImage"].GetUint(); zHeader.completeImage
+	      */
 	      //dataSize=size;
 
 	      //strcpy(fname,filename.c_str());
@@ -604,6 +700,8 @@ int main(int argc, char *argv[]) {
 	      // 	      xCoord, yCoord,zCoord,
 	      // 	      flippedDataX, packetNumber, bunchId, timestamp, modId, debug, roundRNumber, detType, version);
 	      
+	      addJsonHeader=zHeader.addJsonHeader;
+
 	      /* Analog detector commands */
 	      //isPedestal=0;
 	      //isFlat=0;
@@ -611,9 +709,10 @@ int main(int argc, char *argv[]) {
 	      fMode=eFrame;
 	      frameMode_s="frame";
 	      cprintf(MAGENTA, "Frame mode: ");
-	      if (doc.HasMember("frameMode")) {
+	      //	      if (doc.HasMember("frameMode")) {
-		if (doc["frameMode"].IsString()) {
+	      if (addJsonHeader.find("frameMode")!= addJsonHeader.end()) { 
-		  frameMode_s=doc["frameMode"].GetString();
+		//	if (doc["frameMode"].IsString()) {
+		frameMode_s=addJsonHeader.at("frameMode");//doc["frameMode"].GetString();
 		  if (frameMode_s == "pedestal"){
 		    fMode=ePedestal;
 		    //isPedestal=1;
@@ -639,7 +738,7 @@ int main(int argc, char *argv[]) {
 		     cprintf(MAGENTA, "Resetting flatfield\n");
 		     fMode=eFlat;
 		   }
-#endif
+		  //#endif
 		  else {
 		    fMode=eFrame;
 		    //isPedestal=0;
@@ -647,19 +746,23 @@ int main(int argc, char *argv[]) {
 		    fMode=eFrame;
 		    frameMode_s="frame";
 		  }
-		}
+		  //}
 	      }
 	      cprintf(MAGENTA, "%s\n" , frameMode_s.c_str());
 	      mt->setFrameMode(fMode);
 
 	      // threshold=0;
-	      cprintf(MAGENTA, "Threshold: ");
+	      cprintf(MAGENTA, "Threshold: "); 
-	      if (doc.HasMember("threshold")) {	
+	      if (addJsonHeader.find("threshold")!= addJsonHeader.end()) {
-		if (doc["threshold"].IsInt()) {
+		istringstream(addJsonHeader.at("threshold")) >>threshold;
-		  threshold=doc["threshold"].GetInt();
+		//		threshold=atoi(addJsonHeader.at("threshold").c_str());//doc["frameMode"].GetString();
-		  mt->setThreshold(threshold);
+	      }
-		}
+	      //if (doc.HasMember("threshold")) {	
-	      }	
+	      //if (doc["threshold"].IsInt()) {
+	      //  threshold=doc["threshold"].GetInt();
+	      mt->setThreshold(threshold);
+	      //	}
+	      // }	
 	      cprintf(MAGENTA, "%d\n", threshold);
 
 	      xmin=0;
@@ -667,40 +770,47 @@ int main(int argc, char *argv[]) {
 	      ymin=0;
 	      ymax=npy;
 	      cprintf(MAGENTA, "ROI: ");
-	      if (doc.HasMember("roi")) {
+	      
-		if (doc["roi"].IsArray()) {
+	      if (addJsonHeader.find("roi")!= addJsonHeader.end()) {
-		  if (doc["roi"].Size() > 0 )
+		istringstream(addJsonHeader.at("roi")) >> xmin >> xmax >> ymin >> ymax ;
-		    if (doc["roi"][0].IsInt())
+		//  if (doc.HasMember("roi")) {
-		      xmin=doc["roi"][0].GetInt();
+		//if (doc["roi"].IsArray()) {
+		// if (doc["roi"].Size() > 0 )
+		//  if (doc["roi"][0].IsInt())
+		   //    xmin=doc["roi"][0].GetInt();
 		  
-		  if (doc["roi"].Size() > 1 )
+		//   if (doc["roi"].Size() > 1 )
-		    if (doc["roi"][1].IsInt())
+		//     if (doc["roi"][1].IsInt())
-		      xmax=doc["roi"][1].GetInt();
+		//       xmax=doc["roi"][1].GetInt();
 
-		  if (doc["roi"].Size() > 2 )
+		//   if (doc["roi"].Size() > 2 )
-		    if (doc["roi"][2].IsInt())
+		//     if (doc["roi"][2].IsInt())
-		      ymin=doc["roi"][2].GetInt();
+		//       ymin=doc["roi"][2].GetInt();
 		  
-		  if (doc["roi"].Size() > 3 )
+		//   if (doc["roi"].Size() > 3 )
-		    if (doc["roi"][3].IsInt())
+		//     if (doc["roi"][3].IsInt())
-		      ymax=doc["roi"][3].GetInt();
+		//       ymax=doc["roi"][3].GetInt();
-		}
+		// }
 	      }
 
 	      cprintf(MAGENTA, "%d %d %d %d\n", xmin, xmax, ymin, ymax);
 	      mt->setROI(xmin, xmax, ymin, ymax);	
-	
+	      if (addJsonHeader.find("dynamicRange")!= addJsonHeader.end()) {
-	      if (doc.HasMember("dynamicRange")) {
+		istringstream(addJsonHeader.at("dynamicRange")) >> dr ;
-		dr=doc["dynamicRange"].GetUint();
 		dr=32;
 	      }
+	      // if (doc.HasMember("dynamicRange")) {
+	      // 	dr=doc["dynamicRange"].GetUint();
+	      // 	dr=32;
+	      // }
 
 	      dMode=eAnalog;
 	      detectorMode_s="analog";
-	      cprintf(MAGENTA, "Detector mode: ");
+	      cprintf(MAGENTA, "Detector mode: ");	  
-	      if (doc.HasMember("detectorMode")) {
+		if (addJsonHeader.find("detectorMode")!= addJsonHeader.end()) {;
-		if (doc["detectorMode"].IsString()) {
+		  //if (doc.HasMember("detectorMode")) {
-		    detectorMode_s=doc["detectorMode"].GetString();
+		  //if (doc["detectorMode"].IsString()) {
+		  detectorMode_s=addJsonHeader.at("detectorMode");//=doc["detectorMode"].GetString();
 #ifdef INTERP
 		    if (detectorMode_s == "interpolating"){
 		      dMode=eInterpolating;
@@ -718,7 +828,7 @@ int main(int argc, char *argv[]) {
 		      mt->setInterpolation(NULL);
 #endif
 		    }
-		  }
+		    // }
 		  
 	      }
 
@@ -767,19 +877,19 @@ int main(int argc, char *argv[]) {
 	      // }
 	      
 	      // threshold=0;
-	      cprintf(MAGENTA, "Subframes: ");
+	      // cprintf(MAGENTA, "Subframes: ");
-	      subframes=0;
+	      // subframes=0;
-	      //isubframe=0;
+	      // //isubframe=0;
-	      insubframe=0;
+	      // insubframe=0;
-	      subnorm=1;
+	      // subnorm=1;
-	      f0=0;
+	      // f0=0;
-	      nnsubframe=0;
+	      // nnsubframe=0;
-	      if (doc.HasMember("subframes")) {	
+	      // if (doc.HasMember("subframes")) {	
-		if (doc["subframes"].IsInt()) {
+	      // 	if (doc["subframes"].IsInt()) {
-		  subframes=doc["subframes"].GetInt();
+	      // 	  subframes=doc["subframes"].GetInt();
-		}
+	      // 	}
-	      }	
+	      // }	
-	      cprintf(MAGENTA, "%ld\n", subframes);
+	      // cprintf(MAGENTA, "%ld\n", subframes);
 
 	      
 	      newFrame=0;
@@ -811,13 +921,13 @@ int main(int argc, char *argv[]) {
 	  // get data
 	  // acqIndex = doc["acqIndex"].GetUint64();
 
-	  frameIndex       = doc["fIndex"].GetUint64();
+	  frameIndex       = zHeader.frameIndex;////doc["fIndex"].GetUint64();
 
 	  // subFrameIndex    = doc["expLength"].GetUint();
 
 	  //  bunchId=doc["bunchId"].GetUint();
 	  //  timestamp=doc["timestamp"].GetUint();
-	  packetNumber=doc["packetNumber"].GetUint();
+	  packetNumber=zHeader.packetNumber; //doc["packetNumber"].GetUint();
 	  // cout << acqIndex << " " << frameIndex << " " << subFrameIndex << " "<< bunchId << " " << timestamp << " " << packetNumber << endl;
 	  //cprintf(GREEN, "frame\n");
 	  if (packetNumber>=40) {
@@ -866,8 +976,9 @@ int main(int argc, char *argv[]) {
 
 
 	    
- 	    zmqsocket2->SendHeaderData (0, false,SLS_DETECTOR_JSON_HEADER_VERSION , dr, fileindex, 1,1,nnx,nny,nnx*nny*dr/8,acqIndex, frameIndex, fname,acqIndex,0 , packetNumber,bunchId, timestamp, modId,xCoord, yCoord, zCoord,debug, roundRNumber, detType, version, 0,0, 0,&additionalJsonHeader);
+	    //   zmqsocket2->SendHeaderData (0, false,SLS_DETECTOR_JSON_HEADER_VERSION , dr, fileindex, 1,1,nnx,nny,nnx*nny*dr/8,acqIndex, frameIndex, fname,acqIndex,0 , packetNumber,bunchId, timestamp, modId,xCoord, yCoord, zCoord,debug, roundRNumber, detType, version, 0,0, 0,&additionalJsonHeader);
-
+	    zHeader.data = true;
+	    zmqsocket2->SendHeader(0,zHeader);
 	    zmqsocket2->SendData((char*)dout,nnx*nny*dr/8);
 	    cprintf(GREEN, "Sent subdata\n");
 		

slsDetectorCalibration/singlePhotonDetector.h

@@ -490,7 +490,7 @@ int *getClusters(char *data,  int *ph=NULL) {
       	  //  (clusters+nph)->ped=getPedestal(ix,iy,0);
 	  for (ir=-(clusterSizeY/2); ir<(clusterSizeY/2)+1; ir++) {
 	    for (ic=-(clusterSize/2); ic<(clusterSize/2)+1; ic++) {
-	      if ((iy+ir)>=iy && (iy+ir)<ny && (ix+ic)>=ix && (ix+ic)<nx) 
+	      if ((iy+ir)>=0  && (iy+ir)<ny &&  (ix+ic)>=0 && (ix+ic)<nx) 
 		(clusters+nph)->set_data(val[iy+ir][ix+ic],ic,ir);
 	    }
       }

slsDetectorCalibration/single_photon_hit.h

@@ -36,19 +36,17 @@ class single_photon_hit {
       \param myFile file descriptor
   */
   size_t write(FILE *myFile) {
-    //fwrite((void*)this, 1, 3*sizeof(int)+4*sizeof(double)+sizeof(quad), myFile); 
+    //fwrite((void*)this, 1, 3*sizeof(int)+4*sizeof(double)+sizeof(quad), myFile);  // if (fwrite((void*)this, 1, sizeof(int)+2*sizeof(int16_t), myFile))
-    
-    // if (fwrite((void*)this, 1, sizeof(int)+2*sizeof(int16_t), myFile))
 #ifdef OLDFORMAT 
     if (fwrite((void*)&iframe, 1,  sizeof(int), myFile)) {};
 #endif  
 #ifndef WRITE_QUAD
       //printf("no quad ");
-    //if (fwrite((void*)&x, 2,  sizeof(int16_t), myFile)) 
+    if (fwrite((void*)&x, sizeof(int16_t), 2, myFile)) 
-      return fwrite((void*)&x, 1, dx*dy*sizeof(int)+2*sizeof(int16_t), myFile);
+      return fwrite((void*)data, sizeof(int), dx*dy, myFile);
 #endif 
 #ifdef WRITE_QUAD
-    // printf("quad ");
+    //  printf("quad ");
     int qq[4];
     switch(quad) {
     case TOP_LEFT:
@@ -91,8 +89,8 @@ class single_photon_hit {
     default:
       ;
     }
-     if (fwrite((void*)&x, 2,  sizeof(int16_t), myFile)) 
+     if (fwrite((void*)&x,   sizeof(int16_t), 2, myFile)) 
-      return fwrite((void*)qq, 1, 4*sizeof(int), myFile);
+      return fwrite((void*)qq, sizeof(int), 4, myFile);
 #endif
     return 0;
   };   
@@ -109,14 +107,14 @@ class single_photon_hit {
 #endif   
 #ifndef WRITE_QUAD
       // printf( "no quad \n");
-    if (fread((void*)&x, 2,  sizeof(int16_t), myFile))  
+    if (fread((void*)&x,  sizeof(int16_t),2, myFile))  
-      return fread((void*)data, 1, dx*dy*sizeof(int), myFile);
+      return fread((void*)data, sizeof(int), dx*dy,myFile);
 #endif 
 #ifdef WRITE_QUAD
     int qq[4];
-    // printf( "quad \n");
+    printf( "quad \n");
-    if (fread((void*)&x, 2,  sizeof(int16_t), myFile))  
+    if (fread((void*)&x, sizeof(int16_t), 2,  myFile))  
-      if (fread((void*)qq, 1, 4*sizeof(int), myFile)) {
+      if (fread((void*)qq, sizeof(int), 4, myFile)) {
 
 	quad=TOP_RIGHT;
 	/*	int mm=qq[0]; */
@@ -216,7 +214,6 @@ class single_photon_hit {
     for (int iy=0; iy<dy; iy++) {
       for (int ix=0; ix<dx; ix++) {
 	printf("%d \t",data[ix+iy*dx]);
-
       }
     printf("\n");
     }

slsDetectorGui/include/qCloneWidget.h

@@ -14,7 +14,8 @@ class qCloneWidget : public QMainWindow, private Ui::ClonePlotObject {
     qCloneWidget(QWidget *parent, SlsQt1DPlot *p1, SlsQt2DPlot *p2,
                  SlsQt1DPlot *gp1, SlsQt2DPlot *gp, QString title,
                  QString filePath, QString fileName, int64_t aIndex,
-                 bool displayStats, QString min, QString max, QString sum, bool completeImage);
+                 bool displayStats, QString min, QString max, QString sum,
+                 bool completeImage);
 
     ~qCloneWidget();
 

slsDetectorGui/include/qDacWidget.h

@@ -1,7 +1,7 @@
 #pragma once
-#include "ui_form_dac.h"
 #include "Detector.h"
 #include "sls_detector_defs.h"
+#include "ui_form_dac.h"
 #include <string>
 
 class qDacWidget : public QWidget, private Ui::WidgetDacObject {

slsDetectorGui/include/qDefs.h

@@ -6,9 +6,9 @@
 #include <QMessageBox>
 
 #include <chrono>
+#include <cstdint>
 #include <iostream>
 #include <ostream>
-#include <cstdint>
 #include <string>
 
 using std::chrono::duration;

slsDetectorGui/include/qDetectorMain.h

@@ -1,7 +1,7 @@
 #pragma once
-#include "ui_form_detectormain.h"
-#include "qDefs.h"
 #include "Detector.h"
+#include "qDefs.h"
+#include "ui_form_detectormain.h"
 #include <QTabWidget>
 
 class qDrawPlot;
@@ -29,7 +29,7 @@ class qDetectorMain : public QMainWindow, private Ui::DetectorMainObject {
     Q_OBJECT
 
   public:
-    qDetectorMain(int multiId, const std::string& fname, bool isDevel);
+    qDetectorMain(int multiId, const std::string &fname, bool isDevel);
     ~qDetectorMain();
 
   private slots:
@@ -51,9 +51,9 @@ class qDetectorMain : public QMainWindow, private Ui::DetectorMainObject {
 
   private:
     void SetUpWidgetWindow();
-    void SetUpDetector(const std::string& config_file, int multiID);
+    void SetUpDetector(const std::string &config_file, int multiID);
     void Initialization();
-    void LoadConfigFile(const std::string& config_file);
+    void LoadConfigFile(const std::string &config_file);
 
     /** enumeration of the tabs */
     enum {
@@ -70,7 +70,7 @@ class qDetectorMain : public QMainWindow, private Ui::DetectorMainObject {
     slsDetectorDefs::detectorType detType;
     std::unique_ptr<sls::Detector> det;
     qDrawPlot *plot;
-    MyTabWidget* tabs;
+    MyTabWidget *tabs;
     std::unique_ptr<QScrollArea> scroll[NumberOfTabs];
     qTabMeasurement *tabMeasurement;
     qTabDataOutput *tabDataOutput;

slsDetectorGui/include/qDrawPlot.h

@@ -1,7 +1,7 @@
 #pragma once
-#include "ui_form_plot.h"
-#include "qDefs.h"
 #include "Detector.h"
+#include "qDefs.h"
+#include "ui_form_plot.h"
 #include <mutex>
 
 class SlsQt1DPlot;

slsDetectorGui/include/qTabAdvanced.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_advanced.h"
 #include "Detector.h"
+#include "ui_form_tab_advanced.h"
 
 class qDrawPlot;
 

slsDetectorGui/include/qTabDataOutput.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_dataoutput.h"
 #include "Detector.h"
+#include "ui_form_tab_dataoutput.h"
 
 class qTabDataOutput : public QWidget, private Ui::TabDataOutputObject {
     Q_OBJECT

slsDetectorGui/include/qTabDebugging.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_debugging.h"
 #include "Detector.h"
+#include "ui_form_tab_debugging.h"
 
 class QTreeWidget;
 class QTreeWidgetItem;

slsDetectorGui/include/qTabDeveloper.h

@@ -1,7 +1,7 @@
 #pragma once
-#include "ui_form_tab_developer.h"
 #include "Detector.h"
 #include "sls_detector_defs.h"
+#include "ui_form_tab_developer.h"
 #include <vector>
 
 class qDacWidget;

slsDetectorGui/include/qTabMeasurement.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_measurement.h"
 #include "Detector.h"
+#include "ui_form_tab_measurement.h"
 
 class qDrawPlot;
 class QStandardItemModel;

slsDetectorGui/include/qTabPlot.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_plot.h"
 #include "Detector.h"
+#include "ui_form_tab_plot.h"
 
 class qDrawPlot;
 class QButtonGroup;

slsDetectorGui/include/qTabSettings.h

@@ -1,6 +1,6 @@
 #pragma once
-#include "ui_form_tab_settings.h"
 #include "Detector.h"
+#include "ui_form_tab_settings.h"
 
 class qTabSettings : public QWidget, private Ui::TabSettingsObject {
     Q_OBJECT

slsDetectorGui/slsDetectorPlotting/include/SlsQt1DPlot.h

@@ -1,8 +1,8 @@
 #ifndef SLSQT1DPLOT_H
 #define SLSQT1DPLOT_H
 
-#include "ansi.h"
 #include "SlsQt1DZoomer.h"
+#include "ansi.h"
 #include <qwt_plot.h>
 #include <qwt_plot_curve.h>
 #include <qwt_plot_marker.h>

slsDetectorGui/slsDetectorPlotting/include/SlsQt2DZoomer.h

@@ -1,9 +1,9 @@
 #ifndef SLSQT2DZOOMER_H
 #define SLSQT2DZOOMER_H
 #include "SlsQt2DHist.h"
+#include <cstdio>
 #include <qwt_plot_panner.h>
 #include <qwt_plot_zoomer.h>
-#include <cstdio>
 
 class SlsQt2DZoomer : public QwtPlotZoomer {
   private:

slsDetectorGui/slsDetectorPlotting/src/SlsQt1DPlot.cpp

@@ -1,7 +1,7 @@
 
 /* TODO! short description */
 #include "SlsQt1DPlot.h"
-#include <qwt_symbol.h>
+#include <iostream>
 #include <qwt_legend.h>
 #include <qwt_math.h>
 #include <qwt_painter.h>
@@ -10,8 +10,8 @@
 #include <qwt_scale_draw.h>
 #include <qwt_scale_engine.h>
 #include <qwt_scale_widget.h>
+#include <qwt_symbol.h>
 #include <stdlib.h>
-#include <iostream>
 
 #define QwtLog10ScaleEngine QwtLogScaleEngine // hmm
 
@@ -314,7 +314,8 @@ void SlsQtH1DList::Remove(SlsQtH1D *hist) {
             hl = hl->the_next;
         else { // match
             if (!hl->the_next)
-                hl->the_hist = nullptr; // first the_hist is zero when there's no next
+                hl->the_hist =
+                    nullptr; // first the_hist is zero when there's no next
             else {
                 SlsQtH1DList *t = hl->the_next;
                 hl->the_hist = t->the_hist;

slsDetectorGui/slsDetectorPlotting/src/SlsQt1DZoomer.cpp

@@ -1,9 +1,9 @@
 /* TODO! short description */
 #include "SlsQt1DZoomer.h"
 #include "SlsQt1DPlot.h"
+#include <iostream>
 #include <qwt_plot.h>
 #include <qwt_scale_div.h>
-#include <iostream>
 
 void SlsQt1DZoomer::ResetZoomBase() {
     SetZoomBase(x0, y0, x1 - x0,

slsDetectorGui/slsDetectorPlotting/src/SlsQt2DPlot.cpp

@@ -216,7 +216,7 @@ QwtLinearColorMap *SlsQt2DPlot::myColourMap(QVector<double> colourStops) {
 }
 
 QwtLinearColorMap *SlsQt2DPlot::myColourMap(int log) {
-    QVector<double> cs{0.0, 0.34, 0.61 ,0.84, 1.0};
+    QVector<double> cs{0.0, 0.34, 0.61, 0.84, 1.0};
     if (log) {
         for (int i = 0; i < cs.size(); ++i)
             cs[i] = (pow(10, 2 * cs[i]) - 1) / 99.0;
@@ -224,7 +224,6 @@ QwtLinearColorMap *SlsQt2DPlot::myColourMap(int log) {
     return myColourMap(cs);
 }
 
-
 void SlsQt2DPlot::Update() {
     if (isLog)
         hist->SetMinimumToFirstGreaterThanZero();

slsDetectorGui/src/qDacWidget.cpp

@@ -1,7 +1,6 @@
 #include "qDacWidget.h"
 #include "qDefs.h"
 
-
 qDacWidget::qDacWidget(QWidget *parent, sls::Detector *detector, bool d,
                        std::string n, slsDetectorDefs::dacIndex i)
     : QWidget(parent), det(detector), isDac(d), index(i) {
@@ -56,8 +55,8 @@ void qDacWidget::GetDac() {
 
 void qDacWidget::SetDac() {
     int val = (int)spinDac->value();
-    LOG(logINFO) << "Setting dac:" << lblDac->text().toAscii().data()
+    LOG(logINFO) << "Setting dac:" << lblDac->text().toAscii().data() << " : "
-                      << " : " << val;
+                 << val;
 
     try {
         det->setDAC(index, val, 0, {detectorIndex});

slsDetectorGui/src/qDetectorMain.cpp

@@ -19,8 +19,8 @@
 #include <QScrollArea>
 #include <QSizePolicy>
 
-#include <string>
 #include <getopt.h>
+#include <string>
 #include <sys/stat.h>
 
 int main(int argc, char **argv) {
@@ -57,8 +57,7 @@ int main(int argc, char **argv) {
 
         case 'f':
             fname = optarg;
-            LOG(logDEBUG)
+            LOG(logDEBUG) << long_options[option_index].name << " " << optarg;
-                << long_options[option_index].name << " " << optarg;
             break;
 
         case 'd':
@@ -72,7 +71,7 @@ int main(int argc, char **argv) {
         case 'v':
             tempval = APIGUI;
             LOG(logINFO) << "SLS Detector GUI " << GITBRANCH << " (0x"
-                              << std::hex << tempval << ")";
+                         << std::hex << tempval << ")";
             return 0;
 
         case 'h':
@@ -93,7 +92,7 @@ int main(int argc, char **argv) {
     }
 
     QApplication app(argc, argv);
-    app.setStyle(new QPlastiqueStyle); //style is deleted by QApplication
+    app.setStyle(new QPlastiqueStyle); // style is deleted by QApplication
     try {
         qDetectorMain det(multiId, fname, isDeveloper);
         det.show();
@@ -105,18 +104,18 @@ int main(int argc, char **argv) {
     return 0;
 }
 
-qDetectorMain::qDetectorMain(int multiId, const std::string& fname, bool isDevel)
+qDetectorMain::qDetectorMain(int multiId, const std::string &fname,
-    : QMainWindow(nullptr), detType(slsDetectorDefs::GENERIC), isDeveloper(isDevel),
+                             bool isDevel)
-      heightPlotWindow(0), heightCentralWidget(0) {
+    : QMainWindow(nullptr), detType(slsDetectorDefs::GENERIC),
+      isDeveloper(isDevel), heightPlotWindow(0), heightCentralWidget(0) {
 
     setupUi(this);
     SetUpDetector(fname, multiId);
     SetUpWidgetWindow();
 }
 
-qDetectorMain::~qDetectorMain(){
+qDetectorMain::~qDetectorMain() {
-    disconnect(tabs, SIGNAL(currentChanged(int)), this,
+    disconnect(tabs, SIGNAL(currentChanged(int)), this, SLOT(Refresh(int)));
-            SLOT(Refresh(int)));
 }
 
 void qDetectorMain::SetUpWidgetWindow() {
@@ -132,8 +131,7 @@ void qDetectorMain::SetUpWidgetWindow() {
     layoutTabs->addWidget(tabs);
 
     // creating all the other tab widgets
-    tabMeasurement =
+    tabMeasurement = new qTabMeasurement(this, det.get(), plot);
-        new qTabMeasurement(this, det.get(), plot);
     tabDataOutput = new qTabDataOutput(this, det.get());
     tabPlot = new qTabPlot(this, det.get(), plot);
     tabSettings = new qTabSettings(this, det.get());
@@ -206,7 +204,7 @@ void qDetectorMain::SetUpWidgetWindow() {
     Initialization();
 }
 
-void qDetectorMain::SetUpDetector(const std::string& config_file, int multiID) {
+void qDetectorMain::SetUpDetector(const std::string &config_file, int multiID) {
 
     // instantiate detector and set window title
     det = sls::make_unique<sls::Detector>(multiID);
@@ -260,8 +258,8 @@ void qDetectorMain::Initialization() {
     //	Measurement tab
     connect(tabMeasurement, SIGNAL(EnableTabsSignal(bool)), this,
             SLOT(EnableTabs(bool)));
-    connect(tabMeasurement, SIGNAL(FileNameChangedSignal(QString)),
+    connect(tabMeasurement, SIGNAL(FileNameChangedSignal(QString)), plot,
-            plot, SLOT(SetSaveFileName(QString)));
+            SLOT(SetSaveFileName(QString)));
     // Plot tab
     connect(tabPlot, SIGNAL(DisableZoomSignal(bool)), this,
             SLOT(SetZoomToolTip(bool)));
@@ -269,8 +267,7 @@ void qDetectorMain::Initialization() {
     // Plotting
     connect(plot, SIGNAL(AcquireFinishedSignal()), tabMeasurement,
             SLOT(AcquireFinished()));
-    connect(plot, SIGNAL(AbortSignal()), tabMeasurement,
+    connect(plot, SIGNAL(AbortSignal()), tabMeasurement, SLOT(AbortAcquire()));
-            SLOT(AbortAcquire()));
 
     // menubar
     // Modes Menu
@@ -284,7 +281,7 @@ void qDetectorMain::Initialization() {
             SLOT(ExecuteHelp(QAction *)));
 }
 
-void qDetectorMain::LoadConfigFile(const std::string& config_file) {
+void qDetectorMain::LoadConfigFile(const std::string &config_file) {
 
     LOG(logINFO) << "Loading config file at start up:" << config_file;
 
@@ -372,8 +369,7 @@ void qDetectorMain::ExecuteUtilities(QAction *action) {
                                "The Configuration Parameters have been "
                                "configured successfully.",
                                "qDetectorMain::ExecuteUtilities");
-                LOG(logINFO)
+                LOG(logINFO) << "Configuration Parameters loaded successfully";
-                    << "Configuration Parameters loaded successfully";
             }
         }
 
@@ -438,7 +434,7 @@ void qDetectorMain::ExecuteUtilities(QAction *action) {
 void qDetectorMain::ExecuteHelp(QAction *action) {
     if (action == actionAbout) {
         LOG(logINFO) << "About Common GUI for Jungfrau, Eiger, Mythen3, "
-                             "Gotthard, Gotthard2 and Moench detectors";
+                        "Gotthard, Gotthard2 and Moench detectors";
 
         std::string guiVersion = std::to_string(APIGUI);
         std::string clientVersion = "unknown";

slsDetectorGui/src/qDrawPlot.cpp

@@ -51,16 +51,16 @@ void qDrawPlot::SetupWidgetWindow() {
         gainMask = (3 << 14);
         gainOffset = 14;
         LOG(logINFO) << "Pixel Mask: " << std::hex << pixelMask
-                          << ", Gain Mask:" << gainMask
+                     << ", Gain Mask:" << gainMask
-                          << ", Gain Offset:" << std::dec << gainOffset;
+                     << ", Gain Offset:" << std::dec << gainOffset;
         break;
     case slsDetectorDefs::GOTTHARD2:
         pixelMask = ((1 << 12) - 1);
         gainMask = (3 << 12);
         gainOffset = 12;
         LOG(logINFO) << "Pixel Mask: " << std::hex << pixelMask
-                          << ", Gain Mask:" << gainMask
+                     << ", Gain Mask:" << gainMask
-                          << ", Gain Offset:" << std::dec << gainOffset;
+                     << ", Gain Offset:" << std::dec << gainOffset;
         break;
     default:
         break;
@@ -277,8 +277,7 @@ void qDrawPlot::SetPlotTitlePrefix(QString title) {
 }
 
 void qDrawPlot::SetXAxisTitle(QString title) {
-    LOG(logINFO) << "Setting X Axis Title to "
+    LOG(logINFO) << "Setting X Axis Title to " << title.toAscii().constData();
-                      << title.toAscii().constData();
     if (is1d) {
         xTitle1d = title;
     } else {
@@ -287,8 +286,7 @@ void qDrawPlot::SetXAxisTitle(QString title) {
 }
 
 void qDrawPlot::SetYAxisTitle(QString title) {
-    LOG(logINFO) << "Setting Y Axis Title to "
+    LOG(logINFO) << "Setting Y Axis Title to " << title.toAscii().constData();
-                      << title.toAscii().constData();
     if (is1d) {
         yTitle1d = title;
     } else {
@@ -297,8 +295,7 @@ void qDrawPlot::SetYAxisTitle(QString title) {
 }
 
 void qDrawPlot::SetZAxisTitle(QString title) {
-    LOG(logINFO) << "Setting Z Axis Title to "
+    LOG(logINFO) << "Setting Z Axis Title to " << title.toAscii().constData();
-                      << title.toAscii().constData();
     zTitle2d = title;
 }
 
@@ -309,8 +306,8 @@ void qDrawPlot::SetXYRangeChanged(bool disable, double *xy, bool *isXY) {
     std::copy(xy, xy + 4, xyRange);
     std::copy(isXY, isXY + 4, isXYRange);
 
-    LOG(logDEBUG) << "Setting Disable zoom to " << std::boolalpha
+    LOG(logDEBUG) << "Setting Disable zoom to " << std::boolalpha << disable
-                       << disable << std::noboolalpha;
+                  << std::noboolalpha;
     disableZoom = disable;
 }
 
@@ -348,8 +345,8 @@ double qDrawPlot::GetYMaximum() {
 }
 
 void qDrawPlot::SetDataCallBack(bool enable) {
-    LOG(logINFO) << "Setting data call back to " << std::boolalpha
+    LOG(logINFO) << "Setting data call back to " << std::boolalpha << enable
-                      << enable << std::noboolalpha;
+                 << std::noboolalpha;
     try {
         if (enable) {
             isPlot = true;
@@ -360,13 +357,14 @@ void qDrawPlot::SetDataCallBack(bool enable) {
             det->registerDataCallback(nullptr, this);
             det->setRxZmqDataStream(false);
         }
-    } CATCH_DISPLAY("Could not get set rxr data streaming enable.",
+    }
+    CATCH_DISPLAY("Could not get set rxr data streaming enable.",
                   "qDrawPlot::SetDataCallBack")
 }
 
 void qDrawPlot::SetBinary(bool enable, int from, int to) {
     LOG(logINFO) << (enable ? "Enabling" : "Disabling")
-                      << " Binary output from " << from << " to " << to;
+                 << " Binary output from " << from << " to " << to;
     binaryFrom = from;
     binaryTo = to;
     isBinary = enable;
@@ -380,7 +378,7 @@ void qDrawPlot::SetPersistency(int val) {
 void qDrawPlot::SetLines(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Lines to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     isLines = enable;
     for (int i = 0; i < nHists; ++i) {
         SlsQtH1D *h = hists1d.at(i);
@@ -391,7 +389,7 @@ void qDrawPlot::SetLines(bool enable) {
 void qDrawPlot::SetMarkers(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Markers to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     isMarkers = enable;
     for (int i = 0; i < nHists; ++i) {
         SlsQtH1D *h = hists1d.at(i);
@@ -402,28 +400,28 @@ void qDrawPlot::SetMarkers(bool enable) {
 void qDrawPlot::Set1dLogY(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Log Y to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     plot1d->SetLogY(enable);
 }
 
 void qDrawPlot::SetInterpolate(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Interpolate to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     plot2d->SetInterpolate(enable);
 }
 
 void qDrawPlot::SetContour(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Countour to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     plot2d->SetContour(enable);
 }
 
 void qDrawPlot::SetLogz(bool enable) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logINFO) << "Setting Log Z to " << std::boolalpha << enable
-                      << std::noboolalpha;
+                 << std::noboolalpha;
     plot2d->SetLogz(enable, isZRange[0], isZRange[1], zRange[0], zRange[1]);
 }
 
@@ -455,7 +453,7 @@ void qDrawPlot::ResetAccumulate() {
 
 void qDrawPlot::DisplayStatistics(bool enable) {
     LOG(logINFO) << (enable ? "Enabling" : "Disabling")
-                      << " Statistics Display";
+                 << " Statistics Display";
     displayStatistics = enable;
 }
 
@@ -471,7 +469,7 @@ void qDrawPlot::EnableGainPlot(bool enable) {
 
 void qDrawPlot::SetSaveFileName(QString val) {
     LOG(logDEBUG) << "Setting Clone/Save File Name to "
-                       << val.toAscii().constData();
+                  << val.toAscii().constData();
     fileSaveName = val;
 }
 
@@ -570,8 +568,8 @@ void qDrawPlot::ClonePlot() {
     new qCloneWidget(this, cloneplot1D, cloneplot2D, clonegainplot1D,
                      clonegainplot2D, boxPlot->title(), fileSavePath,
                      fileSaveName, currentAcqIndex, displayStatistics,
-                     lblMinDisp->text(), lblMaxDisp->text(),
+                     lblMinDisp->text(), lblMaxDisp->text(), lblSumDisp->text(),
-                     lblSumDisp->text(), completeImage);
+                     completeImage);
 }
 
 void qDrawPlot::SavePlot() {
@@ -673,8 +671,7 @@ void qDrawPlot::AcquireThread() {
     // exception in acquire will not call acquisition finished call back, so
     // handle it
     if (!mess.empty()) {
-        LOG(logERROR) << "Acquisition Finished with an exception: "
+        LOG(logERROR) << "Acquisition Finished with an exception: " << mess;
-                           << mess;
         qDefs::ExceptionMessage("Acquire unsuccessful.", mess,
                                 "qDrawPlot::AcquireFinished");
         try {
@@ -720,7 +717,7 @@ void qDrawPlot::AcquisitionFinished(double currentProgress,
         LOG(logERROR) << "Acquisition finished [Status: ERROR]";
     } else {
         LOG(logINFO) << "Acquisition finished [ Status:" << status
-                          << ", Progress: " << currentProgress << " ]";
+                     << ", Progress: " << currentProgress << " ]";
     }
     emit AcquireFinishedSignal();
 }
@@ -729,27 +726,26 @@ void qDrawPlot::GetData(detectorData *data, uint64_t frameIndex,
                         uint32_t subFrameIndex) {
     std::lock_guard<std::mutex> lock(mPlots);
     LOG(logDEBUG) << "* GetData Callback *" << std::endl
-                       << "  frame index: " << frameIndex << std::endl
+                  << "  frame index: " << frameIndex << std::endl
-                       << "  sub frame index: "
+                  << "  sub frame index: "
-                       << (((int)subFrameIndex == -1) ? (int)-1 : subFrameIndex)
+                  << (((int)subFrameIndex == -1) ? (int)-1 : subFrameIndex)
-                       << std::endl
+                  << std::endl
-                       << "  Data [" << std::endl
+                  << "  Data [" << std::endl
-                       << "  \t progress: " << data->progressIndex << std::endl
+                  << "  \t progress: " << data->progressIndex << std::endl
-                       << "  \t file name: " << data->fileName << std::endl
+                  << "  \t file name: " << data->fileName << std::endl
-                       << "  \t nx: " << data->nx << std::endl
+                  << "  \t nx: " << data->nx << std::endl
-                       << "  \t ny: " << data->ny << std::endl
+                  << "  \t ny: " << data->ny << std::endl
-                       << "  \t data bytes: " << data->databytes << std::endl
+                  << "  \t data bytes: " << data->databytes << std::endl
-                       << "  \t dynamic range: " << data->dynamicRange
+                  << "  \t dynamic range: " << data->dynamicRange << std::endl
-                       << std::endl
+                  << "  \t file index: " << data->fileIndex << std::endl
-                       << "  \t file index: " << data->fileIndex << std::endl
+                  << "  \t complete image: " << data->completeImage << std::endl
-                       << "  \t complete image: " << data->completeImage << std::endl
+                  << "  ]";
-                       << "  ]";
 
     progress = (int)data->progressIndex;
     currentAcqIndex = data->fileIndex;
     currentFrame = frameIndex;
-    LOG(logDEBUG) << "[ Progress:" << progress
+    LOG(logDEBUG) << "[ Progress:" << progress << ", Frame:" << currentFrame
-                       << ", Frame:" << currentFrame << " ]";
+                  << " ]";
 
     // 2d (only image, not gain data, not pedestalvals),
     // check if npixelsX and npixelsY is the same (quad is different)
@@ -757,8 +753,8 @@ void qDrawPlot::GetData(detectorData *data, uint64_t frameIndex,
                   static_cast<int>(nPixelsY) != data->ny)) {
         nPixelsX = data->nx;
         nPixelsY = data->ny;
-        LOG(logINFO) << "Change in Detector Shape:\n\tnPixelsX:"
+        LOG(logINFO) << "Change in Detector Shape:\n\tnPixelsX:" << nPixelsX
-                          << nPixelsX << " nPixelsY:" << nPixelsY;
+                     << " nPixelsY:" << nPixelsY;
 
         delete[] data2d;
         data2d = new double[nPixelsY * nPixelsX];
@@ -815,8 +811,8 @@ void qDrawPlot::GetData(detectorData *data, uint64_t frameIndex,
         }
         // calculate the pedestal value
         if (pedestalCount == NUM_PEDESTAL_FRAMES) {
-            LOG(logINFO) << "Pedestal Calculated after "
+            LOG(logINFO) << "Pedestal Calculated after " << NUM_PEDESTAL_FRAMES
-                              << NUM_PEDESTAL_FRAMES << " frames";
+                         << " frames";
             for (unsigned int px = 0; px < nPixels; ++px)
                 tempPedestalVals[px] =
                     tempPedestalVals[px] / (double)NUM_PEDESTAL_FRAMES;
@@ -1115,7 +1111,7 @@ void qDrawPlot::UpdatePlot() {
     // notify of incomplete images
     lblCompleteImage->hide();
     lblInCompleteImage->hide();
-    if(completeImage) {
+    if (completeImage) {
         lblCompleteImage->show();
     } else {
         lblInCompleteImage->show();

slsDetectorGui/src/qTabAdvanced.cpp

@@ -350,7 +350,7 @@ void qTabAdvanced::GetRxrZMQIP() {
 
 void qTabAdvanced::SetDetector() {
     LOG(logDEBUG) << "Set Detector: "
-                       << comboDetector->currentText().toAscii().data();
+                  << comboDetector->currentText().toAscii().data();
 
     GetControlPort();
     GetStopPort();
@@ -531,8 +531,7 @@ void qTabAdvanced::SetROI() {
     roi.xmax = spinXmax->value();
 
     // set roi
-    LOG(logINFO) << "Setting ROI: [" << roi.xmin << ", " << roi.xmax
+    LOG(logINFO) << "Setting ROI: [" << roi.xmin << ", " << roi.xmax << "]";
-                      << "]";
     try {
         det->setROI(roi, {comboReadout->currentIndex()});
     }
@@ -586,8 +585,7 @@ void qTabAdvanced::GetNumStoragecells() {
 }
 
 void qTabAdvanced::SetNumStoragecells(int value) {
-    LOG(logINFO) << "Setting number of additional stoarge cells: "
+    LOG(logINFO) << "Setting number of additional stoarge cells: " << value;
-                      << value;
     try {
         det->setNumberOfAdditionalStorageCells(value);
     }
@@ -621,11 +619,11 @@ void qTabAdvanced::SetSubExposureTime() {
     auto timeNS = qDefs::getNSTime(std::make_pair(
         spinSubExpTime->value(),
         static_cast<qDefs::timeUnit>(comboSubExpTimeUnit->currentIndex())));
-    LOG(logINFO)
+    LOG(logINFO) << "Setting sub frame acquisition time to " << timeNS.count()
-        << "Setting sub frame acquisition time to " << timeNS.count() << " ns"
+                 << " ns"
-        << "/" << spinSubExpTime->value()
+                 << "/" << spinSubExpTime->value()
-        << qDefs::getUnitString(
+                 << qDefs::getUnitString(
-               (qDefs::timeUnit)comboSubExpTimeUnit->currentIndex());
+                        (qDefs::timeUnit)comboSubExpTimeUnit->currentIndex());
     try {
         det->setSubExptime(timeNS);
     }
@@ -661,11 +659,10 @@ void qTabAdvanced::SetSubDeadTime() {
         spinSubDeadTime->value(),
         static_cast<qDefs::timeUnit>(comboSubDeadTimeUnit->currentIndex())));
 
-    LOG(logINFO)
+    LOG(logINFO) << "Setting sub frame dead time to " << timeNS.count() << " ns"
-        << "Setting sub frame dead time to " << timeNS.count() << " ns"
+                 << "/" << spinSubDeadTime->value()
-        << "/" << spinSubDeadTime->value()
+                 << qDefs::getUnitString(
-        << qDefs::getUnitString(
+                        (qDefs::timeUnit)comboSubDeadTimeUnit->currentIndex());
-               (qDefs::timeUnit)comboSubDeadTimeUnit->currentIndex());
     try {
         det->setSubDeadTime(timeNS);
     }

slsDetectorGui/src/qTabDataOutput.cpp

@@ -172,7 +172,7 @@ void qTabDataOutput::BrowseOutputDir() {
 void qTabDataOutput::SetOutputDir() {
     QString path = dispOutputDir->text();
     LOG(logDEBUG) << "Setting output directory to "
-                       << path.toAscii().constData();
+                  << path.toAscii().constData();
 
     // empty
     if (path.isEmpty()) {
@@ -222,7 +222,7 @@ void qTabDataOutput::GetFileFormat() {
 
 void qTabDataOutput::SetFileFormat(int format) {
     LOG(logINFO) << "Setting File Format to "
-                      << comboFileFormat->currentText().toAscii().data();
+                 << comboFileFormat->currentText().toAscii().data();
     try {
         det->setFileFormat(static_cast<slsDetectorDefs::fileFormat>(
             comboFileFormat->currentIndex()));
@@ -334,15 +334,13 @@ void qTabDataOutput::SetRateCorrection() {
         // custom dead time
         if (radioCustomDeadtime->isChecked()) {
             int64_t deadtime = spinCustomDeadTime->value();
-            LOG(logINFO)
+            LOG(logINFO) << "Setting Rate Correction with custom dead time: "
-                << "Setting Rate Correction with custom dead time: "
+                         << deadtime;
-                << deadtime;
             det->setRateCorrection(sls::ns(deadtime));
         }
         // default dead time
         else {
-            LOG(logINFO)
+            LOG(logINFO) << "Setting Rate Correction with default dead time";
-                << "Setting Rate Correction with default dead time";
             det->setDefaultRateCorrection();
         }
     }
@@ -367,7 +365,7 @@ void qTabDataOutput::GetSpeed() {
 
 void qTabDataOutput::SetSpeed(int speed) {
     LOG(logINFO) << "Setting Speed to "
-                      << comboEigerClkDivider->currentText().toAscii().data();
+                 << comboEigerClkDivider->currentText().toAscii().data();
     ;
     try {
         det->setSpeed(static_cast<slsDetectorDefs::speedLevel>(speed));
@@ -398,9 +396,8 @@ void qTabDataOutput::SetFlags() {
     auto mode =
         comboEigerParallelFlag->currentIndex() == PARALLEL ? true : false;
     try {
-        LOG(logINFO)
+        LOG(logINFO) << "Setting Readout Flags to "
-            << "Setting Readout Flags to "
+                     << comboEigerParallelFlag->currentText().toAscii().data();
-            << comboEigerParallelFlag->currentText().toAscii().data();
         det->setParallelMode(mode);
     }
     CATCH_HANDLE("Could not set readout flags.", "qTabDataOutput::SetFlags",

slsDetectorGui/src/qTabDebugging.cpp

@@ -1,6 +1,6 @@
 #include "qTabDebugging.h"
-#include "qDefs.h"
 #include "ToString.h"
+#include "qDefs.h"
 #include <QDesktopWidget>
 #include <QGridLayout>
 #include <QTreeWidget>
@@ -105,8 +105,9 @@ void qTabDebugging::GetInfo() {
         treeDet->setHeaderLabel("Eiger Detector");
         // get num modules
         for (int i = 0; i < comboDetector->count() / 2; ++i)
-            items.append(new QTreeWidgetItem(
+            items.append(
-                (QTreeWidget *)nullptr, QStringList(QString("Module %1").arg(i))));
+                new QTreeWidgetItem((QTreeWidget *)nullptr,
+                                    QStringList(QString("Module %1").arg(i))));
         treeDet->insertTopLevelItems(0, items);
         // gets det names
         for (int i = 0; i < comboDetector->count(); ++i) {

slsDetectorGui/src/qTabMeasurement.cpp

@@ -297,7 +297,7 @@ void qTabMeasurement::GetTimingMode() {
 
 void qTabMeasurement::SetTimingMode(int val) {
     LOG(logINFO) << "Setting timing mode:"
-                      << comboTimingMode->currentText().toAscii().data();
+                 << comboTimingMode->currentText().toAscii().data();
     try {
         det->setTimingMode(static_cast<slsDetectorDefs::timingMode>(val));
         EnableWidgetsforTimingMode();
@@ -438,7 +438,7 @@ void qTabMeasurement::SetExposureTime() {
     auto val = spinExpTime->value();
     auto unit = static_cast<qDefs::timeUnit>(comboExpUnit->currentIndex());
     LOG(logINFO) << "Setting exposure time to " << val << " "
-                      << qDefs::getUnitString(unit);
+                 << qDefs::getUnitString(unit);
     try {
         auto timeNS = qDefs::getNSTime(std::make_pair(val, unit));
         det->setExptime(timeNS);
@@ -476,7 +476,7 @@ void qTabMeasurement::SetAcquisitionPeriod() {
     auto val = spinPeriod->value();
     auto unit = static_cast<qDefs::timeUnit>(comboPeriodUnit->currentIndex());
     LOG(logINFO) << "Setting acquisition period to " << val << " "
-                      << qDefs::getUnitString(unit);
+                 << qDefs::getUnitString(unit);
     try {
         auto timeNS = qDefs::getNSTime(std::make_pair(val, unit));
         det->setPeriod(timeNS);
@@ -537,7 +537,7 @@ void qTabMeasurement::SetDelay() {
     auto val = spinDelay->value();
     auto unit = static_cast<qDefs::timeUnit>(comboDelayUnit->currentIndex());
     LOG(logINFO) << "Setting delay to " << val << " "
-                      << qDefs::getUnitString(unit);
+                 << qDefs::getUnitString(unit);
     try {
         auto timeNS = qDefs::getNSTime(std::make_pair(val, unit));
         det->setDelayAfterTrigger(timeNS);
@@ -573,7 +573,7 @@ void qTabMeasurement::SetBurstPeriod() {
     auto unit =
         static_cast<qDefs::timeUnit>(comboBurstPeriodUnit->currentIndex());
     LOG(logINFO) << "Setting burst period to " << val << " "
-                      << qDefs::getUnitString(unit);
+                 << qDefs::getUnitString(unit);
     try {
         auto timeNS = qDefs::getNSTime(std::make_pair(val, unit));
         det->setBurstPeriod(timeNS);
@@ -771,8 +771,7 @@ void qTabMeasurement::AcquireFinished() {
         if (startingFnumImplemented) {
             GetStartingFrameNumber();
         }
-        LOG(logDEBUG) << "Measurement " << currentMeasurement
+        LOG(logDEBUG) << "Measurement " << currentMeasurement << " finished";
-                           << " finished";
         // next measurement if acq is not stopped
         if (!isAcquisitionStopped &&
             ((currentMeasurement + 1) < numMeasurements)) {
@@ -801,8 +800,9 @@ void qTabMeasurement::Enable(bool enable) {
     frameNotTimeResolved->setEnabled(enable);
 
     // shortcut each time, else it doesnt work a second time
-    btnStart->setShortcut(QApplication::translate(
+    btnStart->setShortcut(QApplication::translate("TabMeasurementObject",
-        "TabMeasurementObject", "Shift+Space", nullptr, QApplication::UnicodeUTF8));
+                                                  "Shift+Space", nullptr,
+                                                  QApplication::UnicodeUTF8));
 }
 
 void qTabMeasurement::Refresh() {

slsDetectorGui/src/qTabMessages.cpp

@@ -75,8 +75,8 @@ void qTabMessages::ExecuteCommand() {
     QString command = param.at(0);
     param.removeFirst();
     LOG(logINFO) << "Executing Command:[" << command.toAscii().constData()
-                      << "] with Arguments:["
+                 << "] with Arguments:["
-                      << param.join(" ").toAscii().constData() << "]";
+                 << param.join(" ").toAscii().constData() << "]";
 
     process->setProcessChannelMode(QProcess::MergedChannels);
     process->start(command, param);
@@ -121,7 +121,7 @@ void qTabMessages::SaveLog() {
             LOG(logINFO) << mess;
         } else {
             LOG(logWARNING) << "Attempt to save log file failed: "
-                                 << fName.toAscii().constData();
+                            << fName.toAscii().constData();
             qDefs::Message(qDefs::WARNING, "Attempt to save log file failed.",
                            "qTabMessages::SaveLog");
         }

slsDetectorGui/src/qTabPlot.cpp

@@ -6,7 +6,6 @@
 #include <QStackedLayout>
 #include <QStandardItemModel>
 
-
 QString qTabPlot::defaultPlotTitle("");
 QString qTabPlot::defaultHistXAxisTitle("Channel Number");
 QString qTabPlot::defaultHistYAxisTitle("Counts");
@@ -290,16 +289,14 @@ void qTabPlot::SetBinary() {
     bool binary1D = chkBinary->isChecked();
     bool binary2D = chkBinary_2->isChecked();
     if (is1d) {
-        LOG(logINFO) << "Binary Plot "
+        LOG(logINFO) << "Binary Plot " << (binary1D ? "enabled" : "disabled");
-                          << (binary1D ? "enabled" : "disabled");
         lblFrom->setEnabled(binary1D);
         lblTo->setEnabled(binary1D);
         spinFrom->setEnabled(binary1D);
         spinTo->setEnabled(binary1D);
         plot->SetBinary(binary1D, spinFrom->value(), spinTo->value());
     } else {
-        LOG(logINFO) << "Binary Plot "
+        LOG(logINFO) << "Binary Plot " << (binary2D ? "enabled" : "disabled");
-                          << (binary2D ? "enabled" : "disabled");
         lblFrom_2->setEnabled(binary2D);
         lblTo_2->setEnabled(binary2D);
         spinFrom_2->setEnabled(binary2D);
@@ -434,10 +431,10 @@ void qTabPlot::SetXYRange() {
     for (int i = 0; i < 4; ++i) {
         if (chkVal[i] && !dispVal[i].isEmpty()) {
             double val = dispVal[i].toDouble();
-            LOG(logDEBUG)
+            LOG(logDEBUG) << "Setting "
-                << "Setting "
+                          << qDefs::getRangeAsString(
-                << qDefs::getRangeAsString(static_cast<qDefs::range>(i))
+                                 static_cast<qDefs::range>(i))
-                << " to " << val;
+                          << " to " << val;
             xyRange[i] = val;
             isRange[i] = true;
             disablezoom = true;
@@ -482,10 +479,10 @@ void qTabPlot::MaintainAspectRatio(int dimension) {
     ranges[qDefs::YMAX] = plot->GetYMaximum();
     double idealAspectratio = (ranges[qDefs::XMAX] - ranges[qDefs::XMIN]) /
                               (ranges[qDefs::YMAX] - ranges[qDefs::YMIN]);
-    LOG(logDEBUG) << "Ideal Aspect ratio: " << idealAspectratio
+    LOG(logDEBUG) << "Ideal Aspect ratio: " << idealAspectratio << " for x("
-                       << " for x(" << ranges[qDefs::XMIN] << " - "
+                  << ranges[qDefs::XMIN] << " - " << ranges[qDefs::XMAX]
-                       << ranges[qDefs::XMAX] << "), y(" << ranges[qDefs::YMIN]
+                  << "), y(" << ranges[qDefs::YMIN] << " - "
-                       << " - " << ranges[qDefs::YMAX] << ")";
+                  << ranges[qDefs::YMAX] << ")";
 
     // calculate current aspect ratio
     ranges[qDefs::XMIN] = dispXMin->text().toDouble();
@@ -494,10 +491,10 @@ void qTabPlot::MaintainAspectRatio(int dimension) {
     ranges[qDefs::YMAX] = dispYMax->text().toDouble();
     double currentAspectRatio = (ranges[qDefs::XMAX] - ranges[qDefs::XMIN]) /
                                 (ranges[qDefs::YMAX] - ranges[qDefs::YMIN]);
-    LOG(logDEBUG) << "Current Aspect ratio: " << currentAspectRatio
+    LOG(logDEBUG) << "Current Aspect ratio: " << currentAspectRatio << " for x("
-                       << " for x(" << ranges[qDefs::XMIN] << " - "
+                  << ranges[qDefs::XMIN] << " - " << ranges[qDefs::XMAX]
-                       << ranges[qDefs::XMAX] << "), y(" << ranges[qDefs::YMIN]
+                  << "), y(" << ranges[qDefs::YMIN] << " - "
-                       << " - " << ranges[qDefs::YMAX] << ")";
+                  << ranges[qDefs::YMAX] << ")";
 
     if (currentAspectRatio != idealAspectratio) {
         // dimension: 1(x changed: y adjusted), 0(y changed: x adjusted),
@@ -643,7 +640,7 @@ void qTabPlot::SetStreamingFrequency() {
             det->setRxZmqFrequency(freqVal);
         } else {
             LOG(logINFO) << "Setting Streaming Timer to " << timeVal << " "
-                              << qDefs::getUnitString(timeUnit);
+                         << qDefs::getUnitString(timeUnit);
             auto timeMS = qDefs::getMSTime(std::make_pair(timeVal, timeUnit));
             det->setRxZmqTimer(timeMS.count());
         }

slsDetectorGui/src/qTabSettings.cpp

@@ -1,6 +1,6 @@
 #include "qTabSettings.h"
-#include "qDefs.h"
 #include "ToString.h"
+#include "qDefs.h"
 #include <QStandardItemModel>
 
 qTabSettings::qTabSettings(QWidget *parent, sls::Detector *detector)
@@ -196,7 +196,7 @@ void qTabSettings::GetDynamicRange() {
 
 void qTabSettings::SetDynamicRange(int index) {
     LOG(logINFO) << "Setting dynamic range to "
-                      << comboDynamicRange->currentText().toAscii().data();
+                 << comboDynamicRange->currentText().toAscii().data();
     try {
         switch (index) {
         case DYNAMICRANGE_32:

slsDetectorServers/ctbDetectorServer/RegisterDefs.h

@@ -4,552 +4,580 @@
 #define MEM_MAP_SHIFT 1
 
 /* FPGA Version RO register */
-#define FPGA_VERSION_REG      			    (0x00 << MEM_MAP_SHIFT)
+#define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT)
 
-#define FPGA_VERSION_BRD_RVSN_OFST			(0)
+#define FPGA_VERSION_BRD_RVSN_OFST  (0)
-#define FPGA_VERSION_BRD_RVSN_MSK			(0x00FFFFFF << FPGA_VERSION_BRD_RVSN_OFST)
+#define FPGA_VERSION_BRD_RVSN_MSK   (0x00FFFFFF << FPGA_VERSION_BRD_RVSN_OFST)
-#define FPGA_VERSION_DTCTR_TYP_OFST		    (24)
+#define FPGA_VERSION_DTCTR_TYP_OFST (24)
-#define FPGA_VERSION_DTCTR_TYP_MSK   	    (0x000000FF << FPGA_VERSION_DTCTR_TYP_OFST)
+#define FPGA_VERSION_DTCTR_TYP_MSK  (0x000000FF << FPGA_VERSION_DTCTR_TYP_OFST)
-#define FPGA_VERSION_DTCTR_TYP_CTB_VAL      ((0x4 << FPGA_VERSION_DTCTR_TYP_OFST) & FPGA_VERSION_DTCTR_TYP_MSK)
+#define FPGA_VERSION_DTCTR_TYP_CTB_VAL                                         \
+    ((0x4 << FPGA_VERSION_DTCTR_TYP_OFST) & FPGA_VERSION_DTCTR_TYP_MSK)
 
 /* Fix pattern RO register */
-#define FIX_PATT_REG          			    (0x01 << MEM_MAP_SHIFT)
+#define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT)
 
-#define FIX_PATT_VAL                        (0xACDC2016)
+#define FIX_PATT_VAL (0xACDC2016)
 
 /* Status RO register */
-#define STATUS_REG            			    (0x02 << MEM_MAP_SHIFT)
+#define STATUS_REG (0x02 << MEM_MAP_SHIFT)
 
-#define STATUS_RN_BSY_OFST				    (0)
+#define STATUS_RN_BSY_OFST            (0)
-#define STATUS_RN_BSY_MSK      			    (0x00000001 << STATUS_RN_BSY_OFST)
+#define STATUS_RN_BSY_MSK             (0x00000001 << STATUS_RN_BSY_OFST)
-#define STATUS_RDT_BSY_OFST                 (1)
+#define STATUS_RDT_BSY_OFST           (1)
-#define STATUS_RDT_BSY_MSK                  (0x00000001 << STATUS_RDT_BSY_OFST)
+#define STATUS_RDT_BSY_MSK            (0x00000001 << STATUS_RDT_BSY_OFST)
-#define STATUS_ANY_FF_FLL_OFST              (2)
+#define STATUS_ANY_FF_FLL_OFST        (2)
-#define STATUS_ANY_FF_FLL_MSK               (0x00000001 << STATUS_ANY_FF_FLL_OFST)
+#define STATUS_ANY_FF_FLL_MSK         (0x00000001 << STATUS_ANY_FF_FLL_OFST)
-#define STATUS_WTNG_FR_TRGGR_OFST  		    (3)
+#define STATUS_WTNG_FR_TRGGR_OFST     (3)
-#define STATUS_WTNG_FR_TRGGR_MSK  		    (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
+#define STATUS_WTNG_FR_TRGGR_MSK      (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
-#define STATUS_DLY_BFR_OFST  			    (4)
+#define STATUS_DLY_BFR_OFST           (4)
-#define STATUS_DLY_BFR_MSK  			    (0x00000001 << STATUS_DLY_BFR_OFST)
+#define STATUS_DLY_BFR_MSK            (0x00000001 << STATUS_DLY_BFR_OFST)
-#define STATUS_DLY_AFTR_OFST  			    (5)
+#define STATUS_DLY_AFTR_OFST          (5)
-#define STATUS_DLY_AFTR_MSK  			    (0x00000001 << STATUS_DLY_AFTR_OFST)
+#define STATUS_DLY_AFTR_MSK           (0x00000001 << STATUS_DLY_AFTR_OFST)
-#define STATUS_EXPSNG_OFST                  (6)
+#define STATUS_EXPSNG_OFST            (6)
-#define STATUS_EXPSNG_MSK                   (0x00000001 << STATUS_EXPSNG_OFST)
+#define STATUS_EXPSNG_MSK             (0x00000001 << STATUS_EXPSNG_OFST)
-#define STATUS_CNT_ENBL_OFST                (7)
+#define STATUS_CNT_ENBL_OFST          (7)
-#define STATUS_CNT_ENBL_MSK                 (0x00000001 << STATUS_CNT_ENBL_OFST)
+#define STATUS_CNT_ENBL_MSK           (0x00000001 << STATUS_CNT_ENBL_OFST)
-#define STATUS_SM_FF_FLL_OFST               (11)
+#define STATUS_SM_FF_FLL_OFST         (11)
-#define STATUS_SM_FF_FLL_MSK                (0x00000001 << STATUS_SM_FF_FLL_OFST)
+#define STATUS_SM_FF_FLL_MSK          (0x00000001 << STATUS_SM_FF_FLL_OFST)
-#define STATUS_STPPD_OFST                   (15)
+#define STATUS_STPPD_OFST             (15)
-#define STATUS_STPPD_MSK                    (0x00000001 << STATUS_STPPD_OFST)
+#define STATUS_STPPD_MSK              (0x00000001 << STATUS_STPPD_OFST)
-#define STATUS_ALL_FF_EMPTY_OFST            (16)
+#define STATUS_ALL_FF_EMPTY_OFST      (16)
-#define STATUS_ALL_FF_EMPTY_MSK             (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
+#define STATUS_ALL_FF_EMPTY_MSK       (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
-#define STATUS_CYCL_RN_BSY_OFST  		    (17)
+#define STATUS_CYCL_RN_BSY_OFST       (17)
-#define STATUS_CYCL_RN_BSY_MSK  		    (0x00000001 << STATUS_CYCL_RN_BSY_OFST)
+#define STATUS_CYCL_RN_BSY_MSK        (0x00000001 << STATUS_CYCL_RN_BSY_OFST)
-#define STATUS_FRM_RN_BSY_OFST              (18)
+#define STATUS_FRM_RN_BSY_OFST        (18)
-#define STATUS_FRM_RN_BSY_MSK               (0x00000001 << STATUS_FRM_RN_BSY_OFST)
+#define STATUS_FRM_RN_BSY_MSK         (0x00000001 << STATUS_FRM_RN_BSY_OFST)
-#define STATUS_ADC_DESERON_OFST             (19)
+#define STATUS_ADC_DESERON_OFST       (19)
-#define STATUS_ADC_DESERON_MSK              (0x00000001 << STATUS_ADC_DESERON_OFST)
+#define STATUS_ADC_DESERON_MSK        (0x00000001 << STATUS_ADC_DESERON_OFST)
-#define STATUS_PLL_RCNFG_BSY_OFST           (20)
+#define STATUS_PLL_RCNFG_BSY_OFST     (20)
-#define STATUS_PLL_RCNFG_BSY_MSK            (0x00000001 << STATUS_PLL_RCNFG_BSY_OFST)
+#define STATUS_PLL_RCNFG_BSY_MSK      (0x00000001 << STATUS_PLL_RCNFG_BSY_OFST)
-#define STATUS_DT_STRMNG_BSY_OFST           (21)
+#define STATUS_DT_STRMNG_BSY_OFST     (21)
-#define STATUS_DT_STRMNG_BSY_MSK            (0x00000001 << STATUS_DT_STRMNG_BSY_OFST)
+#define STATUS_DT_STRMNG_BSY_MSK      (0x00000001 << STATUS_DT_STRMNG_BSY_OFST)
-#define STATUS_FRM_PCKR_BSY_OFST            (22)
+#define STATUS_FRM_PCKR_BSY_OFST      (22)
-#define STATUS_FRM_PCKR_BSY_MSK             (0x00000001 << STATUS_FRM_PCKR_BSY_OFST)
+#define STATUS_FRM_PCKR_BSY_MSK       (0x00000001 << STATUS_FRM_PCKR_BSY_OFST)
-#define STATUS_PLL_PHS_DN_OFST              (23)
+#define STATUS_PLL_PHS_DN_OFST        (23)
-#define STATUS_PLL_PHS_DN_MSK               (0x00000001 << STATUS_PLL_PHS_DN_OFST)
+#define STATUS_PLL_PHS_DN_MSK         (0x00000001 << STATUS_PLL_PHS_DN_OFST)
-#define STATUS_PT_CNTRL_STTS_OFF_OFST       (24)
+#define STATUS_PT_CNTRL_STTS_OFF_OFST (24)
-#define STATUS_PT_CNTRL_STTS_OFF_MSK        (0x000000FF << STATUS_PT_CNTRL_STTS_OFF_OFST)
+#define STATUS_PT_CNTRL_STTS_OFF_MSK                                           \
-#define STATUS_IDLE_MSK                     (0x677FF)
+    (0x000000FF << STATUS_PT_CNTRL_STTS_OFF_OFST)
+#define STATUS_IDLE_MSK (0x677FF)
 
 /* Look at me RO register TODO */
-#define LOOK_AT_ME_REG                      (0x03 << MEM_MAP_SHIFT)
+#define LOOK_AT_ME_REG (0x03 << MEM_MAP_SHIFT)
 
 /* System Status RO register */
-#define SYSTEM_STATUS_REG       		    (0x04 << MEM_MAP_SHIFT)
+#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT)
 
-#define SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST	(0)
+#define SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST (0)
-#define SYSTEM_STATUS_DDR3_CLBRTN_OK_MSK 	(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST)
+#define SYSTEM_STATUS_DDR3_CLBRTN_OK_MSK                                       \
-#define SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST	(1)
+    (0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST)
-#define SYSTEM_STATUS_DDR3_CLBRTN_FL_MSK 	(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST)
+#define SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST (1)
-#define SYSTEM_STATUS_DDR3_INT_DN_OFST		(2)
+#define SYSTEM_STATUS_DDR3_CLBRTN_FL_MSK                                       \
-#define SYSTEM_STATUS_DDR3_INT_DN_MSK 		(0x00000001 << SYSTEM_STATUS_DDR3_INT_DN_OFST)
+    (0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST)
-#define SYSTEM_STATUS_RCNFG_PLL_LCK_OFST	(3)
+#define SYSTEM_STATUS_DDR3_INT_DN_OFST (2)
-#define SYSTEM_STATUS_RCNFG_PLL_LCK_MSK 	(0x00000001 << SYSTEM_STATUS_RCNFG_PLL_LCK_OFST)
+#define SYSTEM_STATUS_DDR3_INT_DN_MSK                                          \
-#define SYSTEM_STATUS_PLL_A_LCK_OFST		(4)
+    (0x00000001 << SYSTEM_STATUS_DDR3_INT_DN_OFST)
-#define SYSTEM_STATUS_PLL_A_LCK_MSK 		(0x00000001 << SYSTEM_STATUS_PLL_A_LCK_OFST)
+#define SYSTEM_STATUS_RCNFG_PLL_LCK_OFST (3)
+#define SYSTEM_STATUS_RCNFG_PLL_LCK_MSK                                        \
+    (0x00000001 << SYSTEM_STATUS_RCNFG_PLL_LCK_OFST)
+#define SYSTEM_STATUS_PLL_A_LCK_OFST (4)
+#define SYSTEM_STATUS_PLL_A_LCK_MSK  (0x00000001 << SYSTEM_STATUS_PLL_A_LCK_OFST)
 
-/* PLL Param (Reconfiguratble PLL Parameter) RO register TODO FIXME: Same as PLL_PARAM_REG 0x50 */
+/* PLL Param (Reconfiguratble PLL Parameter) RO register TODO FIXME: Same as
+ * PLL_PARAM_REG 0x50 */
 //#define PLL_PARAM_REG                       (0x05 << MEM_MAP_SHIFT)
 
 /* FIFO Data RO register TODO */
-#define FIFO_DATA_REG                       (0x06 << MEM_MAP_SHIFT)
+#define FIFO_DATA_REG (0x06 << MEM_MAP_SHIFT)
 
-#define FIFO_DATA_HRDWR_SRL_NMBR_OFST       (0)
+#define FIFO_DATA_HRDWR_SRL_NMBR_OFST (0)
-#define FIFO_DATA_HRDWR_SRL_NMBR_MSK        (0x0000FFFF << FIFO_DATA_HRDWR_SRL_NMBR_OFST)
+#define FIFO_DATA_HRDWR_SRL_NMBR_MSK                                           \
+    (0x0000FFFF << FIFO_DATA_HRDWR_SRL_NMBR_OFST)
 //#define FIFO_DATA_WRD_OFST                  (16)
 //#define FIFO_DATA_WRD_MSK                   (0x0000FFFF << FIFO_DATA_WRD_OFST)
 
 /* FIFO Status RO register TODO */
-#define FIFO_STATUS_REG                     (0x07 << MEM_MAP_SHIFT)
+#define FIFO_STATUS_REG (0x07 << MEM_MAP_SHIFT)
 
 /* FIFO Empty RO register TODO */
-#define FIFO_EMPTY_REG                      (0x08 << MEM_MAP_SHIFT)
+#define FIFO_EMPTY_REG           (0x08 << MEM_MAP_SHIFT)
-#define FIFO_EMPTY_ALL_EMPTY_MSK			(0xFFFFFFFF)
+#define FIFO_EMPTY_ALL_EMPTY_MSK (0xFFFFFFFF)
 
 /* FIFO Full RO register TODO */
-#define FIFO_FULL_REG                       (0x09 << MEM_MAP_SHIFT)
+#define FIFO_FULL_REG (0x09 << MEM_MAP_SHIFT)
 
 /* MCB Serial Number RO register */
-#define MOD_SERIAL_NUMBER_REG				(0x0A << MEM_MAP_SHIFT)
+#define MOD_SERIAL_NUMBER_REG (0x0A << MEM_MAP_SHIFT)
 
-#define MOD_SERIAL_NUMBER_OFST              (0)
+#define MOD_SERIAL_NUMBER_OFST      (0)
-#define MOD_SERIAL_NUMBER_MSK               (0x000000FF << MOD_SERIAL_NUMBER_OFST)
+#define MOD_SERIAL_NUMBER_MSK       (0x000000FF << MOD_SERIAL_NUMBER_OFST)
-#define MOD_SERIAL_NUMBER_VRSN_OFST         (16)
+#define MOD_SERIAL_NUMBER_VRSN_OFST (16)
-#define MOD_SERIAL_NUMBER_VRSN_MSK          (0x0000003F << MOD_SERIAL_NUMBER_VRSN_OFST)
+#define MOD_SERIAL_NUMBER_VRSN_MSK  (0x0000003F << MOD_SERIAL_NUMBER_VRSN_OFST)
 
 /* API Version RO register */
-#define API_VERSION_REG                     (0x0F << MEM_MAP_SHIFT)
+#define API_VERSION_REG (0x0F << MEM_MAP_SHIFT)
 
-#define API_VERSION_OFST                    (0)
+#define API_VERSION_OFST           (0)
-#define API_VERSION_MSK                     (0x00FFFFFF << API_VERSION_OFST)
+#define API_VERSION_MSK            (0x00FFFFFF << API_VERSION_OFST)
-#define API_VERSION_DTCTR_TYP_OFST          (24)
+#define API_VERSION_DTCTR_TYP_OFST (24)
-#define API_VERSION_DTCTR_TYP_MSK           (0x000000FF << API_VERSION_DTCTR_TYP_OFST)
+#define API_VERSION_DTCTR_TYP_MSK  (0x000000FF << API_VERSION_DTCTR_TYP_OFST)
 
-/* Time from Start 64 bit RO register. t = GCLK x 50 ns. Reset using CONTROL_CRST. TODO */
+/* Time from Start 64 bit RO register. t = GCLK x 50 ns. Reset using
-#define TIME_FROM_START_LSB_REG   		    (0x10 << MEM_MAP_SHIFT)
+ * CONTROL_CRST. TODO */
-#define TIME_FROM_START_MSB_REG   		    (0x11 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT)
 
 /* Delay Left 64 bit RO register. t = DLY x 50 ns. TODO */
-#define DELAY_LEFT_LSB_REG     			    (0x12 << MEM_MAP_SHIFT)
+#define DELAY_LEFT_LSB_REG (0x12 << MEM_MAP_SHIFT)
-#define DELAY_LEFT_MSB_REG     			    (0x13 << MEM_MAP_SHIFT)
+#define DELAY_LEFT_MSB_REG (0x13 << MEM_MAP_SHIFT)
 
 /* Triggers Left 64 bit RO register TODO */
-#define CYCLES_LEFT_LSB_REG    			    (0x14 << MEM_MAP_SHIFT)
+#define CYCLES_LEFT_LSB_REG (0x14 << MEM_MAP_SHIFT)
-#define CYCLES_LEFT_MSB_REG    			    (0x15 << MEM_MAP_SHIFT)
+#define CYCLES_LEFT_MSB_REG (0x15 << MEM_MAP_SHIFT)
 
 /* Frames Left 64 bit RO register TODO */
-#define FRAMES_LEFT_LSB_REG   			    (0x16 << MEM_MAP_SHIFT)
+#define FRAMES_LEFT_LSB_REG (0x16 << MEM_MAP_SHIFT)
-#define FRAMES_LEFT_MSB_REG    			    (0x17 << MEM_MAP_SHIFT)
+#define FRAMES_LEFT_MSB_REG (0x17 << MEM_MAP_SHIFT)
 
 /* Period Left 64 bit RO register. t = T x 50 ns. TODO */
-#define PERIOD_LEFT_LSB_REG    			    (0x18 << MEM_MAP_SHIFT)
+#define PERIOD_LEFT_LSB_REG (0x18 << MEM_MAP_SHIFT)
-#define PERIOD_LEFT_MSB_REG    			    (0x19 << MEM_MAP_SHIFT)
+#define PERIOD_LEFT_MSB_REG (0x19 << MEM_MAP_SHIFT)
 
 /* Exposure Time Left 64 bit RO register */
-//#define EXPTIME_LEFT_LSB_REG                (0x1A << MEM_MAP_SHIFT)            // Not used in FW
+//#define EXPTIME_LEFT_LSB_REG                (0x1A << MEM_MAP_SHIFT) // Not
-//#define EXPTIME_LEFT_MSB_REG                (0x1B << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define EXPTIME_LEFT_MSB_REG                (0x1B <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Gates Left 64 bit RO register */
-//#define GATES_LEFT_LSB_REG                  (0x1C << MEM_MAP_SHIFT)            // Not used in FW
+//#define GATES_LEFT_LSB_REG                  (0x1C << MEM_MAP_SHIFT) // Not
-//#define GATES_LEFT_MSB_REG                  (0x1D << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define GATES_LEFT_MSB_REG                  (0x1D <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Data In 64 bit RO register TODO */
-#define DATA_IN_LSB_REG                     (0x1E << MEM_MAP_SHIFT)
+#define DATA_IN_LSB_REG (0x1E << MEM_MAP_SHIFT)
-#define DATA_IN_MSB_REG                     (0x1F << MEM_MAP_SHIFT)
+#define DATA_IN_MSB_REG (0x1F << MEM_MAP_SHIFT)
 
 /* Pattern Out 64 bit RO register */
-#define PATTERN_OUT_LSB_REG                 (0x20 << MEM_MAP_SHIFT)
+#define PATTERN_OUT_LSB_REG (0x20 << MEM_MAP_SHIFT)
-#define PATTERN_OUT_MSB_REG                 (0x21 << MEM_MAP_SHIFT)
+#define PATTERN_OUT_MSB_REG (0x21 << MEM_MAP_SHIFT)
 
 /* Frames From Start 64 bit RO register TODO */
-//#define FRAMES_FROM_START_LSB_REG           (0x22 << MEM_MAP_SHIFT)            // Not used in FW
+//#define FRAMES_FROM_START_LSB_REG           (0x22 << MEM_MAP_SHIFT) // Not
-//#define FRAMES_FROM_START_MSB_REG           (0x23 << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define FRAMES_FROM_START_MSB_REG           (0x23 <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Frames From Start PG 64 bit RO register. Reset using CONTROL_CRST. TODO */
-#define FRAMES_FROM_START_PG_LSB_REG        (0x24 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_PG_LSB_REG (0x24 << MEM_MAP_SHIFT)
-#define FRAMES_FROM_START_PG_MSB_REG        (0x25 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_PG_MSB_REG (0x25 << MEM_MAP_SHIFT)
 
-/* Start Frame Time (Measurement Time) 64 bit register (timestamp at a frame start until reset) TODO */
+/* Start Frame Time (Measurement Time) 64 bit register (timestamp at a frame
-#define START_FRAME_TIME_LSB_REG		    (0x26 << MEM_MAP_SHIFT)
+ * start until reset) TODO */
-#define START_FRAME_TIME_MSB_REG 		    (0x27 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_LSB_REG (0x26 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_MSB_REG (0x27 << MEM_MAP_SHIFT)
 
