detectors/slsDetectorPackage
25
0
Fork 0
mirror of https://github.com/slsdetectorgroup/slsDetectorPackage.git synced 2025-06-17 15:27:13 +02:00
Code Issues Actions Packages Releases Activity

Compare commits

base: detectors:dacnames
Branches Tags
detectors:main detectors:dev/roi_per_port detectors:developer detectors:dev/fix_m3_hdf5_master_file_time_arrays detectors:pattern_unification detectors:gh-pages detectors:dev/client-osx detectors:dev/fix/test_frame_synchronizer_write_error_to_log_file detectors:dev/fix/block_set_transceiver_samples_when_running detectors:ctb/continuous_RO detectors:jf_h5reader detectors:dev/multirxr_proper_cleanup_on_ctrlc detectors:9.1.0/conda detectors:patrick_250211 detectors:802/anna_fixes detectors:802/fix_hdf5_fillvalue detectors:moench8.0.2.rc detectors:kp_highZ detectors:submodfix detectors:khalil detectors:jf_json_rxroi detectors:pip detectors:moench-warnings detectors:actions detectors:externalqwt detectors:ctbgatedclk detectors:rr_rxr detectors:random detectors:g2rxrgui detectors:newconda detectors:extbuild detectors:externalpy detectors:zmqcmake detectors:dacnames detectors:cmakemoench detectors:nozmqhack detectors:my3regs detectors:moench detectors:separateRxr detectors:con3 detectors:udp detectors:rhpatch detectors:debugInterpolation detectors:filip1 detectors:split-listener detectors:anna
detectors:9.2.0 detectors:9.1.1 detectors:9.1.0 detectors:9.0.0 detectors:8.0.2 detectors:8.0.1 detectors:7.0.3 detectors:8.0.0 detectors:7.0.2 detectors:7.0.1 detectors:2023.03.16.dev1 detectors:2023.03.13.dev0 detectors:7.0.0 detectors:7.0.0.rc4 detectors:7.0.0.rc3 detectors:7.0.0.rc2 detectors:7.0.0.rc1 detectors:6.1.2 detectors:2022.07.06.dev0 detectors:2022.06.07.dev0 detectors:2022.05.12.dev0 detectors:2022.05.22.dev0 detectors:2022.05.10.dev1 detectors:2022.05.10.dev0 detectors:2022.04.04.dev0 detectors:2022.2.23.dev0 detectors:2022.2.3.dev0 detectors:6.1.1 detectors:6.1.0 detectors:6.0.0 detectors:6.0.0-rc1 detectors:2021.5.10.dev0 detectors:5.1.0 detectors:5.1.0.rc3 detectors:5.1.0.rc2 detectors:5.1.0.rc1 detectors:2021.01.26.dev0 detectors:2021.01.20.dev0 detectors:2021.01.14.dev0 detectors:5.0.1 detectors:5.0.0 detectors:4.2.0 detectors:4.1.1 detectors:4.1.0 detectors:4.0.2 detectors:4.0.1 detectors:4.0.0 detectors:3.1.5 detectors:3.1.4 detectors:3.1.3 detectors:3.1.2 detectors:3.1.1 detectors:3.1.0 detectors:3.0.1 detectors:3.0.0 detectors:2.3.4 detectors:2.3.3 detectors:2.3.2 detectors:2.3.1 detectors:2.3.0 detectors:2.2.0 detectors:2.1.1 detectors:2.1.0 detectors:2.0.5 detectors:2020.11.09.dev1 detectors:2020.11.09.dev0 detectors:2020.11.02.dev0 detectors:2020.10.28.dev0 detectors:2020.10.12.dev0 detectors:5.0.0.rc2 detectors:5.0.0-rc2 detectors:2020.10.05.dev0 detectors:5.0.0-rc1 detectors:2020.09.25.dev0 detectors:2020.09.24.dev1 detectors:2020.09.24.dev0 detectors:2020.09.17.dev0 detectors:2020.09.11.dev0 detectors:2020.09.09.dev0 detectors:2020.08.12.dev0 detectors:2020.08.10.dev0 detectors:2020.07.23.dev0 detectors:2020.06.08.dev0 detectors:2020.05.08.dev0 detectors:2020.04.23.dev0 detectors:2020.04.08.dev1 detectors:2020.04.08.dev0 detectors:2020.04.07.dev0 detectors:2020.04.01.dev0 detectors:2020.03.18dev2 detectors:2020.03.18dev1 detectors:2020.03.18dev0 detectors:2020.03.17dev0 detectors:2020.03.11.dev0 detectors:2020.03.06.dev0 detectors:2020.03.02.dev0 detectors:ctb1.0 detectors:jungfrau_draft_2.0 detectors:moenchv0.1 detectors:olddeveloper detectors:sophieesrf detectors:gotthardDoubleModule
..
compare: detectors:cmakemoench
Branches Tags
detectors:dev/roi_per_port detectors:developer detectors:dev/fix_m3_hdf5_master_file_time_arrays detectors:pattern_unification detectors:gh-pages detectors:main detectors:dev/client-osx detectors:dev/fix/test_frame_synchronizer_write_error_to_log_file detectors:dev/fix/block_set_transceiver_samples_when_running detectors:ctb/continuous_RO detectors:jf_h5reader detectors:dev/multirxr_proper_cleanup_on_ctrlc detectors:9.1.0/conda detectors:patrick_250211 detectors:802/anna_fixes detectors:802/fix_hdf5_fillvalue detectors:moench8.0.2.rc detectors:kp_highZ detectors:submodfix detectors:khalil detectors:jf_json_rxroi detectors:pip detectors:moench-warnings detectors:actions detectors:externalqwt detectors:ctbgatedclk detectors:rr_rxr detectors:random detectors:g2rxrgui detectors:newconda detectors:extbuild detectors:externalpy detectors:zmqcmake detectors:dacnames detectors:cmakemoench detectors:nozmqhack detectors:my3regs detectors:moench detectors:separateRxr detectors:con3 detectors:udp detectors:rhpatch detectors:debugInterpolation detectors:filip1 detectors:split-listener detectors:anna
detectors:9.2.0 detectors:9.1.1 detectors:9.1.0 detectors:9.0.0 detectors:8.0.2 detectors:8.0.1 detectors:7.0.3 detectors:8.0.0 detectors:7.0.2 detectors:7.0.1 detectors:2023.03.16.dev1 detectors:2023.03.13.dev0 detectors:7.0.0 detectors:7.0.0.rc4 detectors:7.0.0.rc3 detectors:7.0.0.rc2 detectors:7.0.0.rc1 detectors:6.1.2 detectors:2022.07.06.dev0 detectors:2022.06.07.dev0 detectors:2022.05.12.dev0 detectors:2022.05.22.dev0 detectors:2022.05.10.dev1 detectors:2022.05.10.dev0 detectors:2022.04.04.dev0 detectors:2022.2.23.dev0 detectors:2022.2.3.dev0 detectors:6.1.1 detectors:6.1.0 detectors:6.0.0 detectors:6.0.0-rc1 detectors:2021.5.10.dev0 detectors:5.1.0 detectors:5.1.0.rc3 detectors:5.1.0.rc2 detectors:5.1.0.rc1 detectors:2021.01.26.dev0 detectors:2021.01.20.dev0 detectors:2021.01.14.dev0 detectors:5.0.1 detectors:5.0.0 detectors:4.2.0 detectors:4.1.1 detectors:4.1.0 detectors:4.0.2 detectors:4.0.1 detectors:4.0.0 detectors:3.1.5 detectors:3.1.4 detectors:3.1.3 detectors:3.1.2 detectors:3.1.1 detectors:3.1.0 detectors:3.0.1 detectors:3.0.0 detectors:2.3.4 detectors:2.3.3 detectors:2.3.2 detectors:2.3.1 detectors:2.3.0 detectors:2.2.0 detectors:2.1.1 detectors:2.1.0 detectors:2.0.5 detectors:2020.11.09.dev1 detectors:2020.11.09.dev0 detectors:2020.11.02.dev0 detectors:2020.10.28.dev0 detectors:2020.10.12.dev0 detectors:5.0.0.rc2 detectors:5.0.0-rc2 detectors:2020.10.05.dev0 detectors:5.0.0-rc1 detectors:2020.09.25.dev0 detectors:2020.09.24.dev1 detectors:2020.09.24.dev0 detectors:2020.09.17.dev0 detectors:2020.09.11.dev0 detectors:2020.09.09.dev0 detectors:2020.08.12.dev0 detectors:2020.08.10.dev0 detectors:2020.07.23.dev0 detectors:2020.06.08.dev0 detectors:2020.05.08.dev0 detectors:2020.04.23.dev0 detectors:2020.04.08.dev1 detectors:2020.04.08.dev0 detectors:2020.04.07.dev0 detectors:2020.04.01.dev0 detectors:2020.03.18dev2 detectors:2020.03.18dev1 detectors:2020.03.18dev0 detectors:2020.03.17dev0 detectors:2020.03.11.dev0 detectors:2020.03.06.dev0 detectors:2020.03.02.dev0 detectors:ctb1.0 detectors:jungfrau_draft_2.0 detectors:moenchv0.1 detectors:olddeveloper detectors:sophieesrf detectors:gotthardDoubleModule

1 Commits
dacnames ... cmakemoenc

Author SHA1 Message Date
Erik Frojdh
e229cd0ba7 removed Makefile for moench and integrated the build in CMake 2022-01-24 16:09:18 +01:00
139 changed files with 5155 additions and 10089 deletions
Expand all files Collapse all files

1
CMakeLists.txt
View File

@ -275,7 +275,6 @@ if(SLS_BUILD_DOCS)
endif(SLS_BUILD_DOCS)
if(SLS_USE_MOENCH)
add_subdirectory(slsDetectorCalibration/tiffio)
add_subdirectory(slsDetectorCalibration/moenchExecutables)
endif(SLS_USE_MOENCH)

40
RELEASE.txt
View File

@ -1,7 +1,7 @@
SLS Detector Package Minor Release 7.0.0 released on 25.11.2021
SLS Detector Package Minor Release 6.1.0 released on 25.11.2021
===============================================================
This document describes the differences between v7.0.0 and v6.x.x
This document describes the differences between v6.1.0 and v6.0.0.
@ -21,42 +21,10 @@ This document describes the differences between v7.0.0 and v6.x.x
- Fixed minor warnings (will fix commandline print of excess packets for missing packets)
- ctb slow adcs and any other adcs (other than temp) goes to the control Server
- number of udp interfaces is 2 for Eiger (CHANGE IN API??)
- added module id for virtual servers into the udp header
- refactoring (rxr)
- fixed patsetbit and patsetmask for moench
- changed default vref of adc9257 to 2V for moench (from 1.33V)
- moench and ctb - can set the starting frame number of next acquisition
- mythen server kernel check incompatible (cet timezone)
- rx_arping
- rx_threadsids max is now 9 (breaking api)
- fixed datastream disabling for eiger. Its only available in 10g mode.
- m3 server crash (vthrehsold dac names were not provided)
- allow vtrim to be interpolated for Eiger settings
- m3 setThresholdEnergy and setAllThresholdEnergy was overwriting gaincaps with settings enum
- can set localhost with virtual server with minimum configuration: (hostname localhost, rx_hostname localhost, udp_dstip auto)
- increases the progress according to listened index. (not processed index)
- current frame index points to listened frame index (not processed index)
- when in discard partial frames or empty mode, the frame number doesnt increase by 1, it increases to that number (so its faster)
- file write disabled by default
- eiger 12 bit mode
- start non blocking acquisition at modular level
- connect master commands to api (allow set master for eiger)
--ignore-config command line
- command line argument 'master' mainly for virtual servers (also master/top for real eiger), only one virtual server for eiger, use command lines for master/top
- stop servers also check for errors at startup( in case it was running with an older version)
- hostname cmd failed when connecting to servers in update mode (ctb, moench, jungfrau, eiger)
- missingpackets signed (negative => extra packets)
- framescaught and frameindex now returns a vector for each port
- progress looks at activated or enabled ports, so progress does not stagnate
- (eiger) disable datastreaming also for virtual servers only for 10g
- missing packets also takes care of disabled ports
- added geometry to metadata
- 10g eiger nextframenumber get fixed.
- stop, able to set nextframenumber to a consistent (max + 1) for all modules if different (eiger/ctb/jungfrau/moench)
- ctb: can set names for all the dacs
- fpga/kernel programming, checks if drive is a special file and not a normal file
- gotthard 25 um image reconstructed in gui and virtual hdf5 (firmware updated for slave to reverse channels)
2. Resolved Issues
==================

4
conda-recepie/copy_moench.sh
View File

@ -1,6 +1,6 @@
# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
#Copy the Moench executables
mkdir -p $PREFIX/bin
cp build/install/bin/moench* $PREFIX/bin/.
cp build/install/bin/moench04ZmqProcess $PREFIX/bin/.
cp build/install/bin/moenchZmqProcess $PREFIX/bin/.

3
ctbGui/CMakeLists.txt
View File

@ -34,7 +34,7 @@ add_executable(ctbGui
ctbAdcs.cpp
ctbPattern.cpp
ctbAcquisition.cpp
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/tiffio/src/tiffIO.cpp
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/tiffIO.cpp
)
@ -43,7 +43,6 @@ target_include_directories(ctbGui PRIVATE
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/dataStructures
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/interpolations
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/
${CMAKE_SOURCE_DIR}/slsDetectorCalibration/tiffio/include/
)
# Headders needed for ROOT dictionary generation

5
ctbGui/patternGenerator/generate.sh
View File

@ -21,10 +21,9 @@ fi
if [ -f "$infile" ]
then
dir=$(dirname $infile)
gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\"" -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c -I$dir;
gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\"" -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c ;
echo compiling
echo gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\"" -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c -I$dir;
echo gcc -DINFILE="\"$infile\"" -DOUTFILE="\"$outfile\"" -DOUTFILEBIN="\"$outfilebin\"" -o $exe generator.c ;
$exe ;
echo cleaning
rm $exe

26
examples/moench03_T1.config
View File

@ -3,33 +3,33 @@
### edit with hostname or IP address of your detector
############################################
#hostname bchip181+
hostname bchip119.psi.ch
hostname bchip181+
#############################################
### edit with hostname or 1Gbs IP address of your server
############################################
rx_hostname mpc2011:1777
rx_hostname mpc2011
#############################################
### edit with 10 Gbs IP of your server
############################################
udp_dstip 10.1.2.102
udp_dstip 10.1.1.102
#############################################
### edit with any number in the subnet of your server (first 3 numbers as above)
############################################
udp_srcip 10.1.2.19
udp_dstport 32000
udp_srcip 10.1.1.19
udp_dstport 32411
#############################################
### edit with 10 Gbs IP of your server
############################################
rx_zmqip 10.1.2.102
rx_zmqport 77000
rx_zmqip 10.1.1.102
rx_zmqport 50003
#############################################
### edit with 1 Gbs IP of PC where you will run the GUI
############################################
zmqip 129.129.202.132
zmqport 77001
zmqip 129.129.202.98
zmqport 50001
@ -38,7 +38,7 @@ rx_zmqstream 1
frames 1000
frames 100000
period 0.0006
exptime 0.00035
@ -62,9 +62,3 @@ highvoltage 90
#adcreg 0x14 0x40
frames 10
period 0.1
rx_jsonpara subframes 1
rx_jsonpara frameMode raw
rx_jsonpara detectorMode analog

5658
libs/catch/catch.hpp
View File

File diff suppressed because it is too large Load Diff

4
python/scripts/generate_enums.py
View File

@ -13,8 +13,8 @@ import subprocess
from parse import remove_comments
allow_bitwise_op = ["streamingInterface", "M3_GainCaps"]
allow_bitwise_op = ["M3_GainCaps"]
allow_bitwise_op = ["streamingInterface"]
op_key = {"operator|": "|",
"operator&" : "&"}

112
python/scripts/generate_functions.py
View File

@ -6,57 +6,49 @@ sls::Detector class. The tool needs the libclang bindings
to be installed.
When the Detector API is updated this file should be run
manually.
manually
"""
from clang import cindex
import subprocess
import argparse
import sys
import time
from pathlib import Path
from parse import system_include_paths, clang_format_version
REDC = '\033[91m'
GREENC = '\033[92m'
ENDC = '\033[0m'
def red(msg):
return f'{REDC}{msg}{ENDC}'
def green(msg):
return f'{GREENC}{msg}{ENDC}'
def check_clang_format_version(required_version):
if (ver := clang_format_version()) != required_version:
msg = red(f'Clang format version {required_version} required, detected: {ver}. Bye!')
print(msg)
sys.exit(1)
else:
msg = green(f'Found clang-format version {ver}')
print(msg)
def check_for_compile_commands_json(path):
# print(f"Looking for compile data base in: {path}")
compile_data_base_file = path/'compile_commands.json'
if not compile_data_base_file.exists():
msg = red(f"No compile_commands.json file found in {path}. Bye!")
print(msg)
sys.exit(1)
else:
msg = green(f'Found: {compile_data_base_file}')
print(msg)
from parse import system_include_paths
default_build_path = "/home/l_frojdh/sls/build/"
fpath = "../../slsDetectorSoftware/src/Detector.cpp"
parser = argparse.ArgumentParser()
parser.add_argument(
"-p",
"--build_path",
help="Path to the build database",
type=str,
default=default_build_path,
)
cargs = parser.parse_args()
db = cindex.CompilationDatabase.fromDirectory(cargs.build_path)
index = cindex.Index.create()
args = db.getCompileCommands(fpath)
args = list(iter(args).__next__().arguments)[0:-1]
args = args + "-x c++ --std=c++11".split()
syspath = system_include_paths("clang++")
incargs = ["-I" + inc for inc in syspath]
args = args + incargs
tu = index.parse(fpath, args=args)
m = []
ag = []
lines = []
ag2 = []
cn = []
def get_arguments(node):
@ -74,7 +66,7 @@ def get_arguments_with_default(node):
args = []
for arg in node.get_arguments():
tokens = [t.spelling for t in arg.get_tokens()]
# print(tokens)
print(tokens)
if '=' in tokens:
if arg.type.spelling == "sls::Positions": #TODO! automate
args.append("py::arg() = Positions{}")
@ -119,67 +111,33 @@ def visit(node):
lines.append(
f'.def("{child.spelling}",{fs} &Detector::{child.spelling}{args})'
)
if cargs.verbose:
print(f'&Detector::{child.spelling}{args})')
cn.append(child)
for child in node.get_children():
visit(child)
# .def("setRxHostname",
# (void (Detector::*)(const std::string &, Positions)) &
# Detector::setRxHostname,
# py::arg(), py::arg() = Positions{})
# .def("setRxHostname",
# (void (Detector::*)(const std::vector<std::string> &)) &
# Detector::setRxHostname,
# py::arg())
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument(
"-p",
"--build_path",
help="Path to the build database",
type=Path,
default=default_build_path,
)
parser.add_argument(
"-v",
"--verbose",
help="more output",
action='store_true',
)
cargs = parser.parse_args()
check_clang_format_version(12)
check_for_compile_commands_json(cargs.build_path)
print("Parsing functions in Detector.h - ", end = "", flush = True)
t0 = time.perf_counter()
#parse functions
db = cindex.CompilationDatabase.fromDirectory(cargs.build_path)
index = cindex.Index.create()
args = db.getCompileCommands(fpath)
args = list(iter(args).__next__().arguments)[0:-1]
args = args + "-x c++ --std=c++11".split()
syspath = system_include_paths("clang++")
incargs = ["-I" + inc for inc in syspath]
args = args + incargs
tu = index.parse(fpath, args=args)
visit(tu.cursor)
print(green('OK'))
print(f'Parsing took {time.perf_counter()-t0:.3f}s')
print("Read detector_in.cpp - ", end = "")
with open("../src/detector_in.cpp") as f:
data = f.read()
s = "".join(lines)
s += ";"
text = data.replace("[[FUNCTIONS]]", s)
warning = "/* WARINING This file is auto generated any edits might be overwritten without warning */\n\n"
print(green("OK"))
print("Writing to detector.cpp - ", end = "")
with open("../src/detector.cpp", "w") as f:
f.write(warning)
f.write(text)
print(green('OK'))
# run clang format on the output
print('Running clang format on generated source -', end = "")
subprocess.run(["clang-format", "../src/detector.cpp", "-i"])
print(green(" OK"))
print("Changes since last commit:")
subprocess.run(['git', 'diff', '../src/detector.cpp'])

6
python/scripts/parse.py
View File

@ -5,12 +5,6 @@ import subprocess
from subprocess import PIPE
import os
def clang_format_version():
p = subprocess.run(['clang-format', '--version'], capture_output = True)
ver = p.stdout.decode().split()[2]
major = int(ver.split('.')[0])
return major
def remove_comments(text):
def replacer(match):

56
python/slsdet/ctb.py
View File

@ -1,45 +1,43 @@
# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
from .detector import Detector, freeze
from .detector import Detector
from .utils import element_if_equal
from .dacs import DetectorDacs, NamedDacs
from .dacs import DetectorDacs
import _slsdet
dacIndex = _slsdet.slsDetectorDefs.dacIndex
from .detector_property import DetectorProperty
# class CtbDacs(DetectorDacs):
# """
# Ctb dacs
# """
# _dacs = [('dac0', dacIndex(0), 0, 4000, 1400),
# ('dac1', dacIndex(1), 0, 4000, 1200),
# ('dac2', dacIndex(2), 0, 4000, 900),
# ('dac3', dacIndex(3), 0, 4000, 1050),
# ('dac4', dacIndex(4), 0, 4000, 1400),
# ('dac5', dacIndex(5), 0, 4000, 655),
# ('dac6', dacIndex(6), 0, 4000, 2000),
# ('dac7', dacIndex(7), 0, 4000, 1400),
# ('dac8', dacIndex(8), 0, 4000, 850),
# ('dac9', dacIndex(9), 0, 4000, 2000),
# ('dac10', dacIndex(10), 0, 4000, 2294),
# ('dac11', dacIndex(11), 0, 4000, 983),
# ('dac12', dacIndex(12), 0, 4000, 1475),
# ('dac13', dacIndex(13), 0, 4000, 1200),
# ('dac14', dacIndex(14), 0, 4000, 1600),
# ('dac15', dacIndex(15), 0, 4000, 1455),
# ('dac16', dacIndex(16), 0, 4000, 0),
# ('dac17', dacIndex(17), 0, 4000, 1000),
# ]
# _dacnames = [_d[0] for _d in _dacs]
class CtbDacs(DetectorDacs):
"""
Ctb dacs
"""
_dacs = [('dac0', dacIndex(0), 0, 4000, 1400),
('dac1', dacIndex(1), 0, 4000, 1200),
('dac2', dacIndex(2), 0, 4000, 900),
('dac3', dacIndex(3), 0, 4000, 1050),
('dac4', dacIndex(4), 0, 4000, 1400),
('dac5', dacIndex(5), 0, 4000, 655),
('dac6', dacIndex(6), 0, 4000, 2000),
('dac7', dacIndex(7), 0, 4000, 1400),
('dac8', dacIndex(8), 0, 4000, 850),
('dac9', dacIndex(9), 0, 4000, 2000),
('dac10', dacIndex(10), 0, 4000, 2294),
('dac11', dacIndex(11), 0, 4000, 983),
('dac12', dacIndex(12), 0, 4000, 1475),
('dac13', dacIndex(13), 0, 4000, 1200),
('dac14', dacIndex(14), 0, 4000, 1600),
('dac15', dacIndex(15), 0, 4000, 1455),
('dac16', dacIndex(16), 0, 4000, 0),
('dac17', dacIndex(17), 0, 4000, 1000),
]
_dacnames = [_d[0] for _d in _dacs]
from .utils import element
@freeze
class Ctb(Detector):
def __init__(self, id = 0):
super().__init__(id)
self._frozen = False
# self._dacs = CtbDacs(self)
self._dacs = NamedDacs(self)
self._dacs = CtbDacs(self)
@property
def dacs(self):

78
python/slsdet/dacs.py
View File

@ -36,79 +36,6 @@ class Dac(DetectorProperty):
dacstr = ''.join([f'{item:5d}' for item in self.get()])
return f'{self.__name__:15s}:{dacstr}'
class NamedDacs:
"""
New implementation of the detector dacs. Used at the momen for
Ctb but should replace the old one for all detectors
"""
_frozen = False
_direct_access = ['_detector', '_current', '_dacnames']
def __init__(self, detector):
self._detector = detector
self._current = 0
self._dacnames = [n.replace(" ", "") for n in detector.getDacNames()]
# # Populate the dacs
for i,name in enumerate(self._dacnames):
#name, enum, low, high, default, detector
setattr(self, name, Dac(name, dacIndex(i), 0, 4000, 1000, detector))
self._frozen = True
# def __getattr__(self, name):
# return self.__getattribute__('_' + name)
def __setattr__(self, name, value):
if not self._frozen:
#durining init we need to be able to set up the class
super().__setattr__(name, value)
else:
#Later we restrict us to manipulate dacs and a few fields
if name in self._direct_access:
super().__setattr__(name, value)
elif name in self._dacnames:
return self.__getattribute__(name).__setitem__(slice(None, None, None), value)
else:
raise AttributeError(f'Dac not found: {name}')
def __next__(self):
if self._current >= len(self._dacnames):
self._current = 0
raise StopIteration
else:
self._current += 1
return self.__getattribute__(self._dacnames[self._current-1])
# return self.__getattr__(self._dacnames[self._current-1])
def __iter__(self):
return self
def __repr__(self):
r_str = ['========== DACS =========']
r_str += [repr(dac) for dac in self]
return '\n'.join(r_str)
def get_asarray(self):
"""
Read the dacs into a numpy array with dimensions [ndacs, nmodules]
"""
dac_array = np.zeros((len(self._dacnames), len(self._detector)))
for i, _d in enumerate(self):
dac_array[i,:] = _d[:]
return dac_array
def to_array(self):
return self.get_asarray()
def set_from_array(self, dac_array):
"""
Set the dacs from an numpy array with dac values. [ndacs, nmodules]
"""
dac_array = dac_array.astype(np.int)
for i, _d in enumerate(self):
_d[:] = dac_array[i]
def from_array(self, dac_array):
self.set_from_array(dac_array)
class DetectorDacs:
_dacs = []
@ -123,7 +50,7 @@ class DetectorDacs:
# Index to support iteration
self._current = 0
# Name the attributes?
# Populate the dacs
for _d in self._dacs:
setattr(self, '_'+_d[0], Dac(*_d, detector))
@ -132,9 +59,6 @@ class DetectorDacs:
def __getattr__(self, name):
return self.__getattribute__('_' + name)
@property
def dacnames(self):
return [_d[0] for _d in _dacs]
def __setattr__(self, name, value):
if name in self._dacnames:

65
python/slsdet/detector.py
View File

@ -258,7 +258,7 @@ class Detector(CppDetectorApi):
@element
def rx_threads(self):
"""
Get thread ids from the receiver in order of [parent, tcp, listener 0, processor 0, streamer 0, listener 1, processor 1, streamer 1, arping].
Get thread ids from the receiver in order of [parent, tcp, listener 0, processor 0, streamer 0, listener 1, processor 1, streamer 1].
Note
-----
@ -268,17 +268,6 @@ class Detector(CppDetectorApi):
"""
return self.getRxThreadIds()
@property
@element
def rx_arping(self):
"""Starts a thread in slsReceiver to arping the interface it is listening every minute. Useful in 10G mode. """
return self.getRxArping()
@rx_arping.setter
def rx_arping(self, value):
ut.set_using_dict(self.setRxArping, value)
@property
@element
def dr(self):
@ -287,7 +276,7 @@ class Detector(CppDetectorApi):
Note
-----
[Eiger] Options: 4, 8, 12, 16, 32. If set to 32, also sets clkdivider to 2 (quarter speed), else to 0 (full speed)\n
[Eiger] Options: 4, 8, 16, 32. If set to 32, also sets clkdivider to 2 (quarter speed), else to 0 (full speed)\n
[Mythen3] Options: 8, 16, 32 \n
[Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16
"""
@ -599,13 +588,13 @@ class Detector(CppDetectorApi):
@property
@element
def rx_framescaught(self):
"""Number of frames caught by each port in receiver."""
"""Number of frames caught by receiver."""
return self.getFramesCaught()
@property
@element
def nextframenumber(self):
"""[Eiger][Jungfrau][Moench][CTB] Next frame number. Stopping acquisition might result in different frame numbers for different modules. """
"""[Eiger][Jungfrau] Next frame number. Stopping acquisition might result in different frame numbers for different modules. """
return self.getNextFrameNumber()
@nextframenumber.setter
@ -1474,19 +1463,6 @@ class Detector(CppDetectorApi):
def trimval(self, value):
ut.set_using_dict(self.setAllTrimbits, value)
@property
@element
def master(self):
"""
[Eiger] Sets half module to master and others to slaves.\n
[Gotthard][Gotthard2][Mythen3][Eiger] Gets if the current module/ half module is master.
"""
return self.getMaster()
@master.setter
def master(self, value):
ut.set_using_dict(self.setMaster, value)
@property
@element
def lock(self):
@ -1571,16 +1547,8 @@ class Detector(CppDetectorApi):
@property
def daclist(self):
"""
List of enums for every dac for this detector.
:setter: Only implemented for Chiptestboard
"""
return self.getDacNames()
@daclist.setter
def daclist(self, value):
self.setDacNames(value)
"""Gets the list of enums for every dac for this detector."""
return self.getDacList()
@property
def dacvalues(self):
@ -1926,13 +1894,13 @@ class Detector(CppDetectorApi):
@property
@element
def rx_frameindex(self):
"""Current frame index received for each port in receiver during acquisition."""
"""Current frame index received in receiver during acquisition."""
return self.getRxCurrentFrameIndex()
@property
@element
def rx_missingpackets(self):
"""Gets the number of missing packets for each port in receiver. Negative number denotes extra packets. """
"""Gets the number of missing packets for each port in receiver."""
return self.getNumMissingPackets()
"""
@ -1945,7 +1913,7 @@ class Detector(CppDetectorApi):
def datastream(self):
"""
datastream [left|right] [0, 1]
[Eiger] Enables or disables data streaming from left or/and right side of detector for 10GbE mode. 1 (enabled) by default.
[Eiger] Enables or disables data streaming from left or/and right side of detector. 1 (enabled) by default.
"""
result = {}
for port in [defs.LEFT, defs.RIGHT]:
@ -2147,21 +2115,6 @@ class Detector(CppDetectorApi):
"""
return ut.reduce_time(self.getMeasuredSubFramePeriod())
@property
@element
def top(self):
"""[Eiger] Sets half module to top (1), else bottom.
Note
-----
Advanced Function!
"""
return self.getTop()
@top.setter
def top(self, value):
ut.set_using_dict(self.setTop, value)
"""
------------------<<<Jungfrau specific>>>-------------------------
"""