 /* Power Status RO register */
-#define POWER_STATUS_REG                    (0x29 << MEM_MAP_SHIFT)
+#define POWER_STATUS_REG (0x29 << MEM_MAP_SHIFT)
 
-#define POWER_STATUS_ALRT_OFST              (27)
+#define POWER_STATUS_ALRT_OFST (27)
-#define POWER_STATUS_ALRT_MSK               (0x0000001F << POWER_STATUS_ALRT_OFST)
+#define POWER_STATUS_ALRT_MSK  (0x0000001F << POWER_STATUS_ALRT_OFST)
 
 /* DAC Value Out RO register */
 //#define DAC_VAL_OUT_REG                     (0x2A << MEM_MAP_SHIFT)
 
 /* Slow ADC SPI Value RO register */
-#define ADC_SPI_SLOW_VAL_REG                (0x2B << MEM_MAP_SHIFT)
+#define ADC_SPI_SLOW_VAL_REG (0x2B << MEM_MAP_SHIFT)
 
 /* FIFO Digital In Status RO register */
-#define FIFO_DIN_STATUS_REG                 (0x3B << MEM_MAP_SHIFT)
+#define FIFO_DIN_STATUS_REG            (0x3B << MEM_MAP_SHIFT)
-#define FIFO_DIN_STATUS_FIFO_FULL_OFST		(30)
+#define FIFO_DIN_STATUS_FIFO_FULL_OFST (30)
-#define FIFO_DIN_STATUS_FIFO_FULL_MSK		(0x00000001 << FIFO_DIN_STATUS_FIFO_FULL_OFST)
+#define FIFO_DIN_STATUS_FIFO_FULL_MSK                                          \
-#define FIFO_DIN_STATUS_FIFO_EMPTY_OFST		(31)
+    (0x00000001 << FIFO_DIN_STATUS_FIFO_FULL_OFST)
-#define FIFO_DIN_STATUS_FIFO_EMPTY_MSK		(0x00000001 << FIFO_DIN_STATUS_FIFO_EMPTY_OFST)
+#define FIFO_DIN_STATUS_FIFO_EMPTY_OFST (31)
+#define FIFO_DIN_STATUS_FIFO_EMPTY_MSK                                         \
+    (0x00000001 << FIFO_DIN_STATUS_FIFO_EMPTY_OFST)
 
 /* FIFO Digital In 64 bit RO register */
-#define FIFO_DIN_LSB_REG                    (0x3C << MEM_MAP_SHIFT)
+#define FIFO_DIN_LSB_REG (0x3C << MEM_MAP_SHIFT)
-#define FIFO_DIN_MSB_REG                    (0x3D << MEM_MAP_SHIFT)
+#define FIFO_DIN_MSB_REG (0x3D << MEM_MAP_SHIFT)
 
 /* SPI (Serial Peripheral Interface) DAC, HV RW register */
-#define SPI_REG							    (0x40 << MEM_MAP_SHIFT)
+#define SPI_REG (0x40 << MEM_MAP_SHIFT)
 
-#define SPI_DAC_SRL_DGTL_OTPT_OFST		    (0)
+#define SPI_DAC_SRL_DGTL_OTPT_OFST (0)
-#define SPI_DAC_SRL_DGTL_OTPT_MSK		    (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
+#define SPI_DAC_SRL_DGTL_OTPT_MSK  (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
-#define SPI_DAC_SRL_CLK_OTPT_OFST			(1)
+#define SPI_DAC_SRL_CLK_OTPT_OFST  (1)
-#define SPI_DAC_SRL_CLK_OTPT_MSK			(0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
+#define SPI_DAC_SRL_CLK_OTPT_MSK   (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
-#define SPI_DAC_SRL_CS_OTPT_OFST			(2)
+#define SPI_DAC_SRL_CS_OTPT_OFST   (2)
-#define SPI_DAC_SRL_CS_OTPT_MSK			    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
+#define SPI_DAC_SRL_CS_OTPT_MSK    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
-#define SPI_HV_SRL_DGTL_OTPT_OFST		    (8)
+#define SPI_HV_SRL_DGTL_OTPT_OFST  (8)
-#define SPI_HV_SRL_DGTL_OTPT_MSK		    (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
+#define SPI_HV_SRL_DGTL_OTPT_MSK   (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
-#define SPI_HV_SRL_CLK_OTPT_OFST			(9)
+#define SPI_HV_SRL_CLK_OTPT_OFST   (9)
-#define SPI_HV_SRL_CLK_OTPT_MSK			    (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
+#define SPI_HV_SRL_CLK_OTPT_MSK    (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
-#define SPI_HV_SRL_CS_OTPT_OFST			    (10)
+#define SPI_HV_SRL_CS_OTPT_OFST    (10)
-#define SPI_HV_SRL_CS_OTPT_MSK			    (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
+#define SPI_HV_SRL_CS_OTPT_MSK     (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
 
 /* ADC SPI (Serial Peripheral Interface) RW register */
-#define ADC_SPI_REG   					    (0x41 << MEM_MAP_SHIFT)
+#define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT)
 
-#define ADC_SPI_SRL_CLK_OTPT_OFST			(0)
+#define ADC_SPI_SRL_CLK_OTPT_OFST (0)
-#define ADC_SPI_SRL_CLK_OTPT_MSK			(0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
+#define ADC_SPI_SRL_CLK_OTPT_MSK  (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
-#define ADC_SPI_SRL_DT_OTPT_OFST		    (1)
+#define ADC_SPI_SRL_DT_OTPT_OFST  (1)
-#define ADC_SPI_SRL_DT_OTPT_MSK			    (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
+#define ADC_SPI_SRL_DT_OTPT_MSK   (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
-#define ADC_SPI_SRL_CS_OTPT_OFST			(2)
+#define ADC_SPI_SRL_CS_OTPT_OFST  (2)
-#define ADC_SPI_SRL_CS_OTPT_MSK			    (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
+#define ADC_SPI_SRL_CS_OTPT_MSK   (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
-#define ADC_SPI_SLOW_SRL_DT_OFST            (8)
+#define ADC_SPI_SLOW_SRL_DT_OFST  (8)
-#define ADC_SPI_SLOW_SRL_DT_MSK             (0x00000001 << ADC_SPI_SLOW_SRL_DT_OFST)
+#define ADC_SPI_SLOW_SRL_DT_MSK   (0x00000001 << ADC_SPI_SLOW_SRL_DT_OFST)
-#define ADC_SPI_SLOW_SRL_CLK_OFST           (9)
+#define ADC_SPI_SLOW_SRL_CLK_OFST (9)
-#define ADC_SPI_SLOW_SRL_CLK_MSK            (0x00000001 << ADC_SPI_SLOW_SRL_CLK_OFST)
+#define ADC_SPI_SLOW_SRL_CLK_MSK  (0x00000001 << ADC_SPI_SLOW_SRL_CLK_OFST)
-#define ADC_SPI_SLOW_SRL_CNV_OFST           (10)
+#define ADC_SPI_SLOW_SRL_CNV_OFST (10)
-#define ADC_SPI_SLOW_SRL_CNV_MSK            (0x00000001 << ADC_SPI_SLOW_SRL_CNV_OFST)
+#define ADC_SPI_SLOW_SRL_CNV_MSK  (0x00000001 << ADC_SPI_SLOW_SRL_CNV_OFST)
 
 /* ADC Offset RW register */
-#define ADC_OFFSET_REG 					    (0x42 << MEM_MAP_SHIFT)
+#define ADC_OFFSET_REG (0x42 << MEM_MAP_SHIFT)
 
-#define ADC_OFFSET_ADC_PPLN_OFST            (0)
+#define ADC_OFFSET_ADC_PPLN_OFST (0)
-#define ADC_OFFSET_ADC_PPLN_MSK             (0x000000FF << ADC_OFFSET_ADC_PPLN_OFST)
+#define ADC_OFFSET_ADC_PPLN_MSK  (0x000000FF << ADC_OFFSET_ADC_PPLN_OFST)
-#define ADC_OFFSET_DBT_PPLN_OFST            (16)
+#define ADC_OFFSET_DBT_PPLN_OFST (16)
-#define ADC_OFFSET_DBT_PPLN_MSK             (0x000000FF << ADC_OFFSET_DBT_PPLN_OFST)
+#define ADC_OFFSET_DBT_PPLN_MSK  (0x000000FF << ADC_OFFSET_DBT_PPLN_OFST)
 
 /* ADC Port Invert RW register */
-#define ADC_PORT_INVERT_REG   			    (0x43 << MEM_MAP_SHIFT)
+#define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT)
 
-#define ADC_PORT_INVERT_0_INPT_OFST         (0)
+#define ADC_PORT_INVERT_0_INPT_OFST (0)
-#define ADC_PORT_INVERT_0_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_0_INPT_OFST)
+#define ADC_PORT_INVERT_0_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_0_INPT_OFST)
-#define ADC_PORT_INVERT_1_INPT_OFST         (8)
+#define ADC_PORT_INVERT_1_INPT_OFST (8)
-#define ADC_PORT_INVERT_1_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_1_INPT_OFST)
+#define ADC_PORT_INVERT_1_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_1_INPT_OFST)
-#define ADC_PORT_INVERT_2_INPT_OFST         (16)
+#define ADC_PORT_INVERT_2_INPT_OFST (16)
-#define ADC_PORT_INVERT_2_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_2_INPT_OFST)
+#define ADC_PORT_INVERT_2_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_2_INPT_OFST)
-#define ADC_PORT_INVERT_3_INPT_OFST         (24)
+#define ADC_PORT_INVERT_3_INPT_OFST (24)
-#define ADC_PORT_INVERT_3_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_3_INPT_OFST)
+#define ADC_PORT_INVERT_3_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_3_INPT_OFST)
 
 /* Dummy RW register */
-#define DUMMY_REG                           (0x44 << MEM_MAP_SHIFT)
+#define DUMMY_REG (0x44 << MEM_MAP_SHIFT)
 
-#define DUMMY_FIFO_CHNNL_SLCT_OFST          (0)
+#define DUMMY_FIFO_CHNNL_SLCT_OFST    (0)
-#define DUMMY_FIFO_CHNNL_SLCT_MSK           (0x0000003F << DUMMY_FIFO_CHNNL_SLCT_OFST)
+#define DUMMY_FIFO_CHNNL_SLCT_MSK     (0x0000003F << DUMMY_FIFO_CHNNL_SLCT_OFST)
-#define DUMMY_ANLG_FIFO_RD_STRBE_OFST       (8)
+#define DUMMY_ANLG_FIFO_RD_STRBE_OFST (8)
-#define DUMMY_ANLG_FIFO_RD_STRBE_MSK        (0x00000001 << DUMMY_ANLG_FIFO_RD_STRBE_OFST)
+#define DUMMY_ANLG_FIFO_RD_STRBE_MSK                                           \
-#define DUMMY_DGTL_FIFO_RD_STRBE_OFST       (9)
+    (0x00000001 << DUMMY_ANLG_FIFO_RD_STRBE_OFST)
-#define DUMMY_DGTL_FIFO_RD_STRBE_MSK        (0x00000001 << DUMMY_DGTL_FIFO_RD_STRBE_OFST)
+#define DUMMY_DGTL_FIFO_RD_STRBE_OFST (9)
+#define DUMMY_DGTL_FIFO_RD_STRBE_MSK                                           \
+    (0x00000001 << DUMMY_DGTL_FIFO_RD_STRBE_OFST)
 
 /* Receiver IP Address RW register */
-#define RX_IP_REG    			            (0x45 << MEM_MAP_SHIFT)
+#define RX_IP_REG (0x45 << MEM_MAP_SHIFT)
 
 /* UDP Port RW register */
-#define UDP_PORT_REG    				    (0x46 << MEM_MAP_SHIFT)
+#define UDP_PORT_REG (0x46 << MEM_MAP_SHIFT)
 
-#define UDP_PORT_RX_OFST				    (0)
+#define UDP_PORT_RX_OFST (0)
-#define UDP_PORT_RX_MSK					    (0x0000FFFF << UDP_PORT_RX_OFST)
+#define UDP_PORT_RX_MSK  (0x0000FFFF << UDP_PORT_RX_OFST)
-#define UDP_PORT_TX_OFST				    (16)
+#define UDP_PORT_TX_OFST (16)
-#define UDP_PORT_TX_MSK					    (0x0000FFFF << UDP_PORT_TX_OFST)
+#define UDP_PORT_TX_MSK  (0x0000FFFF << UDP_PORT_TX_OFST)
 
 /* Receiver Mac Address 64 bit RW register */
-#define RX_MAC_LSB_REG					    (0x47 << MEM_MAP_SHIFT)
+#define RX_MAC_LSB_REG (0x47 << MEM_MAP_SHIFT)
-#define RX_MAC_MSB_REG					    (0x48 << MEM_MAP_SHIFT)
+#define RX_MAC_MSB_REG (0x48 << MEM_MAP_SHIFT)
 
-#define RX_MAC_LSB_OFST					    (0)
+#define RX_MAC_LSB_OFST (0)
-#define RX_MAC_LSB_MSK					    (0xFFFFFFFF << RX_MAC_LSB_OFST)
+#define RX_MAC_LSB_MSK  (0xFFFFFFFF << RX_MAC_LSB_OFST)
-#define RX_MAC_MSB_OFST					    (0)
+#define RX_MAC_MSB_OFST (0)
-#define RX_MAC_MSB_MSK					    (0x0000FFFF << RX_MAC_MSB_OFST)
+#define RX_MAC_MSB_MSK  (0x0000FFFF << RX_MAC_MSB_OFST)
 
 /* Detector/ Transmitter Mac Address 64 bit RW register */
-#define TX_MAC_LSB_REG					    (0x49 << MEM_MAP_SHIFT)
+#define TX_MAC_LSB_REG (0x49 << MEM_MAP_SHIFT)
-#define TX_MAC_MSB_REG					    (0x4A << MEM_MAP_SHIFT)
+#define TX_MAC_MSB_REG (0x4A << MEM_MAP_SHIFT)
 
-#define TX_MAC_LSB_OFST					    (0)
+#define TX_MAC_LSB_OFST (0)
-#define TX_MAC_LSB_MSK					    (0xFFFFFFFF << TX_MAC_LSB_OFST)
+#define TX_MAC_LSB_MSK  (0xFFFFFFFF << TX_MAC_LSB_OFST)
-#define TX_MAC_MSB_OFST					    (0)
+#define TX_MAC_MSB_OFST (0)
-#define TX_MAC_MSB_MSK					    (0x0000FFFF << TX_MAC_MSB_OFST)
+#define TX_MAC_MSB_MSK  (0x0000FFFF << TX_MAC_MSB_OFST)
 
 /* Detector/ Transmitter IP Address RW register */
-#define TX_IP_REG						    (0x4B << MEM_MAP_SHIFT)
+#define TX_IP_REG (0x4B << MEM_MAP_SHIFT)
 
 /* Detector/ Transmitter IP Checksum RW register */
-#define TX_IP_CHECKSUM_REG				    (0x4C << MEM_MAP_SHIFT)
+#define TX_IP_CHECKSUM_REG (0x4C << MEM_MAP_SHIFT)
 
-#define TX_IP_CHECKSUM_OFST				    (0)
+#define TX_IP_CHECKSUM_OFST (0)
-#define TX_IP_CHECKSUM_MSK				    (0x0000FFFF << TX_IP_CHECKSUM_OFST)
+#define TX_IP_CHECKSUM_MSK  (0x0000FFFF << TX_IP_CHECKSUM_OFST)
 
 /* Configuration RW register */
-#define CONFIG_REG            			    (0x4D << MEM_MAP_SHIFT)
+#define CONFIG_REG (0x4D << MEM_MAP_SHIFT)
 
-#define CONFIG_LED_DSBL_OFST                (0)
+#define CONFIG_LED_DSBL_OFST        (0)
-#define CONFIG_LED_DSBL_MSK                 (0x00000001 << CONFIG_LED_DSBL_OFST)
+#define CONFIG_LED_DSBL_MSK         (0x00000001 << CONFIG_LED_DSBL_OFST)
-#define CONFIG_DSBL_ANLG_OTPT_OFST          (8)
+#define CONFIG_DSBL_ANLG_OTPT_OFST  (8)
-#define CONFIG_DSBL_ANLG_OTPT_MSK           (0x00000001 << CONFIG_DSBL_ANLG_OTPT_OFST)
+#define CONFIG_DSBL_ANLG_OTPT_MSK   (0x00000001 << CONFIG_DSBL_ANLG_OTPT_OFST)
-#define CONFIG_ENBLE_DGTL_OTPT_OFST         (9)
+#define CONFIG_ENBLE_DGTL_OTPT_OFST (9)
-#define CONFIG_ENBLE_DGTL_OTPT_MSK          (0x00000001 << CONFIG_ENBLE_DGTL_OTPT_OFST)
+#define CONFIG_ENBLE_DGTL_OTPT_MSK  (0x00000001 << CONFIG_ENBLE_DGTL_OTPT_OFST)
-#define CONFIG_GB10_SND_UDP_OFST            (12)
+#define CONFIG_GB10_SND_UDP_OFST    (12)
-#define CONFIG_GB10_SND_UDP_MSK             (0x00000001 << CONFIG_GB10_SND_UDP_OFST)
+#define CONFIG_GB10_SND_UDP_MSK     (0x00000001 << CONFIG_GB10_SND_UDP_OFST)
 
 /* External Signal RW register */
-#define EXT_SIGNAL_REG        			    (0x4E << MEM_MAP_SHIFT)
+#define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT)
 
-#define EXT_SIGNAL_OFST					    (0)
+#define EXT_SIGNAL_OFST      (0)
-#define EXT_SIGNAL_MSK					    (0x00000001 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK       (0x00000001 << EXT_SIGNAL_OFST)
-#define EXT_SIGNAL_AUTO_VAL                 ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_AUTO_VAL  ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
-#define EXT_SIGNAL_TRGGR_VAL                ((0x1 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_TRGGR_VAL ((0x1 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
 
 /* Control RW register */
-#define CONTROL_REG           			    (0x4F << MEM_MAP_SHIFT)
+#define CONTROL_REG (0x4F << MEM_MAP_SHIFT)
 
-#define CONTROL_STRT_ACQSTN_OFST       	    (0)
+#define CONTROL_STRT_ACQSTN_OFST (0)
-#define CONTROL_STRT_ACQSTN_MSK			    (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
+#define CONTROL_STRT_ACQSTN_MSK  (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
-#define CONTROL_STP_ACQSTN_OFST			    (1)
+#define CONTROL_STP_ACQSTN_OFST  (1)
-#define CONTROL_STP_ACQSTN_MSK			    (0x00000001 << CONTROL_STP_ACQSTN_OFST)
+#define CONTROL_STP_ACQSTN_MSK   (0x00000001 << CONTROL_STP_ACQSTN_OFST)
 //#define CONTROL_STRT_FF_TST_OFST            (2)
-//#define CONTROL_STRT_FF_TST_MSK             (0x00000001 << CONTROL_STRT_FF_TST_OFST)
+//#define CONTROL_STRT_FF_TST_MSK             (0x00000001 <<
-//#define CONTROL_STP_FF_TST_OFST             (3)
+// CONTROL_STRT_FF_TST_OFST) #define CONTROL_STP_FF_TST_OFST             (3)
-//#define CONTROL_STP_FF_TST_MSK              (0x00000001 << CONTROL_STP_FF_TST_OFST)
+//#define CONTROL_STP_FF_TST_MSK              (0x00000001 <<
-//#define CONTROL_STRT_RDT_OFST               (4)
+// CONTROL_STP_FF_TST_OFST) #define CONTROL_STRT_RDT_OFST               (4)
-//#define CONTROL_STRT_RDT_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
+//#define CONTROL_STRT_RDT_MSK                (0x00000001 <<
-//#define CONTROL_STP_RDT_OFST                (5)
+// CONTROL_STRT_RDT_OFST) #define CONTROL_STP_RDT_OFST                (5)
-//#define CONTROL_STP_RDT_MSK                 (0x00000001 << CONTROL_STP_RDT_OFST)
+// #define CONTROL_STP_RDT_MSK                 (0x00000001 <<
-#define CONTROL_STRT_EXPSR_OFST             (6)
+// CONTROL_STP_RDT_OFST)
-#define CONTROL_STRT_EXPSR_MSK              (0x00000001 << CONTROL_STRT_EXPSR_OFST)
+#define CONTROL_STRT_EXPSR_OFST (6)
+#define CONTROL_STRT_EXPSR_MSK  (0x00000001 << CONTROL_STRT_EXPSR_OFST)
 //#define CONTROL_STP_EXPSR_OFST              (7)
-//#define CONTROL_STP_EXPSR_MSK               (0x00000001 << CONTROL_STP_RDT_OFST)
+//#define CONTROL_STP_EXPSR_MSK               (0x00000001 <<
-//#define CONTROL_STRT_TRN_OFST               (8)
+// CONTROL_STP_RDT_OFST) #define CONTROL_STRT_TRN_OFST               (8) #define
-//#define CONTROL_STRT_TRN_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
+// CONTROL_STRT_TRN_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
 //#define CONTROL_STP_TRN_OFST                (9)
-//#define CONTROL_STP_TRN_MSK                 (0x00000001 << CONTROL_STP_RDT_OFST)
+//#define CONTROL_STP_TRN_MSK                 (0x00000001 <<
-#define CONTROL_CRE_RST_OFST			    (10)
+// CONTROL_STP_RDT_OFST)
-#define CONTROL_CRE_RST_MSK			        (0x00000001 << CONTROL_CRE_RST_OFST)
+#define CONTROL_CRE_RST_OFST    (10)
-#define CONTROL_PRPHRL_RST_OFST		        (11)										// Only GBE10?
+#define CONTROL_CRE_RST_MSK     (0x00000001 << CONTROL_CRE_RST_OFST)
-#define CONTROL_PRPHRL_RST_MSK		        (0x00000001 << CONTROL_PRPHRL_RST_OFST)
+#define CONTROL_PRPHRL_RST_OFST (11) // Only GBE10?
-#define CONTROL_MMRY_RST_OFST		        (12)
+#define CONTROL_PRPHRL_RST_MSK  (0x00000001 << CONTROL_PRPHRL_RST_OFST)
-#define CONTROL_MMRY_RST_MSK		        (0x00000001 << CONTROL_MMRY_RST_OFST)
+#define CONTROL_MMRY_RST_OFST   (12)
+#define CONTROL_MMRY_RST_MSK    (0x00000001 << CONTROL_MMRY_RST_OFST)
 //#define CONTROL_PLL_RCNFG_WR_OFST           (13)
-//#define CONTROL_PLL_RCNFG_WR_MSK            (0x00000001 << CONTROL_PLL_RCNFG_WR_OFST)
+//#define CONTROL_PLL_RCNFG_WR_MSK            (0x00000001 <<
-#define CONTROL_SND_10GB_PCKT_OFST          (14)
+// CONTROL_PLL_RCNFG_WR_OFST)
-#define CONTROL_SND_10GB_PCKT_MSK           (0x00000001 << CONTROL_SND_10GB_PCKT_OFST)
+#define CONTROL_SND_10GB_PCKT_OFST   (14)
-#define CONTROL_CLR_ACQSTN_FIFO_OFST		(15)
+#define CONTROL_SND_10GB_PCKT_MSK    (0x00000001 << CONTROL_SND_10GB_PCKT_OFST)
-#define CONTROL_CLR_ACQSTN_FIFO_MSK		    (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
+#define CONTROL_CLR_ACQSTN_FIFO_OFST (15)
+#define CONTROL_CLR_ACQSTN_FIFO_MSK  (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
 
 /* Reconfiguratble PLL Paramater RW register */
-#define PLL_PARAM_REG					    (0x50 << MEM_MAP_SHIFT)
+#define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT)
 
 /* Reconfiguratble PLL Control RW regiser */
-#define PLL_CNTRL_REG					    (0x51 << MEM_MAP_SHIFT)
+#define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT)
 
-#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST		(0)
+#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0)
-#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK		(0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)
+#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK                                          \
-#define PLL_CNTRL_WR_PRMTR_OFST		        (2)
+    (0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)
-#define PLL_CNTRL_WR_PRMTR_MSK		        (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
+#define PLL_CNTRL_WR_PRMTR_OFST (2)
-#define PLL_CNTRL_PLL_RST_OFST				(3)
+#define PLL_CNTRL_WR_PRMTR_MSK  (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
-#define PLL_CNTRL_PLL_RST_MSK				(0x00000001 << PLL_CNTRL_PLL_RST_OFST)
+#define PLL_CNTRL_PLL_RST_OFST  (3)
-#define PLL_CNTRL_ADDR_OFST				    (16)
+#define PLL_CNTRL_PLL_RST_MSK   (0x00000001 << PLL_CNTRL_PLL_RST_OFST)
-#define PLL_CNTRL_ADDR_MSK				    (0x0000003F << PLL_CNTRL_ADDR_OFST)
+#define PLL_CNTRL_ADDR_OFST     (16)
+#define PLL_CNTRL_ADDR_MSK      (0x0000003F << PLL_CNTRL_ADDR_OFST)
 
 /* Pattern Control RW register */
-#define PATTERN_CNTRL_REG                   (0x52 << MEM_MAP_SHIFT)
+#define PATTERN_CNTRL_REG (0x52 << MEM_MAP_SHIFT)
 
-#define PATTERN_CNTRL_WR_OFST               (0)
+#define PATTERN_CNTRL_WR_OFST   (0)
-#define PATTERN_CNTRL_WR_MSK                (0x00000001 << PATTERN_CNTRL_WR_OFST)
+#define PATTERN_CNTRL_WR_MSK    (0x00000001 << PATTERN_CNTRL_WR_OFST)
-#define PATTERN_CNTRL_RD_OFST               (1)
+#define PATTERN_CNTRL_RD_OFST   (1)
-#define PATTERN_CNTRL_RD_MSK                (0x00000001 << PATTERN_CNTRL_RD_OFST)
+#define PATTERN_CNTRL_RD_MSK    (0x00000001 << PATTERN_CNTRL_RD_OFST)
-#define PATTERN_CNTRL_ADDR_OFST             (16)
+#define PATTERN_CNTRL_ADDR_OFST (16)
-#define PATTERN_CNTRL_ADDR_MSK              (0x00001FFF << PATTERN_CNTRL_ADDR_OFST)
+#define PATTERN_CNTRL_ADDR_MSK  (0x00001FFF << PATTERN_CNTRL_ADDR_OFST)
 
 /* Pattern Limit RW regiser */
-#define PATTERN_LIMIT_REG                   (0x53 << MEM_MAP_SHIFT)
+#define PATTERN_LIMIT_REG (0x53 << MEM_MAP_SHIFT)
 
-#define PATTERN_LIMIT_STRT_OFST       		(0)
+#define PATTERN_LIMIT_STRT_OFST (0)
-#define PATTERN_LIMIT_STRT_MSK        		(0x00001FFF << PATTERN_LIMIT_STRT_OFST)
+#define PATTERN_LIMIT_STRT_MSK  (0x00001FFF << PATTERN_LIMIT_STRT_OFST)
-#define PATTERN_LIMIT_STP_OFST        		(16)
+#define PATTERN_LIMIT_STP_OFST  (16)
-#define PATTERN_LIMIT_STP_MSK         		(0x00001FFF << PATTERN_LIMIT_STP_OFST)
+#define PATTERN_LIMIT_STP_MSK   (0x00001FFF << PATTERN_LIMIT_STP_OFST)
 
 /* Pattern Loop 0 Address RW regiser */
-#define PATTERN_LOOP_0_ADDR_REG             (0x54 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_0_ADDR_REG (0x54 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_0_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_0_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_0_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
+#define PATTERN_LOOP_0_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_0_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
-#define PATTERN_LOOP_0_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
+#define PATTERN_LOOP_0_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_0_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
 
 /* Pattern Loop 0 Iteration RW regiser */
-#define PATTERN_LOOP_0_ITERATION_REG        (0x55 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_0_ITERATION_REG (0x55 << MEM_MAP_SHIFT)
 
 /* Pattern Loop 1 Address RW regiser */
-#define PATTERN_LOOP_1_ADDR_REG             (0x56 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_1_ADDR_REG (0x56 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_1_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_1_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_1_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
+#define PATTERN_LOOP_1_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_1_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
-#define PATTERN_LOOP_1_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
+#define PATTERN_LOOP_1_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_1_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
 
 /* Pattern Loop 1 Iteration RW regiser */
-#define PATTERN_LOOP_1_ITERATION_REG        (0x57 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_1_ITERATION_REG (0x57 << MEM_MAP_SHIFT)
 
 /* Pattern Loop 2 Address RW regiser */
-#define PATTERN_LOOP_2_ADDR_REG             (0x58 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_2_ADDR_REG (0x58 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_2_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_2_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_2_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
+#define PATTERN_LOOP_2_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_2_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
-#define PATTERN_LOOP_2_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
+#define PATTERN_LOOP_2_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_2_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
 
 /* Pattern Loop 2 Iteration RW regiser */
-#define PATTERN_LOOP_2_ITERATION_REG        (0x59 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_2_ITERATION_REG (0x59 << MEM_MAP_SHIFT)
 
 /* Pattern Wait 0 RW regiser */
-#define PATTERN_WAIT_0_ADDR_REG             (0x5A << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_0_ADDR_REG (0x5A << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_0_ADDR_OFST            (0)
+#define PATTERN_WAIT_0_ADDR_OFST (0)
-#define PATTERN_WAIT_0_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
+#define PATTERN_WAIT_0_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
-//FIXME: is mask 3FF
+// FIXME: is mask 3FF
 
 /* Pattern Wait 1 RW regiser */
-#define PATTERN_WAIT_1_ADDR_REG             (0x5B << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_1_ADDR_REG (0x5B << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_1_ADDR_OFST            (0)
+#define PATTERN_WAIT_1_ADDR_OFST (0)
-#define PATTERN_WAIT_1_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
+#define PATTERN_WAIT_1_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
 
 /* Pattern Wait 2 RW regiser */
-#define PATTERN_WAIT_2_ADDR_REG             (0x5C << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_2_ADDR_REG (0x5C << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_2_ADDR_OFST            (0)
+#define PATTERN_WAIT_2_ADDR_OFST (0)
-#define PATTERN_WAIT_2_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
+#define PATTERN_WAIT_2_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
 
 /* Samples RW register */
-#define SAMPLES_REG 						(0x5D << MEM_MAP_SHIFT)
+#define SAMPLES_REG (0x5D << MEM_MAP_SHIFT)
 
-#define SAMPLES_DIGITAL_OFST                (0)
+#define SAMPLES_DIGITAL_OFST (0)
-#define SAMPLES_DIGITAL_MSK                 (0x0000FFFF << SAMPLES_DIGITAL_OFST)
+#define SAMPLES_DIGITAL_MSK  (0x0000FFFF << SAMPLES_DIGITAL_OFST)
-#define SAMPLES_ANALOG_OFST                 (16)
+#define SAMPLES_ANALOG_OFST  (16)
-#define SAMPLES_ANALOG_MSK                  (0x0000FFFF << SAMPLES_ANALOG_OFST)
+#define SAMPLES_ANALOG_MSK   (0x0000FFFF << SAMPLES_ANALOG_OFST)
 
 /** Power RW register */
-#define POWER_REG					        (0x5E << MEM_MAP_SHIFT)
+#define POWER_REG (0x5E << MEM_MAP_SHIFT)
 
-#define POWER_ENBL_VLTG_RGLTR_OFST          (16)
+#define POWER_ENBL_VLTG_RGLTR_OFST  (16)
-#define POWER_ENBL_VLTG_RGLTR_MSK           (0x0000001F << POWER_ENBL_VLTG_RGLTR_OFST)
+#define POWER_ENBL_VLTG_RGLTR_MSK   (0x0000001F << POWER_ENBL_VLTG_RGLTR_OFST)
-#define POWER_HV_INTERNAL_SLCT_OFST         (31)
+#define POWER_HV_INTERNAL_SLCT_OFST (31)
-#define POWER_HV_INTERNAL_SLCT_MSK          (0x00000001 << POWER_HV_INTERNAL_SLCT_OFST)
+#define POWER_HV_INTERNAL_SLCT_MSK  (0x00000001 << POWER_HV_INTERNAL_SLCT_OFST)
 
 /* Number of Words RW register TODO */
-#define NUMBER_OF_WORDS_REG                 (0x5F << MEM_MAP_SHIFT)
+#define NUMBER_OF_WORDS_REG (0x5F << MEM_MAP_SHIFT)
-
 
 /* Delay 64 bit RW register. t = DLY x 50 ns. */
-#define DELAY_LSB_REG     			        (0x60 << MEM_MAP_SHIFT)
+#define DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT)
-#define DELAY_MSB_REG     			        (0x61 << MEM_MAP_SHIFT)
+#define DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT)
 
 /* Triggers 64 bit RW register */
-#define CYCLES_LSB_REG    			        (0x62 << MEM_MAP_SHIFT)
+#define CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
-#define CYCLES_MSB_REG    			        (0x63 << MEM_MAP_SHIFT)
+#define CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
 
 /* Frames 64 bit RW register */
-#define FRAMES_LSB_REG   			        (0x64 << MEM_MAP_SHIFT)
+#define FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
-#define FRAMES_MSB_REG    			        (0x65 << MEM_MAP_SHIFT)
+#define FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
 
 /* Period 64 bit RW register */
-#define PERIOD_LSB_REG    			        (0x66 << MEM_MAP_SHIFT)
+#define PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
-#define PERIOD_MSB_REG    			        (0x67 << MEM_MAP_SHIFT)
+#define PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
 
 /* Period 64 bit RW register */
-//#define EXPTIME_LSB_REG    			    (0x68 << MEM_MAP_SHIFT)                 // Not used in FW
+//#define EXPTIME_LSB_REG    			    (0x68 << MEM_MAP_SHIFT) //
-//#define EXPTIME_MSB_REG    			    (0x69 << MEM_MAP_SHIFT)                 // Not used in FW
+// Not used in FW #define EXPTIME_MSB_REG    			    (0x69 <<
+// MEM_MAP_SHIFT)                 // Not used in FW
 
 /* Gates 64 bit RW register */
-//#define GATES_LSB_REG                      (0x6A << MEM_MAP_SHIFT)                 // Not used in FW
+//#define GATES_LSB_REG                      (0x6A << MEM_MAP_SHIFT) // Not used
-//#define GATES_MSB_REG                      (0x6B << MEM_MAP_SHIFT)                 // Not used in FW
+// in FW #define GATES_MSB_REG                      (0x6B << MEM_MAP_SHIFT) //
+// Not used in FW
 
 /* Pattern IO Control 64 bit RW regiser
  * Each bit configured as output(1)/ input(0) */
-#define PATTERN_IO_CNTRL_LSB_REG            (0x6C << MEM_MAP_SHIFT)
+#define PATTERN_IO_CNTRL_LSB_REG (0x6C << MEM_MAP_SHIFT)
-#define PATTERN_IO_CNTRL_MSB_REG            (0x6D << MEM_MAP_SHIFT)
+#define PATTERN_IO_CNTRL_MSB_REG (0x6D << MEM_MAP_SHIFT)
 
 /* Pattern IO Clock Control 64 bit RW regiser
  * When bit n enabled (1), clocked output for DIO[n] (T run clock)
  * When bit n disabled (0), Dio[n] driven by its pattern output */
-#define PATTERN_IO_CLK_CNTRL_LSB_REG        (0x6E << MEM_MAP_SHIFT)
+#define PATTERN_IO_CLK_CNTRL_LSB_REG (0x6E << MEM_MAP_SHIFT)
-#define PATTERN_IO_CLK_CNTRL_MSB_REG        (0x6F << MEM_MAP_SHIFT)
+#define PATTERN_IO_CLK_CNTRL_MSB_REG (0x6F << MEM_MAP_SHIFT)
 
 /* Pattern In 64 bit RW register */
-#define PATTERN_IN_LSB_REG                  (0x70 << MEM_MAP_SHIFT)
+#define PATTERN_IN_LSB_REG (0x70 << MEM_MAP_SHIFT)
-#define PATTERN_IN_MSB_REG                  (0x71 << MEM_MAP_SHIFT)
+#define PATTERN_IN_MSB_REG (0x71 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 0 64 bit RW register. t = PWT1 x T run clock */
-#define PATTERN_WAIT_TIMER_0_LSB_REG        (0x72 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_0_LSB_REG (0x72 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_0_MSB_REG        (0x73 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_0_MSB_REG (0x73 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 1 64 bit RW register. t = PWT2 x T run clock */
-#define PATTERN_WAIT_TIMER_1_LSB_REG        (0x74 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_1_LSB_REG (0x74 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_1_MSB_REG        (0x75 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_1_MSB_REG (0x75 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 2 64 bit RW register. t = PWT3 x T run clock */
-#define PATTERN_WAIT_TIMER_2_LSB_REG        (0x76 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_2_LSB_REG (0x76 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_2_MSB_REG        (0x77 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_2_MSB_REG (0x77 << MEM_MAP_SHIFT)
 
 /* Readout enable RW register */
-#define READOUT_10G_ENABLE_REG              (0x79 << MEM_MAP_SHIFT)
+#define READOUT_10G_ENABLE_REG (0x79 << MEM_MAP_SHIFT)
-
-#define READOUT_10G_ENABLE_ANLG_OFST        (0)
-#define READOUT_10G_ENABLE_ANLG_MSK         (0x000000FF << READOUT_10G_ENABLE_ANLG_OFST)
-#define READOUT_10G_ENABLE_DGTL_OFST        (8)
-#define READOUT_10G_ENABLE_DGTL_MSK         (0x00000001 << READOUT_10G_ENABLE_DGTL_OFST)
 
+#define READOUT_10G_ENABLE_ANLG_OFST (0)
+#define READOUT_10G_ENABLE_ANLG_MSK  (0x000000FF << READOUT_10G_ENABLE_ANLG_OFST)
+#define READOUT_10G_ENABLE_DGTL_OFST (8)
+#define READOUT_10G_ENABLE_DGTL_MSK  (0x00000001 << READOUT_10G_ENABLE_DGTL_OFST)
 
 /* Digital Bit External Trigger RW register */
-#define DBIT_EXT_TRG_REG                    (0x7B << MEM_MAP_SHIFT)
+#define DBIT_EXT_TRG_REG (0x7B << MEM_MAP_SHIFT)
 
-#define DBIT_EXT_TRG_SRC_OFST               (0)
+#define DBIT_EXT_TRG_SRC_OFST      (0)
-#define DBIT_EXT_TRG_SRC_MSK                (0x0000003F << DBIT_EXT_TRG_SRC_OFST)
+#define DBIT_EXT_TRG_SRC_MSK       (0x0000003F << DBIT_EXT_TRG_SRC_OFST)
-#define DBIT_EXT_TRG_OPRTN_MD_OFST          (16)
+#define DBIT_EXT_TRG_OPRTN_MD_OFST (16)
-#define DBIT_EXT_TRG_OPRTN_MD_MSK           (0x00000001 << DBIT_EXT_TRG_OPRTN_MD_OFST)
+#define DBIT_EXT_TRG_OPRTN_MD_MSK  (0x00000001 << DBIT_EXT_TRG_OPRTN_MD_OFST)
 
 /* Pin Delay 0 RW register */
-#define OUTPUT_DELAY_0_REG                  (0x7C << MEM_MAP_SHIFT)
+#define OUTPUT_DELAY_0_REG              (0x7C << MEM_MAP_SHIFT)
-#define OUTPUT_DELAY_0_OTPT_STTNG_STEPS		(25)
+#define OUTPUT_DELAY_0_OTPT_STTNG_STEPS (25)
-#define OUTPUT_DELAY_0_OTPT_STTNG_OFST      (0)     //t = OTPT_STTNG * 25 ps, max for Cyclone V = 775 ps
+#define OUTPUT_DELAY_0_OTPT_STTNG_OFST                                         \
-#define OUTPUT_DELAY_0_OTPT_STTNG_MSK       (0x0000001F << OUTPUT_DELAY_0_OTPT_STTNG_OFST)
+    (0) // t = OTPT_STTNG * 25 ps, max for Cyclone V = 775 ps
-// 1: load dynamic output settings, 0: trigger start of dynamic output delay configuration pn falling edge of ODT (output delay trigger) bit
+#define OUTPUT_DELAY_0_OTPT_STTNG_MSK                                          \
-#define OUTPUT_DELAY_0_OTPT_TRGGR_OFST      (31)
+    (0x0000001F << OUTPUT_DELAY_0_OTPT_STTNG_OFST)
-#define OUTPUT_DELAY_0_OTPT_TRGGR_MSK       (0x00000001 << OUTPUT_DELAY_0_OTPT_TRGGR_OFST)
+// 1: load dynamic output settings, 0: trigger start of dynamic output delay
-#define OUTPUT_DELAY_0_OTPT_TRGGR_LD_VAL    (1)
+// configuration pn falling edge of ODT (output delay trigger) bit
-#define OUTPUT_DELAY_0_OTPT_TRGGR_STRT_VAL  (0)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_OFST (31)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_MSK                                          \
+    (0x00000001 << OUTPUT_DELAY_0_OTPT_TRGGR_OFST)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_LD_VAL   (1)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_STRT_VAL (0)
 
 /* Pin Delay 1 RW register
  * Each bit configured as enable for dynamic output delay configuration */
-#define PIN_DELAY_1_REG                     (0x7D << MEM_MAP_SHIFT)
+#define PIN_DELAY_1_REG (0x7D << MEM_MAP_SHIFT)
 
 /** Pattern Mask 64 bit RW regiser */
-#define PATTERN_MASK_LSB_REG                (0x80 << MEM_MAP_SHIFT)
+#define PATTERN_MASK_LSB_REG (0x80 << MEM_MAP_SHIFT)
-#define PATTERN_MASK_MSB_REG                (0x81 << MEM_MAP_SHIFT)
+#define PATTERN_MASK_MSB_REG (0x81 << MEM_MAP_SHIFT)
 
 /** Pattern Set 64 bit RW regiser */
-#define PATTERN_SET_LSB_REG                 (0x82 << MEM_MAP_SHIFT)
+#define PATTERN_SET_LSB_REG (0x82 << MEM_MAP_SHIFT)
-#define PATTERN_SET_MSB_REG                 (0x83 << MEM_MAP_SHIFT)
+#define PATTERN_SET_MSB_REG (0x83 << MEM_MAP_SHIFT)
 
 /** I2C Control register */
-#define I2C_TRANSFER_COMMAND_FIFO_REG       (0x100 << MEM_MAP_SHIFT)
+#define I2C_TRANSFER_COMMAND_FIFO_REG (0x100 << MEM_MAP_SHIFT)
-#define I2C_RX_DATA_FIFO_REG                (0x101 << MEM_MAP_SHIFT)
+#define I2C_RX_DATA_FIFO_REG          (0x101 << MEM_MAP_SHIFT)
-#define I2C_CONTROL_REG                     (0x102 << MEM_MAP_SHIFT)
+#define I2C_CONTROL_REG               (0x102 << MEM_MAP_SHIFT)
-#define I2C_STATUS_REG                      (0x105 << MEM_MAP_SHIFT)
+#define I2C_STATUS_REG                (0x105 << MEM_MAP_SHIFT)
-#define I2C_RX_DATA_FIFO_LEVEL_REG          (0x107 << MEM_MAP_SHIFT)
+#define I2C_RX_DATA_FIFO_LEVEL_REG    (0x107 << MEM_MAP_SHIFT)
-#define I2C_SCL_LOW_COUNT_REG               (0x108 << MEM_MAP_SHIFT)
+#define I2C_SCL_LOW_COUNT_REG         (0x108 << MEM_MAP_SHIFT)
-#define I2C_SCL_HIGH_COUNT_REG              (0x109 << MEM_MAP_SHIFT)
+#define I2C_SCL_HIGH_COUNT_REG        (0x109 << MEM_MAP_SHIFT)
-#define I2C_SDA_HOLD_REG                    (0x10A << MEM_MAP_SHIFT)
+#define I2C_SDA_HOLD_REG              (0x10A << MEM_MAP_SHIFT)
-//fixme: upto 0x10f
+// fixme: upto 0x10f
 
 /* Round Robin  */
-#define RXR_ENDPOINT_START_REG	            (0x1000 << MEM_MAP_SHIFT)
+#define RXR_ENDPOINT_START_REG (0x1000 << MEM_MAP_SHIFT)
-
-
-

slsDetectorServers/ctbDetectorServer/slsDetectorServer_defs.h

@@ -1,112 +1,158 @@
 #pragma once
-#include "sls_detector_defs.h"
 #include "RegisterDefs.h"
+#include "sls_detector_defs.h"
 
+#define MIN_REQRD_VRSN_T_RD_API 0x181130
+#define REQRD_FRMWR_VRSN        0x191127
 
-#define MIN_REQRD_VRSN_T_RD_API     0x181130
+#define CTRL_SRVR_INIT_TIME_US (2 * 1000 * 1000)
-#define REQRD_FRMWR_VRSN            0x191127
-
-#define CTRL_SRVR_INIT_TIME_US      (2 * 1000 * 1000)
 
 /* Struct Definitions */
 typedef struct udp_header_struct {
-	uint32_t	udp_destmac_msb;
+    uint32_t udp_destmac_msb;
-	uint16_t	udp_srcmac_msb;
+    uint16_t udp_srcmac_msb;
-	uint16_t	udp_destmac_lsb;
+    uint16_t udp_destmac_lsb;
-	uint32_t	udp_srcmac_lsb;
+    uint32_t udp_srcmac_lsb;
-	uint8_t		ip_tos;
+    uint8_t ip_tos;
-	uint8_t		ip_ihl: 4, ip_ver: 4;
+    uint8_t ip_ihl : 4, ip_ver : 4;
-	uint16_t	udp_ethertype;
+    uint16_t udp_ethertype;
-	uint16_t	ip_identification;
+    uint16_t ip_identification;
-	uint16_t	ip_totallength;
+    uint16_t ip_totallength;
-	uint8_t		ip_protocol;
+    uint8_t ip_protocol;
-	uint8_t		ip_ttl;
+    uint8_t ip_ttl;
-	uint16_t	ip_fragmentoffset: 13, ip_flags: 3;
+    uint16_t ip_fragmentoffset : 13, ip_flags : 3;
-	uint16_t	ip_srcip_msb;
+    uint16_t ip_srcip_msb;
-	uint16_t	ip_checksum;
+    uint16_t ip_checksum;
-	uint16_t	ip_destip_msb;
+    uint16_t ip_destip_msb;
-	uint16_t	ip_srcip_lsb;
+    uint16_t ip_srcip_lsb;
-	uint16_t	udp_srcport;
+    uint16_t udp_srcport;
-	uint16_t	ip_destip_lsb;
+    uint16_t ip_destip_lsb;
-	uint16_t	udp_checksum;
+    uint16_t udp_checksum;
-	uint16_t	udp_destport;
+    uint16_t udp_destport;
 } udp_header;
 
-#define IP_HEADER_SIZE				(20)
+#define IP_HEADER_SIZE             (20)
-#define UDP_IP_HEADER_LENGTH_BYTES	(28)
+#define UDP_IP_HEADER_LENGTH_BYTES (28)
 
 /* Enums */
-enum ADCINDEX				{V_PWR_IO, V_PWR_A, V_PWR_B, V_PWR_C, V_PWR_D, I_PWR_IO, I_PWR_A, I_PWR_B, I_PWR_C, I_PWR_D, S_ADC0, S_ADC1, S_ADC2, S_ADC3, S_ADC4, S_ADC5, S_ADC6, S_ADC7, S_TMP};
+enum ADCINDEX {
-enum DACINDEX               {D0, D1, D2, D3, D4, D5, D6, D7, D8, D9,
+    V_PWR_IO,
-                             D10, D11, D12, D13, D14, D15, D16, D17,
+    V_PWR_A,
-                             D_PWR_D, D_PWR_CHIP, D_PWR_C, D_PWR_B, D_PWR_A, D_PWR_IO};
+    V_PWR_B,
-enum CLKINDEX               {RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS};
+    V_PWR_C,
-#define CLK_NAMES			"run", "adc", "sync", "dbit"
+    V_PWR_D,
+    I_PWR_IO,
+    I_PWR_A,
+    I_PWR_B,
+    I_PWR_C,
+    I_PWR_D,
+    S_ADC0,
+    S_ADC1,
+    S_ADC2,
+    S_ADC3,
+    S_ADC4,
+    S_ADC5,
+    S_ADC6,
+    S_ADC7,
+    S_TMP
+};
+enum DACINDEX {
+    D0,
+    D1,
+    D2,
+    D3,
+    D4,
+    D5,
+    D6,
+    D7,
+    D8,
+    D9,
+    D10,
+    D11,
+    D12,
+    D13,
+    D14,
+    D15,
+    D16,
+    D17,
+    D_PWR_D,
+    D_PWR_CHIP,
+    D_PWR_C,
+    D_PWR_B,
+    D_PWR_A,
+    D_PWR_IO
+};
+enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
+#define CLK_NAMES "run", "adc", "sync", "dbit"
 
 /* Hardware Definitions */
-#define NCHAN 						(36)
+#define NCHAN                   (36)
-#define NCHAN_ANALOG                (32)
+#define NCHAN_ANALOG            (32)
-#define NCHAN_DIGITAL               (64)
+#define NCHAN_DIGITAL           (64)
-#define NCHIP 						(1)
+#define NCHIP                   (1)
-#define NDAC 						(24)
+#define NDAC                    (24)
-#define NPWR                        (6)
+#define NPWR                    (6)
-#define NDAC_ONLY                   (NDAC - NPWR)
+#define NDAC_ONLY               (NDAC - NPWR)
-#define DYNAMIC_RANGE               (16)
+#define DYNAMIC_RANGE           (16)
-#define NUM_BYTES_PER_PIXEL         (DYNAMIC_RANGE / 8)
+#define NUM_BYTES_PER_PIXEL     (DYNAMIC_RANGE / 8)
-#define CLK_FREQ					(156.25)	/* MHz */
+#define CLK_FREQ                (156.25) /* MHz */
-#define I2C_POWER_VIO_DEVICE_ID     (0x40)
+#define I2C_POWER_VIO_DEVICE_ID (0x40)
-#define I2C_POWER_VA_DEVICE_ID      (0x41)
+#define I2C_POWER_VA_DEVICE_ID  (0x41)
-#define I2C_POWER_VB_DEVICE_ID      (0x42)
+#define I2C_POWER_VB_DEVICE_ID  (0x42)
-#define I2C_POWER_VC_DEVICE_ID      (0x43)
+#define I2C_POWER_VC_DEVICE_ID  (0x43)
-#define I2C_POWER_VD_DEVICE_ID      (0x44)
+#define I2C_POWER_VD_DEVICE_ID  (0x44)
-#define I2C_SHUNT_RESISTER_OHMS     (0.005)
+#define I2C_SHUNT_RESISTER_OHMS (0.005)
 
 /** Default Parameters */
-#define DEFAULT_DATA_BYTES          (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
+#define DEFAULT_DATA_BYTES   (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
-#define DEFAULT_NUM_SAMPLES         (1)
+#define DEFAULT_NUM_SAMPLES  (1)
-#define DEFAULT_NUM_FRAMES			(1)
+#define DEFAULT_NUM_FRAMES   (1)
-#define DEFAULT_EXPTIME				(0)
+#define DEFAULT_EXPTIME      (0)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES   (1)
-#define DEFAULT_PERIOD				(1 * 1000 * 1000)	//ns
+#define DEFAULT_PERIOD       (1 * 1000 * 1000) // ns
-#define DEFAULT_DELAY				(0)
+#define DEFAULT_DELAY        (0)
-#define DEFAULT_HIGH_VOLTAGE		(0)
+#define DEFAULT_HIGH_VOLTAGE (0)
-#define DEFAULT_VLIMIT              (-100)
+#define DEFAULT_VLIMIT       (-100)
-#define DEFAULT_TIMING_MODE			(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE  (AUTO_TIMING)
-#define DEFAULT_TX_UDP_PORT			(0x7e9a)
+#define DEFAULT_TX_UDP_PORT  (0x7e9a)
-#define DEFAULT_RUN_CLK             (200) // 40
+#define DEFAULT_RUN_CLK      (200) // 40
-#define DEFAULT_ADC_CLK             (40) // 20
+#define DEFAULT_ADC_CLK      (40)  // 20
-#define DEFAULT_SYNC_CLK            (40) // 20
+#define DEFAULT_SYNC_CLK     (40)  // 20
-#define DEFAULT_DBIT_CLK            (200)
+#define DEFAULT_DBIT_CLK     (200)
 
-#define HIGHVOLTAGE_MIN             (60)
+#define HIGHVOLTAGE_MIN (60)
-#define HIGHVOLTAGE_MAX             (200) // min dac val
+#define HIGHVOLTAGE_MAX (200) // min dac val
-#define DAC_MIN_MV                  (0)
+#define DAC_MIN_MV      (0)
-#define DAC_MAX_MV                  (2500)
+#define DAC_MAX_MV      (2500)
-#define VCHIP_MIN_MV                (1673)
+#define VCHIP_MIN_MV    (1673)
-#define VCHIP_MAX_MV                (2668) // min dac val
+#define VCHIP_MAX_MV    (2668) // min dac val
-#define POWER_RGLTR_MIN             (636)
+#define POWER_RGLTR_MIN (636)
-#define POWER_RGLTR_MAX             (2638) // min dac val (not vchip-max) because of dac conversions
+#define POWER_RGLTR_MAX                                                        \
-#define VCHIP_POWER_INCRMNT         (200)
+    (2638) // min dac val (not vchip-max) because of dac conversions
-#define VIO_MIN_MV                  (1200) // for fpga to function
+#define VCHIP_POWER_INCRMNT (200)
+#define VIO_MIN_MV          (1200) // for fpga to function
 
 /* Defines in the Firmware */
-#define MAX_PATTERN_LENGTH  		(0x2000)
+#define MAX_PATTERN_LENGTH (0x2000)
-#define DIGITAL_IO_DELAY_MAXIMUM_PS	((OUTPUT_DELAY_0_OTPT_STTNG_MSK >> OUTPUT_DELAY_0_OTPT_STTNG_OFST) * OUTPUT_DELAY_0_OTPT_STTNG_STEPS)
+#define DIGITAL_IO_DELAY_MAXIMUM_PS                                            \
-#define MAX_PHASE_SHIFTS_STEPS		(8)
+    ((OUTPUT_DELAY_0_OTPT_STTNG_MSK >> OUTPUT_DELAY_0_OTPT_STTNG_OFST) *       \
+     OUTPUT_DELAY_0_OTPT_STTNG_STEPS)
+#define MAX_PHASE_SHIFTS_STEPS (8)
 
-#define WAIT_TME_US_FR_ACQDONE_REG 	(100) // wait time in us after acquisition done to ensure there is no data in fifo
+#define WAIT_TME_US_FR_ACQDONE_REG                                             \
-#define WAIT_TIME_US_PLL            (10 * 1000)
+    (100) // wait time in us after acquisition done to ensure there is no data
-#define WAIT_TIME_US_STP_ACQ        (100)
+          // in fifo
-#define WAIT_TIME_CONFIGURE_MAC     (2 * 1000 * 1000)
+#define WAIT_TIME_US_PLL           (10 * 1000)
-#define WAIT_TIME_PATTERN_READ     	(10)
+#define WAIT_TIME_US_STP_ACQ       (100)
-#define WAIT_TIME_1US_FOR_LOOP_CNT	(50) // around 30 is 1 us in blackfin
+#define WAIT_TIME_CONFIGURE_MAC    (2 * 1000 * 1000)
+#define WAIT_TIME_PATTERN_READ     (10)
+#define WAIT_TIME_1US_FOR_LOOP_CNT (50) // around 30 is 1 us in blackfin
 
 /* MSB & LSB DEFINES */
-#define MSB_OF_64_BIT_REG_OFST		(32)
+#define MSB_OF_64_BIT_REG_OFST (32)
-#define LSB_OF_64_BIT_REG_OFST		(0)
+#define LSB_OF_64_BIT_REG_OFST (0)
-#define BIT32_MSK					(0xFFFFFFFF)
+#define BIT32_MSK              (0xFFFFFFFF)
-#define BIT16_MASK					(0xFFFF)
+#define BIT16_MASK             (0xFFFF)
-
-#define MAXIMUM_ADC_CLK             (65)
-#define PLL_VCO_FREQ_MHZ            (800)
 
+#define MAXIMUM_ADC_CLK  (65)
+#define PLL_VCO_FREQ_MHZ (800)

slsDetectorServers/eigerDetectorServer/9mhvserial_bf.c

@@ -1,202 +1,197 @@
 #include "ansi.h"
 
-#include <termios.h>  	/* POSIX terminal control definitions */
-#include <stdio.h>
-#include <stdlib.h>			// atoi
-#include <fcntl.h>			// File control definitions
-#include <sys/ioctl.h>		// ioctl
-#include <unistd.h>			// read, close
-#include <string.h>  		// memset
-#include <linux/i2c-dev.h>	// I2C_SLAVE, __u8 reg
 #include <errno.h>
+#include <fcntl.h>         // File control definitions
+#include <linux/i2c-dev.h> // I2C_SLAVE, __u8 reg
+#include <stdio.h>
+#include <stdlib.h>    // atoi
+#include <string.h>    // memset
+#include <sys/ioctl.h> // ioctl
+#include <termios.h>   /* POSIX terminal control definitions */
+#include <unistd.h>    // read, close
 
-#define PORTNAME 				"/dev/ttyBF1"
+#define PORTNAME           "/dev/ttyBF1"
-#define GOODBYE 				200
+#define GOODBYE            200
-#define BUFFERSIZE 				16
+#define BUFFERSIZE         16
-#define I2C_DEVICE_FILE			"/dev/i2c-0"
+#define I2C_DEVICE_FILE    "/dev/i2c-0"
-#define I2C_DEVICE_ADDRESS		0x4C
+#define I2C_DEVICE_ADDRESS 0x4C
 //#define I2C_DEVICE_ADDRESS	0x48
-#define I2C_REGISTER_ADDRESS	0x40
+#define I2C_REGISTER_ADDRESS 0x40
 
+int i2c_open(const char *file, unsigned int addr) {
 
+    // device file
+    int fd = open(file, O_RDWR);
+    if (fd < 0) {
+        LOG(logERROR, ("Warning: Unable to open file %s\n", file));
+        return -1;
+    }
 
-int i2c_open(const char* file,unsigned int addr){
+    // device address
-
+    if (ioctl(fd, I2C_SLAVE, addr & 0x7F) < 0) {
-	//device file
+        LOG(logERROR, ("Warning: Unable to set slave address:0x%x \n", addr));
-	int fd = open( file, O_RDWR );
+        return -2;
-	if (fd < 0)	{
+    }
-		LOG(logERROR, ("Warning: Unable to open file %s\n",file));
+    return fd;
-		return -1;
-	}
-
-	//device address
-	if( ioctl( fd, I2C_SLAVE, addr&0x7F ) < 0 )	{
-		LOG(logERROR, ("Warning: Unable to set slave address:0x%x \n",addr));
-		return -2;
-	}
-	return fd;
 }
 
+int i2c_read() {
 
-int i2c_read(){
+    int fd = i2c_open(I2C_DEVICE_FILE, I2C_DEVICE_ADDRESS);
+    __u8 reg = I2C_REGISTER_ADDRESS & 0xff;
 
-	int fd = i2c_open(I2C_DEVICE_FILE, I2C_DEVICE_ADDRESS);
+    unsigned char buf = reg;
-	__u8 reg = I2C_REGISTER_ADDRESS & 0xff;
+    if (write(fd, &buf, 1) != 1) {
-
+        LOG(logERROR,
-	unsigned char buf = reg;
+            ("Warning: Unable to write read request to register %d\n", reg));
-	if (write(fd, &buf, 1)!= 1){
+        return -1;
-		LOG(logERROR, ("Warning: Unable to write read request to register %d\n", reg));
+    }
-		return -1;
+    // read and update value (but old value read out)
-	}
+    if (read(fd, &buf, 1) != 1) {
-	//read and update value (but old value read out)
+        LOG(logERROR, ("Warning: Unable to read register %d\n", reg));
-	if(read(fd, &buf, 1) != 1){
+        return -2;
-		LOG(logERROR, ("Warning: Unable to read register %d\n", reg));
+    }
-		return -2;
+    // read again to read the updated value
-	}
+    if (read(fd, &buf, 1) != 1) {
-	//read again to read the updated value
+        LOG(logERROR, ("Warning: Unable to read register %d\n", reg));
-	if(read(fd, &buf, 1) != 1){
+        return -2;
-		LOG(logERROR, ("Warning: Unable to read register %d\n", reg));
+    }
-		return -2;
+    close(fd);
-	}
+    return buf;
-	close(fd);
-	return buf;
 }
 
+int i2c_write(unsigned int value) {
 
-int i2c_write(unsigned int value){
+    __u8 val = value & 0xff;
 
-	__u8 val = value & 0xff;
+    int fd = i2c_open(I2C_DEVICE_FILE, I2C_DEVICE_ADDRESS);
+    if (fd < 0)
+        return fd;
 
-	int fd = i2c_open(I2C_DEVICE_FILE, I2C_DEVICE_ADDRESS);
+    __u8 reg = I2C_REGISTER_ADDRESS & 0xff;
-	if(fd < 0)
+    char buf[3];
-		return fd;
+    buf[0] = reg;
+    buf[1] = val;
+    if (write(fd, buf, 2) != 2) {
+        LOG(logERROR,
+            ("Warning: Unable to write %d to register %d\n", val, reg));
+        return -1;
+    }
 
-	__u8 reg = I2C_REGISTER_ADDRESS & 0xff;
+    close(fd);
-	char buf[3];
+    return 0;
-	buf[0] = reg;
-	buf[1] = val;
-	if (write(fd, buf, 2) != 2) {
-		LOG(logERROR, ("Warning: Unable to write %d to register %d\n",val, reg));
-		return -1;
-	}
-
-	close(fd);
-	return 0;
 }
 
+int main(int argc, char *argv[]) {
 
+    int fd = open(PORTNAME, O_RDWR | O_NOCTTY | O_SYNC);
+    if (fd < 0) {
+        LOG(logERROR, ("Warning: Unable to open port %s\n", PORTNAME));
+        return -1;
+    }
+    LOG(logINFO, ("opened port at %s\n", PORTNAME));
 
+    struct termios serial_conf;
+    // reset structure
+    memset(&serial_conf, 0, sizeof(serial_conf));
+    // control options
+    serial_conf.c_cflag = B2400 | CS8 | CREAD | CLOCAL;
+    // input options
+    serial_conf.c_iflag = IGNPAR;
+    // output options
+    serial_conf.c_oflag = 0;
+    // line options
+    serial_conf.c_lflag = ICANON;
+    // flush input
+    if (tcflush(fd, TCIOFLUSH) < 0) {
+        LOG(logERROR, ("Warning: error form tcflush %d\n", errno));
+        return 0;
+    }
+    // set new options for the port, TCSANOW:changes occur immediately without
+    // waiting for data to complete
+    if (tcsetattr(fd, TCSANOW, &serial_conf) < 0) {
+        LOG(logERROR, ("Warning: error form tcsetattr %d\n", errno));
+        return 0;
+    }
 
+    if (tcsetattr(fd, TCSAFLUSH, &serial_conf) < 0) {
+        LOG(logERROR, ("Warning: error form tcsetattr %d\n", errno));
+        return 0;
+    }
 
-int main(int argc, char* argv[]) {
+    int ret = 0;
+    int n = 0;
+    int ival = 0;
+    char buffer[BUFFERSIZE];
+    memset(buffer, 0, BUFFERSIZE);
+    buffer[BUFFERSIZE - 1] = '\n';
+    LOG(logINFO, ("Ready...\n"));
 
-	int fd = open(PORTNAME, O_RDWR | O_NOCTTY | O_SYNC);
+    while (ret != GOODBYE) {
-	if(fd < 0){
+        memset(buffer, 0, BUFFERSIZE);
-		LOG(logERROR, ("Warning: Unable to open port %s\n", PORTNAME));
+        n = read(fd, buffer, BUFFERSIZE);
-		return -1;
+        LOG(logDEBUG1, ("Received %d Bytes\n", n));
-	}
+        LOG(logINFO, ("Got message: '%s'\n", buffer));
-	LOG(logINFO, ("opened port at %s\n",PORTNAME));
 
-	struct termios serial_conf;
+        switch (buffer[0]) {
-	// reset structure
+        case '\0':
-	memset(&serial_conf,0,sizeof(serial_conf));
+            LOG(logINFO, ("Got Start (Detector restart)\n"));
-	// control options
+            break;
-	serial_conf.c_cflag = B2400 | CS8 | CREAD | CLOCAL;
+        case 's':
-	// input options
+            LOG(logINFO, ("Got Start \n"));
-	serial_conf.c_iflag = IGNPAR;
+            break;
-	// output options
+        case 'p':
-	serial_conf.c_oflag = 0;
+            if (!sscanf(&buffer[1], "%d", &ival)) {
-	// line options
+                LOG(logERROR, ("Warning: cannot scan voltage value\n"));
-	serial_conf.c_lflag = ICANON;
+                break;
-	// flush input
+            }
-	if(tcflush(fd, TCIOFLUSH) < 0){
+            // ok/ fail
-		LOG(logERROR, ("Warning: error form tcflush %d\n", errno));
+            memset(buffer, 0, BUFFERSIZE);
-		return 0;
+            buffer[BUFFERSIZE - 1] = '\n';
-	}
+            if (i2c_write(ival) < 0)
-	// set new options for the port, TCSANOW:changes occur immediately without waiting for data to complete
+                strcpy(buffer, "fail ");
-	if(tcsetattr(fd, TCSANOW, &serial_conf) < 0){
+            else
-		LOG(logERROR, ("Warning: error form tcsetattr %d\n", errno));
+                strcpy(buffer, "success ");
-		return 0;
+            LOG(logINFO, ("Sending: '%s'\n", buffer));
-	}
+            n = write(fd, buffer, BUFFERSIZE);
+            LOG(logDEBUG1, ("Sent %d Bytes\n", n));
+            break;
 
-	if(tcsetattr(fd, TCSAFLUSH, &serial_conf) < 0){
+        case 'g':
-		LOG(logERROR, ("Warning: error form tcsetattr %d\n", errno));
+            ival = i2c_read();
-		return 0;
+            // ok/ fail
-	}
+            memset(buffer, 0, BUFFERSIZE);
+            buffer[BUFFERSIZE - 1] = '\n';
+            if (ival < 0)
+                strcpy(buffer, "fail ");
+            else
+                strcpy(buffer, "success ");
+            n = write(fd, buffer, BUFFERSIZE);
+            LOG(logINFO, ("Sending: '%s'\n", buffer));
+            LOG(logDEBUG1, ("Sent %d Bytes\n", n));
+            // value
+            memset(buffer, 0, BUFFERSIZE);
+            buffer[BUFFERSIZE - 1] = '\n';
+            if (ival >= 0) {
+                LOG(logINFO, ("Sending: '%d'\n", ival));
+                sprintf(buffer, "%d ", ival);
+                n = write(fd, buffer, BUFFERSIZE);
+                LOG(logINFO, ("Sent %d Bytes\n", n));
+            } else
+                LOG(logERROR, ("%s\n", buffer));
+            break;
 
-	int ret = 0;
+        case 'e':
-	int n = 0;
+            printf("Exiting Program\n");
-	int ival= 0;
+            ret = GOODBYE;
-	char buffer[BUFFERSIZE];
+            break;
-	memset(buffer,0,BUFFERSIZE);
+        default:
-	buffer[BUFFERSIZE-1] = '\n';
+            LOG(logERROR, ("Unknown Command. buffer:'%s'\n", buffer));
-	LOG(logINFO, ("Ready...\n"));
+            break;
+        }
+    }
 
-
+    close(fd);
-	while(ret != GOODBYE){
+    printf("Goodbye Serial Communication for HV(9M)\n");
-		memset(buffer,0,BUFFERSIZE);
+    return 0;
-		n = read(fd,buffer,BUFFERSIZE);
-		LOG(logDEBUG1, ("Received %d Bytes\n", n));
-		LOG(logINFO, ("Got message: '%s'\n",buffer));
-
-		switch(buffer[0]){
-		case '\0':
-			LOG(logINFO, ("Got Start (Detector restart)\n"));
-			break;
-		case 's':
-			LOG(logINFO, ("Got Start \n"));
-			break;
-		case 'p':
-			if (!sscanf(&buffer[1],"%d",&ival)){
-				LOG(logERROR, ("Warning: cannot scan voltage value\n"));
-				break;
-			}
-			// ok/ fail
-			memset(buffer,0,BUFFERSIZE);
-			buffer[BUFFERSIZE-1] = '\n';
-			if(i2c_write(ival)<0)
-				strcpy(buffer,"fail ");
-			else
-				strcpy(buffer,"success ");
-			LOG(logINFO, ("Sending: '%s'\n",buffer));
-			n = write(fd, buffer, BUFFERSIZE);
-			LOG(logDEBUG1, ("Sent %d Bytes\n", n));
-			break;
-
-		case 'g':
-			ival = i2c_read();
-			//ok/ fail
-			memset(buffer,0,BUFFERSIZE);
-			buffer[BUFFERSIZE-1] = '\n';
-			if(ival < 0)
-				strcpy(buffer,"fail ");
-			else
-				strcpy(buffer,"success ");
-			n = write(fd, buffer, BUFFERSIZE);
-			LOG(logINFO, ("Sending: '%s'\n",buffer));
-			LOG(logDEBUG1, ("Sent %d Bytes\n", n));
-			//value
-			memset(buffer,0,BUFFERSIZE);
-			buffer[BUFFERSIZE-1] = '\n';
-			if(ival >= 0){
-				LOG(logINFO, ("Sending: '%d'\n",ival));
-				sprintf(buffer,"%d ",ival);
-				n = write(fd, buffer, BUFFERSIZE);
-				LOG(logINFO, ("Sent %d Bytes\n", n));
-			}else LOG(logERROR, ("%s\n",buffer));
-			break;
-
-		case 'e':
-			printf("Exiting Program\n");
-			ret = GOODBYE;
-			break;
-		default:
-			LOG(logERROR, ("Unknown Command. buffer:'%s'\n",buffer));
-			break;
-		}
-	}
-
-	close(fd);
-	printf("Goodbye Serial Communication for HV(9M)\n");
-	return 0;
 }

slsDetectorServers/eigerDetectorServer/Beb.h

@@ -1,40 +1,40 @@
 #pragma once
 
-
+#include <stdlib.h>
 #include "LocalLinkInterface.h"
 #include "slsDetectorServer_defs.h"
 
-
+struct BebInfo {
-struct BebInfo{
+    unsigned int beb_number;
-	unsigned int beb_number;
+    unsigned int serial_address;
-	unsigned int serial_address;
+    char src_mac_1GbE[50];
-	char  src_mac_1GbE[50];
+    char src_mac_10GbE[50];
-	char src_mac_10GbE[50];
+    char src_ip_1GbE[50];
-	char  src_ip_1GbE[50];
+    char src_ip_10GbE[50];
-	char src_ip_10GbE[50];
+    unsigned int src_port_1GbE;
-	unsigned int src_port_1GbE;
+    unsigned int src_port_10GbE;
-	unsigned int src_port_10GbE;
 };
 
-
+void BebInfo_BebInfo(struct BebInfo *bebInfo, unsigned int beb_num);
-void BebInfo_BebInfo(struct BebInfo* bebInfo, unsigned int beb_num);
+void BebInfo_BebDstInfo(struct BebInfo *bebInfo, unsigned int beb_num);
-void BebInfo_BebDstInfo(struct BebInfo* bebInfo, unsigned int beb_num);
+int BebInfo_SetSerialAddress(struct BebInfo *bebInfo, unsigned int add);
-int BebInfo_SetSerialAddress(struct BebInfo* bebInfo, unsigned int add);
+int BebInfo_SetHeaderInfo(
-int BebInfo_SetHeaderInfo(struct BebInfo* bebInfo, int ten_gig, char* src_mac, char* src_ip, unsigned int src_port);//src_port fixed 42000+beb_number or 52000 + beb_number);
+    struct BebInfo *bebInfo, int ten_gig, char *src_mac, char *src_ip,
-unsigned int BebInfo_GetBebNumber(struct BebInfo* bebInfo);
+    unsigned int
-unsigned int BebInfo_GetSerialAddress(struct BebInfo* bebInfo);
+        src_port); // src_port fixed 42000+beb_number or 52000 + beb_number);
-char*  BebInfo_GetSrcMAC(struct BebInfo* bebInfo, int ten_gig);
+unsigned int BebInfo_GetBebNumber(struct BebInfo *bebInfo);
-char*  BebInfo_GetSrcIP(struct BebInfo* bebInfo, int ten_gig);
+unsigned int BebInfo_GetSerialAddress(struct BebInfo *bebInfo);
-unsigned int BebInfo_GetSrcPort(struct BebInfo* bebInfo, int ten_gig);
+char *BebInfo_GetSrcMAC(struct BebInfo *bebInfo, int ten_gig);
-void BebInfo_Print(struct BebInfo* bebInfo);
+char *BebInfo_GetSrcIP(struct BebInfo *bebInfo, int ten_gig);
+unsigned int BebInfo_GetSrcPort(struct BebInfo *bebInfo, int ten_gig);
+void BebInfo_Print(struct BebInfo *bebInfo);
 void Beb_ClearBebInfos();
 int Beb_InitBebInfos();
 int Beb_CheckSourceStuffBebInfo();
 unsigned int Beb_GetBebInfoIndex(unsigned int beb_numb);
 
-
+void Beb_GetModuleConfiguration(int *master, int *top, int *normal);
-void Beb_GetModuleConfiguration(int* master, int* top, int* normal);
+int Beb_IsTransmitting(int *retval, int tengiga, int waitForDelay);
-int Beb_IsTransmitting(int* retval, int tengiga, int waitForDelay);
 
 int Beb_SetMasterViaSoftware();
 int Beb_SetSlaveViaSoftware();
@@ -56,27 +56,43 @@ u_int32_t Beb_GetFirmwareRevision();
 u_int32_t Beb_GetFirmwareSoftwareAPIVersion();
 void Beb_ResetFrameNumber();
 int Beb_WriteTo(unsigned int index);
-int Beb_SetMAC(char* mac, uint8_t* dst_ptr);
+int Beb_SetMAC(char *mac, uint8_t *dst_ptr);
-int Beb_SetIP(char* ip, uint8_t* dst_ptr);
+int Beb_SetIP(char *ip, uint8_t *dst_ptr);
-int Beb_SetPortNumber(unsigned int port_number, uint8_t* dst_ptr);
+int Beb_SetPortNumber(unsigned int port_number, uint8_t *dst_ptr);
 void Beb_AdjustIPChecksum(struct udp_header_type *ip);
 
-int Beb_SetHeaderData(unsigned int beb_number, int ten_gig, char* dst_mac, char* dst_ip, unsigned int dst_port);
+int Beb_SetHeaderData(unsigned int beb_number, int ten_gig, char *dst_mac,
-int Beb_SetHeaderData1(char* src_mac, char* src_ip, unsigned int src_port, char* dst_mac, char* dst_ip, unsigned int dst_port);
+                      char *dst_ip, unsigned int dst_port);
+int Beb_SetHeaderData1(char *src_mac, char *src_ip, unsigned int src_port,
+                       char *dst_mac, char *dst_ip, unsigned int dst_port);
 
 void Beb_SwapDataFun(int little_endian, unsigned int n, unsigned int *d);
 int Beb_SetByteOrder();
 void Beb_Beb();
-int Beb_SetBebSrcHeaderInfos(unsigned int beb_number, int ten_gig, char* src_mac, char* src_ip, unsigned int src_port);
+int Beb_SetBebSrcHeaderInfos(unsigned int beb_number, int ten_gig,
-int Beb_SetUpUDPHeader(unsigned int beb_number, int ten_gig, unsigned int header_number, char* dst_mac, char* dst_ip, unsigned int dst_port);
+                             char *src_mac, char *src_ip,
+                             unsigned int src_port);
+int Beb_SetUpUDPHeader(unsigned int beb_number, int ten_gig,
+                       unsigned int header_number, char *dst_mac, char *dst_ip,
+                       unsigned int dst_port);
 
-/*int Beb_SendMultiReadRequest(unsigned int beb_number, unsigned int  left_right, int ten_gig, unsigned int dst_number, unsigned int npackets, unsigned int packet_size, int stop_read_when_fifo_empty=1);*/
+/*int Beb_SendMultiReadRequest(unsigned int beb_number, unsigned int
-int Beb_SendMultiReadRequest(unsigned int beb_number, unsigned int  left_right, int ten_gig, unsigned int dst_number, unsigned int npackets, unsigned int packet_size, int stop_read_when_fifo_empty);
+ * left_right, int ten_gig, unsigned int dst_number, unsigned int npackets,
+ * unsigned int packet_size, int stop_read_when_fifo_empty=1);*/
+int Beb_SendMultiReadRequest(unsigned int beb_number, unsigned int left_right,
+                             int ten_gig, unsigned int dst_number,
+                             unsigned int npackets, unsigned int packet_size,
+                             int stop_read_when_fifo_empty);
 
 int Beb_StopAcquisition();
 int Beb_SetUpTransferParameters(short the_bit_mode);
-/*int Beb_RequestNImages(unsigned int beb_number, unsigned int left_right, int ten_gig, unsigned int dst_number, unsigned int nimages, int test_just_send_out_packets_no_wait=0); //all images go to the same destination!*/
+/*int Beb_RequestNImages(unsigned int beb_number, unsigned int left_right, int
-int Beb_RequestNImages(unsigned int beb_number, int ten_gig, unsigned int dst_number, unsigned int nimages, int test_just_send_out_packets_no_wait);
+ * ten_gig, unsigned int dst_number, unsigned int nimages, int
+ * test_just_send_out_packets_no_wait=0); //all images go to the same
+ * destination!*/
+int Beb_RequestNImages(unsigned int beb_number, int ten_gig,
+                       unsigned int dst_number, unsigned int nimages,
+                       int test_just_send_out_packets_no_wait);
 
 int Beb_Test(unsigned int beb_number);
 