71
python/src/detector.cpp
View File

@ -1,8 +1,8 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
/* WARINING This file is auto generated any edits might be overwritten without
* warning */
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#include <pybind11/chrono.h>
#include <pybind11/operators.h>
#include <pybind11/pybind11.h>
@ -173,12 +173,6 @@ void init_det(py::module &m) {
.def("setFlipRows",
(void (Detector::*)(bool, sls::Positions)) & Detector::setFlipRows,
py::arg(), py::arg() = Positions{})
.def("getMaster",
(Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getMaster,
py::arg() = Positions{})
.def("setMaster", (void (Detector::*)(bool, int)) & Detector::setMaster,
py::arg(), py::arg())
.def("isVirtualDetectorServer",
(Result<bool>(Detector::*)(sls::Positions) const) &
Detector::isVirtualDetectorServer,
@ -476,9 +470,7 @@ void init_det(py::module &m) {
(void (Detector::*)()) & Detector::clearAcquiringFlag)
.def("startReceiver", (void (Detector::*)()) & Detector::startReceiver)
.def("stopReceiver", (void (Detector::*)()) & Detector::stopReceiver)
.def("startDetector",
(void (Detector::*)(sls::Positions)) & Detector::startDetector,
py::arg() = Positions{})
.def("startDetector", (void (Detector::*)()) & Detector::startDetector)
.def("startDetectorReadout",
(void (Detector::*)()) & Detector::startDetectorReadout)
.def("stopDetector",
@ -493,17 +485,14 @@ void init_det(py::module &m) {
Detector::getReceiverStatus,
py::arg() = Positions{})
.def("getFramesCaught",
(Result<std::vector<int64_t>>(Detector::*)(sls::Positions) const) &
(Result<int64_t>(Detector::*)(sls::Positions) const) &
Detector::getFramesCaught,
py::arg() = Positions{})
.def("getNumMissingPackets",
(Result<std::vector<int64_t>>(Detector::*)(sls::Positions) const) &
.def(
"getNumMissingPackets",
(Result<std::vector<uint64_t>>(Detector::*)(sls::Positions) const) &
Detector::getNumMissingPackets,
py::arg() = Positions{})
.def("getRxCurrentFrameIndex",
(Result<std::vector<int64_t>>(Detector::*)(sls::Positions) const) &
Detector::getRxCurrentFrameIndex,
py::arg() = Positions{})
.def("getNextFrameNumber",
(Result<uint64_t>(Detector::*)(sls::Positions) const) &
Detector::getNextFrameNumber,
@ -776,16 +765,9 @@ void init_det(py::module &m) {
Detector::getRxLastClientIP,
py::arg() = Positions{})
.def("getRxThreadIds",
(Result<std::array<pid_t, 9>>(Detector::*)(sls::Positions) const) &
(Result<std::array<pid_t, 8>>(Detector::*)(sls::Positions) const) &
Detector::getRxThreadIds,
py::arg() = Positions{})
.def("getRxArping",
(Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getRxArping,
py::arg() = Positions{})
.def("setRxArping",
(void (Detector::*)(bool, sls::Positions)) & Detector::setRxArping,
py::arg(), py::arg() = Positions{})
.def("getFileFormat",
(Result<defs::fileFormat>(Detector::*)(sls::Positions) const) &
Detector::getFileFormat,
@ -1015,13 +997,6 @@ void init_det(py::module &m) {
sls::Positions)) &
Detector::setDataStream,
py::arg(), py::arg(), py::arg() = Positions{})
.def("getTop",
(Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getTop,
py::arg() = Positions{})
.def("setTop",
(void (Detector::*)(bool, sls::Positions)) & Detector::setTop,
py::arg(), py::arg() = Positions{})
.def("getChipVersion",
(Result<double>(Detector::*)(sls::Positions) const) &
Detector::getChipVersion,
@ -1280,6 +1255,10 @@ void init_det(py::module &m) {
(Result<std::array<ns, 3>>(Detector::*)(sls::Positions) const) &
Detector::getGateDelayForAllGates,
py::arg() = Positions{})
.def("getMaster",
(Result<bool>(Detector::*)(sls::Positions) const) &
Detector::getMaster,
py::arg() = Positions{})
.def("getChipStatusRegister",
(Result<int>(Detector::*)(sls::Positions) const) &
Detector::getChipStatusRegister,
@ -1427,19 +1406,6 @@ void init_det(py::module &m) {
(void (Detector::*)(bool, sls::Positions)) &
Detector::setLEDEnable,
py::arg(), py::arg() = Positions{})
.def("setDacNames",
(void (Detector::*)(const std::vector<std::string>)) &
Detector::setDacNames,
py::arg())
.def("getDacNames", (std::vector<std::string>(Detector::*)() const) &
Detector::getDacNames)
.def("getDacIndex",
(defs::dacIndex(Detector::*)(const std::string &)) &
Detector::getDacIndex,
py::arg())
.def("getDacName",
(std::string(Detector::*)(defs::dacIndex)) & Detector::getDacName,
py::arg())
.def("setPattern",
(void (Detector::*)(const std::string &, sls::Positions)) &
Detector::setPattern,
@ -1544,10 +1510,9 @@ void init_det(py::module &m) {
Detector::setAdditionalJsonParameter,
py::arg(), py::arg(), py::arg() = Positions{})
.def("programFPGA",
(void (Detector::*)(const std::string &, const bool,
sls::Positions)) &
(void (Detector::*)(const std::string &, sls::Positions)) &
Detector::programFPGA,
py::arg(), py::arg(), py::arg() = Positions{})
py::arg(), py::arg() = Positions{})
.def("resetFPGA",
(void (Detector::*)(sls::Positions)) & Detector::resetFPGA,
py::arg() = Positions{})
@ -1582,7 +1547,7 @@ void init_det(py::module &m) {
Detector::getUpdateMode,
py::arg() = Positions{})
.def("setUpdateMode",
(void (Detector::*)(const bool, sls::Positions)) &
(void (Detector::*)(bool, sls::Positions)) &
Detector::setUpdateMode,
py::arg(), py::arg() = Positions{})
.def("readRegister",
@ -1674,5 +1639,9 @@ void init_det(py::module &m) {
Detector::getMeasurementTime,
py::arg() = Positions{})
.def("getUserDetails",
(std::string(Detector::*)() const) & Detector::getUserDetails);
(std::string(Detector::*)() const) & Detector::getUserDetails)
.def("getRxCurrentFrameIndex",
(Result<uint64_t>(Detector::*)(sls::Positions) const) &
Detector::getRxCurrentFrameIndex,
py::arg() = Positions{});
}

3
python/src/enums.cpp
View File

@ -273,8 +273,7 @@ void init_enums(py::module &m) {
slsDetectorDefs::timingSourceType::TIMING_EXTERNAL)
.export_values();
py::enum_<slsDetectorDefs::M3_GainCaps>(Defs, "M3_GainCaps",
py::arithmetic())
py::enum_<slsDetectorDefs::M3_GainCaps>(Defs, "M3_GainCaps")
.value("M3_C10pre", slsDetectorDefs::M3_GainCaps::M3_C10pre)
.value("M3_C15sh", slsDetectorDefs::M3_GainCaps::M3_C15sh)
.value("M3_C30sh", slsDetectorDefs::M3_GainCaps::M3_C30sh)

2
slsDetectorCalibration/analogDetector.h
View File

@ -10,7 +10,7 @@
#include "pedestalSubtraction.h"
#include "slsDetectorData.h"
#include "slsInterpolation.h"
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <pthread.h>
#ifdef ROOTSPECTRUM

167
slsDetectorCalibration/dataStructures/moench03T1ReceiverDataNew.h
View File

@ -2,9 +2,49 @@
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef MOENCH03T1RECDATANEW_H
#define MOENCH03T1RECDATANEW_H
#include "sls/sls_detector_defs.h"
#include "slsDetectorData.h"
//#define VERSION_V2
/**
@short structure for a Detector Packet or Image Header
@li frameNumber is the frame number
@li expLength is the subframe number (32 bit eiger) or real time exposure
time in 100ns (others)
@li packetNumber is the packet number
@li bunchId is the bunch id from beamline
@li timestamp is the time stamp with 10 MHz clock
@li modId is the unique module id (unique even for left, right, top, bottom)
@li xCoord is the x coordinate in the complete detector system
@li yCoord is the y coordinate in the complete detector system
@li zCoord is the z coordinate in the complete detector system
@li debug is for debugging purposes
@li roundRNumber is the round robin set number
@li detType is the detector type see :: detectorType
@li version is the version number of this structure format
*/
typedef struct {
uint64_t frameNumber; /**< is the frame number */
uint32_t expLength; /**< is the subframe number (32 bit eiger) or real time
exposure time in 100ns (others) */
uint32_t packetNumber; /**< is the packet number */
uint64_t bunchId; /**< is the bunch id from beamline */
uint64_t timestamp; /**< is the time stamp with 10 MHz clock */
uint16_t modId; /**< is the unique module id (unique even for left, right,
top, bottom) */
uint16_t xCoord; /**< is the x coordinate in the complete detector system */
uint16_t yCoord; /**< is the y coordinate in the complete detector system */
uint16_t zCoord; /**< is the z coordinate in the complete detector system */
uint32_t debug; /**< is for debugging purposes */
uint16_t roundRNumber; /**< is the round robin set number */
uint8_t detType; /**< is the detector type see :: detectorType */
uint8_t version; /**< is the version number of this structure format */
#ifndef VERSION_V1
uint64_t
packetCaught[8]; /**< is the version number of this structure format */
#endif
} sls_detector_header;
class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
private:
@ -16,9 +56,6 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
double ghost[200][25];
// Single point of definition if we need to customize
using header = sls::defs::sls_receiver_header;
public:
/**
Implements the slsReceiverData structure for the moench02 prototype read
@ -27,7 +64,8 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
*/
moench03T1ReceiverDataNew(int ns = 5000)
: slsDetectorData<uint16_t>(400, 400, ns * 2 * 32 + sizeof(header)),
: slsDetectorData<uint16_t>(400, 400,
ns * 2 * 32 + sizeof(sls_detector_header)),
nSamples(ns) {
int nadc = 32;
@ -62,15 +100,15 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
} else {
row = 200 + i / sc_width;
}
dataMap[row][col] = sizeof(header) +
dataMap[row][col] = sizeof(sls_detector_header) +
(nadc * i + iadc) * 2; //+16*(ip+1);
#ifdef HIGHZ
dataMask[row][col] = 0x3fff; // invert data
#endif
if (dataMap[row][col] < 0 ||
dataMap[row][col] >= nSamples * 2 * 32)
std::cout << "Error: pointer " << dataMap[row][col]
<< " out of range " << std::endl;
cout << "Error: pointer " << dataMap[row][col]
<< " out of range " << endl;
}
}
}
@ -82,13 +120,13 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
ghost[iy][ix] = 0.;
int ipacket;
uint ibyte;
int ibyte;
int ii = 0;
for (ibyte = 0; ibyte < sizeof(header) / 2; ibyte++) {
for (ibyte = 0; ibyte < sizeof(sls_detector_header) / 2; ibyte++) {
xmap[ibyte] = -1;
ymap[ibyte] = -1;
}
int off = sizeof(header) / 2;
int off = sizeof(sls_detector_header) / 2;
for (ipacket = 0; ipacket < npackets; ipacket++) {
for (ibyte = 0; ibyte < 8192 / 2; ibyte++) {
i = ipacket * 8208 / 2 + ibyte;
@ -123,7 +161,20 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
required as double
*/
double getValue(char *data, int ix, int iy = 0) override {
virtual double getValue(char *data, int ix, int iy = 0) {
/* cout << " x "<< ix << " y"<< iy << " val " << getChannel(data, ix,
* iy)<< endl;*/
/* double val=0, vout=getChannel(data, ix, iy); */
/* int x1=ix%25; */
/* for (int ix=0; ix<16; ix++) { */
/* for (int ii=0; ii<2; ii++) { */
/* val+=getChannel(data,x1+25*ix,iy); */
/* val+=getChannel(data,x1+25*ix,399-iy); */
/* } */
/* } */
/* vout+=0.0008*val-6224; */
/* return vout; //(double)getChannel(data, ix, iy);
*/
uint16_t val = getChannel(data, ix, iy) & 0x3fff;
return val;
};
@ -174,9 +225,17 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
*/
/* class jfrau_packet_header_t { */
/* public: */
/* unsigned char reserved[4]; */
/* unsigned char packetNumber[1]; */
/* unsigned char frameNumber[3]; */
/* unsigned char bunchid[8]; */
/* }; */
int getFrameNumber(char *buff) {
return ((header *)buff)->detHeader.frameNumber;
}
return ((sls_detector_header *)buff)->frameNumber;
}; //*((int*)(buff+5))&0xffffff;};
/**
@ -188,22 +247,68 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
*/
int getPacketNumber(char *buff) {
return ((header *)buff)->detHeader.packetNumber;
}
return ((sls_detector_header *)buff)->packetNumber;
} //((*(((int*)(buff+4))))&0xff)+1;};
char *readNextFrame(std::ifstream &filebin) override {
/* /\** */
/* Loops over a memory slot until a complete frame is found (i.e. all
* packets 0 to nPackets, same frame number). purely virtual func */
/* \param data pointer to the memory to be analyzed */
/* \param ndata reference to the amount of data found for the frame, in
* case the frame is incomplete at the end of the memory slot */
/* \param dsize size of the memory slot to be analyzed */
/* \returns pointer to the beginning of the last good frame (might be
* incomplete if ndata smaller than dataSize), or NULL if no frame is found
*/
/* *\/ */
/* virtual char *findNextFrame(char *data, int &ndata, int
* dsize){ndata=dsize; setDataSize(dsize); return data;}; */
/* /\** */
/* Loops over a file stream until a complete frame is found (i.e. all
* packets 0 to nPackets, same frame number). Can be overloaded for
* different kind of detectors! */
/* \param filebin input file stream (binary) */
/* \returns pointer to the begin of the last good frame, NULL if no
* frame is found or last frame is incomplete */
/* *\/ */
/* virtual char *readNextFrame(ifstream &filebin){ */
/* // int afifo_length=0; */
/* uint16_t *afifo_cont; */
/* int ib=0; */
/* if (filebin.is_open()) { */
/* afifo_cont=new uint16_t[dataSize/2]; */
/* while (filebin.read(((char*)afifo_cont)+ib,2)) { */
/* ib+=2; */
/* if (ib==dataSize) break; */
/* } */
/* if (ib>0) { */
/* iframe++; */
/* // cout << ib << "-" << endl; */
/* return (char*)afifo_cont; */
/* } else { */
/* delete [] afifo_cont; */
/* return NULL; */
/* } */
/* } */
/* return NULL; */
/* }; */
virtual char *readNextFrame(ifstream &filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
}
};
// not present in base class
virtual char *readNextFrame(std::ifstream &filebin, int &ff) {
virtual char *readNextFrame(ifstream &filebin, int &ff) {
int np = -1;
return readNextFrame(filebin, ff, np);
};
// not present in base class
virtual char *readNextFrame(std::ifstream &filebin, int &ff, int &np) {
virtual char *readNextFrame(ifstream &filebin, int &ff, int &np) {
char *data = new char[dataSize];
char *d = readNextFrame(filebin, ff, np, data);
if (d == NULL) {
@ -213,10 +318,18 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
return data;
}
// not present in base class
virtual char *readNextFrame(std::ifstream &filebin, int &ff, int &np,
virtual char *readNextFrame(ifstream &filebin, int &ff, int &np,
char *data) {
char *retval = 0;
int nd;
int fnum = -1;
np = 0;
int pn;
// cout << dataSize << endl;
if (ff >= 0)
fnum = ff;
if (filebin.is_open()) {
if (filebin.read(data, dataSize)) {
ff = getFrameNumber(data);
@ -224,8 +337,8 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
return data;
}
}
return nullptr;
}
return NULL;
};
/**
@ -239,7 +352,7 @@ class moench03T1ReceiverDataNew : public slsDetectorData<uint16_t> {
found
*/
char *findNextFrame(char *data, int &ndata, int dsize) override {
virtual char *findNextFrame(char *data, int &ndata, int dsize) {
if (dsize < dataSize)
ndata = dsize;
else

14
slsDetectorCalibration/dataStructures/moench03T1ZmqDataNew.h
View File

@ -29,7 +29,7 @@ class moench03T1ZmqDataNew : public slsDetectorData<uint16_t> {
moench03T1ZmqDataNew(int ns = 5000, int oo = 2 * 2)
: slsDetectorData<uint16_t>(400, 400, ns * 32 * 2 + oo), nSamples(ns),
offset(oo), xtalk(0.00021) {
std::cout << "M0.3" << std::endl;
cout << "M0.3" << endl;
int nadc = 32;
int sc_width = 25;
int sc_height = 200;
@ -70,8 +70,8 @@ class moench03T1ZmqDataNew : public slsDetectorData<uint16_t> {
dataMap[row][col] =
(nadc * i + iadc) * 2 + offset; //+16*(ip+1);
if (dataMap[row][col] < 0 || dataMap[row][col] >= dataSize)
std::cout << "Error: pointer " << dataMap[row][col]
<< " out of range " << std::endl;
cout << "Error: pointer " << dataMap[row][col]
<< " out of range " << endl;
}
}
}
@ -260,17 +260,17 @@ class moench03T1ZmqDataNew : public slsDetectorData<uint16_t> {
/* return NULL; */
/* }; */
virtual char *readNextFrame(std::ifstream &filebin) {
virtual char *readNextFrame(ifstream &filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
};
virtual char *readNextFrame(std::ifstream &filebin, int &ff) {
virtual char *readNextFrame(ifstream &filebin, int &ff) {
int np = -1;
return readNextFrame(filebin, ff, np);
};
virtual char *readNextFrame(std::ifstream &filebin, int &ff, int &np) {
virtual char *readNextFrame(ifstream &filebin, int &ff, int &np) {
char *data = new char[32 * 2 * nSamples];
char *d = readNextFrame(filebin, ff, np, data);
if (d == NULL) {
@ -280,7 +280,7 @@ class moench03T1ZmqDataNew : public slsDetectorData<uint16_t> {
return data;
}
virtual char *readNextFrame(std::ifstream &filebin, int &ff, int &np,
virtual char *readNextFrame(ifstream &filebin, int &ff, int &np,
char *data) {
// char *retval=0;
// int nd;

235
slsDetectorCalibration/dataStructures/moench04CtbZmq10GbData.h
View File

@ -3,9 +3,50 @@
#ifndef MOENCH04ZMQ10GBDATA_H
#define MOENCH04ZMQ10GBDATA_H
#include "slsDetectorData.h"
#include "sls/sls_detector_defs.h"
using namespace std;
#ifndef SLS_DETECTOR_HEADER
#define SLS_DETECTOR_HEADER
//#define VERSION_V2
/**
@short structure for a Detector Packet or Image Header
@li frameNumber is the frame number
@li expLength is the subframe number (32 bit eiger) or real time exposure
time in 100ns (others)
@li packetNumber is the packet number
@li bunchId is the bunch id from beamline
@li timestamp is the time stamp with 10 MHz clock
@li modId is the unique module id (unique even for left, right, top, bottom)
@li xCoord is the x coordinate in the complete detector system
@li yCoord is the y coordinate in the complete detector system
@li zCoord is the z coordinate in the complete detector system
@li debug is for debugging purposes
@li roundRNumber is the round robin set number
@li detType is the detector type see :: detectorType
@li version is the version number of this structure format
*/
typedef struct {
uint64_t frameNumber; /**< is the frame number */
uint32_t expLength; /**< is the subframe number (32 bit eiger) or real time
exposure time in 100ns (others) */
uint32_t packetNumber; /**< is the packet number */
uint64_t bunchId; /**< is the bunch id from beamline */
uint64_t timestamp; /**< is the time stamp with 10 MHz clock */
uint16_t modId; /**< is the unique module id (unique even for left, right,
top, bottom) */
uint16_t xCoord; /**< is the x coordinate in the complete detector system */
uint16_t yCoord; /**< is the y coordinate in the complete detector system */
uint16_t zCoord; /**< is the z coordinate in the complete detector system */
uint32_t debug; /**< is for debugging purposes */
uint16_t roundRNumber; /**< is the round robin set number */
uint8_t detType; /**< is the detector type see :: detectorType */
uint8_t version; /**< is the version number of this structure format */
uint64_t
packetCaught[8]; /**< is the version number of this structure format */
} sls_detector_header;
#endif
class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
private:
@ -27,40 +68,67 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
// moench04CtbZmq10GbData(int nas=5000, int nds=0):
// slsDetectorData<uint16_t>(400, 400, nas*2*32+nds*8), aSamples(nas),
// dSamples(nds), nadc(32), sc_width(25), sc_height(200) {
#ifndef RAWDATA
moench04CtbZmq10GbData(int nas = 5000, int nds = 0)
: slsDetectorData<uint16_t>(400, 400,
#ifdef RAWDATA
sizeof(slsDetectorDefs::sls_receiver_header) +
(nas > 0) && (nds > 0)
? max(nas, nds) * (32 * 2 + 8)
: nas * 32 * 2 + nds * 8),
nadc(32), sc_width(25), sc_height(200), aSamples(nas), dSamples(nds) {
int off = 0;
#endif
#ifdef RAWDATA
moench04CtbZmq10GbData(int nas = 5000, int nds = 0)
: slsDetectorData<uint16_t>(400, 400,
sizeof(sls_detector_header) +
((nas > 0) && (nds > 0)
? max(nas, nds) * (32 * 2 + 8)
: nas * 32 * 2 + nds * 8)),
nadc(32), sc_width(25), sc_height(200), aSamples(nas), dSamples(nds) {
#ifdef RAWDATA
off=sizeof(slsDetectorDefs::sls_receiver_header);
#endif
#ifndef RAWDATA
#ifndef CTB
off=sizeof(int);
#endif
#ifdef CTB
off=0;
#endif
nadc(32), sc_width(25), sc_height(200), aSamples(nas),
dSamples(nds) {
int off = sizeof(sls_detector_header);
cout << "hh" << dataSize << endl;
cout << sizeof(sls_detector_header) +
((nas > 0) && (nds > 0) ? max(nas, nds) * (32 * 2 + 8)
: nas * 32 * 2 + nds * 8)
<< endl;
#endif
/* int ds; */
/* if (nas && nds) */
/* if (nds>nas) */
/* ds=nds*(32*2+8); */
/* else */
/* ds=nas*(32*2+8); */
/* else */
/* ds=nas*32*2+nds*8; */
cout << "off is " << off << endl;
if (off>0)
cout << "M04 RAW DATA NEW " << endl;
else
cout << "M04 ZMQ DATA NEW " << endl;
/* new slsDetectorData<uint16_t>(400, 400, ds); */
int adc_nr[32] = {9, 8, 11, 10, 13, 12, 15, 14, 1, 0, 3,
2, 5, 4, 7, 6, 23, 22, 21, 20, 19, 18,
17, 16, 31, 30, 29, 28, 27, 26, 25, 24};
/*
iadc=ptr%32
isample=ptr/32
col=(adc_nr[iadc]%16)*25+isample%25
if (adc_nr[iadc]<16)
row=199-isample/25;
else
row=200+isample/25
adc0 col(9*25..10*25-1) row(199..0)
adc1 col(8*25..9*25-1) row(199..0)
adc2 col(11*25..12*25-1) row(199..0)
adc3 col(10*25..11*25-1) row(199..0)
adc4 col(13*25..14*25-1) row(199..0)
adc5 col(12*25..13*25-1) row(199..0)
adc6 col(15*25..16*25-1) row(199..0)
adc7 col(14*25..15*25-1) row(199..0)
adc8 col(1*25..2*25-1) row(199..0)
*/
int row, col;
@ -100,12 +168,40 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
}
}
/* for (ibyte=0; ibyte<sizeof(sls_detector_header)/2; ibyte++){ */
/* xmap[ibyte]=-1; */
/* ymap[ibyte]=-1; */
/* } */
/* int off=sizeof(sls_detector_header)/2; */
/* for (ibyte=0; ibyte<dataSize; ibyte++) { */
/* for (ipacket=0; ipacket<npackets; ipacket++) { */
/* for (ibyte=0; ibyte< 8192/2; ibyte++) { */
/* i=ipacket*8208/2+ibyte; */
/* isample=ii/nadc; */
/* if (isample<nSamples) { */
/* iadc=ii%nadc; */
/* adc4 = (int)iadc/4; */
/* ix=isample%sc_width; */
/* iy=isample/sc_width; */
/* if (adc4%2==0) { */
/* xmap[i+off]=adc_nr[iadc]+ix; */
/* ymap[i+off]=ny/2-1-iy; */
/* } else { */
/* xmap[i+off]=adc_nr[iadc]+ix; */
/* ymap[i+off]=ny/2+iy; */
/* } */
/* } */
/* ii++; */
/* // } */
/* } */
/* } */
iframe = 0;
// cout << "data struct created" << endl;
}
int getGain(char *data, int x, int y) {
// int aoff=aSamples*2*32;
int irow;
@ -157,12 +253,10 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
/* unsigned char bunchid[8]; */
/* }; */
int getFrameNumber(char *buff) {
#ifdef RAWDATA
return ((slsDetectorDefs::sls_receiver_header *)buff)->detHeader.frameNumber;
#endif
return (int)(*buff);
};
int getFrameNumber(char *buff) {
return ((sls_detector_header *)buff)->frameNumber;
}; //*((int*)(buff+5))&0xffffff;};
/**
@ -174,15 +268,76 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
*/
int getPacketNumber(char *buff) {
#ifdef RAWDATA
return ((slsDetectorDefs::sls_receiver_header *)buff)->detHeader.packetNumber;
return ((sls_detector_header *)buff)->packetNumber;
} //((*(((int*)(buff+4))))&0xff)+1;};
#endif
return 0;
#ifndef RAWDATA
}
int getFrameNumber(char *buff) {
return iframe;
}; //((sls_detector_header*)buff)->frameNumber;};//*((int*)(buff+5))&0xffffff;};
#endif
/**
Returns the packet number for the given dataset. purely virtual func
\param buff pointer to the dataset
\returns packet number number
*/
// int getPacketNumber(char *buff){return
// ((sls_detector_header*)buff)->packetNumber;}//((*(((int*)(buff+4))))&0xff)+1;};
/* /\** */
/* Loops over a memory slot until a complete frame is found (i.e.
* all packets 0 to nPackets, same frame number). purely virtual func */
/* \param data pointer to the memory to be analyzed */
/* \param ndata reference to the amount of data found for the
* frame, in case the frame is incomplete at the end of the memory slot
*/
/* \param dsize size of the memory slot to be analyzed */
/* \returns pointer to the beginning of the last good frame (might
* be incomplete if ndata smaller than dataSize), or NULL if no frame is
* found */
/* *\/ */
/* virtual char *findNextFrame(char *data, int &ndata, int
* dsize){ndata=dsize; setDataSize(dsize); return data;}; */
/* /\** */
/* Loops over a file stream until a complete frame is found (i.e.
* all packets 0 to nPackets, same frame number). Can be overloaded for
* different kind of detectors! */
/* \param filebin input file stream (binary) */
/* \returns pointer to the begin of the last good frame, NULL if no
* frame is found or last frame is incomplete */
/* *\/ */
/* virtual char *readNextFrame(ifstream &filebin){ */
/* // int afifo_length=0; */
/* uint16_t *afifo_cont; */
/* int ib=0; */
/* if (filebin.is_open()) { */
/* afifo_cont=new uint16_t[dataSize/2]; */
/* while (filebin.read(((char*)afifo_cont)+ib,2)) { */
/* ib+=2; */
/* if (ib==dataSize) break; */
/* } */
/* if (ib>0) { */
/* iframe++; */
/* // cout << ib << "-" << endl; */
/* return (char*)afifo_cont; */
/* } else { */
/* delete [] afifo_cont; */
/* return NULL; */
/* } */
/* } */
/* return NULL; */
/* }; */
virtual char *readNextFrame(ifstream & filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
@ -203,12 +358,11 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
return data;
}
#ifndef RAWDATA
virtual char *readNextFrame(ifstream & filebin, int &ff, int &np,
char *data) {
// char *retval=0;
#ifndef RAWDATA
// int nd;
// int fnum = -1;
np = 0;
@ -226,13 +380,19 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
}
}
return NULL;
};
#endif
#ifdef RAWDATA
//int nd;
virtual char *readNextFrame(ifstream & filebin, int &ff, int &np,
char *data) {
char *retval = 0;
int nd;
int fnum = -1;
np = 0;
//int pn;
int pn;
// cout << dataSize << endl;
if (ff >= 0)
@ -246,9 +406,9 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
}
}
return NULL;
};
#endif
};
/**
@ -273,4 +433,3 @@ class moench04CtbZmq10GbData : public slsDetectorData<uint16_t> {
};
#endif