@@ -85,17 +101,15 @@ int Beb_GetBebFPGATemp();
 void Beb_SetDetectorNumber(uint32_t detid);
 int Beb_SetQuad(int value);
 int Beb_GetQuad();
-int* Beb_GetDetectorPosition();
+int *Beb_GetDetectorPosition();
 int Beb_SetDetectorPosition(int pos[]);
 int Beb_SetStartingFrameNumber(uint64_t value);
-int Beb_GetStartingFrameNumber(uint64_t* retval, int tengigaEnable);
+int Beb_GetStartingFrameNumber(uint64_t *retval, int tengigaEnable);
 
 void Beb_SetReadNLines(int value);
 
-uint16_t Beb_swap_uint16( uint16_t val);
+uint16_t Beb_swap_uint16(uint16_t val);
-int Beb_open(u_int32_t** csp0base, u_int32_t offset);
+int Beb_open(u_int32_t **csp0base, u_int32_t offset);
-u_int32_t Beb_Read32 (u_int32_t* baseaddr, u_int32_t offset);
+u_int32_t Beb_Read32(u_int32_t *baseaddr, u_int32_t offset);
-u_int32_t Beb_Write32 (u_int32_t* baseaddr, u_int32_t offset, u_int32_t data);
+u_int32_t Beb_Write32(u_int32_t *baseaddr, u_int32_t offset, u_int32_t data);
-void Beb_close(int fd,u_int32_t* csp0base);
+void Beb_close(int fd, u_int32_t *csp0base);
-
-

slsDetectorServers/eigerDetectorServer/FebControl.h

@@ -2,49 +2,51 @@
 #include "FebInterface.h"
 #include <netinet/in.h>
 
+struct Module {
+    unsigned int module_number;
+    int top_address_valid;
+    unsigned int top_left_address;
+    unsigned int top_right_address;
+    int bottom_address_valid;
+    unsigned int bottom_left_address;
+    unsigned int bottom_right_address;
 
-struct Module{
+    unsigned int idelay_top[4];    // ll,lr,rl,ll
-	unsigned int module_number;
+    unsigned int idelay_bottom[4]; // ll,lr,rl,ll
-	int top_address_valid;
+    float high_voltage;
-	unsigned int top_left_address;
+    int *top_dac;
-	unsigned int top_right_address;
+    int *bottom_dac;
-	int bottom_address_valid;
-	unsigned int bottom_left_address;
-	unsigned int bottom_right_address;
-
-	unsigned int idelay_top[4];    //ll,lr,rl,ll
-	unsigned int idelay_bottom[4]; //ll,lr,rl,ll
-	float high_voltage;
-	int* top_dac;
-	int* bottom_dac;
 };
 
+void Module_Module(struct Module *mod, unsigned int number,
+                   unsigned int address_top);
+void Module_ModuleBottom(struct Module *mod, unsigned int number,
+                         unsigned int address_bottom);
+void Module_Module1(struct Module *mod, unsigned int number,
+                    unsigned int address_top, unsigned int address_bottom);
+unsigned int Module_GetModuleNumber(struct Module *mod);
+int Module_TopAddressIsValid(struct Module *mod);
+unsigned int Module_GetTopBaseAddress(struct Module *mod);
+unsigned int Module_GetTopLeftAddress(struct Module *mod);
+unsigned int Module_GetTopRightAddress(struct Module *mod);
+unsigned int Module_GetBottomBaseAddress(struct Module *mod);
+int Module_BottomAddressIsValid(struct Module *mod);
+unsigned int Module_GetBottomLeftAddress(struct Module *mod);
+unsigned int Module_GetBottomRightAddress(struct Module *mod);
+unsigned int Module_SetTopIDelay(struct Module *mod, unsigned int chip,
+                                 unsigned int value);
+unsigned int Module_GetTopIDelay(struct Module *mod, unsigned int chip);
+unsigned int Module_SetBottomIDelay(struct Module *mod, unsigned int chip,
+                                    unsigned int value);
+unsigned int Module_GetBottomIDelay(struct Module *mod, unsigned int chip);
 
-void Module_Module(struct Module* mod,unsigned int number, unsigned int address_top);
+float Module_SetHighVoltage(struct Module *mod, float value);
-void Module_ModuleBottom(struct Module* mod,unsigned int number, unsigned int address_bottom);
+float Module_GetHighVoltage(struct Module *mod);
-void Module_Module1(struct Module* mod,unsigned int number, unsigned int address_top, unsigned int address_bottom);
-unsigned int Module_GetModuleNumber(struct Module* mod);
-int Module_TopAddressIsValid(struct Module* mod);
-unsigned int Module_GetTopBaseAddress(struct Module* mod);
-unsigned int Module_GetTopLeftAddress(struct Module* mod) ;
-unsigned int Module_GetTopRightAddress(struct Module* mod);
-unsigned int Module_GetBottomBaseAddress(struct Module* mod);
-int Module_BottomAddressIsValid(struct Module* mod);
-unsigned int Module_GetBottomLeftAddress(struct Module* mod);
-unsigned int Module_GetBottomRightAddress(struct Module* mod);
-unsigned int Module_SetTopIDelay(struct Module* mod,unsigned int chip,unsigned int value);
-unsigned int Module_GetTopIDelay(struct Module* mod,unsigned int chip) ;
-unsigned int Module_SetBottomIDelay(struct Module* mod,unsigned int chip,unsigned int value);
-unsigned int Module_GetBottomIDelay(struct Module* mod,unsigned int chip);
-
-float Module_SetHighVoltage(struct Module* mod,float value);
-float Module_GetHighVoltage(struct Module* mod);
-
-int Module_SetTopDACValue(struct Module* mod,unsigned int i, int value);
-int Module_GetTopDACValue(struct Module* mod,unsigned int i);
-int Module_SetBottomDACValue(struct Module* mod,unsigned int i, int value);
-int Module_GetBottomDACValue(struct Module* mod,unsigned int i);
 
+int Module_SetTopDACValue(struct Module *mod, unsigned int i, int value);
+int Module_GetTopDACValue(struct Module *mod, unsigned int i);
+int Module_SetBottomDACValue(struct Module *mod, unsigned int i, int value);
+int Module_GetBottomDACValue(struct Module *mod, unsigned int i);
 
 void Feb_Control_activate(int activate);
 
@@ -52,22 +54,30 @@ int Feb_Control_IsBottomModule();
 int Feb_Control_GetModuleNumber();
 
 void Feb_Control_PrintModuleList();
-int Feb_Control_GetModuleIndex(unsigned int module_number, unsigned int* module_index);
+int Feb_Control_GetModuleIndex(unsigned int module_number,
-int Feb_Control_CheckModuleAddresses(struct Module* m);
+                               unsigned int *module_index);
+int Feb_Control_CheckModuleAddresses(struct Module *m);
 int Feb_Control_AddModule(unsigned int module_number, unsigned int top_address);
-int Feb_Control_AddModule1(unsigned int module_number, int top_enable, unsigned int top_address, unsigned int bottom_address, int half_module);
+int Feb_Control_AddModule1(unsigned int module_number, int top_enable,
-int  Feb_Control_GetDACNumber(char* s, unsigned int* n);
+                           unsigned int top_address,
-int  Feb_Control_SendDACValue(unsigned int dst_num, unsigned int ch, unsigned int* value);
+                           unsigned int bottom_address, int half_module);
-int  Feb_Control_VoltageToDAC(float value, unsigned int* digital, unsigned int nsteps, float vmin, float vmax);
+int Feb_Control_GetDACNumber(char *s, unsigned int *n);
-float Feb_Control_DACToVoltage(unsigned int digital,unsigned int nsteps,float vmin,float vmax);
+int Feb_Control_SendDACValue(unsigned int dst_num, unsigned int ch,
-int Feb_Control_SendIDelays(unsigned int dst_num, int chip_lr, unsigned int channels, unsigned int ndelay_units);
+                             unsigned int *value);
+int Feb_Control_VoltageToDAC(float value, unsigned int *digital,
+                             unsigned int nsteps, float vmin, float vmax);
+float Feb_Control_DACToVoltage(unsigned int digital, unsigned int nsteps,
+                               float vmin, float vmax);
+int Feb_Control_SendIDelays(unsigned int dst_num, int chip_lr,
+                            unsigned int channels, unsigned int ndelay_units);
 int Feb_Control_SetStaticBits();
 int Feb_Control_SetStaticBits1(unsigned int the_static_bits);
 int Feb_Control_SendBitModeToBebServer();
 unsigned int Feb_Control_ConvertTimeToRegister(float time_in_sec);
 unsigned int Feb_Control_AddressToAll();
 int Feb_Control_SetCommandRegister(unsigned int cmd);
-int Feb_Control_GetDAQStatusRegister(unsigned int dst_address, unsigned int* ret_status);
+int Feb_Control_GetDAQStatusRegister(unsigned int dst_address,
+                                     unsigned int *ret_status);
 int Feb_Control_StartDAQOnlyNWaitForFinish(int sleep_time_us);
 int Feb_Control_ResetChipCompletely();
 int Feb_Control_ResetChipPartially();
@@ -80,21 +90,24 @@ unsigned int Feb_Control_GetNModules();
 unsigned int Feb_Control_GetNHalfModules();
 
 int Feb_Control_SetHighVoltage(int value);
-int Feb_Control_GetHighVoltage(int* value);
+int Feb_Control_GetHighVoltage(int *value);
 
 int Feb_Control_SendHighVoltage(int dacvalue);
-int Feb_Control_ReceiveHighVoltage(unsigned int* value);
+int Feb_Control_ReceiveHighVoltage(unsigned int *value);
 
-int Feb_Control_SetIDelays(unsigned int module_num, unsigned int  ndelay_units);
+int Feb_Control_SetIDelays(unsigned int module_num, unsigned int ndelay_units);
-int Feb_Control_SetIDelays1(unsigned int module_num, unsigned int chip_pos, unsigned int ndelay_units);
+int Feb_Control_SetIDelays1(unsigned int module_num, unsigned int chip_pos,
+                            unsigned int ndelay_units);
 
-int Feb_Control_DecodeDACString(char* dac_str, unsigned int* module_index, int* top, int* bottom, unsigned int* dac_ch);
+int Feb_Control_DecodeDACString(char *dac_str, unsigned int *module_index,
-int Feb_Control_SetDAC(char* s, int value, int is_a_voltage_mv);
+                                int *top, int *bottom, unsigned int *dac_ch);
-int Feb_Control_GetDAC(char* s, int* ret_value, int voltage_mv);
+int Feb_Control_SetDAC(char *s, int value, int is_a_voltage_mv);
-int Feb_Control_GetDACName(unsigned int dac_num,char* s);
+int Feb_Control_GetDAC(char *s, int *ret_value, int voltage_mv);
+int Feb_Control_GetDACName(unsigned int dac_num, char *s);
 
-int Feb_Control_SetTrimbits(unsigned int module_num, unsigned int* trimbits, int top);
+int Feb_Control_SetTrimbits(unsigned int module_num, unsigned int *trimbits,
-unsigned int* Feb_Control_GetTrimbits();
+                            int top);
+unsigned int *Feb_Control_GetTrimbits();
 int Feb_Control_SaveAllTrimbitsTo(int value, int top);
 int Feb_Control_Reset();
 int Feb_Control_PrepareForAcquisition();
@@ -111,7 +124,8 @@ unsigned int Feb_Control_GetNExposures();
 int Feb_Control_SetExposureTime(double the_exposure_time_in_sec);
 double Feb_Control_GetExposureTime();
 int64_t Feb_Control_GetExposureTime_in_nsec();
-int Feb_Control_SetSubFrameExposureTime(int64_t the_subframe_exposure_time_in_10nsec);
+int Feb_Control_SetSubFrameExposureTime(
+    int64_t the_subframe_exposure_time_in_10nsec);
 int64_t Feb_Control_GetSubFrameExposureTime();
 int Feb_Control_SetSubFramePeriod(int64_t the_subframe_period_in_10nsec);
 int64_t Feb_Control_GetSubFramePeriod();
@@ -119,17 +133,24 @@ int Feb_Control_SetExposurePeriod(double the_exposure_period_in_sec);
 double Feb_Control_GetExposurePeriod();
 int Feb_Control_SetDynamicRange(unsigned int four_eight_sixteen_or_thirtytwo);
 unsigned int Feb_Control_GetDynamicRange();
-int Feb_Control_SetReadoutSpeed(unsigned int readout_speed); //0 was default, 0->full,1->half,2->quarter or 3->super_slow
+int Feb_Control_SetReadoutSpeed(
-int Feb_Control_SetReadoutMode(unsigned int readout_mode); ///0 was default,0->parallel,1->non-parallel,2-> safe_mode
+    unsigned int readout_speed); // 0 was default, 0->full,1->half,2->quarter or
-int Feb_Control_SetTriggerMode(unsigned int trigger_mode, int polarity);//0 and 1 was default,
+                                 // 3->super_slow
-int Feb_Control_SetExternalEnableMode(int use_external_enable, int polarity);//0 and 1 was default,
+int Feb_Control_SetReadoutMode(
+    unsigned int readout_mode); /// 0 was
+                                /// default,0->parallel,1->non-parallel,2->
+                                /// safe_mode
+int Feb_Control_SetTriggerMode(unsigned int trigger_mode,
+                               int polarity); // 0 and 1 was default,
+int Feb_Control_SetExternalEnableMode(int use_external_enable,
+                                      int polarity); // 0 and 1 was default,
 
 int Feb_Control_SetInTestModeVariable(int on);
 int Feb_Control_GetTestModeVariable();
 
 void Feb_Control_Set_Counter_Bit(int value);
 int Feb_Control_Get_Counter_Bit();
-int Feb_Control_Pulse_Pixel(int npulses,int x, int y);
+int Feb_Control_Pulse_Pixel(int npulses, int x, int y);
 int Feb_Control_PulsePixelNMove(int npulses, int inc_x_pos, int inc_y_pos);
 int Feb_Control_Shift32InSerialIn(unsigned int value_to_shift_in);
 int Feb_Control_SendTokenIn();
@@ -158,5 +179,4 @@ int Feb_Control_SetReadNLines(int value);
 int Feb_Control_GetReadNLines();
 
 int Feb_Control_WriteRegister(uint32_t offset, uint32_t data);
-int Feb_Control_ReadRegister(uint32_t offset, uint32_t* retval);
+int Feb_Control_ReadRegister(uint32_t offset, uint32_t *retval);
-

slsDetectorServers/eigerDetectorServer/FebInterface.c

@@ -1,195 +1,236 @@
 #include "FebInterface.h"
 #include "LocalLinkInterface.h"
-#include "xparameters.h"
 #include "clogger.h"
+#include "xparameters.h"
 
 #include <unistd.h>
 
+struct LocalLinkInterface ll_local, *ll;
 
+unsigned int Feb_Interface_nfebs;
+unsigned int *Feb_Interface_feb_numb;
 
-struct LocalLinkInterface ll_local,* ll;
+int Feb_Interface_send_ndata;
-
+unsigned int Feb_Interface_send_buffer_size;
-unsigned int  Feb_Interface_nfebs;
+unsigned int *Feb_Interface_send_data_raw;
-unsigned int* Feb_Interface_feb_numb;
+unsigned int *Feb_Interface_send_data;
-
-int           Feb_Interface_send_ndata;
-unsigned int  Feb_Interface_send_buffer_size;
-unsigned int* Feb_Interface_send_data_raw;
-unsigned int* Feb_Interface_send_data;
-
-int           Feb_Interface_recv_ndata;
-unsigned int  Feb_Interface_recv_buffer_size;
-unsigned int* Feb_Interface_recv_data_raw;
-unsigned int* Feb_Interface_recv_data;
 
+int Feb_Interface_recv_ndata;
+unsigned int Feb_Interface_recv_buffer_size;
+unsigned int *Feb_Interface_recv_data_raw;
+unsigned int *Feb_Interface_recv_data;
 
 void Feb_Interface_FebInterface() {
-	ll = &ll_local;
+    ll = &ll_local;
-	Feb_Interface_nfebs    = 0;
+    Feb_Interface_nfebs = 0;
-	Feb_Interface_feb_numb = 0;
+    Feb_Interface_feb_numb = 0;
 
-	Feb_Interface_send_ndata = 0;
+    Feb_Interface_send_ndata = 0;
-	Feb_Interface_send_buffer_size = 1026;
+    Feb_Interface_send_buffer_size = 1026;
-	Feb_Interface_send_data_raw = malloc((Feb_Interface_send_buffer_size+1) * sizeof(unsigned int));
+    Feb_Interface_send_data_raw =
-	Feb_Interface_send_data     = &Feb_Interface_send_data_raw[1];
+        malloc((Feb_Interface_send_buffer_size + 1) * sizeof(unsigned int));
+    Feb_Interface_send_data = &Feb_Interface_send_data_raw[1];
 
-	Feb_Interface_recv_ndata = 0;
+    Feb_Interface_recv_ndata = 0;
-	Feb_Interface_recv_buffer_size = 1026;
+    Feb_Interface_recv_buffer_size = 1026;
-	Feb_Interface_recv_data_raw = malloc((Feb_Interface_recv_buffer_size+1) * sizeof(unsigned int));
+    Feb_Interface_recv_data_raw =
-	Feb_Interface_recv_data     = &Feb_Interface_recv_data_raw[1];
+        malloc((Feb_Interface_recv_buffer_size + 1) * sizeof(unsigned int));
-
+    Feb_Interface_recv_data = &Feb_Interface_recv_data_raw[1];
-	Local_LocalLinkInterface1(ll,XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT_BASEADDR);
 
+    Local_LocalLinkInterface1(
+        ll, XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT_BASEADDR);
 }
 
-
+void Feb_Interface_SendCompleteList(unsigned int n, unsigned int *list) {
-
+    unsigned int i;
-void Feb_Interface_SendCompleteList(unsigned int n,unsigned int* list) {
+    if (Feb_Interface_feb_numb)
-	unsigned int i;
+        free(Feb_Interface_feb_numb);
-	if (Feb_Interface_feb_numb) free(Feb_Interface_feb_numb);
+    Feb_Interface_nfebs = n;
-	Feb_Interface_nfebs = n;
+    Feb_Interface_feb_numb = malloc(n * sizeof(unsigned int));
-	Feb_Interface_feb_numb = malloc(n * sizeof(unsigned int));
+    for (i = 0; i < n; i++)
-	for(i=0;i<n;i++) Feb_Interface_feb_numb[i] = list[i];
+        Feb_Interface_feb_numb[i] = list[i];
 }
 
 int Feb_Interface_WriteTo(unsigned int ch) {
-	if (ch>0xfff) return 0;
+    if (ch > 0xfff)
+        return 0;
 
-	LOG(logDEBUG1, ("FIW ch %d\n", ch));
+    LOG(logDEBUG1, ("FIW ch %d\n", ch));
 
-Feb_Interface_send_data_raw[0] = 0x8fff0000;
+    Feb_Interface_send_data_raw[0] = 0x8fff0000;
-if (Local_Write(ll,4,Feb_Interface_send_data_raw)!=4) return 0;
+    if (Local_Write(ll, 4, Feb_Interface_send_data_raw) != 4)
+        return 0;
 
-Feb_Interface_send_data_raw[0] = 0x90000000 | (ch<<16);
+    Feb_Interface_send_data_raw[0] = 0x90000000 | (ch << 16);
-if (Local_Write(ll,4,Feb_Interface_send_data_raw)!=4) return 0;
+    if (Local_Write(ll, 4, Feb_Interface_send_data_raw) != 4)
+        return 0;
 
-Feb_Interface_send_data_raw[0] = 0xc0000000;
+    Feb_Interface_send_data_raw[0] = 0xc0000000;
-return ((Feb_Interface_send_ndata+1)*4==Local_Write(ll,(Feb_Interface_send_ndata+1)*4,Feb_Interface_send_data_raw));
+    return ((Feb_Interface_send_ndata + 1) * 4 ==
+            Local_Write(ll, (Feb_Interface_send_ndata + 1) * 4,
+                        Feb_Interface_send_data_raw));
 }
 
 int Feb_Interface_ReadFrom(unsigned int ch, unsigned int ntrys) {
-	unsigned int t;
+    unsigned int t;
-	if (ch>=0xfff) return 0;
+    if (ch >= 0xfff)
+        return 0;
 
-	Feb_Interface_recv_data_raw[0] = 0xa0000000 | (ch<<16);
+    Feb_Interface_recv_data_raw[0] = 0xa0000000 | (ch << 16);
-	Local_Write(ll,4,Feb_Interface_recv_data_raw);
+    Local_Write(ll, 4, Feb_Interface_recv_data_raw);
-	usleep(20);
+    usleep(20);
 
-	Feb_Interface_recv_ndata=-1;
+    Feb_Interface_recv_ndata = -1;
-	for(t=0;t<ntrys;t++) {
+    for (t = 0; t < ntrys; t++) {
-		if ((Feb_Interface_recv_ndata=Local_Read(ll,Feb_Interface_recv_buffer_size*4,Feb_Interface_recv_data_raw)/4)>0) {
+        if ((Feb_Interface_recv_ndata =
-			Feb_Interface_recv_ndata--;
+                 Local_Read(ll, Feb_Interface_recv_buffer_size * 4,
-			break;
+                            Feb_Interface_recv_data_raw) /
-		}
+                 4) > 0) {
-		usleep(1000);
+            Feb_Interface_recv_ndata--;
-	}
+            break;
+        }
+        usleep(1000);
+    }
 
-	return (Feb_Interface_recv_ndata>=0);
+    return (Feb_Interface_recv_ndata >= 0);
 }
 
-
-
 int Feb_Interface_SetByteOrder() {
-	Feb_Interface_send_data_raw[0] = 0x8fff0000;
+    Feb_Interface_send_data_raw[0] = 0x8fff0000;
-	if (Local_Write(ll,4,Feb_Interface_send_data_raw)!=4) return 0;
+    if (Local_Write(ll, 4, Feb_Interface_send_data_raw) != 4)
-	Feb_Interface_send_ndata   = 2;
+        return 0;
-	Feb_Interface_send_data[0] = 0;
+    Feb_Interface_send_ndata = 2;
-	Feb_Interface_send_data[1] = 0;
+    Feb_Interface_send_data[0] = 0;
-	unsigned int i;
+    Feb_Interface_send_data[1] = 0;
-	unsigned int dst = 0xff;
+    unsigned int i;
-	for(i=0;i<Feb_Interface_nfebs;i++) dst = (dst | Feb_Interface_feb_numb[i]);
+    unsigned int dst = 0xff;
-	int passed = Feb_Interface_WriteTo(dst);
+    for (i = 0; i < Feb_Interface_nfebs; i++)
+        dst = (dst | Feb_Interface_feb_numb[i]);
+    int passed = Feb_Interface_WriteTo(dst);
 
-	return passed;
+    return passed;
 }
 
-
+int Feb_Interface_ReadRegister(unsigned int sub_num, unsigned int reg_num,
-int Feb_Interface_ReadRegister(unsigned int sub_num, unsigned int reg_num,unsigned int* value_read) {
+                               unsigned int *value_read) {
-	return Feb_Interface_ReadRegisters(sub_num,1,&reg_num,value_read);
+    return Feb_Interface_ReadRegisters(sub_num, 1, &reg_num, value_read);
 }
 
+int Feb_Interface_ReadRegisters(unsigned int sub_num, unsigned int nreads,
+                                unsigned int *reg_nums,
+                                unsigned int *values_read) {
+    // here   cout<<"Reading Register ...."<<endl;
+    unsigned int i;
+    nreads &= 0x3ff;
+    if (!nreads || nreads > Feb_Interface_send_buffer_size - 2)
+        return 0;
 
-int Feb_Interface_ReadRegisters(unsigned int sub_num, unsigned int nreads, unsigned int* reg_nums,unsigned int* values_read) {
+    Feb_Interface_send_ndata = nreads + 2;
-	//here   cout<<"Reading Register ...."<<endl;
+    Feb_Interface_send_data[0] = 0x20000000 | nreads << 14;
-	unsigned int i;
-	nreads &= 0x3ff;
-	if (!nreads||nreads>Feb_Interface_send_buffer_size-2) return 0;
 
-	Feb_Interface_send_ndata   = nreads+2;
+    for (i = 0; i < nreads; i++)
-	Feb_Interface_send_data[0] = 0x20000000 | nreads << 14;
+        Feb_Interface_send_data[i + 1] = reg_nums[i];
+    Feb_Interface_send_data[nreads + 1] = 0;
 
-	for(i=0;i<nreads;i++) Feb_Interface_send_data[i+1]=reg_nums[i];
+    if (!Feb_Interface_WriteTo(sub_num) ||
-	Feb_Interface_send_data[nreads+1] = 0;
+        !Feb_Interface_ReadFrom(sub_num, 20) ||
+        Feb_Interface_recv_ndata != (int)(nreads + 2))
+        return 0;
 
-	if (!Feb_Interface_WriteTo(sub_num)||!Feb_Interface_ReadFrom(sub_num,20)||Feb_Interface_recv_ndata!=(int)(nreads+2)) return 0;
+    for (i = 0; i < nreads; i++)
+        values_read[i] = Feb_Interface_recv_data[i + 1];
 
-	for(i=0;i<nreads;i++) values_read[i] = Feb_Interface_recv_data[i+1];
+    return 1;
-
-	return 1;
 }
 
-int Feb_Interface_WriteRegister(unsigned int sub_num, unsigned int reg_num,unsigned int value, int wait_on, unsigned int wait_on_address) {
+int Feb_Interface_WriteRegister(unsigned int sub_num, unsigned int reg_num,
-	return Feb_Interface_WriteRegisters(sub_num,1,&reg_num,&value,&wait_on,&wait_on_address);
+                                unsigned int value, int wait_on,
+                                unsigned int wait_on_address) {
+    return Feb_Interface_WriteRegisters(sub_num, 1, &reg_num, &value, &wait_on,
+                                        &wait_on_address);
 }
 
-int Feb_Interface_WriteRegisters(unsigned int sub_num, unsigned int nwrites, unsigned int* reg_nums, unsigned int* values, int* wait_ons, unsigned int* wait_on_addresses) {
+int Feb_Interface_WriteRegisters(unsigned int sub_num, unsigned int nwrites,
-	unsigned int i;
+                                 unsigned int *reg_nums, unsigned int *values,
-	nwrites &= 0x3ff; //10 bits
+                                 int *wait_ons,
-	if (!nwrites||2*nwrites>Feb_Interface_send_buffer_size-2) return 0;
+                                 unsigned int *wait_on_addresses) {
+    unsigned int i;
+    nwrites &= 0x3ff; // 10 bits
+    if (!nwrites || 2 * nwrites > Feb_Interface_send_buffer_size - 2)
+        return 0;
 
-	//cout<<"Write register : "<<this<<"  "<<s_num<<" "<<nwrites<<" "<<reg_nums<<" "<<values<<" "<<wait_ons<<" "<<wait_on_addresses<<endl;
+    // cout<<"Write register : "<<this<<"  "<<s_num<<" "<<nwrites<<"
-	Feb_Interface_send_ndata               = 2*nwrites+2;
+    // "<<reg_nums<<" "<<values<<" "<<wait_ons<<" "<<wait_on_addresses<<endl;
-	Feb_Interface_send_data[0]           = 0x80000000 | nwrites << 14;
+    Feb_Interface_send_ndata = 2 * nwrites + 2;
-	Feb_Interface_send_data[2*nwrites+1] = 0;
+    Feb_Interface_send_data[0] = 0x80000000 | nwrites << 14;
+    Feb_Interface_send_data[2 * nwrites + 1] = 0;
 
-	for(i=0;i<nwrites;i++) Feb_Interface_send_data[2*i+1] = 0x3fff&reg_nums[i];
+    for (i = 0; i < nwrites; i++)
-	for(i=0;i<nwrites;i++) Feb_Interface_send_data[2*i+2] = values[i];
+        Feb_Interface_send_data[2 * i + 1] = 0x3fff & reg_nums[i];
-	// wait on busy data(28), address of busy flag data(27 downto 14)
+    for (i = 0; i < nwrites; i++)
-	if (wait_ons&&wait_on_addresses) for(i=0;i<nwrites;i++) Feb_Interface_send_data[2*i+1] |= (wait_ons[i]<<28 | (0x3fff&wait_on_addresses[i])<<14);
+        Feb_Interface_send_data[2 * i + 2] = values[i];
+    // wait on busy data(28), address of busy flag data(27 downto 14)
+    if (wait_ons && wait_on_addresses)
+        for (i = 0; i < nwrites; i++)
+            Feb_Interface_send_data[2 * i + 1] |=
+                (wait_ons[i] << 28 | (0x3fff & wait_on_addresses[i]) << 14);
 
-	if (!Feb_Interface_WriteTo(sub_num)) return 0;
+    if (!Feb_Interface_WriteTo(sub_num))
+        return 0;
 
-	return 1;
+    return 1;
 }
 
-int Feb_Interface_WriteMemoryInLoops(unsigned int sub_num, unsigned int mem_num, unsigned int start_address, unsigned int nwrites, unsigned int *values) {
+int Feb_Interface_WriteMemoryInLoops(unsigned int sub_num, unsigned int mem_num,
-	unsigned int max_single_packet_size = 352;
+                                     unsigned int start_address,
-	int passed=1;
+                                     unsigned int nwrites,
-	unsigned int n_to_send  = max_single_packet_size;
+                                     unsigned int *values) {
-	unsigned int ndata_sent = 0;
+    unsigned int max_single_packet_size = 352;
-	unsigned int ndata_countdown = nwrites;
+    int passed = 1;
-	while(ndata_countdown>0) {
+    unsigned int n_to_send = max_single_packet_size;
-		n_to_send = ndata_countdown<max_single_packet_size ? ndata_countdown:max_single_packet_size;
+    unsigned int ndata_sent = 0;
-		if (!Feb_Interface_WriteMemory(sub_num,mem_num,start_address,n_to_send,&(values[ndata_sent]))) {passed=0; break;}
+    unsigned int ndata_countdown = nwrites;
-		ndata_countdown-=n_to_send;
+    while (ndata_countdown > 0) {
-		ndata_sent     +=n_to_send;
+        n_to_send = ndata_countdown < max_single_packet_size
-		start_address  +=n_to_send;
+                        ? ndata_countdown
-		usleep(500);//500 works
+                        : max_single_packet_size;
-	}
+        if (!Feb_Interface_WriteMemory(sub_num, mem_num, start_address,
-	return passed;
+                                       n_to_send, &(values[ndata_sent]))) {
+            passed = 0;
+            break;
+        }
+        ndata_countdown -= n_to_send;
+        ndata_sent += n_to_send;
+        start_address += n_to_send;
+        usleep(500); // 500 works
+    }
+    return passed;
 }
 
-int Feb_Interface_WriteMemory(unsigned int sub_num, unsigned int mem_num, unsigned int start_address, unsigned int nwrites, unsigned int *values) {
+int Feb_Interface_WriteMemory(unsigned int sub_num, unsigned int mem_num,
-	// -1 means write to all
+                              unsigned int start_address, unsigned int nwrites,
-	unsigned int i;
+                              unsigned int *values) {
-	mem_num       &= 0x3f;
+    // -1 means write to all
-	start_address &= 0x3fff;
+    unsigned int i;
-	nwrites       &= 0x3ff;
+    mem_num &= 0x3f;
-	if (!nwrites||nwrites>Feb_Interface_send_buffer_size-2) {
+    start_address &= 0x3fff;
-		LOG(logERROR, ("invalid nwrites:%d\n",nwrites));
+    nwrites &= 0x3ff;
-		return 0;
+    if (!nwrites || nwrites > Feb_Interface_send_buffer_size - 2) {
-	}//*d-1026
+        LOG(logERROR, ("invalid nwrites:%d\n", nwrites));
+        return 0;
+    } //*d-1026
 
-	Feb_Interface_send_ndata           =  nwrites+2;//*d-1026
+    Feb_Interface_send_ndata = nwrites + 2; //*d-1026
-	Feb_Interface_send_data[0]         = 0xc0000000 | mem_num << 24 | nwrites << 14 | start_address; //cmd -> write to memory, nwrites, mem number, start address
+    Feb_Interface_send_data[0] =
-	Feb_Interface_send_data[nwrites+1] = 0;
+        0xc0000000 | mem_num << 24 | nwrites << 14 |
-	for(i=0;i<nwrites;i++) Feb_Interface_send_data[i+1] = values[i];
+        start_address; // cmd -> write to memory, nwrites, mem number, start
+                       // address
+    Feb_Interface_send_data[nwrites + 1] = 0;
+    for (i = 0; i < nwrites; i++)
+        Feb_Interface_send_data[i + 1] = values[i];
 
+    if (!Feb_Interface_WriteTo(sub_num))
+        return 0;
 
-	if (!Feb_Interface_WriteTo(sub_num)) return 0;
+    return 1;
-
-	return 1;
 }
-
-
-

slsDetectorServers/eigerDetectorServer/FebInterface.h

@@ -3,12 +3,24 @@
 int Feb_Interface_WriteTo(unsigned int ch);
 int Feb_Interface_ReadFrom(unsigned int ch, unsigned int ntrys);
 void Feb_Interface_FebInterface();
-void Feb_Interface_SendCompleteList(unsigned int n,unsigned int* list);
+void Feb_Interface_SendCompleteList(unsigned int n, unsigned int *list);
 int Feb_Interface_SetByteOrder();
-int Feb_Interface_ReadRegister(unsigned int sub_num, unsigned int reg_num,unsigned int* value_read);
+int Feb_Interface_ReadRegister(unsigned int sub_num, unsigned int reg_num,
-int Feb_Interface_ReadRegisters(unsigned int sub_num, unsigned int nreads, unsigned int* reg_nums,unsigned int* values_read);
+                               unsigned int *value_read);
-int Feb_Interface_WriteRegister(unsigned int sub_num, unsigned int reg_num,unsigned int value, int wait_on, unsigned int wait_on_address);
+int Feb_Interface_ReadRegisters(unsigned int sub_num, unsigned int nreads,
-int Feb_Interface_WriteRegisters(unsigned int sub_num, unsigned int nwrites, unsigned int* reg_nums, unsigned int* values, int* wait_ons, unsigned int* wait_on_addresses);
+                                unsigned int *reg_nums,
-int Feb_Interface_WriteMemoryInLoops(unsigned int sub_num, unsigned int mem_num, unsigned int start_address, unsigned int nwrites, unsigned int *values);
+                                unsigned int *values_read);
-int Feb_Interface_WriteMemory(unsigned int sub_num, unsigned int mem_num, unsigned int start_address, unsigned int nwrites, unsigned int *values);
+int Feb_Interface_WriteRegister(unsigned int sub_num, unsigned int reg_num,
-
+                                unsigned int value, int wait_on,
+                                unsigned int wait_on_address);
+int Feb_Interface_WriteRegisters(unsigned int sub_num, unsigned int nwrites,
+                                 unsigned int *reg_nums, unsigned int *values,
+                                 int *wait_ons,
+                                 unsigned int *wait_on_addresses);
+int Feb_Interface_WriteMemoryInLoops(unsigned int sub_num, unsigned int mem_num,
+                                     unsigned int start_address,
+                                     unsigned int nwrites,
+                                     unsigned int *values);
+int Feb_Interface_WriteMemory(unsigned int sub_num, unsigned int mem_num,
+                              unsigned int start_address, unsigned int nwrites,
+                              unsigned int *values);

slsDetectorServers/eigerDetectorServer/FebRegisterDefs.h

@@ -1,228 +1,224 @@
 
-//daq register definitions
+// daq register definitions
-#define DAQ_REG_CTRL                  	1
+#define DAQ_REG_CTRL               1
-#define DAQ_REG_CHIP_CMDS             	2
+#define DAQ_REG_CHIP_CMDS          2
-#define DAQ_REG_STATIC_BITS           	3
+#define DAQ_REG_STATIC_BITS        3
-#define DAQ_REG_CLK_ROW_CLK_NTIMES    	3
+#define DAQ_REG_CLK_ROW_CLK_NTIMES 3
-#define DAQ_REG_SHIFT_IN_32           	3
+#define DAQ_REG_SHIFT_IN_32        3
-#define DAQ_REG_READOUT_NROWS         	3
+#define DAQ_REG_READOUT_NROWS      3
-#define DAQ_REG_SEND_N_TESTPULSES     	3
+#define DAQ_REG_SEND_N_TESTPULSES  3
 
-#define DAQ_REG_NEXPOSURES            	3
+#define DAQ_REG_NEXPOSURES            3
-#define DAQ_REG_EXPOSURE_TIMER        	4 // == (31 downto 3) * 10^(2 downto 0)
+#define DAQ_REG_EXPOSURE_TIMER        4 // == (31 downto 3) * 10^(2 downto 0)
-#define DAQ_REG_EXPOSURE_REPEAT_TIMER 	5 // == (31 downto 3) * 10^(2 downto 0)
+#define DAQ_REG_EXPOSURE_REPEAT_TIMER 5 // == (31 downto 3) * 10^(2 downto 0)
-#define DAQ_REG_SUBFRAME_EXPOSURES   	6
+#define DAQ_REG_SUBFRAME_EXPOSURES    6
-#define DAQ_REG_SUBFRAME_PERIOD       	7 //also pg and fifo status register
+#define DAQ_REG_SUBFRAME_PERIOD       7 // also pg and fifo status register
-#define DAQ_REG_PARTIAL_READOUT         8
+#define DAQ_REG_PARTIAL_READOUT       8
 
-#define DAQ_REG_HRDWRE                  12
+#define DAQ_REG_HRDWRE 12
 
-#define DAQ_REG_HRDWRE_OW_OFST          (0)
+#define DAQ_REG_HRDWRE_OW_OFST         (0)
-#define DAQ_REG_HRDWRE_OW_MSK           (0x00000001 << DAQ_REG_HRDWRE_OW_OFST)
+#define DAQ_REG_HRDWRE_OW_MSK          (0x00000001 << DAQ_REG_HRDWRE_OW_OFST)
-#define DAQ_REG_HRDWRE_TOP_OFST         (1)
+#define DAQ_REG_HRDWRE_TOP_OFST        (1)
-#define DAQ_REG_HRDWRE_TOP_MSK          (0x00000001 << DAQ_REG_HRDWRE_TOP_OFST)
+#define DAQ_REG_HRDWRE_TOP_MSK         (0x00000001 << DAQ_REG_HRDWRE_TOP_OFST)
-#define DAQ_REG_HRDWRE_INTRRPT_SF_OFST  (2)
+#define DAQ_REG_HRDWRE_INTRRPT_SF_OFST (2)
-#define DAQ_REG_HRDWRE_INTRRPT_SF_MSK   (0x00000001 << DAQ_REG_HRDWRE_INTRRPT_SF_OFST)
+#define DAQ_REG_HRDWRE_INTRRPT_SF_MSK                                          \
+    (0x00000001 << DAQ_REG_HRDWRE_INTRRPT_SF_OFST)
 
-#define DAQ_REG_RO_OFFSET				20
+#define DAQ_REG_RO_OFFSET 20
-#define DAQ_REG_STATUS					(DAQ_REG_RO_OFFSET + 0) //also pg and fifo status register
+#define DAQ_REG_STATUS                                                         \
-#define FEB_REG_STATUS              	(DAQ_REG_RO_OFFSET + 3)
+    (DAQ_REG_RO_OFFSET + 0) // also pg and fifo status register
-#define MEAS_SUBPERIOD_REG 	 			(DAQ_REG_RO_OFFSET + 4)
+#define FEB_REG_STATUS     (DAQ_REG_RO_OFFSET + 3)
-#define MEAS_PERIOD_REG   				(DAQ_REG_RO_OFFSET + 5)
+#define MEAS_SUBPERIOD_REG (DAQ_REG_RO_OFFSET + 4)
+#define MEAS_PERIOD_REG    (DAQ_REG_RO_OFFSET + 5)
 
+#define DAQ_CTRL_RESET 0x80000000
+#define DAQ_CTRL_START 0x40000000
+#define ACQ_CTRL_START 0x50000000 // this is 0x10000000 (acq) | 0x40000000 (daq)
+#define DAQ_CTRL_STOP  0x00000000
 
+// direct chip commands to the DAQ_REG_CHIP_CMDS register
+#define DAQ_SET_STATIC_BIT       0x00000001
+#define DAQ_RESET_COMPLETELY     0x0000000E
+#define DAQ_RESET_PERIPHERY      0x00000002
+#define DAQ_RESET_PIXEL_COUNTERS 0x00000004
+#define DAQ_RESET_COLUMN_SELECT  0x00000008
 
-#define DAQ_CTRL_RESET              0x80000000
+#define DAQ_STORE_IMAGE         0x00000010
-#define DAQ_CTRL_START              0x40000000
+#define DAQ_RELEASE_IMAGE_STORE 0x00000020
-#define ACQ_CTRL_START              0x50000000 //this is 0x10000000 (acq) | 0x40000000 (daq)
-#define DAQ_CTRL_STOP               0x00000000
-
-//direct chip commands to the DAQ_REG_CHIP_CMDS register
-#define DAQ_SET_STATIC_BIT          0x00000001
-#define DAQ_RESET_COMPLETELY        0x0000000E
-#define DAQ_RESET_PERIPHERY         0x00000002
-#define DAQ_RESET_PIXEL_COUNTERS    0x00000004
-#define DAQ_RESET_COLUMN_SELECT     0x00000008
-
-#define DAQ_STORE_IMAGE             0x00000010
-#define DAQ_RELEASE_IMAGE_STORE     0x00000020
 
 #define DAQ_SEND_A_TOKEN_IN         0x00000040
 #define DAQ_CLK_ROW_CLK_NTIMES      0x00000080
 #define DAQ_SERIALIN_SHIFT_IN_32    0x00000100
 #define DAQ_LOAD_16ROWS_OF_TRIMBITS 0x00000200
 
-#define DAQ_IGNORE_INITIAL_CRAP     0x00000400 //crap before readout
+#define DAQ_IGNORE_INITIAL_CRAP 0x00000400 // crap before readout
-#define DAQ_READOUT_NROWS           0x00000800
+#define DAQ_READOUT_NROWS       0x00000800
-#define DAQ_CLKOUT_LAST_4_BITS_AND_RETURN_TO_START 0x00001000 //last 4 bit of data in the last frame
+#define DAQ_CLKOUT_LAST_4_BITS_AND_RETURN_TO_START                             \
+    0x00001000 // last 4 bit of data in the last frame
 
 #define DAQ_RELEASE_IMAGE_STORE_AFTER_READOUT  0x00002000
 #define DAQ_RESET_PIXEL_COUNTERS_AFTER_READOUT 0x00004000
 
-#define DAQ_CLK_ROW_CLK_TO_SELECT_NEXT_ROW     0x00008000
+#define DAQ_CLK_ROW_CLK_TO_SELECT_NEXT_ROW    0x00008000
-#define DAQ_CLK_MAIN_CLK_TO_SELECT_NEXT_PIXEL  0x00010000
+#define DAQ_CLK_MAIN_CLK_TO_SELECT_NEXT_PIXEL 0x00010000
-#define DAQ_SEND_N_TEST_PULSES                 0x00020000
+#define DAQ_SEND_N_TEST_PULSES                0x00020000
 
-#define DAQ_CHIP_CONTROLLER_HALF_SPEED         0x00040000 //everything at 100 MHz (50MHz ddr readout)
+#define DAQ_CHIP_CONTROLLER_HALF_SPEED                                         \
-#define DAQ_CHIP_CONTROLLER_QUARTER_SPEED      0x00080000 //everything at  50 MHz (25MHz ddr readout)
+    0x00040000 // everything at 100 MHz (50MHz ddr readout)
-#define DAQ_CHIP_CONTROLLER_SUPER_SLOW_SPEED   0x000c0000 //everything at  ~200 kHz (200 kHz MHz ddr readout)
+#define DAQ_CHIP_CONTROLLER_QUARTER_SPEED                                      \
+    0x00080000 // everything at  50 MHz (25MHz ddr readout)
+#define DAQ_CHIP_CONTROLLER_SUPER_SLOW_SPEED                                   \
+    0x000c0000 // everything at  ~200 kHz (200 kHz MHz ddr readout)
 
-//#define DAQ_FIFO_ENABLE                       0x00100000 commented out as it is not used anywhere
+//#define DAQ_FIFO_ENABLE                       0x00100000 commented out as it
-#define DAQ_REG_CHIP_CMDS_INT_TRIGGER			0x00100000
+// is not used anywhere
+#define DAQ_REG_CHIP_CMDS_INT_TRIGGER 0x00100000
 
-//direct chip commands to the DAQ_REG_CHIP_CMDS register
+// direct chip commands to the DAQ_REG_CHIP_CMDS register
-#define DAQ_NEXPOSURERS_SAFEST_MODE_ROW_CLK_BEFORE_MODE 0x00200000 //row clk is before main clk readout sequence
+#define DAQ_NEXPOSURERS_SAFEST_MODE_ROW_CLK_BEFORE_MODE                        \
-#define DAQ_NEXPOSURERS_NORMAL_NONPARALLEL_MODE         0x00400000 //expose ->readout ->expose -> ..., with store is always closed
+    0x00200000 // row clk is before main clk readout sequence
-#define DAQ_NEXPOSURERS_PARALLEL_MODE                   0x00600000 //parallel acquire/read mode
+#define DAQ_NEXPOSURERS_NORMAL_NONPARALLEL_MODE                                \
+    0x00400000 // expose ->readout ->expose -> ..., with store is always closed
+#define DAQ_NEXPOSURERS_PARALLEL_MODE 0x00600000 // parallel acquire/read mode
 
-//DAQ_NEXPOSURERS_READOUT_COMPLETE_IMAGES is old now hard-wired in the firmware that every image comes with a header
+// DAQ_NEXPOSURERS_READOUT_COMPLETE_IMAGES is old now hard-wired in the firmware
-//#define DAQ_NEXPOSURERS_READOUT_COMPLETE_IMAGES    0x00800000 //DAQ_IGNORE_INITIAL_CRAP and DAQ_CLKOUT_LAST_4_BITS_AND_RETURN_TO_START
+// that every image comes with a header #define
+// DAQ_NEXPOSURERS_READOUT_COMPLETE_IMAGES    0x00800000
+////DAQ_IGNORE_INITIAL_CRAP and DAQ_CLKOUT_LAST_4_BITS_AND_RETURN_TO_START
 
-#define DAQ_NEXPOSURERS_EXTERNAL_ENABLING          0x01000000 
+#define DAQ_NEXPOSURERS_EXTERNAL_ENABLING          0x01000000
 #define DAQ_NEXPOSURERS_EXTERNAL_ENABLING_POLARITY 0x02000000
 #define DAQ_NEXPOSURERS_EXTERNAL_TRIGGER_POLARITY  0x04000000
 
-#define DAQ_NEXPOSURERS_INTERNAL_ACQUISITION          0x00000000 //internally controlled
+#define DAQ_NEXPOSURERS_INTERNAL_ACQUISITION 0x00000000 // internally controlled
-#define DAQ_NEXPOSURERS_EXTERNAL_ACQUISITION_START    0x08000000 //external acquisition start
+#define DAQ_NEXPOSURERS_EXTERNAL_ACQUISITION_START                             \
-#define DAQ_NEXPOSURERS_EXTERNAL_IMAGE_START          0x10000000 //external image start
+    0x08000000 // external acquisition start
-#define DAQ_NEXPOSURERS_EXTERNAL_IMAGE_START_AND_STOP 0x18000000 //externally controlly, external image start and stop
+#define DAQ_NEXPOSURERS_EXTERNAL_IMAGE_START 0x10000000 // external image start
+#define DAQ_NEXPOSURERS_EXTERNAL_IMAGE_START_AND_STOP                          \
+    0x18000000 // externally controlly, external image start and stop
 
-#define DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING      0x20000000 
+#define DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING 0x20000000
-#define DAQ_NEXPOSURERS_ACTIVATE_RATE_CORRECTION      0x40000000 
+#define DAQ_NEXPOSURERS_ACTIVATE_RATE_CORRECTION 0x40000000
 
-//#define DAQ_MASTER_HALF_MODULE                        0x80000000 currently not used
+//#define DAQ_MASTER_HALF_MODULE                        0x80000000 currently not
+// used
 
+// chips static bits
+#define DAQ_STATIC_BIT_PROGRAM 0x00000001
+#define DAQ_STATIC_BIT_M4      0x00000002 // these are the status bits, not bit mode
+#define DAQ_STATIC_BIT_M8      0x00000004 // these are the status bits, not bit mode
+#define DAQ_STATIC_BIT_M12                                                     \
+    0x00000000 // these are the status bits, not bit mode, ie. "00" is 12 bit
+               // mode
+#define DAQ_STATIC_BIT_CHIP_TEST 0x00000008
+#define DAQ_STATIC_BIT_ROTEST    0x00000010
+#define DAQ_CS_BAR_LEFT          0x00000020
+#define DAQ_CS_BAR_RIGHT         0x00000040
 
-//chips static bits 
+// status flags
-#define DAQ_STATIC_BIT_PROGRAM      0x00000001
+#define DAQ_STATUS_DAQ_RUNNING   0x01
-#define DAQ_STATIC_BIT_M4           0x00000002 //these are the status bits, not bit mode
+#define DAQ_DATA_COLLISION_ERROR 0x02
-#define DAQ_STATIC_BIT_M8           0x00000004 //these are the status bits, not bit mode
-#define DAQ_STATIC_BIT_M12          0x00000000 //these are the status bits, not bit mode, ie. "00" is 12 bit mode
-#define DAQ_STATIC_BIT_CHIP_TEST    0x00000008
-#define DAQ_STATIC_BIT_ROTEST       0x00000010
-#define DAQ_CS_BAR_LEFT             0x00000020
-#define DAQ_CS_BAR_RIGHT            0x00000040
 
-
+#define DAQ_STATUS_CURRENT_M4         0x04
-//status flags
-#define DAQ_STATUS_DAQ_RUNNING        0x01
-#define DAQ_DATA_COLLISION_ERROR      0x02
-
-
-#define DAQ_STATUS_CURRENT_M4         0x04 
 #define DAQ_STATUS_CURRENT_M8         0x08
-#define DAQ_STATUS_CURRENT_M12        0x00 //in 12 bit mode both are cleared
+#define DAQ_STATUS_CURRENT_M12        0x00 // in 12 bit mode both are cleared
 #define DAQ_STATUS_CURRENT_TESTMODE   0x10
-#define DAQ_STATUS_TOKEN_OUT          0x20 
+#define DAQ_STATUS_TOKEN_OUT          0x20
-#define DAQ_STATUS_SERIAL_OUT         0x40 
+#define DAQ_STATUS_SERIAL_OUT         0x40
-#define DAQ_STATUS_PIXELS_ARE_ENABLED 0x80 
+#define DAQ_STATUS_PIXELS_ARE_ENABLED 0x80
 #define DAQ_STATUS_DAQ_RUN_TOGGLE     0x200
 
-//data delay registers
+// data delay registers
-#define CHIP_DATA_OUT_DELAY_REG_CTRL       1
+#define CHIP_DATA_OUT_DELAY_REG_CTRL 1
-#define CHIP_DATA_OUT_DELAY_REG2           2
+#define CHIP_DATA_OUT_DELAY_REG2     2
-#define CHIP_DATA_OUT_DELAY_REG3           3
+#define CHIP_DATA_OUT_DELAY_REG3     3
-#define CHIP_DATA_OUT_DELAY_REG4           4
+#define CHIP_DATA_OUT_DELAY_REG4     4
-#define CHIP_DATA_OUT_DELAY_SET            0x20000000
+#define CHIP_DATA_OUT_DELAY_SET      0x20000000
 
-//module configuration
+// module configuration
-#define TOP_BIT_MASK				0x00f
+#define TOP_BIT_MASK           0x00f
-#define MASTER_BIT_MASK				0x200
+#define MASTER_BIT_MASK        0x200
-#define NORMAL_MODULE_BIT_MASK		0x400
+#define NORMAL_MODULE_BIT_MASK 0x400
 
 // Master Slave Top Bottom Definition
 #define MODULE_CONFIGURATION_MASK 0x84
-//Software Configuration
+// Software Configuration
-#define MASTERCONFIG_OFFSET			0x160		//0x20 * 11 (P11)
+#define MASTERCONFIG_OFFSET    0x160 // 0x20 * 11 (P11)
-#define MASTER_BIT					0x1
+#define MASTER_BIT             0x1
-#define	OVERWRITE_HARDWARE_BIT		0x2
+#define OVERWRITE_HARDWARE_BIT 0x2
-#define DEACTIVATE_BIT				0x4
+#define DEACTIVATE_BIT         0x4
 
-#define FPGA_TEMP_OFFSET			0x200
+#define FPGA_TEMP_OFFSET 0x200
 
-#define TXM_DELAY_LEFT_OFFSET		0x180
+#define TXM_DELAY_LEFT_OFFSET  0x180
-#define TXM_DELAY_RIGHT_OFFSET		0x1A0
+#define TXM_DELAY_RIGHT_OFFSET 0x1A0
-#define TXM_DELAY_FRAME_OFFSET		0x1C0
+#define TXM_DELAY_FRAME_OFFSET 0x1C0
-#define FLOW_REG_OFFSET				0x140
+#define FLOW_REG_OFFSET        0x140
 
-#define FLOW_REG_TXM_FLOW_CNTRL_10G_OFST	(0)
+#define FLOW_REG_TXM_FLOW_CNTRL_10G_OFST (0)
-#define FLOW_REG_TXM_FLOW_CNTRL_10G_MSK		(0x1 << FLOW_REG_TXM_FLOW_CNTRL_10G_OFST)
+#define FLOW_REG_TXM_FLOW_CNTRL_10G_MSK                                        \
-#define FLOW_REG_OVERFLOW_32_BIT_OFST		(2)
+    (0x1 << FLOW_REG_TXM_FLOW_CNTRL_10G_OFST)
-#define FLOW_REG_OVERFLOW_32_BIT_MSK		(0x1 << FLOW_REG_OVERFLOW_32_BIT_OFST)
+#define FLOW_REG_OVERFLOW_32_BIT_OFST (2)
+#define FLOW_REG_OVERFLOW_32_BIT_MSK  (0x1 << FLOW_REG_OVERFLOW_32_BIT_OFST)
 
-//command memory
+// command memory
-#define LEFT_OFFSET					0x0
+#define LEFT_OFFSET  0x0
-#define RIGHT_OFFSET				0x100
+#define RIGHT_OFFSET 0x100
 
-#define FIRST_CMD_PART1_OFFSET		0x8
+#define FIRST_CMD_PART1_OFFSET  0x8
-#define FIRST_CMD_PART2_OFFSET		0xc
+#define FIRST_CMD_PART2_OFFSET  0xc
-#define SECOND_CMD_PART1_OFFSET		0x10
+#define SECOND_CMD_PART1_OFFSET 0x10
-#define SECOND_CMD_PART2_OFFSET		0x14
+#define SECOND_CMD_PART2_OFFSET 0x14
-#define COMMAND_COUNTER_OFFSET		0x18
+#define COMMAND_COUNTER_OFFSET  0x18
-#define STOP_ACQ_OFFSET 			0x1c
+#define STOP_ACQ_OFFSET         0x1c
-#define STOP_ACQ_BIT				0x40000000
+#define STOP_ACQ_BIT            0x40000000
-#define TWO_REQUESTS_OFFSET			0x1c
+#define TWO_REQUESTS_OFFSET     0x1c
-#define TWO_REQUESTS_BIT			0x80000000
+#define TWO_REQUESTS_BIT        0x80000000
 
-//version
+// version
-#define FIRMWARE_VERSION_OFFSET		0x4
+#define FIRMWARE_VERSION_OFFSET     0x4
 #define FIRMWARESOFTWARE_API_OFFSET 0x0
 
-#define FRAME_NUM_RESET_OFFSET		0xA0
+#define FRAME_NUM_RESET_OFFSET 0xA0
 
-//1g counters
+// 1g counters
-#define ONE_GIGA_LEFT_INDEX_LSB_COUNTER		0x04
+#define ONE_GIGA_LEFT_INDEX_LSB_COUNTER 0x04
-#define ONE_GIGA_LEFT_INDEX_MSB_COUNTER		0x24
+#define ONE_GIGA_LEFT_INDEX_MSB_COUNTER 0x24
 
-#define ONE_GIGA_LEFT_TXN_DELAY_COUNTER		0x104
+#define ONE_GIGA_LEFT_TXN_DELAY_COUNTER   0x104
-#define ONE_GIGA_LEFT_FRAME_DELAY_COUNTER	0x124
+#define ONE_GIGA_LEFT_FRAME_DELAY_COUNTER 0x124
 
-#define ONE_GIGA_RIGHT_INDEX_LSB_COUNTER	0x44
+#define ONE_GIGA_RIGHT_INDEX_LSB_COUNTER 0x44
-#define ONE_GIGA_RIGHT_INDEX_MSB_COUNTER	0x64
+#define ONE_GIGA_RIGHT_INDEX_MSB_COUNTER 0x64
 
-#define ONE_GIGA_RIGHT_TXN_DELAY_COUNTER	0x144
+#define ONE_GIGA_RIGHT_TXN_DELAY_COUNTER   0x144
-#define ONE_GIGA_RIGHT_FRAME_DELAY_COUNTER	0x164
+#define ONE_GIGA_RIGHT_FRAME_DELAY_COUNTER 0x164
 
-//10g counters
+// 10g counters
-#define TEN_GIGA_LEFT_INDEX_LSB_COUNTER		0x84
+#define TEN_GIGA_LEFT_INDEX_LSB_COUNTER 0x84
-#define TEN_GIGA_LEFT_INDEX_MSB_COUNTER		0xa4
+#define TEN_GIGA_LEFT_INDEX_MSB_COUNTER 0xa4
 
-#define TEN_GIGA_LEFT_TXN_DELAY_COUNTER		0x184
+#define TEN_GIGA_LEFT_TXN_DELAY_COUNTER   0x184
-#define TEN_GIGA_LEFT_FRAME_DELAY_COUNTER	0x1a4
+#define TEN_GIGA_LEFT_FRAME_DELAY_COUNTER 0x1a4
 
-#define TEN_GIGA_RIGHT_INDEX_LSB_COUNTER	0xc4
+#define TEN_GIGA_RIGHT_INDEX_LSB_COUNTER 0xc4
-#define TEN_GIGA_RIGHT_INDEX_MSB_COUNTER	0xe4
+#define TEN_GIGA_RIGHT_INDEX_MSB_COUNTER 0xe4
 
-#define TEN_GIGA_RIGHT_TXN_DELAY_COUNTER	0x1c4
+#define TEN_GIGA_RIGHT_TXN_DELAY_COUNTER   0x1c4
-#define TEN_GIGA_RIGHT_FRAME_DELAY_COUNTER	0x1e4
+#define TEN_GIGA_RIGHT_FRAME_DELAY_COUNTER 0x1e4
 
 // udp header (position, id)
-#define UDP_HEADER_A_LEFT_OFST				0x00C0
+#define UDP_HEADER_A_LEFT_OFST  0x00C0
-#define UDP_HEADER_B_LEFT_OFST				0x00E0
+#define UDP_HEADER_B_LEFT_OFST  0x00E0
-#define UDP_HEADER_A_RIGHT_OFST				0x0100
+#define UDP_HEADER_A_RIGHT_OFST 0x0100
-#define UDP_HEADER_B_RIGHT_OFST				0x0120
+#define UDP_HEADER_B_RIGHT_OFST 0x0120
-
-#define UDP_HEADER_X_OFST					(0)
-#define UDP_HEADER_X_MSK					(0xFFFF << UDP_HEADER_X_OFST)
-#define UDP_HEADER_ID_OFST					(16)
-#define UDP_HEADER_ID_MSK					(0xFFFF << UDP_HEADER_ID_OFST)
-#define UDP_HEADER_Z_OFST					(0)
-#define UDP_HEADER_Z_MSK					(0xFFFF << UDP_HEADER_Z_OFST)
-#define UDP_HEADER_Y_OFST					(16)
-#define UDP_HEADER_Y_MSK					(0xFFFF << UDP_HEADER_Y_OFST)
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
 
+#define UDP_HEADER_X_OFST  (0)
+#define UDP_HEADER_X_MSK   (0xFFFF << UDP_HEADER_X_OFST)
+#define UDP_HEADER_ID_OFST (16)
+#define UDP_HEADER_ID_MSK  (0xFFFF << UDP_HEADER_ID_OFST)
+#define UDP_HEADER_Z_OFST  (0)
+#define UDP_HEADER_Z_MSK   (0xFFFF << UDP_HEADER_Z_OFST)
+#define UDP_HEADER_Y_OFST  (16)
+#define UDP_HEADER_Y_MSK   (0xFFFF << UDP_HEADER_Y_OFST)

slsDetectorServers/eigerDetectorServer/HardwareIO.c

@@ -1,76 +1,64 @@
 #include "HardwareIO.h"
 
-xfs_u8 HWIO_xfs_in8(xfs_u32 InAddress)
+xfs_u8 HWIO_xfs_in8(xfs_u32 InAddress) {
-{
     /* read the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
     xfs_u8 IoContents;
-    __asm__ volatile ("eieio; lbz %0,0(%1)":"=r" (IoContents):"b"
+    __asm__ volatile("eieio; lbz %0,0(%1)" : "=r"(IoContents) : "b"(InAddress));
-              (InAddress));
     return IoContents;
 }
 
 /*****************************************************************************/
 
-xfs_u16 HWIO_xfs_in16(xfs_u32 InAddress)
+xfs_u16 HWIO_xfs_in16(xfs_u32 InAddress) {
-{
     /* read the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
     xfs_u16 IoContents;
-    __asm__ volatile ("eieio; lhz %0,0(%1)":"=r" (IoContents):"b"
+    __asm__ volatile("eieio; lhz %0,0(%1)" : "=r"(IoContents) : "b"(InAddress));
-              (InAddress));
     return IoContents;
 }
 
 /*****************************************************************************/
 
-xfs_u32 HWIO_xfs_in32(xfs_u32 InAddress)
+xfs_u32 HWIO_xfs_in32(xfs_u32 InAddress) {
-{
     /* read the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
     xfs_u32 IoContents;
-    __asm__ volatile ("eieio; lwz %0,0(%1)":"=r" (IoContents):"b"
+    __asm__ volatile("eieio; lwz %0,0(%1)" : "=r"(IoContents) : "b"(InAddress));
-              (InAddress));
     return IoContents;
 }
 
 /*****************************************************************************/
 
-void HWIO_xfs_out8(xfs_u32 OutAddress, xfs_u8 Value)
+void HWIO_xfs_out8(xfs_u32 OutAddress, xfs_u8 Value) {
-{
     /* write the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
-    __asm__ volatile ("stb %0,0(%1); eieio"::"r" (Value), "b"(OutAddress));
+    __asm__ volatile("stb %0,0(%1); eieio" ::"r"(Value), "b"(OutAddress));
 }
 
 /*****************************************************************************/
-void HWIO_xfs_out16(xfs_u32 OutAddress, xfs_u16 Value)
+void HWIO_xfs_out16(xfs_u32 OutAddress, xfs_u16 Value) {
-{
     /* write the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
-    __asm__ volatile ("sth %0,0(%1); eieio"::"r" (Value), "b"(OutAddress));
+    __asm__ volatile("sth %0,0(%1); eieio" ::"r"(Value), "b"(OutAddress));
 }
 
 /*****************************************************************************/
 
-void HWIO_xfs_out32(xfs_u32 OutAddress, xfs_u32 Value)
+void HWIO_xfs_out32(xfs_u32 OutAddress, xfs_u32 Value) {
-{
     /* write the contents of the I/O location and then synchronize the I/O
      * such that the I/O operation completes before proceeding on
      */
 
-    __asm__ volatile ("stw %0,0(%1); eieio"::"r" (Value), "b"(OutAddress));
+    __asm__ volatile("stw %0,0(%1); eieio" ::"r"(Value), "b"(OutAddress));
 }
-
-
-

slsDetectorServers/eigerDetectorServer/HardwareIO.h

@@ -1,16 +1,13 @@
 
-//Class initially from Gerd and was called mmap_test.c 
+// Class initially from Gerd and was called mmap_test.c
 #pragma once
 
 #include "xfs_types.h"
 
+xfs_u8 HWIO_xfs_in8(xfs_u32 InAddress);
+xfs_u16 HWIO_xfs_in16(xfs_u32 InAddress);
+xfs_u32 HWIO_xfs_in32(xfs_u32 InAddress);
 
-
+void HWIO_xfs_out8(xfs_u32 OutAddress, xfs_u8 Value);
-  xfs_u8  HWIO_xfs_in8(xfs_u32 InAddress);
+void HWIO_xfs_out16(xfs_u32 OutAddress, xfs_u16 Value);
-  xfs_u16 HWIO_xfs_in16(xfs_u32 InAddress);
+void HWIO_xfs_out32(xfs_u32 OutAddress, xfs_u32 Value);
-  xfs_u32 HWIO_xfs_in32(xfs_u32 InAddress);
-
-  void HWIO_xfs_out8(xfs_u32 OutAddress, xfs_u8 Value);
-  void HWIO_xfs_out16(xfs_u32 OutAddress, xfs_u16 Value);
-  void HWIO_xfs_out32(xfs_u32 OutAddress, xfs_u32 Value);
-

slsDetectorServers/eigerDetectorServer/HardwareMMappingDefs.h

@@ -1,11 +1,10 @@
 
 
-//from Gerd and was called mmap_test.h
+// from Gerd and was called mmap_test.h
 
 #ifndef __PLB_LL_FIFO_H__
 #define __PLB_LL_FIFO_H__
 
-
 /******************************************************************************/
 /* definitions                                                                */
 /******************************************************************************/
@@ -14,49 +13,43 @@
 #define PLB_LL_FIFO_REG_STATUS 1
 #define PLB_LL_FIFO_REG_FIFO   2
 
-#define PLB_LL_FIFO_CTRL_LL_REM_SHIFT    30
+#define PLB_LL_FIFO_CTRL_LL_REM_SHIFT 30
-#define PLB_LL_FIFO_CTRL_LL_REM          0xC0000000
+#define PLB_LL_FIFO_CTRL_LL_REM       0xC0000000
-#define PLB_LL_FIFO_CTRL_LL_EOF          0x20000000
+#define PLB_LL_FIFO_CTRL_LL_EOF       0x20000000
-#define PLB_LL_FIFO_CTRL_LL_SOF          0x10000000
+#define PLB_LL_FIFO_CTRL_LL_SOF       0x10000000
-#define PLB_LL_FIFO_CTRL_LL_MASK         0xF0000000
+#define PLB_LL_FIFO_CTRL_LL_MASK      0xF0000000
 
+#define PLB_LL_FIFO_CTRL_TX_RESET 0x08000000
+#define PLB_LL_FIFO_CTRL_RX_RESET 0x04000000
 
-#define PLB_LL_FIFO_CTRL_TX_RESET        0x08000000
+#define PLB_LL_FIFO_CTRL_RESET_STATUS 0x00800000
-#define PLB_LL_FIFO_CTRL_RX_RESET        0x04000000
+#define PLB_LL_FIFO_CTRL_RESET_USER   0x00400000
+#define PLB_LL_FIFO_CTRL_RESET_LINK   0x00200000
+#define PLB_LL_FIFO_CTRL_RESET_GT     0x00100000
 
-#define PLB_LL_FIFO_CTRL_RESET_STATUS    0x00800000
+#define PLB_LL_FIFO_CTRL_RESET_ALL 0x0CF00000
-#define PLB_LL_FIFO_CTRL_RESET_USER      0x00400000
-#define PLB_LL_FIFO_CTRL_RESET_LINK      0x00200000
-#define PLB_LL_FIFO_CTRL_RESET_GT        0x00100000
-
-#define PLB_LL_FIFO_CTRL_RESET_ALL       0x0CF00000
 
 // do not reset complete gtx dual in std. case
 // cause this would reset PLL and stop LL clk
-#define PLB_LL_FIFO_CTRL_RESET_STD       0x0CE00000
+#define PLB_LL_FIFO_CTRL_RESET_STD 0x0CE00000
 
 // reset Rx and Tx Fifo and set User Reset
-#define PLB_LL_FIFO_CTRL_RESET_FIFO      0x0C400000
+#define PLB_LL_FIFO_CTRL_RESET_FIFO 0x0C400000
 
+#define PLB_LL_FIFO_CTRL_CONFIG_VECTOR 0x000FFFFF
 
-#define PLB_LL_FIFO_CTRL_CONFIG_VECTOR   0x000FFFFF
+#define PLB_LL_FIFO_STATUS_LL_REM_SHIFT 30
+#define PLB_LL_FIFO_STATUS_LL_REM       0xC0000000
+#define PLB_LL_FIFO_STATUS_LL_EOF       0x20000000
+#define PLB_LL_FIFO_STATUS_LL_SOF       0x10000000
 
+#define PLB_LL_FIFO_STATUS_EMPTY       0x08000000
+#define PLB_LL_FIFO_STATUS_ALMOSTEMPTY 0x04000000
+#define PLB_LL_FIFO_STATUS_FULL        0x02000000
+#define PLB_LL_FIFO_STATUS_ALMOSTFULL  0x01000000
 
-#define PLB_LL_FIFO_STATUS_LL_REM_SHIFT  30
+#define PLB_LL_FIFO_STATUS_VECTOR 0x000FFFFF
-#define PLB_LL_FIFO_STATUS_LL_REM        0xC0000000
-#define PLB_LL_FIFO_STATUS_LL_EOF        0x20000000
-#define PLB_LL_FIFO_STATUS_LL_SOF        0x10000000
-
-#define PLB_LL_FIFO_STATUS_EMPTY         0x08000000
-#define PLB_LL_FIFO_STATUS_ALMOSTEMPTY   0x04000000
-#define PLB_LL_FIFO_STATUS_FULL          0x02000000
-#define PLB_LL_FIFO_STATUS_ALMOSTFULL    0x01000000
-
-#define PLB_LL_FIFO_STATUS_VECTOR        0x000FFFFF
-
-#define PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS    100
 
+#define PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS 100
 
 #endif // __PLB_LL_FIFO_H__
-
-

slsDetectorServers/eigerDetectorServer/LocalLinkInterface.c

@@ -2,219 +2,221 @@
 #include "HardwareMMappingDefs.h"
 #include "clogger.h"
 
-#include <unistd.h>
-#include <sys/mman.h>
 #include <fcntl.h>
+#include <sys/mman.h>
+#include <unistd.h>
 
-
+void Local_LocalLinkInterface1(struct LocalLinkInterface *ll,
-void Local_LocalLinkInterface1(struct LocalLinkInterface* ll,unsigned int ll_fifo_badr) {
+                               unsigned int ll_fifo_badr) {
-	LOG(logDEBUG1, ("Initialize PLB LL FIFOs\n"));
+    LOG(logDEBUG1, ("Initialize PLB LL FIFOs\n"));
-	ll->ll_fifo_base=0;
+    ll->ll_fifo_base = 0;
-	ll->ll_fifo_ctrl_reg=0;
+    ll->ll_fifo_ctrl_reg = 0;
-	if (Local_Init(ll,ll_fifo_badr)) {
+    if (Local_Init(ll, ll_fifo_badr)) {
-		Local_Reset(ll);
+        Local_Reset(ll);
-		LOG(logDEBUG1, ("\tFIFO Status : 0x%08x\n\n\n", Local_StatusVector(ll)));
+        LOG(logDEBUG1,
-	} else LOG(logERROR, ("\tCould not map LocalLink : 0x%08x\n\n\n", ll_fifo_badr));
+            ("\tFIFO Status : 0x%08x\n\n\n", Local_StatusVector(ll)));
+    } else
+        LOG(logERROR,
+            ("\tCould not map LocalLink : 0x%08x\n\n\n", ll_fifo_badr));
 }
 
-
+void Local_LocalLinkInterface(struct LocalLinkInterface *ll) {
-void Local_LocalLinkInterface(struct LocalLinkInterface* ll) {
+    LOG(logDEBUG1, ("Initializing new memory\n"));
-	LOG(logDEBUG1, ("Initializing new memory\n"));
 }
 
+int Local_Init(struct LocalLinkInterface *ll, unsigned int ll_fifo_badr) {
+    int fd;
+    void *plb_ll_fifo_ptr;
 
+    if ((fd = open("/dev/mem", O_RDWR)) < 0) {
+        fprintf(stderr, "Could not open /dev/mem\n");
+        return 0;
+    }
 
-int Local_Init(struct LocalLinkInterface* ll,unsigned int ll_fifo_badr) {
+    plb_ll_fifo_ptr = mmap(0, getpagesize(), PROT_READ | PROT_WRITE,
-	int fd;
+                           MAP_FILE | MAP_SHARED, fd, ll_fifo_badr);
-	void *plb_ll_fifo_ptr;
+    close(fd);
 
-	if ((fd=open("/dev/mem", O_RDWR)) < 0) {
+    if (plb_ll_fifo_ptr == MAP_FAILED) {
-		fprintf(stderr, "Could not open /dev/mem\n");
+        perror("mmap");
-		return 0;
+        return 0;
-	}
+    }
 
-	plb_ll_fifo_ptr =  mmap(0, getpagesize(), PROT_READ | PROT_WRITE, MAP_FILE | MAP_SHARED, fd, ll_fifo_badr);
+    ll->ll_fifo_base = (xfs_u32)plb_ll_fifo_ptr;
-	close(fd);
+    ll->ll_fifo_ctrl_reg = 0;
 
-	if (plb_ll_fifo_ptr == MAP_FAILED) {
+    return 1;
-		perror ("mmap");
-		return 0;
-	}
-
-	ll->ll_fifo_base = (xfs_u32) plb_ll_fifo_ptr;
-	ll->ll_fifo_ctrl_reg = 0;
-
-	return 1;
 }
 
-
+int Local_Reset(struct LocalLinkInterface *ll) {
-
+    return Local_Reset1(ll, PLB_LL_FIFO_CTRL_RESET_STD);
-int Local_Reset(struct LocalLinkInterface* ll) {
-	return Local_Reset1(ll,PLB_LL_FIFO_CTRL_RESET_STD);
 }
 
-int Local_Reset1(struct LocalLinkInterface* ll,unsigned int rst_mask) {
+int Local_Reset1(struct LocalLinkInterface *ll, unsigned int rst_mask) {
-	ll->ll_fifo_ctrl_reg |= rst_mask;
+    ll->ll_fifo_ctrl_reg |= rst_mask;
-	LOG(logDEBUG1, ("\tCTRL Register bits: 0x%08x\n",ll->ll_fifo_ctrl_reg));
+    LOG(logDEBUG1, ("\tCTRL Register bits: 0x%08x\n", ll->ll_fifo_ctrl_reg));
 
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+                   ll->ll_fifo_ctrl_reg);
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+                   ll->ll_fifo_ctrl_reg);
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
+                   ll->ll_fifo_ctrl_reg);
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
+                   ll->ll_fifo_ctrl_reg);
 
-	ll->ll_fifo_ctrl_reg &= (~rst_mask);
+    ll->ll_fifo_ctrl_reg &= (~rst_mask);
 
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
-	return 1;
+                   ll->ll_fifo_ctrl_reg);
+    return 1;
 }
 
-
+unsigned int Local_StatusVector(struct LocalLinkInterface *ll) {
-
+    return HWIO_xfs_in32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_STATUS);
-unsigned int Local_StatusVector(struct LocalLinkInterface* ll) {
-	return HWIO_xfs_in32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_STATUS);
 }
 
-int Local_Write(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer) {
+int Local_Write(struct LocalLinkInterface *ll, unsigned int buffer_len,
-	// note: buffer must be word (4 byte) aligned
+                void *buffer) {
-	// frame_len in byte
+    // note: buffer must be word (4 byte) aligned
-	int vacancy=0;
+    // frame_len in byte
-	int i;
+    int vacancy = 0;
-	int words_send = 0;
+    int i;
-	int last_word;
+    int words_send = 0;
-	unsigned int *word_ptr;
+    int last_word;
-	unsigned int fifo_ctrl;
+    unsigned int *word_ptr;
-	xfs_u32 status;
+    unsigned int fifo_ctrl;
+    xfs_u32 status;
 
-	if (buffer_len < 1) return -1;
+    if (buffer_len < 1)
+        return -1;
 
-	last_word = (buffer_len-1)/4;
+    last_word = (buffer_len - 1) / 4;
-	word_ptr = (unsigned int *)buffer;
+    word_ptr = (unsigned int *)buffer;
 
-	LOG(logDEBUG1, ("LL Write - Len: %2d - If: %X - Data: ",buffer_len, ll->ll_fifo_base));
+    LOG(logDEBUG1, ("LL Write - Len: %2d - If: %X - Data: ", buffer_len,
-	for (i=0; i < buffer_len/4; i++)
+                    ll->ll_fifo_base));
-		LOG(logDEBUG1, ("%.8X ",*(((unsigned *) buffer)+i)));
+    for (i = 0; i < buffer_len / 4; i++)
+        LOG(logDEBUG1, ("%.8X ", *(((unsigned *)buffer) + i)));
 
-	while (words_send <= last_word)
+    while (words_send <= last_word) {
-	{
+        while (!vacancy) // wait for Fifo to be empty again
-		while (!vacancy)//wait for Fifo to be empty again
+        {
-		{
+            status =
-			status = HWIO_xfs_in32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_STATUS);
+                HWIO_xfs_in32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_STATUS);
-			if ((status & PLB_LL_FIFO_STATUS_ALMOSTFULL) == 0) vacancy = 1;
+            if ((status & PLB_LL_FIFO_STATUS_ALMOSTFULL) == 0)
-			if (vacancy == 0) {
+                vacancy = 1;
-				LOG(logERROR, ("Fifo full!\n"));
+            if (vacancy == 0) {
-			}
+                LOG(logERROR, ("Fifo full!\n"));
-		}
+            }
+        }
 
-		//Just to know: #define PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS    100
+        // Just to know: #define PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS    100
-		for (i=0; ((i<PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS) && (words_send <= last_word)); i++)
+        for (i = 0; ((i < PLB_LL_FIFO_ALMOST_FULL_THRESHOLD_WORDS) &&
-		{
+                     (words_send <= last_word));
-			fifo_ctrl = 0;
+             i++) {
-			if (words_send == 0)
+            fifo_ctrl = 0;
-			{
+            if (words_send == 0) {
-				fifo_ctrl = PLB_LL_FIFO_CTRL_LL_SOF;//announce the start of file
+                fifo_ctrl =
-			}
+                    PLB_LL_FIFO_CTRL_LL_SOF; // announce the start of file
+            }
 
-			if (words_send == last_word)
+            if (words_send == last_word) {
-			{
+                fifo_ctrl |=
-				fifo_ctrl |= (PLB_LL_FIFO_CTRL_LL_EOF | (( (buffer_len-1)<<PLB_LL_FIFO_CTRL_LL_REM_SHIFT) & PLB_LL_FIFO_CTRL_LL_REM)  );
+                    (PLB_LL_FIFO_CTRL_LL_EOF |
-			}
+                     (((buffer_len - 1) << PLB_LL_FIFO_CTRL_LL_REM_SHIFT) &
-			Local_ctrl_reg_write_mask(ll,PLB_LL_FIFO_CTRL_LL_MASK,fifo_ctrl);
+                      PLB_LL_FIFO_CTRL_LL_REM));
-			HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_FIFO,word_ptr[words_send++]);
+            }
-		}
+            Local_ctrl_reg_write_mask(ll, PLB_LL_FIFO_CTRL_LL_MASK, fifo_ctrl);
-	}
+            HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_FIFO,
-	return buffer_len;
+                           word_ptr[words_send++]);
+        }
+    }
+    return buffer_len;
 }
 
+int Local_Read(struct LocalLinkInterface *ll, unsigned int buffer_len,
+               void *buffer) {
+    static unsigned int buffer_ptr = 0;
+    // note: buffer must be word (4 byte) aligned
+    // frame_len in byte
+    int len;
+    unsigned int *word_ptr;
+    unsigned int status;
+    volatile unsigned int fifo_val;
+    int sof = 0;
 
-int Local_Read(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer) {
+    LOG(logDEBUG1, ("LL Read - If: %X - Data: ", ll->ll_fifo_base));
-	static unsigned int buffer_ptr = 0;
-	// note: buffer must be word (4 byte) aligned
-	// frame_len in byte
-	int len;
-	unsigned int *word_ptr;
-	unsigned int status;
-	volatile unsigned int fifo_val;
-	int sof = 0;
 
-	LOG(logDEBUG1, ("LL Read - If: %X - Data: ",ll->ll_fifo_base));
+    word_ptr = (unsigned int *)buffer;
+    do {
+        status = HWIO_xfs_in32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_STATUS);
 
-	word_ptr = (unsigned int *)buffer;
+        if (!(status & PLB_LL_FIFO_STATUS_EMPTY)) {
-	do
+            if (status & PLB_LL_FIFO_STATUS_LL_SOF) {
-	{
+                if (buffer_ptr) {
-		status = HWIO_xfs_in32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_STATUS);
+                    buffer_ptr = 0;
+                    return -1; // buffer overflow
+                }
+                buffer_ptr = 0;
+                sof = 1;
+            }
 
-		if (!(status & PLB_LL_FIFO_STATUS_EMPTY))
+            fifo_val = HWIO_xfs_in32(
-		{
+                ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_FIFO); // read from fifo
-			if (status & PLB_LL_FIFO_STATUS_LL_SOF)
-			{
-				if (buffer_ptr)
-				{
-					buffer_ptr = 0;
-					return -1; // buffer overflow
-				}
-				buffer_ptr = 0;
-				sof = 1;
-			}
 
-			fifo_val = HWIO_xfs_in32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_FIFO);  //read from fifo
+            if ((buffer_ptr > 0) || sof) {
+                if ((buffer_len >> 2) > buffer_ptr) {
+                    LOG(logDEBUG1, ("%.8X ", fifo_val));
+                    word_ptr[buffer_ptr++] = fifo_val; // write to buffer
+                } else {
+                    buffer_ptr = 0;
+                    return -2; // buffer overflow
+                }
 
-			if ((buffer_ptr > 0) || sof)
+                if (status & PLB_LL_FIFO_STATUS_LL_EOF) {
-			{
+                    len = (buffer_ptr << 2) - 3 +
-				if ( (buffer_len >> 2) > buffer_ptr)
+                          ((status & PLB_LL_FIFO_STATUS_LL_REM) >>
-				{
+                           PLB_LL_FIFO_STATUS_LL_REM_SHIFT);
-					LOG(logDEBUG1, ("%.8X ", fifo_val));
+                    LOG(logDEBUG1, ("Len: %d\n", len));
-					word_ptr[buffer_ptr++] = fifo_val; //write to buffer
+                    buffer_ptr = 0;
-				}
+                    return len;
-				else
+                }
-				{
+            }
-					buffer_ptr = 0;
+        }
-					return -2; // buffer overflow
+    } while (!(status & PLB_LL_FIFO_STATUS_EMPTY));
-				}
 
-				if (status & PLB_LL_FIFO_STATUS_LL_EOF)
+    return 0;
-				{
-					len = (buffer_ptr << 2) -3 + ( (status & PLB_LL_FIFO_STATUS_LL_REM)>>PLB_LL_FIFO_STATUS_LL_REM_SHIFT );
-					LOG(logDEBUG1, ("Len: %d\n",len));
-					buffer_ptr = 0;
-					return len;
-				}
-
-			}
-		}
-	}
-	while(!(status & PLB_LL_FIFO_STATUS_EMPTY));
-
-	return 0;
 }
 
-int Local_ctrl_reg_write_mask(struct LocalLinkInterface* ll,unsigned int mask, unsigned int val) {
+int Local_ctrl_reg_write_mask(struct LocalLinkInterface *ll, unsigned int mask,
-	ll->ll_fifo_ctrl_reg &= (~mask);
+                              unsigned int val) {
-	ll->ll_fifo_ctrl_reg |= ( mask & val);
+    ll->ll_fifo_ctrl_reg &= (~mask);
-	HWIO_xfs_out32(ll->ll_fifo_base+4*PLB_LL_FIFO_REG_CTRL,ll->ll_fifo_ctrl_reg);
+    ll->ll_fifo_ctrl_reg |= (mask & val);
-	return 1;
+    HWIO_xfs_out32(ll->ll_fifo_base + 4 * PLB_LL_FIFO_REG_CTRL,
+                   ll->ll_fifo_ctrl_reg);
+    return 1;
 }
 
+int Local_Test(struct LocalLinkInterface *ll, unsigned int buffer_len,
+               void *buffer) {
 
-int Local_Test(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer) {
+    int len;
+    unsigned int rec_buff_len = 4096;
+    unsigned int rec_buffer[4097];
 
-	int len;
+    Local_Write(ll, buffer_len, buffer);
-	unsigned int rec_buff_len = 4096;
+    usleep(10000);
-	unsigned int rec_buffer[4097];
 
+    do {
+        len = Local_Read(ll, rec_buff_len, rec_buffer);
+        LOG(logDEBUG1, ("receive length: %i\n", len));
 
-	Local_Write(ll,buffer_len,buffer);
+        if (len > 0) {
-	usleep(10000);
+            rec_buffer[len] = 0;
+            LOG(logINFO, ("%s\n", (char *)rec_buffer));
+        }
+    } while (len > 0);
 
-	do{
+    return 1;
-		len = Local_Read(ll,rec_buff_len,rec_buffer);
-		LOG(logDEBUG1, ("receive length: %i\n",len));
-
-		if (len > 0) {
-			rec_buffer[len]=0;
-			LOG(logINFO, ("%s\n", (char*) rec_buffer));
-		}
-	} while(len > 0);
-
-	return 1;
 }
-

slsDetectorServers/eigerDetectorServer/LocalLinkInterface.h

@@ -2,20 +2,23 @@
 
 #include "HardwareIO.h"
 
-
+struct LocalLinkInterface {
-struct LocalLinkInterface{
+    xfs_u32 ll_fifo_base;
-	xfs_u32      ll_fifo_base;
+    unsigned int ll_fifo_ctrl_reg;
-	unsigned int ll_fifo_ctrl_reg;
 };
 
-int Local_Init(struct LocalLinkInterface* ll,unsigned int ll_fifo_badr);
+int Local_Init(struct LocalLinkInterface *ll, unsigned int ll_fifo_badr);
-int Local_Reset1(struct LocalLinkInterface* ll,unsigned int rst_mask);
+int Local_Reset1(struct LocalLinkInterface *ll, unsigned int rst_mask);
-int Local_ctrl_reg_write_mask(struct LocalLinkInterface* ll,unsigned int mask, unsigned int val);
+int Local_ctrl_reg_write_mask(struct LocalLinkInterface *ll, unsigned int mask,
-void Local_LocalLinkInterface1(struct LocalLinkInterface* ll,unsigned int ll_fifo_badr);
+                              unsigned int val);
-unsigned int Local_StatusVector(struct LocalLinkInterface* ll);
+void Local_LocalLinkInterface1(struct LocalLinkInterface *ll,
-int Local_Reset(struct LocalLinkInterface* ll);
+                               unsigned int ll_fifo_badr);
-int  Local_Write(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer);
+unsigned int Local_StatusVector(struct LocalLinkInterface *ll);
-int  Local_Read(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer);
+int Local_Reset(struct LocalLinkInterface *ll);
-int  Local_Test(struct LocalLinkInterface* ll,unsigned int buffer_len, void *buffer);
+int Local_Write(struct LocalLinkInterface *ll, unsigned int buffer_len,
-void Local_LocalLinkInterface(struct LocalLinkInterface* ll);
+                void *buffer);
-
+int Local_Read(struct LocalLinkInterface *ll, unsigned int buffer_len,
+               void *buffer);
+int Local_Test(struct LocalLinkInterface *ll, unsigned int buffer_len,
+               void *buffer);
+void Local_LocalLinkInterface(struct LocalLinkInterface *ll);

slsDetectorServers/eigerDetectorServer/slsDetectorServer_defs.h

@@ -1,97 +1,127 @@
 #pragma once
 #include "sls_detector_defs.h"
 
-#define REQUIRED_FIRMWARE_VERSION 	 		(24)
+#define REQUIRED_FIRMWARE_VERSION          (24)
-#define IDFILECOMMAND						"more /home/root/executables/detid.txt"
+#define IDFILECOMMAND                      "more /home/root/executables/detid.txt"
-#define FIRMWARE_VERSION_SAME_TOP_BOT_ADDR	(26)
+#define FIRMWARE_VERSION_SAME_TOP_BOT_ADDR (26)
 
-#define STATUS_IDLE		0
+#define STATUS_IDLE    0
-#define STATUS_RUNNING	1
+#define STATUS_RUNNING 1
-#define STATUS_ERROR	2
+#define STATUS_ERROR   2
 
 /* Enums */
-enum DACINDEX					 			{E_SVP,E_VTR,E_VRF,E_VRS,E_SVN,E_VTGSTV,E_VCMP_LL,E_VCMP_LR,E_CAL,E_VCMP_RL,E_RXB_RB,E_RXB_LB,E_VCMP_RR,E_VCP,E_VCN,E_VIS,E_VTHRESHOLD};
+enum DACINDEX {
-#define DEFAULT_DAC_VALS	 	 			{	\
+    E_SVP,
-									 		0, 		/* SvP		*/	\
+    E_VTR,
-								 			2480, 	/* Vtr		*/	\
+    E_VRF,
-								 			3300, 	/* Vrf		*/	\
+    E_VRS,
-								 			1400, 	/* Vrs		*/	\
+    E_SVN,
-								 			4000, 	/* SvN		*/	\
+    E_VTGSTV,
-								 			2556, 	/* Vtgstv	*/	\
+    E_VCMP_LL,
-								  			1000, 	/* Vcmp_ll	*/	\
+    E_VCMP_LR,
-								 			1000, 	/* Vcmp_lr	*/	\
+    E_CAL,
-								 			0, 		/* cal		*/	\
+    E_VCMP_RL,
-									 		1000, 	/* Vcmp_rl	*/	\
+    E_RXB_RB,
-									 		1100, 	/* rxb_rb	*/	\
+    E_RXB_LB,
-									 		1100, 	/* rxb_lb	*/	\
+    E_VCMP_RR,
-									 		1000, 	/* Vcmp_rr	*/	\
+    E_VCP,
-									 		1000, 	/* Vcp		*/	\
+    E_VCN,
-									 		2000, 	/* Vcn		*/	\
+    E_VIS,
-									 		1550 	/* Vis		*/	\
+    E_VTHRESHOLD
-									 		};
+};
-enum ADCINDEX						 		{TEMP_FPGAEXT, TEMP_10GE, TEMP_DCDC, TEMP_SODL, TEMP_SODR, TEMP_FPGA, TEMP_FPGAFEBL, TEMP_FPGAFEBR};
+#define DEFAULT_DAC_VALS                                                       \
-enum NETWORKINDEX				 			{TXN_LEFT, TXN_RIGHT, TXN_FRAME,FLOWCTRL_10G};
+    {                                                                          \
-enum ROINDEX								{E_PARALLEL, E_NON_PARALLEL};
+        0,    /* SvP		*/                                                       \
-enum CLKINDEX                      			{RUN_CLK, NUM_CLOCKS};
+        2480, /* Vtr		*/                                                       \
-#define CLK_NAMES							"run"
+        3300, /* Vrf		*/                                                       \
+        1400, /* Vrs		*/                                                       \
+        4000, /* SvN		*/                                                       \
+        2556, /* Vtgstv	*/                                                     \
+        1000, /* Vcmp_ll	*/                                                    \
+        1000, /* Vcmp_lr	*/                                                    \
+        0,    /* cal		*/                                                       \
+        1000, /* Vcmp_rl	*/                                                    \
+        1100, /* rxb_rb	*/                                                     \
+        1100, /* rxb_lb	*/                                                     \
+        1000, /* Vcmp_rr	*/                                                    \
+        1000, /* Vcp		*/                                                       \
+        2000, /* Vcn		*/                                                       \
+        1550  /* Vis		*/                                                       \
+    };
+enum ADCINDEX {
+    TEMP_FPGAEXT,
+    TEMP_10GE,
+    TEMP_DCDC,
+    TEMP_SODL,
+    TEMP_SODR,
+    TEMP_FPGA,
+    TEMP_FPGAFEBL,
+    TEMP_FPGAFEBR
+};
+enum NETWORKINDEX { TXN_LEFT, TXN_RIGHT, TXN_FRAME, FLOWCTRL_10G };
+enum ROINDEX { E_PARALLEL, E_NON_PARALLEL };
+enum CLKINDEX { RUN_CLK, NUM_CLOCKS };
+#define CLK_NAMES "run"
 
 /* Hardware Definitions */
-#define NCHAN 						 		(256 * 256)
+#define NCHAN (256 * 256)
-#define NCHIP 						 		(4)
+#define NCHIP (4)
-#define NDAC 						 		(16)
+#define NDAC  (16)
 
-
+#define TEN_GIGA_BUFFER_SIZE         (4112)
-#define TEN_GIGA_BUFFER_SIZE 				(4112)
+#define ONE_GIGA_BUFFER_SIZE         (1040)
-#define ONE_GIGA_BUFFER_SIZE 				(1040)
+#define TEN_GIGA_CONSTANT            (4)
-#define TEN_GIGA_CONSTANT	 				(4)
+#define ONE_GIGA_CONSTANT            (16)
-#define ONE_GIGA_CONSTANT 					(16)
+#define NORMAL_HIGHVOLTAGE_INPUTPORT "/sys/class/hwmon/hwmon5/device/in0_input"
-#define NORMAL_HIGHVOLTAGE_INPUTPORT 		"/sys/class/hwmon/hwmon5/device/in0_input"
+#define NORMAL_HIGHVOLTAGE_OUTPUTPORT                                          \
-#define NORMAL_HIGHVOLTAGE_OUTPUTPORT 		"/sys/class/hwmon/hwmon5/device/out0_output"
+    "/sys/class/hwmon/hwmon5/device/out0_output"
-#define SPECIAL9M_HIGHVOLTAGE_PORT 			"/dev/ttyS1"
+#define SPECIAL9M_HIGHVOLTAGE_PORT       "/dev/ttyS1"
-#define SPECIAL9M_HIGHVOLTAGE_BUFFERSIZE 	(16)
+#define SPECIAL9M_HIGHVOLTAGE_BUFFERSIZE (16)
-#define DEFAULT_UDP_SOURCE_PORT				(0xE185)
+#define DEFAULT_UDP_SOURCE_PORT          (0xE185)
 
 /** Default Parameters */
-#define DEFAULT_NUM_FRAMES					(1)
+#define DEFAULT_NUM_FRAMES            (1)
-#define DEFAULT_STARTING_FRAME_NUMBER 		(1)
+#define DEFAULT_STARTING_FRAME_NUMBER (1)
-#define DEFAULT_NUM_CYCLES					(1)
+#define DEFAULT_NUM_CYCLES            (1)
-#define DEFAULT_EXPTIME						(1E9)			//ns
+#define DEFAULT_EXPTIME               (1E9) // ns
-#define DEFAULT_PERIOD						(1E9)			//ns
+#define DEFAULT_PERIOD                (1E9) // ns
-#define DEFAULT_DELAY						(0)
+#define DEFAULT_DELAY                 (0)
-#define DEFAULT_HIGH_VOLTAGE				(0)
+#define DEFAULT_HIGH_VOLTAGE          (0)
-#define DEFAULT_SETTINGS					(DYNAMICGAIN)
+#define DEFAULT_SETTINGS              (DYNAMICGAIN)
-#define DEFAULT_SUBFRAME_EXPOSURE 			(2621440) 		// 2.6ms
+#define DEFAULT_SUBFRAME_EXPOSURE     (2621440) // 2.6ms
-#define DEFAULT_SUBFRAME_DEADTIME			(0)
+#define DEFAULT_SUBFRAME_DEADTIME     (0)
-#define DEFAULT_DYNAMIC_RANGE				(16)
+#define DEFAULT_DYNAMIC_RANGE         (16)
 
-#define DEFAULT_PARALLEL_MODE				(1)
+#define DEFAULT_PARALLEL_MODE           (1)
-#define DEFAULT_READOUT_STOREINRAM_MODE		(0)
+#define DEFAULT_READOUT_STOREINRAM_MODE (0)
-#define DEFAULT_READOUT_OVERFLOW32_MODE		(0)
+#define DEFAULT_READOUT_OVERFLOW32_MODE (0)
-#define DEFAULT_CLK_SPEED					(FULL_SPEED)
+#define DEFAULT_CLK_SPEED               (FULL_SPEED)
-#define DEFAULT_IO_DELAY					(650)
+#define DEFAULT_IO_DELAY                (650)
-#define DEFAULT_TIMING_MODE					(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE             (AUTO_TIMING)
-#define DEFAULT_PHOTON_ENERGY				(-1)
+#define DEFAULT_PHOTON_ENERGY           (-1)
-#define DEFAULT_RATE_CORRECTION				(0)
+#define DEFAULT_RATE_CORRECTION         (0)
-#define DEFAULT_EXT_GATING_ENABLE			(0)
+#define DEFAULT_EXT_GATING_ENABLE       (0)
-#define DEFAULT_EXT_GATING_POLARITY			(1)				//positive
+#define DEFAULT_EXT_GATING_POLARITY     (1) // positive
-#define DEFAULT_TEST_MODE					(0)
+#define DEFAULT_TEST_MODE               (0)
-#define DEFAULT_HIGH_VOLTAGE				(0)
+#define DEFAULT_HIGH_VOLTAGE            (0)
 
-#define MAX_TRIMBITS_VALUE					(63)
+#define MAX_TRIMBITS_VALUE (63)
 
-#define MAX_ROWS_PER_READOUT				(256)
+#define MAX_ROWS_PER_READOUT    (256)
-#define MAX_PACKETS_PER_REQUEST				(256)
+#define MAX_PACKETS_PER_REQUEST (256)
 
-#define UDP_HEADER_MAX_FRAME_VALUE          (0xFFFFFFFFFFFF)
+#define UDP_HEADER_MAX_FRAME_VALUE (0xFFFFFFFFFFFF)
 
-#define DAC_MIN_MV                          (0)
+#define DAC_MIN_MV (0)
-#define DAC_MAX_MV                          (2048)
+#define DAC_MAX_MV (2048)
-#define LTC2620_MIN_VAL                     (0)     // including LTC defines instead of LTC262.h (includes bit banging and blackfin read and write)
+#define LTC2620_MIN_VAL                                                        \
-#define LTC2620_MAX_VAL                     (4095) // 12 bits
+    (0) // including LTC defines instead of LTC262.h (includes bit banging and
-#define DAC_MAX_STEPS                       (4096)
+        // blackfin read and write)
+#define LTC2620_MAX_VAL (4095) // 12 bits
+#define DAC_MAX_STEPS   (4096)
 
-#define MAX_SUBFRAME_EXPOSURE_VAL_IN_10NS	(0x1FFFFFFF) /** 29 bit register for max subframe exposure value */
+#define MAX_SUBFRAME_EXPOSURE_VAL_IN_10NS                                      \
-
+    (0x1FFFFFFF) /** 29 bit register for max subframe exposure value */
-#define SLAVE_HIGH_VOLTAGE_READ_VAL			(-999)
-#define HIGH_VOLTAGE_TOLERANCE				(5)
 
+#define SLAVE_HIGH_VOLTAGE_READ_VAL (-999)
+#define HIGH_VOLTAGE_TOLERANCE      (5)

slsDetectorServers/eigerDetectorServer/xfs_types.h

@@ -14,35 +14,29 @@ typedef signed int xfs_i32;
 typedef signed short xfs_i16;
 typedef signed char xfs_i8;
 
-
 // UDP Header
-struct udp_header_type
+struct udp_header_type {
-{
+    // ethternet frame  (14 byte)
-  // ethternet frame  (14 byte)
+    uint8_t dst_mac[6];
-  uint8_t dst_mac[6];
+    uint8_t src_mac[6];
-  uint8_t src_mac[6];
+    uint8_t len_type[2];
-  uint8_t len_type[2];
-  
-  // ip header    (20 byte)
-  uint8_t ver_headerlen[1];
-  uint8_t service_type[1];
-  uint8_t total_length[2];
-  uint8_t identification[2];
-  uint8_t flags[1];
-  uint8_t frag_offset[1];
-  uint8_t time_to_live[1];
-  uint8_t protocol[1];
-  uint8_t ip_header_checksum[2];
-  uint8_t src_ip[4];
-  uint8_t dst_ip[4];
 
-  // udp header   (8 byte)
+    // ip header    (20 byte)
-  uint8_t src_port[2];
+    uint8_t ver_headerlen[1];
-  uint8_t dst_port[2];
+    uint8_t service_type[1];
-  uint8_t udp_message_len[2];
+    uint8_t total_length[2];
-  uint8_t udp_checksum[2];
+    uint8_t identification[2];
+    uint8_t flags[1];
+    uint8_t frag_offset[1];
+    uint8_t time_to_live[1];
+    uint8_t protocol[1];
+    uint8_t ip_header_checksum[2];
+    uint8_t src_ip[4];
+    uint8_t dst_ip[4];
 
+    // udp header   (8 byte)
+    uint8_t src_port[2];
+    uint8_t dst_port[2];
+    uint8_t udp_message_len[2];
+    uint8_t udp_checksum[2];
 };
-
-
-

slsDetectorServers/eigerDetectorServer/xparameters.h

@@ -1,4 +1,5 @@
-/* ONLY THOSE ARE USED IN THIS SOFTWARE. If one of those is modified in xilinx compilation, this file should be replaced with updated values
+/* ONLY THOSE ARE USED IN THIS SOFTWARE. If one of those is modified in xilinx
+compilation, this file should be replaced with updated values
 XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT_BASEADDR
 XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_RIGHT_BASEADDR
 XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_LEFT_BASEADDR
@@ -14,37 +15,32 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 *
 * Copyright (c) 1995-2010 Xilinx, Inc.  All rights reserved.
 
-* 
+*
 * Description: Driver parameters
 *
 *******************************************************************/
 
-#define STDIN_BASEADDRESS 0xC0000000
+#define STDIN_BASEADDRESS  0xC0000000
 #define STDOUT_BASEADDRESS 0xC0000000
 
 /******************************************************************/
 
-
 /* Definitions for peripheral BB_IO_SHIFT_REG_PPC440 */
 #define XPAR_BB_IO_SHIFT_REG_PPC440_BASEADDR 0xD3000000
 #define XPAR_BB_IO_SHIFT_REG_PPC440_HIGHADDR 0xD300FFFF
 
-
 /* Definitions for peripheral EIGER_BEB_SYNCH_IO_PPC440 */
 #define XPAR_EIGER_BEB_SYNCH_IO_PPC440_BASEADDR 0xD3100000
 #define XPAR_EIGER_BEB_SYNCH_IO_PPC440_HIGHADDR 0xD310FFFF
 
-
 /* Definitions for peripheral PLB_BRAM_10G */
 #define XPAR_PLB_BRAM_10G_MEM0_BASEADDR 0xD4100000
 #define XPAR_PLB_BRAM_10G_MEM0_HIGHADDR 0xD410FFFF
 
-
 /* Definitions for peripheral PLB_BRAM_TEMAC */
 #define XPAR_PLB_BRAM_TEMAC_MEM0_BASEADDR 0xD4000000
 #define XPAR_PLB_BRAM_TEMAC_MEM0_HIGHADDR 0xD400FFFF
 
-
 /* Definitions for peripheral PLB_GPIO_SYS */
 #define XPAR_PLB_GPIO_SYS_BASEADDR 0xD1000000
 #define XPAR_PLB_GPIO_SYS_HIGHADDR 0xD100FFFF
@@ -52,38 +48,30 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 /** Command Generator */
 #define XPAR_CMD_GENERATOR 0xC5000000
 
-
 /** Version Numbers */
-#define XPAR_VERSION 			0xc6000000
+#define XPAR_VERSION 0xc6000000
-
-
 
 /* Definitions for peripheral PLB_GPIO_TEST */
 #define XPAR_PLB_GPIO_TEST_BASEADDR 0xD1010000
 #define XPAR_PLB_GPIO_TEST_HIGHADDR 0xD101FFFF
 
 // udp header (set frame number)
-#define UDP_HEADER_FRAME_NUMBER_LSB_OFST    (0x0140)
+#define UDP_HEADER_FRAME_NUMBER_LSB_OFST (0x0140)
-#define UDP_HEADER_FRAME_NUMBER_MSB_OFST    (0x0160)
+#define UDP_HEADER_FRAME_NUMBER_MSB_OFST (0x0160)
-
-
-
 
 /* Definitions for packet, frame and delay down counters */
 #define XPAR_COUNTER_BASEADDR 0xD1020000
 #define XPAR_COUNTER_HIGHADDR 0xD102FFFF
 
 // udp header (get frame number)
-#define UDP_HEADER_GET_FNUM_1G_LEFT_LSB_OFST    (0x0004)
+#define UDP_HEADER_GET_FNUM_1G_LEFT_LSB_OFST   (0x0004)
-#define UDP_HEADER_GET_FNUM_1G_LEFT_MSB_OFST    (0x0024)
+#define UDP_HEADER_GET_FNUM_1G_LEFT_MSB_OFST   (0x0024)
-#define UDP_HEADER_GET_FNUM_1G_RIGHT_LSB_OFST   (0x0044)
+#define UDP_HEADER_GET_FNUM_1G_RIGHT_LSB_OFST  (0x0044)
-#define UDP_HEADER_GET_FNUM_1G_RIGHT_MSB_OFST   (0x0064)
+#define UDP_HEADER_GET_FNUM_1G_RIGHT_MSB_OFST  (0x0064)
-#define UDP_HEADER_GET_FNUM_10G_LEFT_LSB_OFST   (0x0084)
+#define UDP_HEADER_GET_FNUM_10G_LEFT_LSB_OFST  (0x0084)
-#define UDP_HEADER_GET_FNUM_10G_LEFT_MSB_OFST   (0x00A4)
+#define UDP_HEADER_GET_FNUM_10G_LEFT_MSB_OFST  (0x00A4)
-#define UDP_HEADER_GET_FNUM_10G_RIGHT_LSB_OFST  (0x00C4)
+#define UDP_HEADER_GET_FNUM_10G_RIGHT_LSB_OFST (0x00C4)
-#define UDP_HEADER_GET_FNUM_10G_RIGHT_MSB_OFST  (0x00E4)
+#define UDP_HEADER_GET_FNUM_10G_RIGHT_MSB_OFST (0x00E4)
-
-
 
 /* Definitions for peripheral PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT */
 #define XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR 0xC4100000
@@ -92,46 +80,37 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 /* Definitions for a new memory */
 //#define XPAR_PLB_LL_NEW_MEMORY        0xD1000000//0xD1000084//0xC4200000
 
-
 /* Definitions for peripheral PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT */
 #define XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT_BASEADDR 0xC4110000
 #define XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_RIGHT_HIGHADDR 0xC411FFFF
 
-
 /* Definitions for peripheral PLB_LL_FIFO_AURORA_RX4_TX1_LEFT */
 #define XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_LEFT_BASEADDR 0xC4120000
 #define XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_LEFT_HIGHADDR 0xC412FFFF
 
-
 /* Definitions for peripheral PLB_LL_FIFO_AURORA_RX4_TX1_RIGHT */
 #define XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_RIGHT_BASEADDR 0xC4130000
 #define XPAR_PLB_LL_FIFO_AURORA_RX4_TX1_RIGHT_HIGHADDR 0xC413FFFF
 
-
 /* Definitions for peripheral PLB_LL_FIFO_XAUI_10G */
 #define XPAR_PLB_LL_FIFO_XAUI_10G_BASEADDR 0xC4140000
 #define XPAR_PLB_LL_FIFO_XAUI_10G_HIGHADDR 0xC414FFFF
 
-
 /* Definitions for peripheral PLB_V46_CPU_TO_PLB_V46_BRIDGED */
 #define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_BRIDGE_BASEADDR 0xCFFF0000
 #define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_BRIDGE_HIGHADDR 0xCFFFFFFF
-#define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_RNG0_BASEADDR 0xD0000000
+#define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_RNG0_BASEADDR   0xD0000000
-#define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_RNG0_HIGHADDR 0xDFFFFFFF
+#define XPAR_PLB_V46_CPU_TO_PLB_V46_BRIDGED_RNG0_HIGHADDR   0xDFFFFFFF
-
 
 /* Definitions for peripheral PPC_SRAM */
 #define XPAR_PPC_SRAM_BASEADDR 0x00000000
 #define XPAR_PPC_SRAM_HIGHADDR 0x01FFFFFF
 
-
 /******************************************************************/
 
-
 /* Definitions for peripheral PFLASH */
 #define XPAR_PFLASH_NUM_BANKS_MEM 1
 
-
 /******************************************************************/
 
 /* Definitions for peripheral PFLASH */
@@ -152,15 +131,13 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 
 /* Definitions for peripheral PLB_SHT1X_IF_CH1 */
 #define XPAR_PLB_SHT1X_IF_CH1_DEVICE_ID 0
-#define XPAR_PLB_SHT1X_IF_CH1_BASEADDR 0xD2200000
+#define XPAR_PLB_SHT1X_IF_CH1_BASEADDR  0xD2200000
-#define XPAR_PLB_SHT1X_IF_CH1_HIGHADDR 0xD220FFFF
+#define XPAR_PLB_SHT1X_IF_CH1_HIGHADDR  0xD220FFFF
-
 
 /* Definitions for peripheral PLB_SHT1X_IF_CH2 */
 #define XPAR_PLB_SHT1X_IF_CH2_DEVICE_ID 1
-#define XPAR_PLB_SHT1X_IF_CH2_BASEADDR 0xD2210000
+#define XPAR_PLB_SHT1X_IF_CH2_BASEADDR  0xD2210000
-#define XPAR_PLB_SHT1X_IF_CH2_HIGHADDR 0xD221FFFF
+#define XPAR_PLB_SHT1X_IF_CH2_HIGHADDR  0xD221FFFF
-
 
 /******************************************************************/
 
@@ -168,28 +145,25 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 #define XPAR_XUARTLITE_NUM_INSTANCES 1
 
 /* Definitions for peripheral RS232 */
-#define XPAR_RS232_BASEADDR 0xC0000000
+#define XPAR_RS232_BASEADDR   0xC0000000
-#define XPAR_RS232_HIGHADDR 0xC000FFFF
+#define XPAR_RS232_HIGHADDR   0xC000FFFF
-#define XPAR_RS232_DEVICE_ID 0
+#define XPAR_RS232_DEVICE_ID  0
-#define XPAR_RS232_BAUDRATE 115200
+#define XPAR_RS232_BAUDRATE   115200
 #define XPAR_RS232_USE_PARITY 0
 #define XPAR_RS232_ODD_PARITY 0
-#define XPAR_RS232_DATA_BITS 8
+#define XPAR_RS232_DATA_BITS  8
-
 
 /******************************************************************/
 
-
 /* Canonical definitions for peripheral RS232 */
-#define XPAR_UARTLITE_0_DEVICE_ID XPAR_RS232_DEVICE_ID
+#define XPAR_UARTLITE_0_DEVICE_ID  XPAR_RS232_DEVICE_ID
-#define XPAR_UARTLITE_0_BASEADDR 0xC0000000
+#define XPAR_UARTLITE_0_BASEADDR   0xC0000000
-#define XPAR_UARTLITE_0_HIGHADDR 0xC000FFFF
+#define XPAR_UARTLITE_0_HIGHADDR   0xC000FFFF
-#define XPAR_UARTLITE_0_BAUDRATE 115200
+#define XPAR_UARTLITE_0_BAUDRATE   115200
 #define XPAR_UARTLITE_0_USE_PARITY 0
 #define XPAR_UARTLITE_0_ODD_PARITY 0
-#define XPAR_UARTLITE_0_DATA_BITS 8
+#define XPAR_UARTLITE_0_DATA_BITS  8
-#define XPAR_UARTLITE_0_SIO_CHAN 1
+#define XPAR_UARTLITE_0_SIO_CHAN   1
-
 
 /******************************************************************/
 
@@ -197,144 +171,137 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 #define XPAR_XSPI_NUM_INSTANCES 2
 
 /* Definitions for peripheral SPI_FLASH */
-#define XPAR_SPI_FLASH_DEVICE_ID 0
+#define XPAR_SPI_FLASH_DEVICE_ID         0
-#define XPAR_SPI_FLASH_BASEADDR 0xD2000000
+#define XPAR_SPI_FLASH_BASEADDR          0xD2000000
-#define XPAR_SPI_FLASH_HIGHADDR 0xD200FFFF
+#define XPAR_SPI_FLASH_HIGHADDR          0xD200FFFF
-#define XPAR_SPI_FLASH_FIFO_EXIST 1
+#define XPAR_SPI_FLASH_FIFO_EXIST        1
-#define XPAR_SPI_FLASH_SPI_SLAVE_ONLY 0
+#define XPAR_SPI_FLASH_SPI_SLAVE_ONLY    0
-#define XPAR_SPI_FLASH_NUM_SS_BITS 1
+#define XPAR_SPI_FLASH_NUM_SS_BITS       1
 #define XPAR_SPI_FLASH_NUM_TRANSFER_BITS 8
 
-
 /* Definitions for peripheral XPS_SPI_FEB_CFG */
-#define XPAR_XPS_SPI_FEB_CFG_DEVICE_ID 1
+#define XPAR_XPS_SPI_FEB_CFG_DEVICE_ID         1
-#define XPAR_XPS_SPI_FEB_CFG_BASEADDR 0xD2010000
+#define XPAR_XPS_SPI_FEB_CFG_BASEADDR          0xD2010000
-#define XPAR_XPS_SPI_FEB_CFG_HIGHADDR 0xD201FFFF
+#define XPAR_XPS_SPI_FEB_CFG_HIGHADDR          0xD201FFFF
-#define XPAR_XPS_SPI_FEB_CFG_FIFO_EXIST 1
+#define XPAR_XPS_SPI_FEB_CFG_FIFO_EXIST        1
-#define XPAR_XPS_SPI_FEB_CFG_SPI_SLAVE_ONLY 0
+#define XPAR_XPS_SPI_FEB_CFG_SPI_SLAVE_ONLY    0
-#define XPAR_XPS_SPI_FEB_CFG_NUM_SS_BITS 2
+#define XPAR_XPS_SPI_FEB_CFG_NUM_SS_BITS       2
 #define XPAR_XPS_SPI_FEB_CFG_NUM_TRANSFER_BITS 8
 
-
 /******************************************************************/
 
-
 /* Canonical definitions for peripheral SPI_FLASH */
-#define XPAR_SPI_0_DEVICE_ID XPAR_SPI_FLASH_DEVICE_ID
+#define XPAR_SPI_0_DEVICE_ID         XPAR_SPI_FLASH_DEVICE_ID
-#define XPAR_SPI_0_BASEADDR 0xD2000000
+#define XPAR_SPI_0_BASEADDR          0xD2000000
-#define XPAR_SPI_0_HIGHADDR 0xD200FFFF
+#define XPAR_SPI_0_HIGHADDR          0xD200FFFF
-#define XPAR_SPI_0_FIFO_EXIST 1
+#define XPAR_SPI_0_FIFO_EXIST        1
-#define XPAR_SPI_0_SPI_SLAVE_ONLY 0
+#define XPAR_SPI_0_SPI_SLAVE_ONLY    0
-#define XPAR_SPI_0_NUM_SS_BITS 1
+#define XPAR_SPI_0_NUM_SS_BITS       1
 #define XPAR_SPI_0_NUM_TRANSFER_BITS 8
 
-
 /* Canonical definitions for peripheral XPS_SPI_FEB_CFG */
-#define XPAR_SPI_1_DEVICE_ID XPAR_XPS_SPI_FEB_CFG_DEVICE_ID
+#define XPAR_SPI_1_DEVICE_ID         XPAR_XPS_SPI_FEB_CFG_DEVICE_ID
-#define XPAR_SPI_1_BASEADDR 0xD2010000
+#define XPAR_SPI_1_BASEADDR          0xD2010000
-#define XPAR_SPI_1_HIGHADDR 0xD201FFFF
+#define XPAR_SPI_1_HIGHADDR          0xD201FFFF
-#define XPAR_SPI_1_FIFO_EXIST 1
+#define XPAR_SPI_1_FIFO_EXIST        1
-#define XPAR_SPI_1_SPI_SLAVE_ONLY 0
+#define XPAR_SPI_1_SPI_SLAVE_ONLY    0
-#define XPAR_SPI_1_NUM_SS_BITS 2
+#define XPAR_SPI_1_NUM_SS_BITS       2
 #define XPAR_SPI_1_NUM_TRANSFER_BITS 8
 
-
 /******************************************************************/
 
 /* Definitions for driver LLTEMAC */
 #define XPAR_XLLTEMAC_NUM_INSTANCES 1
 
 /* Definitions for peripheral TEMAC_INST Channel 0 */
-#define XPAR_TEMAC_INST_CHAN_0_DEVICE_ID 0
+#define XPAR_TEMAC_INST_CHAN_0_DEVICE_ID    0
-#define XPAR_TEMAC_INST_CHAN_0_BASEADDR 0xC3000000
+#define XPAR_TEMAC_INST_CHAN_0_BASEADDR     0xC3000000
-#define XPAR_TEMAC_INST_CHAN_0_HIGHADDR 0xC30FFFFF
+#define XPAR_TEMAC_INST_CHAN_0_HIGHADDR     0xC30FFFFF
-#define XPAR_TEMAC_INST_CHAN_0_TXCSUM 0
+#define XPAR_TEMAC_INST_CHAN_0_TXCSUM       0
-#define XPAR_TEMAC_INST_CHAN_0_RXCSUM 0
+#define XPAR_TEMAC_INST_CHAN_0_RXCSUM       0
-#define XPAR_TEMAC_INST_CHAN_0_PHY_TYPE 4
+#define XPAR_TEMAC_INST_CHAN_0_PHY_TYPE     4
-#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_TRAN 0
+#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_TRAN  0
-#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_TRAN 0
+#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_TRAN  0
-#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_TAG 0
+#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_TAG   0
-#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_TAG 0
+#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_TAG   0
-#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_STRP 0
+#define XPAR_TEMAC_INST_CHAN_0_TXVLAN_STRP  0
-#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_STRP 0
+#define XPAR_TEMAC_INST_CHAN_0_RXVLAN_STRP  0
 #define XPAR_TEMAC_INST_CHAN_0_MCAST_EXTEND 0
 
 /* Canonical definitions for peripheral TEMAC_INST Channel 0 */
-#define XPAR_LLTEMAC_0_DEVICE_ID 0
+#define XPAR_LLTEMAC_0_DEVICE_ID    0
-#define XPAR_LLTEMAC_0_BASEADDR 0xC3000000
+#define XPAR_LLTEMAC_0_BASEADDR     0xC3000000
-#define XPAR_LLTEMAC_0_HIGHADDR 0xC30FFFFF
+#define XPAR_LLTEMAC_0_HIGHADDR     0xC30FFFFF
-#define XPAR_LLTEMAC_0_TXCSUM 0
+#define XPAR_LLTEMAC_0_TXCSUM       0
-#define XPAR_LLTEMAC_0_RXCSUM 0
+#define XPAR_LLTEMAC_0_RXCSUM       0
-#define XPAR_LLTEMAC_0_PHY_TYPE 4
+#define XPAR_LLTEMAC_0_PHY_TYPE     4
-#define XPAR_LLTEMAC_0_TXVLAN_TRAN 0
+#define XPAR_LLTEMAC_0_TXVLAN_TRAN  0
-#define XPAR_LLTEMAC_0_RXVLAN_TRAN 0
+#define XPAR_LLTEMAC_0_RXVLAN_TRAN  0
-#define XPAR_LLTEMAC_0_TXVLAN_TAG 0
+#define XPAR_LLTEMAC_0_TXVLAN_TAG   0
-#define XPAR_LLTEMAC_0_RXVLAN_TAG 0
+#define XPAR_LLTEMAC_0_RXVLAN_TAG   0
-#define XPAR_LLTEMAC_0_TXVLAN_STRP 0
+#define XPAR_LLTEMAC_0_TXVLAN_STRP  0
-#define XPAR_LLTEMAC_0_RXVLAN_STRP 0
+#define XPAR_LLTEMAC_0_RXVLAN_STRP  0
 #define XPAR_LLTEMAC_0_MCAST_EXTEND 0
-#define XPAR_LLTEMAC_0_INTR 1
+#define XPAR_LLTEMAC_0_INTR         1
-
 
 /* LocalLink TYPE Enumerations */
-#define XPAR_LL_FIFO    1
+#define XPAR_LL_FIFO 1
-#define XPAR_LL_DMA     2
+#define XPAR_LL_DMA  2
-
 
 /* Canonical LocalLink parameters for TEMAC_INST */
 
-
 /******************************************************************/
 
-
 /* Definitions for peripheral XPS_BRAM_IF_CNTLR_PPC440 */
 #define XPAR_XPS_BRAM_IF_CNTLR_PPC440_BASEADDR 0xFFFC0000
 #define XPAR_XPS_BRAM_IF_CNTLR_PPC440_HIGHADDR 0xFFFFFFFF
 
-
 /******************************************************************/
 
 #define XPAR_INTC_MAX_NUM_INTR_INPUTS 5
-#define XPAR_XINTC_HAS_IPR 1
+#define XPAR_XINTC_HAS_IPR            1
-#define XPAR_XINTC_USE_DCR 0
+#define XPAR_XINTC_USE_DCR            0
 /* Definitions for driver INTC */
 #define XPAR_XINTC_NUM_INSTANCES 1
 
 /* Definitions for peripheral XPS_INTC_PPC440 */
-#define XPAR_XPS_INTC_PPC440_DEVICE_ID 0
+#define XPAR_XPS_INTC_PPC440_DEVICE_ID    0
-#define XPAR_XPS_INTC_PPC440_BASEADDR 0xC1000000
+#define XPAR_XPS_INTC_PPC440_BASEADDR     0xC1000000
-#define XPAR_XPS_INTC_PPC440_HIGHADDR 0xC100FFFF
+#define XPAR_XPS_INTC_PPC440_HIGHADDR     0xC100FFFF
 #define XPAR_XPS_INTC_PPC440_KIND_OF_INTR 0xFFFFFFF4
 
-
 /******************************************************************/
 
-#define XPAR_INTC_SINGLE_BASEADDR 0xC1000000
+#define XPAR_INTC_SINGLE_BASEADDR                                0xC1000000
-#define XPAR_INTC_SINGLE_HIGHADDR 0xC100FFFF
+#define XPAR_INTC_SINGLE_HIGHADDR                                0xC100FFFF
-#define XPAR_INTC_SINGLE_DEVICE_ID XPAR_XPS_INTC_PPC440_DEVICE_ID
+#define XPAR_INTC_SINGLE_DEVICE_ID                               XPAR_XPS_INTC_PPC440_DEVICE_ID
-#define XPAR_XPS_LL_FIFO_TEMAC_IP2INTC_IRPT_MASK 0X000001
+#define XPAR_XPS_LL_FIFO_TEMAC_IP2INTC_IRPT_MASK                 0X000001
 #define XPAR_XPS_INTC_PPC440_XPS_LL_FIFO_TEMAC_IP2INTC_IRPT_INTR 0
-#define XPAR_TEMAC_INST_TEMACINTC0_IRPT_MASK 0X000002
+#define XPAR_TEMAC_INST_TEMACINTC0_IRPT_MASK                     0X000002
-#define XPAR_XPS_INTC_PPC440_TEMAC_INST_TEMACINTC0_IRPT_INTR 1
+#define XPAR_XPS_INTC_PPC440_TEMAC_INST_TEMACINTC0_IRPT_INTR     1
-#define XPAR_XPS_TIMER_PPC440_INTERRUPT_MASK 0X000004
+#define XPAR_XPS_TIMER_PPC440_INTERRUPT_MASK                     0X000004
-#define XPAR_XPS_INTC_PPC440_XPS_TIMER_PPC440_INTERRUPT_INTR 2
+#define XPAR_XPS_INTC_PPC440_XPS_TIMER_PPC440_INTERRUPT_INTR     2
-#define XPAR_SPI_FLASH_IP2INTC_IRPT_MASK 0X000008
+#define XPAR_SPI_FLASH_IP2INTC_IRPT_MASK                         0X000008
-#define XPAR_XPS_INTC_PPC440_SPI_FLASH_IP2INTC_IRPT_INTR 3
+#define XPAR_XPS_INTC_PPC440_SPI_FLASH_IP2INTC_IRPT_INTR         3
-#define XPAR_RS232_INTERRUPT_MASK 0X000010
+#define XPAR_RS232_INTERRUPT_MASK                                0X000010
-#define XPAR_XPS_INTC_PPC440_RS232_INTERRUPT_INTR 4
+#define XPAR_XPS_INTC_PPC440_RS232_INTERRUPT_INTR                4
 
 /******************************************************************/
 
 /* Canonical definitions for peripheral XPS_INTC_PPC440 */
-#define XPAR_INTC_0_DEVICE_ID XPAR_XPS_INTC_PPC440_DEVICE_ID
+#define XPAR_INTC_0_DEVICE_ID    XPAR_XPS_INTC_PPC440_DEVICE_ID
-#define XPAR_INTC_0_BASEADDR 0xC1000000
+#define XPAR_INTC_0_BASEADDR     0xC1000000
-#define XPAR_INTC_0_HIGHADDR 0xC100FFFF
+#define XPAR_INTC_0_HIGHADDR     0xC100FFFF
 #define XPAR_INTC_0_KIND_OF_INTR 0xFFFFFFF4
 
-#define XPAR_INTC_0_LLFIFO_0_VEC_ID XPAR_XPS_INTC_PPC440_XPS_LL_FIFO_TEMAC_IP2INTC_IRPT_INTR
+#define XPAR_INTC_0_LLFIFO_0_VEC_ID                                            \
-#define XPAR_INTC_0_LLTEMAC_0_VEC_ID XPAR_XPS_INTC_PPC440_TEMAC_INST_TEMACINTC0_IRPT_INTR
+    XPAR_XPS_INTC_PPC440_XPS_LL_FIFO_TEMAC_IP2INTC_IRPT_INTR
-#define XPAR_INTC_0_TMRCTR_0_VEC_ID XPAR_XPS_INTC_PPC440_XPS_TIMER_PPC440_INTERRUPT_INTR
+#define XPAR_INTC_0_LLTEMAC_0_VEC_ID                                           \
-#define XPAR_INTC_0_SPI_0_VEC_ID XPAR_XPS_INTC_PPC440_SPI_FLASH_IP2INTC_IRPT_INTR
+    XPAR_XPS_INTC_PPC440_TEMAC_INST_TEMACINTC0_IRPT_INTR
+#define XPAR_INTC_0_TMRCTR_0_VEC_ID                                            \
+    XPAR_XPS_INTC_PPC440_XPS_TIMER_PPC440_INTERRUPT_INTR
+#define XPAR_INTC_0_SPI_0_VEC_ID                                               \
+    XPAR_XPS_INTC_PPC440_SPI_FLASH_IP2INTC_IRPT_INTR
 #define XPAR_INTC_0_UARTLITE_0_VEC_ID XPAR_XPS_INTC_PPC440_RS232_INTERRUPT_INTR
 
 /******************************************************************/
@@ -344,17 +311,15 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 
 /* Definitions for peripheral XPS_LL_FIFO_TEMAC */
 #define XPAR_XPS_LL_FIFO_TEMAC_DEVICE_ID 0
-#define XPAR_XPS_LL_FIFO_TEMAC_BASEADDR 0xC4000000
+#define XPAR_XPS_LL_FIFO_TEMAC_BASEADDR  0xC4000000
-#define XPAR_XPS_LL_FIFO_TEMAC_HIGHADDR 0xC400FFFF
+#define XPAR_XPS_LL_FIFO_TEMAC_HIGHADDR  0xC400FFFF
-
 
 /******************************************************************/
 
 /* Canonical definitions for peripheral XPS_LL_FIFO_TEMAC */
 #define XPAR_LLFIFO_0_DEVICE_ID XPAR_XPS_LL_FIFO_TEMAC_DEVICE_ID
-#define XPAR_LLFIFO_0_BASEADDR 0xC4000000
+#define XPAR_LLFIFO_0_BASEADDR  0xC4000000
-#define XPAR_LLFIFO_0_HIGHADDR 0xC400FFFF
+#define XPAR_LLFIFO_0_HIGHADDR  0xC400FFFF
-
 
 /******************************************************************/
 
@@ -362,22 +327,19 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 #define XPAR_XSYSMON_NUM_INSTANCES 1
 
 /* Definitions for peripheral XPS_SYSMON_ADC_PPC440 */
-#define XPAR_XPS_SYSMON_ADC_PPC440_DEVICE_ID 0
+#define XPAR_XPS_SYSMON_ADC_PPC440_DEVICE_ID    0
-#define XPAR_XPS_SYSMON_ADC_PPC440_BASEADDR 0xD0010000
+#define XPAR_XPS_SYSMON_ADC_PPC440_BASEADDR     0xD0010000
-#define XPAR_XPS_SYSMON_ADC_PPC440_HIGHADDR 0xD001FFFF
+#define XPAR_XPS_SYSMON_ADC_PPC440_HIGHADDR     0xD001FFFF
 #define XPAR_XPS_SYSMON_ADC_PPC440_INCLUDE_INTR 1
 
-
 /******************************************************************/
 
-
 /* Canonical definitions for peripheral XPS_SYSMON_ADC_PPC440 */
-#define XPAR_SYSMON_0_DEVICE_ID XPAR_XPS_SYSMON_ADC_PPC440_DEVICE_ID
+#define XPAR_SYSMON_0_DEVICE_ID    XPAR_XPS_SYSMON_ADC_PPC440_DEVICE_ID
-#define XPAR_SYSMON_0_BASEADDR 0xD0010000
+#define XPAR_SYSMON_0_BASEADDR     0xD0010000
-#define XPAR_SYSMON_0_HIGHADDR 0xD001FFFF
+#define XPAR_SYSMON_0_HIGHADDR     0xD001FFFF
 #define XPAR_SYSMON_0_INCLUDE_INTR 1
 
-
 /******************************************************************/
 
 /* Definitions for driver TMRCTR */
@@ -385,18 +347,15 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 
 /* Definitions for peripheral XPS_TIMER_PPC440 */
 #define XPAR_XPS_TIMER_PPC440_DEVICE_ID 0
-#define XPAR_XPS_TIMER_PPC440_BASEADDR 0xC2000000
+#define XPAR_XPS_TIMER_PPC440_BASEADDR  0xC2000000
-#define XPAR_XPS_TIMER_PPC440_HIGHADDR 0xC200FFFF
+#define XPAR_XPS_TIMER_PPC440_HIGHADDR  0xC200FFFF
-
 
 /******************************************************************/
 
-
 /* Canonical definitions for peripheral XPS_TIMER_PPC440 */
 #define XPAR_TMRCTR_0_DEVICE_ID XPAR_XPS_TIMER_PPC440_DEVICE_ID
-#define XPAR_TMRCTR_0_BASEADDR 0xC2000000
+#define XPAR_TMRCTR_0_BASEADDR  0xC2000000
-#define XPAR_TMRCTR_0_HIGHADDR 0xC200FFFF
+#define XPAR_TMRCTR_0_HIGHADDR  0xC200FFFF
-
 
 /******************************************************************/
 
@@ -408,149 +367,148 @@ XPAR_PLB_LL_FIFO_AURORA_DUAL_CTRL_FEB_LEFT_BASEADDR
 #define XPAR_PROC_BUS_0_FREQ_HZ 100000000
 /******************************************************************/
 
-#define XPAR_CPU_PPC440_CORE_CLOCK_FREQ_HZ 400000000
+#define XPAR_CPU_PPC440_CORE_CLOCK_FREQ_HZ     400000000
 #define XPAR_PPC440_VIRTEX5_CORE_CLOCK_FREQ_HZ 400000000
-#define XPAR_CPU_PPC440_IDCR_BASEADDR 0x00000000
+#define XPAR_CPU_PPC440_IDCR_BASEADDR          0x00000000
 /******************************************************************/
-#define XPAR_CPU_ID 0
+#define XPAR_CPU_ID                                     0
-#define XPAR_PPC440_VIRTEX5_ID 0
+#define XPAR_PPC440_VIRTEX5_ID                          0
-#define XPAR_PPC440_VIRTEX5_PIR 0b1111
+#define XPAR_PPC440_VIRTEX5_PIR                         0b1111
-#define XPAR_PPC440_VIRTEX5_ENDIAN_RESET 0
+#define XPAR_PPC440_VIRTEX5_ENDIAN_RESET                0
-#define XPAR_PPC440_VIRTEX5_USER_RESET 0b0000
+#define XPAR_PPC440_VIRTEX5_USER_RESET                  0b0000
-#define XPAR_PPC440_VIRTEX5_INTERCONNECT_IMASK 0xffffffff
+#define XPAR_PPC440_VIRTEX5_INTERCONNECT_IMASK          0xffffffff
-#define XPAR_PPC440_VIRTEX5_ICU_RD_FETCH_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_ICU_RD_FETCH_PLB_PRIO       0b00
-#define XPAR_PPC440_VIRTEX5_ICU_RD_SPEC_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_ICU_RD_SPEC_PLB_PRIO        0b00
-#define XPAR_PPC440_VIRTEX5_ICU_RD_TOUCH_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_ICU_RD_TOUCH_PLB_PRIO       0b00
-#define XPAR_PPC440_VIRTEX5_DCU_RD_LD_CACHE_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_RD_LD_CACHE_PLB_PRIO    0b00
-#define XPAR_PPC440_VIRTEX5_DCU_RD_NONCACHE_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_RD_NONCACHE_PLB_PRIO    0b00
-#define XPAR_PPC440_VIRTEX5_DCU_RD_TOUCH_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_RD_TOUCH_PLB_PRIO       0b00
-#define XPAR_PPC440_VIRTEX5_DCU_RD_URGENT_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_RD_URGENT_PLB_PRIO      0b00
-#define XPAR_PPC440_VIRTEX5_DCU_WR_FLUSH_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_WR_FLUSH_PLB_PRIO       0b00
-#define XPAR_PPC440_VIRTEX5_DCU_WR_STORE_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_WR_STORE_PLB_PRIO       0b00
-#define XPAR_PPC440_VIRTEX5_DCU_WR_URGENT_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DCU_WR_URGENT_PLB_PRIO      0b00
-#define XPAR_PPC440_VIRTEX5_DMA0_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DMA0_PLB_PRIO               0b00
-#define XPAR_PPC440_VIRTEX5_DMA1_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DMA1_PLB_PRIO               0b00
-#define XPAR_PPC440_VIRTEX5_DMA2_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DMA2_PLB_PRIO               0b00
-#define XPAR_PPC440_VIRTEX5_DMA3_PLB_PRIO 0b00
+#define XPAR_PPC440_VIRTEX5_DMA3_PLB_PRIO               0b00
-#define XPAR_PPC440_VIRTEX5_IDCR_BASEADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_IDCR_BASEADDR               0x00000000
-#define XPAR_PPC440_VIRTEX5_IDCR_HIGHADDR 0x000000FF
+#define XPAR_PPC440_VIRTEX5_IDCR_HIGHADDR               0x000000FF
-#define XPAR_PPC440_VIRTEX5_APU_CONTROL 0b00010000000000000
+#define XPAR_PPC440_VIRTEX5_APU_CONTROL                 0b00010000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_0 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_0                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_1 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_1                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_2 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_2                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_3 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_3                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_4 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_4                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_5 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_5                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_6 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_6                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_7 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_7                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_8 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_8                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_9 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_9                   0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_10 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_10                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_11 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_11                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_12 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_12                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_13 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_13                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_14 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_14                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_APU_UDI_15 0b000000000000000000000000
+#define XPAR_PPC440_VIRTEX5_APU_UDI_15                  0b000000000000000000000000
-#define XPAR_PPC440_VIRTEX5_PPC440MC_ADDR_BASE 0x00000000
+#define XPAR_PPC440_VIRTEX5_PPC440MC_ADDR_BASE          0x00000000
-#define XPAR_PPC440_VIRTEX5_PPC440MC_ADDR_HIGH 0X01FFFFFF
+#define XPAR_PPC440_VIRTEX5_PPC440MC_ADDR_HIGH          0X01FFFFFF
-#define XPAR_PPC440_VIRTEX5_PPC440MC_ROW_CONFLICT_MASK 0x00000000
+#define XPAR_PPC440_VIRTEX5_PPC440MC_ROW_CONFLICT_MASK  0x00000000
 #define XPAR_PPC440_VIRTEX5_PPC440MC_BANK_CONFLICT_MASK 0x00000000
-#define XPAR_PPC440_VIRTEX5_PPC440MC_CONTROL 0X8140008F
+#define XPAR_PPC440_VIRTEX5_PPC440MC_CONTROL            0X8140008F
-#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_ICU 4
+#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_ICU           4
-#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_DCUW 3
+#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_DCUW          3
-#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_DCUR 2
+#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_DCUR          2
-#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_SPLB1 0
+#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_SPLB1         0
-#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_SPLB0 1
+#define XPAR_PPC440_VIRTEX5_PPC440MC_PRIO_SPLB0         1
-#define XPAR_PPC440_VIRTEX5_PPC440MC_ARB_MODE 0
+#define XPAR_PPC440_VIRTEX5_PPC440MC_ARB_MODE           0
-#define XPAR_PPC440_VIRTEX5_PPC440MC_MAX_BURST 8
+#define XPAR_PPC440_VIRTEX5_PPC440MC_MAX_BURST          8
-#define XPAR_PPC440_VIRTEX5_MPLB_AWIDTH 32
+#define XPAR_PPC440_VIRTEX5_MPLB_AWIDTH                 32
-#define XPAR_PPC440_VIRTEX5_MPLB_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_MPLB_DWIDTH                 128
-#define XPAR_PPC440_VIRTEX5_MPLB_NATIVE_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_MPLB_NATIVE_DWIDTH          128
-#define XPAR_PPC440_VIRTEX5_MPLB_COUNTER 0x00000500
+#define XPAR_PPC440_VIRTEX5_MPLB_COUNTER                0x00000500
-#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_ICU 4
+#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_ICU               4
-#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_DCUW 3
+#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_DCUW              3
-#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_DCUR 2
+#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_DCUR              2
-#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_SPLB1 0
+#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_SPLB1             0
-#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_SPLB0 1
+#define XPAR_PPC440_VIRTEX5_MPLB_PRIO_SPLB0             1
-#define XPAR_PPC440_VIRTEX5_MPLB_ARB_MODE 0
+#define XPAR_PPC440_VIRTEX5_MPLB_ARB_MODE               0
-#define XPAR_PPC440_VIRTEX5_MPLB_SYNC_TATTRIBUTE 0
+#define XPAR_PPC440_VIRTEX5_MPLB_SYNC_TATTRIBUTE        0
-#define XPAR_PPC440_VIRTEX5_MPLB_MAX_BURST 8
+#define XPAR_PPC440_VIRTEX5_MPLB_MAX_BURST              8
-#define XPAR_PPC440_VIRTEX5_MPLB_ALLOW_LOCK_XFER 1
+#define XPAR_PPC440_VIRTEX5_MPLB_ALLOW_LOCK_XFER        1
-#define XPAR_PPC440_VIRTEX5_MPLB_READ_PIPE_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_MPLB_READ_PIPE_ENABLE       1
-#define XPAR_PPC440_VIRTEX5_MPLB_WRITE_PIPE_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_MPLB_WRITE_PIPE_ENABLE      1
-#define XPAR_PPC440_VIRTEX5_MPLB_WRITE_POST_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_MPLB_WRITE_POST_ENABLE      1
-#define XPAR_PPC440_VIRTEX5_MPLB_P2P 0
+#define XPAR_PPC440_VIRTEX5_MPLB_P2P                    0
-#define XPAR_PPC440_VIRTEX5_MPLB_WDOG_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_MPLB_WDOG_ENABLE            1
-#define XPAR_PPC440_VIRTEX5_SPLB0_AWIDTH 32
+#define XPAR_PPC440_VIRTEX5_SPLB0_AWIDTH                32
-#define XPAR_PPC440_VIRTEX5_SPLB0_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_SPLB0_DWIDTH                128
-#define XPAR_PPC440_VIRTEX5_SPLB0_NATIVE_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_SPLB0_NATIVE_DWIDTH         128
-#define XPAR_PPC440_VIRTEX5_SPLB0_SUPPORT_BURSTS 1
+#define XPAR_PPC440_VIRTEX5_SPLB0_SUPPORT_BURSTS        1
-#define XPAR_PPC440_VIRTEX5_SPLB0_USE_MPLB_ADDR 0
+#define XPAR_PPC440_VIRTEX5_SPLB0_USE_MPLB_ADDR         0
-#define XPAR_PPC440_VIRTEX5_SPLB0_NUM_MPLB_ADDR_RNG 0
+#define XPAR_PPC440_VIRTEX5_SPLB0_NUM_MPLB_ADDR_RNG     0
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG_MC_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG_MC_BASEADDR       0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG_MC_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG_MC_HIGHADDR       0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG0_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG0_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG0_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG0_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG1_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG1_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG1_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG1_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG2_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG2_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG2_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG2_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG3_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG3_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB0_RNG3_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB0_RNG3_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB0_NUM_MASTERS 1
+#define XPAR_PPC440_VIRTEX5_SPLB0_NUM_MASTERS           1
-#define XPAR_PPC440_VIRTEX5_SPLB0_MID_WIDTH 1
+#define XPAR_PPC440_VIRTEX5_SPLB0_MID_WIDTH             1
-#define XPAR_PPC440_VIRTEX5_SPLB0_ALLOW_LOCK_XFER 1
+#define XPAR_PPC440_VIRTEX5_SPLB0_ALLOW_LOCK_XFER       1
-#define XPAR_PPC440_VIRTEX5_SPLB0_READ_PIPE_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_SPLB0_READ_PIPE_ENABLE      1
-#define XPAR_PPC440_VIRTEX5_SPLB0_PROPAGATE_MIRQ 0
+#define XPAR_PPC440_VIRTEX5_SPLB0_PROPAGATE_MIRQ        0
-#define XPAR_PPC440_VIRTEX5_SPLB0_P2P -1
+#define XPAR_PPC440_VIRTEX5_SPLB0_P2P                   -1
-#define XPAR_PPC440_VIRTEX5_SPLB1_AWIDTH 32
+#define XPAR_PPC440_VIRTEX5_SPLB1_AWIDTH                32
-#define XPAR_PPC440_VIRTEX5_SPLB1_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_SPLB1_DWIDTH                128
-#define XPAR_PPC440_VIRTEX5_SPLB1_NATIVE_DWIDTH 128
+#define XPAR_PPC440_VIRTEX5_SPLB1_NATIVE_DWIDTH         128
-#define XPAR_PPC440_VIRTEX5_SPLB1_SUPPORT_BURSTS 1
+#define XPAR_PPC440_VIRTEX5_SPLB1_SUPPORT_BURSTS        1
-#define XPAR_PPC440_VIRTEX5_SPLB1_USE_MPLB_ADDR 0
+#define XPAR_PPC440_VIRTEX5_SPLB1_USE_MPLB_ADDR         0
-#define XPAR_PPC440_VIRTEX5_SPLB1_NUM_MPLB_ADDR_RNG 0
+#define XPAR_PPC440_VIRTEX5_SPLB1_NUM_MPLB_ADDR_RNG     0
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG_MC_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG_MC_BASEADDR       0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG_MC_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG_MC_HIGHADDR       0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG0_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG0_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG0_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG0_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG1_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG1_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG1_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG1_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG2_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG2_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG2_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG2_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG3_MPLB_BASEADDR 0xFFFFFFFF
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG3_MPLB_BASEADDR    0xFFFFFFFF
-#define XPAR_PPC440_VIRTEX5_SPLB1_RNG3_MPLB_HIGHADDR 0x00000000
+#define XPAR_PPC440_VIRTEX5_SPLB1_RNG3_MPLB_HIGHADDR    0x00000000
-#define XPAR_PPC440_VIRTEX5_SPLB1_NUM_MASTERS 1
+#define XPAR_PPC440_VIRTEX5_SPLB1_NUM_MASTERS           1
-#define XPAR_PPC440_VIRTEX5_SPLB1_MID_WIDTH 1
+#define XPAR_PPC440_VIRTEX5_SPLB1_MID_WIDTH             1
-#define XPAR_PPC440_VIRTEX5_SPLB1_ALLOW_LOCK_XFER 1
+#define XPAR_PPC440_VIRTEX5_SPLB1_ALLOW_LOCK_XFER       1
-#define XPAR_PPC440_VIRTEX5_SPLB1_READ_PIPE_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_SPLB1_READ_PIPE_ENABLE      1
-#define XPAR_PPC440_VIRTEX5_SPLB1_PROPAGATE_MIRQ 0
+#define XPAR_PPC440_VIRTEX5_SPLB1_PROPAGATE_MIRQ        0
-#define XPAR_PPC440_VIRTEX5_SPLB1_P2P -1
+#define XPAR_PPC440_VIRTEX5_SPLB1_P2P                   -1
-#define XPAR_PPC440_VIRTEX5_NUM_DMA 0
+#define XPAR_PPC440_VIRTEX5_NUM_DMA                     0
-#define XPAR_PPC440_VIRTEX5_DMA0_TXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA0_TXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA0_RXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA0_RXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA0_CONTROL 0b00000000
+#define XPAR_PPC440_VIRTEX5_DMA0_CONTROL                0b00000000
-#define XPAR_PPC440_VIRTEX5_DMA0_TXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA0_TXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA0_RXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA0_RXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA1_TXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA1_TXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA1_RXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA1_RXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA1_CONTROL 0b00000000
+#define XPAR_PPC440_VIRTEX5_DMA1_CONTROL                0b00000000
-#define XPAR_PPC440_VIRTEX5_DMA1_TXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA1_TXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA1_RXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA1_RXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA2_TXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA2_TXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA2_RXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA2_RXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA2_CONTROL 0b00000000
+#define XPAR_PPC440_VIRTEX5_DMA2_CONTROL                0b00000000
-#define XPAR_PPC440_VIRTEX5_DMA2_TXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA2_TXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA2_RXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA2_RXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA3_TXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA3_TXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA3_RXCHANNELCTRL 0x01010000
+#define XPAR_PPC440_VIRTEX5_DMA3_RXCHANNELCTRL          0x01010000
-#define XPAR_PPC440_VIRTEX5_DMA3_CONTROL 0b00000000
+#define XPAR_PPC440_VIRTEX5_DMA3_CONTROL                0b00000000
-#define XPAR_PPC440_VIRTEX5_DMA3_TXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA3_TXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DMA3_RXIRQTIMER 0b1111111111
+#define XPAR_PPC440_VIRTEX5_DMA3_RXIRQTIMER             0b1111111111
-#define XPAR_PPC440_VIRTEX5_DCR_AUTOLOCK_ENABLE 1
+#define XPAR_PPC440_VIRTEX5_DCR_AUTOLOCK_ENABLE         1
-#define XPAR_PPC440_VIRTEX5_PPCDM_ASYNCMODE 0
+#define XPAR_PPC440_VIRTEX5_PPCDM_ASYNCMODE             0
-#define XPAR_PPC440_VIRTEX5_PPCDS_ASYNCMODE 0
+#define XPAR_PPC440_VIRTEX5_PPCDS_ASYNCMODE             0
-#define XPAR_PPC440_VIRTEX5_GENERATE_PLB_TIMESPECS 1
+#define XPAR_PPC440_VIRTEX5_GENERATE_PLB_TIMESPECS      1
-#define XPAR_PPC440_VIRTEX5_HW_VER "1.01.a"
+#define XPAR_PPC440_VIRTEX5_HW_VER                      "1.01.a"
 
 /******************************************************************/
-

slsDetectorServers/gotthard2DetectorServer/RegisterDefs.h

@@ -1,251 +1,256 @@
 #pragma once
 
-
+#define REG_OFFSET (4)
-#define REG_OFFSET                      (4)
-
 
 /* Base addresses 0x1804 0000 ---------------------------------------------*/
 /* Reconfiguration core for readout pll */
-#define BASE_READOUT_PLL                (0x0000) // 0x1804_0000 - 0x1804_07FF
+#define BASE_READOUT_PLL (0x0000) // 0x1804_0000 - 0x1804_07FF
 /* Reconfiguration core for system pll */
-#define BASE_SYSTEM_PLL                 (0x0800) // 0x1804_0800 - 0x1804_0FFF
+#define BASE_SYSTEM_PLL (0x0800) // 0x1804_0800 - 0x1804_0FFF
 /* Clock Generation */
-#define BASE_CLK_GENERATION             (0x1000) // 0x1804_1000 - 0x1804_XXXX //TODO
+#define BASE_CLK_GENERATION (0x1000) // 0x1804_1000 - 0x1804_XXXX //TODO
 
 /* Base addresses 0x1806 0000 ---------------------------------------------*/
 /* General purpose control and status registers */
-#define BASE_CONTROL                    (0x0000) // 0x1806_0000 - 0x1806_00FF 
+#define BASE_CONTROL (0x0000) // 0x1806_0000 - 0x1806_00FF
 // https://git.psi.ch/sls_detectors_firmware/gotthard_II_mcb/blob/master/code/hdl/ctrl/ctrl.vhd
 
 /* ASIC Control */
-#define BASE_ASIC                       (0x0100) // 0x1806_0100 - 0x1806_011F 
+#define BASE_ASIC (0x0100) // 0x1806_0100 - 0x1806_011F
 // https://git.psi.ch/sls_detectors_firmware/gotthard_II_mcb/blob/master/code/hdl/asic/asic_ctrl.vhd
 
 /* ASIC Digital Interface. Data recovery core */
-#define BASE_ADIF                       (0x0120) // 0x1806_0120 - 0x1806_012F 
+#define BASE_ADIF (0x0120) // 0x1806_0120 - 0x1806_012F
 // https://git.psi.ch/sls_detectors_firmware/gotthard_II_mcb/blob/master/code/hdl/adif/adif_ctrl.vhd
 
 /* Formatting of data core */
-#define BASE_FMT                        (0x0130) // 0x1806_0130 - 0x1806_013F
+#define BASE_FMT (0x0130) // 0x1806_0130 - 0x1806_013F
 
 /* Packetizer */
-#define BASE_PKT                        (0x0140) // 0x1806_0140 - 0x1806_014F
+#define BASE_PKT (0x0140) // 0x1806_0140 - 0x1806_014F
 // https://git.psi.ch/sls_detectors_firmware/gotthard_II_mcb/blob/master/code/hdl/pkt/pkt_ctrl.vhd
 
 /* Flow control and status registers */
-#define BASE_FLOW_CONTROL               (0x00200) // 0x1806_0200 - 0x1806_02FF  
+#define BASE_FLOW_CONTROL (0x00200) // 0x1806_0200 - 0x1806_02FF
 // https://git.psi.ch/sls_detectors_firmware/vhdl_library/blob/f37608230b4721661f29aacc20124555705ee705/flow/flow_ctrl.vhd
 
 /* UDP datagram generator */
-#define BASE_UDP_RAM                    (0x01000) // 0x1806_1000 - 0x1806_1FFF
+#define BASE_UDP_RAM (0x01000) // 0x1806_1000 - 0x1806_1FFF
-
-
-
-/* Clock Generation registers ------------------------------------------------------*/
-#define PLL_RESET_REG                   (0x00 * REG_OFFSET + BASE_CLK_GENERATION)
-
-#define PLL_RESET_READOUT_OFST          (0)
-#define PLL_RESET_READOUT_MSK           (0x00000001 << PLL_RESET_READOUT_OFST)
-#define PLL_RESET_SYSTEM_OFST           (1)
-#define PLL_RESET_SYSTEM_MSK            (0x00000001 << PLL_RESET_SYSTEM_OFST)
 
+/* Clock Generation registers
+ * ------------------------------------------------------*/
+#define PLL_RESET_REG (0x00 * REG_OFFSET + BASE_CLK_GENERATION)
 
+#define PLL_RESET_READOUT_OFST (0)
+#define PLL_RESET_READOUT_MSK  (0x00000001 << PLL_RESET_READOUT_OFST)
+#define PLL_RESET_SYSTEM_OFST  (1)
+#define PLL_RESET_SYSTEM_MSK   (0x00000001 << PLL_RESET_SYSTEM_OFST)
 
 /* Control registers --------------------------------------------------*/
 
 /* Module Control Board Serial Number register */
-#define MCB_SERIAL_NO_REG               (0x00 * REG_OFFSET + BASE_CONTROL)
+#define MCB_SERIAL_NO_REG (0x00 * REG_OFFSET + BASE_CONTROL)
 
-#define MCB_SERIAL_NO_VRSN_OFST			(16)
+#define MCB_SERIAL_NO_VRSN_OFST (16)
-#define MCB_SERIAL_NO_VRSN_MSK      	(0x0000001F << MCB_SERIAL_NO_VRSN_OFST)
+#define MCB_SERIAL_NO_VRSN_MSK  (0x0000001F << MCB_SERIAL_NO_VRSN_OFST)
 
 /* FPGA Version register */
-#define FPGA_VERSION_REG                (0x01 * REG_OFFSET + BASE_CONTROL)
+#define FPGA_VERSION_REG (0x01 * REG_OFFSET + BASE_CONTROL)
 
-#define FPGA_COMPILATION_DATE_OFST		(0)
+#define FPGA_COMPILATION_DATE_OFST (0)
-#define FPGA_COMPILATION_DATE_MSK		(0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
+#define FPGA_COMPILATION_DATE_MSK  (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
-#define DETECTOR_TYPE_OFST   			(24)
+#define DETECTOR_TYPE_OFST         (24)
-#define DETECTOR_TYPE_MSK   			(0x000000FF << DETECTOR_TYPE_OFST)
+#define DETECTOR_TYPE_MSK          (0x000000FF << DETECTOR_TYPE_OFST)
 