216
slsDetectorCalibration/dataStructures/moenchData.h
View File

@ -1,216 +0,0 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef MOENCHDATA_H
#define MOENCHDATA_H
#include "slsDetectorData.h"
#include "sls/sls_detector_defs.h"
using namespace std;
class moenchData : public slsDetectorData<uint16_t> {
private:
int iframe;
int nadc;
int sc_width;
int sc_height;
const int aSamples;
const int dSamples;
int off;
int *adc_nr;
int *ibit;
public:
/**
Implements the slsReceiverData structure for the moench02 prototype read
out by a module i.e. using the slsReceiver (160x160 pixels, 40 packets
1286 large etc.) \param c crosstalk parameter for the output buffer
*/
moenchData(int off, int nadc_i, int *adc_nr_in, int *ibit_in, int nas = 5000, int nds = 0, int nx_i=400, int ny_i=400)
: nadc(nadc_i), slsDetectorData<uint16_t>(nx_i, ny_i,off+((nas > 0) && (nds > 0)
? max(nas, nds) * (nadc_i * 2 + 8)
: nas * nadc_i * 2 + nds * 8)),
sc_width(25), sc_height(200), aSamples(nas), dSamples(nds) {
adc_nr=new int[nadc];
if (ibit_in)
ibit=new int[nadc];
else
ibit=NULL;
for (iadc=0; iadc<nadc; iadc++) {
adc_nr[iadc]=adc_nr_in[iadc];
if (ibit)
ibit[iadc]=ibit_in[iadc];
}
int row, col;
int iadc;
int i;
for (int is = 0; is < aSamples; is++) {
for (iadc = 0; iadc < nadc; iadc++) {
i = is;
// adc4=(int)iadc/4;
if (i < sc_width * sc_height) {
// for (int i=0; i<sc_width*sc_height; i++) {
col = (adc_nr[iadc] % 16) * sc_width + (i % sc_width);
// if (adc4%2==0) {
if (iadc < 16) {
row = 199 - i / sc_width;
} else {
row = 200 + i / sc_width;
}
if (nds > 0)
dataMap[row][col] =
((nadc + 4) * i + iadc) * 2 + off; //+16*(ip+1);
else
dataMap[row][col] =
(nadc * i + iadc) * 2 + off; //+16*(ip+1);
if (dataMap[row][col] < 0 ||
dataMap[row][col] >= aSamples * 2 * 32 + off)
cout << "Error: pointer " << dataMap[row][col]
<< " out of range " << endl;
}
}
}
iframe = 0;
}
virtual int getGain(char *data, int x, int y) {
// int aoff=aSamples*2*32;
if (ibit) {
int irow;
int isc = x / sc_width;
int icol = x % sc_width;
if (y < 200)
irow = sc_height - 1 - y;
else {
irow = y - sc_height;
isc++;
}
int isample = irow * sc_width + icol;
uint64_t sample;
char *ptr;
if (isc < 0 || isc >= 32)
return 0;
if (ibit[isc] < 0 || ibit[isc] >= 64)
return 0;
if (dSamples > isample) {
ptr = data + 32 * (isample + 1) + 8 * isample;
sample = *((uint64_t *)ptr);
if (sample & (1 << ibit[isc]))
return 1;
}
}
return 0;
}
/**
Returns the frame number for the given dataset. Purely virtual func.
\param buff pointer to the dataset
\returns frame number
*/
int getFrameNumber(char *buff) {
return (int* buff)[0];
};
/**
Returns the packet number for the given dataset. purely virtual func
\param buff pointer to the dataset
\returns packet number number
*/
int getPacketNumber(char *buff) {
return 0;
}
virtual char *readNextFrame(ifstream & filebin) {
int ff = -1, np = -1;
return readNextFrame(filebin, ff, np);
};
virtual char *readNextFrame(ifstream & filebin, int &ff) {
int np = -1;
return readNextFrame(filebin, ff, np);
};
virtual char *readNextFrame(ifstream & filebin, int &ff, int &np) {
char *data = new char[dataSize];
char *d = readNextFrame(filebin, ff, np, data);
if (d == NULL) {
delete[] data;
data = NULL;
}
return data;
}
virtual char *readNextFrame(ifstream & filebin, int &ff, int &np,
char *data) {
char *retval = 0;
int nd;
int fnum = -1;
np = 0;
int pn;
// cout << dataSize << endl;
//if (ff >= 0)
// fnum = ff;
if (filebin.is_open()) {
if (filebin.read(data, dataSize)) {
ff = getFrameNumber(data);
np = getPacketNumber(data);
return data;
}
}
return NULL;
};
/**
Loops over a memory slot until a complete frame is found (i.e. all
packets 0 to nPackets, same frame number). purely virtual func \param
data pointer to the memory to be analyzed \param ndata reference to
the amount of data found for the frame, in case the frame is
incomplete at the end of the memory slot \param dsize size of the
memory slot to be analyzed \returns pointer to the beginning of the
last good frame (might be incomplete if ndata smaller than dataSize),
or NULL if no frame is found
*/
virtual char *findNextFrame(char *data, int &ndata, int dsize) {
if (dsize < dataSize)
ndata = dsize;
else
ndata = dataSize;
return data;
}
};
#endif

302
slsDetectorCalibration/dataStructures/slsDetectorData.h
View File

@ -4,8 +4,11 @@
#define SLSDETECTORDATA_H
#include <fstream>
#include <inttypes.h>
#include <iostream>
using namespace std;
template <class dataType> class slsDetectorData {
protected:
@ -26,6 +29,8 @@ template <class dataType> class slsDetectorData {
public:
/**
General slsDetectors data structure. Works for data acquired using the
slsDetectorReceiver. Can be generalized to other detectors (many virtual
funcs).
@ -40,115 +45,10 @@ template <class dataType> class slsDetectorData {
is inversion is required) \param dROI Array of size nx*ny. The elements are
1s if the channel is good or in the ROI, 0 is bad or out of the ROI. NULL
(default) means all 1s.
*/
slsDetectorData(int npx, int npy, int dsize, int **dMap = NULL,
dataType **dMask = NULL, int **dROI = NULL);
virtual ~slsDetectorData();
// Virtual functions
virtual int getPointer(int ix, int iy) { return dataMap[iy][ix]; };
virtual void getPixel(int ip, int &x, int &y);
virtual dataType **getData(char *ptr, int dsize = -1);
virtual double **getImage(char *ptr, int dsize = -1);
virtual dataType getChannel(char *data, int ix, int iy = 0);
virtual int getGain(char *data, int ix, int iy = 0) { return 0; };
virtual double getValue(char *data, int ix, int iy = 0) {
return (double)getChannel(data, ix, iy);
};
virtual int getFrameNumber(char *buff) = 0;
/**
Loops over a memory slot until a complete frame is found (i.e. all
packets 0 to nPackets, same frame number). purely virtual func \param
data pointer to the memory to be analyzed \param ndata reference to the
amount of data found for the frame, in case the frame is incomplete at
the end of the memory slot \param dsize size of the memory slot to be
analyzed \returns pointer to the beginning of the last good frame (might
be incomplete if ndata smaller than dataSize), or NULL if no frame is
found
*/
virtual char *findNextFrame(char *data, int &ndata, int dsize) = 0;
//Returns a pointer to the next complete frame, if none found nullptr
//data needs to be deallocated by caller
virtual char *readNextFrame(std::ifstream &filebin) = 0;
//END Virtual functions
/**
defines the data map (as offset) - no error checking if datasize and
offsets are compatible! \param dMap array of size nx*ny storing the
pointers to the data in the dataset (as offset). If NULL (default),the
data are arranged as if read out row by row
(dataMap[iy][ix]=(iy*nx+ix)*sizeof(dataType);)
*/
void setDataMap(int **dMap = NULL);
/**
defines the data mask i.e. the polarity of the data
\param dMask Array of size nx*ny storing the polarity of the data in the
dataset (should be 0 if no inversion is required, 0xffffffff is inversion
is required)
*/
void setDataMask(dataType **dMask = NULL);
/**
defines the region of interest and/or the bad channels mask
\param dROI Array of size nx*ny. The ements are 1s if the channel is
good or in the ROI, 0 is bad or out of the ROI. NULL (default) means all
1s.
*/
void setDataROIMask(int **dROI = NULL);
/**
Define bad channel or roi mask for a single channel
\param ix channel x coordinate
\param iy channel y coordinate (1 for strips)
\param i 1 if pixel is good (or in the roi), 0 if bad
\returns 1 if pixel is good, 0 if it's bad, -1 if pixel is out of range
*/
int setGood(int ix, int iy, int i = 1);
// returns 1 if pixel is good, 0 if it's bad, -1 if pixel is out of range
int isGood(int ix, int iy);
// returns total number of channels, outparam npx and npy x,y dimensions
int getDetectorSize(int &npx, int &npy);
/** Returns the size of the data frame */
int getDataSize() { return dataSize; };
/** changes the size of the data frame */
int setDataSize(int d) {
dataSize = d;
return dataSize;
};
void newFrame() { isOrdered = 0; };
/**
Returns the value of the selected channel for the given dataset. Virtual
function, can be overloaded. \param data pointer to the dataset
(including headers etc) \param ix pixel number in the x direction \param
iy pixel number in the y direction \returns data for the selected
channel, with inversion if required
*/
};
template <typename dataType>
slsDetectorData<dataType>::slsDetectorData(int npx, int npy, int dsize,
int **dMap, dataType **dMask,
int **dROI)
dataType **dMask = NULL, int **dROI = NULL)
: nx(npx), ny(npy), dataSize(dsize), orderedData(NULL), isOrdered(0) {
int el = dsize / sizeof(dataType);
@ -178,7 +78,7 @@ slsDetectorData<dataType>::slsDetectorData(int npx, int npy, int dsize,
setDataROIMask(dROI);
}
template <typename dataType> slsDetectorData<dataType>::~slsDetectorData() {
virtual ~slsDetectorData() {
for (int i = 0; i < ny; i++) {
delete[] dataMap[i];
delete[] dataMask[i];
@ -191,10 +91,17 @@ template <typename dataType> slsDetectorData<dataType>::~slsDetectorData() {
delete[] orderedData;
delete[] xmap;
delete[] ymap;
}
};
template <typename dataType>
void slsDetectorData<dataType>::setDataMap(int **dMap) {
virtual int getPointer(int ix, int iy) { return dataMap[iy][ix]; };
/**
defines the data map (as offset) - no error checking if datasize and
offsets are compatible! \param dMap array of size nx*ny storing the
pointers to the data in the dataset (as offset). If NULL (default),the
data are arranged as if read out row by row
(dataMap[iy][ix]=(iy*nx+ix)*sizeof(dataType);)
*/
void setDataMap(int **dMap = NULL) {
int ip = 0;
int ix, iy;
@ -226,10 +133,16 @@ void slsDetectorData<dataType>::setDataMap(int **dMap) {
}
// cout << "nx:" <<nx << " ny:" << ny << endl;
}
};
template <typename dataType>
void slsDetectorData<dataType>::setDataMask(dataType **dMask) {
/**
defines the data mask i.e. the polarity of the data
\param dMask Array of size nx*ny storing the polarity of the data in the
dataset (should be 0 if no inversion is required, 0xffffffff is inversion
is required)
*/
void setDataMask(dataType **dMask = NULL) {
if (dMask != NULL) {
@ -241,10 +154,16 @@ void slsDetectorData<dataType>::setDataMask(dataType **dMask) {
for (int ix = 0; ix < nx; ix++)
dataMask[iy][ix] = 0;
}
}
};
/**
defines the region of interest and/or the bad channels mask
\param dROI Array of size nx*ny. The lements are 1s if the channel is
good or in the ROI, 0 is bad or out of the ROI. NULL (default) means all
1s.
*/
void setDataROIMask(int **dROI = NULL) {
template <typename dataType>
void slsDetectorData<dataType>::setDataROIMask(int **dROI) {
if (dROI != NULL) {
for (int iy = 0; iy < ny; iy++)
@ -256,38 +175,60 @@ void slsDetectorData<dataType>::setDataROIMask(int **dROI) {
for (int ix = 0; ix < nx; ix++)
dataROIMask[iy][ix] = 1;
}
}
};
template <typename dataType>
int slsDetectorData<dataType>::setGood(int ix, int iy, int i) {
/**
Define bad channel or roi mask for a single channel
\param ix channel x coordinate
\param iy channel y coordinate (1 for strips)
\param i 1 if pixel is good (or in the roi), 0 if bad
\returns 1 if pixel is good, 0 if it's bad, -1 if pixel is out of range
*/
int setGood(int ix, int iy, int i = 1) {
if (ix >= 0 && ix < nx && iy >= 0 && iy < ny)
dataROIMask[iy][ix] = i;
return isGood(ix, iy);
}
template <typename dataType>
int slsDetectorData<dataType>::isGood(int ix, int iy) {
};
/**
Define bad channel or roi mask for a single channel
\param ix channel x coordinate
\param iy channel y coordinate (1 for strips)
\returns 1 if pixel is good, 0 if it's bad, -1 if pixel is out of range
*/
int isGood(int ix, int iy) {
if (ix >= 0 && ix < nx && iy >= 0 && iy < ny)
return dataROIMask[iy][ix];
else
return -1;
};
template <typename dataType>
int slsDetectorData<dataType>::getDetectorSize(int &npx, int &npy) {
/**
Returns detector size in x,y
\param npx reference to number of channels in x
\param npy reference to number of channels in y (will be 1 for strips)
\returns total number of channels
*/
int getDetectorSize(int &npx, int &npy) {
npx = nx;
npy = ny;
return nx * ny;
}
};
template <typename dataType>
void slsDetectorData<dataType>::getPixel(int ip, int &x, int &y) {
/** Returns the size of the data frame */
int getDataSize() { return dataSize; };
/** changes the size of the data frame */
int setDataSize(int d) {
dataSize = d;
return dataSize;
};
virtual void getPixel(int ip, int &x, int &y) {
x = xmap[ip];
y = ymap[ip];
}
};
template <typename dataType>
dataType **slsDetectorData<dataType>::getData(char *ptr, int dsize) {
virtual dataType **getData(char *ptr, int dsize = -1) {
int el = dsize / sizeof(dataType);
// dataType **data;
int ix, iy;
@ -310,8 +251,9 @@ dataType **slsDetectorData<dataType>::getData(char *ptr, int dsize) {
return orderedData;
}
template <typename dataType>
double **slsDetectorData<dataType>::getImage(char *ptr, int dsize) {
void newFrame() { isOrdered = 0; };
virtual double **getImage(char *ptr, int dsize = -1) {
double **data;
int ix, iy;
@ -329,12 +271,23 @@ double **slsDetectorData<dataType>::getImage(char *ptr, int dsize) {
}
}
return data;
}
template <typename dataType>
dataType slsDetectorData<dataType>::getChannel(char *data, int ix, int iy) {
};
/**
Returns the value of the selected channel for the given dataset. Virtual
function, can be overloaded. \param data pointer to the dataset
(including headers etc) \param ix pixel number in the x direction \param
iy pixel number in the y direction \returns data for the selected
channel, with inversion if required
*/
virtual dataType getChannel(char *data, int ix, int iy = 0) {
dataType m = 0, d = 0;
if (ix >= 0 && ix < nx && iy >= 0 && iy < ny && dataMap[iy][ix] >= 0 &&
dataMap[iy][ix] < dataSize) {
// cout << ix << " " << iy << " " ;
// cout << dataMap[ix][iy] << " " << (void*)data << " " <<
// dataSize<< endl;
m = dataMask[iy][ix];
if (isOrdered == 0)
d = *((dataType *)(data + getPointer(ix, iy)));
@ -344,4 +297,79 @@ dataType slsDetectorData<dataType>::getChannel(char *data, int ix, int iy) {
return d ^ m;
};
virtual int getGain(char *data, int ix, int iy = 0) { return 0; };
/**
Returns the value of the selected channel for the given dataset. Virtual
function, can be overloaded. \param data pointer to the dataset
(including headers etc) \param ix pixel number in the x direction \param
iy pixel number in the y direction \returns data for the selected
channel, with inversion if required or -1 if its a missing packet
*/
virtual int getChannelwithMissingPackets(char *data, int ix, int iy) {
return 0;
};
/**
Returns the value of the selected channel for the given dataset as
double. \param data pointer to the dataset (including headers etc) \param
ix pixel number in the x direction \param iy pixel number in the y
direction \returns data for the selected channel, with inversion if
required as double
*/
virtual double getValue(char *data, int ix, int iy = 0) {
/* cout << " x "<< ix << " y"<< iy << " val " << getChannel(data, ix,
* iy)<< endl;*/
return (double)getChannel(data, ix, iy);
};
/**
Returns the frame number for the given dataset. Purely virtual func.
\param buff pointer to the dataset
\returns frame number
*/
virtual int getFrameNumber(char *buff) = 0;
/**
Returns the packet number for the given dataset. purely virtual func
\param buff pointer to the dataset
\returns packet number number
virtual int getPacketNumber(char *buff)=0;
*/
/**
Loops over a memory slot until a complete frame is found (i.e. all
packets 0 to nPackets, same frame number). purely virtual func \param
data pointer to the memory to be analyzed \param ndata reference to the
amount of data found for the frame, in case the frame is incomplete at
the end of the memory slot \param dsize size of the memory slot to be
analyzed \returns pointer to the beginning of the last good frame (might
be incomplete if ndata smaller than dataSize), or NULL if no frame is
found
*/
virtual char *findNextFrame(char *data, int &ndata, int dsize) = 0;
/**
Loops over a file stream until a complete frame is found (i.e. all packets
0 to nPackets, same frame number). Can be overloaded for different kind of
detectors! \param filebin input file stream (binary) \returns pointer to
the begin of the last good frame, NULL if no frame is found or last frame
is incomplete
*/
virtual char *readNextFrame(ifstream &filebin) = 0;
};
#endif