 /* API Version register */
-#define API_VERSION_REG                 (0x02 * REG_OFFSET + BASE_CONTROL)
+#define API_VERSION_REG (0x02 * REG_OFFSET + BASE_CONTROL)
 
-#define API_VERSION_OFST                (0)
+#define API_VERSION_OFST               (0)
-#define API_VERSION_MSK                 (0x00FFFFFF << API_VERSION_OFST)
+#define API_VERSION_MSK                (0x00FFFFFF << API_VERSION_OFST)
-#define API_VERSION_DETECTOR_TYPE_OFST  (24)                                            //Not used in software
+#define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software
-#define API_VERSION_DETECTOR_TYPE_MSK   (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST)  //Not used in software
+#define API_VERSION_DETECTOR_TYPE_MSK                                          \
+    (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
 
 /* Fix pattern register */
-#define FIX_PATT_REG             	    (0x03 * REG_OFFSET + BASE_CONTROL)
+#define FIX_PATT_REG (0x03 * REG_OFFSET + BASE_CONTROL)
-#define FIX_PATT_VAL                    (0xACDC2019)
+#define FIX_PATT_VAL (0xACDC2019)
 
 /* Status register */
-#define STATUS_REG                      (0x04 * REG_OFFSET + BASE_CONTROL)
+#define STATUS_REG (0x04 * REG_OFFSET + BASE_CONTROL)
 
 /* Look at me read only register */
-#define LOOK_AT_ME_REG          		(0x05 * REG_OFFSET + BASE_CONTROL)	
+#define LOOK_AT_ME_REG (0x05 * REG_OFFSET + BASE_CONTROL)
 
 /* System status register */
-#define SYSTEM_STATUS_REG          		(0x06 * REG_OFFSET + BASE_CONTROL)	
+#define SYSTEM_STATUS_REG (0x06 * REG_OFFSET + BASE_CONTROL)
 
 /* Config RW regiseter */
-#define CONFIG_REG                      (0x20 * REG_OFFSET + BASE_CONTROL)
+#define CONFIG_REG (0x20 * REG_OFFSET + BASE_CONTROL)
 
-/* Control RW register */ 
+/* Control RW register */
-#define CONTROL_REG           			(0x21 * REG_OFFSET + BASE_CONTROL)
+#define CONTROL_REG (0x21 * REG_OFFSET + BASE_CONTROL)
 
-#define CONTROL_STRT_ACQSTN_OFST       	(0)
+#define CONTROL_STRT_ACQSTN_OFST       (0)
-#define CONTROL_STRT_ACQSTN_MSK			(0x00000001 << CONTROL_STRT_ACQSTN_OFST)
+#define CONTROL_STRT_ACQSTN_MSK        (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
-#define CONTROL_STP_ACQSTN_OFST			(1)
+#define CONTROL_STP_ACQSTN_OFST        (1)
-#define CONTROL_STP_ACQSTN_MSK			(0x00000001 << CONTROL_STP_ACQSTN_OFST)
+#define CONTROL_STP_ACQSTN_MSK         (0x00000001 << CONTROL_STP_ACQSTN_OFST)
-#define CONTROL_CRE_RST_OFST			(10)
+#define CONTROL_CRE_RST_OFST           (10)
-#define CONTROL_CRE_RST_MSK			    (0x00000001 << CONTROL_CRE_RST_OFST)
+#define CONTROL_CRE_RST_MSK            (0x00000001 << CONTROL_CRE_RST_OFST)
-#define CONTROL_PRPHRL_RST_OFST		    (11)										// Only GBE10?
+#define CONTROL_PRPHRL_RST_OFST        (11) // Only GBE10?
-#define CONTROL_PRPHRL_RST_MSK		    (0x00000001 << CONTROL_PRPHRL_RST_OFST)
+#define CONTROL_PRPHRL_RST_MSK         (0x00000001 << CONTROL_PRPHRL_RST_OFST)
-#define CONTROL_CLR_ACQSTN_FIFO_OFST    (15)
+#define CONTROL_CLR_ACQSTN_FIFO_OFST   (15)
-#define CONTROL_CLR_ACQSTN_FIFO_MSK		(0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
+#define CONTROL_CLR_ACQSTN_FIFO_MSK    (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
-#define CONTROL_TIMING_SOURCE_EXT_OFST  (17)
+#define CONTROL_TIMING_SOURCE_EXT_OFST (17)
-#define CONTROL_TIMING_SOURCE_EXT_MSK   (0x00000001 << CONTROL_TIMING_SOURCE_EXT_OFST)
+#define CONTROL_TIMING_SOURCE_EXT_MSK                                          \
-#define CONTROL_PWR_CHIP_OFST           (31)
+    (0x00000001 << CONTROL_TIMING_SOURCE_EXT_OFST)
-#define CONTROL_PWR_CHIP_MSK    		(0x00000001 << CONTROL_PWR_CHIP_OFST)
+#define CONTROL_PWR_CHIP_OFST (31)
+#define CONTROL_PWR_CHIP_MSK  (0x00000001 << CONTROL_PWR_CHIP_OFST)
 
 /** DTA Offset Register */
-#define DTA_OFFSET_REG                  (0x24 * REG_OFFSET + BASE_CONTROL)
+#define DTA_OFFSET_REG (0x24 * REG_OFFSET + BASE_CONTROL)
-
-
 
 /* ASIC registers --------------------------------------------------*/
 
 /* ASIC Config register */
-#define ASIC_CONFIG_REG                 (0x00 * REG_OFFSET + BASE_ASIC)
+#define ASIC_CONFIG_REG (0x00 * REG_OFFSET + BASE_ASIC)
 
-#define ASIC_CONFIG_RUN_MODE_OFST       (0)
+#define ASIC_CONFIG_RUN_MODE_OFST (0)
-#define ASIC_CONFIG_RUN_MODE_MSK        (0x00000003 << ASIC_CONFIG_RUN_MODE_OFST)
+#define ASIC_CONFIG_RUN_MODE_MSK  (0x00000003 << ASIC_CONFIG_RUN_MODE_OFST)
-#define ASIC_CONFIG_RUN_MODE_INT_BURST_VAL  ((0x1 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK) 
+#define ASIC_CONFIG_RUN_MODE_INT_BURST_VAL                                     \
-#define ASIC_CONFIG_RUN_MODE_CONT_VAL       ((0x2 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK)
+    ((0x1 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK)
-#define ASIC_CONFIG_RUN_MODE_EXT_BURST_VAL  ((0x3 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK)
+#define ASIC_CONFIG_RUN_MODE_CONT_VAL                                          \
-#define ASIC_CONFIG_GAIN_OFST           (4)
+    ((0x2 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK)
-#define ASIC_CONFIG_GAIN_MSK            (0x00000003 << ASIC_CONFIG_GAIN_OFST)
+#define ASIC_CONFIG_RUN_MODE_EXT_BURST_VAL                                     \
-#define ASIC_CONFIG_DYNAMIC_GAIN_VAL    ((0x0 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK) 
+    ((0x3 << ASIC_CONFIG_RUN_MODE_OFST) & ASIC_CONFIG_RUN_MODE_MSK)
-#define ASIC_CONFIG_FIX_GAIN_1_VAL      ((0x1 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK) 
+#define ASIC_CONFIG_GAIN_OFST (4)
-#define ASIC_CONFIG_FIX_GAIN_2_VAL      ((0x2 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK) 
+#define ASIC_CONFIG_GAIN_MSK  (0x00000003 << ASIC_CONFIG_GAIN_OFST)
-#define ASIC_CONFIG_RESERVED_VAL        ((0x3 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK) 
+#define ASIC_CONFIG_DYNAMIC_GAIN_VAL                                           \
+    ((0x0 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK)
+#define ASIC_CONFIG_FIX_GAIN_1_VAL                                             \
+    ((0x1 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK)
+#define ASIC_CONFIG_FIX_GAIN_2_VAL                                             \
+    ((0x2 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK)
+#define ASIC_CONFIG_RESERVED_VAL                                               \
+    ((0x3 << ASIC_CONFIG_GAIN_OFST) & ASIC_CONFIG_GAIN_MSK)
 #define ASIC_CONFIG_CURRENT_SRC_EN_OFST (7)
-#define ASIC_CONFIG_CURRENT_SRC_EN_MSK  (0x00000001 << ASIC_CONFIG_CURRENT_SRC_EN_OFST)
+#define ASIC_CONFIG_CURRENT_SRC_EN_MSK                                         \
-#define ASIC_CONFIG_RST_DAC_OFST        (15)
+    (0x00000001 << ASIC_CONFIG_CURRENT_SRC_EN_OFST)
-#define ASIC_CONFIG_RST_DAC_MSK         (0x00000001 << ASIC_CONFIG_RST_DAC_OFST)
+#define ASIC_CONFIG_RST_DAC_OFST (15)
-#define ASIC_CONFIG_DONE_OFST           (31)
+#define ASIC_CONFIG_RST_DAC_MSK  (0x00000001 << ASIC_CONFIG_RST_DAC_OFST)
-#define ASIC_CONFIG_DONE_MSK            (0x00000001 << ASIC_CONFIG_DONE_OFST)
+#define ASIC_CONFIG_DONE_OFST    (31)
+#define ASIC_CONFIG_DONE_MSK     (0x00000001 << ASIC_CONFIG_DONE_OFST)
 
 /* ASIC Internal Frames Register */
-#define ASIC_INT_FRAMES_REG             (0x01 * REG_OFFSET + BASE_ASIC)
+#define ASIC_INT_FRAMES_REG (0x01 * REG_OFFSET + BASE_ASIC)
 
-#define ASIC_INT_FRAMES_OFST            (0)
+#define ASIC_INT_FRAMES_OFST (0)
-#define ASIC_INT_FRAMES_MSK             (0x00000FFF << ASIC_INT_FRAMES_OFST)
+#define ASIC_INT_FRAMES_MSK  (0x00000FFF << ASIC_INT_FRAMES_OFST)
 
 /* ASIC Period 64bit Register */
-#define ASIC_INT_PERIOD_LSB_REG         (0x02 * REG_OFFSET + BASE_ASIC)
+#define ASIC_INT_PERIOD_LSB_REG (0x02 * REG_OFFSET + BASE_ASIC)
-#define ASIC_INT_PERIOD_MSB_REG         (0x03 * REG_OFFSET + BASE_ASIC)
+#define ASIC_INT_PERIOD_MSB_REG (0x03 * REG_OFFSET + BASE_ASIC)
 
 /* ASIC Exptime 64bit Register */
-#define ASIC_INT_EXPTIME_LSB_REG        (0x04 * REG_OFFSET + BASE_ASIC)
+#define ASIC_INT_EXPTIME_LSB_REG (0x04 * REG_OFFSET + BASE_ASIC)
-#define ASIC_INT_EXPTIME_MSB_REG        (0x05 * REG_OFFSET + BASE_ASIC)
+#define ASIC_INT_EXPTIME_MSB_REG (0x05 * REG_OFFSET + BASE_ASIC)
-
-
 
 /* Packetizer -------------------------------------------------------------*/
 
 /* Packetizer Config Register */
-#define PKT_CONFIG_REG                  (0x00 * REG_OFFSET + BASE_PKT)
+#define PKT_CONFIG_REG (0x00 * REG_OFFSET + BASE_PKT)
 
-#define PKT_CONFIG_NRXR_MAX_OFST        (0)
+#define PKT_CONFIG_NRXR_MAX_OFST     (0)
-#define PKT_CONFIG_NRXR_MAX_MSK         (0x0000003F << PKT_CONFIG_NRXR_MAX_OFST)
+#define PKT_CONFIG_NRXR_MAX_MSK      (0x0000003F << PKT_CONFIG_NRXR_MAX_OFST)
-#define PKT_CONFIG_RXR_START_ID_OFST    (8)
+#define PKT_CONFIG_RXR_START_ID_OFST (8)
-#define PKT_CONFIG_RXR_START_ID_MSK     (0x0000003F << PKT_CONFIG_RXR_START_ID_OFST)
+#define PKT_CONFIG_RXR_START_ID_MSK  (0x0000003F << PKT_CONFIG_RXR_START_ID_OFST)
 
 /* Module Coordinates Register */
-#define COORD_0_REG                     (0x02 * REG_OFFSET + BASE_PKT)
+#define COORD_0_REG    (0x02 * REG_OFFSET + BASE_PKT)
-#define COORD_ROW_OFST			        (0)
+#define COORD_ROW_OFST (0)
-#define COORD_ROW_MSK				    (0x0000FFFF << COORD_ROW_OFST)
+#define COORD_ROW_MSK  (0x0000FFFF << COORD_ROW_OFST)
-#define COORD_COL_OFST			        (16)
+#define COORD_COL_OFST (16)
-#define COORD_COL_MSK				    (0x0000FFFF << COORD_COL_OFST)
+#define COORD_COL_MSK  (0x0000FFFF << COORD_COL_OFST)
 
 /* Module ID Register */
-#define COORD_1_REG                     (0x03 * REG_OFFSET + BASE_PKT)
+#define COORD_1_REG         (0x03 * REG_OFFSET + BASE_PKT)
-#define COORD_RESERVED_OFST			    (0)
+#define COORD_RESERVED_OFST (0)
-#define COORD_RESERVED_MSK		        (0x0000FFFF << COORD_RESERVED_OFST)
+#define COORD_RESERVED_MSK  (0x0000FFFF << COORD_RESERVED_OFST)
-#define COORD_ID_OFST			        (16)                            // Not connected in firmware TODO
+#define COORD_ID_OFST       (16) // Not connected in firmware TODO
-#define COORD_ID_MSK				    (0x0000FFFF << COORD_ID_OFST)   // Not connected in firmware TODO
+#define COORD_ID_MSK                                                           \
-
+    (0x0000FFFF << COORD_ID_OFST) // Not connected in firmware TODO
 
 /* Flow control registers --------------------------------------------------*/
 
 /* Flow status Register*/
-#define FLOW_STATUS_REG                 (0x00 * REG_OFFSET  + BASE_FLOW_CONTROL)
+#define FLOW_STATUS_REG (0x00 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 #define FLOW_STATUS_RUN_BUSY_OFST       (0)
-#define FLOW_STATUS_RUN_BUSY_MSK		(0x00000001 << FLOW_STATUS_RUN_BUSY_OFST)
+#define FLOW_STATUS_RUN_BUSY_MSK        (0x00000001 << FLOW_STATUS_RUN_BUSY_OFST)
 #define FLOW_STATUS_WAIT_FOR_TRGGR_OFST (3)
-#define FLOW_STATUS_WAIT_FOR_TRGGR_MSK	(0x00000001 << FLOW_STATUS_WAIT_FOR_TRGGR_OFST)
+#define FLOW_STATUS_WAIT_FOR_TRGGR_MSK                                         \
+    (0x00000001 << FLOW_STATUS_WAIT_FOR_TRGGR_OFST)
 #define FLOW_STATUS_DLY_BFRE_TRGGR_OFST (4)
-#define FLOW_STATUS_DLY_BFRE_TRGGR_MSK	(0x00000001 << FLOW_STATUS_DLY_BFRE_TRGGR_OFST)
+#define FLOW_STATUS_DLY_BFRE_TRGGR_MSK                                         \
+    (0x00000001 << FLOW_STATUS_DLY_BFRE_TRGGR_OFST)
 #define FLOW_STATUS_FIFO_FULL_OFST      (5)
-#define FLOW_STATUS_FIFO_FULL_MSK		(0x00000001 << FLOW_STATUS_FIFO_FULL_OFST)
+#define FLOW_STATUS_FIFO_FULL_MSK       (0x00000001 << FLOW_STATUS_FIFO_FULL_OFST)
 #define FLOW_STATUS_DLY_AFTR_TRGGR_OFST (15)
-#define FLOW_STATUS_DLY_AFTR_TRGGR_MSK	(0x00000001 << FLOW_STATUS_DLY_AFTR_TRGGR_OFST)
+#define FLOW_STATUS_DLY_AFTR_TRGGR_MSK                                         \
-#define FLOW_STATUS_CSM_BUSY_OFST       (17)
+    (0x00000001 << FLOW_STATUS_DLY_AFTR_TRGGR_OFST)
-#define FLOW_STATUS_CSM_BUSY_MSK		(0x00000001 << FLOW_STATUS_CSM_BUSY_OFST)
+#define FLOW_STATUS_CSM_BUSY_OFST (17)
+#define FLOW_STATUS_CSM_BUSY_MSK  (0x00000001 << FLOW_STATUS_CSM_BUSY_OFST)
 
 /* Delay left 64bit Register */
-#define GET_DELAY_LSB_REG               (0x02 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_DELAY_LSB_REG (0x02 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define GET_DELAY_MSB_REG               (0x03 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_DELAY_MSB_REG (0x03 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Triggers left 64bit Register */
-#define GET_CYCLES_LSB_REG              (0x04 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_CYCLES_LSB_REG (0x04 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define GET_CYCLES_MSB_REG              (0x05 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_CYCLES_MSB_REG (0x05 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Frames left 64bit Register */
-#define GET_FRAMES_LSB_REG              (0x06 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_FRAMES_LSB_REG (0x06 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define GET_FRAMES_MSB_REG              (0x07 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_FRAMES_MSB_REG (0x07 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Period left 64bit Register */
-#define GET_PERIOD_LSB_REG              (0x08 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_PERIOD_LSB_REG (0x08 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define GET_PERIOD_MSB_REG              (0x09 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define GET_PERIOD_MSB_REG (0x09 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Time from Start 64 bit register */
-#define TIME_FROM_START_LSB_REG   		(0x0A * REG_OFFSET + BASE_FLOW_CONTROL)
+#define TIME_FROM_START_LSB_REG (0x0A * REG_OFFSET + BASE_FLOW_CONTROL)
-#define TIME_FROM_START_MSB_REG   		(0x0B * REG_OFFSET + BASE_FLOW_CONTROL)
+#define TIME_FROM_START_MSB_REG (0x0B * REG_OFFSET + BASE_FLOW_CONTROL)
 
-/* Get Frames from Start 64 bit register (frames from last reset using CONTROL_CRST) */
+/* Get Frames from Start 64 bit register (frames from last reset using
-#define FRAMES_FROM_START_LSB_REG	    (0x0C * REG_OFFSET + BASE_FLOW_CONTROL)
+ * CONTROL_CRST) */
-#define FRAMES_FROM_START_MSB_REG 	    (0x0D * REG_OFFSET + BASE_FLOW_CONTROL)
+#define FRAMES_FROM_START_LSB_REG (0x0C * REG_OFFSET + BASE_FLOW_CONTROL)
+#define FRAMES_FROM_START_MSB_REG (0x0D * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Measurement Time 64 bit register (timestamp at a frame start until reset)*/
-#define START_FRAME_TIME_LSB_REG		(0x0E * REG_OFFSET + BASE_FLOW_CONTROL)
+#define START_FRAME_TIME_LSB_REG (0x0E * REG_OFFSET + BASE_FLOW_CONTROL)
-#define START_FRAME_TIME_MSB_REG 		(0x0F * REG_OFFSET + BASE_FLOW_CONTROL)
+#define START_FRAME_TIME_MSB_REG (0x0F * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Delay 64bit Write-register */
-#define SET_DELAY_LSB_REG               (0x22 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_DELAY_LSB_REG (0x22 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define SET_DELAY_MSB_REG               (0x23 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_DELAY_MSB_REG (0x23 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Cylces (also #bursts) 64bit Write-register */
-#define SET_CYCLES_LSB_REG              (0x24 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_CYCLES_LSB_REG (0x24 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define SET_CYCLES_MSB_REG              (0x25 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_CYCLES_MSB_REG (0x25 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Frames 64bit Write-register */
-#define SET_FRAMES_LSB_REG              (0x26 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_FRAMES_LSB_REG (0x26 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define SET_FRAMES_MSB_REG              (0x27 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_FRAMES_MSB_REG (0x27 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* Period (also burst period) 64bit Write-register */
-#define SET_PERIOD_LSB_REG              (0x28 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_PERIOD_LSB_REG (0x28 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define SET_PERIOD_MSB_REG              (0x29 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_PERIOD_MSB_REG (0x29 * REG_OFFSET + BASE_FLOW_CONTROL)
 
 /* External Signal register */
-#define EXT_SIGNAL_REG        			(0x30 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define EXT_SIGNAL_REG (0x30 * REG_OFFSET + BASE_FLOW_CONTROL)
 
-#define EXT_SIGNAL_OFST                 (0)
+#define EXT_SIGNAL_OFST (0)
-#define EXT_SIGNAL_MSK		            (0x00000001 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK  (0x00000001 << EXT_SIGNAL_OFST)
 
 /* Trigger Delay 64 bit register */
-#define SET_TRIGGER_DELAY_LSB_REG       (0x32 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_TRIGGER_DELAY_LSB_REG (0x32 * REG_OFFSET + BASE_FLOW_CONTROL)
-#define SET_TRIGGER_DELAY_MSB_REG       (0x33 * REG_OFFSET + BASE_FLOW_CONTROL)
+#define SET_TRIGGER_DELAY_MSB_REG (0x33 * REG_OFFSET + BASE_FLOW_CONTROL)

slsDetectorServers/gotthard2DetectorServer/slsDetectorServer_defs.h

@@ -1,143 +1,159 @@
 #pragma once
 #include "sls_detector_defs.h"
 
-#define REQRD_FRMWRE_VRSN     		(0x190000)
+#define REQRD_FRMWRE_VRSN (0x190000)
 
-#define CTRL_SRVR_INIT_TIME_US      (300 * 1000)
+#define CTRL_SRVR_INIT_TIME_US (300 * 1000)
 
 /* Hardware Definitions */
-#define NCHAN 						(128)
+#define NCHAN                       (128)
-#define NCHIP 						(10)
+#define NCHIP                       (10)
-#define NDAC 						(16)
+#define NDAC                        (16)
-#define NADC						(32)
+#define NADC                        (32)
-#define ONCHIP_NDAC 				(7)
+#define ONCHIP_NDAC                 (7)
-#define DYNAMIC_RANGE               (16) 
+#define DYNAMIC_RANGE               (16)
 #define HV_SOFT_MAX_VOLTAGE         (200)
 #define HV_HARD_MAX_VOLTAGE         (530)
 #define HV_DRIVER_FILE_NAME         ("/etc/devlinks/hvdac")
 #define DAC_DRIVER_FILE_NAME        ("/etc/devlinks/dac")
 #define ONCHIP_DAC_DRIVER_FILE_NAME ("/etc/devlinks/chipdac")
-#define TYPE_FILE_NAME				("/etc/devlinks/type")
+#define TYPE_FILE_NAME              ("/etc/devlinks/type")
 #define CONFIG_FILE                 ("config.txt")
 #define DAC_MAX_MV                  (2048)
-#define ONCHIP_DAC_MAX_VAL			(0x3FF)
+#define ONCHIP_DAC_MAX_VAL          (0x3FF)
-#define ADU_MAX_VAL					(0xFFF)
+#define ADU_MAX_VAL                 (0xFFF)
-#define ADU_MAX_BITS				(12)
+#define ADU_MAX_BITS                (12)
-#define MAX_FRAMES_IN_BURST_MODE	(2720)
+#define MAX_FRAMES_IN_BURST_MODE    (2720)
-#define TYPE_GOTTHARD2_MODULE_VAL	(512)
+#define TYPE_GOTTHARD2_MODULE_VAL   (512)
-#define TYPE_TOLERANCE				(10)
+#define TYPE_TOLERANCE              (10)
-#define TYPE_NO_MODULE_STARTING_VAL	(800)
+#define TYPE_NO_MODULE_STARTING_VAL (800)
-#define INITIAL_STARTUP_WAIT		(1 * 1000 * 1000)
+#define INITIAL_STARTUP_WAIT        (1 * 1000 * 1000)
 
 /** Default Parameters */
-#define DEFAULT_BURST_MODE			(BURST_INTERNAL)
+#define DEFAULT_BURST_MODE          (BURST_INTERNAL)
-#define DEFAULT_NUM_FRAMES			(1)
+#define DEFAULT_NUM_FRAMES          (1)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES          (1)
-#define DEFAULT_NUM_BURSTS			(1)
+#define DEFAULT_NUM_BURSTS          (1)
-#define DEFAULT_EXPTIME				(0)	        // 0 ms (220ns in firmware)
+#define DEFAULT_EXPTIME             (0) // 0 ms (220ns in firmware)
-#define DEFAULT_PERIOD				(0)			// 0 ms
+#define DEFAULT_PERIOD              (0) // 0 ms
 #define DEFAULT_DELAY_AFTER_TRIGGER (0)
-#define DEFAULT_BURST_PERIOD		(0)
+#define DEFAULT_BURST_PERIOD        (0)
-#define DEFAULT_HIGH_VOLTAGE		(0)
+#define DEFAULT_HIGH_VOLTAGE        (0)
-#define DEFAULT_TIMING_MODE			(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE         (AUTO_TIMING)
-#define DEFAULT_SETTINGS			(DYNAMICGAIN)
+#define DEFAULT_SETTINGS            (DYNAMICGAIN)
-#define DEFAULT_CURRENT_SOURCE		(0)
+#define DEFAULT_CURRENT_SOURCE      (0)
-#define DEFAULT_TIMING_SOURCE		(TIMING_INTERNAL)
+#define DEFAULT_TIMING_SOURCE       (TIMING_INTERNAL)
 
-#define DEFAULT_READOUT_C0          (144444448) // rdo_clk, 144 MHz  
+#define DEFAULT_READOUT_C0 (8)  //(108333336) // rdo_clk, 108 MHz
-#define DEFAULT_READOUT_C1          (144444448) // rdo_x2_clk, 144 MHz  
+#define DEFAULT_READOUT_C1 (8)  //(108333336) // rdo_x2_clk, 108 MHz
-#define DEFAULT_SYSTEM_C0			(144444448) // run_clk, 144 MHz 
+#define DEFAULT_SYSTEM_C0  (5)  //(144444448) // run_clk, 144 MHz
-#define DEFAULT_SYSTEM_C1			(72222224) // chip_clk, 72 MHz 
+#define DEFAULT_SYSTEM_C1  (10) //(72222224) // chip_clk, 72 MHz
-#define DEFAULT_SYSTEM_C2			(18055556) // sync_clk, 18 MHz 
+#define DEFAULT_SYSTEM_C2  (5)  //(144444448) // sync_clk, 144 MHz
-#define DEFAULT_SYSTEM_C3			(144444448) // str_clk, 144 MHz
+#define DEFAULT_SYSTEM_C3  (5)  //(144444448) // str_clk, 144 MHz
 
 /* Firmware Definitions */
-#define IP_HEADER_SIZE              (20)
+#define IP_HEADER_SIZE          (20)
-#define FIXED_PLL_FREQUENCY			(20000000) // 20MHz
+#define FIXED_PLL_FREQUENCY     (20000000)  // 20MHz
-#define INT_SYSTEM_C0_FREQUENCY		(144000000) //144 MHz
+#define INT_SYSTEM_C0_FREQUENCY (144000000) // 144 MHz
-#define READOUT_PLL_VCO_FREQ_HZ     (866666688) // 866 MHz 
+#define READOUT_PLL_VCO_FREQ_HZ (866666688) // 866 MHz
-#define SYSTEM_PLL_VCO_FREQ_HZ      (722222224) // 722 MHz
+#define SYSTEM_PLL_VCO_FREQ_HZ  (722222224) // 722 MHz
 
 /** Other Definitions */
-#define BIT16_MASK					(0xFFFF)
+#define BIT16_MASK (0xFFFF)
 
 /* Enums */
-enum DACINDEX				        {G2_VREF_H_ADC, /* 0 */		\
+enum DACINDEX {
-									G2_DAC_UNUSED,  /* 1 */		\
+    G2_VREF_H_ADC,   /* 0 */
-									G2_VB_COMP_FE,  /* 2 */		\
+    G2_DAC_UNUSED,   /* 1 */
-        							G2_VB_COMP_ADC, /* 3 */		\
+    G2_VB_COMP_FE,   /* 2 */
-        							G2_VCOM_CDS,    /* 4 */		\
+    G2_VB_COMP_ADC,  /* 3 */
-        							G2_VREF_RSTORE,/* 5 */		\
+    G2_VCOM_CDS,     /* 4 */
-        							G2_VB_OPA_1ST,  /* 6 */		\
+    G2_VREF_RSTORE,  /* 5 */
-        							G2_VREF_COMP_FE,/* 7 */		\
+    G2_VB_OPA_1ST,   /* 6 */
-        							G2_VCOM_ADC1,   /* 8 */		\
+    G2_VREF_COMP_FE, /* 7 */
-        							G2_VREF_PRECH,  /* 9 */		\
+    G2_VCOM_ADC1,    /* 8 */
-        							G2_VREF_L_ADC,  /* 10 */ 	\
+    G2_VREF_PRECH,   /* 9 */
-        							G2_VREF_CDS,    /* 11 */	\
+    G2_VREF_L_ADC,   /* 10 */
-        							G2_VB_CS,       /* 12 */	\
+    G2_VREF_CDS,     /* 11 */
-        							G2_VB_OPA_FD,   /* 13 */	\
+    G2_VB_CS,        /* 12 */
-		  							G2_DAC_UNUSED2, /* 14 */	\
+    G2_VB_OPA_FD,    /* 13 */
-        							G2_VCOM_ADC2    /* 15*/		\
+    G2_DAC_UNUSED2,  /* 14 */
-									};  
+    G2_VCOM_ADC2     /* 15*/
-#define  DAC_NAMES					"vref_h_adc", "dac_unused", "vb_comp_fe", "vb_comp_adc", "vcom_cds", "vref_rstore", "vb_opa_1st", "vref_comp_fe", "vcom_adc1", "vref_prech", "vref_l_adc", "vref_cds", "vb_cs", "vb_opa_fd", "dac_unused2", "vcom_adc2"
+};
-									
+#define DAC_NAMES                                                              \
-enum ONCHIP_DACINDEX				{G2_VCHIP_COMP_FE, 		/* 0 */		\
+    "vref_h_adc", "dac_unused", "vb_comp_fe", "vb_comp_adc", "vcom_cds",       \
-									G2_VCHIP_OPA_1ST,  		/* 1 */		\
+        "vref_rstore", "vb_opa_1st", "vref_comp_fe", "vcom_adc1",              \
-									G2_VCHIP_OPA_FD,  		/* 2 */		\
+        "vref_prech", "vref_l_adc", "vref_cds", "vb_cs", "vb_opa_fd",          \
-        							G2_VCHIP_COMP_ADC, 		/* 3 */		\
+        "dac_unused2", "vcom_adc2"
-									G2_VCHIP_UNUSED, 		/* 4 */		\
-        							G2_VCHIP_REF_COMP_FE,	/* 5 */		\
-        							G2_VCHIP_CS				/* 6 */		\
-									};  
-#define  ONCHIP_DAC_NAMES			"vchip_comp_fe", "vchip_opa_1st", "vchip_opa_fd", "vchip_comp_adc", "vchip_unused", "vchip_ref_comp_fe", "vchip_cs"	
 
+enum ONCHIP_DACINDEX {
+    G2_VCHIP_COMP_FE,     /* 0 */
+    G2_VCHIP_OPA_1ST,     /* 1 */
+    G2_VCHIP_OPA_FD,      /* 2 */
+    G2_VCHIP_COMP_ADC,    /* 3 */
+    G2_VCHIP_UNUSED,      /* 4 */
+    G2_VCHIP_REF_COMP_FE, /* 5 */
+    G2_VCHIP_CS           /* 6 */
+};
+#define ONCHIP_DAC_NAMES                                                       \
+    "vchip_comp_fe", "vchip_opa_1st", "vchip_opa_fd", "vchip_comp_adc",        \
+        "vchip_unused", "vchip_ref_comp_fe", "vchip_cs"
 
-enum CLKINDEX                       {READOUT_C0, READOUT_C1, SYSTEM_C0, SYSTEM_C1, SYSTEM_C2, SYSTEM_C3, NUM_CLOCKS};
+enum CLKINDEX {
-#define CLK_NAMES					"READOUT_C0", "READOUT_C1", "SYSTEM_C0", "SYSTEM_C1", "SYSTEM_C2", "SYSTEM_C3"
+    READOUT_C0,
-
+    READOUT_C1,
-enum PLLINDEX						{READOUT_PLL, SYSTEM_PLL};
+    SYSTEM_C0,
+    SYSTEM_C1,
+    SYSTEM_C2,
+    SYSTEM_C3,
+    NUM_CLOCKS
+};
+#define CLK_NAMES                                                              \
+    "READOUT_C0", "READOUT_C1", "SYSTEM_C0", "SYSTEM_C1", "SYSTEM_C2",         \
+        "SYSTEM_C3"
 
+enum PLLINDEX { READOUT_PLL, SYSTEM_PLL };
 
 /** Chip Definitions */
-#define ASIC_ADDR_MAX_BITS			(4)
+#define ASIC_ADDR_MAX_BITS       (4)
-#define ASIC_CURRENT_INJECT_ADDR	(0x9)
+#define ASIC_CURRENT_INJECT_ADDR (0x9)
-#define ASIC_VETO_REF_ADDR			(0xA)
+#define ASIC_VETO_REF_ADDR       (0xA)
-#define ASIC_CONF_ADC_ADDR			(0xB)
+#define ASIC_CONF_ADC_ADDR       (0xB)
-#define ASIC_CONF_GLOBAL_SETT		(0xC)
+#define ASIC_CONF_GLOBAL_SETT    (0xC)
 
-#define ASIC_GAIN_MAX_BITS			(2)
+#define ASIC_GAIN_MAX_BITS        (2)
-#define ASIC_GAIN_MSK				(0x3)
+#define ASIC_GAIN_MSK             (0x3)
-#define ASIC_G0_VAL					((0x0 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
+#define ASIC_G0_VAL               ((0x0 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
-#define ASIC_G1_VAL					((0x1 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
+#define ASIC_G1_VAL               ((0x1 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
-#define ASIC_G2_VAL					((0x3 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
+#define ASIC_G2_VAL               ((0x3 & ASIC_GAIN_MSK) << ADU_MAX_BITS)
-#define ASIC_CONTINUOUS_MODE_MSK	(0x7)
+#define ASIC_CONTINUOUS_MODE_MSK  (0x7)
-#define ASIC_ADC_MAX_BITS			(7)
+#define ASIC_ADC_MAX_BITS         (7)
-#define ASIC_ADC_MAX_VAL			(0x7F)
+#define ASIC_ADC_MAX_VAL          (0x7F)
-#define ASIC_GLOBAL_SETT_MAX_BITS	(6)
+#define ASIC_GLOBAL_SETT_MAX_BITS (6)
-#define ASIC_GLOBAL_BURST_VALUE		(0x0)
+#define ASIC_GLOBAL_BURST_VALUE   (0x0)
-#define ASIC_GLOBAL_CONT_VALUE		(0x1E)
+#define ASIC_GLOBAL_CONT_VALUE    (0x1E)
 
 /* Struct Definitions */
 typedef struct udp_header_struct {
-	uint32_t	udp_destmac_msb;
+    uint32_t udp_destmac_msb;
-	uint16_t	udp_srcmac_msb;
+    uint16_t udp_srcmac_msb;
-	uint16_t	udp_destmac_lsb;
+    uint16_t udp_destmac_lsb;
-	uint32_t	udp_srcmac_lsb;
+    uint32_t udp_srcmac_lsb;
-	uint8_t		ip_tos;
+    uint8_t ip_tos;
-	uint8_t		ip_ihl: 4, ip_ver: 4;
+    uint8_t ip_ihl : 4, ip_ver : 4;
-	uint16_t	udp_ethertype;
+    uint16_t udp_ethertype;
-	uint16_t	ip_identification;
+    uint16_t ip_identification;
-	uint16_t	ip_totallength;
+    uint16_t ip_totallength;
-	uint8_t		ip_protocol;
+    uint8_t ip_protocol;
-	uint8_t		ip_ttl;
+    uint8_t ip_ttl;
-	uint16_t	ip_fragmentoffset: 13, ip_flags: 3;
+    uint16_t ip_fragmentoffset : 13, ip_flags : 3;
-	uint16_t	ip_srcip_msb;
+    uint16_t ip_srcip_msb;
-	uint16_t	ip_checksum;
+    uint16_t ip_checksum;
-	uint16_t	ip_destip_msb;
+    uint16_t ip_destip_msb;
-	uint16_t	ip_srcip_lsb;
+    uint16_t ip_srcip_lsb;
-	uint16_t	udp_srcport;
+    uint16_t udp_srcport;
-	uint16_t	ip_destip_lsb;
+    uint16_t ip_destip_lsb;
-	uint16_t	udp_checksum;
+    uint16_t udp_checksum;
-	uint16_t	udp_destport;
+    uint16_t udp_destport;
 } udp_header;
-#define UDP_IP_HEADER_LENGTH_BYTES	(28)
+#define UDP_IP_HEADER_LENGTH_BYTES (28)

slsDetectorServers/gotthardDetectorServer/RegisterDefs.h

@@ -1,18 +1,23 @@
 #pragma once
 
 /* Definitions for FPGA*/
-#define MEM_MAP_SHIFT                   (11)
+#define MEM_MAP_SHIFT (11)
 
 /** Gain register */
-#define GAIN_REG                        (0x10 << MEM_MAP_SHIFT)
+#define GAIN_REG (0x10 << MEM_MAP_SHIFT)
 
-#define GAIN_CONFGAIN_OFST              (0)
+#define GAIN_CONFGAIN_OFST (0)
-#define GAIN_CONFGAIN_MSK               (0x000000FF << GAIN_CONFGAIN_OFST)
+#define GAIN_CONFGAIN_MSK  (0x000000FF << GAIN_CONFGAIN_OFST)
-#define GAIN_CONFGAIN_HGH_GAIN_VAL      ((0x0 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+#define GAIN_CONFGAIN_HGH_GAIN_VAL                                             \
-#define GAIN_CONFGAIN_DYNMC_GAIN_VAL    ((0x8 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+    ((0x0 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
-#define GAIN_CONFGAIN_LW_GAIN_VAL       ((0x6 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+#define GAIN_CONFGAIN_DYNMC_GAIN_VAL                                           \
-#define GAIN_CONFGAIN_MDM_GAIN_VAL      ((0x2 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+    ((0x8 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
-#define GAIN_CONFGAIN_VRY_HGH_GAIN_VAL  ((0x1 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+#define GAIN_CONFGAIN_LW_GAIN_VAL                                              \
+    ((0x6 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+#define GAIN_CONFGAIN_MDM_GAIN_VAL                                             \
+    ((0x2 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
+#define GAIN_CONFGAIN_VRY_HGH_GAIN_VAL                                         \
+    ((0x1 << GAIN_CONFGAIN_OFST) & GAIN_CONFGAIN_MSK)
 
 /** Flow Control register */
 //#define FLOW_CONTROL_REG                (0x11 << MEM_MAP_SHIFT)
@@ -24,243 +29,261 @@
 //#define FRAME_REG                       (0x13 << MEM_MAP_SHIFT)
 
 /** Multi Purpose register */
-#define MULTI_PURPOSE_REG               (0x14 << MEM_MAP_SHIFT)
+#define MULTI_PURPOSE_REG (0x14 << MEM_MAP_SHIFT)
 
-#define PHS_STP_OFST                    (0)
+#define PHS_STP_OFST            (0)
-#define PHS_STP_MSK                     (0x00000001 << PHS_STP_OFST)
+#define PHS_STP_MSK             (0x00000001 << PHS_STP_OFST)
-#define RST_CNTR_OFST                   (2)
+#define RST_CNTR_OFST           (2)
-#define RST_CNTR_MSK                    (0x00000001 << RST_CNTR_OFST)
+#define RST_CNTR_MSK            (0x00000001 << RST_CNTR_OFST)
-#define SW1_OFST                        (5)
+#define SW1_OFST                (5)
-#define SW1_MSK                         (0x00000001 << SW1_OFST)
+#define SW1_MSK                 (0x00000001 << SW1_OFST)
-#define WRT_BCK_OFST                    (6)
+#define WRT_BCK_OFST            (6)
-#define WRT_BCK_MSK                     (0x00000001 << WRT_BCK_OFST)
+#define WRT_BCK_MSK             (0x00000001 << WRT_BCK_OFST)
-#define RST_OFST                        (7)
+#define RST_OFST                (7)
-#define RST_MSK                         (0x00000001 << RST_OFST)
+#define RST_MSK                 (0x00000001 << RST_OFST)
-#define PLL_CLK_SL_OFST                 (8)
+#define PLL_CLK_SL_OFST         (8)
-#define PLL_CLK_SL_MSK                  (0x00000007 << PLL_CLK_SL_OFST)
+#define PLL_CLK_SL_MSK          (0x00000007 << PLL_CLK_SL_OFST)
-#define PLL_CLK_SL_MSTR_VAL             ((0x1 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
+#define PLL_CLK_SL_MSTR_VAL     ((0x1 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
-#define PLL_CLK_SL_MSTR_ADC_VAL         ((0x2 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
+#define PLL_CLK_SL_MSTR_ADC_VAL ((0x2 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
-#define PLL_CLK_SL_SLV_VAL              ((0x3 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
+#define PLL_CLK_SL_SLV_VAL      ((0x3 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
-#define PLL_CLK_SL_SLV_ADC_VAL          ((0x4 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
+#define PLL_CLK_SL_SLV_ADC_VAL  ((0x4 << PLL_CLK_SL_OFST) & PLL_CLK_SL_MSK)
-#define ENT_RSTN_OFST                   (11)
+#define ENT_RSTN_OFST           (11)
-#define ENT_RSTN_MSK                    (0x00000001 << ENT_RSTN_OFST)
+#define ENT_RSTN_MSK            (0x00000001 << ENT_RSTN_OFST)
-#define INT_RSTN_OFST                   (12)
+#define INT_RSTN_OFST           (12)
-#define INT_RSTN_MSK                    (0x00000001 << INT_RSTN_OFST)
+#define INT_RSTN_MSK            (0x00000001 << INT_RSTN_OFST)
-#define DGTL_TST_OFST                   (14)
+#define DGTL_TST_OFST           (14)
-#define DGTL_TST_MSK                    (0x00000001 << DGTL_TST_OFST)
+#define DGTL_TST_MSK            (0x00000001 << DGTL_TST_OFST)
-#define CHNG_AT_PWR_ON_OFST             (15)                                    // Not used in SW
+#define CHNG_AT_PWR_ON_OFST     (15) // Not used in SW
-#define CHNG_AT_PWR_ON_MSK              (0x00000001 << CHNG_AT_PWR_ON_OFST) // Not used in SW
+#define CHNG_AT_PWR_ON_MSK      (0x00000001 << CHNG_AT_PWR_ON_OFST) // Not used in SW
-#define RST_TO_SW1_DLY_OFST             (16)
+#define RST_TO_SW1_DLY_OFST     (16)
-#define RST_TO_SW1_DLY_MSK              (0x0000000F << RST_TO_SW1_DLY_OFST)
+#define RST_TO_SW1_DLY_MSK      (0x0000000F << RST_TO_SW1_DLY_OFST)
-#define STRT_ACQ_DLY_OFST               (20)
+#define STRT_ACQ_DLY_OFST       (20)
-#define STRT_ACQ_DLY_MSK                (0x0000000F << STRT_ACQ_DLY_OFST)
+#define STRT_ACQ_DLY_MSK        (0x0000000F << STRT_ACQ_DLY_OFST)
 
 /** DAQ register */
-#define DAQ_REG                         (0x15 << MEM_MAP_SHIFT)
+#define DAQ_REG (0x15 << MEM_MAP_SHIFT)
 
-#define DAQ_TKN_TMNG_OFST               (0)
+#define DAQ_TKN_TMNG_OFST (0)
-#define DAQ_TKN_TMNG_MSK                (0x0000FFFF << DAQ_TKN_TMNG_OFST)
+#define DAQ_TKN_TMNG_MSK  (0x0000FFFF << DAQ_TKN_TMNG_OFST)
-#define DAQ_TKN_TMNG_BRD_RVSN_1_VAL     ((0x1f16 << DAQ_TKN_TMNG_OFST) & DAQ_TKN_TMNG_MSK)
+#define DAQ_TKN_TMNG_BRD_RVSN_1_VAL                                            \
-#define DAQ_TKN_TMNG_BRD_RVSN_2_VAL     ((0x1f10 << DAQ_TKN_TMNG_OFST) & DAQ_TKN_TMNG_MSK)
+    ((0x1f16 << DAQ_TKN_TMNG_OFST) & DAQ_TKN_TMNG_MSK)
-#define DAQ_PCKT_LNGTH_OFST             (16)
+#define DAQ_TKN_TMNG_BRD_RVSN_2_VAL                                            \
-#define DAQ_PCKT_LNGTH_MSK              (0x0000FFFF << DAQ_PCKT_LNGTH_OFST)
+    ((0x1f10 << DAQ_TKN_TMNG_OFST) & DAQ_TKN_TMNG_MSK)
-#define DAQ_PCKT_LNGTH_NO_ROI_VAL       ((0x0013f << DAQ_PCKT_LNGTH_OFST) & DAQ_PCKT_LNGTH_MSK)
+#define DAQ_PCKT_LNGTH_OFST (16)
-#define DAQ_PCKT_LNGTH_ROI_VAL          ((0x0007f << DAQ_PCKT_LNGTH_OFST) & DAQ_PCKT_LNGTH_MSK)
+#define DAQ_PCKT_LNGTH_MSK  (0x0000FFFF << DAQ_PCKT_LNGTH_OFST)
+#define DAQ_PCKT_LNGTH_NO_ROI_VAL                                              \
+    ((0x0013f << DAQ_PCKT_LNGTH_OFST) & DAQ_PCKT_LNGTH_MSK)
+#define DAQ_PCKT_LNGTH_ROI_VAL                                                 \
+    ((0x0007f << DAQ_PCKT_LNGTH_OFST) & DAQ_PCKT_LNGTH_MSK)
 
 /** Time From Start register */
 //#define TIME_FROM_START_REG             (0x16 << MEM_MAP_SHIFT)
 
 /** DAC Control register */
-#define SPI_REG                         (0x17 << MEM_MAP_SHIFT)
+#define SPI_REG (0x17 << MEM_MAP_SHIFT)
 
-#define SPI_DAC_SRL_CS_OTPT_OFST        (0)
+#define SPI_DAC_SRL_CS_OTPT_OFST   (0)
-#define SPI_DAC_SRL_CS_OTPT_MSK         (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
+#define SPI_DAC_SRL_CS_OTPT_MSK    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
-#define SPI_DAC_SRL_CLK_OTPT_OFST       (1)
+#define SPI_DAC_SRL_CLK_OTPT_OFST  (1)
-#define SPI_DAC_SRL_CLK_OTPT_MSK        (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
+#define SPI_DAC_SRL_CLK_OTPT_MSK   (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
-#define SPI_DAC_SRL_DGTL_OTPT_OFST      (2)
+#define SPI_DAC_SRL_DGTL_OTPT_OFST (2)
-#define SPI_DAC_SRL_DGTL_OTPT_MSK       (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
+#define SPI_DAC_SRL_DGTL_OTPT_MSK  (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
 
 /** ADC SPI register */
-#define ADC_SPI_REG                     (0x18 << MEM_MAP_SHIFT)
+#define ADC_SPI_REG (0x18 << MEM_MAP_SHIFT)
 
-#define ADC_SPI_SRL_CLK_OTPT_OFST       (0)
+#define ADC_SPI_SRL_CLK_OTPT_OFST (0)
-#define ADC_SPI_SRL_CLK_OTPT_MSK        (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
+#define ADC_SPI_SRL_CLK_OTPT_MSK  (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
-#define ADC_SPI_SRL_DT_OTPT_OFST        (1)
+#define ADC_SPI_SRL_DT_OTPT_OFST  (1)
-#define ADC_SPI_SRL_DT_OTPT_MSK         (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
+#define ADC_SPI_SRL_DT_OTPT_MSK   (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
-#define ADC_SPI_SRL_CS_OTPT_OFST        (2)
+#define ADC_SPI_SRL_CS_OTPT_OFST  (2)
-#define ADC_SPI_SRL_CS_OTPT_MSK         (0x0000001F << ADC_SPI_SRL_CS_OTPT_OFST)
+#define ADC_SPI_SRL_CS_OTPT_MSK   (0x0000001F << ADC_SPI_SRL_CS_OTPT_OFST)
 
 /** ADC Sync register */
-#define ADC_SYNC_REG                    (0x19 << MEM_MAP_SHIFT)
+#define ADC_SYNC_REG (0x19 << MEM_MAP_SHIFT)
 
-#define ADC_SYNC_ENET_STRT_DLY_OFST     (0)
+#define ADC_SYNC_ENET_STRT_DLY_OFST (0)
-#define ADC_SYNC_ENET_STRT_DLY_MSK      (0x0000000F << ADC_SYNC_ENET_STRT_DLY_OFST)
+#define ADC_SYNC_ENET_STRT_DLY_MSK  (0x0000000F << ADC_SYNC_ENET_STRT_DLY_OFST)
-#define ADC_SYNC_ENET_STRT_DLY_VAL      ((0x4 << ADC_SYNC_ENET_STRT_DLY_OFST) & ADC_SYNC_ENET_STRT_DLY_MSK)
+#define ADC_SYNC_ENET_STRT_DLY_VAL                                             \
-#define ADC_SYNC_TKN1_HGH_DLY_OFST      (4)
+    ((0x4 << ADC_SYNC_ENET_STRT_DLY_OFST) & ADC_SYNC_ENET_STRT_DLY_MSK)
-#define ADC_SYNC_TKN1_HGH_DLY_MSK       (0x0000000F << ADC_SYNC_TKN1_HGH_DLY_OFST)
+#define ADC_SYNC_TKN1_HGH_DLY_OFST (4)
-#define ADC_SYNC_TKN1_HGH_DLY_VAL       ((0x1 << ADC_SYNC_TKN1_HGH_DLY_OFST) & ADC_SYNC_TKN1_HGH_DLY_MSK)
+#define ADC_SYNC_TKN1_HGH_DLY_MSK  (0x0000000F << ADC_SYNC_TKN1_HGH_DLY_OFST)
-#define ADC_SYNC_TKN2_HGH_DLY_OFST      (8)
+#define ADC_SYNC_TKN1_HGH_DLY_VAL                                              \
-#define ADC_SYNC_TKN2_HGH_DLY_MSK       (0x0000000F << ADC_SYNC_TKN2_HGH_DLY_OFST)
+    ((0x1 << ADC_SYNC_TKN1_HGH_DLY_OFST) & ADC_SYNC_TKN1_HGH_DLY_MSK)
-#define ADC_SYNC_TKN2_HGH_DLY_VAL       ((0x2 << ADC_SYNC_TKN2_HGH_DLY_OFST) & ADC_SYNC_TKN2_HGH_DLY_MSK)
+#define ADC_SYNC_TKN2_HGH_DLY_OFST (8)
-#define ADC_SYNC_TKN1_LOW_DLY_OFST      (12)
+#define ADC_SYNC_TKN2_HGH_DLY_MSK  (0x0000000F << ADC_SYNC_TKN2_HGH_DLY_OFST)
-#define ADC_SYNC_TKN1_LOW_DLY_MSK       (0x0000000F << ADC_SYNC_TKN1_LOW_DLY_OFST)
+#define ADC_SYNC_TKN2_HGH_DLY_VAL                                              \
-#define ADC_SYNC_TKN1_LOW_DLY_VAL       ((0x2 << ADC_SYNC_TKN1_LOW_DLY_OFST) & ADC_SYNC_TKN1_LOW_DLY_MSK)
+    ((0x2 << ADC_SYNC_TKN2_HGH_DLY_OFST) & ADC_SYNC_TKN2_HGH_DLY_MSK)
-#define ADC_SYNC_TKN2_LOW_DLY_OFST      (16)
+#define ADC_SYNC_TKN1_LOW_DLY_OFST (12)
-#define ADC_SYNC_TKN2_LOW_DLY_MSK       (0x0000000F << ADC_SYNC_TKN2_LOW_DLY_OFST)
+#define ADC_SYNC_TKN1_LOW_DLY_MSK  (0x0000000F << ADC_SYNC_TKN1_LOW_DLY_OFST)
-#define ADC_SYNC_TKN2_LOW_DLY_VAL       ((0x3 << ADC_SYNC_TKN2_LOW_DLY_OFST) & ADC_SYNC_TKN2_LOW_DLY_MSK)
+#define ADC_SYNC_TKN1_LOW_DLY_VAL                                              \
-//0x32214
+    ((0x2 << ADC_SYNC_TKN1_LOW_DLY_OFST) & ADC_SYNC_TKN1_LOW_DLY_MSK)
-#define ADC_SYNC_TKN_VAL                (ADC_SYNC_ENET_STRT_DLY_VAL | ADC_SYNC_TKN1_HGH_DLY_VAL | ADC_SYNC_TKN2_HGH_DLY_VAL | ADC_SYNC_TKN1_LOW_DLY_VAL |  ADC_SYNC_TKN2_LOW_DLY_VAL)
+#define ADC_SYNC_TKN2_LOW_DLY_OFST (16)
-#define ADC_SYNC_CLEAN_FIFOS_OFST       (20)
+#define ADC_SYNC_TKN2_LOW_DLY_MSK  (0x0000000F << ADC_SYNC_TKN2_LOW_DLY_OFST)
-#define ADC_SYNC_CLEAN_FIFOS_MSK        (0x00000001 << ADC_SYNC_CLEAN_FIFOS_OFST)
+#define ADC_SYNC_TKN2_LOW_DLY_VAL                                              \
-#define ADC_SYNC_ENET_DELAY_OFST        (24)
+    ((0x3 << ADC_SYNC_TKN2_LOW_DLY_OFST) & ADC_SYNC_TKN2_LOW_DLY_MSK)
-#define ADC_SYNC_ENET_DELAY_MSK         (0x000000FF << ADC_SYNC_ENET_DELAY_OFST)
+// 0x32214
-#define ADC_SYNC_ENET_DELAY_NO_ROI_VAL  ((0x88 << ADC_SYNC_ENET_DELAY_OFST) & ADC_SYNC_ENET_DELAY_MSK)
+#define ADC_SYNC_TKN_VAL                                                       \
-#define ADC_SYNC_ENET_DELAY_ROI_VAL     ((0x1b << ADC_SYNC_ENET_DELAY_OFST) & ADC_SYNC_ENET_DELAY_MSK)
+    (ADC_SYNC_ENET_STRT_DLY_VAL | ADC_SYNC_TKN1_HGH_DLY_VAL |                  \
+     ADC_SYNC_TKN2_HGH_DLY_VAL | ADC_SYNC_TKN1_LOW_DLY_VAL |                   \
+     ADC_SYNC_TKN2_LOW_DLY_VAL)
+#define ADC_SYNC_CLEAN_FIFOS_OFST (20)
+#define ADC_SYNC_CLEAN_FIFOS_MSK  (0x00000001 << ADC_SYNC_CLEAN_FIFOS_OFST)
+#define ADC_SYNC_ENET_DELAY_OFST  (24)
+#define ADC_SYNC_ENET_DELAY_MSK   (0x000000FF << ADC_SYNC_ENET_DELAY_OFST)
+#define ADC_SYNC_ENET_DELAY_NO_ROI_VAL                                         \
+    ((0x88 << ADC_SYNC_ENET_DELAY_OFST) & ADC_SYNC_ENET_DELAY_MSK)
+#define ADC_SYNC_ENET_DELAY_ROI_VAL                                            \
+    ((0x1b << ADC_SYNC_ENET_DELAY_OFST) & ADC_SYNC_ENET_DELAY_MSK)
 
 /** Time From Start register */
 //#define MU_TIME_REG                     (0x1a << MEM_MAP_SHIFT)
 
 /** Temperatre SPI In register */
-#define TEMP_SPI_IN_REG                 (0x1b << MEM_MAP_SHIFT)
+#define TEMP_SPI_IN_REG (0x1b << MEM_MAP_SHIFT)
 
-#define TEMP_SPI_IN_T1_CLK_OFST         (0)
+#define TEMP_SPI_IN_T1_CLK_OFST (0)
-#define TEMP_SPI_IN_T1_CLK_MSK          (0x00000001 << TEMP_SPI_IN_T1_CLK_OFST)
+#define TEMP_SPI_IN_T1_CLK_MSK  (0x00000001 << TEMP_SPI_IN_T1_CLK_OFST)
-#define TEMP_SPI_IN_T1_CS_OFST          (1)
+#define TEMP_SPI_IN_T1_CS_OFST  (1)
-#define TEMP_SPI_IN_T1_CS_MSK           (0x00000001 << TEMP_SPI_IN_T1_CS_OFST)
+#define TEMP_SPI_IN_T1_CS_MSK   (0x00000001 << TEMP_SPI_IN_T1_CS_OFST)
-#define TEMP_SPI_IN_T2_CLK_OFST         (2)
+#define TEMP_SPI_IN_T2_CLK_OFST (2)
-#define TEMP_SPI_IN_T2_CLK_MSK          (0x00000001 << TEMP_SPI_IN_T2_CLK_OFST)
+#define TEMP_SPI_IN_T2_CLK_MSK  (0x00000001 << TEMP_SPI_IN_T2_CLK_OFST)
-#define TEMP_SPI_IN_T2_CS_OFST          (3)
+#define TEMP_SPI_IN_T2_CS_OFST  (3)
-#define TEMP_SPI_IN_T2_CS_MSK           (0x00000001 << TEMP_SPI_IN_T2_CS_OFST)
+#define TEMP_SPI_IN_T2_CS_MSK   (0x00000001 << TEMP_SPI_IN_T2_CS_OFST)
-#define TEMP_SPI_IN_IDLE_MSK            (TEMP_SPI_IN_T1_CS_MSK | TEMP_SPI_IN_T2_CS_MSK | TEMP_SPI_IN_T1_CLK_MSK | TEMP_SPI_IN_T2_CLK_MSK)
+#define TEMP_SPI_IN_IDLE_MSK                                                   \
+    (TEMP_SPI_IN_T1_CS_MSK | TEMP_SPI_IN_T2_CS_MSK | TEMP_SPI_IN_T1_CLK_MSK |  \
+     TEMP_SPI_IN_T2_CLK_MSK)
 
 /** Temperatre SPI Out register */
-#define TEMP_SPI_OUT_REG                (0x1c << MEM_MAP_SHIFT)
+#define TEMP_SPI_OUT_REG (0x1c << MEM_MAP_SHIFT)
 
-#define TEMP_SPI_OUT_T1_DT_OFST         (0)
+#define TEMP_SPI_OUT_T1_DT_OFST (0)
-#define TEMP_SPI_OUT_T1_DT_MSK          (0x00000001 << TEMP_SPI_OUT_T1_DT_OFST)
+#define TEMP_SPI_OUT_T1_DT_MSK  (0x00000001 << TEMP_SPI_OUT_T1_DT_OFST)
-#define TEMP_SPI_OUT_T2_DT_OFST         (1)
+#define TEMP_SPI_OUT_T2_DT_OFST (1)
-#define TEMP_SPI_OUT_T2_DT_MSK          (0x00000001 << TEMP_SPI_OUT_T2_DT_OFST)
+#define TEMP_SPI_OUT_T2_DT_MSK  (0x00000001 << TEMP_SPI_OUT_T2_DT_OFST)
 
 /** TSE Configure register */
-#define TSE_CONF_REG                    (0x1d << MEM_MAP_SHIFT)
+#define TSE_CONF_REG (0x1d << MEM_MAP_SHIFT)
 
 /** SPI Configure register */
-#define ENET_CONF_REG                   (0x1e << MEM_MAP_SHIFT)
+#define ENET_CONF_REG (0x1e << MEM_MAP_SHIFT)
 
 /** Write TSE Shadow register */
 //#define WRITE_TSE_SHADOW_REG            (0x1f << MEM_MAP_SHIFT)
 
 /** High Voltage register */
-#define HV_REG                          (0x20 << MEM_MAP_SHIFT)
+#define HV_REG (0x20 << MEM_MAP_SHIFT)
 
-#define HV_ENBL_OFST                    (0)
+#define HV_ENBL_OFST   (0)
-#define HV_ENBL_MSK                     (0x00000001 << HV_ENBL_OFST)
+#define HV_ENBL_MSK    (0x00000001 << HV_ENBL_OFST)
-#define HV_SEL_OFST                     (1)
+#define HV_SEL_OFST    (1)
-#define HV_SEL_MSK                      (0x00000007 << HV_SEL_OFST)
+#define HV_SEL_MSK     (0x00000007 << HV_SEL_OFST)
-#define HV_SEL_90_VAL                   ((0x0 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_90_VAL  ((0x0 << HV_SEL_OFST) & HV_SEL_MSK)
-#define HV_SEL_110_VAL                  ((0x1 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_110_VAL ((0x1 << HV_SEL_OFST) & HV_SEL_MSK)
-#define HV_SEL_120_VAL                  ((0x2 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_120_VAL ((0x2 << HV_SEL_OFST) & HV_SEL_MSK)
-#define HV_SEL_150_VAL                  ((0x3 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_150_VAL ((0x3 << HV_SEL_OFST) & HV_SEL_MSK)
-#define HV_SEL_180_VAL                  ((0x4 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_180_VAL ((0x4 << HV_SEL_OFST) & HV_SEL_MSK)
-#define HV_SEL_200_VAL                  ((0x5 << HV_SEL_OFST) & HV_SEL_MSK)
+#define HV_SEL_200_VAL ((0x5 << HV_SEL_OFST) & HV_SEL_MSK)
 
 /** Dummy register */
-#define DUMMY_REG                       (0x21 << MEM_MAP_SHIFT)
+#define DUMMY_REG (0x21 << MEM_MAP_SHIFT)
 
 /** Firmware Version register */
-#define FPGA_VERSION_REG                (0x22 << MEM_MAP_SHIFT)
+#define FPGA_VERSION_REG (0x22 << MEM_MAP_SHIFT)
 
-#define FPGA_VERSION_OFST               (0)
+#define FPGA_VERSION_OFST (0)
-#define FPGA_VERSION_MSK                (0x00FFFFFF << FPGA_VERSION_OFST)       // to get in format yymmdd
+#define FPGA_VERSION_MSK                                                       \
+    (0x00FFFFFF << FPGA_VERSION_OFST) // to get in format yymmdd
 
 /* Fix Pattern register */
-#define FIX_PATT_REG                    (0x23 << MEM_MAP_SHIFT)
+#define FIX_PATT_REG (0x23 << MEM_MAP_SHIFT)
 
-#define FIX_PATT_VAL                    (0xACDC1980)
+#define FIX_PATT_VAL (0xACDC1980)
 
 /** 16 bit Control register */
-#define CONTROL_REG                     (0x24 << MEM_MAP_SHIFT)
+#define CONTROL_REG (0x24 << MEM_MAP_SHIFT)
 
-#define CONTROL_STRT_ACQ_OFST           (0)
+#define CONTROL_STRT_ACQ_OFST    (0)
-#define CONTROL_STRT_ACQ_MSK            (0x00000001 << CONTROL_STRT_ACQ_OFST)
+#define CONTROL_STRT_ACQ_MSK     (0x00000001 << CONTROL_STRT_ACQ_OFST)
-#define CONTROL_STP_ACQ_OFST            (1)
+#define CONTROL_STP_ACQ_OFST     (1)
-#define CONTROL_STP_ACQ_MSK             (0x00000001 << CONTROL_STP_ACQ_OFST)
+#define CONTROL_STP_ACQ_MSK      (0x00000001 << CONTROL_STP_ACQ_OFST)
-#define CONTROL_STRT_FF_TST_OFST        (2)                                          // Not used in FW & SW
+#define CONTROL_STRT_FF_TST_OFST (2) // Not used in FW & SW
-#define CONTROL_STRT_FF_TST_MSK         (0x00000001 << CONTROL_STRT_FF_TST_OFST)
+#define CONTROL_STRT_FF_TST_MSK  (0x00000001 << CONTROL_STRT_FF_TST_OFST)
-#define CONTROL_STP_FF_TST_OFST         (3)                                          // Not used in FW & SW
+#define CONTROL_STP_FF_TST_OFST  (3) // Not used in FW & SW
-#define CONTROL_STP_FF_TST_MSK          (0x00000001 << CONTROL_STP_FF_TST_OFST)
+#define CONTROL_STP_FF_TST_MSK   (0x00000001 << CONTROL_STP_FF_TST_OFST)
-#define CONTROL_STRT_RDT_OFST           (4)
+#define CONTROL_STRT_RDT_OFST    (4)
-#define CONTROL_STRT_RDT_MSK            (0x00000001 << CONTROL_STRT_RDT_OFST)
+#define CONTROL_STRT_RDT_MSK     (0x00000001 << CONTROL_STRT_RDT_OFST)
-#define CONTROL_STP_RDT_OFST            (5)
+#define CONTROL_STP_RDT_OFST     (5)
-#define CONTROL_STP_RDT_MSK             (0x00000001 << CONTROL_STP_RDT_OFST)
+#define CONTROL_STP_RDT_MSK      (0x00000001 << CONTROL_STP_RDT_OFST)
-#define CONTROL_STRT_EXPSR_OFST         (6)
+#define CONTROL_STRT_EXPSR_OFST  (6)
-#define CONTROL_STRT_EXPSR_MSK          (0x00000001 << CONTROL_STRT_EXPSR_OFST)
+#define CONTROL_STRT_EXPSR_MSK   (0x00000001 << CONTROL_STRT_EXPSR_OFST)
-#define CONTROL_STP_EXPSR_OFST          (7)
+#define CONTROL_STP_EXPSR_OFST   (7)
-#define CONTROL_STP_EXPSR_MSK           (0x00000001 << CONTROL_STP_EXPSR_OFST)
+#define CONTROL_STP_EXPSR_MSK    (0x00000001 << CONTROL_STP_EXPSR_OFST)
-#define CONTROL_STRT_TRN_OFST           (8)
+#define CONTROL_STRT_TRN_OFST    (8)
-#define CONTROL_STRT_TRN_MSK            (0x00000001 << CONTROL_STRT_TRN_OFST)
+#define CONTROL_STRT_TRN_MSK     (0x00000001 << CONTROL_STRT_TRN_OFST)
-#define CONTROL_STP_TRN_OFST            (9)
+#define CONTROL_STP_TRN_OFST     (9)
-#define CONTROL_STP_TRN_MSK             (0x00000001 << CONTROL_STP_TRN_OFST)
+#define CONTROL_STP_TRN_MSK      (0x00000001 << CONTROL_STP_TRN_OFST)
-#define CONTROL_SYNC_RST_OFST           (10)
+#define CONTROL_SYNC_RST_OFST    (10)
-#define CONTROL_SYNC_RST_MSK            (0x00000001 << CONTROL_SYNC_RST_OFST)
+#define CONTROL_SYNC_RST_MSK     (0x00000001 << CONTROL_SYNC_RST_OFST)
 
 /** Status register */
-#define STATUS_REG                      (0x25 << MEM_MAP_SHIFT)
+#define STATUS_REG (0x25 << MEM_MAP_SHIFT)
 
-#define STATUS_RN_BSY_OFST              (0)
+#define STATUS_RN_BSY_OFST        (0)
-#define STATUS_RN_BSY_MSK               (0x00000001 << STATUS_RN_BSY_OFST)
+#define STATUS_RN_BSY_MSK         (0x00000001 << STATUS_RN_BSY_OFST)
-#define STATUS_RDT_BSY_OFST             (1)
+#define STATUS_RDT_BSY_OFST       (1)
-#define STATUS_RDT_BSY_MSK              (0x00000001 << STATUS_RDT_BSY_OFST)
+#define STATUS_RDT_BSY_MSK        (0x00000001 << STATUS_RDT_BSY_OFST)
-#define STATUS_WTNG_FR_TRGGR_OFST       (3)
+#define STATUS_WTNG_FR_TRGGR_OFST (3)
-#define STATUS_WTNG_FR_TRGGR_MSK        (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
+#define STATUS_WTNG_FR_TRGGR_MSK  (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
-#define STATUS_DLY_BFR_OFST             (4)
+#define STATUS_DLY_BFR_OFST       (4)
-#define STATUS_DLY_BFR_MSK              (0x00000001 << STATUS_DLY_BFR_OFST)
+#define STATUS_DLY_BFR_MSK        (0x00000001 << STATUS_DLY_BFR_OFST)
-#define STATUS_DLY_AFTR_OFST            (5)
+#define STATUS_DLY_AFTR_OFST      (5)
-#define STATUS_DLY_AFTR_MSK             (0x00000001 << STATUS_DLY_AFTR_OFST)
+#define STATUS_DLY_AFTR_MSK       (0x00000001 << STATUS_DLY_AFTR_OFST)
-#define STATUS_EXPSNG_OFST              (6)
+#define STATUS_EXPSNG_OFST        (6)
-#define STATUS_EXPSNG_MSK               (0x00000001 << STATUS_EXPSNG_OFST)
+#define STATUS_EXPSNG_MSK         (0x00000001 << STATUS_EXPSNG_OFST)
-#define STATUS_CNT_ENBL_OFST            (7)
+#define STATUS_CNT_ENBL_OFST      (7)
-#define STATUS_CNT_ENBL_MSK             (0x00000001 << STATUS_CNT_ENBL_OFST)
+#define STATUS_CNT_ENBL_MSK       (0x00000001 << STATUS_CNT_ENBL_OFST)
-#define STATUS_RD_STT_OFST              (8)
+#define STATUS_RD_STT_OFST        (8)
-#define STATUS_RD_STT_MSK               (0x00000007 << STATUS_RD_STT_OFST)
+#define STATUS_RD_STT_MSK         (0x00000007 << STATUS_RD_STT_OFST)
-#define STATUS_RN_STT_OFST              (12)
+#define STATUS_RN_STT_OFST        (12)
-#define STATUS_RN_STT_MSK               (0x00000007 << STATUS_RN_STT_OFST)
+#define STATUS_RN_STT_MSK         (0x00000007 << STATUS_RN_STT_OFST)
-#define STATUS_SM_FF_FLL_OFST           (15)
+#define STATUS_SM_FF_FLL_OFST     (15)
-#define STATUS_SM_FF_FLL_MSK            (0x00000001 << STATUS_SM_FF_FLL_OFST)
+#define STATUS_SM_FF_FLL_MSK      (0x00000001 << STATUS_SM_FF_FLL_OFST)
-#define STATUS_ALL_FF_EMPTY_OFST        (11)
+#define STATUS_ALL_FF_EMPTY_OFST  (11)
-#define STATUS_ALL_FF_EMPTY_MSK         (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
+#define STATUS_ALL_FF_EMPTY_MSK   (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
-#define STATUS_RN_MSHN_BSY_OFST         (17)
+#define STATUS_RN_MSHN_BSY_OFST   (17)
-#define STATUS_RN_MSHN_BSY_MSK          (0x00000001 << STATUS_RN_MSHN_BSY_OFST)
+#define STATUS_RN_MSHN_BSY_MSK    (0x00000001 << STATUS_RN_MSHN_BSY_OFST)
-#define STATUS_RD_MSHN_BSY_OFST         (18)
+#define STATUS_RD_MSHN_BSY_OFST   (18)
-#define STATUS_RD_MSHN_BSY_MSK          (0x00000001 << STATUS_RD_MSHN_BSY_OFST)
+#define STATUS_RD_MSHN_BSY_MSK    (0x00000001 << STATUS_RD_MSHN_BSY_OFST)
-#define STATUS_RN_FNSHD_OFST            (20)
+#define STATUS_RN_FNSHD_OFST      (20)
-#define STATUS_RN_FNSHD_MSK             (0x00000001 << STATUS_RN_FNSHD_OFST)
+#define STATUS_RN_FNSHD_MSK       (0x00000001 << STATUS_RN_FNSHD_OFST)
-#define STATUS_IDLE_MSK                 (0x0000FFFF << 0)
+#define STATUS_IDLE_MSK           (0x0000FFFF << 0)
 
 /** Config register */
-#define CONFIG_REG                      (0x26 << MEM_MAP_SHIFT)
+#define CONFIG_REG (0x26 << MEM_MAP_SHIFT)
 
-#define CONFIG_SLAVE_OFST               (0)                                     // Not used in FW & SW
+#define CONFIG_SLAVE_OFST       (0) // Not used in FW & SW
-#define CONFIG_SLAVE_MSK                (0x00000001 << CONFIG_SLAVE_OFST)
+#define CONFIG_SLAVE_MSK        (0x00000001 << CONFIG_SLAVE_OFST)
-#define CONFIG_MASTER_OFST              (1)                                     // Not used in FW & SW
+#define CONFIG_MASTER_OFST      (1) // Not used in FW & SW
-#define CONFIG_MASTER_MSK               (0x00000001 << CONFIG_MASTER_OFST)
+#define CONFIG_MASTER_MSK       (0x00000001 << CONFIG_MASTER_OFST)
-#define CONFIG_TM_GT_ENBL_OFST          (2)                                     // Not used in FW & SW
+#define CONFIG_TM_GT_ENBL_OFST  (2) // Not used in FW & SW
-#define CONFIG_TM_GT_ENBL_MSK           (0x00000001 << CONFIG_TM_GT_ENBL_OFST)
+#define CONFIG_TM_GT_ENBL_MSK   (0x00000001 << CONFIG_TM_GT_ENBL_OFST)
-#define CONFIG_CPU_RDT_OFST             (12)
+#define CONFIG_CPU_RDT_OFST     (12)
-#define CONFIG_CPU_RDT_MSK              (0x00000001 << CONFIG_CPU_RDT_OFST)
+#define CONFIG_CPU_RDT_MSK      (0x00000001 << CONFIG_CPU_RDT_OFST)
-#define CONFIG_CNTNS_RDT_OFST           (23)                                    // Not used in FW & SW
+#define CONFIG_CNTNS_RDT_OFST   (23) // Not used in FW & SW
-#define CONFIG_CNTNS_RDT_MSK            (0x00000001 << CONFIG_CNTNS_RDT_OFST)
+#define CONFIG_CNTNS_RDT_MSK    (0x00000001 << CONFIG_CNTNS_RDT_OFST)
-#define CONFIG_ACCMLT_CNTS_OFST         (24)                                    // Not used in FW & SW
+#define CONFIG_ACCMLT_CNTS_OFST (24) // Not used in FW & SW
-#define CONFIG_ACCMLT_CNTS_MSK          (0x00000001 << CONFIG_ACCMLT_CNTS_OFST)
+#define CONFIG_ACCMLT_CNTS_MSK  (0x00000001 << CONFIG_ACCMLT_CNTS_OFST)
 
 /** External Signal register */
-#define EXT_SIGNAL_REG                  (0x27 << MEM_MAP_SHIFT)
+#define EXT_SIGNAL_REG (0x27 << MEM_MAP_SHIFT)
 
-#define EXT_SIGNAL_OFST                 (0)
+#define EXT_SIGNAL_OFST              (0)
-#define EXT_SIGNAL_MSK                  (0x00000007 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK               (0x00000007 << EXT_SIGNAL_OFST)
-#define EXT_SIGNAL_OFF_VAL              ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_OFF_VAL           ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
-#define EXT_SIGNAL_TRGGR_IN_RSNG_VAL    ((0x3 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_TRGGR_IN_RSNG_VAL ((0x3 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
-#define EXT_SIGNAL_TRGGR_IN_FLLNG_VAL   ((0x4 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_TRGGR_IN_FLLNG_VAL                                          \
+    ((0x4 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
 
 /** Look at me register */
 //#define LOOK_AT_ME_REG                  (0x28 << MEM_MAP_SHIFT)
@@ -269,25 +292,26 @@
 //#define FPGA_SVN_REG                    (0x29 << MEM_MAP_SHIFT)
 
 /** Chip of Interest register */
-#define CHIP_OF_INTRST_REG              (0x2a << MEM_MAP_SHIFT)
+#define CHIP_OF_INTRST_REG (0x2a << MEM_MAP_SHIFT)
 
-#define CHIP_OF_INTRST_ADC_SEL_OFST     (0)
+#define CHIP_OF_INTRST_ADC_SEL_OFST    (0)
-#define CHIP_OF_INTRST_ADC_SEL_MSK      (0x0000001F << CHIP_OF_INTRST_ADC_SEL_OFST)
+#define CHIP_OF_INTRST_ADC_SEL_MSK     (0x0000001F << CHIP_OF_INTRST_ADC_SEL_OFST)
-#define CHIP_OF_INTRST_NUM_CHNNLS_OFST  (16)
+#define CHIP_OF_INTRST_NUM_CHNNLS_OFST (16)
-#define CHIP_OF_INTRST_NUM_CHNNLS_MSK   (0x0000FFFF << CHIP_OF_INTRST_NUM_CHNNLS_OFST)
+#define CHIP_OF_INTRST_NUM_CHNNLS_MSK                                          \
+    (0x0000FFFF << CHIP_OF_INTRST_NUM_CHNNLS_OFST)
 
 /** Out MUX register */
 //#define OUT_MUX_REG                     (0x2b << MEM_MAP_SHIFT)
 
 /** Board Version register */
-#define BOARD_REVISION_REG              (0x2c << MEM_MAP_SHIFT)
+#define BOARD_REVISION_REG (0x2c << MEM_MAP_SHIFT)
 
-#define BOARD_REVISION_OFST             (0)
+#define BOARD_REVISION_OFST (0)
-#define BOARD_REVISION_MSK              (0x0000FFFF << BOARD_REVISION_OFST)
+#define BOARD_REVISION_MSK  (0x0000FFFF << BOARD_REVISION_OFST)
-#define DETECTOR_TYPE_OFST              (16)
+#define DETECTOR_TYPE_OFST  (16)
-#define DETECTOR_TYPE_MSK               (0x0000000F << DETECTOR_TYPE_OFST)
+#define DETECTOR_TYPE_MSK   (0x0000000F << DETECTOR_TYPE_OFST)
 //#define DETECTOR_TYPE_GOTTHARD_VAL          (??)
-#define DETECTOR_TYPE_MOENCH_VAL        (2)
+#define DETECTOR_TYPE_MOENCH_VAL (2)
 
 /** Memory Test register */
 //#define MEMORY_TEST_REG                 (0x2d << MEM_MAP_SHIFT)
@@ -299,7 +323,7 @@
 //#define HIT_COUNT_REG                   (0x2f << MEM_MAP_SHIFT)
 
 /* 16 bit Fifo Data register */
-#define FIFO_DATA_REG                   (0x50 << MEM_MAP_SHIFT)                 // Not used in FW and SW (16bit)
+#define FIFO_DATA_REG (0x50 << MEM_MAP_SHIFT) // Not used in FW and SW (16bit)
 
 /** Dacs Set 1 register */
 //#define DACS_SET_1_REG                  (0x65 << MEM_MAP_SHIFT)
@@ -311,44 +335,44 @@
 //#define DACS_SET_3_REG                  (0x67 << MEM_MAP_SHIFT)
 
 /* Set Delay 64 bit register */
-#define SET_DELAY_LSB_REG               (0x68 << MEM_MAP_SHIFT)
+#define SET_DELAY_LSB_REG (0x68 << MEM_MAP_SHIFT)
-#define SET_DELAY_MSB_REG               (0x69 << MEM_MAP_SHIFT)
+#define SET_DELAY_MSB_REG (0x69 << MEM_MAP_SHIFT)
 
 /* Get Delay 64 bit register */
-#define GET_DELAY_LSB_REG               (0x6a << MEM_MAP_SHIFT)
+#define GET_DELAY_LSB_REG (0x6a << MEM_MAP_SHIFT)
-#define GET_DELAY_MSB_REG               (0x6b << MEM_MAP_SHIFT)
+#define GET_DELAY_MSB_REG (0x6b << MEM_MAP_SHIFT)
 
 /* Set Triggers 64 bit register */
-#define SET_TRAINS_LSB_REG              (0x6c << MEM_MAP_SHIFT)
+#define SET_TRAINS_LSB_REG (0x6c << MEM_MAP_SHIFT)
-#define SET_TRAINS_MSB_REG              (0x6d << MEM_MAP_SHIFT)
+#define SET_TRAINS_MSB_REG (0x6d << MEM_MAP_SHIFT)
 
 /* Get Triggers 64 bit register */
-#define GET_TRAINS_LSB_REG              (0x6e << MEM_MAP_SHIFT)
+#define GET_TRAINS_LSB_REG (0x6e << MEM_MAP_SHIFT)
-#define GET_TRAINS_MSB_REG              (0x6f << MEM_MAP_SHIFT)
+#define GET_TRAINS_MSB_REG (0x6f << MEM_MAP_SHIFT)
 
 /* Set Frames 64 bit register */
-#define SET_FRAMES_LSB_REG              (0x70 << MEM_MAP_SHIFT)
+#define SET_FRAMES_LSB_REG (0x70 << MEM_MAP_SHIFT)
-#define SET_FRAMES_MSB_REG              (0x71 << MEM_MAP_SHIFT)
+#define SET_FRAMES_MSB_REG (0x71 << MEM_MAP_SHIFT)
 
 /* Get Frames 64 bit register */
-#define GET_FRAMES_LSB_REG              (0x72 << MEM_MAP_SHIFT)
+#define GET_FRAMES_LSB_REG (0x72 << MEM_MAP_SHIFT)
-#define GET_FRAMES_MSB_REG              (0x73 << MEM_MAP_SHIFT)
+#define GET_FRAMES_MSB_REG (0x73 << MEM_MAP_SHIFT)
 
 /* Set Period 64 bit register */
-#define SET_PERIOD_LSB_REG              (0x74 << MEM_MAP_SHIFT)
+#define SET_PERIOD_LSB_REG (0x74 << MEM_MAP_SHIFT)
-#define SET_PERIOD_MSB_REG              (0x75 << MEM_MAP_SHIFT)
+#define SET_PERIOD_MSB_REG (0x75 << MEM_MAP_SHIFT)
 
 /* Get Period 64 bit register */
-#define GET_PERIOD_LSB_REG              (0x76 << MEM_MAP_SHIFT)
+#define GET_PERIOD_LSB_REG (0x76 << MEM_MAP_SHIFT)
-#define GET_PERIOD_MSB_REG              (0x77 << MEM_MAP_SHIFT)
+#define GET_PERIOD_MSB_REG (0x77 << MEM_MAP_SHIFT)
 
 /* Set Exptime 64 bit register */
-#define SET_EXPTIME_LSB_REG             (0x78 << MEM_MAP_SHIFT)
+#define SET_EXPTIME_LSB_REG (0x78 << MEM_MAP_SHIFT)
-#define SET_EXPTIME_MSB_REG             (0x79 << MEM_MAP_SHIFT)
+#define SET_EXPTIME_MSB_REG (0x79 << MEM_MAP_SHIFT)
 
 /* Get Exptime 64 bit register */
-#define GET_EXPTIME_LSB_REG             (0x7a << MEM_MAP_SHIFT)
+#define GET_EXPTIME_LSB_REG (0x7a << MEM_MAP_SHIFT)
-#define GET_EXPTIME_MSB_REG             (0x7b << MEM_MAP_SHIFT)
+#define GET_EXPTIME_MSB_REG (0x7b << MEM_MAP_SHIFT)
 
 /* Set Gates 64 bit register */
 //#define SET_GATES_LSB_REG               (0x7c << MEM_MAP_SHIFT)
@@ -359,11 +383,10 @@
 //#define GET_GATES_MSB_REG               (0x7f << MEM_MAP_SHIFT)
 
 /* Dark Image starting address */
-#define DARK_IMAGE_REG                  (0x81 << MEM_MAP_SHIFT)
+#define DARK_IMAGE_REG (0x81 << MEM_MAP_SHIFT)
 
 /* Gain Image starting address */
-#define GAIN_IMAGE_REG                  (0x82 << MEM_MAP_SHIFT)
+#define GAIN_IMAGE_REG (0x82 << MEM_MAP_SHIFT)
 
 /* Counter Block Memory starting address */
-#define COUNTER_MEMORY_REG              (0x85 << MEM_MAP_SHIFT)
+#define COUNTER_MEMORY_REG (0x85 << MEM_MAP_SHIFT)
-

slsDetectorServers/gotthardDetectorServer/slsDetectorServer_defs.h

@@ -3,125 +3,136 @@
 #include <stdlib.h>
 
 /* Enums */
-enum ADCINDEX				        {TEMP_FPGA, TEMP_ADC};
+enum ADCINDEX { TEMP_FPGA, TEMP_ADC };
-enum DACINDEX				        {G_VREF_DS, G_VCASCN_PB, G_VCASCP_PB, G_VOUT_CM, G_VCASC_OUT, G_VIN_CM, G_VREF_COMP, G_IB_TESTC};
+enum DACINDEX {
-enum CLKINDEX                      	{ADC_CLK, NUM_CLOCKS};
+    G_VREF_DS,
-#define CLK_NAMES					"adc"
+    G_VCASCN_PB,
+    G_VCASCP_PB,
+    G_VOUT_CM,
+    G_VCASC_OUT,
+    G_VIN_CM,
+    G_VREF_COMP,
+    G_IB_TESTC
+};
+enum CLKINDEX { ADC_CLK, NUM_CLOCKS };
+#define CLK_NAMES "adc"
 
-#define DEFAULT_DAC_VALS   	        { 	                        \
+#define DEFAULT_DAC_VALS                                                       \
-                                    660,    /* G_VREF_DS */     \
+    {                                                                          \
-                                    650,    /* G_VCASCN_PB */   \
+        660,  /* G_VREF_DS */                                                  \
-                                    1480,   /* G_VCASCP_PB */   \
+        650,  /* G_VCASCN_PB */                                                \
-                                    1520,   /* G_VOUT_CM */     \
+        1480, /* G_VCASCP_PB */                                                \
-                                    1320,   /* G_VCASC_OUT */   \
+        1520, /* G_VOUT_CM */                                                  \
-                                    1350,   /* G_VIN_CM */      \
+        1320, /* G_VCASC_OUT */                                                \
-                                    350,    /* G_VREF_COMP */   \
+        1350, /* G_VIN_CM */                                                   \
-                                    2001    /* G_IB_TESTC */    \
+        350,  /* G_VREF_COMP */                                                \
-                                    };
+        2001  /* G_IB_TESTC */                                                 \
+    };
 
 /* for 25 um */
-#define CONFIG_FILE                 "config.txt"
+#define CONFIG_FILE "config.txt"
 
 /* Hardware Definitions */
-#define NCHAN 						(128)
+#define NCHAN              (128)
-#define NCHIP 						(10)
+#define NCHIP              (10)
-#define NDAC 						(8)
+#define NDAC               (8)
-#define NCHIPS_PER_ADC              (2)
+#define NCHIPS_PER_ADC     (2)
-#define NCHAN_PER_ADC               (256)
+#define NCHAN_PER_ADC      (256)
-#define DYNAMIC_RANGE				(16)
+#define DYNAMIC_RANGE      (16)
-#define NUM_BITS_PER_PIXEL			(DYNAMIC_RANGE / 8)
+#define NUM_BITS_PER_PIXEL (DYNAMIC_RANGE / 8)
-#define DATA_BYTES					(NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
+#define DATA_BYTES         (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
-#define CLK_FREQ					(32007729)	/* Hz */
+#define CLK_FREQ           (32007729) /* Hz */
 
 /** Firmware Definitions */
-#define IP_PACKET_SIZE_NO_ROI       (NCHIP * (NCHAN / 2) * 2 + 14 + 20)     // 2 packets, so divide by 2
+#define IP_PACKET_SIZE_NO_ROI                                                  \
-#define IP_PACKET_SIZE_ROI          (NCHIPS_PER_ADC * NCHAN * 2 + 14 + 20)
+    (NCHIP * (NCHAN / 2) * 2 + 14 + 20) // 2 packets, so divide by 2
+#define IP_PACKET_SIZE_ROI (NCHIPS_PER_ADC * NCHAN * 2 + 14 + 20)
 
-#define UDP_PACKETSIZE_NO_ROI       (NCHIP * (NCHAN / 2) * 2 + 4 + 8 + 2)  // 2 packets, so divide by 2
+#define UDP_PACKETSIZE_NO_ROI                                                  \
-#define UDP_PACKETSIZE_ROI          (NCHIPS_PER_ADC * NCHAN * 2 + 4 + 8 + 2)
+    (NCHIP * (NCHAN / 2) * 2 + 4 + 8 + 2) // 2 packets, so divide by 2
+#define UDP_PACKETSIZE_ROI (NCHIPS_PER_ADC * NCHAN * 2 + 4 + 8 + 2)
 
 /** Default Parameters */
-#define DEFAULT_NUM_FRAMES			(1)
+#define DEFAULT_NUM_FRAMES   (1)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES   (1)
-#define DEFAULT_EXPTIME				(1 * 1000 * 1000)	        // 1 ms
+#define DEFAULT_EXPTIME      (1 * 1000 * 1000)        // 1 ms
-#define DEFAULT_PERIOD				(1 * 1000 * 1000 * 1000)	// 1 s
+#define DEFAULT_PERIOD       (1 * 1000 * 1000 * 1000) // 1 s
-#define DEFAULT_DELAY				(0)
+#define DEFAULT_DELAY        (0)
-#define DEFAULT_SETTINGS            (DYNAMICGAIN)
+#define DEFAULT_SETTINGS     (DYNAMICGAIN)
-#define DEFAULT_TIMING_MODE         (AUTO_TIMING)
+#define DEFAULT_TIMING_MODE  (AUTO_TIMING)
-#define DEFAULT_TRIGGER_MODE        (TRIGGER_IN_RISING_EDGE)
+#define DEFAULT_TRIGGER_MODE (TRIGGER_IN_RISING_EDGE)
-#define DEFAULT_HIGH_VOLTAGE		(0)
+#define DEFAULT_HIGH_VOLTAGE (0)
-#define DEFAULT_PHASE_SHIFT         (120)
+#define DEFAULT_PHASE_SHIFT  (120)
-#define DEFAULT_TX_UDP_PORT         (0xE185)
+#define DEFAULT_TX_UDP_PORT  (0xE185)
 
-#define DAC_MIN_MV                  (0)
+#define DAC_MIN_MV (0)
-#define DAC_MAX_MV                  (2500)
+#define DAC_MAX_MV (2500)
 
 /** ENEt conf structs */
-typedef struct mac_header_struct{
+typedef struct mac_header_struct {
-    u_int8_t    mac_dest_mac2;
+    u_int8_t mac_dest_mac2;
-    u_int8_t    mac_dest_mac1;
+    u_int8_t mac_dest_mac1;
-    u_int8_t    mac_dummy1;
+    u_int8_t mac_dummy1;
-    u_int8_t    mac_dummy2;
+    u_int8_t mac_dummy2;
-    u_int8_t    mac_dest_mac6;
+    u_int8_t mac_dest_mac6;
-    u_int8_t    mac_dest_mac5;
+    u_int8_t mac_dest_mac5;
-    u_int8_t    mac_dest_mac4;
+    u_int8_t mac_dest_mac4;
-    u_int8_t    mac_dest_mac3;
+    u_int8_t mac_dest_mac3;
-    u_int8_t    mac_src_mac4;
+    u_int8_t mac_src_mac4;
-    u_int8_t    mac_src_mac3;
+    u_int8_t mac_src_mac3;
-    u_int8_t    mac_src_mac2;
+    u_int8_t mac_src_mac2;
-    u_int8_t    mac_src_mac1;
+    u_int8_t mac_src_mac1;
-    u_int16_t   mac_ether_type;
+    u_int16_t mac_ether_type;
-    u_int8_t    mac_src_mac6;
+    u_int8_t mac_src_mac6;
-    u_int8_t    mac_src_mac5;
+    u_int8_t mac_src_mac5;
 } mac_header;
 
 typedef struct ip_header_struct {
-    u_int16_t     ip_len;
+    u_int16_t ip_len;
-    u_int8_t      ip_tos;
+    u_int8_t ip_tos;
-    u_int8_t      ip_ihl:4 ,ip_ver:4;
+    u_int8_t ip_ihl : 4, ip_ver : 4;
-    u_int16_t     ip_offset:13,ip_flag:3;
+    u_int16_t ip_offset : 13, ip_flag : 3;
-    u_int16_t     ip_ident;
+    u_int16_t ip_ident;
-    u_int16_t     ip_chksum;
+    u_int16_t ip_chksum;
-    u_int8_t      ip_protocol;
+    u_int8_t ip_protocol;
-    u_int8_t      ip_ttl;
+    u_int8_t ip_ttl;
-    u_int32_t     ip_sourceip;
+    u_int32_t ip_sourceip;
-    u_int32_t     ip_destip;
+    u_int32_t ip_destip;
 } ip_header;
 
-typedef struct udp_header_struct{
+typedef struct udp_header_struct {
-    u_int16_t   udp_destport;
+    u_int16_t udp_destport;
-    u_int16_t   udp_srcport;
+    u_int16_t udp_srcport;
-    u_int16_t   udp_chksum;
+    u_int16_t udp_chksum;
-    u_int16_t   udp_len;
+    u_int16_t udp_len;
 } udp_header;
 
-typedef struct mac_conf_struct{
+typedef struct mac_conf_struct {
-    mac_header  mac;
+    mac_header mac;
-    ip_header   ip;
+    ip_header ip;
-    udp_header  udp;
+    udp_header udp;
-    u_int32_t   npack;
+    u_int32_t npack;
-    u_int32_t   lpack;
+    u_int32_t lpack;
-    u_int32_t   npad;
+    u_int32_t npad;
-    u_int32_t   cdone;
+    u_int32_t cdone;
 } mac_conf;
 
-typedef struct tse_conf_struct{
+typedef struct tse_conf_struct {
-    u_int32_t   rev;                    //0x0
+    u_int32_t rev; // 0x0
-    u_int32_t   scratch;
+    u_int32_t scratch;
-    u_int32_t   command_config;
+    u_int32_t command_config;
-    u_int32_t   mac_0;                  //0x3
+    u_int32_t mac_0; // 0x3
-    u_int32_t   mac_1;
+    u_int32_t mac_1;
-    u_int32_t   frm_length;
+    u_int32_t frm_length;
-    u_int32_t   pause_quant;
+    u_int32_t pause_quant;
-    u_int32_t   rx_section_empty;       //0x7
+    u_int32_t rx_section_empty; // 0x7
-    u_int32_t   rx_section_full;
+    u_int32_t rx_section_full;
-    u_int32_t   tx_section_empty;
+    u_int32_t tx_section_empty;
-    u_int32_t   tx_section_full;
+    u_int32_t tx_section_full;
-    u_int32_t   rx_almost_empty;        //0xB
+    u_int32_t rx_almost_empty; // 0xB
-    u_int32_t   rx_almost_full;
+    u_int32_t rx_almost_full;
-    u_int32_t   tx_almost_empty;
+    u_int32_t tx_almost_empty;
-    u_int32_t   tx_almost_full;
+    u_int32_t tx_almost_full;
-    u_int32_t   mdio_addr0;             //0xF
+    u_int32_t mdio_addr0; // 0xF
-    u_int32_t   mdio_addr1;
+    u_int32_t mdio_addr1;
-}tse_conf;
+} tse_conf;
-

slsDetectorServers/jungfrauDetectorServer/RegisterDefs.h

@@ -4,441 +4,495 @@
 #define MEM_MAP_SHIFT 1
 
 /* FPGA Version register */
-#define FPGA_VERSION_REG      			(0x00 << MEM_MAP_SHIFT)
+#define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT)
-
-#define FPGA_COMPILATION_DATE_OFST		(0)
-#define FPGA_COMPILATION_DATE_MSK		(0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
-#define DETECTOR_TYPE_OFST   			(24)
-#define DETECTOR_TYPE_MSK   			(0x000000FF << DETECTOR_TYPE_OFST)
-
 
+#define FPGA_COMPILATION_DATE_OFST (0)
+#define FPGA_COMPILATION_DATE_MSK  (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
+#define DETECTOR_TYPE_OFST         (24)
+#define DETECTOR_TYPE_MSK          (0x000000FF << DETECTOR_TYPE_OFST)
 
 /* Fix pattern register */
-#define FIX_PATT_REG          			(0x01 << MEM_MAP_SHIFT)
+#define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT)
 
-#define FIX_PATT_VAL                    (0xACDC2014)
+#define FIX_PATT_VAL (0xACDC2014)
 
 /* Status register */
-#define STATUS_REG            			(0x02 << MEM_MAP_SHIFT)
+#define STATUS_REG (0x02 << MEM_MAP_SHIFT)
-
-#define RUN_BUSY_OFST					(0)
-#define RUN_BUSY_MSK      				(0x00000001 << RUN_BUSY_OFST)
-#define WAITING_FOR_TRIGGER_OFST  		(3)
-#define WAITING_FOR_TRIGGER_MSK  		(0x00000001 << WAITING_FOR_TRIGGER_OFST)
-#define DELAYBEFORE_OFST  				(4)											//Not used in software
-#define DELAYBEFORE_MSK  				(0x00000001 << DELAYBEFORE_OFST)			//Not used in software
-#define DELAYAFTER_OFST  				(5)											//Not used in software
-#define DELAYAFTER_MSK  				(0x00000001 << DELAYAFTER_OFST)				//Not used in software
-#define STOPPED_OFST  					(15)
-#define STOPPED_MSK  					(0x00000001 << STOPPED_OFST)
-#define RUNMACHINE_BUSY_OFST  			(17)
-#define RUNMACHINE_BUSY_MSK  			(0x00000001 << RUNMACHINE_BUSY_OFST)
 
+#define RUN_BUSY_OFST            (0)
+#define RUN_BUSY_MSK             (0x00000001 << RUN_BUSY_OFST)
+#define WAITING_FOR_TRIGGER_OFST (3)
+#define WAITING_FOR_TRIGGER_MSK  (0x00000001 << WAITING_FOR_TRIGGER_OFST)
+#define DELAYBEFORE_OFST         (4) // Not used in software
+#define DELAYBEFORE_MSK          (0x00000001 << DELAYBEFORE_OFST) // Not used in software
+#define DELAYAFTER_OFST          (5) // Not used in software
+#define DELAYAFTER_MSK           (0x00000001 << DELAYAFTER_OFST) // Not used in software
+#define STOPPED_OFST             (15)
+#define STOPPED_MSK              (0x00000001 << STOPPED_OFST)
+#define RUNMACHINE_BUSY_OFST     (17)
+#define RUNMACHINE_BUSY_MSK      (0x00000001 << RUNMACHINE_BUSY_OFST)
 
 /* Look at me register */
-#define LOOK_AT_ME_REG          		(0x03 << MEM_MAP_SHIFT)								//Not used in firmware or software
+#define LOOK_AT_ME_REG                                                         \
+    (0x03 << MEM_MAP_SHIFT) // Not used in firmware or software
 
 /* System Status register */
-#define SYSTEM_STATUS_REG       		(0x04 << MEM_MAP_SHIFT)								//Not used in software
+#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT) // Not used in software
-
-#define DDR3_CAL_DONE_OFST				(0)											//Not used in software
-#define DDR3_CAL_DONE_MSK 				(0x00000001 << DDR3_CAL_DONE_OFST)			//Not used in software
-#define DDR3_CAL_FAIL_OFST				(1)											//Not used in software
-#define DDR3_CAL_FAIL_MSK 				(0x00000001 << DDR3_CAL_FAIL_OFST)			//Not used in software
-#define DDR3_INIT_DONE_OFST				(2)											//Not used in software
-#define DDR3_INIT_DONE_MSK 				(0x00000001 << DDR3_INIT_DONE_OFST)			//Not used in software
-#define RECONFIG_PLL_LCK_OFST			(3)											//Not used in software
-#define RECONFIG_PLL_LCK_MSK 			(0x00000001 << RECONFIG_PLL_LCK_OFST)		//Not used in software
-#define PLL_A_LCK_OFST					(4)											//Not used in software
-#define PLL_A_LCK_MSK 					(0x00000001 << PLL_A_LCK_OFST)				//Not used in software
-#define DD3_PLL_LCK_OFST				(5)											//Not used in software
-#define DD3_PLL_LCK_MSK 				(0x00000001 << DD3_PLL_LCK_OFST)			//Not used in software
 
+#define DDR3_CAL_DONE_OFST (0) // Not used in software
+#define DDR3_CAL_DONE_MSK                                                      \
+    (0x00000001 << DDR3_CAL_DONE_OFST) // Not used in software
+#define DDR3_CAL_FAIL_OFST (1)         // Not used in software
+#define DDR3_CAL_FAIL_MSK                                                      \
+    (0x00000001 << DDR3_CAL_FAIL_OFST) // Not used in software
+#define DDR3_INIT_DONE_OFST (2)        // Not used in software
+#define DDR3_INIT_DONE_MSK                                                     \
+    (0x00000001 << DDR3_INIT_DONE_OFST) // Not used in software
+#define RECONFIG_PLL_LCK_OFST (3)       // Not used in software
+#define RECONFIG_PLL_LCK_MSK                                                   \
+    (0x00000001 << RECONFIG_PLL_LCK_OFST)               // Not used in software
+#define PLL_A_LCK_OFST   (4)                            // Not used in software
+#define PLL_A_LCK_MSK    (0x00000001 << PLL_A_LCK_OFST) // Not used in software
+#define DD3_PLL_LCK_OFST (5)                            // Not used in software
+#define DD3_PLL_LCK_MSK  (0x00000001 << DD3_PLL_LCK_OFST) // Not used in software
 
 /* Module Control Board Serial Number Register */
-#define MOD_SERIAL_NUM_REG				(0x0A << MEM_MAP_SHIFT)								
+#define MOD_SERIAL_NUM_REG (0x0A << MEM_MAP_SHIFT)
-
-#define HARDWARE_SERIAL_NUM_OFST		(0)											
-#define HARDWARE_SERIAL_NUM_MSK			(0x000000FF << HARDWARE_SERIAL_NUM_OFST)	
-#define HARDWARE_VERSION_NUM_OFST		(16)										
-#define HARDWARE_VERSION_NUM_MSK		(0x0000003F << HARDWARE_VERSION_NUM_OFST)	
-#define HARDWARE_VERSION_2_VAL          ((0x2 << HARDWARE_VERSION_NUM_OFST) & HARDWARE_VERSION_NUM_MSK)
 
+#define HARDWARE_SERIAL_NUM_OFST  (0)
+#define HARDWARE_SERIAL_NUM_MSK   (0x000000FF << HARDWARE_SERIAL_NUM_OFST)
+#define HARDWARE_VERSION_NUM_OFST (16)
+#define HARDWARE_VERSION_NUM_MSK  (0x0000003F << HARDWARE_VERSION_NUM_OFST)
+#define HARDWARE_VERSION_2_VAL                                                 \
+    ((0x2 << HARDWARE_VERSION_NUM_OFST) & HARDWARE_VERSION_NUM_MSK)
 
 /* API Version Register */
-#define API_VERSION_REG                 (0x0F << MEM_MAP_SHIFT)
+#define API_VERSION_REG (0x0F << MEM_MAP_SHIFT)
 
-#define API_VERSION_OFST                (0)
+#define API_VERSION_OFST               (0)
-#define API_VERSION_MSK                 (0x00FFFFFF << API_VERSION_OFST)
+#define API_VERSION_MSK                (0x00FFFFFF << API_VERSION_OFST)
-#define API_VERSION_DETECTOR_TYPE_OFST  (24)                                            //Not used in software
+#define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software
-#define API_VERSION_DETECTOR_TYPE_MSK   (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST)  //Not used in software
+#define API_VERSION_DETECTOR_TYPE_MSK                                          \
+    (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
 
 /* Time from Start 64 bit register */
-#define TIME_FROM_START_LSB_REG   		(0x10 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT)
-#define TIME_FROM_START_MSB_REG   		(0x11 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT)
 
 /* Get Delay 64 bit register */
-#define GET_DELAY_LSB_REG     			(0x12 << MEM_MAP_SHIFT)						// different kind of delay
+#define GET_DELAY_LSB_REG (0x12 << MEM_MAP_SHIFT) // different kind of delay
-#define GET_DELAY_MSB_REG     			(0x13 << MEM_MAP_SHIFT)						// different kind of delay
+#define GET_DELAY_MSB_REG (0x13 << MEM_MAP_SHIFT) // different kind of delay
 
 /* Get Triggers 64 bit register */
-#define GET_CYCLES_LSB_REG    			(0x14 << MEM_MAP_SHIFT)
+#define GET_CYCLES_LSB_REG (0x14 << MEM_MAP_SHIFT)
-#define GET_CYCLES_MSB_REG    			(0x15 << MEM_MAP_SHIFT)
+#define GET_CYCLES_MSB_REG (0x15 << MEM_MAP_SHIFT)
 
 /* Get Frames 64 bit register */
-#define GET_FRAMES_LSB_REG   			(0x16 << MEM_MAP_SHIFT)
+#define GET_FRAMES_LSB_REG (0x16 << MEM_MAP_SHIFT)
-#define GET_FRAMES_MSB_REG    			(0x17 << MEM_MAP_SHIFT)
+#define GET_FRAMES_MSB_REG (0x17 << MEM_MAP_SHIFT)
 
 /* Get Period 64 bit register tT = T x 50 ns */
-#define GET_PERIOD_LSB_REG    			(0x18 << MEM_MAP_SHIFT)
+#define GET_PERIOD_LSB_REG (0x18 << MEM_MAP_SHIFT)
-#define GET_PERIOD_MSB_REG    			(0x19 << MEM_MAP_SHIFT)
+#define GET_PERIOD_MSB_REG (0x19 << MEM_MAP_SHIFT)
 
 /** Get Temperature Carlos, incorrectl as get gates */
-#define GET_TEMPERATURE_TMP112_REG		(0x1c << MEM_MAP_SHIFT)							// (after multiplying by 625) in 10ths of millidegrees of TMP112
+#define GET_TEMPERATURE_TMP112_REG                                             \
+    (0x1c << MEM_MAP_SHIFT) // (after multiplying by 625) in 10ths of
+                            // millidegrees of TMP112
 
-#define TEMPERATURE_VALUE_BIT           (0)
+#define TEMPERATURE_VALUE_BIT    (0)
-#define TEMPERATURE_VALUE_MSK           (0x000007FF << TEMPERATURE_VALUE_BIT)
+#define TEMPERATURE_VALUE_MSK    (0x000007FF << TEMPERATURE_VALUE_BIT)
-#define TEMPERATURE_POLARITY_BIT		(11)
+#define TEMPERATURE_POLARITY_BIT (11)
-#define TEMPERATURE_POLARITY_MSK		(0x00000001 << TEMPERATURE_POLARITY_BIT)
+#define TEMPERATURE_POLARITY_MSK (0x00000001 << TEMPERATURE_POLARITY_BIT)
 
-/* Get Frames from Start 64 bit register (frames from last reset using CONTROL_CRST) */
+/* Get Frames from Start 64 bit register (frames from last reset using
-#define FRAMES_FROM_START_LSB_REG	    (0x22 << MEM_MAP_SHIFT)
+ * CONTROL_CRST) */
-#define FRAMES_FROM_START_MSB_REG 	    (0x23 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_LSB_REG (0x22 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_MSB_REG (0x23 << MEM_MAP_SHIFT)
 
 /* Get Starting Frame Number */
-#define GET_FRAME_NUMBER_LSB_REG	    (0x24 << MEM_MAP_SHIFT)
+#define GET_FRAME_NUMBER_LSB_REG (0x24 << MEM_MAP_SHIFT)
-#define GET_FRAME_NUMBER_MSB_REG 	    (0x25 << MEM_MAP_SHIFT)
+#define GET_FRAME_NUMBER_MSB_REG (0x25 << MEM_MAP_SHIFT)
 
 /* Measurement Time 64 bit register (timestamp at a frame start until reset)*/
-#define START_FRAME_TIME_LSB_REG		(0x26 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_LSB_REG (0x26 << MEM_MAP_SHIFT)
-#define START_FRAME_TIME_MSB_REG 		(0x27 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_MSB_REG (0x27 << MEM_MAP_SHIFT)
 
 /* SPI (Serial Peripheral Interface) Register */
-#define SPI_REG							(0x40 << MEM_MAP_SHIFT)
+#define SPI_REG (0x40 << MEM_MAP_SHIFT)
 
-#define SPI_DAC_SRL_DGTL_OTPT_OFST          (0)
+#define SPI_DAC_SRL_DGTL_OTPT_OFST (0)
-#define SPI_DAC_SRL_DGTL_OTPT_MSK           (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
+#define SPI_DAC_SRL_DGTL_OTPT_MSK  (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
-#define SPI_DAC_SRL_CLK_OTPT_OFST           (1)
+#define SPI_DAC_SRL_CLK_OTPT_OFST  (1)
-#define SPI_DAC_SRL_CLK_OTPT_MSK            (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
+#define SPI_DAC_SRL_CLK_OTPT_MSK   (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
-#define SPI_DAC_SRL_CS_OTPT_OFST            (2)
+#define SPI_DAC_SRL_CS_OTPT_OFST   (2)
-#define SPI_DAC_SRL_CS_OTPT_MSK             (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
+#define SPI_DAC_SRL_CS_OTPT_MSK    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
-#define SPI_HV_SRL_DGTL_OTPT_OFST           (8)
+#define SPI_HV_SRL_DGTL_OTPT_OFST  (8)
-#define SPI_HV_SRL_DGTL_OTPT_MSK            (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
+#define SPI_HV_SRL_DGTL_OTPT_MSK   (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
-#define SPI_HV_SRL_CLK_OTPT_OFST            (9)
+#define SPI_HV_SRL_CLK_OTPT_OFST   (9)
-#define SPI_HV_SRL_CLK_OTPT_MSK             (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
+#define SPI_HV_SRL_CLK_OTPT_MSK    (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
-#define SPI_HV_SRL_CS_OTPT_OFST             (10)
+#define SPI_HV_SRL_CS_OTPT_OFST    (10)
-#define SPI_HV_SRL_CS_OTPT_MSK              (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
+#define SPI_HV_SRL_CS_OTPT_MSK     (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
 
 /* ADC SPI (Serial Peripheral Interface) Register */
-#define ADC_SPI_REG   					(0x41 << MEM_MAP_SHIFT)
+#define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT)
 
-#define ADC_SPI_SRL_CLK_OTPT_OFST       (0)
+#define ADC_SPI_SRL_CLK_OTPT_OFST (0)
-#define ADC_SPI_SRL_CLK_OTPT_MSK        (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
+#define ADC_SPI_SRL_CLK_OTPT_MSK  (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
-#define ADC_SPI_SRL_DT_OTPT_OFST        (1)
+#define ADC_SPI_SRL_DT_OTPT_OFST  (1)
-#define ADC_SPI_SRL_DT_OTPT_MSK         (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
+#define ADC_SPI_SRL_DT_OTPT_MSK   (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
-#define ADC_SPI_SRL_CS_OTPT_OFST        (2)
+#define ADC_SPI_SRL_CS_OTPT_OFST  (2)
-#define ADC_SPI_SRL_CS_OTPT_MSK         (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
+#define ADC_SPI_SRL_CS_OTPT_MSK   (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
 
 /* ADC offset Register */
-#define ADC_OFST_REG 					(0x42 << MEM_MAP_SHIFT)
+#define ADC_OFST_REG (0x42 << MEM_MAP_SHIFT)
 
 /* ADC Port Invert Register */
-#define ADC_PORT_INVERT_REG   			(0x43 << MEM_MAP_SHIFT)
+#define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT)
 
-#define ADC_PORT_INVERT_ADC_0_OFST      (0)
+#define ADC_PORT_INVERT_ADC_0_OFST (0)
-#define ADC_PORT_INVERT_ADC_0_MSK       (0x000000FF << ADC_PORT_INVERT_ADC_0_OFST)
+#define ADC_PORT_INVERT_ADC_0_MSK  (0x000000FF << ADC_PORT_INVERT_ADC_0_OFST)
-#define ADC_PORT_INVERT_ADC_1_OFST      (8)
+#define ADC_PORT_INVERT_ADC_1_OFST (8)
-#define ADC_PORT_INVERT_ADC_1_MSK       (0x000000FF << ADC_PORT_INVERT_ADC_1_OFST)
+#define ADC_PORT_INVERT_ADC_1_MSK  (0x000000FF << ADC_PORT_INVERT_ADC_1_OFST)
-#define ADC_PORT_INVERT_ADC_2_OFST      (16)
+#define ADC_PORT_INVERT_ADC_2_OFST (16)
-#define ADC_PORT_INVERT_ADC_2_MSK       (0x000000FF << ADC_PORT_INVERT_ADC_2_OFST)
+#define ADC_PORT_INVERT_ADC_2_MSK  (0x000000FF << ADC_PORT_INVERT_ADC_2_OFST)
-#define ADC_PORT_INVERT_ADC_3_OFST      (24)
+#define ADC_PORT_INVERT_ADC_3_OFST (24)
-#define ADC_PORT_INVERT_ADC_3_MSK       (0x000000FF << ADC_PORT_INVERT_ADC_3_OFST)
+#define ADC_PORT_INVERT_ADC_3_MSK  (0x000000FF << ADC_PORT_INVERT_ADC_3_OFST)
 
 /* Configuration Register */
-#define CONFIG_REG            			(0x4D << MEM_MAP_SHIFT)
+#define CONFIG_REG (0x4D << MEM_MAP_SHIFT)
 
-// readout timer (from chip) to stabilize (esp in burst acquisition mode) tRDT = (RDT + 1) * 25ns
+// readout timer (from chip) to stabilize (esp in burst acquisition mode) tRDT =
+// (RDT + 1) * 25ns
 #define CONFIG_RDT_TMR_OFST             (0)
 #define CONFIG_RDT_TMR_MSK              (0x0000FFFF << CONFIG_RDT_TMR_OFST)
 #define CONFIG_OPRTN_MDE_2_X_10GbE_OFST (16)
-#define CONFIG_OPRTN_MDE_2_X_10GbE_MSK  (0x00000001 << CONFIG_OPRTN_MDE_2_X_10GbE_OFST)
+#define CONFIG_OPRTN_MDE_2_X_10GbE_MSK                                         \
+    (0x00000001 << CONFIG_OPRTN_MDE_2_X_10GbE_OFST)
 // if 0, outer is the primary interface
 #define CONFIG_INNR_PRIMRY_INTRFCE_OFST (17)
-#define CONFIG_INNR_PRIMRY_INTRFCE_MSK  (0x00000001 << CONFIG_INNR_PRIMRY_INTRFCE_OFST)
+#define CONFIG_INNR_PRIMRY_INTRFCE_MSK                                         \
-#define CONFIG_READOUT_SPEED_OFST		(20)
+    (0x00000001 << CONFIG_INNR_PRIMRY_INTRFCE_OFST)
-#define CONFIG_READOUT_SPEED_MSK		(0x00000003 << CONFIG_READOUT_SPEED_OFST)
+#define CONFIG_READOUT_SPEED_OFST (20)
-#define CONFIG_QUARTER_SPEED_10MHZ_VAL	((0x0 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
+#define CONFIG_READOUT_SPEED_MSK  (0x00000003 << CONFIG_READOUT_SPEED_OFST)
-#define CONFIG_HALF_SPEED_20MHZ_VAL		((0x1 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
+#define CONFIG_QUARTER_SPEED_10MHZ_VAL                                         \
-#define CONFIG_FULL_SPEED_40MHZ_VAL		((0x2 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
+    ((0x0 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
-#define CONFIG_TDMA_ENABLE_OFST			(24)
+#define CONFIG_HALF_SPEED_20MHZ_VAL                                            \
-#define CONFIG_TDMA_ENABLE_MSK			(0x00000001 << CONFIG_TDMA_ENABLE_OFST)
+    ((0x1 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
-#define CONFIG_TDMA_TIMESLOT_OFST       (25)  // 1ms
+#define CONFIG_FULL_SPEED_40MHZ_VAL                                            \
-#define CONFIG_TDMA_TIMESLOT_MSK		(0x0000001F << CONFIG_TDMA_TIMESLOT_OFST)
+    ((0x2 << CONFIG_READOUT_SPEED_OFST) & CONFIG_READOUT_SPEED_MSK)
-#define CONFIG_ETHRNT_FLW_CNTRL_OFST    (31)
+#define CONFIG_TDMA_ENABLE_OFST      (24)
-#define CONFIG_ETHRNT_FLW_CNTRL_MSK     (0x00000001 << CONFIG_ETHRNT_FLW_CNTRL_OFST)
+#define CONFIG_TDMA_ENABLE_MSK       (0x00000001 << CONFIG_TDMA_ENABLE_OFST)
+#define CONFIG_TDMA_TIMESLOT_OFST    (25) // 1ms
+#define CONFIG_TDMA_TIMESLOT_MSK     (0x0000001F << CONFIG_TDMA_TIMESLOT_OFST)
+#define CONFIG_ETHRNT_FLW_CNTRL_OFST (31)
+#define CONFIG_ETHRNT_FLW_CNTRL_MSK  (0x00000001 << CONFIG_ETHRNT_FLW_CNTRL_OFST)
 
 /* External Signal Register */
-#define EXT_SIGNAL_REG        			(0x4E << MEM_MAP_SHIFT)
+#define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT)
 
-#define EXT_SIGNAL_OFST					(0)
+#define EXT_SIGNAL_OFST (0)
-#define EXT_SIGNAL_MSK					(0x00000001 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK  (0x00000001 << EXT_SIGNAL_OFST)
 
 /* Control Register */
-#define CONTROL_REG           			(0x4F << MEM_MAP_SHIFT)
+#define CONTROL_REG (0x4F << MEM_MAP_SHIFT)
 
-#define CONTROL_START_ACQ_OFST       	(0)
+#define CONTROL_START_ACQ_OFST      (0)
-#define CONTROL_START_ACQ_MSK			(0x00000001 << CONTROL_START_ACQ_OFST)
+#define CONTROL_START_ACQ_MSK       (0x00000001 << CONTROL_START_ACQ_OFST)
-#define CONTROL_STOP_ACQ_OFST			(1)
+#define CONTROL_STOP_ACQ_OFST       (1)
-#define CONTROL_STOP_ACQ_MSK			(0x00000001 << CONTROL_STOP_ACQ_OFST)
+#define CONTROL_STOP_ACQ_MSK        (0x00000001 << CONTROL_STOP_ACQ_OFST)
-#define CONTROL_CORE_RST_OFST			(10)
+#define CONTROL_CORE_RST_OFST       (10)
-#define CONTROL_CORE_RST_MSK			(0x00000001 << CONTROL_CORE_RST_OFST)
+#define CONTROL_CORE_RST_MSK        (0x00000001 << CONTROL_CORE_RST_OFST)
-#define CONTROL_PERIPHERAL_RST_OFST		(11)										//DDR3 HMem Ctrlr, GBE, Temp
+#define CONTROL_PERIPHERAL_RST_OFST (11) // DDR3 HMem Ctrlr, GBE, Temp
-#define CONTROL_PERIPHERAL_RST_MSK		(0x00000001 << CONTROL_PERIPHERAL_RST_OFST)	//DDR3 HMem Ctrlr, GBE, Temp
+#define CONTROL_PERIPHERAL_RST_MSK                                             \
-#define CONTROL_DDR3_MEM_RST_OFST		(12)										//only PHY, not DDR3 PLL ,Not used in software
+    (0x00000001 << CONTROL_PERIPHERAL_RST_OFST) // DDR3 HMem Ctrlr, GBE, Temp
-#define CONTROL_DDR3_MEM_RST_MSK		(0x00000001 << CONTROL_DDR3_MEM_RST_OFST)	//only PHY, not DDR3 PLL ,Not used in software
+#define CONTROL_DDR3_MEM_RST_OFST                                              \
-#define CONTROL_ACQ_FIFO_CLR_OFST		(14)
+    (12) // only PHY, not DDR3 PLL ,Not used in software
-#define CONTROL_ACQ_FIFO_CLR_MSK		(0x00000001 << CONTROL_ACQ_FIFO_CLR_OFST)
+#define CONTROL_DDR3_MEM_RST_MSK                                               \
-#define CONTROL_STORAGE_CELL_NUM_OFST   (16)
+    (0x00000001 << CONTROL_DDR3_MEM_RST_OFST) // only PHY, not DDR3 PLL ,Not
-#define CONTROL_STORAGE_CELL_NUM_MSK    (0x0000000F << CONTROL_STORAGE_CELL_NUM_OFST)
+                                              // used in software
+#define CONTROL_ACQ_FIFO_CLR_OFST     (14)
+#define CONTROL_ACQ_FIFO_CLR_MSK      (0x00000001 << CONTROL_ACQ_FIFO_CLR_OFST)
+#define CONTROL_STORAGE_CELL_NUM_OFST (16)
+#define CONTROL_STORAGE_CELL_NUM_MSK                                           \
+    (0x0000000F << CONTROL_STORAGE_CELL_NUM_OFST)
 #define CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST (20)
-#define CONTROL_RX_ADDTNL_ENDPTS_NUM_MSK  (0x0000003F << CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST)
+#define CONTROL_RX_ADDTNL_ENDPTS_NUM_MSK                                       \
-#define CONTROL_RX_ENDPTS_START_OFST    (26)
+    (0x0000003F << CONTROL_RX_ADDTNL_ENDPTS_NUM_OFST)
-#define CONTROL_RX_ENDPTS_START_MSK     (0x0000003F << CONTROL_RX_ENDPTS_START_OFST)
+#define CONTROL_RX_ENDPTS_START_OFST (26)
-
+#define CONTROL_RX_ENDPTS_START_MSK  (0x0000003F << CONTROL_RX_ENDPTS_START_OFST)
-
 
 /* Reconfiguratble PLL Paramater Register */
-#define PLL_PARAM_REG					(0x50 << MEM_MAP_SHIFT)
+#define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT)
 
 /* Reconfiguratble PLL Control Regiser */
-#define PLL_CNTRL_REG					(0x51 << MEM_MAP_SHIFT)
+#define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT)
 
-#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST	(0)											//parameter reset
+#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0) // parameter reset
-#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK	(0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)	//parameter reset
+#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK                                          \
-#define PLL_CNTRL_WR_PRMTR_OFST		    (2)
+    (0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST) // parameter reset
-#define PLL_CNTRL_WR_PRMTR_MSK		    (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
+#define PLL_CNTRL_WR_PRMTR_OFST      (2)
-#define PLL_CNTRL_PLL_RST_OFST			(3)
+#define PLL_CNTRL_WR_PRMTR_MSK       (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
-#define PLL_CNTRL_PLL_RST_MSK			(0x00000001 << PLL_CNTRL_PLL_RST_OFST)
+#define PLL_CNTRL_PLL_RST_OFST       (3)
-#define PLL_CNTRL_DBIT_WR_PRMTR_OFST	(5)
+#define PLL_CNTRL_PLL_RST_MSK        (0x00000001 << PLL_CNTRL_PLL_RST_OFST)
-#define PLL_CNTRL_DBIT_WR_PRMTR_MSK		(0x00000001 << PLL_CNTRL_DBIT_WR_PRMTR_OFST)
+#define PLL_CNTRL_DBIT_WR_PRMTR_OFST (5)
-#define PLL_CNTRL_ADDR_OFST				(16)
+#define PLL_CNTRL_DBIT_WR_PRMTR_MSK  (0x00000001 << PLL_CNTRL_DBIT_WR_PRMTR_OFST)
-#define PLL_CNTRL_ADDR_MSK				(0x0000003F << PLL_CNTRL_ADDR_OFST)
+#define PLL_CNTRL_ADDR_OFST          (16)
+#define PLL_CNTRL_ADDR_MSK           (0x0000003F << PLL_CNTRL_ADDR_OFST)
 
 /* Sample Register */
-#define SAMPLE_REG 						(0x59 << MEM_MAP_SHIFT)
+#define SAMPLE_REG (0x59 << MEM_MAP_SHIFT)
 
-#define SAMPLE_ADC_SAMPLE_SEL_OFST		(0)
+#define SAMPLE_ADC_SAMPLE_SEL_OFST (0)
-#define SAMPLE_ADC_SAMPLE_SEL_MSK		(0x00000007 << SAMPLE_ADC_SAMPLE_SEL_OFST)
+#define SAMPLE_ADC_SAMPLE_SEL_MSK  (0x00000007 << SAMPLE_ADC_SAMPLE_SEL_OFST)
-#define SAMPLE_ADC_SAMPLE_0_VAL			((0x0 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_0_VAL                                                \
-#define SAMPLE_ADC_SAMPLE_1_VAL			((0x1 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+    ((0x0 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
-#define SAMPLE_ADC_SAMPLE_2_VAL			((0x2 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_1_VAL                                                \
-#define SAMPLE_ADC_SAMPLE_3_VAL			((0x3 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+    ((0x1 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
-#define SAMPLE_ADC_SAMPLE_4_VAL			((0x4 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_2_VAL                                                \
-#define SAMPLE_ADC_SAMPLE_5_VAL			((0x5 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+    ((0x2 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
-#define SAMPLE_ADC_SAMPLE_6_VAL			((0x6 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_3_VAL                                                \
-#define SAMPLE_ADC_SAMPLE_7_VAL			((0x7 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+    ((0x3 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_4_VAL                                                \
+    ((0x4 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_5_VAL                                                \
+    ((0x5 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_6_VAL                                                \
+    ((0x6 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
+#define SAMPLE_ADC_SAMPLE_7_VAL                                                \
+    ((0x7 << SAMPLE_ADC_SAMPLE_SEL_OFST) & SAMPLE_ADC_SAMPLE_SEL_MSK)
 // Decimation = ADF + 1
-#define SAMPLE_ADC_DECMT_FACTOR_OFST	(4)
+#define SAMPLE_ADC_DECMT_FACTOR_OFST (4)
-#define SAMPLE_ADC_DECMT_FACTOR_MSK		(0x00000007 << SAMPLE_ADC_DECMT_FACTOR_OFST)
+#define SAMPLE_ADC_DECMT_FACTOR_MSK  (0x00000007 << SAMPLE_ADC_DECMT_FACTOR_OFST)
-#define SAMPLE_ADC_DECMT_FACTOR_0_VAL	((0x0 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_0_VAL                                          \
-#define SAMPLE_ADC_DECMT_FACTOR_1_VAL	((0x1 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+    ((0x0 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
-#define SAMPLE_ADC_DECMT_FACTOR_2_VAL	((0x2 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_1_VAL                                          \
-#define SAMPLE_ADC_DECMT_FACTOR_3_VAL	((0x3 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+    ((0x1 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
-#define SAMPLE_ADC_DECMT_FACTOR_4_VAL	((0x4 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_2_VAL                                          \
-#define SAMPLE_ADC_DECMT_FACTOR_5_VAL	((0x5 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+    ((0x2 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
-#define SAMPLE_ADC_DECMT_FACTOR_6_VAL	((0x6 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_3_VAL                                          \
-#define SAMPLE_ADC_DECMT_FACTOR_7_VAL	((0x7 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+    ((0x3 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_4_VAL                                          \
+    ((0x4 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_5_VAL                                          \
+    ((0x5 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_6_VAL                                          \
+    ((0x6 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
+#define SAMPLE_ADC_DECMT_FACTOR_7_VAL                                          \
+    ((0x7 << SAMPLE_ADC_DECMT_FACTOR_OFST) & SAMPLE_ADC_DECMT_FACTOR_MSK)
 
-#define SAMPLE_DGTL_SAMPLE_SEL_OFST		(8)
+#define SAMPLE_DGTL_SAMPLE_SEL_OFST (8)
-#define SAMPLE_DGTL_SAMPLE_SEL_MSK		(0x0000000F << SAMPLE_DGTL_SAMPLE_SEL_OFST)
+#define SAMPLE_DGTL_SAMPLE_SEL_MSK  (0x0000000F << SAMPLE_DGTL_SAMPLE_SEL_OFST)
-#define SAMPLE_DGTL_SAMPLE_0_VAL		((0x0 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_0_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_1_VAL		((0x1 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x0 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_2_VAL		((0x2 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_1_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_3_VAL		((0x3 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x1 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_4_VAL		((0x4 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_2_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_5_VAL		((0x5 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x2 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_6_VAL		((0x6 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_3_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_7_VAL		((0x7 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x3 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_8_VAL		((0x8 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_4_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_9_VAL		((0x9 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x4 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_10_VAL		((0xa << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_5_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_11_VAL		((0xb << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x5 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_12_VAL		((0xc << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_6_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_13_VAL		((0xd << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x6 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
-#define SAMPLE_DGTL_SAMPLE_14_VAL		((0xe << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_7_VAL                                               \
-#define SAMPLE_DGTL_SAMPLE_15_VAL		((0xf << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+    ((0x7 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_8_VAL                                               \
+    ((0x8 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_9_VAL                                               \
+    ((0x9 << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_10_VAL                                              \
+    ((0xa << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_11_VAL                                              \
+    ((0xb << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_12_VAL                                              \
+    ((0xc << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_13_VAL                                              \
+    ((0xd << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_14_VAL                                              \
+    ((0xe << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
+#define SAMPLE_DGTL_SAMPLE_15_VAL                                              \
+    ((0xf << SAMPLE_DGTL_SAMPLE_SEL_OFST) & SAMPLE_DGTL_SAMPLE_SEL_MSK)
 
-#define SAMPLE_DGTL_DECMT_FACTOR_OFST	(12)
+#define SAMPLE_DGTL_DECMT_FACTOR_OFST (12)
-#define SAMPLE_DGTL_DECMT_FACTOR_MSK	(0x00000003 << SAMPLE_DGTL_DECMT_FACTOR_OFST)
+#define SAMPLE_DGTL_DECMT_FACTOR_MSK                                           \
-#define SAMPLE_DECMT_FACTOR_FULL_VAL	((0x0 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
+    (0x00000003 << SAMPLE_DGTL_DECMT_FACTOR_OFST)
-#define SAMPLE_DECMT_FACTOR_HALF_VAL	((0x1 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
+#define SAMPLE_DECMT_FACTOR_FULL_VAL                                           \
-#define SAMPLE_DECMT_FACTOR_QUARTER_VAL	((0x2 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
+    ((0x0 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
+#define SAMPLE_DECMT_FACTOR_HALF_VAL                                           \
+    ((0x1 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
+#define SAMPLE_DECMT_FACTOR_QUARTER_VAL                                        \
+    ((0x2 << SAMPLE_DGTL_DECMT_FACTOR_OFST) & SAMPLE_DGTL_DECMT_FACTOR_MSK)
 
 /** Vref Comp Mod Register */
-#define EXT_DAQ_CTRL_REG				(0x5C << MEM_MAP_SHIFT)
+#define EXT_DAQ_CTRL_REG (0x5C << MEM_MAP_SHIFT)
 
 #define EXT_DAQ_CTRL_VREF_COMP_OFST    (0)
 #define EXT_DAQ_CTRL_VREF_COMP_MSK     (0x00000FFF << EXT_DAQ_CTRL_VREF_COMP_OFST)
 #define EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST (15)
-#define EXT_DAQ_CTRL_CMP_LGC_ENBL_MSK  (0x00000001 << EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST)
+#define EXT_DAQ_CTRL_CMP_LGC_ENBL_MSK                                          \
-#define EXT_DAQ_CTRL_INPT_DETECT_OFST   (16)
+    (0x00000001 << EXT_DAQ_CTRL_CMP_LGC_ENBL_OFST)
-#define EXT_DAQ_CTRL_INPT_DETECT_MSK    (0x00000007 << EXT_DAQ_CTRL_INPT_DETECT_OFST)
+#define EXT_DAQ_CTRL_INPT_DETECT_OFST (16)
+#define EXT_DAQ_CTRL_INPT_DETECT_MSK                                           \
+    (0x00000007 << EXT_DAQ_CTRL_INPT_DETECT_OFST)
 #define EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST (19)
-#define EXT_DAQ_CTRL_INPT_DETECT_ENBL_MSK  (0x00000001 << EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST)
+#define EXT_DAQ_CTRL_INPT_DETECT_ENBL_MSK                                      \
-
+    (0x00000001 << EXT_DAQ_CTRL_INPT_DETECT_ENBL_OFST)
 
 /** DAQ Register */
-#define DAQ_REG							(0x5D << MEM_MAP_SHIFT)
+#define DAQ_REG (0x5D << MEM_MAP_SHIFT)
 
-#define DAQ_SETTINGS_MSK                (DAQ_HIGH_GAIN_MSK | DAQ_FIX_GAIN_MSK | DAQ_FRCE_SWTCH_GAIN_MSK)
+#define DAQ_SETTINGS_MSK                                                       \
-#define DAQ_HIGH_GAIN_OFST              (0)
+    (DAQ_HIGH_GAIN_MSK | DAQ_FIX_GAIN_MSK | DAQ_FRCE_SWTCH_GAIN_MSK)
-#define DAQ_HIGH_GAIN_MSK               (0x00000001 << DAQ_HIGH_GAIN_OFST)
+#define DAQ_HIGH_GAIN_OFST     (0)
-#define DAQ_FIX_GAIN_DYNMC_VAL          ((0x0 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK)
+#define DAQ_HIGH_GAIN_MSK      (0x00000001 << DAQ_HIGH_GAIN_OFST)
-#define DAQ_FIX_GAIN_HIGHGAIN_VAL       ((0x1 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK)
+#define DAQ_FIX_GAIN_DYNMC_VAL ((0x0 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK)
-#define DAQ_FIX_GAIN_OFST               (1)
+#define DAQ_FIX_GAIN_HIGHGAIN_VAL                                              \
-#define DAQ_FIX_GAIN_MSK                (0x00000003 << DAQ_FIX_GAIN_OFST)
+    ((0x1 << DAQ_HIGH_GAIN_OFST) & DAQ_HIGH_GAIN_MSK)
-#define DAQ_FIX_GAIN_STG_1_VAL          ((0x1 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
+#define DAQ_FIX_GAIN_OFST        (1)
-#define DAQ_FIX_GAIN_STG_2_VAL          ((0x3 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
+#define DAQ_FIX_GAIN_MSK         (0x00000003 << DAQ_FIX_GAIN_OFST)
-#define DAQ_CMP_RST_OFST                (4)
+#define DAQ_FIX_GAIN_STG_1_VAL   ((0x1 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
-#define DAQ_CMP_RST_MSK                 (0x00000001 << DAQ_CMP_RST_OFST)
+#define DAQ_FIX_GAIN_STG_2_VAL   ((0x3 << DAQ_FIX_GAIN_OFST) & DAQ_FIX_GAIN_MSK)
-#define DAQ_STRG_CELL_SLCT_OFST         (8)
+#define DAQ_CMP_RST_OFST         (4)
-#define DAQ_STRG_CELL_SLCT_MSK          (0x0000000F << DAQ_STRG_CELL_SLCT_OFST)
+#define DAQ_CMP_RST_MSK          (0x00000001 << DAQ_CMP_RST_OFST)
-#define DAQ_FRCE_SWTCH_GAIN_OFST        (12)
+#define DAQ_STRG_CELL_SLCT_OFST  (8)
-#define DAQ_FRCE_SWTCH_GAIN_MSK         (0x00000003 << DAQ_FRCE_SWTCH_GAIN_OFST)
+#define DAQ_STRG_CELL_SLCT_MSK   (0x0000000F << DAQ_STRG_CELL_SLCT_OFST)
-#define DAQ_FRCE_GAIN_STG_1_VAL         ((0x1 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
+#define DAQ_FRCE_SWTCH_GAIN_OFST (12)
-#define DAQ_FRCE_GAIN_STG_2_VAL         ((0x3 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
+#define DAQ_FRCE_SWTCH_GAIN_MSK  (0x00000003 << DAQ_FRCE_SWTCH_GAIN_OFST)
-#define DAQ_ELCTRN_CLLCTN_MDE_OFST      (14)
+#define DAQ_FRCE_GAIN_STG_1_VAL                                                \
-#define DAQ_ELCTRN_CLLCTN_MDE_MSK       (0x00000001 << DAQ_ELCTRN_CLLCTN_MDE_OFST)
+    ((0x1 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
-#define DAQ_G2_CNNT_OFST                (15)
+#define DAQ_FRCE_GAIN_STG_2_VAL                                                \
-#define DAQ_G2_CNNT_MSK                 (0x00000001 << DAQ_G2_CNNT_OFST)
+    ((0x3 << DAQ_FRCE_SWTCH_GAIN_OFST) & DAQ_FRCE_SWTCH_GAIN_MSK)
-#define DAQ_CRRNT_SRC_ENBL_OFST         (16)
+#define DAQ_ELCTRN_CLLCTN_MDE_OFST   (14)
-#define DAQ_CRRNT_SRC_ENBL_MSK          (0x00000001 << DAQ_CRRNT_SRC_ENBL_OFST)
+#define DAQ_ELCTRN_CLLCTN_MDE_MSK    (0x00000001 << DAQ_ELCTRN_CLLCTN_MDE_OFST)
-#define DAQ_CRRNT_SRC_CLMN_FIX_OFST     (17)
+#define DAQ_G2_CNNT_OFST             (15)
-#define DAQ_CRRNT_SRC_CLMN_FIX_MSK      (0x00000001 << DAQ_CRRNT_SRC_CLMN_FIX_OFST)
+#define DAQ_G2_CNNT_MSK              (0x00000001 << DAQ_G2_CNNT_OFST)
-#define DAQ_CRRNT_SRC_CLMN_SLCT_OFST    (20)
+#define DAQ_CRRNT_SRC_ENBL_OFST      (16)
-#define DAQ_CRRNT_SRC_CLMN_SLCT_MSK     (0x0000003F << DAQ_CRRNT_SRC_CLMN_SLCT_OFST)
+#define DAQ_CRRNT_SRC_ENBL_MSK       (0x00000001 << DAQ_CRRNT_SRC_ENBL_OFST)
+#define DAQ_CRRNT_SRC_CLMN_FIX_OFST  (17)
+#define DAQ_CRRNT_SRC_CLMN_FIX_MSK   (0x00000001 << DAQ_CRRNT_SRC_CLMN_FIX_OFST)
+#define DAQ_CRRNT_SRC_CLMN_SLCT_OFST (20)
+#define DAQ_CRRNT_SRC_CLMN_SLCT_MSK  (0x0000003F << DAQ_CRRNT_SRC_CLMN_SLCT_OFST)
 
 /** Chip Power Register */
-#define CHIP_POWER_REG					(0x5E << MEM_MAP_SHIFT)
+#define CHIP_POWER_REG (0x5E << MEM_MAP_SHIFT)
-
-#define CHIP_POWER_ENABLE_OFST			(0)
-#define CHIP_POWER_ENABLE_MSK			(0x00000001 << CHIP_POWER_ENABLE_OFST)
-#define CHIP_POWER_STATUS_OFST          (1)
-#define CHIP_POWER_STATUS_MSK           (0x00000001 << CHIP_POWER_STATUS_OFST)
 
+#define CHIP_POWER_ENABLE_OFST (0)
+#define CHIP_POWER_ENABLE_MSK  (0x00000001 << CHIP_POWER_ENABLE_OFST)
+#define CHIP_POWER_STATUS_OFST (1)
+#define CHIP_POWER_STATUS_MSK  (0x00000001 << CHIP_POWER_STATUS_OFST)
 
 /** Temperature Control Register */
-#define TEMP_CTRL_REG                   (0x5F << MEM_MAP_SHIFT)
+#define TEMP_CTRL_REG (0x5F << MEM_MAP_SHIFT)
 
-#define TEMP_CTRL_PROTCT_THRSHLD_OFST   (0)
+#define TEMP_CTRL_PROTCT_THRSHLD_OFST (0)
-#define TEMP_CTRL_PROTCT_THRSHLD_MSK    (0x000007FF << TEMP_CTRL_PROTCT_THRSHLD_OFST)
+#define TEMP_CTRL_PROTCT_THRSHLD_MSK                                           \
-#define TEMP_CTRL_PROTCT_ENABLE_OFST    (16)
+    (0x000007FF << TEMP_CTRL_PROTCT_THRSHLD_OFST)
-#define TEMP_CTRL_PROTCT_ENABLE_MSK     (0x00000001 << TEMP_CTRL_PROTCT_ENABLE_OFST)
+#define TEMP_CTRL_PROTCT_ENABLE_OFST (16)
+#define TEMP_CTRL_PROTCT_ENABLE_MSK  (0x00000001 << TEMP_CTRL_PROTCT_ENABLE_OFST)
 // set when temp higher than over threshold, write 1 to clear it
-#define TEMP_CTRL_OVR_TMP_EVNT_OFST     (31)
+#define TEMP_CTRL_OVR_TMP_EVNT_OFST (31)
-#define TEMP_CTRL_OVR_TMP_EVNT_MSK      (0x00000001 << TEMP_CTRL_OVR_TMP_EVNT_OFST)
+#define TEMP_CTRL_OVR_TMP_EVNT_MSK  (0x00000001 << TEMP_CTRL_OVR_TMP_EVNT_OFST)
-
 
 /* Set Delay 64 bit register */
-#define SET_DELAY_LSB_REG     			(0x60 << MEM_MAP_SHIFT)					// different kind of delay
+#define SET_DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT) // different kind of delay
-#define SET_DELAY_MSB_REG     			(0x61 << MEM_MAP_SHIFT)					// different kind of delay
+#define SET_DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT) // different kind of delay
 
 /* Set Triggers 64 bit register */
-#define SET_CYCLES_LSB_REG    			(0x62 << MEM_MAP_SHIFT)
+#define SET_CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
-#define SET_CYCLES_MSB_REG    			(0x63 << MEM_MAP_SHIFT)
+#define SET_CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
 
 /* Set Frames 64 bit register */
-#define SET_FRAMES_LSB_REG   			(0x64 << MEM_MAP_SHIFT)
+#define SET_FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
-#define SET_FRAMES_MSB_REG    			(0x65 << MEM_MAP_SHIFT)
+#define SET_FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
 
 /* Set Period 64 bit register tT = T x 50 ns */
-#define SET_PERIOD_LSB_REG    			(0x66 << MEM_MAP_SHIFT)
+#define SET_PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
-#define SET_PERIOD_MSB_REG    			(0x67 << MEM_MAP_SHIFT)
+#define SET_PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
 
 /* Set Exptime 64 bit register eEXP = Exp x 25 ns */
-#define SET_EXPTIME_LSB_REG    			(0x68 << MEM_MAP_SHIFT)
+#define SET_EXPTIME_LSB_REG (0x68 << MEM_MAP_SHIFT)
-#define SET_EXPTIME_MSB_REG    			(0x69 << MEM_MAP_SHIFT)
+#define SET_EXPTIME_MSB_REG (0x69 << MEM_MAP_SHIFT)
 
 /* Starting Frame number 64 bit register */
-#define FRAME_NUMBER_LSB_REG   			(0x6A << MEM_MAP_SHIFT)
+#define FRAME_NUMBER_LSB_REG (0x6A << MEM_MAP_SHIFT)
-#define FRAME_NUMBER_MSB_REG    		(0x6B << MEM_MAP_SHIFT)
+#define FRAME_NUMBER_MSB_REG (0x6B << MEM_MAP_SHIFT)
 
 /* Trigger Delay 32 bit register */
-#define SET_TRIGGER_DELAY_LSB_REG       (0x70 << MEM_MAP_SHIFT)
+#define SET_TRIGGER_DELAY_LSB_REG (0x70 << MEM_MAP_SHIFT)
-#define SET_TRIGGER_DELAY_MSB_REG       (0x71 << MEM_MAP_SHIFT)
+#define SET_TRIGGER_DELAY_MSB_REG (0x71 << MEM_MAP_SHIFT)
 
 /** Module row coordinates */
-#define COORD_ROW_REG					(0x7C << MEM_MAP_SHIFT)
+#define COORD_ROW_REG (0x7C << MEM_MAP_SHIFT)
 
-#define COORD_ROW_OUTER_OFST			(0)
+#define COORD_ROW_OUTER_OFST (0)
-#define COORD_ROW_OUTER_MSK				(0x0000FFFF << COORD_ROW_OUTER_OFST)
+#define COORD_ROW_OUTER_MSK  (0x0000FFFF << COORD_ROW_OUTER_OFST)
-#define COORD_ROW_INNER_OFST			(16)
+#define COORD_ROW_INNER_OFST (16)
-#define COORD_ROW_INNER_MSK				(0x0000FFFF << COORD_ROW_INNER_OFST)
+#define COORD_ROW_INNER_MSK  (0x0000FFFF << COORD_ROW_INNER_OFST)
 
 /** Module column coordinates */
-#define COORD_COL_REG					(0x7D << MEM_MAP_SHIFT)
+#define COORD_COL_REG (0x7D << MEM_MAP_SHIFT)
-
-#define COORD_COL_OUTER_OFST			(0)
-#define COORD_COL_OUTER_MSK				(0x0000FFFF << COORD_COL_OUTER_OFST)
-#define COORD_COL_INNER_OFST			(16)
-#define COORD_COL_INNER_MSK				(0x0000FFFF << COORD_COL_INNER_OFST)
 
+#define COORD_COL_OUTER_OFST (0)
+#define COORD_COL_OUTER_MSK  (0x0000FFFF << COORD_COL_OUTER_OFST)
+#define COORD_COL_INNER_OFST (16)
+#define COORD_COL_INNER_MSK  (0x0000FFFF << COORD_COL_INNER_OFST)
 
 /** Module column coordinates */
-#define COORD_RESERVED_REG				(0x7E << MEM_MAP_SHIFT)
+#define COORD_RESERVED_REG (0x7E << MEM_MAP_SHIFT)
 
-#define COORD_RESERVED_OUTER_OFST		(0)
+#define COORD_RESERVED_OUTER_OFST (0)
-#define COORD_RESERVED_OUTER_MSK		(0x0000FFFF << COORD_RESERVED_OUTER_OFST)
+#define COORD_RESERVED_OUTER_MSK  (0x0000FFFF << COORD_RESERVED_OUTER_OFST)
-#define COORD_RESERVED_INNER_OFST		(16)
+#define COORD_RESERVED_INNER_OFST (16)
-#define COORD_RESERVED_INNER_MSK		(0x0000FFFF << COORD_RESERVED_INNER_OFST)
+#define COORD_RESERVED_INNER_MSK  (0x0000FFFF << COORD_RESERVED_INNER_OFST)
 
 /* ASIC Control Register */
-#define ASIC_CTRL_REG                   (0x7F << MEM_MAP_SHIFT)
+#define ASIC_CTRL_REG (0x7F << MEM_MAP_SHIFT)
 // tPC = (PCT + 1) * 25ns
-#define ASIC_CTRL_PRCHRG_TMR_OFST       (0)
+#define ASIC_CTRL_PRCHRG_TMR_OFST (0)
-#define ASIC_CTRL_PRCHRG_TMR_MSK        (0x000000FF << ASIC_CTRL_PRCHRG_TMR_OFST)
+#define ASIC_CTRL_PRCHRG_TMR_MSK  (0x000000FF << ASIC_CTRL_PRCHRG_TMR_OFST)
-#define ASIC_CTRL_PRCHRG_TMR_VAL        ((0x1F << ASIC_CTRL_PRCHRG_TMR_OFST) & ASIC_CTRL_PRCHRG_TMR_MSK)
+#define ASIC_CTRL_PRCHRG_TMR_VAL                                               \
+    ((0x1F << ASIC_CTRL_PRCHRG_TMR_OFST) & ASIC_CTRL_PRCHRG_TMR_MSK)
 // tDS = (DST + 1) * 25ns
-#define ASIC_CTRL_DS_TMR_OFST           (8)
+#define ASIC_CTRL_DS_TMR_OFST (8)
-#define ASIC_CTRL_DS_TMR_MSK            (0x000000FF << ASIC_CTRL_DS_TMR_OFST)
+#define ASIC_CTRL_DS_TMR_MSK  (0x000000FF << ASIC_CTRL_DS_TMR_OFST)
-#define ASIC_CTRL_DS_TMR_VAL            ((0x1F << ASIC_CTRL_DS_TMR_OFST) & ASIC_CTRL_DS_TMR_MSK)
+#define ASIC_CTRL_DS_TMR_VAL                                                   \
-// tET = (ET + 1) * 25ns (increase timeout range between 2 consecutive storage cells)
+    ((0x1F << ASIC_CTRL_DS_TMR_OFST) & ASIC_CTRL_DS_TMR_MSK)
-#define ASIC_CTRL_EXPSRE_TMR_OFST       (16)
+// tET = (ET + 1) * 25ns (increase timeout range between 2 consecutive storage
-#define ASIC_CTRL_EXPSRE_TMR_MSK        (0x0000FFFF << ASIC_CTRL_EXPSRE_TMR_OFST)
+// cells)
-#define ASIC_CTRL_EXPSRE_TMR_MAX_VAL    (0x0000FFFF / (CLK_RUN * 1E-3))
+#define ASIC_CTRL_EXPSRE_TMR_OFST    (16)
-
+#define ASIC_CTRL_EXPSRE_TMR_MSK     (0x0000FFFF << ASIC_CTRL_EXPSRE_TMR_OFST)
+#define ASIC_CTRL_EXPSRE_TMR_MAX_VAL (0x0000FFFF / (CLK_RUN * 1E-3))
 
 /* ADC 0 Deserializer Control */
-#define ADC_DSRLZR_0_REG				(0xF0 << MEM_MAP_SHIFT)
+#define ADC_DSRLZR_0_REG                (0xF0 << MEM_MAP_SHIFT)
-#define ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST (31)	/* Refresh alignment */
+#define ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST (31) /* Refresh alignment */
-#define ADC_DSRLZR_0_RFRSH_ALGNMNT_MSK  (0x00000001 << ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST)
+#define ADC_DSRLZR_0_RFRSH_ALGNMNT_MSK                                         \
+    (0x00000001 << ADC_DSRLZR_0_RFRSH_ALGNMNT_OFST)
 
 /* ADC 0 Deserializer Control */
-#define ADC_DSRLZR_1_REG				(0xF1 << MEM_MAP_SHIFT)
+#define ADC_DSRLZR_1_REG                (0xF1 << MEM_MAP_SHIFT)
 #define ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST (31)
-#define ADC_DSRLZR_1_RFRSH_ALGNMNT_MSK  (0x00000001 << ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST)
+#define ADC_DSRLZR_1_RFRSH_ALGNMNT_MSK                                         \
+    (0x00000001 << ADC_DSRLZR_1_RFRSH_ALGNMNT_OFST)
 
 /* ADC 0 Deserializer Control */
-#define ADC_DSRLZR_2_REG				(0xF2 << MEM_MAP_SHIFT)
+#define ADC_DSRLZR_2_REG                (0xF2 << MEM_MAP_SHIFT)
 #define ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST (31)
-#define ADC_DSRLZR_2_RFRSH_ALGNMNT_MSK  (0x00000001 << ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST)
+#define ADC_DSRLZR_2_RFRSH_ALGNMNT_MSK                                         \
+    (0x00000001 << ADC_DSRLZR_2_RFRSH_ALGNMNT_OFST)
 
 /* ADC 0 Deserializer Control */
-#define ADC_DSRLZR_3_REG				(0xF3 << MEM_MAP_SHIFT)
+#define ADC_DSRLZR_3_REG                (0xF3 << MEM_MAP_SHIFT)
 #define ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST (31)
-#define ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK  (0x00000001 << ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST)
+#define ADC_DSRLZR_3_RFRSH_ALGNMNT_MSK                                         \
-
+    (0x00000001 << ADC_DSRLZR_3_RFRSH_ALGNMNT_OFST)
-
-
 
 /* Round Robin  */
-#define RXR_ENDPOINTS_MAX               (64)
+#define RXR_ENDPOINTS_MAX            (64)
-#define RXR_ENDPOINT_OUTER_START_REG	(0x1000 << MEM_MAP_SHIFT)
+#define RXR_ENDPOINT_OUTER_START_REG (0x1000 << MEM_MAP_SHIFT)
-#define RXR_ENDPOINT_INNER_START_REG	(0x2000 << MEM_MAP_SHIFT)
+#define RXR_ENDPOINT_INNER_START_REG (0x2000 << MEM_MAP_SHIFT)
-
-#define RXR_ENDPOINT_OFST               (0x10 << MEM_MAP_SHIFT)
-
-
-
-
 
+#define RXR_ENDPOINT_OFST (0x10 << MEM_MAP_SHIFT)

slsDetectorServers/jungfrauDetectorServer/slsDetectorServer_defs.h

@@ -1,128 +1,144 @@
 #pragma once
-#include "sls_detector_defs.h"
 #include "RegisterDefs.h"
+#include "sls_detector_defs.h"
 
+#define MIN_REQRD_VRSN_T_RD_API  0x171220
+#define REQRD_FRMWRE_VRSN_BOARD2 0x190716 // old
+#define REQRD_FRMWRE_VRSN        0x200305 // new
 
-#define MIN_REQRD_VRSN_T_RD_API     0x171220
+#define CTRL_SRVR_INIT_TIME_US (300 * 1000)
-#define REQRD_FRMWRE_VRSN_BOARD2    0x190716 // old
-#define REQRD_FRMWRE_VRSN     		0x200305 // new
-
-#define CTRL_SRVR_INIT_TIME_US      (300 * 1000)
 
 /* Struct Definitions */
 typedef struct udp_header_struct {
-	uint32_t	udp_destmac_msb;
+    uint32_t udp_destmac_msb;
-	uint16_t	udp_srcmac_msb;
+    uint16_t udp_srcmac_msb;
-	uint16_t	udp_destmac_lsb;
+    uint16_t udp_destmac_lsb;
-	uint32_t	udp_srcmac_lsb;
+    uint32_t udp_srcmac_lsb;
-	uint8_t		ip_tos;
+    uint8_t ip_tos;
-	uint8_t		ip_ihl: 4, ip_ver: 4;
+    uint8_t ip_ihl : 4, ip_ver : 4;
-	uint16_t	udp_ethertype;
+    uint16_t udp_ethertype;
-	uint16_t	ip_identification;
+    uint16_t ip_identification;
-	uint16_t	ip_totallength;
+    uint16_t ip_totallength;
-	uint8_t		ip_protocol;
+    uint8_t ip_protocol;
-	uint8_t		ip_ttl;
+    uint8_t ip_ttl;
-	uint16_t	ip_fragmentoffset: 13, ip_flags: 3;
+    uint16_t ip_fragmentoffset : 13, ip_flags : 3;
-	uint16_t	ip_srcip_msb;
+    uint16_t ip_srcip_msb;
-	uint16_t	ip_checksum;
+    uint16_t ip_checksum;
-	uint16_t	ip_destip_msb;
+    uint16_t ip_destip_msb;
-	uint16_t	ip_srcip_lsb;
+    uint16_t ip_srcip_lsb;
-	uint16_t	udp_srcport;
+    uint16_t udp_srcport;
-	uint16_t	ip_destip_lsb;
+    uint16_t ip_destip_lsb;
-	uint16_t	udp_checksum;
+    uint16_t udp_checksum;
-	uint16_t	udp_destport;
+    uint16_t udp_destport;
 } udp_header;
 