2
slsDetectorCalibration/interpolatingDetector.h
View File

@ -149,7 +149,7 @@ class interpolatingDetector : public singlePhotonDetector {
{
nph = addFrame(data, val, 1);
if (interp)
return interp->getFlatFieldDistribution();
return interp->getFlatField();
else
return NULL;
};

148
slsDetectorCalibration/interpolations/eta2InterpolationBase.h
View File

@ -238,96 +238,96 @@ class eta2InterpolationBase : public virtual etaInterpolationBase {
// cout <<"******"<< etax << " " << etay << endl;
return addToFlatFieldDistribution(etax, etay);
return addToFlatField(etax, etay);
}
/* virtual int addToFlatField(double totquad, int quad, double *cl, */
/* double &etax, double &etay) { */
/* double cc[2][2]; */
/* int xoff = 0, yoff = 0; */
virtual int addToFlatField(double totquad, int quad, double *cl,
double &etax, double &etay) {
double cc[2][2];
int xoff = 0, yoff = 0;
/* switch (quad) { */
/* case BOTTOM_LEFT: */
/* xoff = 0; */
/* yoff = 0; */
/* break; */
/* case BOTTOM_RIGHT: */
/* xoff = 1; */
/* yoff = 0; */
/* break; */
/* case TOP_LEFT: */
/* xoff = 0; */
/* yoff = 1; */
/* break; */
/* case TOP_RIGHT: */
/* xoff = 1; */
/* yoff = 1; */
/* break; */
/* default:; */
/* } */
/* cc[0][0] = cl[xoff + 3 * yoff]; */
/* cc[1][0] = cl[(yoff + 1) * 3 + xoff]; */
/* cc[0][1] = cl[yoff * 3 + xoff + 1]; */
/* cc[1][1] = cl[(yoff + 1) * 3 + xoff + 1]; */
switch (quad) {
case BOTTOM_LEFT:
xoff = 0;
yoff = 0;
break;
case BOTTOM_RIGHT:
xoff = 1;
yoff = 0;
break;
case TOP_LEFT:
xoff = 0;
yoff = 1;
break;
case TOP_RIGHT:
xoff = 1;
yoff = 1;
break;
default:;
}
cc[0][0] = cl[xoff + 3 * yoff];
cc[1][0] = cl[(yoff + 1) * 3 + xoff];
cc[0][1] = cl[yoff * 3 + xoff + 1];
cc[1][1] = cl[(yoff + 1) * 3 + xoff + 1];
/* /\* cout << cl[0] << " " << cl[1] << " " << cl[2] << endl; *\/ */
/* /\* cout << cl[3] << " " << cl[4] << " " << cl[5] << endl; *\/ */
/* /\* cout << cl[6] << " " << cl[7] << " " << cl[8] << endl; *\/ */
/* /\* cout <<"******"<<totquad << " " << quad << endl; *\/ */
/* /\* cout << cc[0][0]<< " " << cc[0][1] << endl; *\/ */
/* /\* cout << cc[1][0]<< " " << cc[1][1] << endl; *\/ */
/* // calcMyEta(totquad,quad,cl,etax, etay); */
/* calcEta(totquad, cc, etax, etay); */
/* cout << cl[0] << " " << cl[1] << " " << cl[2] << endl; */
/* cout << cl[3] << " " << cl[4] << " " << cl[5] << endl; */
/* cout << cl[6] << " " << cl[7] << " " << cl[8] << endl; */
/* cout <<"******"<<totquad << " " << quad << endl; */
/* cout << cc[0][0]<< " " << cc[0][1] << endl; */
/* cout << cc[1][0]<< " " << cc[1][1] << endl; */
// calcMyEta(totquad,quad,cl,etax, etay);
calcEta(totquad, cc, etax, etay);
/* // cout <<"******"<< etax << " " << etay << endl; */
// cout <<"******"<< etax << " " << etay << endl;
/* return addToFlatFieldDistribution(etax, etay); */
/* } */
return addToFlatField(etax, etay);
}
//////////////////////////////////////////////////////////////////////////////////////
/* virtual int addToFlatField(double *cluster, double &etax, double &etay) { */
/* double sDum[2][2]; */
/* double tot, totquad; */
/* // int corner; */
/* // corner= */
/* calcQuad(cluster, tot, totquad, sDum); */
virtual int addToFlatField(double *cluster, double &etax, double &etay) {
double sDum[2][2];
double tot, totquad;
// int corner;
// corner=
calcQuad(cluster, tot, totquad, sDum);
/* // double xpos_eta,ypos_eta; */
/* // double dX,dY; */
// double xpos_eta,ypos_eta;
// double dX,dY;
/* calcEta(totquad, sDum, etax, etay); */
calcEta(totquad, sDum, etax, etay);
/* return addToFlatField(etax, etay); */
/* }; */
return addToFlatField(etax, etay);
};
/* virtual int addToFlatField(int *cluster, double &etax, double &etay) { */
/* double sDum[2][2]; */
/* double tot, totquad; */
/* // int corner; */
/* // corner= */
/* calcQuad(cluster, tot, totquad, sDum); */
virtual int addToFlatField(int *cluster, double &etax, double &etay) {
double sDum[2][2];
double tot, totquad;
// int corner;
// corner=
calcQuad(cluster, tot, totquad, sDum);
/* // double xpos_eta,ypos_eta; */
/* // double dX,dY; */
// double xpos_eta,ypos_eta;
// double dX,dY;
/* calcEta(totquad, sDum, etax, etay); */
calcEta(totquad, sDum, etax, etay);
/* return addToFlatField(etax, etay); */
/* }; */
return addToFlatField(etax, etay);
};
/* virtual int addToFlatFieldDistribution(double etax, double etay) { */
/* #ifdef MYROOT1 */
/* heta->Fill(etax, etay); */
/* #endif */
/* #ifndef MYROOT1 */
/* int ex, ey; */
/* ex = (etax - etamin) / etastepX; */
/* ey = (etay - etamin) / etastepY; */
/* if (ey < nbetaY && ex < nbetaX && ex >= 0 && ey >= 0) */
/* heta[ey * nbetaX + ex]++; */
/* #endif */
/* return 0; */
/* }; */
virtual int addToFlatField(double etax, double etay) {
#ifdef MYROOT1
heta->Fill(etax, etay);
#endif
#ifndef MYROOT1
int ex, ey;
ex = (etax - etamin) / etastepX;
ey = (etay - etamin) / etastepY;
if (ey < nbetaY && ex < nbetaX && ex >= 0 && ey >= 0)
heta[ey * nbetaX + ex]++;
#endif
return 0;
};
virtual int *getInterpolatedImage() {
int ipx, ipy;

58
slsDetectorCalibration/interpolations/eta3InterpolationBase.h
View File

@ -205,44 +205,44 @@ class eta3InterpolationBase : public virtual etaInterpolationBase {
double &etay) {
calcEta3(cl, etax, etay, totquad);
return addToFlatFieldDistribution(etax, etay);
return addToFlatField(etax, etay);
}
/* virtual int addToFlatField(double totquad, int quad, double *cl, */
/* double &etax, double &etay) { */
virtual int addToFlatField(double totquad, int quad, double *cl,
double &etax, double &etay) {
/* calcEta3(cl, etax, etay, totquad); */
/* return addToFlatField(etax, etay); */
/* } */
calcEta3(cl, etax, etay, totquad);
return addToFlatField(etax, etay);
}
//////////////////////////////////////////////////////////////////////////////////////
/* virtual int addToFlatField(double *cluster, double &etax, double &etay) { */
/* double totquad; */
/* calcEta3(cluster, etax, etay, totquad); */
/* return addToFlatField(etax, etay); */
/* }; */
virtual int addToFlatField(double *cluster, double &etax, double &etay) {
double totquad;
calcEta3(cluster, etax, etay, totquad);
return addToFlatField(etax, etay);
};
/* virtual int addToFlatField(int *cluster, double &etax, double &etay) { */
virtual int addToFlatField(int *cluster, double &etax, double &etay) {
/* double totquad; */
double totquad;
/* calcEta3(cluster, etax, etay, totquad); */
/* return addToFlatField(etax, etay); */
/* }; */
calcEta3(cluster, etax, etay, totquad);
return addToFlatField(etax, etay);
};
/* virtual int addToFlatField(double etax, double etay) { */
/* #ifdef MYROOT1 */
/* heta->Fill(etax, etay); */
/* #endif */
/* #ifndef MYROOT1 */
/* int ex, ey; */
/* ex = (etax - etamin) / etastepX; */
/* ey = (etay - etamin) / etastepY; */
/* if (ey < nbetaY && ex < nbetaX && ex >= 0 && ey >= 0) */
/* heta[ey * nbetaX + ex]++; */
/* #endif */
/* return 0; */
/* }; */
virtual int addToFlatField(double etax, double etay) {
#ifdef MYROOT1
heta->Fill(etax, etay);
#endif
#ifndef MYROOT1
int ex, ey;
ex = (etax - etamin) / etastepX;
ey = (etay - etamin) / etastepY;
if (ey < nbetaY && ex < nbetaX && ex >= 0 && ey >= 0)
heta[ey * nbetaX + ex]++;
#endif
return 0;
};
/* protected: */

2
slsDetectorCalibration/interpolations/etaInterpolationAdaptiveBins.h
View File

@ -3,7 +3,7 @@
#ifndef ETA_INTERPOLATION_ADAPTIVEBINS_H
#define ETA_INTERPOLATION_ADAPTIVEBINS_H
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <cmath>
//#include "etaInterpolationBase.h"
#include "etaInterpolationPosXY.h"

15
slsDetectorCalibration/interpolations/etaInterpolationBase.h
View File

@ -10,7 +10,7 @@
#include <TTree.h>
#endif
#include "slsInterpolation.h"
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <cmath>
class etaInterpolationBase : public slsInterpolation {
@ -128,7 +128,7 @@ class etaInterpolationBase : public slsInterpolation {
return NULL;
};
void *readFlatField(const char *imgname, double emin = 1, double emax = 0) {
int readFlatField(const char *imgname, double emin = 1, double emax = 0) {
if (emax >= 1)
etamax = emax;
if (emin <= 0)
@ -169,9 +169,9 @@ class etaInterpolationBase : public slsInterpolation {
}
}
delete[] gm;
return heta;
return 1;
}
return NULL;
return 0;
};
float *gethhx() {
@ -183,17 +183,12 @@ class etaInterpolationBase : public slsInterpolation {
// hhy->Scale((double)nSubPixels);
return hhy;
};
virtual int addToFlatFieldDistribution(double etax, double etay) {
#ifdef MYROOT1
heta->Fill(etax, etay);
#endif
#ifndef MYROOT1
virtual int addToFlatField(double etax, double etay) {
int ex, ey;
ex = (etax - etamin) / etastepX;
ey = (etay - etamin) / etastepY;
if (ey < nbetaY && ex < nbetaX && ex >= 0 && ey >= 0)
heta[ey * nbetaX + ex]++;
#endif
return 0;
};

2
slsDetectorCalibration/interpolations/etaInterpolationCleverAdaptiveBins.h
View File

@ -3,7 +3,7 @@
#ifndef ETA_INTERPOLATION_CLEVER_ADAPTIVEBINS_H
#define ETA_INTERPOLATION_CLEVER_ADAPTIVEBINS_H
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <cmath>
//#include "etaInterpolationBase.h"
#include "etaInterpolationAdaptiveBins.h"

2
slsDetectorCalibration/interpolations/etaInterpolationPosXY.h
View File

@ -3,7 +3,7 @@
#ifndef ETA_INTERPOLATION_POSXY_H
#define ETA_INTERPOLATION_POSXY_H
//#include "sls/tiffIO.h"
//#include "tiffIO.h"
#include "eta2InterpolationBase.h"
#include "eta3InterpolationBase.h"
#include "etaInterpolationBase.h"

2
slsDetectorCalibration/interpolations/etaInterpolationRandomBins.h
View File

@ -3,7 +3,7 @@
#ifndef ETA_INTERPOLATION_RANDOMBINS_H
#define ETA_INTERPOLATION_RANDOMBINS_H
#include "sls/tiffIO.h"
#include "tiffIO.h"
//#include "etaInterpolationBase.h"
#include "etaInterpolationPosXY.h"
#include <algorithm>

22
slsDetectorCalibration/interpolations/noInterpolation.h
View File

@ -78,20 +78,20 @@ class noInterpolation : public slsInterpolation {
};
//////////////////////////////////////////////////////////////////////////////////////
/* virtual int addToFlatField(double *cluster, double &etax, double &etay) { */
/* return 0; */
/* }; */
virtual int addToFlatField(double *cluster, double &etax, double &etay) {
return 0;
};
/* virtual int addToFlatField(int *cluster, double &etax, double &etay) { */
/* return 0; */
/* }; */
virtual int addToFlatField(int *cluster, double &etax, double &etay) {
return 0;
};
virtual int addToFlatFieldDistribution(double etax, double etay) { return 0; };
virtual int addToFlatField(double etax, double etay) { return 0; };
/* virtual int addToFlatField(double totquad, int quad, double *cl, */
/* double &etax, double &etay) { */
/* return 0; */
/* }; */
virtual int addToFlatField(double totquad, int quad, double *cl,
double &etax, double &etay) {
return 0;
};
virtual int addToFlatField(double totquad, int quad, int *cl, double &etax,
double &etay) {

26
slsDetectorCalibration/interpolations/slsInterpolation.h
View File

@ -5,7 +5,7 @@
#include <cstdlib>
#ifndef MY_TIFF_IO_H
#include "sls/tiffIO.h"
#include "tiffIO.h"
#endif
#ifndef DEF_QUAD
@ -175,31 +175,29 @@ class slsInterpolation {
return hint;
};
//virtual int addToFlatField(double *cluster, double &etax, double &etay) = 0;
//virtual int addToFlatField(int *cluster, double &etax, double &etay) = 0;
virtual int addToFlatField(double *cluster, double &etax, double &etay) = 0;
virtual int addToFlatField(int *cluster, double &etax, double &etay) = 0;
virtual int addToFlatField(double totquad, int quad, int *cl, double &etax,
double &etay) = 0;
//virtual int addToFlatField(double totquad, int quad, double *cluster,
// double &etax, double &etay) = 0;
virtual int addToFlatFieldDistribution(double etax, double etay) = 0;
virtual int addToFlatField(double totquad, int quad, double *cluster,
double &etax, double &etay) = 0;
virtual int addToFlatField(double etax, double etay) = 0;
virtual int *getFlatFieldDistribution() { return NULL; };
virtual int *setFlatField(int *h, int nbx = -1, int nby = -1,
double emin = -1,
virtual int *getFlatField() { return NULL; };
virtual int *setFlatField(int *h, int nb = -1, double emin = -1,
double emax = -1) {
return NULL;
};
virtual void *writeFlatField(const char *imgname) { return NULL; };
virtual void *readFlatField(const char *imgname,
virtual void *readFlatField(const char *imgname, int nb = -1,
double emin = 1, double emax = 0) {
return NULL;
};
virtual int *getFlatField(int &nbx, int &nby, double &emin, double &emax) {
nbx = 0;
nby=0;
virtual int *getFlatField(int &nb, double &emin, double &emax) {
nb = 0;
emin = 0;
emax = 0;
return getFlatFieldDistribution();
return getFlatField();
};
virtual void resetFlatField() = 0;