-#define IP_HEADER_SIZE				(20)
+#define IP_HEADER_SIZE             (20)
-#define UDP_IP_HEADER_LENGTH_BYTES	(28)
+#define UDP_IP_HEADER_LENGTH_BYTES (28)
-
 
 /* Enums */
-enum ADCINDEX				{TEMP_FPGA, TEMP_ADC};
+enum ADCINDEX { TEMP_FPGA, TEMP_ADC };
-enum DACINDEX				{J_VB_COMP, J_VDD_PROT, J_VIN_COM, J_VREF_PRECH, J_VB_PIXBUF, J_VB_DS, J_VREF_DS, J_VREF_COMP };
+enum DACINDEX {
-#define DEFAULT_DAC_VALS   	{ 	1220,	/* J_VB_COMP */		\
+    J_VB_COMP,
-								3000,	/* J_VDD_PROT */	\
+    J_VDD_PROT,
-								1053,	/* J_VIN_COM */		\
+    J_VIN_COM,
-								1450,	/* J_VREF_PRECH */	\
+    J_VREF_PRECH,
-								750,	/* J_VB_PIXBUF */	\
+    J_VB_PIXBUF,
-								1000,	/* J_VB_DS */		\
+    J_VB_DS,
-								480,	/* J_VREF_DS */		\
+    J_VREF_DS,
-								420		/* J_VREF_COMP */	\
+    J_VREF_COMP
-							};
+};
-enum NETWORKINDEX           { TXN_FRAME, FLOWCTRL_10G };
+#define DEFAULT_DAC_VALS                                                       \
-enum CLKINDEX               {RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS};
+    {                                                                          \
-#define CLK_NAMES			"run", "adc", "dbit"
+        1220, /* J_VB_COMP */                                                  \
+        3000, /* J_VDD_PROT */                                                 \
+        1053, /* J_VIN_COM */                                                  \
+        1450, /* J_VREF_PRECH */                                               \
+        750,  /* J_VB_PIXBUF */                                                \
+        1000, /* J_VB_DS */                                                    \
+        480,  /* J_VREF_DS */                                                  \
+        420   /* J_VREF_COMP */                                                \
+    };
+enum NETWORKINDEX { TXN_FRAME, FLOWCTRL_10G };
+enum CLKINDEX { RUN_CLK, ADC_CLK, DBIT_CLK, NUM_CLOCKS };
+#define CLK_NAMES "run", "adc", "dbit"
 
 /* Hardware Definitions */
-#define NCHAN 						(256 * 256)
+#define NCHAN               (256 * 256)
-#define NCHIP 						(8)
+#define NCHIP               (8)
-#define NDAC 						(8)
+#define NDAC                (8)
-#define NDAC_OLDBOARD				(16)
+#define NDAC_OLDBOARD       (16)
-#define DYNAMIC_RANGE				(16)
+#define DYNAMIC_RANGE       (16)
-#define NUM_BYTES_PER_PIXEL			(DYNAMIC_RANGE / 8)
+#define NUM_BYTES_PER_PIXEL (DYNAMIC_RANGE / 8)
-#define DATA_BYTES					(NCHIP * NCHAN * NUM_BYTES_PER_PIXEL)
+#define DATA_BYTES          (NCHIP * NCHAN * NUM_BYTES_PER_PIXEL)
-#define CLK_RUN						(40)	/* MHz */
+#define CLK_RUN             (40) /* MHz */
-#define CLK_SYNC					(20)	/* MHz */
+#define CLK_SYNC            (20) /* MHz */
-#define ADC_CLK_INDEX				(1)
+#define ADC_CLK_INDEX       (1)
-#define DBIT_CLK_INDEX				(0)
+#define DBIT_CLK_INDEX      (0)
 
 /** Default Parameters */
-#define DEFAULT_NUM_FRAMES			(100*1000*1000)
+#define DEFAULT_NUM_FRAMES            (100 * 1000 * 1000)
 #define DEFAULT_STARTING_FRAME_NUMBER (1)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES            (1)
-#define DEFAULT_EXPTIME				(10*1000)		//ns
+#define DEFAULT_EXPTIME               (10 * 1000)       // ns
-#define DEFAULT_PERIOD				(2*1000*1000)	//ns
+#define DEFAULT_PERIOD                (2 * 1000 * 1000) // ns
-#define DEFAULT_DELAY				(0)
+#define DEFAULT_DELAY                 (0)
-#define DEFAULT_HIGH_VOLTAGE		(0)
+#define DEFAULT_HIGH_VOLTAGE          (0)
-#define DEFAULT_TIMING_MODE			(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE           (AUTO_TIMING)
-#define DEFAULT_SETTINGS			(DYNAMICGAIN)
+#define DEFAULT_SETTINGS              (DYNAMICGAIN)
-#define DEFAULT_TX_UDP_PORT			(0x7e9a)
+#define DEFAULT_TX_UDP_PORT           (0x7e9a)
-#define DEFAULT_TMP_THRSHLD         (65*1000) //milli degree Celsius
+#define DEFAULT_TMP_THRSHLD           (65 * 1000) // milli degree Celsius
-#define DEFAULT_NUM_STRG_CLLS       (0)
+#define DEFAULT_NUM_STRG_CLLS         (0)
-#define DEFAULT_STRG_CLL_STRT       (0xf)
+#define DEFAULT_STRG_CLL_STRT         (0xf)
-#define DEFAULT_STRG_CLL_DLY		(0)
+#define DEFAULT_STRG_CLL_DLY          (0)
 
-#define HIGHVOLTAGE_MIN             (60)
+#define HIGHVOLTAGE_MIN (60)
-#define HIGHVOLTAGE_MAX             (200)
+#define HIGHVOLTAGE_MAX (200)
-#define DAC_MIN_MV                  (0)
+#define DAC_MIN_MV      (0)
-#define DAC_MAX_MV                  (2500)
+#define DAC_MAX_MV      (2500)
 
 /* Defines in the Firmware */
 #define MAX_TIMESLOT_VAL            (0x1F)
-#define MAX_THRESHOLD_TEMP_VAL      (127999) //millidegrees
+#define MAX_THRESHOLD_TEMP_VAL      (127999) // millidegrees
-#define MAX_STORAGE_CELL_VAL        (15) //0xF
+#define MAX_STORAGE_CELL_VAL        (15)     // 0xF
-#define MAX_STORAGE_CELL_DLY_NS_VAL	(ASIC_CTRL_EXPSRE_TMR_MAX_VAL)
+#define MAX_STORAGE_CELL_DLY_NS_VAL (ASIC_CTRL_EXPSRE_TMR_MAX_VAL)
 #define ACQ_TIME_MIN_CLOCK          (2)
 
-#define MAX_PHASE_SHIFTS			(160)
+#define MAX_PHASE_SHIFTS (160)
-#define BIT16_MASK					(0xFFFF)
+#define BIT16_MASK       (0xFFFF)
 
+#define ADC_OFST_FULL_SPEED_VAL           (0xf)
+#define ADC_OFST_HALF_SPEED_VAL           (0xb)
+#define ADC_OFST_QUARTER_SPEED_VAL        (0x7)
+#define ADC_OFST_HALF_SPEED_BOARD2_VAL    (0x13)
+#define ADC_OFST_QUARTER_SPEED_BOARD2_VAL (0x0b)
 
+#define ADC_PORT_INVERT_VAL        (0x5A5A5A5A)
+#define ADC_PORT_INVERT_BOARD2_VAL (0x453b2a9c)
 
-#define ADC_OFST_FULL_SPEED_VAL				(0xf)
+#define SAMPLE_ADC_FULL_SPEED                                                  \
-#define ADC_OFST_HALF_SPEED_VAL				(0xb)
+    (SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL +                 \
-#define ADC_OFST_QUARTER_SPEED_VAL			(0x7) 
+     SAMPLE_DGTL_SAMPLE_2_VAL + SAMPLE_DECMT_FACTOR_FULL_VAL) // 0x200
-#define ADC_OFST_HALF_SPEED_BOARD2_VAL		(0x13)
+#define SAMPLE_ADC_HALF_SPEED                                                  \
-#define ADC_OFST_QUARTER_SPEED_BOARD2_VAL	(0x0b) 
+    (SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL +                 \
+     SAMPLE_DGTL_SAMPLE_3_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1310
+#define SAMPLE_ADC_QUARTER_SPEED                                               \
+    (SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_3_VAL +                 \
+     SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL) // 0x2630
+#define SAMPLE_ADC_HALF_SPEED_BOARD2                                           \
+    (SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL +                 \
+     SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1600
+#define SAMPLE_ADC_QUARTER_SPEED_BOARD2                                        \
+    (SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL +                 \
+     SAMPLE_DGTL_SAMPLE_11_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL) // 0x2b10
 
-#define ADC_PORT_INVERT_VAL         		(0x5A5A5A5A)
+#define ADC_PHASE_FULL_SPEED           (28)
-#define ADC_PORT_INVERT_BOARD2_VAL         	(0x453b2a9c)
+#define ADC_PHASE_HALF_SPEED           (35)
+#define ADC_PHASE_QUARTER_SPEED        (35)
+#define ADC_PHASE_HALF_SPEED_BOARD2    (0x1E) // 30
+#define ADC_PHASE_QUARTER_SPEED_BOARD2 (0x1E) // 30
 
-#define SAMPLE_ADC_FULL_SPEED				(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL + SAMPLE_DGTL_SAMPLE_2_VAL + SAMPLE_DECMT_FACTOR_FULL_VAL) // 0x200
+#define DBIT_PHASE_FULL_SPEED           (37)
-#define SAMPLE_ADC_HALF_SPEED	 			(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL + SAMPLE_DGTL_SAMPLE_3_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1310
+#define DBIT_PHASE_HALF_SPEED           (37)
-#define SAMPLE_ADC_QUARTER_SPEED 			(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_3_VAL + SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL)	// 0x2630 
+#define DBIT_PHASE_QUARTER_SPEED        (37)
-#define SAMPLE_ADC_HALF_SPEED_BOARD2 	 	(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_0_VAL + SAMPLE_DGTL_SAMPLE_6_VAL + SAMPLE_DECMT_FACTOR_HALF_VAL) // 0x1600
+#define DBIT_PHASE_HALF_SPEED_BOARD2    (37)
-#define SAMPLE_ADC_QUARTER_SPEED_BOARD2  	(SAMPLE_ADC_SAMPLE_0_VAL + SAMPLE_ADC_DECMT_FACTOR_1_VAL + SAMPLE_DGTL_SAMPLE_11_VAL + SAMPLE_DECMT_FACTOR_QUARTER_VAL)	// 0x2b10 
+#define DBIT_PHASE_QUARTER_SPEED_BOARD2 (37)
-
-#define ADC_PHASE_FULL_SPEED 				(28) 
-#define ADC_PHASE_HALF_SPEED 				(35) 
-#define ADC_PHASE_QUARTER_SPEED 			(35) 
-#define ADC_PHASE_HALF_SPEED_BOARD2 		(0x1E) //30
-#define ADC_PHASE_QUARTER_SPEED_BOARD2 		(0x1E) //30
-
-
-#define DBIT_PHASE_FULL_SPEED 				(37) 
-#define DBIT_PHASE_HALF_SPEED 				(37) 
-#define DBIT_PHASE_QUARTER_SPEED 			(37) 
-#define DBIT_PHASE_HALF_SPEED_BOARD2 		(37) 
-#define DBIT_PHASE_QUARTER_SPEED_BOARD2 	(37) 

slsDetectorServers/moenchDetectorServer/RegisterDefs.h

@@ -3,542 +3,574 @@
 /* Definitions for FPGA */
 #define MEM_MAP_SHIFT 1
 
-
 /* FPGA Version RO register */
-#define FPGA_VERSION_REG      			    (0x00 << MEM_MAP_SHIFT)
+#define FPGA_VERSION_REG (0x00 << MEM_MAP_SHIFT)
 
-#define FPGA_VERSION_BRD_RVSN_OFST			(0)
+#define FPGA_VERSION_BRD_RVSN_OFST  (0)
-#define FPGA_VERSION_BRD_RVSN_MSK			(0x00FFFFFF << FPGA_VERSION_BRD_RVSN_OFST)
+#define FPGA_VERSION_BRD_RVSN_MSK   (0x00FFFFFF << FPGA_VERSION_BRD_RVSN_OFST)
-#define FPGA_VERSION_DTCTR_TYP_OFST		    (24)
+#define FPGA_VERSION_DTCTR_TYP_OFST (24)
-#define FPGA_VERSION_DTCTR_TYP_MSK   	    (0x000000FF << FPGA_VERSION_DTCTR_TYP_OFST)
+#define FPGA_VERSION_DTCTR_TYP_MSK  (0x000000FF << FPGA_VERSION_DTCTR_TYP_OFST)
-#define FPGA_VERSION_DTCTR_TYP_MOENCH_VAL   ((0x5 << FPGA_VERSION_DTCTR_TYP_OFST) & FPGA_VERSION_DTCTR_TYP_MSK)
+#define FPGA_VERSION_DTCTR_TYP_MOENCH_VAL                                      \
+    ((0x5 << FPGA_VERSION_DTCTR_TYP_OFST) & FPGA_VERSION_DTCTR_TYP_MSK)
 
 /* Fix pattern RO register */
-#define FIX_PATT_REG          			    (0x01 << MEM_MAP_SHIFT)
+#define FIX_PATT_REG (0x01 << MEM_MAP_SHIFT)
 
-#define FIX_PATT_VAL                        (0xACDC2016)
+#define FIX_PATT_VAL (0xACDC2016)
 
 /* Status RO register */
-#define STATUS_REG            			    (0x02 << MEM_MAP_SHIFT)
+#define STATUS_REG (0x02 << MEM_MAP_SHIFT)
 
-#define STATUS_RN_BSY_OFST				    (0)
+#define STATUS_RN_BSY_OFST            (0)
-#define STATUS_RN_BSY_MSK      			    (0x00000001 << STATUS_RN_BSY_OFST)
+#define STATUS_RN_BSY_MSK             (0x00000001 << STATUS_RN_BSY_OFST)
-#define STATUS_RDT_BSY_OFST                 (1)
+#define STATUS_RDT_BSY_OFST           (1)
-#define STATUS_RDT_BSY_MSK                  (0x00000001 << STATUS_RDT_BSY_OFST)
+#define STATUS_RDT_BSY_MSK            (0x00000001 << STATUS_RDT_BSY_OFST)
-#define STATUS_ANY_FF_FLL_OFST              (2)
+#define STATUS_ANY_FF_FLL_OFST        (2)
-#define STATUS_ANY_FF_FLL_MSK               (0x00000001 << STATUS_ANY_FF_FLL_OFST)
+#define STATUS_ANY_FF_FLL_MSK         (0x00000001 << STATUS_ANY_FF_FLL_OFST)
-#define STATUS_WTNG_FR_TRGGR_OFST  		    (3)
+#define STATUS_WTNG_FR_TRGGR_OFST     (3)
-#define STATUS_WTNG_FR_TRGGR_MSK  		    (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
+#define STATUS_WTNG_FR_TRGGR_MSK      (0x00000001 << STATUS_WTNG_FR_TRGGR_OFST)
-#define STATUS_DLY_BFR_OFST  			    (4)
+#define STATUS_DLY_BFR_OFST           (4)
-#define STATUS_DLY_BFR_MSK  			    (0x00000001 << STATUS_DLY_BFR_OFST)
+#define STATUS_DLY_BFR_MSK            (0x00000001 << STATUS_DLY_BFR_OFST)
-#define STATUS_DLY_AFTR_OFST  			    (5)
+#define STATUS_DLY_AFTR_OFST          (5)
-#define STATUS_DLY_AFTR_MSK  			    (0x00000001 << STATUS_DLY_AFTR_OFST)
+#define STATUS_DLY_AFTR_MSK           (0x00000001 << STATUS_DLY_AFTR_OFST)
-#define STATUS_EXPSNG_OFST                  (6)
+#define STATUS_EXPSNG_OFST            (6)
-#define STATUS_EXPSNG_MSK                   (0x00000001 << STATUS_EXPSNG_OFST)
+#define STATUS_EXPSNG_MSK             (0x00000001 << STATUS_EXPSNG_OFST)
-#define STATUS_CNT_ENBL_OFST                (7)
+#define STATUS_CNT_ENBL_OFST          (7)
-#define STATUS_CNT_ENBL_MSK                 (0x00000001 << STATUS_CNT_ENBL_OFST)
+#define STATUS_CNT_ENBL_MSK           (0x00000001 << STATUS_CNT_ENBL_OFST)
-#define STATUS_SM_FF_FLL_OFST               (11)
+#define STATUS_SM_FF_FLL_OFST         (11)
-#define STATUS_SM_FF_FLL_MSK                (0x00000001 << STATUS_SM_FF_FLL_OFST)
+#define STATUS_SM_FF_FLL_MSK          (0x00000001 << STATUS_SM_FF_FLL_OFST)
-#define STATUS_STPPD_OFST                   (15)
+#define STATUS_STPPD_OFST             (15)
-#define STATUS_STPPD_MSK                    (0x00000001 << STATUS_STPPD_OFST)
+#define STATUS_STPPD_MSK              (0x00000001 << STATUS_STPPD_OFST)
-#define STATUS_ALL_FF_EMPTY_OFST            (16)
+#define STATUS_ALL_FF_EMPTY_OFST      (16)
-#define STATUS_ALL_FF_EMPTY_MSK             (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
+#define STATUS_ALL_FF_EMPTY_MSK       (0x00000001 << STATUS_ALL_FF_EMPTY_OFST)
-#define STATUS_CYCL_RN_BSY_OFST  		    (17)
+#define STATUS_CYCL_RN_BSY_OFST       (17)
-#define STATUS_CYCL_RN_BSY_MSK  		    (0x00000001 << STATUS_CYCL_RN_BSY_OFST)
+#define STATUS_CYCL_RN_BSY_MSK        (0x00000001 << STATUS_CYCL_RN_BSY_OFST)
-#define STATUS_FRM_RN_BSY_OFST              (18)
+#define STATUS_FRM_RN_BSY_OFST        (18)
-#define STATUS_FRM_RN_BSY_MSK               (0x00000001 << STATUS_FRM_RN_BSY_OFST)
+#define STATUS_FRM_RN_BSY_MSK         (0x00000001 << STATUS_FRM_RN_BSY_OFST)
-#define STATUS_ADC_DESERON_OFST             (19)
+#define STATUS_ADC_DESERON_OFST       (19)
-#define STATUS_ADC_DESERON_MSK              (0x00000001 << STATUS_ADC_DESERON_OFST)
+#define STATUS_ADC_DESERON_MSK        (0x00000001 << STATUS_ADC_DESERON_OFST)
-#define STATUS_PLL_RCNFG_BSY_OFST           (20)
+#define STATUS_PLL_RCNFG_BSY_OFST     (20)
-#define STATUS_PLL_RCNFG_BSY_MSK            (0x00000001 << STATUS_PLL_RCNFG_BSY_OFST)
+#define STATUS_PLL_RCNFG_BSY_MSK      (0x00000001 << STATUS_PLL_RCNFG_BSY_OFST)
-#define STATUS_DT_STRMNG_BSY_OFST           (21)
+#define STATUS_DT_STRMNG_BSY_OFST     (21)
-#define STATUS_DT_STRMNG_BSY_MSK            (0x00000001 << STATUS_DT_STRMNG_BSY_OFST)
+#define STATUS_DT_STRMNG_BSY_MSK      (0x00000001 << STATUS_DT_STRMNG_BSY_OFST)
-#define STATUS_FRM_PCKR_BSY_OFST            (22)
+#define STATUS_FRM_PCKR_BSY_OFST      (22)
-#define STATUS_FRM_PCKR_BSY_MSK             (0x00000001 << STATUS_FRM_PCKR_BSY_OFST)
+#define STATUS_FRM_PCKR_BSY_MSK       (0x00000001 << STATUS_FRM_PCKR_BSY_OFST)
-#define STATUS_PLL_PHS_DN_OFST              (23)
+#define STATUS_PLL_PHS_DN_OFST        (23)
-#define STATUS_PLL_PHS_DN_MSK               (0x00000001 << STATUS_PLL_PHS_DN_OFST)
+#define STATUS_PLL_PHS_DN_MSK         (0x00000001 << STATUS_PLL_PHS_DN_OFST)
-#define STATUS_PT_CNTRL_STTS_OFF_OFST       (24)
+#define STATUS_PT_CNTRL_STTS_OFF_OFST (24)
-#define STATUS_PT_CNTRL_STTS_OFF_MSK        (0x000000FF << STATUS_PT_CNTRL_STTS_OFF_OFST)
+#define STATUS_PT_CNTRL_STTS_OFF_MSK                                           \
-#define STATUS_IDLE_MSK                     (0x677FF)
+    (0x000000FF << STATUS_PT_CNTRL_STTS_OFF_OFST)
+#define STATUS_IDLE_MSK (0x677FF)
 
 /* Look at me RO register TODO */
-#define LOOK_AT_ME_REG                      (0x03 << MEM_MAP_SHIFT)
+#define LOOK_AT_ME_REG (0x03 << MEM_MAP_SHIFT)
 
 /* System Status RO register */
-#define SYSTEM_STATUS_REG       		    (0x04 << MEM_MAP_SHIFT)
+#define SYSTEM_STATUS_REG (0x04 << MEM_MAP_SHIFT)
 
-#define SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST	(0)
+#define SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST (0)
-#define SYSTEM_STATUS_DDR3_CLBRTN_OK_MSK 	(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST)
+#define SYSTEM_STATUS_DDR3_CLBRTN_OK_MSK                                       \
-#define SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST	(1)
+    (0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_OK_OFST)
-#define SYSTEM_STATUS_DDR3_CLBRTN_FL_MSK 	(0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST)
+#define SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST (1)
-#define SYSTEM_STATUS_DDR3_INT_DN_OFST		(2)
+#define SYSTEM_STATUS_DDR3_CLBRTN_FL_MSK                                       \
-#define SYSTEM_STATUS_DDR3_INT_DN_MSK 		(0x00000001 << SYSTEM_STATUS_DDR3_INT_DN_OFST)
+    (0x00000001 << SYSTEM_STATUS_DDR3_CLBRTN_FL_OFST)
-#define SYSTEM_STATUS_RCNFG_PLL_LCK_OFST	(3)
+#define SYSTEM_STATUS_DDR3_INT_DN_OFST (2)
-#define SYSTEM_STATUS_RCNFG_PLL_LCK_MSK 	(0x00000001 << SYSTEM_STATUS_RCNFG_PLL_LCK_OFST)
+#define SYSTEM_STATUS_DDR3_INT_DN_MSK                                          \
-#define SYSTEM_STATUS_PLL_A_LCK_OFST		(4)
+    (0x00000001 << SYSTEM_STATUS_DDR3_INT_DN_OFST)
-#define SYSTEM_STATUS_PLL_A_LCK_MSK 		(0x00000001 << SYSTEM_STATUS_PLL_A_LCK_OFST)
+#define SYSTEM_STATUS_RCNFG_PLL_LCK_OFST (3)
+#define SYSTEM_STATUS_RCNFG_PLL_LCK_MSK                                        \
+    (0x00000001 << SYSTEM_STATUS_RCNFG_PLL_LCK_OFST)
+#define SYSTEM_STATUS_PLL_A_LCK_OFST (4)
+#define SYSTEM_STATUS_PLL_A_LCK_MSK  (0x00000001 << SYSTEM_STATUS_PLL_A_LCK_OFST)
 
-/* PLL Param (Reconfiguratble PLL Parameter) RO register TODO FIXME: Same as PLL_PARAM_REG 0x50 */
+/* PLL Param (Reconfiguratble PLL Parameter) RO register TODO FIXME: Same as
+ * PLL_PARAM_REG 0x50 */
 //#define PLL_PARAM_REG                       (0x05 << MEM_MAP_SHIFT)
 
 /* FIFO Data RO register TODO */
-#define FIFO_DATA_REG                       (0x06 << MEM_MAP_SHIFT)
+#define FIFO_DATA_REG (0x06 << MEM_MAP_SHIFT)
 
-#define FIFO_DATA_HRDWR_SRL_NMBR_OFST       (0)
+#define FIFO_DATA_HRDWR_SRL_NMBR_OFST (0)
-#define FIFO_DATA_HRDWR_SRL_NMBR_MSK        (0x0000FFFF << FIFO_DATA_HRDWR_SRL_NMBR_OFST)
+#define FIFO_DATA_HRDWR_SRL_NMBR_MSK                                           \
+    (0x0000FFFF << FIFO_DATA_HRDWR_SRL_NMBR_OFST)
 //#define FIFO_DATA_WRD_OFST                  (16)
 //#define FIFO_DATA_WRD_MSK                   (0x0000FFFF << FIFO_DATA_WRD_OFST)
 
 /* FIFO Status RO register TODO */
-#define FIFO_STATUS_REG                     (0x07 << MEM_MAP_SHIFT)
+#define FIFO_STATUS_REG (0x07 << MEM_MAP_SHIFT)
 
 /* FIFO Empty RO register TODO */
-#define FIFO_EMPTY_REG                      (0x08 << MEM_MAP_SHIFT)
+#define FIFO_EMPTY_REG           (0x08 << MEM_MAP_SHIFT)
-#define FIFO_EMPTY_ALL_EMPTY_MSK			(0xFFFFFFFF)
+#define FIFO_EMPTY_ALL_EMPTY_MSK (0xFFFFFFFF)
 
 /* FIFO Full RO register TODO */
-#define FIFO_FULL_REG                       (0x09 << MEM_MAP_SHIFT)
+#define FIFO_FULL_REG (0x09 << MEM_MAP_SHIFT)
 
 /* MCB Serial Number RO register */
-#define MOD_SERIAL_NUMBER_REG				(0x0A << MEM_MAP_SHIFT)
+#define MOD_SERIAL_NUMBER_REG (0x0A << MEM_MAP_SHIFT)
 
-#define MOD_SERIAL_NUMBER_OFST              (0)
+#define MOD_SERIAL_NUMBER_OFST      (0)
-#define MOD_SERIAL_NUMBER_MSK               (0x000000FF << MOD_SERIAL_NUMBER_OFST)
+#define MOD_SERIAL_NUMBER_MSK       (0x000000FF << MOD_SERIAL_NUMBER_OFST)
-#define MOD_SERIAL_NUMBER_VRSN_OFST         (16)
+#define MOD_SERIAL_NUMBER_VRSN_OFST (16)
-#define MOD_SERIAL_NUMBER_VRSN_MSK          (0x0000003F << MOD_SERIAL_NUMBER_VRSN_OFST)
+#define MOD_SERIAL_NUMBER_VRSN_MSK  (0x0000003F << MOD_SERIAL_NUMBER_VRSN_OFST)
 
 /* API Version RO register */
-#define API_VERSION_REG                     (0x0F << MEM_MAP_SHIFT)
+#define API_VERSION_REG (0x0F << MEM_MAP_SHIFT)
 
-#define API_VERSION_OFST                    (0)
+#define API_VERSION_OFST           (0)
-#define API_VERSION_MSK                     (0x00FFFFFF << API_VERSION_OFST)
+#define API_VERSION_MSK            (0x00FFFFFF << API_VERSION_OFST)
-#define API_VERSION_DTCTR_TYP_OFST          (24)
+#define API_VERSION_DTCTR_TYP_OFST (24)
-#define API_VERSION_DTCTR_TYP_MSK           (0x000000FF << API_VERSION_DTCTR_TYP_OFST)
+#define API_VERSION_DTCTR_TYP_MSK  (0x000000FF << API_VERSION_DTCTR_TYP_OFST)
 
-/* Time from Start 64 bit RO register. t = GCLK x 50 ns. Reset using CONTROL_CRST. TODO */
+/* Time from Start 64 bit RO register. t = GCLK x 50 ns. Reset using
-#define TIME_FROM_START_LSB_REG   		    (0x10 << MEM_MAP_SHIFT)
+ * CONTROL_CRST. TODO */
-#define TIME_FROM_START_MSB_REG   		    (0x11 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_LSB_REG (0x10 << MEM_MAP_SHIFT)
+#define TIME_FROM_START_MSB_REG (0x11 << MEM_MAP_SHIFT)
 
 /* Delay Left 64 bit RO register. t = DLY x 50 ns. TODO */
-#define DELAY_LEFT_LSB_REG     			    (0x12 << MEM_MAP_SHIFT)
+#define DELAY_LEFT_LSB_REG (0x12 << MEM_MAP_SHIFT)
-#define DELAY_LEFT_MSB_REG     			    (0x13 << MEM_MAP_SHIFT)
+#define DELAY_LEFT_MSB_REG (0x13 << MEM_MAP_SHIFT)
 
 /* Triggers Left 64 bit RO register TODO */
-#define CYCLES_LEFT_LSB_REG    			    (0x14 << MEM_MAP_SHIFT)
+#define CYCLES_LEFT_LSB_REG (0x14 << MEM_MAP_SHIFT)
-#define CYCLES_LEFT_MSB_REG    			    (0x15 << MEM_MAP_SHIFT)
+#define CYCLES_LEFT_MSB_REG (0x15 << MEM_MAP_SHIFT)
 
 /* Frames Left 64 bit RO register TODO */
-#define FRAMES_LEFT_LSB_REG   			    (0x16 << MEM_MAP_SHIFT)
+#define FRAMES_LEFT_LSB_REG (0x16 << MEM_MAP_SHIFT)
-#define FRAMES_LEFT_MSB_REG    			    (0x17 << MEM_MAP_SHIFT)
+#define FRAMES_LEFT_MSB_REG (0x17 << MEM_MAP_SHIFT)
 
 /* Period Left 64 bit RO register. t = T x 50 ns. TODO */
-#define PERIOD_LEFT_LSB_REG    			    (0x18 << MEM_MAP_SHIFT)
+#define PERIOD_LEFT_LSB_REG (0x18 << MEM_MAP_SHIFT)
-#define PERIOD_LEFT_MSB_REG    			    (0x19 << MEM_MAP_SHIFT)
+#define PERIOD_LEFT_MSB_REG (0x19 << MEM_MAP_SHIFT)
 
 /* Exposure Time Left 64 bit RO register */
-//#define EXPTIME_LEFT_LSB_REG                (0x1A << MEM_MAP_SHIFT)            // Not used in FW
+//#define EXPTIME_LEFT_LSB_REG                (0x1A << MEM_MAP_SHIFT) // Not
-//#define EXPTIME_LEFT_MSB_REG                (0x1B << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define EXPTIME_LEFT_MSB_REG                (0x1B <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Gates Left 64 bit RO register */
-//#define GATES_LEFT_LSB_REG                  (0x1C << MEM_MAP_SHIFT)            // Not used in FW
+//#define GATES_LEFT_LSB_REG                  (0x1C << MEM_MAP_SHIFT) // Not
-//#define GATES_LEFT_MSB_REG                  (0x1D << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define GATES_LEFT_MSB_REG                  (0x1D <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Data In 64 bit RO register TODO */
-#define DATA_IN_LSB_REG                     (0x1E << MEM_MAP_SHIFT)
+#define DATA_IN_LSB_REG (0x1E << MEM_MAP_SHIFT)
-#define DATA_IN_MSB_REG                     (0x1F << MEM_MAP_SHIFT)
+#define DATA_IN_MSB_REG (0x1F << MEM_MAP_SHIFT)
 
 /* Pattern Out 64 bit RO register */
-#define PATTERN_OUT_LSB_REG                 (0x20 << MEM_MAP_SHIFT)
+#define PATTERN_OUT_LSB_REG (0x20 << MEM_MAP_SHIFT)
-#define PATTERN_OUT_MSB_REG                 (0x21 << MEM_MAP_SHIFT)
+#define PATTERN_OUT_MSB_REG (0x21 << MEM_MAP_SHIFT)
 
 /* Frames From Start 64 bit RO register TODO */
-//#define FRAMES_FROM_START_LSB_REG           (0x22 << MEM_MAP_SHIFT)            // Not used in FW
+//#define FRAMES_FROM_START_LSB_REG           (0x22 << MEM_MAP_SHIFT) // Not
-//#define FRAMES_FROM_START_MSB_REG           (0x23 << MEM_MAP_SHIFT)            // Not used in FW
+// used in FW #define FRAMES_FROM_START_MSB_REG           (0x23 <<
+// MEM_MAP_SHIFT)
+//// Not used in FW
 
 /* Frames From Start PG 64 bit RO register. Reset using CONTROL_CRST. TODO */
-#define FRAMES_FROM_START_PG_LSB_REG        (0x24 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_PG_LSB_REG (0x24 << MEM_MAP_SHIFT)
-#define FRAMES_FROM_START_PG_MSB_REG        (0x25 << MEM_MAP_SHIFT)
+#define FRAMES_FROM_START_PG_MSB_REG (0x25 << MEM_MAP_SHIFT)
 
-/* Start Frame Time (Measurement Time) 64 bit register (timestamp at a frame start until reset) TODO */
+/* Start Frame Time (Measurement Time) 64 bit register (timestamp at a frame
-#define START_FRAME_TIME_LSB_REG		    (0x26 << MEM_MAP_SHIFT)
+ * start until reset) TODO */
-#define START_FRAME_TIME_MSB_REG 		    (0x27 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_LSB_REG (0x26 << MEM_MAP_SHIFT)
+#define START_FRAME_TIME_MSB_REG (0x27 << MEM_MAP_SHIFT)
 
 /* Power Status RO register */
-#define POWER_STATUS_REG                    (0x29 << MEM_MAP_SHIFT)
+#define POWER_STATUS_REG (0x29 << MEM_MAP_SHIFT)
 
-#define POWER_STATUS_ALRT_OFST              (27)
+#define POWER_STATUS_ALRT_OFST (27)
-#define POWER_STATUS_ALRT_MSK               (0x0000001F << POWER_STATUS_ALRT_OFST)
+#define POWER_STATUS_ALRT_MSK  (0x0000001F << POWER_STATUS_ALRT_OFST)
 
 /* DAC Value Out RO register */
 //#define DAC_VAL_OUT_REG                     (0x2A << MEM_MAP_SHIFT)
 
 /* Slow ADC SPI Value RO register */
-#define ADC_SPI_SLOW_VAL_REG                (0x2B << MEM_MAP_SHIFT)
+#define ADC_SPI_SLOW_VAL_REG (0x2B << MEM_MAP_SHIFT)
 
 /* FIFO Digital In Status RO register */
-#define FIFO_DIN_STATUS_REG                 (0x3B << MEM_MAP_SHIFT)
+#define FIFO_DIN_STATUS_REG            (0x3B << MEM_MAP_SHIFT)
-#define FIFO_DIN_STATUS_FIFO_FULL_OFST		(30)
+#define FIFO_DIN_STATUS_FIFO_FULL_OFST (30)
-#define FIFO_DIN_STATUS_FIFO_FULL_MSK		(0x00000001 << FIFO_DIN_STATUS_FIFO_FULL_OFST)
+#define FIFO_DIN_STATUS_FIFO_FULL_MSK                                          \
-#define FIFO_DIN_STATUS_FIFO_EMPTY_OFST		(31)
+    (0x00000001 << FIFO_DIN_STATUS_FIFO_FULL_OFST)
-#define FIFO_DIN_STATUS_FIFO_EMPTY_MSK		(0x00000001 << FIFO_DIN_STATUS_FIFO_EMPTY_OFST)
+#define FIFO_DIN_STATUS_FIFO_EMPTY_OFST (31)
+#define FIFO_DIN_STATUS_FIFO_EMPTY_MSK                                         \
+    (0x00000001 << FIFO_DIN_STATUS_FIFO_EMPTY_OFST)
 
 /* FIFO Digital In 64 bit RO register */
-#define FIFO_DIN_LSB_REG                    (0x3C << MEM_MAP_SHIFT)
+#define FIFO_DIN_LSB_REG (0x3C << MEM_MAP_SHIFT)
-#define FIFO_DIN_MSB_REG                    (0x3D << MEM_MAP_SHIFT)
+#define FIFO_DIN_MSB_REG (0x3D << MEM_MAP_SHIFT)
 
 /* SPI (Serial Peripheral Interface) DAC, HV RW register */
-#define SPI_REG							    (0x40 << MEM_MAP_SHIFT)
+#define SPI_REG (0x40 << MEM_MAP_SHIFT)
 
-#define SPI_DAC_SRL_DGTL_OTPT_OFST		    (0)
+#define SPI_DAC_SRL_DGTL_OTPT_OFST (0)
-#define SPI_DAC_SRL_DGTL_OTPT_MSK		    (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
+#define SPI_DAC_SRL_DGTL_OTPT_MSK  (0x00000001 << SPI_DAC_SRL_DGTL_OTPT_OFST)
-#define SPI_DAC_SRL_CLK_OTPT_OFST			(1)
+#define SPI_DAC_SRL_CLK_OTPT_OFST  (1)
-#define SPI_DAC_SRL_CLK_OTPT_MSK			(0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
+#define SPI_DAC_SRL_CLK_OTPT_MSK   (0x00000001 << SPI_DAC_SRL_CLK_OTPT_OFST)
-#define SPI_DAC_SRL_CS_OTPT_OFST			(2)
+#define SPI_DAC_SRL_CS_OTPT_OFST   (2)
-#define SPI_DAC_SRL_CS_OTPT_MSK			    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
+#define SPI_DAC_SRL_CS_OTPT_MSK    (0x00000001 << SPI_DAC_SRL_CS_OTPT_OFST)
-#define SPI_HV_SRL_DGTL_OTPT_OFST		    (8)
+#define SPI_HV_SRL_DGTL_OTPT_OFST  (8)
-#define SPI_HV_SRL_DGTL_OTPT_MSK		    (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
+#define SPI_HV_SRL_DGTL_OTPT_MSK   (0x00000001 << SPI_HV_SRL_DGTL_OTPT_OFST)
-#define SPI_HV_SRL_CLK_OTPT_OFST			(9)
+#define SPI_HV_SRL_CLK_OTPT_OFST   (9)
-#define SPI_HV_SRL_CLK_OTPT_MSK			    (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
+#define SPI_HV_SRL_CLK_OTPT_MSK    (0x00000001 << SPI_HV_SRL_CLK_OTPT_OFST)
-#define SPI_HV_SRL_CS_OTPT_OFST			    (10)
+#define SPI_HV_SRL_CS_OTPT_OFST    (10)
-#define SPI_HV_SRL_CS_OTPT_MSK			    (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
+#define SPI_HV_SRL_CS_OTPT_MSK     (0x00000001 << SPI_HV_SRL_CS_OTPT_OFST)
 
 /* ADC SPI (Serial Peripheral Interface) RW register */
-#define ADC_SPI_REG   					    (0x41 << MEM_MAP_SHIFT)
+#define ADC_SPI_REG (0x41 << MEM_MAP_SHIFT)
 
-#define ADC_SPI_SRL_CLK_OTPT_OFST			(0)
+#define ADC_SPI_SRL_CLK_OTPT_OFST (0)
-#define ADC_SPI_SRL_CLK_OTPT_MSK			(0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
+#define ADC_SPI_SRL_CLK_OTPT_MSK  (0x00000001 << ADC_SPI_SRL_CLK_OTPT_OFST)
-#define ADC_SPI_SRL_DT_OTPT_OFST		    (1)
+#define ADC_SPI_SRL_DT_OTPT_OFST  (1)
-#define ADC_SPI_SRL_DT_OTPT_MSK			    (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
+#define ADC_SPI_SRL_DT_OTPT_MSK   (0x00000001 << ADC_SPI_SRL_DT_OTPT_OFST)
-#define ADC_SPI_SRL_CS_OTPT_OFST			(2)
+#define ADC_SPI_SRL_CS_OTPT_OFST  (2)
-#define ADC_SPI_SRL_CS_OTPT_MSK			    (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
+#define ADC_SPI_SRL_CS_OTPT_MSK   (0x0000000F << ADC_SPI_SRL_CS_OTPT_OFST)
-#define ADC_SPI_SLOW_SRL_DT_OFST            (8)
+#define ADC_SPI_SLOW_SRL_DT_OFST  (8)
-#define ADC_SPI_SLOW_SRL_DT_MSK             (0x00000001 << ADC_SPI_SLOW_SRL_DT_OFST)
+#define ADC_SPI_SLOW_SRL_DT_MSK   (0x00000001 << ADC_SPI_SLOW_SRL_DT_OFST)
-#define ADC_SPI_SLOW_SRL_CLK_OFST           (9)
+#define ADC_SPI_SLOW_SRL_CLK_OFST (9)
-#define ADC_SPI_SLOW_SRL_CLK_MSK            (0x00000001 << ADC_SPI_SLOW_SRL_CLK_OFST)
+#define ADC_SPI_SLOW_SRL_CLK_MSK  (0x00000001 << ADC_SPI_SLOW_SRL_CLK_OFST)
-#define ADC_SPI_SLOW_SRL_CNV_OFST           (10)
+#define ADC_SPI_SLOW_SRL_CNV_OFST (10)
-#define ADC_SPI_SLOW_SRL_CNV_MSK            (0x00000001 << ADC_SPI_SLOW_SRL_CNV_OFST)
+#define ADC_SPI_SLOW_SRL_CNV_MSK  (0x00000001 << ADC_SPI_SLOW_SRL_CNV_OFST)
 
 /* ADC Offset RW register */
-#define ADC_OFFSET_REG 					    (0x42 << MEM_MAP_SHIFT)
+#define ADC_OFFSET_REG (0x42 << MEM_MAP_SHIFT)
 
-#define ADC_OFFSET_ADC_PPLN_OFST            (0)
+#define ADC_OFFSET_ADC_PPLN_OFST (0)
-#define ADC_OFFSET_ADC_PPLN_MSK             (0x000000FF << ADC_OFFSET_ADC_PPLN_OFST)
+#define ADC_OFFSET_ADC_PPLN_MSK  (0x000000FF << ADC_OFFSET_ADC_PPLN_OFST)
-#define ADC_OFFSET_DBT_PPLN_OFST            (16)
+#define ADC_OFFSET_DBT_PPLN_OFST (16)
-#define ADC_OFFSET_DBT_PPLN_MSK             (0x000000FF << ADC_OFFSET_DBT_PPLN_OFST)
+#define ADC_OFFSET_DBT_PPLN_MSK  (0x000000FF << ADC_OFFSET_DBT_PPLN_OFST)
 
 /* ADC Port Invert RW register */
-#define ADC_PORT_INVERT_REG   			    (0x43 << MEM_MAP_SHIFT)
+#define ADC_PORT_INVERT_REG (0x43 << MEM_MAP_SHIFT)
 
-#define ADC_PORT_INVERT_0_INPT_OFST         (0)
+#define ADC_PORT_INVERT_0_INPT_OFST (0)
-#define ADC_PORT_INVERT_0_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_0_INPT_OFST)
+#define ADC_PORT_INVERT_0_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_0_INPT_OFST)
-#define ADC_PORT_INVERT_1_INPT_OFST         (8)
+#define ADC_PORT_INVERT_1_INPT_OFST (8)
-#define ADC_PORT_INVERT_1_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_1_INPT_OFST)
+#define ADC_PORT_INVERT_1_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_1_INPT_OFST)
-#define ADC_PORT_INVERT_2_INPT_OFST         (16)
+#define ADC_PORT_INVERT_2_INPT_OFST (16)
-#define ADC_PORT_INVERT_2_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_2_INPT_OFST)
+#define ADC_PORT_INVERT_2_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_2_INPT_OFST)
-#define ADC_PORT_INVERT_3_INPT_OFST         (24)
+#define ADC_PORT_INVERT_3_INPT_OFST (24)
-#define ADC_PORT_INVERT_3_INPT_MSK          (0x000000FF << ADC_PORT_INVERT_3_INPT_OFST)
+#define ADC_PORT_INVERT_3_INPT_MSK  (0x000000FF << ADC_PORT_INVERT_3_INPT_OFST)
 
 /* Dummy RW register */
-#define DUMMY_REG                           (0x44 << MEM_MAP_SHIFT)
+#define DUMMY_REG (0x44 << MEM_MAP_SHIFT)
 
-#define DUMMY_FIFO_CHNNL_SLCT_OFST          (0)
+#define DUMMY_FIFO_CHNNL_SLCT_OFST    (0)
-#define DUMMY_FIFO_CHNNL_SLCT_MSK           (0x0000003F << DUMMY_FIFO_CHNNL_SLCT_OFST)
+#define DUMMY_FIFO_CHNNL_SLCT_MSK     (0x0000003F << DUMMY_FIFO_CHNNL_SLCT_OFST)
-#define DUMMY_ANLG_FIFO_RD_STRBE_OFST       (8)
+#define DUMMY_ANLG_FIFO_RD_STRBE_OFST (8)
-#define DUMMY_ANLG_FIFO_RD_STRBE_MSK        (0x00000001 << DUMMY_ANLG_FIFO_RD_STRBE_OFST)
+#define DUMMY_ANLG_FIFO_RD_STRBE_MSK                                           \
-#define DUMMY_DGTL_FIFO_RD_STRBE_OFST       (9)
+    (0x00000001 << DUMMY_ANLG_FIFO_RD_STRBE_OFST)
-#define DUMMY_DGTL_FIFO_RD_STRBE_MSK        (0x00000001 << DUMMY_DGTL_FIFO_RD_STRBE_OFST)
+#define DUMMY_DGTL_FIFO_RD_STRBE_OFST (9)
+#define DUMMY_DGTL_FIFO_RD_STRBE_MSK                                           \
+    (0x00000001 << DUMMY_DGTL_FIFO_RD_STRBE_OFST)
 
 /* Receiver IP Address RW register */
-#define RX_IP_REG    			            (0x45 << MEM_MAP_SHIFT)
+#define RX_IP_REG (0x45 << MEM_MAP_SHIFT)
 
 /* UDP Port RW register */
-#define UDP_PORT_REG    				    (0x46 << MEM_MAP_SHIFT)
+#define UDP_PORT_REG (0x46 << MEM_MAP_SHIFT)
 
-#define UDP_PORT_RX_OFST				    (0)
+#define UDP_PORT_RX_OFST (0)
-#define UDP_PORT_RX_MSK					    (0x0000FFFF << UDP_PORT_RX_OFST)
+#define UDP_PORT_RX_MSK  (0x0000FFFF << UDP_PORT_RX_OFST)
-#define UDP_PORT_TX_OFST				    (16)
+#define UDP_PORT_TX_OFST (16)
-#define UDP_PORT_TX_MSK					    (0x0000FFFF << UDP_PORT_TX_OFST)
+#define UDP_PORT_TX_MSK  (0x0000FFFF << UDP_PORT_TX_OFST)
 
 /* Receiver Mac Address 64 bit RW register */
-#define RX_MAC_LSB_REG					    (0x47 << MEM_MAP_SHIFT)
+#define RX_MAC_LSB_REG (0x47 << MEM_MAP_SHIFT)
-#define RX_MAC_MSB_REG					    (0x48 << MEM_MAP_SHIFT)
+#define RX_MAC_MSB_REG (0x48 << MEM_MAP_SHIFT)
 
-#define RX_MAC_LSB_OFST					    (0)
+#define RX_MAC_LSB_OFST (0)
-#define RX_MAC_LSB_MSK					    (0xFFFFFFFF << RX_MAC_LSB_OFST)
+#define RX_MAC_LSB_MSK  (0xFFFFFFFF << RX_MAC_LSB_OFST)
-#define RX_MAC_MSB_OFST					    (0)
+#define RX_MAC_MSB_OFST (0)
-#define RX_MAC_MSB_MSK					    (0x0000FFFF << RX_MAC_MSB_OFST)
+#define RX_MAC_MSB_MSK  (0x0000FFFF << RX_MAC_MSB_OFST)
 
 /* Detector/ Transmitter Mac Address 64 bit RW register */
-#define TX_MAC_LSB_REG					    (0x49 << MEM_MAP_SHIFT)
+#define TX_MAC_LSB_REG (0x49 << MEM_MAP_SHIFT)
-#define TX_MAC_MSB_REG					    (0x4A << MEM_MAP_SHIFT)
+#define TX_MAC_MSB_REG (0x4A << MEM_MAP_SHIFT)
 
-#define TX_MAC_LSB_OFST					    (0)
+#define TX_MAC_LSB_OFST (0)
-#define TX_MAC_LSB_MSK					    (0xFFFFFFFF << TX_MAC_LSB_OFST)
+#define TX_MAC_LSB_MSK  (0xFFFFFFFF << TX_MAC_LSB_OFST)
-#define TX_MAC_MSB_OFST					    (0)
+#define TX_MAC_MSB_OFST (0)
-#define TX_MAC_MSB_MSK					    (0x0000FFFF << TX_MAC_MSB_OFST)
+#define TX_MAC_MSB_MSK  (0x0000FFFF << TX_MAC_MSB_OFST)
 
 /* Detector/ Transmitter IP Address RW register */
-#define TX_IP_REG						    (0x4B << MEM_MAP_SHIFT)
+#define TX_IP_REG (0x4B << MEM_MAP_SHIFT)
 
 /* Detector/ Transmitter IP Checksum RW register */
-#define TX_IP_CHECKSUM_REG				    (0x4C << MEM_MAP_SHIFT)
+#define TX_IP_CHECKSUM_REG (0x4C << MEM_MAP_SHIFT)
 
-#define TX_IP_CHECKSUM_OFST				    (0)
+#define TX_IP_CHECKSUM_OFST (0)
-#define TX_IP_CHECKSUM_MSK				    (0x0000FFFF << TX_IP_CHECKSUM_OFST)
+#define TX_IP_CHECKSUM_MSK  (0x0000FFFF << TX_IP_CHECKSUM_OFST)
 
 /* Configuration RW register */
-#define CONFIG_REG            			    (0x4D << MEM_MAP_SHIFT)
+#define CONFIG_REG (0x4D << MEM_MAP_SHIFT)
 
-#define CONFIG_LED_DSBL_OFST                (0)                                         // Not used in firmware or software
+#define CONFIG_LED_DSBL_OFST        (0) // Not used in firmware or software
-#define CONFIG_LED_DSBL_MSK                 (0x00000001 << CONFIG_LED_DSBL_OFST)
+#define CONFIG_LED_DSBL_MSK         (0x00000001 << CONFIG_LED_DSBL_OFST)
-#define CONFIG_DSBL_ANLG_OTPT_OFST          (8)
+#define CONFIG_DSBL_ANLG_OTPT_OFST  (8)
-#define CONFIG_DSBL_ANLG_OTPT_MSK           (0x00000001 << CONFIG_DSBL_ANLG_OTPT_OFST)
+#define CONFIG_DSBL_ANLG_OTPT_MSK   (0x00000001 << CONFIG_DSBL_ANLG_OTPT_OFST)
-#define CONFIG_ENBLE_DGTL_OTPT_OFST         (9)
+#define CONFIG_ENBLE_DGTL_OTPT_OFST (9)
-#define CONFIG_ENBLE_DGTL_OTPT_MSK          (0x00000001 << CONFIG_ENBLE_DGTL_OTPT_OFST)
+#define CONFIG_ENBLE_DGTL_OTPT_MSK  (0x00000001 << CONFIG_ENBLE_DGTL_OTPT_OFST)
-#define CONFIG_GB10_SND_UDP_OFST            (12)
+#define CONFIG_GB10_SND_UDP_OFST    (12)
-#define CONFIG_GB10_SND_UDP_MSK             (0x00000001 << CONFIG_GB10_SND_UDP_OFST)
+#define CONFIG_GB10_SND_UDP_MSK     (0x00000001 << CONFIG_GB10_SND_UDP_OFST)
 
 /* External Signal RW register */
-#define EXT_SIGNAL_REG        			    (0x4E << MEM_MAP_SHIFT)
+#define EXT_SIGNAL_REG (0x4E << MEM_MAP_SHIFT)
 
-#define EXT_SIGNAL_OFST					    (0)
+#define EXT_SIGNAL_OFST      (0)
-#define EXT_SIGNAL_MSK					    (0x00000001 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK       (0x00000001 << EXT_SIGNAL_OFST)
-#define EXT_SIGNAL_AUTO_VAL                 ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_AUTO_VAL  ((0x0 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
-#define EXT_SIGNAL_TRGGR_VAL                ((0x1 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
+#define EXT_SIGNAL_TRGGR_VAL ((0x1 << EXT_SIGNAL_OFST) & EXT_SIGNAL_MSK)
 
 /* Control RW register */
-#define CONTROL_REG           			    (0x4F << MEM_MAP_SHIFT)
+#define CONTROL_REG (0x4F << MEM_MAP_SHIFT)
 
-#define CONTROL_STRT_ACQSTN_OFST       	    (0)
+#define CONTROL_STRT_ACQSTN_OFST (0)
-#define CONTROL_STRT_ACQSTN_MSK			    (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
+#define CONTROL_STRT_ACQSTN_MSK  (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
-#define CONTROL_STP_ACQSTN_OFST			    (1)
+#define CONTROL_STP_ACQSTN_OFST  (1)
-#define CONTROL_STP_ACQSTN_MSK			    (0x00000001 << CONTROL_STP_ACQSTN_OFST)
+#define CONTROL_STP_ACQSTN_MSK   (0x00000001 << CONTROL_STP_ACQSTN_OFST)
 //#define CONTROL_STRT_FF_TST_OFST            (2)
-//#define CONTROL_STRT_FF_TST_MSK             (0x00000001 << CONTROL_STRT_FF_TST_OFST)
+//#define CONTROL_STRT_FF_TST_MSK             (0x00000001 <<
-//#define CONTROL_STP_FF_TST_OFST             (3)
+// CONTROL_STRT_FF_TST_OFST) #define CONTROL_STP_FF_TST_OFST             (3)
-//#define CONTROL_STP_FF_TST_MSK              (0x00000001 << CONTROL_STP_FF_TST_OFST)
+//#define CONTROL_STP_FF_TST_MSK              (0x00000001 <<
-//#define CONTROL_STRT_RDT_OFST               (4)
+// CONTROL_STP_FF_TST_OFST) #define CONTROL_STRT_RDT_OFST               (4)
-//#define CONTROL_STRT_RDT_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
+//#define CONTROL_STRT_RDT_MSK                (0x00000001 <<
-//#define CONTROL_STP_RDT_OFST                (5)
+// CONTROL_STRT_RDT_OFST) #define CONTROL_STP_RDT_OFST                (5)
-//#define CONTROL_STP_RDT_MSK                 (0x00000001 << CONTROL_STP_RDT_OFST)
+// #define CONTROL_STP_RDT_MSK                 (0x00000001 <<
-#define CONTROL_STRT_EXPSR_OFST             (6)
+// CONTROL_STP_RDT_OFST)
-#define CONTROL_STRT_EXPSR_MSK              (0x00000001 << CONTROL_STRT_EXPSR_OFST)
+#define CONTROL_STRT_EXPSR_OFST (6)
+#define CONTROL_STRT_EXPSR_MSK  (0x00000001 << CONTROL_STRT_EXPSR_OFST)
 //#define CONTROL_STP_EXPSR_OFST              (7)
-//#define CONTROL_STP_EXPSR_MSK               (0x00000001 << CONTROL_STP_RDT_OFST)
+//#define CONTROL_STP_EXPSR_MSK               (0x00000001 <<
-//#define CONTROL_STRT_TRN_OFST               (8)
+// CONTROL_STP_RDT_OFST) #define CONTROL_STRT_TRN_OFST               (8) #define
-//#define CONTROL_STRT_TRN_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
+// CONTROL_STRT_TRN_MSK                (0x00000001 << CONTROL_STRT_RDT_OFST)
 //#define CONTROL_STP_TRN_OFST                (9)
-//#define CONTROL_STP_TRN_MSK                 (0x00000001 << CONTROL_STP_RDT_OFST)
+//#define CONTROL_STP_TRN_MSK                 (0x00000001 <<
-#define CONTROL_CRE_RST_OFST			    (10)
+// CONTROL_STP_RDT_OFST)
-#define CONTROL_CRE_RST_MSK			        (0x00000001 << CONTROL_CRE_RST_OFST)
+#define CONTROL_CRE_RST_OFST    (10)
-#define CONTROL_PRPHRL_RST_OFST		        (11)										// Only GBE10?
+#define CONTROL_CRE_RST_MSK     (0x00000001 << CONTROL_CRE_RST_OFST)
-#define CONTROL_PRPHRL_RST_MSK		        (0x00000001 << CONTROL_PRPHRL_RST_OFST)
+#define CONTROL_PRPHRL_RST_OFST (11) // Only GBE10?
-#define CONTROL_MMRY_RST_OFST		        (12)
+#define CONTROL_PRPHRL_RST_MSK  (0x00000001 << CONTROL_PRPHRL_RST_OFST)
-#define CONTROL_MMRY_RST_MSK		        (0x00000001 << CONTROL_MMRY_RST_OFST)
+#define CONTROL_MMRY_RST_OFST   (12)
+#define CONTROL_MMRY_RST_MSK    (0x00000001 << CONTROL_MMRY_RST_OFST)
 //#define CONTROL_PLL_RCNFG_WR_OFST           (13)
-//#define CONTROL_PLL_RCNFG_WR_MSK            (0x00000001 << CONTROL_PLL_RCNFG_WR_OFST)
+//#define CONTROL_PLL_RCNFG_WR_MSK            (0x00000001 <<
-#define CONTROL_SND_10GB_PCKT_OFST          (14)
+// CONTROL_PLL_RCNFG_WR_OFST)
-#define CONTROL_SND_10GB_PCKT_MSK           (0x00000001 << CONTROL_SND_10GB_PCKT_OFST)
+#define CONTROL_SND_10GB_PCKT_OFST   (14)
-#define CONTROL_CLR_ACQSTN_FIFO_OFST		(15)
+#define CONTROL_SND_10GB_PCKT_MSK    (0x00000001 << CONTROL_SND_10GB_PCKT_OFST)
-#define CONTROL_CLR_ACQSTN_FIFO_MSK		    (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
+#define CONTROL_CLR_ACQSTN_FIFO_OFST (15)
+#define CONTROL_CLR_ACQSTN_FIFO_MSK  (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
 
 /* Reconfiguratble PLL Paramater RW register */
-#define PLL_PARAM_REG					    (0x50 << MEM_MAP_SHIFT)
+#define PLL_PARAM_REG (0x50 << MEM_MAP_SHIFT)
 
 /* Reconfiguratble PLL Control RW regiser */
-#define PLL_CNTRL_REG					    (0x51 << MEM_MAP_SHIFT)
+#define PLL_CNTRL_REG (0x51 << MEM_MAP_SHIFT)
 
-#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST		(0)
+#define PLL_CNTRL_RCNFG_PRMTR_RST_OFST (0)
-#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK		(0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)
+#define PLL_CNTRL_RCNFG_PRMTR_RST_MSK                                          \
-#define PLL_CNTRL_WR_PRMTR_OFST		        (2)
+    (0x00000001 << PLL_CNTRL_RCNFG_PRMTR_RST_OFST)
-#define PLL_CNTRL_WR_PRMTR_MSK		        (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
+#define PLL_CNTRL_WR_PRMTR_OFST (2)
-#define PLL_CNTRL_PLL_RST_OFST				(3)
+#define PLL_CNTRL_WR_PRMTR_MSK  (0x00000001 << PLL_CNTRL_WR_PRMTR_OFST)
-#define PLL_CNTRL_PLL_RST_MSK				(0x00000001 << PLL_CNTRL_PLL_RST_OFST)
+#define PLL_CNTRL_PLL_RST_OFST  (3)
-#define PLL_CNTRL_ADDR_OFST				    (16)
+#define PLL_CNTRL_PLL_RST_MSK   (0x00000001 << PLL_CNTRL_PLL_RST_OFST)
-#define PLL_CNTRL_ADDR_MSK				    (0x0000003F << PLL_CNTRL_ADDR_OFST)
+#define PLL_CNTRL_ADDR_OFST     (16)
+#define PLL_CNTRL_ADDR_MSK      (0x0000003F << PLL_CNTRL_ADDR_OFST)
 
 /* Pattern Control RW register */
-#define PATTERN_CNTRL_REG                   (0x52 << MEM_MAP_SHIFT)
+#define PATTERN_CNTRL_REG (0x52 << MEM_MAP_SHIFT)
 
-#define PATTERN_CNTRL_WR_OFST               (0)
+#define PATTERN_CNTRL_WR_OFST   (0)
-#define PATTERN_CNTRL_WR_MSK                (0x00000001 << PATTERN_CNTRL_WR_OFST)
+#define PATTERN_CNTRL_WR_MSK    (0x00000001 << PATTERN_CNTRL_WR_OFST)
-#define PATTERN_CNTRL_RD_OFST               (1)
+#define PATTERN_CNTRL_RD_OFST   (1)
-#define PATTERN_CNTRL_RD_MSK                (0x00000001 << PATTERN_CNTRL_RD_OFST)
+#define PATTERN_CNTRL_RD_MSK    (0x00000001 << PATTERN_CNTRL_RD_OFST)
-#define PATTERN_CNTRL_ADDR_OFST             (16)
+#define PATTERN_CNTRL_ADDR_OFST (16)
-#define PATTERN_CNTRL_ADDR_MSK              (0x00001FFF << PATTERN_CNTRL_ADDR_OFST)
+#define PATTERN_CNTRL_ADDR_MSK  (0x00001FFF << PATTERN_CNTRL_ADDR_OFST)
 
 /* Pattern Limit RW regiser */
-#define PATTERN_LIMIT_REG                   (0x53 << MEM_MAP_SHIFT)
+#define PATTERN_LIMIT_REG (0x53 << MEM_MAP_SHIFT)
 
-#define PATTERN_LIMIT_STRT_OFST       		(0)
+#define PATTERN_LIMIT_STRT_OFST (0)
-#define PATTERN_LIMIT_STRT_MSK        		(0x00001FFF << PATTERN_LIMIT_STRT_OFST)
+#define PATTERN_LIMIT_STRT_MSK  (0x00001FFF << PATTERN_LIMIT_STRT_OFST)
-#define PATTERN_LIMIT_STP_OFST        		(16)
+#define PATTERN_LIMIT_STP_OFST  (16)
-#define PATTERN_LIMIT_STP_MSK         		(0x00001FFF << PATTERN_LIMIT_STP_OFST)
+#define PATTERN_LIMIT_STP_MSK   (0x00001FFF << PATTERN_LIMIT_STP_OFST)
 
 /* Pattern Loop 0 Address RW regiser */
-#define PATTERN_LOOP_0_ADDR_REG             (0x54 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_0_ADDR_REG (0x54 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_0_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_0_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_0_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
+#define PATTERN_LOOP_0_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_0_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
-#define PATTERN_LOOP_0_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
+#define PATTERN_LOOP_0_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_0_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
 
 /* Pattern Loop 0 Iteration RW regiser */
-#define PATTERN_LOOP_0_ITERATION_REG        (0x55 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_0_ITERATION_REG (0x55 << MEM_MAP_SHIFT)
 
 /* Pattern Loop 1 Address RW regiser */
-#define PATTERN_LOOP_1_ADDR_REG             (0x56 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_1_ADDR_REG (0x56 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_1_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_1_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_1_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
+#define PATTERN_LOOP_1_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_1_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
-#define PATTERN_LOOP_1_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
+#define PATTERN_LOOP_1_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_1_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
 
 /* Pattern Loop 1 Iteration RW regiser */
-#define PATTERN_LOOP_1_ITERATION_REG        (0x57 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_1_ITERATION_REG (0x57 << MEM_MAP_SHIFT)
 
 /* Pattern Loop 2 Address RW regiser */
-#define PATTERN_LOOP_2_ADDR_REG             (0x58 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_2_ADDR_REG (0x58 << MEM_MAP_SHIFT)
 
-#define PATTERN_LOOP_2_ADDR_STRT_OFST       (0)
+#define PATTERN_LOOP_2_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_2_ADDR_STRT_MSK        (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
+#define PATTERN_LOOP_2_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_2_ADDR_STP_OFST        (16)
+    (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
-#define PATTERN_LOOP_2_ADDR_STP_MSK         (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
+#define PATTERN_LOOP_2_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_2_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
 
 /* Pattern Loop 2 Iteration RW regiser */
-#define PATTERN_LOOP_2_ITERATION_REG        (0x59 << MEM_MAP_SHIFT)
+#define PATTERN_LOOP_2_ITERATION_REG (0x59 << MEM_MAP_SHIFT)
 
 /* Pattern Wait 0 RW regiser */
-#define PATTERN_WAIT_0_ADDR_REG             (0x5A << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_0_ADDR_REG (0x5A << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_0_ADDR_OFST            (0)
+#define PATTERN_WAIT_0_ADDR_OFST (0)
-#define PATTERN_WAIT_0_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
+#define PATTERN_WAIT_0_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
-//FIXME: is mask 3FF
+// FIXME: is mask 3FF
 
 /* Pattern Wait 1 RW regiser */
-#define PATTERN_WAIT_1_ADDR_REG             (0x5B << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_1_ADDR_REG (0x5B << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_1_ADDR_OFST            (0)
+#define PATTERN_WAIT_1_ADDR_OFST (0)
-#define PATTERN_WAIT_1_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
+#define PATTERN_WAIT_1_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
 
 /* Pattern Wait 2 RW regiser */
-#define PATTERN_WAIT_2_ADDR_REG             (0x5C << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_2_ADDR_REG (0x5C << MEM_MAP_SHIFT)
 
-#define PATTERN_WAIT_2_ADDR_OFST            (0)
+#define PATTERN_WAIT_2_ADDR_OFST (0)
-#define PATTERN_WAIT_2_ADDR_MSK             (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
+#define PATTERN_WAIT_2_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
 
 /* Samples RW register */
-#define SAMPLES_REG 						(0x5D << MEM_MAP_SHIFT)
+#define SAMPLES_REG (0x5D << MEM_MAP_SHIFT)
 
-#define SAMPLES_DIGITAL_OFST                (0)
+#define SAMPLES_DIGITAL_OFST (0)
-#define SAMPLES_DIGITAL_MSK                 (0x0000FFFF << SAMPLES_DIGITAL_OFST)
+#define SAMPLES_DIGITAL_MSK  (0x0000FFFF << SAMPLES_DIGITAL_OFST)
-#define SAMPLES_ANALOG_OFST                 (16)
+#define SAMPLES_ANALOG_OFST  (16)
-#define SAMPLES_ANALOG_MSK                  (0x0000FFFF << SAMPLES_ANALOG_OFST)
+#define SAMPLES_ANALOG_MSK   (0x0000FFFF << SAMPLES_ANALOG_OFST)
 
 /** Power RW register */
-#define POWER_REG					        (0x5E << MEM_MAP_SHIFT)
+#define POWER_REG (0x5E << MEM_MAP_SHIFT)
 
-#define POWER_CHIP_OFST                     (16)
+#define POWER_CHIP_OFST             (16)
-#define POWER_CHIP_MSK                      (0x00000001 << POWER_CHIP_OFST)
+#define POWER_CHIP_MSK              (0x00000001 << POWER_CHIP_OFST)
-#define POWER_HV_INTERNAL_SLCT_OFST         (31)
+#define POWER_HV_INTERNAL_SLCT_OFST (31)
-#define POWER_HV_INTERNAL_SLCT_MSK          (0x00000001 << POWER_HV_INTERNAL_SLCT_OFST)
+#define POWER_HV_INTERNAL_SLCT_MSK  (0x00000001 << POWER_HV_INTERNAL_SLCT_OFST)
 
 /* Number of Words RW register TODO */
-#define NUMBER_OF_WORDS_REG                 (0x5F << MEM_MAP_SHIFT)
+#define NUMBER_OF_WORDS_REG (0x5F << MEM_MAP_SHIFT)
-
 
 /* Delay 64 bit RW register. t = DLY x 50 ns. */
-#define DELAY_LSB_REG     			        (0x60 << MEM_MAP_SHIFT)
+#define DELAY_LSB_REG (0x60 << MEM_MAP_SHIFT)
-#define DELAY_MSB_REG     			        (0x61 << MEM_MAP_SHIFT)
+#define DELAY_MSB_REG (0x61 << MEM_MAP_SHIFT)
 
 /* Triggers 64 bit RW register */
-#define CYCLES_LSB_REG    			        (0x62 << MEM_MAP_SHIFT)
+#define CYCLES_LSB_REG (0x62 << MEM_MAP_SHIFT)
-#define CYCLES_MSB_REG    			        (0x63 << MEM_MAP_SHIFT)
+#define CYCLES_MSB_REG (0x63 << MEM_MAP_SHIFT)
 
 /* Frames 64 bit RW register */
-#define FRAMES_LSB_REG   			        (0x64 << MEM_MAP_SHIFT)
+#define FRAMES_LSB_REG (0x64 << MEM_MAP_SHIFT)
-#define FRAMES_MSB_REG    			        (0x65 << MEM_MAP_SHIFT)
+#define FRAMES_MSB_REG (0x65 << MEM_MAP_SHIFT)
 
 /* Period 64 bit RW register */
-#define PERIOD_LSB_REG    			        (0x66 << MEM_MAP_SHIFT)
+#define PERIOD_LSB_REG (0x66 << MEM_MAP_SHIFT)
-#define PERIOD_MSB_REG    			        (0x67 << MEM_MAP_SHIFT)
+#define PERIOD_MSB_REG (0x67 << MEM_MAP_SHIFT)
 
 /* Period 64 bit RW register */
-//#define EXPTIME_LSB_REG    			    (0x68 << MEM_MAP_SHIFT)                 // Not used in FW
+//#define EXPTIME_LSB_REG    			    (0x68 << MEM_MAP_SHIFT) //
-//#define EXPTIME_MSB_REG    			    (0x69 << MEM_MAP_SHIFT)                 // Not used in FW
+// Not used in FW #define EXPTIME_MSB_REG    			    (0x69 <<
+// MEM_MAP_SHIFT)                 // Not used in FW
 
 /* Gates 64 bit RW register */
-//#define GATES_LSB_REG                      (0x6A << MEM_MAP_SHIFT)                 // Not used in FW
+//#define GATES_LSB_REG                      (0x6A << MEM_MAP_SHIFT) // Not used
-//#define GATES_MSB_REG                      (0x6B << MEM_MAP_SHIFT)                 // Not used in FW
+// in FW #define GATES_MSB_REG                      (0x6B << MEM_MAP_SHIFT) //
+// Not used in FW
 
 /* Pattern IO Control 64 bit RW regiser
  * Each bit configured as output(1)/ input(0) */
-#define PATTERN_IO_CNTRL_LSB_REG            (0x6C << MEM_MAP_SHIFT)
+#define PATTERN_IO_CNTRL_LSB_REG (0x6C << MEM_MAP_SHIFT)
-#define PATTERN_IO_CNTRL_MSB_REG            (0x6D << MEM_MAP_SHIFT)
+#define PATTERN_IO_CNTRL_MSB_REG (0x6D << MEM_MAP_SHIFT)
 
 /* Pattern IO Clock Control 64 bit RW regiser
  * When bit n enabled (1), clocked output for DIO[n] (T run clock)
  * When bit n disabled (0), Dio[n] driven by its pattern output */
-#define PATTERN_IO_CLK_CNTRL_LSB_REG        (0x6E << MEM_MAP_SHIFT)
+#define PATTERN_IO_CLK_CNTRL_LSB_REG (0x6E << MEM_MAP_SHIFT)
-#define PATTERN_IO_CLK_CNTRL_MSB_REG        (0x6F << MEM_MAP_SHIFT)
+#define PATTERN_IO_CLK_CNTRL_MSB_REG (0x6F << MEM_MAP_SHIFT)
 
 /* Pattern In 64 bit RW register */
-#define PATTERN_IN_LSB_REG                  (0x70 << MEM_MAP_SHIFT)
+#define PATTERN_IN_LSB_REG (0x70 << MEM_MAP_SHIFT)
-#define PATTERN_IN_MSB_REG                  (0x71 << MEM_MAP_SHIFT)
+#define PATTERN_IN_MSB_REG (0x71 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 0 64 bit RW register. t = PWT1 x T run clock */
-#define PATTERN_WAIT_TIMER_0_LSB_REG        (0x72 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_0_LSB_REG (0x72 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_0_MSB_REG        (0x73 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_0_MSB_REG (0x73 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 1 64 bit RW register. t = PWT2 x T run clock */
-#define PATTERN_WAIT_TIMER_1_LSB_REG        (0x74 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_1_LSB_REG (0x74 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_1_MSB_REG        (0x75 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_1_MSB_REG (0x75 << MEM_MAP_SHIFT)
 
 /* Pattern Wait Timer 2 64 bit RW register. t = PWT3 x T run clock */
-#define PATTERN_WAIT_TIMER_2_LSB_REG        (0x76 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_2_LSB_REG (0x76 << MEM_MAP_SHIFT)
-#define PATTERN_WAIT_TIMER_2_MSB_REG        (0x77 << MEM_MAP_SHIFT)
+#define PATTERN_WAIT_TIMER_2_MSB_REG (0x77 << MEM_MAP_SHIFT)
 
 /* Readout enable RW register */
-#define READOUT_10G_ENABLE_REG              (0x79 << MEM_MAP_SHIFT)
+#define READOUT_10G_ENABLE_REG (0x79 << MEM_MAP_SHIFT)
 
-#define READOUT_10G_ENABLE_ANLG_OFST        (0)
+#define READOUT_10G_ENABLE_ANLG_OFST (0)
-#define READOUT_10G_ENABLE_ANLG_MSK         (0x000000FF << READOUT_10G_ENABLE_ANLG_OFST)
+#define READOUT_10G_ENABLE_ANLG_MSK  (0x000000FF << READOUT_10G_ENABLE_ANLG_OFST)
-#define READOUT_10G_ENABLE_DGTL_OFST        (8)
+#define READOUT_10G_ENABLE_DGTL_OFST (8)
-#define READOUT_10G_ENABLE_DGTL_MSK         (0x00000001 << READOUT_10G_ENABLE_DGTL_OFST)
+#define READOUT_10G_ENABLE_DGTL_MSK  (0x00000001 << READOUT_10G_ENABLE_DGTL_OFST)
 
 /* Digital Bit External Trigger RW register */
-#define DBIT_EXT_TRG_REG                    (0x7B << MEM_MAP_SHIFT)                 // Not used in firmware or software
+#define DBIT_EXT_TRG_REG                                                       \
+    (0x7B << MEM_MAP_SHIFT) // Not used in firmware or software
 
-#define DBIT_EXT_TRG_SRC_OFST               (0)
+#define DBIT_EXT_TRG_SRC_OFST      (0)
-#define DBIT_EXT_TRG_SRC_MSK                (0x0000003F << DBIT_EXT_TRG_SRC_OFST)
+#define DBIT_EXT_TRG_SRC_MSK       (0x0000003F << DBIT_EXT_TRG_SRC_OFST)
-#define DBIT_EXT_TRG_OPRTN_MD_OFST          (16)
+#define DBIT_EXT_TRG_OPRTN_MD_OFST (16)
-#define DBIT_EXT_TRG_OPRTN_MD_MSK           (0x00000001 << DBIT_EXT_TRG_OPRTN_MD_OFST)
+#define DBIT_EXT_TRG_OPRTN_MD_MSK  (0x00000001 << DBIT_EXT_TRG_OPRTN_MD_OFST)
 
 /* Pin Delay 0 RW register */
-#define OUTPUT_DELAY_0_REG                  (0x7C << MEM_MAP_SHIFT)                 // Not used in firmware or software
+#define OUTPUT_DELAY_0_REG                                                     \
+    (0x7C << MEM_MAP_SHIFT) // Not used in firmware or software
 
-#define OUTPUT_DELAY_0_OTPT_STTNG_STEPS		(25)
+#define OUTPUT_DELAY_0_OTPT_STTNG_STEPS (25)
-#define OUTPUT_DELAY_0_OTPT_STTNG_OFST      (0)     //t = OTPT_STTNG * 25 ps, max for Cyclone V = 775 ps
+#define OUTPUT_DELAY_0_OTPT_STTNG_OFST                                         \
-#define OUTPUT_DELAY_0_OTPT_STTNG_MSK       (0x0000001F << OUTPUT_DELAY_0_OTPT_STTNG_OFST)
+    (0) // t = OTPT_STTNG * 25 ps, max for Cyclone V = 775 ps
-// 1: load dynamic output settings, 0: trigger start of dynamic output delay configuration pn falling edge of ODT (output delay trigger) bit
+#define OUTPUT_DELAY_0_OTPT_STTNG_MSK                                          \
-#define OUTPUT_DELAY_0_OTPT_TRGGR_OFST      (31)
+    (0x0000001F << OUTPUT_DELAY_0_OTPT_STTNG_OFST)
-#define OUTPUT_DELAY_0_OTPT_TRGGR_MSK       (0x00000001 << OUTPUT_DELAY_0_OTPT_TRGGR_OFST)
+// 1: load dynamic output settings, 0: trigger start of dynamic output delay
-#define OUTPUT_DELAY_0_OTPT_TRGGR_LD_VAL    (1)
+// configuration pn falling edge of ODT (output delay trigger) bit
-#define OUTPUT_DELAY_0_OTPT_TRGGR_STRT_VAL  (0)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_OFST (31)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_MSK                                          \
+    (0x00000001 << OUTPUT_DELAY_0_OTPT_TRGGR_OFST)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_LD_VAL   (1)
+#define OUTPUT_DELAY_0_OTPT_TRGGR_STRT_VAL (0)
 
 /* Pin Delay 1 RW register
  * Each bit configured as enable for dynamic output delay configuration */
-#define PIN_DELAY_1_REG                     (0x7D << MEM_MAP_SHIFT)                 // Not used in firmware or software
+#define PIN_DELAY_1_REG                                                        \
+    (0x7D << MEM_MAP_SHIFT) // Not used in firmware or software
 
 /** Pattern Mask 64 bit RW regiser */
-#define PATTERN_MASK_LSB_REG                (0x80 << MEM_MAP_SHIFT)
+#define PATTERN_MASK_LSB_REG (0x80 << MEM_MAP_SHIFT)
-#define PATTERN_MASK_MSB_REG                (0x81 << MEM_MAP_SHIFT)
+#define PATTERN_MASK_MSB_REG (0x81 << MEM_MAP_SHIFT)
 
 /** Pattern Set 64 bit RW regiser */
-#define PATTERN_SET_LSB_REG                 (0x82 << MEM_MAP_SHIFT)
+#define PATTERN_SET_LSB_REG (0x82 << MEM_MAP_SHIFT)
-#define PATTERN_SET_MSB_REG                 (0x83 << MEM_MAP_SHIFT)
+#define PATTERN_SET_MSB_REG (0x83 << MEM_MAP_SHIFT)
 
 /* Round Robin  */
-#define RXR_ENDPOINT_START_REG	            (0x1000 << MEM_MAP_SHIFT)
+#define RXR_ENDPOINT_START_REG (0x1000 << MEM_MAP_SHIFT)
-
-

slsDetectorServers/moenchDetectorServer/slsDetectorServer_defs.h

@@ -1,128 +1,143 @@
 #pragma once
-#include "sls_detector_defs.h"
 #include "RegisterDefs.h"
+#include "sls_detector_defs.h"
 
+#define MIN_REQRD_VRSN_T_RD_API 0x180314
+#define REQRD_FRMWR_VRSN        0x200302
 
-#define MIN_REQRD_VRSN_T_RD_API     0x180314
+#define CTRL_SRVR_INIT_TIME_US (2 * 1000 * 1000)
-#define REQRD_FRMWR_VRSN            0x200302
-
-#define CTRL_SRVR_INIT_TIME_US      (2 * 1000 * 1000)
 
 /* Struct Definitions */
 typedef struct udp_header_struct {
-	uint32_t	udp_destmac_msb;
+    uint32_t udp_destmac_msb;
-	uint16_t	udp_srcmac_msb;
+    uint16_t udp_srcmac_msb;
-	uint16_t	udp_destmac_lsb;
+    uint16_t udp_destmac_lsb;
-	uint32_t	udp_srcmac_lsb;
+    uint32_t udp_srcmac_lsb;
-	uint8_t		ip_tos;
+    uint8_t ip_tos;
-	uint8_t		ip_ihl: 4, ip_ver: 4;
+    uint8_t ip_ihl : 4, ip_ver : 4;
-	uint16_t	udp_ethertype;
+    uint16_t udp_ethertype;
-	uint16_t	ip_identification;
+    uint16_t ip_identification;
-	uint16_t	ip_totallength;
+    uint16_t ip_totallength;
-	uint8_t		ip_protocol;
+    uint8_t ip_protocol;
-	uint8_t		ip_ttl;
+    uint8_t ip_ttl;
-	uint16_t	ip_fragmentoffset: 13, ip_flags: 3;
+    uint16_t ip_fragmentoffset : 13, ip_flags : 3;
-	uint16_t	ip_srcip_msb;
+    uint16_t ip_srcip_msb;
-	uint16_t	ip_checksum;
+    uint16_t ip_checksum;
-	uint16_t	ip_destip_msb;
+    uint16_t ip_destip_msb;
-	uint16_t	ip_srcip_lsb;
+    uint16_t ip_srcip_lsb;
-	uint16_t	udp_srcport;
+    uint16_t udp_srcport;
-	uint16_t	ip_destip_lsb;
+    uint16_t ip_destip_lsb;
-	uint16_t	udp_checksum;
+    uint16_t udp_checksum;
-	uint16_t	udp_destport;
+    uint16_t udp_destport;
 } udp_header;
 
-#define IP_HEADER_SIZE				(20)
+#define IP_HEADER_SIZE             (20)
-#define UDP_IP_HEADER_LENGTH_BYTES	(28)
+#define UDP_IP_HEADER_LENGTH_BYTES (28)
 
 /* Enums */
-enum DACINDEX               {MO_VBP_COLBUF, MO_VIPRE, MO_VIN_CM, MO_VB_SDA, MO_VCASC_SFP, MO_VOUT_CM, MO_VIPRE_CDS, MO_IBIAS_SFP};
+enum DACINDEX {
-#define DAC_NAMES			"vbp_colbuf", "vipre", "vin_cm", "vb_sda", "vcasc_sfp", "vout_cm", "vipre_cds", "ibias_sfp"
+    MO_VBP_COLBUF,
-#define DEFAULT_DAC_VALS   	{ 	1300,	/* MO_VBP_COLBUF */		\
+    MO_VIPRE,
-								1000,	/* MO_VIPRE */			\
+    MO_VIN_CM,
-								1400,	/* MO_VIN_CM */			\
+    MO_VB_SDA,
-								680,	/* MO_VB_SDA */			\
+    MO_VCASC_SFP,
-								1428,	/* MO_VCASC_SFP */		\
+    MO_VOUT_CM,
-								1200,	/* MO_VOUT_CM */		\
+    MO_VIPRE_CDS,
-								800,	/* MO_VIPRE_CDS */		\
+    MO_IBIAS_SFP
-								900		/* MO_IBIAS_SFP */		\
+};
-							};
+#define DAC_NAMES                                                              \
+    "vbp_colbuf", "vipre", "vin_cm", "vb_sda", "vcasc_sfp", "vout_cm",         \
+        "vipre_cds", "ibias_sfp"
+#define DEFAULT_DAC_VALS                                                       \
+    {                                                                          \
+        1300, /* MO_VBP_COLBUF */                                              \
+        1000, /* MO_VIPRE */                                                   \
+        1400, /* MO_VIN_CM */                                                  \
+        680,  /* MO_VB_SDA */                                                  \
+        1428, /* MO_VCASC_SFP */                                               \
+        1200, /* MO_VOUT_CM */                                                 \
+        800,  /* MO_VIPRE_CDS */                                               \
+        900   /* MO_IBIAS_SFP */                                               \
+    };
 
-enum CLKINDEX               {RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS};
+enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
-#define CLK_NAMES			"run", "adc", "sync", "dbit"
+#define CLK_NAMES "run", "adc", "sync", "dbit"
 
 /* Hardware Definitions */
-#define NCHAN 						(32)
+#define NCHAN               (32)
-#define NCHIP 						(1)
+#define NCHIP               (1)
-#define NDAC 						(8)
+#define NDAC                (8)
-#define DYNAMIC_RANGE               (16)
+#define DYNAMIC_RANGE       (16)
-#define NUM_BYTES_PER_PIXEL         (DYNAMIC_RANGE / 8)
+#define NUM_BYTES_PER_PIXEL (DYNAMIC_RANGE / 8)
-#define CLK_FREQ					(156.25)	/* MHz */
+#define CLK_FREQ            (156.25) /* MHz */
-#define NSAMPLES_PER_ROW			(25)
+#define NSAMPLES_PER_ROW    (25)
-#define NCHANS_PER_ADC				(25)
+#define NCHANS_PER_ADC      (25)
 
 /** Default Parameters */
-#define DEFAULT_PATTERN_FILE        ("DefaultPattern.txt")
+#define DEFAULT_PATTERN_FILE ("DefaultPattern.txt")
-#define DEFAULT_DATA_BYTES          (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
+#define DEFAULT_DATA_BYTES   (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
-#define DEFAULT_NUM_SAMPLES         (5000)
+#define DEFAULT_NUM_SAMPLES  (5000)
-#define DEFAULT_EXPTIME				(0)
+#define DEFAULT_EXPTIME      (0)
-#define DEFAULT_NUM_FRAMES			(1)
+#define DEFAULT_NUM_FRAMES   (1)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES   (1)
-#define DEFAULT_PERIOD				(1 * 1000 * 1000)	//ns
+#define DEFAULT_PERIOD       (1 * 1000 * 1000) // ns
-#define DEFAULT_DELAY				(0)
+#define DEFAULT_DELAY        (0)
-#define DEFAULT_HIGH_VOLTAGE		(0)
+#define DEFAULT_HIGH_VOLTAGE (0)
-#define DEFAULT_VLIMIT              (-100)
+#define DEFAULT_VLIMIT       (-100)
-#define DEFAULT_TIMING_MODE			(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE  (AUTO_TIMING)
-#define DEFAULT_TX_UDP_PORT			(0x7e9a)
+#define DEFAULT_TX_UDP_PORT  (0x7e9a)
 
 #define DEFAULT_RUN_CLK_AT_STARTUP  (200) // 40
-#define DEFAULT_ADC_CLK_AT_STARTUP  (40) // 20
+#define DEFAULT_ADC_CLK_AT_STARTUP  (40)  // 20
-#define DEFAULT_SYNC_CLK_AT_STARTUP (40) // 20
+#define DEFAULT_SYNC_CLK_AT_STARTUP (40)  // 20
 #define DEFAULT_DBIT_CLK_AT_STARTUP (200)
 
-#define DEFAULT_RUN_CLK             (40) 
+#define DEFAULT_RUN_CLK       (40)
-#define DEFAULT_ADC_CLK             (20) 
+#define DEFAULT_ADC_CLK       (20)
-#define DEFAULT_DBIT_CLK            (40)
+#define DEFAULT_DBIT_CLK      (40)
-#define DEFAULT_ADC_PHASE_DEG		(30)
+#define DEFAULT_ADC_PHASE_DEG (30)
 
-#define DEFAULT_PIPELINE			(15)
+#define DEFAULT_PIPELINE (15)
-#define DEFAULT_SETTINGS			(G4_HIGHGAIN)
+#define DEFAULT_SETTINGS (G4_HIGHGAIN)
 
 // settings
-#define DEFAULT_PATSETBIT			(0x00000C800000800AULL)
+#define DEFAULT_PATSETBIT           (0x00000C800000800AULL)
-#define G1_HIGHGAIN_PATMASK			(0x00000C0000008008ULL)
+#define G1_HIGHGAIN_PATMASK         (0x00000C0000008008ULL)
-#define G1_LOWGAIN_PATMASK			(0x0000040000008000ULL)
+#define G1_LOWGAIN_PATMASK          (0x0000040000008000ULL)
-#define G2_HIGHCAP_HIGHGAIN_PATMASK	(0x0000080000000008ULL)		
+#define G2_HIGHCAP_HIGHGAIN_PATMASK (0x0000080000000008ULL)
-#define G2_HIGHCAP_LOWGAIN_PATMASK	(0x0000000000000000ULL)		
+#define G2_HIGHCAP_LOWGAIN_PATMASK  (0x0000000000000000ULL)
-#define G2_LOWCAP_HIGHGAIN_PATMASK	(0x00000C800000800AULL)		
+#define G2_LOWCAP_HIGHGAIN_PATMASK  (0x00000C800000800AULL)
-#define G2_LOWCAP_LOWGAIN_PATMASK	(0x0000048000008002ULL)		
+#define G2_LOWCAP_LOWGAIN_PATMASK   (0x0000048000008002ULL)
-#define G4_HIGHGAIN_PATMASK			(0x000008800000000AULL)
+#define G4_HIGHGAIN_PATMASK         (0x000008800000000AULL)
-#define G4_LOWGAIN_PATMASK			(0x0000008000000002ULL)
+#define G4_LOWGAIN_PATMASK          (0x0000008000000002ULL)
 
-#define HIGHVOLTAGE_MIN             (60)
+#define HIGHVOLTAGE_MIN (60)
-#define HIGHVOLTAGE_MAX             (200) // min dac val
+#define HIGHVOLTAGE_MAX (200) // min dac val
-#define DAC_MIN_MV                  (0)
+#define DAC_MIN_MV      (0)
-#define DAC_MAX_MV                  (2500)
+#define DAC_MAX_MV      (2500)
 
 /* Defines in the Firmware */
-#define MAX_PATTERN_LENGTH  		(0x2000)
+#define MAX_PATTERN_LENGTH (0x2000)
-#define DIGITAL_IO_DELAY_MAXIMUM_PS	((OUTPUT_DELAY_0_OTPT_STTNG_MSK >> OUTPUT_DELAY_0_OTPT_STTNG_OFST) * OUTPUT_DELAY_0_OTPT_STTNG_STEPS)
+#define DIGITAL_IO_DELAY_MAXIMUM_PS                                            \
-#define MAX_PHASE_SHIFTS_STEPS		(8)
+    ((OUTPUT_DELAY_0_OTPT_STTNG_MSK >> OUTPUT_DELAY_0_OTPT_STTNG_OFST) *       \
+     OUTPUT_DELAY_0_OTPT_STTNG_STEPS)
+#define MAX_PHASE_SHIFTS_STEPS (8)
 
-#define WAIT_TME_US_FR_ACQDONE_REG 	(100) // wait time in us after acquisition done to ensure there is no data in fifo
+#define WAIT_TME_US_FR_ACQDONE_REG                                             \
-#define WAIT_TIME_US_PLL            (10 * 1000)
+    (100) // wait time in us after acquisition done to ensure there is no data
-#define WAIT_TIME_US_STP_ACQ        (100)
+          // in fifo
-#define WAIT_TIME_CONFIGURE_MAC     (2 * 1000 * 1000)
+#define WAIT_TIME_US_PLL           (10 * 1000)
-#define WAIT_TIME_PATTERN_READ     	(10)
+#define WAIT_TIME_US_STP_ACQ       (100)
-#define WAIT_TIME_1US_FOR_LOOP_CNT	(50) // around 30 is 1 us in blackfin
+#define WAIT_TIME_CONFIGURE_MAC    (2 * 1000 * 1000)
+#define WAIT_TIME_PATTERN_READ     (10)
+#define WAIT_TIME_1US_FOR_LOOP_CNT (50) // around 30 is 1 us in blackfin
 
 /* MSB & LSB DEFINES */
-#define MSB_OF_64_BIT_REG_OFST      (32)
+#define MSB_OF_64_BIT_REG_OFST (32)
-#define LSB_OF_64_BIT_REG_OFST      (0)
+#define LSB_OF_64_BIT_REG_OFST (0)
-#define BIT32_MSK					(0xFFFFFFFF)
+#define BIT32_MSK              (0xFFFFFFFF)
-#define BIT16_MASK					(0xFFFF)
+#define BIT16_MASK             (0xFFFF)
-
-#define ADC_PORT_INVERT_VAL         (0x4a342593)
-#define MAXIMUM_ADC_CLK             (20)
-#define PLL_VCO_FREQ_MHZ            (800)
 
+#define ADC_PORT_INVERT_VAL (0x4a342593)
+#define MAXIMUM_ADC_CLK     (20)
+#define PLL_VCO_FREQ_MHZ    (800)

slsDetectorServers/mythen3DetectorServer/Makefile

@@ -5,7 +5,7 @@ support_lib = ../../slsSupportLib/include/
 
 CROSS  		= nios2-buildroot-linux-gnu-
 CC    		= $(CROSS)gcc
-CFLAGS		+=  -Wall -DMYTHEN3D  -DSTOP_SERVER -I$(main_inc) -I$(support_lib) -I$(current_dir) -DDEBUG1 #-DVERBOSEI #-DVERBOSE 
+CFLAGS		+=  -Wall -DMYTHEN3D  -DSTOP_SERVER -I$(main_inc) -I$(support_lib) -I$(current_dir) #-DDEBUG1 #-DVERBOSEI #-DVERBOSE 
 LDLIBS		+= 	-lm
 PROGS		= 	mythen3DetectorServer 
 DESTDIR		?= 	bin

slsDetectorServers/mythen3DetectorServer/RegisterDefs.h

@@ -1,315 +1,326 @@
 #pragma once
 
-
+#define REG_OFFSET (4)
-#define REG_OFFSET                      (4)
 
 /* Base addresses 0x1804 0000 ---------------------------------------------*/
 
 /* Reconfiguration core for readout pll */
-#define BASE_READOUT_PLL                (0x0000) // 0x1804_0000 - 0x1804_07FF
+#define BASE_READOUT_PLL (0x0000) // 0x1804_0000 - 0x1804_07FF
 
 /* Reconfiguration core for system pll */
-#define BASE_SYSTEM_PLL                 (0x0800) // 0x1804_0800 - 0x1804_0FFF
+#define BASE_SYSTEM_PLL (0x0800) // 0x1804_0800 - 0x1804_0FFF
 
 /* Clock Generation */
-#define BASE_CLK_GENERATION             (0x1000) // 0x1804_1000 - 0x1804_XXXX //TODO
+#define BASE_CLK_GENERATION (0x1000) // 0x1804_1000 - 0x1804_XXXX //TODO
 
 /* Base addresses 0x1806 0000 ---------------------------------------------*/
 /* General purpose control and status registers */
-#define BASE_CONTROL                    (0x0000) // 0x1806_0000 - 0x1806_00FF 
+#define BASE_CONTROL (0x0000) // 0x1806_0000 - 0x1806_00FF
 // https://git.psi.ch/sls_detectors_firmware/mythen_III_mcb/blob/master/code/hdl/ctrl/ctrl.vhd
 
 /* ASIC Control */
-#define BASE_ASIC                       (0x0100) // 0x1806_0100 - 0x1806_010F 
+#define BASE_ASIC (0x0100) // 0x1806_0100 - 0x1806_010F
 
 /* ASIC Digital Interface. Data recovery core */
-#define BASE_ADIF                       (0x0110) // 0x1806_0110 - 0x1806_011F 
+#define BASE_ADIF (0x0110) // 0x1806_0110 - 0x1806_011F
 // https://git.psi.ch/sls_detectors_firmware/vhdl_library/blob/2e81ccbdbc5cb81813ba190fbdba43e8d6884eb9/adif/adif_ctrl.vhd
 
 /* Formatting of data core */
-#define BASE_FMT                        (0x0120) // 0x1806_0120 - 0x1806_012F
+#define BASE_FMT (0x0120) // 0x1806_0120 - 0x1806_012F
 
 /* Packetizer */
-#define BASE_PKT                        (0x0140) // 0x1806_0140 - 0x1806_014F
+#define BASE_PKT (0x0140) // 0x1806_0140 - 0x1806_014F
 // https://git.psi.ch/sls_detectors_firmware/mythen_III_mcb/blob/master/code/hdl/pkt/pkt_ctrl.vhd
 
 /* Pattern control and status registers */
-#define BASE_PATTERN_CONTROL            (0x00200) // 0x1806_0200 - 0x1806_02FF  
+#define BASE_PATTERN_CONTROL (0x00200) // 0x1806_0200 - 0x1806_02FF
 // https://git.psi.ch/sls_detectors_firmware/vhdl_library/blob/2e81ccbdbc5cb81813ba190fbdba43e8d6884eb9/pattern_flow/pattern_flow_ctrl.vhd
 
 /* UDP datagram generator */
-#define BASE_UDP_RAM                    (0x01000) // 0x1806_1000 - 0x1806_1FFF
+#define BASE_UDP_RAM (0x01000) // 0x1806_1000 - 0x1806_1FFF
 
 /* Pattern RAM. Pattern table */
-#define BASE_PATTERN_RAM                (0x10000) // 0x1807_0000 - 0x1807_FFFF
+#define BASE_PATTERN_RAM (0x10000) // 0x1807_0000 - 0x1807_FFFF
-
-
-
-/* Clock Generation registers ------------------------------------------------------*/
-#define PLL_RESET_REG                   (0x00 * REG_OFFSET + BASE_CLK_GENERATION)
-
-#define PLL_RESET_READOUT_OFST          (0)
-#define PLL_RESET_READOUT_MSK           (0x00000001 << PLL_RESET_READOUT_OFST)
-#define PLL_RESET_SYSTEM_OFST           (1)
-#define PLL_RESET_SYSTEM_MSK            (0x00000001 << PLL_RESET_SYSTEM_OFST)
 
+/* Clock Generation registers
+ * ------------------------------------------------------*/
+#define PLL_RESET_REG (0x00 * REG_OFFSET + BASE_CLK_GENERATION)
 
+#define PLL_RESET_READOUT_OFST (0)
+#define PLL_RESET_READOUT_MSK  (0x00000001 << PLL_RESET_READOUT_OFST)
+#define PLL_RESET_SYSTEM_OFST  (1)
+#define PLL_RESET_SYSTEM_MSK   (0x00000001 << PLL_RESET_SYSTEM_OFST)
 
 /* Control registers --------------------------------------------------*/
 
 /* Module Control Board Serial Number Register */
-#define MCB_SERIAL_NO_REG               (0x00 * REG_OFFSET + BASE_CONTROL)
+#define MCB_SERIAL_NO_REG (0x00 * REG_OFFSET + BASE_CONTROL)
 
-#define MCB_SERIAL_NO_VRSN_OFST			(16)
+#define MCB_SERIAL_NO_VRSN_OFST (16)
-#define MCB_SERIAL_NO_VRSN_MSK      	(0x0000001F << MCB_SERIAL_NO_VRSN_OFST)
+#define MCB_SERIAL_NO_VRSN_MSK  (0x0000001F << MCB_SERIAL_NO_VRSN_OFST)
 
 /* FPGA Version register */
-#define FPGA_VERSION_REG                (0x01 * REG_OFFSET + BASE_CONTROL)
+#define FPGA_VERSION_REG (0x01 * REG_OFFSET + BASE_CONTROL)
-
-#define FPGA_COMPILATION_DATE_OFST		(0)
-#define FPGA_COMPILATION_DATE_MSK		(0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
-#define DETECTOR_TYPE_OFST   			(24)
-#define DETECTOR_TYPE_MSK   			(0x000000FF << DETECTOR_TYPE_OFST)
 
+#define FPGA_COMPILATION_DATE_OFST (0)
+#define FPGA_COMPILATION_DATE_MSK  (0x00FFFFFF << FPGA_COMPILATION_DATE_OFST)
+#define DETECTOR_TYPE_OFST         (24)
+#define DETECTOR_TYPE_MSK          (0x000000FF << DETECTOR_TYPE_OFST)
 
 /* API Version Register */
-#define API_VERSION_REG                 (0x02 * REG_OFFSET + BASE_CONTROL)
+#define API_VERSION_REG (0x02 * REG_OFFSET + BASE_CONTROL)
 
-#define API_VERSION_OFST                (0)
+#define API_VERSION_OFST               (0)
-#define API_VERSION_MSK                 (0x00FFFFFF << API_VERSION_OFST)
+#define API_VERSION_MSK                (0x00FFFFFF << API_VERSION_OFST)
-#define API_VERSION_DETECTOR_TYPE_OFST  (24)                                            //Not used in software
+#define API_VERSION_DETECTOR_TYPE_OFST (24) // Not used in software
-#define API_VERSION_DETECTOR_TYPE_MSK   (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST)  //Not used in software
+#define API_VERSION_DETECTOR_TYPE_MSK                                          \
+    (0x000000FF << API_VERSION_DETECTOR_TYPE_OFST) // Not used in software
 
 /* Fix pattern register */
-#define FIX_PATT_REG             	    (0x03 * REG_OFFSET + BASE_CONTROL)
+#define FIX_PATT_REG (0x03 * REG_OFFSET + BASE_CONTROL)
-#define FIX_PATT_VAL                    (0xACDC2019)
+#define FIX_PATT_VAL (0xACDC2019)
 
 /* Status register */
-#define STATUS_REG                      (0x04 * REG_OFFSET + BASE_CONTROL)
+#define STATUS_REG (0x04 * REG_OFFSET + BASE_CONTROL)
 
 /* Look at me register, read only */
-#define LOOK_AT_ME_REG          		(0x05 * REG_OFFSET + BASE_CONTROL)	//Not used in firmware or software, good to play with
+#define LOOK_AT_ME_REG                                                         \
-
+    (0x05 * REG_OFFSET +                                                       \
-#define SYSTEM_STATUS_REG               (0x06 * REG_OFFSET + BASE_CONTROL)  //Not used in software
+     BASE_CONTROL) // Not used in firmware or software, good to play with
 
+#define SYSTEM_STATUS_REG                                                      \
+    (0x06 * REG_OFFSET + BASE_CONTROL) // Not used in software
 
 /* Config RW regiseter */
-#define CONFIG_REG                      (0x20 * REG_OFFSET + BASE_CONTROL)
+#define CONFIG_REG              (0x20 * REG_OFFSET + BASE_CONTROL)
-#define CONFIG_COUNTER_ENA_OFST		    (0)
+#define CONFIG_COUNTER_ENA_OFST (0)
-#define CONFIG_COUNTER_ENA_MSK          (0x00000003 << CONFIG_COUNTER_ENA_OFST)
+#define CONFIG_COUNTER_ENA_MSK  (0x00000003 << CONFIG_COUNTER_ENA_OFST)
-#define CONFIG_COUNTER_ENA_DEFAULT_VAL  ((0x0 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
+#define CONFIG_COUNTER_ENA_DEFAULT_VAL                                         \
-#define CONFIG_COUNTER_ENA_1_VAL        ((0x1 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
+    ((0x0 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
-#define CONFIG_COUNTER_ENA_2_VAL        ((0x2 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
+#define CONFIG_COUNTER_ENA_1_VAL                                               \
-#define CONFIG_COUNTER_ENA_ALL_VAL      ((0x3 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
+    ((0x1 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
-#define CONFIG_DYNAMIC_RANGE_OFST		(4)
+#define CONFIG_COUNTER_ENA_2_VAL                                               \
-#define CONFIG_DYNAMIC_RANGE_MSK      	(0x00000003 << CONFIG_DYNAMIC_RANGE_OFST)
+    ((0x2 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
-#define CONFIG_DYNAMIC_RANGE_1_VAL      ((0x0 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_COUNTER_ENA_ALL_VAL                                             \
-#define CONFIG_DYNAMIC_RANGE_4_VAL      ((0x1 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+    ((0x3 << CONFIG_COUNTER_ENA_OFST) & CONFIG_COUNTER_ENA_MSK)
-#define CONFIG_DYNAMIC_RANGE_16_VAL     ((0x2 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_DYNAMIC_RANGE_OFST (4)
-#define CONFIG_DYNAMIC_RANGE_24_VAL     ((0x3 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_DYNAMIC_RANGE_MSK  (0x00000003 << CONFIG_DYNAMIC_RANGE_OFST)
+#define CONFIG_DYNAMIC_RANGE_1_VAL                                             \
+    ((0x0 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_DYNAMIC_RANGE_4_VAL                                             \
+    ((0x1 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_DYNAMIC_RANGE_16_VAL                                            \
+    ((0x2 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
+#define CONFIG_DYNAMIC_RANGE_24_VAL                                            \
+    ((0x3 << CONFIG_DYNAMIC_RANGE_OFST) & CONFIG_DYNAMIC_RANGE_MSK)
 
-/* Control RW register */ 
+/* Control RW register */
-#define CONTROL_REG           			(0x21 * REG_OFFSET + BASE_CONTROL)
+#define CONTROL_REG (0x21 * REG_OFFSET + BASE_CONTROL)
 
-#define CONTROL_STRT_ACQSTN_OFST       	(0)
+#define CONTROL_STRT_ACQSTN_OFST     (0)
-#define CONTROL_STRT_ACQSTN_MSK			(0x00000001 << CONTROL_STRT_ACQSTN_OFST)
+#define CONTROL_STRT_ACQSTN_MSK      (0x00000001 << CONTROL_STRT_ACQSTN_OFST)
-#define CONTROL_STP_ACQSTN_OFST			(1)
+#define CONTROL_STP_ACQSTN_OFST      (1)
-#define CONTROL_STP_ACQSTN_MSK			(0x00000001 << CONTROL_STP_ACQSTN_OFST)
+#define CONTROL_STP_ACQSTN_MSK       (0x00000001 << CONTROL_STP_ACQSTN_OFST)
-#define CONTROL_CRE_RST_OFST			(10)
+#define CONTROL_CRE_RST_OFST         (10)
-#define CONTROL_CRE_RST_MSK			    (0x00000001 << CONTROL_CRE_RST_OFST)
+#define CONTROL_CRE_RST_MSK          (0x00000001 << CONTROL_CRE_RST_OFST)
-#define CONTROL_PRPHRL_RST_OFST		    (11)										// Only GBE10?
+#define CONTROL_PRPHRL_RST_OFST      (11) // Only GBE10?
-#define CONTROL_PRPHRL_RST_MSK		    (0x00000001 << CONTROL_PRPHRL_RST_OFST)
+#define CONTROL_PRPHRL_RST_MSK       (0x00000001 << CONTROL_PRPHRL_RST_OFST)
-#define CONTROL_CLR_ACQSTN_FIFO_OFST    (15)
+#define CONTROL_CLR_ACQSTN_FIFO_OFST (15)
-#define CONTROL_CLR_ACQSTN_FIFO_MSK		(0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
+#define CONTROL_CLR_ACQSTN_FIFO_MSK  (0x00000001 << CONTROL_CLR_ACQSTN_FIFO_OFST)
-#define CONTROL_PWR_CHIP_OFST           (31)
+#define CONTROL_PWR_CHIP_OFST        (31)
-#define CONTROL_PWR_CHIP_MSK    		(0x00000001 << CONTROL_PWR_CHIP_OFST)
+#define CONTROL_PWR_CHIP_MSK         (0x00000001 << CONTROL_PWR_CHIP_OFST)
 
 /* Pattern IO Control 64 bit register */
-#define PATTERN_IO_CTRL_LSB_REG         (0x22 * REG_OFFSET + BASE_CONTROL)   
+#define PATTERN_IO_CTRL_LSB_REG (0x22 * REG_OFFSET + BASE_CONTROL)
-#define PATTERN_IO_CTRL_MSB_REG         (0x23 * REG_OFFSET + BASE_CONTROL)   
+#define PATTERN_IO_CTRL_MSB_REG (0x23 * REG_OFFSET + BASE_CONTROL)
-
-#define DTA_OFFSET_REG                  (0x24 * REG_OFFSET + BASE_CONTROL)
-
 
+#define DTA_OFFSET_REG (0x24 * REG_OFFSET + BASE_CONTROL)
 
 /* Packetizer -------------------------------------------------------------*/
 
 /* Packetizer Config Register */
-#define PKT_CONFIG_REG                  (0x00 * REG_OFFSET + BASE_PKT)
+#define PKT_CONFIG_REG (0x00 * REG_OFFSET + BASE_PKT)
 
-#define PKT_CONFIG_NRXR_MAX_OFST        (0)
+#define PKT_CONFIG_NRXR_MAX_OFST     (0)
-#define PKT_CONFIG_NRXR_MAX_MSK         (0x0000003F << PKT_CONFIG_NRXR_MAX_OFST)
+#define PKT_CONFIG_NRXR_MAX_MSK      (0x0000003F << PKT_CONFIG_NRXR_MAX_OFST)
-#define PKT_CONFIG_RXR_START_ID_OFST    (8)
+#define PKT_CONFIG_RXR_START_ID_OFST (8)
-#define PKT_CONFIG_RXR_START_ID_MSK     (0x0000003F << PKT_CONFIG_RXR_START_ID_OFST)
+#define PKT_CONFIG_RXR_START_ID_MSK  (0x0000003F << PKT_CONFIG_RXR_START_ID_OFST)
 
 /* Module Coordinates Register */
-#define COORD_0_REG                     (0x02 * REG_OFFSET + BASE_PKT)
+#define COORD_0_REG    (0x02 * REG_OFFSET + BASE_PKT)
-#define COORD_ROW_OFST			        (0)
+#define COORD_ROW_OFST (0)
-#define COORD_ROW_MSK				    (0x0000FFFF << COORD_ROW_OFST)
+#define COORD_ROW_MSK  (0x0000FFFF << COORD_ROW_OFST)
-#define COORD_COL_OFST			        (16)
+#define COORD_COL_OFST (16)
-#define COORD_COL_MSK				    (0x0000FFFF << COORD_COL_OFST)
+#define COORD_COL_MSK  (0x0000FFFF << COORD_COL_OFST)
 
 /* Module ID Register */
-#define COORD_1_REG                     (0x03 * REG_OFFSET + BASE_PKT)
+#define COORD_1_REG         (0x03 * REG_OFFSET + BASE_PKT)
-#define COORD_RESERVED_OFST			    (0)
+#define COORD_RESERVED_OFST (0)
-#define COORD_RESERVED_MSK		        (0x0000FFFF << COORD_RESERVED_OFST)
+#define COORD_RESERVED_MSK  (0x0000FFFF << COORD_RESERVED_OFST)
-#define COORD_ID_OFST			        (16)                            // Not connected in firmware TODO
+#define COORD_ID_OFST       (16) // Not connected in firmware TODO
-#define COORD_ID_MSK				    (0x0000FFFF << COORD_ID_OFST)   // Not connected in firmware TODO
+#define COORD_ID_MSK                                                           \
+    (0x0000FFFF << COORD_ID_OFST) // Not connected in firmware TODO
 
-
+/* Pattern Control registers
-/* Pattern Control registers --------------------------------------------------*/
+ * --------------------------------------------------*/
 
 /* Pattern status Register*/
-#define PAT_STATUS_REG                  (0x00 * REG_OFFSET  + BASE_PATTERN_CONTROL)
+#define PAT_STATUS_REG                 (0x00 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PAT_STATUS_RUN_BUSY_OFST       	(0)
+#define PAT_STATUS_RUN_BUSY_OFST       (0)
-#define PAT_STATUS_RUN_BUSY_MSK			(0x00000001 << PAT_STATUS_RUN_BUSY_OFST)
+#define PAT_STATUS_RUN_BUSY_MSK        (0x00000001 << PAT_STATUS_RUN_BUSY_OFST)
-#define PAT_STATUS_WAIT_FOR_TRGGR_OFST  (3)
+#define PAT_STATUS_WAIT_FOR_TRGGR_OFST (3)
-#define PAT_STATUS_WAIT_FOR_TRGGR_MSK	(0x00000001 << PAT_STATUS_WAIT_FOR_TRGGR_OFST)
+#define PAT_STATUS_WAIT_FOR_TRGGR_MSK                                          \
-#define PAT_STATUS_DLY_BFRE_TRGGR_OFST  (4)
+    (0x00000001 << PAT_STATUS_WAIT_FOR_TRGGR_OFST)
-#define PAT_STATUS_DLY_BFRE_TRGGR_MSK	(0x00000001 << PAT_STATUS_DLY_BFRE_TRGGR_OFST)
+#define PAT_STATUS_DLY_BFRE_TRGGR_OFST (4)
-#define PAT_STATUS_FIFO_FULL_OFST       (5)
+#define PAT_STATUS_DLY_BFRE_TRGGR_MSK                                          \
-#define PAT_STATUS_FIFO_FULL_MSK		(0x00000001 << PAT_STATUS_FIFO_FULL_OFST)
+    (0x00000001 << PAT_STATUS_DLY_BFRE_TRGGR_OFST)
-#define PAT_STATUS_DLY_AFTR_TRGGR_OFST  (15)
+#define PAT_STATUS_FIFO_FULL_OFST      (5)
-#define PAT_STATUS_DLY_AFTR_TRGGR_MSK	(0x00000001 << PAT_STATUS_DLY_AFTR_TRGGR_OFST)
+#define PAT_STATUS_FIFO_FULL_MSK       (0x00000001 << PAT_STATUS_FIFO_FULL_OFST)
-#define PAT_STATUS_CSM_BUSY_OFST       	(17)
+#define PAT_STATUS_DLY_AFTR_TRGGR_OFST (15)
-#define PAT_STATUS_CSM_BUSY_MSK			(0x00000001 << PAT_STATUS_CSM_BUSY_OFST)
+#define PAT_STATUS_DLY_AFTR_TRGGR_MSK                                          \
+    (0x00000001 << PAT_STATUS_DLY_AFTR_TRGGR_OFST)
+#define PAT_STATUS_CSM_BUSY_OFST (17)
+#define PAT_STATUS_CSM_BUSY_MSK  (0x00000001 << PAT_STATUS_CSM_BUSY_OFST)
 
 /* Delay left 64bit Register */
-#define GET_DELAY_LSB_REG               (0x02 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_DELAY_LSB_REG (0x02 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define GET_DELAY_MSB_REG               (0x03 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_DELAY_MSB_REG (0x03 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Triggers left 64bit Register */
-#define GET_CYCLES_LSB_REG              (0x04 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_CYCLES_LSB_REG (0x04 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define GET_CYCLES_MSB_REG              (0x05 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_CYCLES_MSB_REG (0x05 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Frames left 64bit Register */
-#define GET_FRAMES_LSB_REG              (0x06 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_FRAMES_LSB_REG (0x06 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define GET_FRAMES_MSB_REG              (0x07 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_FRAMES_MSB_REG (0x07 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Period left 64bit Register */
-#define GET_PERIOD_LSB_REG              (0x08 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_PERIOD_LSB_REG (0x08 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define GET_PERIOD_MSB_REG              (0x09 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define GET_PERIOD_MSB_REG (0x09 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Time from Start 64 bit register */
-#define TIME_FROM_START_LSB_REG   		(0x0A * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define TIME_FROM_START_LSB_REG (0x0A * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define TIME_FROM_START_MSB_REG   		(0x0B * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define TIME_FROM_START_MSB_REG (0x0B * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-/* Get Frames from Start 64 bit register (frames from last reset using CONTROL_CRST) */
+/* Get Frames from Start 64 bit register (frames from last reset using
-#define FRAMES_FROM_START_LSB_REG	    (0x0C * REG_OFFSET + BASE_PATTERN_CONTROL)
+ * CONTROL_CRST) */
-#define FRAMES_FROM_START_MSB_REG 	    (0x0D * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define FRAMES_FROM_START_LSB_REG (0x0C * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define FRAMES_FROM_START_MSB_REG (0x0D * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Measurement Time 64 bit register (timestamp at a frame start until reset)*/
-#define START_FRAME_TIME_LSB_REG		(0x0E * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define START_FRAME_TIME_LSB_REG (0x0E * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define START_FRAME_TIME_MSB_REG 		(0x0F * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define START_FRAME_TIME_MSB_REG (0x0F * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Delay 64bit Write-register */
-#define SET_DELAY_LSB_REG               (0x22 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_DELAY_LSB_REG (0x22 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define SET_DELAY_MSB_REG               (0x23 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_DELAY_MSB_REG (0x23 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Cylces 64bit Write-register */
-#define SET_CYCLES_LSB_REG              (0x24 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_CYCLES_LSB_REG (0x24 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define SET_CYCLES_MSB_REG              (0x25 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_CYCLES_MSB_REG (0x25 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Frames 64bit Write-register */
-#define SET_FRAMES_LSB_REG              (0x26 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_FRAMES_LSB_REG (0x26 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define SET_FRAMES_MSB_REG              (0x27 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_FRAMES_MSB_REG (0x27 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Period 64bit Write-register */
-#define SET_PERIOD_LSB_REG              (0x28 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_PERIOD_LSB_REG (0x28 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define SET_PERIOD_MSB_REG              (0x29 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_PERIOD_MSB_REG (0x29 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* External Signal register */
-#define EXT_SIGNAL_REG        			(0x30 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define EXT_SIGNAL_REG (0x30 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define EXT_SIGNAL_OFST                 (0)
+#define EXT_SIGNAL_OFST (0)
-#define EXT_SIGNAL_MSK		            (0x00000001 << EXT_SIGNAL_OFST)
+#define EXT_SIGNAL_MSK  (0x00000001 << EXT_SIGNAL_OFST)
 
 /* Trigger Delay 64 bit register */
-#define SET_TRIGGER_DELAY_LSB_REG       (0x32 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_TRIGGER_DELAY_LSB_REG (0x32 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define SET_TRIGGER_DELAY_MSB_REG       (0x33 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define SET_TRIGGER_DELAY_MSB_REG (0x33 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Limit RW Register */
-#define PATTERN_LIMIT_REG               (0x40 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_LIMIT_REG (0x40 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_LIMIT_STRT_OFST       	(0)
+#define PATTERN_LIMIT_STRT_OFST (0)
-#define PATTERN_LIMIT_STRT_MSK        	(0x00001FFF << PATTERN_LIMIT_STRT_OFST)
+#define PATTERN_LIMIT_STRT_MSK  (0x00001FFF << PATTERN_LIMIT_STRT_OFST)
-#define PATTERN_LIMIT_STP_OFST        	(16)
+#define PATTERN_LIMIT_STP_OFST  (16)
-#define PATTERN_LIMIT_STP_MSK         	(0x00001FFF << PATTERN_LIMIT_STP_OFST)
+#define PATTERN_LIMIT_STP_MSK   (0x00001FFF << PATTERN_LIMIT_STP_OFST)
 
 /** Pattern Mask 64 bit RW regiser */
-#define PATTERN_MASK_LSB_REG            (0x42 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_MASK_LSB_REG (0x42 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PATTERN_MASK_MSB_REG            (0x43 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_MASK_MSB_REG (0x43 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /** Pattern Set 64 bit RW regiser */
-#define PATTERN_SET_LSB_REG             (0x44 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_SET_LSB_REG (0x44 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PATTERN_SET_MSB_REG             (0x45 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_SET_MSB_REG (0x45 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Wait Timer 0 64bit RW Register */
-#define PATTERN_WAIT_TIMER_0_LSB_REG    (0x60 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_0_LSB_REG (0x60 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PATTERN_WAIT_TIMER_0_MSB_REG    (0x61 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_0_MSB_REG (0x61 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Wait 0 RW Register*/
-#define PATTERN_WAIT_0_ADDR_REG         (0x62 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_0_ADDR_REG (0x62 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_WAIT_0_ADDR_OFST        (0)
+#define PATTERN_WAIT_0_ADDR_OFST (0)
-#define PATTERN_WAIT_0_ADDR_MSK         (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
+#define PATTERN_WAIT_0_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_0_ADDR_OFST)
 
 /* Pattern Loop 0 Iteration RW Register */
-#define PATTERN_LOOP_0_ITERATION_REG    (0x63 * REG_OFFSET  + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_0_ITERATION_REG (0x63 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Loop 0 Address RW Register */
-#define PATTERN_LOOP_0_ADDR_REG         (0x64 * REG_OFFSET  + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_0_ADDR_REG (0x64 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_LOOP_0_ADDR_STRT_OFST   (0)
+#define PATTERN_LOOP_0_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_0_ADDR_STRT_MSK    (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
+#define PATTERN_LOOP_0_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_0_ADDR_STP_OFST    (16)
+    (0x00001FFF << PATTERN_LOOP_0_ADDR_STRT_OFST)
-#define PATTERN_LOOP_0_ADDR_STP_MSK     (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
+#define PATTERN_LOOP_0_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_0_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_0_ADDR_STP_OFST)
 
 /* Pattern Wait Timer 1 64bit RW Register */
-#define PATTERN_WAIT_TIMER_1_LSB_REG    (0x65 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_1_LSB_REG (0x65 * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PATTERN_WAIT_TIMER_1_MSB_REG    (0x66 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_1_MSB_REG (0x66 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Wait 1 RW Register*/
-#define PATTERN_WAIT_1_ADDR_REG         (0x67 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_1_ADDR_REG (0x67 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_WAIT_1_ADDR_OFST        (0)
+#define PATTERN_WAIT_1_ADDR_OFST (0)
-#define PATTERN_WAIT_1_ADDR_MSK         (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
+#define PATTERN_WAIT_1_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_1_ADDR_OFST)
 
 /* Pattern Loop 1 Iteration RW Register */
-#define PATTERN_LOOP_1_ITERATION_REG    (0x68 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_1_ITERATION_REG (0x68 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Loop 1 Address RW Register */
-#define PATTERN_LOOP_1_ADDR_REG         (0x69 * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_1_ADDR_REG (0x69 * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_LOOP_1_ADDR_STRT_OFST   (0)
+#define PATTERN_LOOP_1_ADDR_STRT_OFST (0)
-#define PATTERN_LOOP_1_ADDR_STRT_MSK    (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
+#define PATTERN_LOOP_1_ADDR_STRT_MSK                                           \
-#define PATTERN_LOOP_1_ADDR_STP_OFST    (16)
+    (0x00001FFF << PATTERN_LOOP_1_ADDR_STRT_OFST)
-#define PATTERN_LOOP_1_ADDR_STP_MSK     (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
+#define PATTERN_LOOP_1_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_1_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_1_ADDR_STP_OFST)
 
 /* Pattern Wait Timer 2 64bit RW Register */
-#define PATTERN_WAIT_TIMER_2_LSB_REG    (0x6A * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_2_LSB_REG (0x6A * REG_OFFSET + BASE_PATTERN_CONTROL)
-#define PATTERN_WAIT_TIMER_2_MSB_REG    (0x6B * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_TIMER_2_MSB_REG (0x6B * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Wait 2 RW Register*/
-#define PATTERN_WAIT_2_ADDR_REG         (0x6C * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_WAIT_2_ADDR_REG (0x6C * REG_OFFSET + BASE_PATTERN_CONTROL)
 
-#define PATTERN_WAIT_2_ADDR_OFST        (0)
+#define PATTERN_WAIT_2_ADDR_OFST (0)
-#define PATTERN_WAIT_2_ADDR_MSK         (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
+#define PATTERN_WAIT_2_ADDR_MSK  (0x00001FFF << PATTERN_WAIT_2_ADDR_OFST)
 
 /* Pattern Loop 2 Iteration RW Register */
-#define PATTERN_LOOP_2_ITERATION_REG    (0x6D * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_2_ITERATION_REG (0x6D * REG_OFFSET + BASE_PATTERN_CONTROL)
 
 /* Pattern Loop 0 Address RW Register */
-#define PATTERN_LOOP_2_ADDR_REG         (0x6E * REG_OFFSET + BASE_PATTERN_CONTROL)
+#define PATTERN_LOOP_2_ADDR_REG (0x6E * REG_OFFSET + BASE_PATTERN_CONTROL)
-
-#define PATTERN_LOOP_2_ADDR_STRT_OFST   (0)
-#define PATTERN_LOOP_2_ADDR_STRT_MSK    (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
-#define PATTERN_LOOP_2_ADDR_STP_OFST    (16)
-#define PATTERN_LOOP_2_ADDR_STP_MSK     (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
 
+#define PATTERN_LOOP_2_ADDR_STRT_OFST (0)
+#define PATTERN_LOOP_2_ADDR_STRT_MSK                                           \
+    (0x00001FFF << PATTERN_LOOP_2_ADDR_STRT_OFST)
+#define PATTERN_LOOP_2_ADDR_STP_OFST (16)
+#define PATTERN_LOOP_2_ADDR_STP_MSK  (0x00001FFF << PATTERN_LOOP_2_ADDR_STP_OFST)
 
 /* Pattern RAM registers --------------------------------------------------*/
 
 /* Register of first word */
-#define PATTERN_STEP0_LSB_REG           (0x0 * REG_OFFSET + BASE_PATTERN_RAM)
+#define PATTERN_STEP0_LSB_REG (0x0 * REG_OFFSET + BASE_PATTERN_RAM)
-#define PATTERN_STEP0_MSB_REG           (0x1 * REG_OFFSET + BASE_PATTERN_RAM)
+#define PATTERN_STEP0_MSB_REG (0x1 * REG_OFFSET + BASE_PATTERN_RAM)

slsDetectorServers/mythen3DetectorServer/slsDetectorServer_defs.h

@@ -1,100 +1,157 @@
 #pragma once
 #include "sls_detector_defs.h"
 
-#define REQRD_FRMWRE_VRSN     		0x190000
+#define REQRD_FRMWRE_VRSN 0x190000
 
-#define CTRL_SRVR_INIT_TIME_US      (300 * 1000)
+#define CTRL_SRVR_INIT_TIME_US (300 * 1000)
 
 /* Hardware Definitions */
-#define NCOUNTERS					(3)
+#define NCOUNTERS                   (3)
-#define MAX_COUNTER_MSK				(0x7)
+#define MAX_COUNTER_MSK             (0x7)
-#define NCHAN_1_COUNTER				(128)
+#define NCHAN_1_COUNTER             (128)
-#define NCHAN 						(128 * NCOUNTERS)
+#define NCHAN                       (128 * NCOUNTERS)
-#define NCHIP 						(10)
+#define NCHIP                       (10)
-#define NDAC 						(16)
+#define NDAC                        (16)
 #define HV_SOFT_MAX_VOLTAGE         (200)
 #define HV_HARD_MAX_VOLTAGE         (530)
 #define HV_DRIVER_FILE_NAME         ("/etc/devlinks/hvdac")
 #define DAC_DRIVER_FILE_NAME        ("/etc/devlinks/dac")
-#define TYPE_FILE_NAME				("/etc/devlinks/type")
+#define TYPE_FILE_NAME              ("/etc/devlinks/type")
 #define DAC_MAX_MV                  (2048)
-#define TYPE_MYTHEN3_MODULE_VAL		(93)
+#define TYPE_MYTHEN3_MODULE_VAL     (93)
-#define TYPE_TOLERANCE				(10)
+#define TYPE_TOLERANCE              (10)
-#define TYPE_NO_MODULE_STARTING_VAL	(800)
+#define TYPE_NO_MODULE_STARTING_VAL (800)
-
 
 /** Default Parameters */
-#define DEFAULT_DYNAMIC_RANGE		(24)
+#define DEFAULT_DYNAMIC_RANGE       (24)
-#define DEFAULT_NUM_FRAMES			(1)
+#define DEFAULT_NUM_FRAMES          (1)
-#define DEFAULT_NUM_CYCLES			(1)
+#define DEFAULT_NUM_CYCLES          (1)
-#define DEFAULT_EXPTIME				(100*1000*1000)		//ns
+#define DEFAULT_EXPTIME             (100 * 1000 * 1000) // ns
-#define DEFAULT_PERIOD              (2*1000*1000)	    //ns 
+#define DEFAULT_PERIOD              (2 * 1000 * 1000)   // ns
 #define DEFAULT_DELAY_AFTER_TRIGGER (0)
 #define DEFAULT_HIGH_VOLTAGE        (0)
-#define DEFAULT_TIMING_MODE			(AUTO_TIMING)
+#define DEFAULT_TIMING_MODE         (AUTO_TIMING)
-#define DEFAULT_READOUT_C0          (125000000) // rdo_clk, 125 MHz  
+#define DEFAULT_READOUT_C0          (10) //(125000000) // rdo_clk, 125 MHz
-#define DEFAULT_READOUT_C1          (125000000) // rdo_x2_clk, 125 MHz  
+#define DEFAULT_READOUT_C1          (10) //(125000000) // rdo_x2_clk, 125 MHz
-#define DEFAULT_SYSTEM_C0			(250000000) // run_clk, 250 MHz 
+#define DEFAULT_SYSTEM_C0           (5)  //(250000000) // run_clk, 250 MHz
-#define DEFAULT_SYSTEM_C1			(125000000) // chip_clk, 125 MHz 
+#define DEFAULT_SYSTEM_C1           (10) //(125000000) // chip_clk, 125 MHz
-#define DEFAULT_SYSTEM_C2			(125000000) // sync_clk, 125 MHz 
+#define DEFAULT_SYSTEM_C2           (10) //(125000000) // sync_clk, 125 MHz
-
 
 /* Firmware Definitions */
-#define IP_HEADER_SIZE              (20)
+#define IP_HEADER_SIZE          (20)
-#define FIXED_PLL_FREQUENCY			(020000000) // 20MHz
+#define FIXED_PLL_FREQUENCY     (020000000)  // 20MHz
-#define READOUT_PLL_VCO_FREQ_HZ     (1250000000) // 1.25GHz 
+#define READOUT_PLL_VCO_FREQ_HZ (1250000000) // 1.25GHz
-#define SYSTEM_PLL_VCO_FREQ_HZ      (1250000000) // 1.25GHz
+#define SYSTEM_PLL_VCO_FREQ_HZ  (1250000000) // 1.25GHz
-#define MAX_PATTERN_LENGTH  		(0x2000) // maximum number of words (64bit)
+#define MAX_PATTERN_LENGTH      (0x2000)     // maximum number of words (64bit)
 
 /** Other Definitions */
-#define BIT16_MASK					(0xFFFF)
+#define BIT16_MASK         (0xFFFF)
+#define MAX_TRIMBITS_VALUE (63)
 
 /* Enums */
-enum DACINDEX   					{M_CASSH, M_VTH2, M_VRFSH, M_VRFSHNPOL, M_VIPRE_OUT, M_VTH3, M_VTH1, M_VICIN, M_CAS, M_VRF, M_VPL, M_VIPRE, M_VIINSH, M_VPH, M_VTRIM, M_VDCSH};
+enum DACINDEX {
-#define  DAC_NAMES					"vcassh", "vth2", "vshaper", "vshaperneg", "vipre_out", "vth3", "vth1", "vicin", "vcas", "vpreamp", "vpl", "vipre", "viinsh", "vph", "vtrim", "vdcsh"
+    M_CASSH,
-#define DEFAULT_DAC_VALS   			{1200,    /* casSh */     \
+    M_VTH2,
-                            		2800,    /* Vth2 */      \
+    M_VRFSH,
-                            		1280,    /* VrfSh */     \
+    M_VRFSHNPOL,
-                            		2800,    /* VrfShNpol */ \
+    M_VIPRE_OUT,
-                            		1220,    /* vIpreOut */  \
+    M_VTH3,
-                           		 	2800,    /* Vth3 */      \
+    M_VTH1,
-                            		2800,    /* Vth1 */      \
+    M_VICIN,
-                            		1708,    /* vIcin */     \
+    M_CAS,
-                            		1800,    /* cas */       \
+    M_VRF,
-                            		1100,    /* Vrf */       \
+    M_VPL,
-                            		1100,    /* VPL */       \
+    M_VIPRE,
-                            		2624,    /* vIpre */     \
+    M_VIINSH,
-                            		1708,    /* vIinSh */    \
+    M_VPH,
-                            		1712,    /* VPH */       \
+    M_VTRIM,
-                            		2800,    /* vTrim */     \
+    M_VDCSH
-                            		800      /* VdcSh */     \
+};
-                            		};
+#define DAC_NAMES                                                              \
-enum CLKINDEX   					{READOUT_C0, READOUT_C1, SYSTEM_C0, SYSTEM_C1, SYSTEM_C2, NUM_CLOCKS};
+    "vcassh", "vth2", "vshaper", "vshaperneg", "vipre_out", "vth3", "vth1",    \
-#define CLK_NAMES					"READOUT_C0", "READOUT_C1", "SYSTEM_C0", "SYSTEM_C1", "SYSTEM_C2"
+        "vicin", "vcas", "vpreamp", "vpl", "vipre", "viinsh", "vph", "vtrim",  \
-enum PLLINDEX						{READOUT_PLL, SYSTEM_PLL};
+        "vdcsh"
+#define DEFAULT_DAC_VALS                                                       \
+    {                                                                          \
+        1200, /* casSh */                                                      \
+        2800, /* Vth2 */                                                       \
+        1280, /* VrfSh */                                                      \
+        2800, /* VrfShNpol */                                                  \
+        1220, /* vIpreOut */                                                   \
+        2800, /* Vth3 */                                                       \
+        2800, /* Vth1 */                                                       \
+        1708, /* vIcin */                                                      \
+        1800, /* cas */                                                        \
+        1100, /* Vrf */                                                        \
+        1100, /* VPL */                                                        \
+        2624, /* vIpre */                                                      \
+        1708, /* vIinSh */                                                     \
+        1712, /* VPH */                                                        \
+        2800, /* vTrim */                                                      \
+        800   /* VdcSh */                                                      \
+    };
+enum CLKINDEX {
+    READOUT_C0,
+    READOUT_C1,
+    SYSTEM_C0,
+    SYSTEM_C1,
+    SYSTEM_C2,
+    NUM_CLOCKS
+};
+#define CLK_NAMES                                                              \
+    "READOUT_C0", "READOUT_C1", "SYSTEM_C0", "SYSTEM_C1", "SYSTEM_C2"
+enum PLLINDEX { READOUT_PLL, SYSTEM_PLL };
 
 /* Struct Definitions */
 typedef struct udp_header_struct {
-	uint32_t	udp_destmac_msb;
+    uint32_t udp_destmac_msb;
-	uint16_t	udp_srcmac_msb;
+    uint16_t udp_srcmac_msb;
-	uint16_t	udp_destmac_lsb;
+    uint16_t udp_destmac_lsb;
-	uint32_t	udp_srcmac_lsb;
+    uint32_t udp_srcmac_lsb;
-	uint8_t		ip_tos;
+    uint8_t ip_tos;
-	uint8_t		ip_ihl: 4, ip_ver: 4;
+    uint8_t ip_ihl : 4, ip_ver : 4;
-	uint16_t	udp_ethertype;
+    uint16_t udp_ethertype;
-	uint16_t	ip_identification;
+    uint16_t ip_identification;
-	uint16_t	ip_totallength;
+    uint16_t ip_totallength;
-	uint8_t		ip_protocol;
+    uint8_t ip_protocol;
-	uint8_t		ip_ttl;
+    uint8_t ip_ttl;
-	uint16_t	ip_fragmentoffset: 13, ip_flags: 3;
+    uint16_t ip_fragmentoffset : 13, ip_flags : 3;
-	uint16_t	ip_srcip_msb;
+    uint16_t ip_srcip_msb;
-	uint16_t	ip_checksum;
+    uint16_t ip_checksum;
-	uint16_t	ip_destip_msb;
+    uint16_t ip_destip_msb;
-	uint16_t	ip_srcip_lsb;
+    uint16_t ip_srcip_lsb;
-	uint16_t	udp_srcport;
+    uint16_t udp_srcport;
-	uint16_t	ip_destip_lsb;
+    uint16_t ip_destip_lsb;
-	uint16_t	udp_checksum;
+    uint16_t udp_checksum;
-	uint16_t	udp_destport;
+    uint16_t udp_destport;
 } udp_header;
-#define UDP_IP_HEADER_LENGTH_BYTES	(28)
+#define UDP_IP_HEADER_LENGTH_BYTES (28)
-#define PACKETS_PER_FRAME			(2)
+#define PACKETS_PER_FRAME          (2)
+
+/** Signal Definitions */
+#define SIGNAL_TBLoad_1    (0)
+#define SIGNAL_TBLoad_2    (1)
+#define SIGNAL_TBLoad_3    (2)
+#define SIGNAL_TBLoad_4    (3)
+#define SIGNAL_TBLoad_5    (4)
+#define SIGNAL_TBLoad_6    (5)
+#define SIGNAL_TBLoad_7    (6)
+#define SIGNAL_TBLoad_8    (7)
+#define SIGNAL_TBLoad_9    (8)
+#define SIGNAL_TBLoad_10   (9)
+#define SIGNAL_AnaMode     (10)
+#define SIGNAL_CHSserialIN (11)
+#define SIGNAL_READOUT     (12)
+#define SIGNAL_pulse       (13)
+#define SIGNAL_EN1         (14)
+#define SIGNAL_EN2         (15)
+#define SIGNAL_EN3         (16)
+#define SIGNAL_clk         (17)
+#define SIGNAL_SRmode      (18)
+#define SIGNAL_serialIN    (19)
+#define SIGNAL_STO         (20)
+#define SIGNAL_STATLOAD    (21)
+#define SIGNAL_resStorage  (22)
+#define SIGNAL_resCounter  (23)
+#define SIGNAL_CHSclk      (24)
+#define SIGNAL_exposing    (25)

slsDetectorServers/slsDetectorServer/include/AD7689.h

@@ -11,7 +11,8 @@
  * @param dmsk digital output mask
  * @param dofst digital output offset
  */
-void AD7689_SetDefines(uint32_t reg, uint32_t roreg, uint32_t cmsk, uint32_t clkmsk, uint32_t dmsk, int dofst);
+void AD7689_SetDefines(uint32_t reg, uint32_t roreg, uint32_t cmsk,
+                       uint32_t clkmsk, uint32_t dmsk, int dofst);
 
 /**
  * Disable SPI

slsDetectorServers/slsDetectorServer/include/AD9252.h

@@ -10,7 +10,8 @@
  * @param dmsk digital output mask
  * @param dofst digital output offset
  */
-void AD9252_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk, uint32_t dmsk, int dofst);
+void AD9252_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk,
+                       uint32_t dmsk, int dofst);
 
 /**
  * Disable SPI

slsDetectorServers/slsDetectorServer/include/AD9257.h

@@ -10,12 +10,13 @@
  * @param dmsk digital output mask
  * @param dofst digital output offset
  */
-void AD9257_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk, uint32_t dmsk, int dofst);
+void AD9257_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk,
+                       uint32_t dmsk, int dofst);
 
 /**
  * Disable SPI
  */
-void AD9257_Disable() ;
+void AD9257_Disable();
 
 /**
  * Get vref voltage
@@ -24,7 +25,8 @@ int AD9257_GetVrefVoltage(int mV);
 
 /**
  * Set vref voltage
- * @param val voltage to be set (0 for 1.0V, 1 for 1.14V, 2 for 1.33V, 3 for 1.6V, 4 for 2.0V
+ * @param val voltage to be set (0 for 1.0V, 1 for 1.14V, 2 for 1.33V, 3
+ * for 1.6V, 4 for 2.0V
  * @returns ok or fail
  */
 int AD9257_SetVrefVoltage(int val, int mV);

slsDetectorServers/slsDetectorServer/include/ALTERA_PLL.h

@@ -15,7 +15,9 @@
  * @param wd2msk write parameter mask for pll for dbit clock (Jungfrau only)
  * @param clk2Index clkIndex of second pll (Jungfrau only)
  */
-void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk, uint32_t wpmsk, uint32_t prmsk, uint32_t amsk, int aofst, uint32_t wd2msk, int clk2Index);
+void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk,
+                           uint32_t wpmsk, uint32_t prmsk, uint32_t amsk,
+                           int aofst, uint32_t wd2msk, int clk2Index);
 #else
 /**
  * Set Defines
@@ -27,26 +29,30 @@ void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk, uint32
  * @param amsk address mask
  * @param aofst address offset
  */
-void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk, uint32_t wpmsk, uint32_t prmsk, uint32_t amsk, int aofst);
+void ALTERA_PLL_SetDefines(uint32_t creg, uint32_t preg, uint32_t rprmsk,
+                           uint32_t wpmsk, uint32_t prmsk, uint32_t amsk,
+                           int aofst);
 #endif
 
 /**
  * Reset only PLL
  */
-void ALTERA_PLL_ResetPLL ();
+void ALTERA_PLL_ResetPLL();
 
 /**
  * Reset PLL Reconfiguration and PLL
  */
-void ALTERA_PLL_ResetPLLAndReconfiguration ();
+void ALTERA_PLL_ResetPLLAndReconfiguration();
 
 /**
  * Set PLL Reconfig register
  * @param reg register
  * @param val value
- * @param useDefaultWRMask only jungfrau for dbit clk (clkindex1, use second WR mask)
+ * @param useDefaultWRMask only jungfrau for dbit clk (clkindex1, use second WR
+ * mask)
  */
-void ALTERA_PLL_SetPllReconfigReg(uint32_t reg, uint32_t val, int useSecondWRMask);
+void ALTERA_PLL_SetPllReconfigReg(uint32_t reg, uint32_t val,
+                                  int useSecondWRMask);
 
 /**
  * Write Phase Shift
@@ -67,5 +73,4 @@ void ALTERA_PLL_SetModePolling();
  * @param value frequency to set to
  * @param frequency set
  */
-int ALTERA_PLL_SetOuputFrequency (int clkIndex, int pllVCOFreqMhz, int value);
+int ALTERA_PLL_SetOuputFrequency(int clkIndex, int pllVCOFreqMhz, int value);
-

slsDetectorServers/slsDetectorServer/include/ALTERA_PLL_CYCLONE10.h

@@ -14,7 +14,10 @@
  * @param vcofreq0 vco frequency of pll 0
  * @param vcofreq1 vco frequency of pll 1
  */
-void ALTERA_PLL_C10_SetDefines(int regofst, uint32_t baseaddr0, uint32_t baseaddr1, uint32_t resetreg0, uint32_t resetreg1, uint32_t resetmsk0, uint32_t resetmsk1, int vcofreq0, int vcofreq1);
+void ALTERA_PLL_C10_SetDefines(int regofst, uint32_t baseaddr0,
+                               uint32_t baseaddr1, uint32_t resetreg0,
+                               uint32_t resetreg1, uint32_t resetmsk0,
+                               uint32_t resetmsk1, int vcofreq0, int vcofreq1);
 
 /**
  * Get Max Clock Divider
@@ -35,7 +38,7 @@ int ALTERA_PLL_C10_GetVCOFrequency(int pllIndex);
 int ALTERA_PLL_C10_GetMaxPhaseShiftStepsofVCO();
 
 /**
- * Start reconfiguration 
+ * Start reconfiguration
  * @param pllIndex pll index
  */
 void ALTERA_PLL_C10_Reconfigure(int pllIndex);
@@ -44,7 +47,7 @@ void ALTERA_PLL_C10_Reconfigure(int pllIndex);
  * Reset pll
  * @param pllIndex pll index
  */
-void ALTERA_PLL_C10_ResetPLL (int pllIndex);
+void ALTERA_PLL_C10_ResetPLL(int pllIndex);
 
 /**
  * Set Phase Shift
@@ -53,13 +56,13 @@ void ALTERA_PLL_C10_ResetPLL (int pllIndex);
  * @param phase phase shift
  * @param pos 1 if up down direction of shift is positive, else 0
  */
-void ALTERA_PLL_C10_SetPhaseShift(int pllIndex, int clkIndex, int phase, int pos);
+void ALTERA_PLL_C10_SetPhaseShift(int pllIndex, int clkIndex, int phase,
+                                  int pos);
 
 /**
  * Calculate and write output frequency
  * @param pllIndex pll index
  * @param clkIndex clock index
- * @param value frequency in Hz to set to
+ * @param value clock divider to set to
  */
-void ALTERA_PLL_C10_SetOuputFrequency (int pllIndex, int clkIndex, int value);
+void ALTERA_PLL_C10_SetOuputClockDivider(int pllIndex, int clkIndex, int value);
-

slsDetectorServers/slsDetectorServer/include/ASIC_Driver.h

@@ -6,7 +6,7 @@
  * Set Defines
  * @param driverfname driver file name
  */
-void ASIC_Driver_SetDefines(char* driverfname);
+void ASIC_Driver_SetDefines(char *driverfname);
 
 /**
  * Set value
@@ -15,4 +15,4 @@ void ASIC_Driver_SetDefines(char* driverfname);
  * @param buffer buffer
  * @return OK or FAIL
  */
-int ASIC_Driver_Set(int index, int length, char* buffer);
+int ASIC_Driver_Set(int index, int length, char *buffer);

slsDetectorServers/slsDetectorServer/include/DAC6571.h

@@ -4,17 +4,14 @@
 
 /**
  * Set Defines
- * @param hardMaxV maximum hardware limit 
+ * @param hardMaxV maximum hardware limit
  * @param driverfname driver file name
  */
-void DAC6571_SetDefines(int hardMaxV, char* driverfname);
+void DAC6571_SetDefines(int hardMaxV, char *driverfname);
 
 /**
  * Set value
  * @param val value to set
  * @return OK or FAIL
  */
-int DAC6571_Set (int val) ;
+int DAC6571_Set(int val);
-
-
-

slsDetectorServers/slsDetectorServer/include/I2C.h

@@ -15,9 +15,9 @@
  * @param sdreg sda hold register (defined in RegisterDefs.h)
  * @param treg transfer command fifo register (defined in RegisterDefs.h)
  */
-void I2C_ConfigureI2CCore(uint32_t creg, uint32_t sreg,
+void I2C_ConfigureI2CCore(uint32_t creg, uint32_t sreg, uint32_t rreg,
-        uint32_t rreg, uint32_t rlvlreg,
+                          uint32_t rlvlreg, uint32_t slreg, uint32_t shreg,
-        uint32_t slreg, uint32_t shreg, uint32_t sdreg, uint32_t treg);
+                          uint32_t sdreg, uint32_t treg);
 
 /**
  * Read register
@@ -34,5 +34,3 @@ uint32_t I2C_Read(uint32_t devId, uint32_t addr);
  * @param data data to be written (16 bit)
  */
 void I2C_Write(uint32_t devId, uint32_t addr, uint16_t data);
-
-

slsDetectorServers/slsDetectorServer/include/INA226.h

@@ -4,7 +4,8 @@
 
 /**
  * Configure the I2C core and Enable core
- * @param rOhm shunt resister value in Ohms (defined in slsDetectorServer_defs.h)
+ * @param rOhm shunt resister value in Ohms (defined in
+ * slsDetectorServer_defs.h)
  * @param creg control register (defined in RegisterDefs.h)
  * @param sreg status register (defined in RegisterDefs.h)
  * @param rreg rx data fifo register (defined in RegisterDefs.h)
@@ -15,8 +16,8 @@
  * @param treg transfer command fifo register (defined in RegisterDefs.h)
  */
 void INA226_ConfigureI2CCore(double rOhm, uint32_t creg, uint32_t sreg,
-        uint32_t rreg, uint32_t rlvlreg,
+                             uint32_t rreg, uint32_t rlvlreg, uint32_t slreg,
-        uint32_t slreg, uint32_t shreg, uint32_t sdreg, uint32_t treg);
+                             uint32_t shreg, uint32_t sdreg, uint32_t treg);
 
 /**
  * Calibrate resolution of current register

slsDetectorServers/slsDetectorServer/include/LTC2620.h

@@ -9,11 +9,13 @@
  * @param clkmsk clock output mask
  * @param dmsk digital output mask
  * @param dofst digital output offset
- * @param nd total number of dacs for this board (for dac channel and daisy chain chip id)
+ * @param nd total number of dacs for this board (for dac channel and daisy
+ * chain chip id)
  * @param minMV minimum voltage determined by hardware
  * @param maxMV maximum voltage determined by hardware
  */
-void LTC2620_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk, uint32_t dmsk, int dofst, int nd, int minMV, int maxMV);
+void LTC2620_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk,
+                        uint32_t dmsk, int dofst, int nd, int minMV, int maxMV);
 
 /**
  * Disable SPI
@@ -46,7 +48,7 @@ int LTC2620_GetMaxNumSteps();
  * @param dacval pointer to value converted to dac units
  * @returns FAIL when voltage outside limits, OK if conversion successful
  */
-int LTC2620_VoltageToDac(int voltage, int* dacval);
+int LTC2620_VoltageToDac(int voltage, int *dacval);
 
 /**
  * Convert dac units to voltage
@@ -54,7 +56,7 @@ int LTC2620_VoltageToDac(int voltage, int* dacval);
  * @param voltage pointer to value converted to mV
  * @returns FAIL when voltage outside limits, OK if conversion successful
  */
-int LTC2620_DacToVoltage(int dacval, int* voltage);
+int LTC2620_DacToVoltage(int dacval, int *voltage);
 
 /**
  * Set a single chip (all non ctb detectors use this)
@@ -70,7 +72,7 @@ void LTC2620_SetSingle(int cmd, int data, int dacaddr);
  * @param valw current value of register while bit banging
  * @param val data to be sent (data, dac addr and command)
  */
-void LTC2620_SendDaisyData(uint32_t* valw, uint32_t val);
+void LTC2620_SendDaisyData(uint32_t *valw, uint32_t val);
 
 /**
  * Set a single chip (all non ctb detectors use this)
@@ -84,7 +86,8 @@ void LTC2620_SetDaisy(int cmd, int data, int dacaddr, int chipIndex);
 
 /**
  * Sets a single chip (LTC2620_SetSingle) or multiple chip (LTC2620_SetDaisy)
- * multiple chip is only for ctb where the multiple chips are connected in daisy fashion
+ * multiple chip is only for ctb where the multiple chips are connected in daisy
+ * fashion
  * @param cmd command to send
  * @param data dac value to be set
  * @param dacaddr dac channel number for the chip
@@ -102,7 +105,7 @@ void LTC2620_Configure();
  * @param dacnum dac number
  * @param data dac value to set
  */
-void LTC2620_SetDAC (int dacnum, int data);
+void LTC2620_SetDAC(int dacnum, int data);
 
 /**
  * Set dac in dac units or mV
@@ -112,4 +115,4 @@ void LTC2620_SetDAC (int dacnum, int data);
  * @param dacval pointer to value in dac units
  * @returns OK or FAIL for success of operation
  */
-int LTC2620_SetDACValue (int dacnum, int val, int mV, int* dacval);
+int LTC2620_SetDACValue(int dacnum, int val, int mV, int *dacval);

slsDetectorServers/slsDetectorServer/include/LTC2620_Driver.h

@@ -4,12 +4,11 @@
 
 /**
  * Set Defines
- * @param hardMaxV maximum hardware limit 
+ * @param hardMaxV maximum hardware limit
  * @param driverfname driver file name
  * @param numdacs number of dacs
  */
-void LTC2620_D_SetDefines(int hardMaxV, char* driverfname, int numdacs);
+void LTC2620_D_SetDefines(int hardMaxV, char *driverfname, int numdacs);
-
 
 /**
  * Get max number of steps
@@ -22,7 +21,7 @@ int LTC2620_D_GetMaxNumSteps();
  * @param dacval pointer to value converted to dac units
  * @returns FAIL when voltage outside limits, OK if conversion successful
  */
-int LTC2620_D_VoltageToDac(int voltage, int* dacval);
+int LTC2620_D_VoltageToDac(int voltage, int *dacval);
 
 /**
  * Convert dac units to voltage
@@ -30,7 +29,7 @@ int LTC2620_D_VoltageToDac(int voltage, int* dacval);
  * @param voltage pointer to value converted to mV
  * @returns FAIL when voltage outside limits, OK if conversion successful
  */
-int LTC2620_D_DacToVoltage(int dacval, int* voltage);
+int LTC2620_D_DacToVoltage(int dacval, int *voltage);
 
 /**
  * Set value
@@ -41,4 +40,5 @@ int LTC2620_D_DacToVoltage(int dacval, int* voltage);
  * @param dacval pointer to dac value
  * @return OK or FAIL
  */
-int LTC2620_D_SetDACValue(int dacnum, int val, int mV, char* dacname, int *dacval);
+int LTC2620_D_SetDACValue(int dacnum, int val, int mV, char *dacname,
+                          int *dacval);

slsDetectorServers/slsDetectorServer/include/MAX1932.h

@@ -12,8 +12,8 @@
  * @param minMV minimum voltage determined by hardware
  * @param maxMV maximum voltage determined by hardware
  */
-void MAX1932_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk, uint32_t dmsk, int dofst,
+void MAX1932_SetDefines(uint32_t reg, uint32_t cmsk, uint32_t clkmsk,
-        int minMV, int maxMV);
+                        uint32_t dmsk, int dofst, int minMV, int maxMV);
 
 /**
  * Disable SPI
@@ -25,7 +25,4 @@ void MAX1932_Disable();
  * @param val pointer to value to set
  * @return OK or FAIL
  */
-int MAX1932_Set (int* val) ;
+int MAX1932_Set(int *val);
-
-
-

slsDetectorServers/slsDetectorServer/include/UDPPacketHeaderGenerator.h

@@ -2,13 +2,13 @@
 
 #include <inttypes.h>
 
-/** 
+/**
- * Get current udp packet number 
+ * Get current udp packet number
  */
 uint32_t getUDPPacketNumber();
 
-/** 
+/**
- * Get current udp frame number 
+ * Get current udp frame number
  */
 uint64_t getUDPFrameNumber();
 
@@ -17,10 +17,10 @@ uint64_t getUDPFrameNumber();
  * @param buffer pointer to header
  * @param id module id
  */
-void createUDPPacketHeader(char* buffer, uint16_t id);
+void createUDPPacketHeader(char *buffer, uint16_t id);
 
-/** 
+/**
- * fill up the udp packet with data till its full 
+ * fill up the udp packet with data till its full
  * @param buffer pointer to memory
  */
-int fillUDPPacket(char* buffer);
+int fillUDPPacket(char *buffer);

slsDetectorServers/slsDetectorServer/include/blackfin.h

@@ -1,10 +1,10 @@
 #pragma once
 
-#include <sys/types.h>
 #include <inttypes.h>
+#include <sys/types.h>
 
 /** I2C defines */
-#define I2C_CLOCK_MHZ   (131.25)
+#define I2C_CLOCK_MHZ (131.25)
 
 /**
  * Write into a 16 bit register
@@ -98,7 +98,7 @@ u_int32_t writeRegister16(u_int32_t offset, u_int32_t data);
 /**
  * Get base address for memory copy
  */
-uint32_t* Blackfin_getBaseAddress();
+uint32_t *Blackfin_getBaseAddress();
 /**
  * Map FPGA
  */