2
slsDetectorCalibration/jungfrauExecutables/jungfrauZmqProcess.cpp
View File

@ -23,7 +23,7 @@
#endif
#include "moench03CommonMode.h"
#include "moench03GhostSummation.h"
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <fstream>
#include <iomanip>
#include <sstream>

2
slsDetectorCalibration/moench03CommonMode.h
View File

@ -20,7 +20,7 @@ class commonModeSubtractionColumn : public commonModeSubtraction {
mean2[iroi] += val * val;
nCm[iroi]++;
if (nCm[iroi] > rows)
std::cout << "Too many pixels added " << nCm[iroi] << std::endl;
cout << "Too many pixels added " << nCm[iroi] << endl;
/* if (ix==10 && iy<20) */
/* cout << " ** "<<val << " " << mean[iroi] << " " <<
* nCm[iroi] << " " << getCommonMode(ix, iy) << endl; */

69
slsDetectorCalibration/moenchExecutables/CMakeLists.txt
View File

@ -1,52 +1,57 @@
# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
find_package(TIFF REQUIRED)
set(MOENCH_EXECUTABLES)
#Moench ZMQ
add_executable(moench03ZmqProcess moenchZmqProcess.cpp)
target_compile_definitions(moench03ZmqProcess PRIVATE NEWZMQ INTERP)
list(APPEND MOENCH_EXECUTABLES moench03ZmqProcess)
#Moench HighZ ZMQ
add_executable(moenchHighZZmqProcess moenchZmqProcess.cpp)
target_compile_definitions(moenchHighZZmqProcess PRIVATE NEWZMQ INTERP HIGHZ)
list(APPEND MOENCH_EXECUTABLES moenchHighZZmqProcess)
add_executable(moenchZmqProcess moenchZmqProcess.cpp ../tiffIO.cpp)
target_compile_definitions(moenchZmqProcess PRIVATE NEWZMQ INTERP)
list(APPEND MOENCH_EXECUTABLES moenchZmqProcess)
#Moench04 ZMQ
add_executable(moench04ZmqProcess moenchZmqProcess.cpp)
add_executable(moench04ZmqProcess moenchZmqProcess.cpp ../tiffIO.cpp)
target_compile_definitions(moench04ZmqProcess PRIVATE NEWZMQ INTERP MOENCH04)
list(APPEND MOENCH_EXECUTABLES moench04ZmqProcess)
#OFFLINE Processing?
add_executable(moench03RawDataProcess moenchRawDataProcess.cpp)
target_compile_definitions(moench03RawDataProcess PRIVATE)
list(APPEND MOENCH_EXECUTABLES moench03RawDataProcess)
add_executable(moenchClusterFinder moench03ClusterFinder.cpp ../tiffIO.cpp)
target_compile_definitions(moenchClusterFinder PRIVATE SAVE_ALL NEWRECEIVER)
list(APPEND MOENCH_EXECUTABLES moenchClusterFinder)
add_executable(moenchHighZRawDataProcess moenchRawDataProcess.cpp)
target_compile_definitions(moenchHighZRawDataProcess PRIVATE HIGHZ)
list(APPEND MOENCH_EXECUTABLES moenchHighZRawDataProcess)
add_executable(moenchClusterFinderHighZ moench03ClusterFinder.cpp ../tiffIO.cpp)
target_compile_definitions(moenchClusterFinderHighZ PRIVATE SAVE_ALL NEWRECEIVER HIGHZ)
list(APPEND MOENCH_EXECUTABLES moenchClusterFinderHighZ)
add_executable(moench04RawDataProcess moenchRawDataProcess.cpp)
target_compile_definitions(moench04RawDataProcess PRIVATE MOENCH04)
list(APPEND MOENCH_EXECUTABLES moench04RawDataProcess)
add_executable(moenchMakeEta moench03Interpolation.cpp ../tiffIO.cpp)
target_compile_definitions(moenchMakeEta PRIVATE FF)
list(APPEND MOENCH_EXECUTABLES moenchMakeEta)
#interpolation stuff
add_executable(moench03MakeEta moench03Interpolation.cpp)
target_compile_definitions(moench03MakeEta PRIVATE FF)
list(APPEND MOENCH_EXECUTABLES moench03MakeEta)
add_executable(moench03Interpolation moench03Interpolation.cpp)
add_executable(moenchInterpolation moench03Interpolation.cpp ../tiffIO.cpp)
#no compile defs
list(APPEND MOENCH_EXECUTABLES moench03Interpolation)
list(APPEND MOENCH_EXECUTABLES moenchInterpolation)
add_executable(moench03NoInterpolation moench03NoInterpolation.cpp)
add_executable(moenchNoInterpolation moench03NoInterpolation.cpp ../tiffIO.cpp)
#no compile defs
list(APPEND MOENCH_EXECUTABLES moench03NoInterpolation)
list(APPEND MOENCH_EXECUTABLES moenchNoInterpolation)
add_executable(moenchPhotonCounter moenchPhotonCounter.cpp ../tiffIO.cpp)
target_compile_definitions(moenchPhotonCounter PRIVATE NEWRECEIVER)
list(APPEND MOENCH_EXECUTABLES moenchPhotonCounter)
add_executable(moenchAnalog moenchPhotonCounter.cpp ../tiffIO.cpp)
target_compile_definitions(moenchAnalog PRIVATE NEWRECEIVER ANALOG)
list(APPEND MOENCH_EXECUTABLES moenchAnalog)
add_executable(moenchPhotonCounterHighZ moenchPhotonCounter.cpp ../tiffIO.cpp)
target_compile_definitions(moenchPhotonCounterHighZ PRIVATE NEWRECEIVER HIGHZ)
list(APPEND MOENCH_EXECUTABLES moenchPhotonCounterHighZ)
add_executable(moenchAnalogHighZ moenchPhotonCounter.cpp ../tiffIO.cpp)
target_compile_definitions(moenchAnalogHighZ PRIVATE NEWRECEIVER ANALOG HIGHZ)
list(APPEND MOENCH_EXECUTABLES moenchAnalogHighZ)
foreach(exe ${MOENCH_EXECUTABLES})
@ -56,7 +61,6 @@ foreach(exe ${MOENCH_EXECUTABLES})
../dataStructures
../interpolations
../../slsReceiverSoftware/include/
../../slsSupportLib/include/
)
target_link_libraries(${exe}
@ -64,11 +68,10 @@ foreach(exe ${MOENCH_EXECUTABLES})
slsSupportStatic
${ZeroMQ_LIBRARIES}
pthread
tiffio
TIFF::TIFF
PRIVATE
slsProjectWarnings
slsProjectOptions
)
@ -80,6 +83,8 @@ foreach(exe ${MOENCH_EXECUTABLES})
endif()
endforeach(exe ${MOENCH_EXECUTABLES})
install(TARGETS ${MOENCH_EXECUTABLES} DESTINATION bin)

219
slsDetectorCalibration/moenchExecutables/moench03ClusterFinder.cpp Normal file
View File

@ -0,0 +1,219 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
//#include "sls/ansi.h"
#include <iostream>
//#include "moench03T1ZmqData.h"
#ifdef NEWRECEIVER
#ifndef RECT
#include "moench03T1ReceiverDataNew.h"
#endif
#ifdef RECT
#include "moench03T1ReceiverDataNewRect.h"
#endif
#endif
#ifdef CSAXS_FP
#include "moench03T1ReceiverData.h"
#endif
#ifdef OLDDATA
#include "moench03Ctb10GbT1Data.h"
#endif
#ifdef REORDERED
#include "moench03T1ReorderedData.h"
#endif
// #include "interpolatingDetector.h"
//#include "etaInterpolationPosXY.h"
// #include "linearInterpolation.h"
// #include "noInterpolation.h"
#include "multiThreadedAnalogDetector.h"
#include "singlePhotonDetector.h"
//#include "interpolatingDetector.h"
#include <fstream>
#include <map>
#include <stdio.h>
#include <sys/stat.h>
#include <ctime>
using namespace std;
int main(int argc, char *argv[]) {
if (argc < 6) {
cout << "Usage is " << argv[0] << "indir outdir fname runmin runmax "
<< endl;
return 1;
}
int p = 10000;
int fifosize = 1000;
int nthreads = 1;
int nsubpix = 25;
int etabins = nsubpix * 10;
double etamin = -1, etamax = 2;
int csize = 3;
int nx = 400, ny = 400;
int save = 1;
int nsigma = 5;
int nped = 1000;
int ndark = 100;
int ok;
int iprog = 0;
#ifdef NEWRECEIVER
#ifdef RECT
cout << "Should be rectangular!" << endl;
#endif
moench03T1ReceiverDataNew *decoder = new moench03T1ReceiverDataNew();
cout << "RECEIVER DATA WITH ONE HEADER!" << endl;
#endif
#ifdef CSAXS_FP
moench03T1ReceiverData *decoder = new moench03T1ReceiverData();
cout << "RECEIVER DATA WITH ALL HEADERS!" << endl;
#endif
#ifdef OLDDATA
moench03Ctb10GbT1Data *decoder = new moench03Ctb10GbT1Data();
cout << "OLD RECEIVER DATA!" << endl;
#endif
#ifdef REORDERED
moench03T1ReorderedData *decoder = new moench03T1ReorderedData();
cout << "REORDERED DATA!" << endl;
#endif
decoder->getDetectorSize(nx, ny);
cout << "nx " << nx << " ny " << ny << endl;
// moench03T1ZmqData *decoder=new moench03T1ZmqData();
singlePhotonDetector *filter =
new singlePhotonDetector(decoder, csize, nsigma, 1, 0, nped, 200);
// char tit[10000];
cout << "filter " << endl;
// filter->readPedestals("/scratch/ped_100.tiff");
// interp->readFlatField("/scratch/eta_100.tiff",etamin,etamax);
// cout << "filter "<< endl;
int size = 327680; ////atoi(argv[3]);
int *image;
// int* image =new int[327680/sizeof(int)];
filter->newDataSet();
int ff, np;
int dsize = decoder->getDataSize();
cout << " data size is " << dsize;
char data[dsize];
ifstream filebin;
char *indir = argv[1];
char *outdir = argv[2];
char *fformat = argv[3];
int runmin = atoi(argv[4]);
int runmax = atoi(argv[5]);
char fname[10000];
char outfname[10000];
char imgfname[10000];
char pedfname[10000];
// strcpy(pedfname,argv[6]);
char fn[10000];
std::time_t end_time;
FILE *of = NULL;
cout << "input directory is " << indir << endl;
cout << "output directory is " << outdir << endl;
cout << "fileformat is " << fformat << endl;
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
char *buff;
multiThreadedAnalogDetector *mt =
new multiThreadedAnalogDetector(filter, nthreads, fifosize);
mt->setDetectorMode(ePhotonCounting);
mt->setFrameMode(eFrame);
mt->StartThreads();
mt->popFree(buff);
cout << "mt " << endl;
int ifr = 0;
for (int irun = runmin; irun < runmax; irun++) {
sprintf(fn, fformat, irun);
sprintf(fname, "%s/%s.raw", indir, fn);
sprintf(outfname, "%s/%s.clust", outdir, fn);
sprintf(imgfname, "%s/%s.tiff", outdir, fn);
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
cout << fname << " " << outfname << " " << imgfname << endl;
filebin.open((const char *)(fname), ios::in | ios::binary);
// //open file
if (filebin.is_open()) {
of = fopen(outfname, "w");
if (of) {
mt->setFilePointer(of);
// cout << "file pointer set " << endl;
} else {
cout << "Could not open " << outfname << " for writing "
<< endl;
mt->setFilePointer(NULL);
return 1;
}
// //while read frame
ff = -1;
while (decoder->readNextFrame(filebin, ff, np, buff)) {
// cout << "*"<<ifr++<<"*"<<ff<< endl;
// cout << ff << " " << np << endl;
// //push
// for (int ix=0; ix<400; ix++)
// for (int iy=0; iy<400; iy++) {
// if (decoder->getChannel(buff, ix, iy)<3000 ||
// decoder->getChannel(buff, ix, iy)>8000) {
// cout << ifr << " " << ff << " " << ix << " " << iy <<
// " " << decoder->getChannel(buff, ix, iy) << endl ;
// }
// }
mt->pushData(buff);
// // //pop
mt->nextThread();
// // // cout << " " << (void*)buff;
mt->popFree(buff);
ifr++;
if (ifr % 10000 == 0)
cout << ifr << " " << ff << endl;
ff = -1;
}
cout << "--" << endl;
filebin.close();
// //close file
// //join threads
while (mt->isBusy()) {
;
} // wait until all data are processed from the queues
if (of)
fclose(of);
mt->writeImage(imgfname);
mt->clearImage();
std::time(&end_time);
cout << std::ctime(&end_time) << endl;
} else
cout << "Could not open " << fname << " for reading " << endl;
}
return 0;
}

46
slsDetectorCalibration/moenchExecutables/moench03Interpolation.cpp
View File

@ -47,6 +47,7 @@ int main(int argc, char *argv[]) {
#endif
int iarg = 4;
char infname[10000];
char fname[10000];
char outfname[10000];
#ifndef FF
iarg = 4;
@ -73,17 +74,18 @@ int main(int argc, char *argv[]) {
int etabins = 1000; // nsubpix*2*100;
double etamin = -1, etamax = 2;
// double etamin=-0.1, etamax=1.1;
// double eta3min = -2, eta3max = 2;
double eta3min = -2, eta3max = 2;
int quad;
double sum, totquad;
double sDum[2][2];
double etax, etay;
// double eta3x, eta3y, int3_x, int3_y, noint_x, noint_y;
double etax, etay, int_x, int_y;
double eta3x, eta3y, int3_x, int3_y, noint_x, noint_y;
int ok;
int f0 = -1;
int ix, iy, isx, isy;
int nframes = 0, lastframe = -1;
//double d_x, d_y, res = 5, xx, yy;
int nph = 0, totph = 0;
//badph = 0,
double d_x, d_y, res = 5, xx, yy;
int nph = 0, badph = 0, totph = 0;
FILE *f = NULL;
#ifdef DOUBLE_SPH
@ -94,8 +96,7 @@ int main(int argc, char *argv[]) {
single_photon_hit cl(3, 3);
#endif
//int f0 = -1;
// int nSubPixels = nsubpix;
int nSubPixels = nsubpix;
#ifndef NOINTERPOLATION
eta2InterpolationPosXY *interp =
new eta2InterpolationPosXY(NC, NR, nsubpix, etabins, etamin, etamax);
@ -108,12 +109,7 @@ int main(int argc, char *argv[]) {
#endif
#ifndef FF
int quad;
#ifndef NOINTERPOLATION
char fname[10000];
int ok;
double int_x, int_y;
int *img;
cout << "read ff " << argv[2] << endl;
sprintf(fname, "%s", argv[2]);
interp->readFlatField(fname);
@ -125,6 +121,7 @@ int main(int argc, char *argv[]) {
cout << "Will write eta file " << argv[2] << endl;
#endif
int *img;
float *totimg = new float[NC * NR * nsubpix * nsubpix];
for (ix = 0; ix < NC; ix++) {
for (iy = 0; iy < NR; iy++) {
@ -152,7 +149,7 @@ int main(int argc, char *argv[]) {
if (f) {
cout << infname << endl;
nframes = 0;
//f0 = -1;
f0 = -1;
while (cl.read(f)) {
totph++;
@ -160,20 +157,13 @@ int main(int argc, char *argv[]) {
lastframe = cl.iframe;
// cout << cl.iframe << endl;
// f0=cl.iframe;
// if (nframes == 0)
// f0 = lastframe;
if (nframes == 0)
f0 = lastframe;
nframes++;
}
// quad=interp->calcQuad(cl.get_cluster(), sum, totquad, sDum);
#ifndef FF
quad = interp->calcEta(cl.get_cluster(), etax, etay, sum,
totquad, sDum);
#endif
#ifdef FF
interp->calcEta(cl.get_cluster(), etax, etay, sum,
totquad, sDum);
#endif
if (sum > cmin && totquad / sum > 0.8 && totquad / sum < 1.2 &&
sum < cmax) {
nph++;
@ -209,7 +199,7 @@ int main(int argc, char *argv[]) {
// if (cl.x>50)
// #endif
// if (etax!=0 && etay!=0 && etax!=1 && etay!=1)
interp->addToFlatFieldDistribution(etax, etay);
interp->addToFlatField(etax, etay);
// if (etax==0 || etay==0) cout << cl.x << " " << cl.y <<
// endl;
@ -252,9 +242,9 @@ int main(int argc, char *argv[]) {
}
}
}
// cout << "Read " << nframes << " frames (first frame: " << f0
// << " last frame: " << lastframe << " delta:" << lastframe - f0
// << ") nph=" << nph << endl;
cout << "Read " << nframes << " frames (first frame: " << f0
<< " last frame: " << lastframe << " delta:" << lastframe - f0
<< ") nph=" << nph << endl;
interp->clearInterpolatedImage();
#endif

119
slsDetectorCalibration/moenchExecutables/moenchRawDataProcess.cpp → slsDetectorCalibration/moenchExecutables/moenchPhotonCounter.cpp
View File

@ -2,33 +2,43 @@
// Copyright (C) 2021 Contributors to the SLS Detector Package
//#include "sls/ansi.h"
#include <iostream>
#undef CORR
#define CORR
#define C_GHOST 0.0004
#define CM_ROWS 50
#define RAWDATA
//#define VERSION_V1
#ifndef MOENCH04
//#include "moench03T1ZmqData.h"
#ifdef NEWRECEIVER
#ifndef RECT
#include "moench03T1ReceiverDataNew.h"
#endif
#endif
#ifdef RECT
#include "moench03T1ReceiverDataNewRect.h"
#endif
#ifdef MOENCH04
#include "moench04CtbZmq10GbData.h"
#endif
#ifdef CSAXS_FP
#include "moench03T1ReceiverData.h"
#endif
#ifdef OLDDATA
#include "moench03Ctb10GbT1Data.h"
#endif
// #include "interpolatingDetector.h"
//#include "etaInterpolationPosXY.h"
// #include "linearInterpolation.h"
// #include "noInterpolation.h"
#include "multiThreadedCountingDetector.h"
//#include "multiThreadedAnalogDetector.h"
#include "moench03CommonMode.h"
#include "moench03GhostSummation.h"
#include "singlePhotonDetector.h"
//#include "interpolatingDetector.h"
#include <fstream>
#include <map>
@ -42,7 +52,7 @@ int main(int argc, char *argv[]) {
if (argc < 4) {
cout << "Usage is " << argv[0]
<< "indir outdir fname(no extension) [runmin] [runmax] [pedfile (raw or tiff)] [threshold] "
<< "indir outdir fname [runmin] [runmax] [pedfile] [threshold] "
"[nframes] [xmin xmax ymin ymax] [gainmap]"
<< endl;
cout << "threshold <0 means analog; threshold=0 means cluster finder; "
@ -54,39 +64,55 @@ int main(int argc, char *argv[]) {
return 1;
}
int p = 10000;
int fifosize = 1000;
int nthreads = 10;
int nsubpix = 25;
int etabins = nsubpix * 10;
double etamin = -1, etamax = 2;
int csize = 3;
int save = 1;
int nsigma = 5;
int nped = 10000;
int ndark = 100;
int ok;
int iprog = 0;
int cf = 0;
#ifdef NEWRECEIVER
#ifdef RECT
cout << "Should be rectangular but now it will crash! No data structure defined!" << endl;
cout << "Should be rectangular!" << endl;
#endif
#ifndef MOENCH04
moench03T1ReceiverDataNew *decoder = new moench03T1ReceiverDataNew();
cout << "MOENCH03!" << endl;
cout << "RECEIVER DATA WITH ONE HEADER!" << endl;
#endif
#ifdef MOENCH04
moench04CtbZmq10GbData *decoder = new moench04CtbZmq10GbData();
cout << "MOENCH04!" << endl;
#ifdef CSAXS_FP
moench03T1ReceiverData *decoder = new moench03T1ReceiverData();
cout << "RECEIVER DATA WITH ALL HEADERS!" << endl;
#endif
#ifdef OLDDATA
moench03Ctb10GbT1Data *decoder = new moench03Ctb10GbT1Data();
cout << "OLD RECEIVER DATA!" << endl;
#endif
int nx = 400, ny = 400;
decoder->getDetectorSize(nx, ny);
#ifdef CORR
int ncol_cm = CM_ROWS;
double xt_ghost = C_GHOST;
#endif
moench03CommonMode *cm = NULL;
moench03GhostSummation *gs;
double *gainmap = NULL;
//float *gm;
float *gm;
int size = 327680; ////atoi(argv[3]);
int *image;
// int* image =new int[327680/sizeof(int)];
int ff, np;
// cout << " data size is " << dsize;
@ -143,6 +169,7 @@ int main(int argc, char *argv[]) {
char fname[10000];
char imgfname[10000];
char cfname[10000];
char fn[10000];
std::time_t end_time;
@ -159,6 +186,19 @@ int main(int argc, char *argv[]) {
cout << "Nframes is " << nframes << endl;
uint32_t nnx, nny;
double *gmap;
// if (gainfname) {
// gm=ReadFromTiff(gainfname, nny, nnx);
// if (gm && nnx==nx && nny==ny) {
// gmap=new double[nx*ny];
// for (int i=0; i<nx*ny; i++) {
// gmap[i]=gm[i];
// }
// delete gm;
// } else
// cout << "Could not open gain map " << gainfname << endl;
// }
#ifdef CORR
cout << "Applying common mode " << ncol_cm << endl;
@ -180,15 +220,21 @@ int main(int argc, char *argv[]) {
} else
thr = 0.15 * thr;
filter->newDataSet();
//int dsize = decoder->getDataSize();
int dsize = decoder->getDataSize();
char data[dsize];
//#ifndef ANALOG
if (thr > 0) {
cout << "threshold is " << thr << endl;
//#ifndef ANALOG
filter->setThreshold(thr);
//#endif
cf = 0;
} else
cf = 1;
//#endif
filter->setROI(xmin, xmax, ymin, ymax);
std::time(&end_time);
@ -223,7 +269,7 @@ int main(int argc, char *argv[]) {
int ifr = 0;
double *ped=new double[nx * ny];//, *ped1;
double ped[nx * ny], *ped1;
if (pedfile) {
@ -231,10 +277,10 @@ int main(int argc, char *argv[]) {
sprintf(imgfname, "%s/pedestals.tiff", outdir);
if (string(pedfile).find(".tif") == std::string::npos) {
sprintf(fname, "%s", pedfile);
sprintf(fname, "%s.raw", pedfile);
cout << fname << endl;
std::time(&end_time);
//cout << "aaa" << std::ctime(&end_time) << endl;
cout << "aaa" << std::ctime(&end_time) << endl;
mt->setFrameMode(ePedestal);
// sprintf(fn,fformat,irun);
@ -264,12 +310,18 @@ int main(int argc, char *argv[]) {
<< " for reading " << endl;
} else {
float *pp = ReadFromTiff(pedfile, nny, nnx);
if (pp && (int)nnx == nx && (int)nny == ny) {
if (pp && nnx == nx && nny == ny) {
for (int i = 0; i < nx * ny; i++) {
ped[i] = pp[i];
}
delete[] pp;
mt->setPedestal(ped);
// ped1=mt->getPedestal();
// for (int i=0; i<nx*ny; i++) {
// cout << ped[i]<<"/"<<ped1[i] << " " ;
// }
cout << "Pedestal set from tiff file " << pedfile << endl;
} else {
cout << "Could not open pedestal tiff file " << pedfile
@ -290,11 +342,11 @@ int main(int argc, char *argv[]) {
cout << "DATA ";
// sprintf(fn,fformat,irun);
sprintf(ffname, "%s/%s.raw", indir, fformat);
sprintf(fname, (const char*)ffname, irun);
sprintf(fname, ffname, irun);
sprintf(ffname, "%s/%s.tiff", outdir, fformat);
sprintf(imgfname, (const char*)ffname, irun);
sprintf(imgfname, ffname, irun);
sprintf(ffname, "%s/%s.clust", outdir, fformat);
sprintf(cfname, (const char*)ffname, irun);
sprintf(cfname, ffname, irun);
cout << fname << " ";
cout << imgfname << endl;
std::time(&end_time);
@ -323,10 +375,13 @@ int main(int argc, char *argv[]) {
ifr = 0;
while (decoder->readNextFrame(filebin, ff, np, buff)) {
if (np == 40) {
// cout << "*"<<ifr++<<"*"<<ff<< endl;
// cout << ff << " " << np << endl;
// //push
mt->pushData(buff);
// // //pop
mt->nextThread();
// // // cout << " " << (void*)buff;
mt->popFree(buff);
ifr++;
@ -334,9 +389,15 @@ int main(int argc, char *argv[]) {
cout << ifr << " " << ff << endl;
if (nframes > 0) {
if (ifr % nframes == 0) {
// The name has an additional "_fXXXXX" at the end,
// where "XXXXX" is the initial frame number of the
// image (0,1000,2000...)
sprintf(ffname, "%s/%s_f%05d.tiff", outdir, fformat,
ifile);
sprintf(imgfname, (const char*)ffname, irun);
sprintf(imgfname, ffname, irun);
// cout << "Writing tiff to " << imgfname << " " <<
// thr1 << endl;
mt->writeImage(imgfname, thr1);
mt->clearImage();
ifile++;
@ -348,16 +409,18 @@ int main(int argc, char *argv[]) {
}
cout << "--" << endl;
filebin.close();
// //close file
// //join threads
while (mt->isBusy()) {
;
}
if (nframes >= 0) {
if (nframes > 0) {
sprintf(ffname, "%s/%s_f%05d.tiff", outdir, fformat, ifile);
sprintf(imgfname, (const char*)ffname, irun);
sprintf(imgfname, ffname, irun);
} else {
sprintf(ffname, "%s/%s.tiff", outdir, fformat);
sprintf(imgfname, (const char*)ffname, irun);
sprintf(imgfname, ffname, irun);
}
cout << "Writing tiff to " << imgfname << " " << thr1 << endl;
mt->writeImage(imgfname, thr1);

38
slsDetectorCalibration/moenchExecutables/moenchZmqProcess.cpp
View File

@ -1,9 +1,9 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
//#define WRITE_QUAD
//#define DEVELOPER
#define DEVELOPER
#undef CORR
//#undef MOENCH04
#undef MOENCH04
#define C_GHOST 0.0004
@ -11,21 +11,21 @@
#include "sls/ZmqSocket.h"
#include "sls/sls_detector_defs.h"
#ifndef RECT
#ifndef MOENCH04
//#ifndef RECT
#include "moench03T1ZmqDataNew.h"
//#endif
//#ifdef RECT
//#include "moench03T1ZmqDataNewRect.h"
//#endif
#endif
#ifdef MOENCH04
#include "moench04CtbZmq10GbData.h"
#endif
#endif
#ifdef RECT
#include "moench03T1ZmqDataNewRect.h"
#endif
#include "moench03CommonMode.h"
#include "moench03GhostSummation.h"
#include "sls/tiffIO.h"
#include "tiffIO.h"
#include <fstream>
#include <iomanip>
#include <sstream>
@ -156,7 +156,7 @@ int main(int argc, char *argv[]) {
int send_something = 0;
int maxSize = npx * npy * 2; // 32*2*8192;//5000;//atoi(argv[3]);
int size = maxSize+sizeof(int); // 32*2*5000;
int size = maxSize; // 32*2*5000;
// int multisize=size;
// int dataSize=size;
@ -305,10 +305,10 @@ int main(int argc, char *argv[]) {
// header variables
uint64_t acqIndex = -1;
uint64_t frameIndex = -1;
// #ifdef MOENCH_BRANCH
// uint32_t subFrameIndex = -1;
// int *flippedData = 0;
// #endif
#ifdef MOENCH_BRANCH
uint32_t subFrameIndex = -1;
int *flippedData = 0;
#endif
uint64_t subframes = 0;
// uint64_t isubframe=0;
@ -502,13 +502,13 @@ int main(int argc, char *argv[]) {
}
#ifdef INTERP
else if (fMode == eFlat) {
int nbx, nby;
int nb;
double emi = 0, ema = 1;
int *ff = mt->getFlatField(nbx, nby, emi, ema);
nnx = nbx;
nny = nby;
dout = new int32_t[nbx * nby];
for (int ix = 0; ix < nbx * nby; ix++) {
int *ff = mt->getFlatField(nb, emi, ema);
nnx = nb;
nny = nb;
dout = new int32_t[nb * nb];
for (int ix = 0; ix < nb * nb; ix++) {
dout[ix] = ff[ix];
}
}

12
slsDetectorCalibration/multiThreadedAnalogDetector.h
View File

@ -182,10 +182,10 @@ class threadedAnalogDetector {
interp->prepareInterpolation(ok);
}
virtual int *getFlatFieldDistribution() {
virtual int *getFlatField() {
slsInterpolation *interp = (det)->getInterpolation();
if (interp)
return interp->getFlatFieldDistribution();
return interp->getFlatField();
else
return NULL;
}
@ -208,19 +208,19 @@ class threadedAnalogDetector {
return NULL;
}
void *readFlatField(const char *imgname, double emin = 1,
void *readFlatField(const char *imgname, int nb = -1, double emin = 1,
double emax = 0) {
slsInterpolation *interp = (det)->getInterpolation();
if (interp)
return interp->readFlatField(imgname, emin, emax);
return interp->readFlatField(imgname, nb, emin, emax);
return NULL;
}
virtual int *getFlatField(int &nbx, int &nby, double &emi, double &ema) {
virtual int *getFlatField(int &nb, double emi, double ema) {
slsInterpolation *interp = (det)->getInterpolation();
int *ff = NULL;
if (interp) {
ff = interp->getFlatField(nbx, nby, emi, ema);
ff = interp->getFlatField(nb, emi, ema);
}
return ff;
}

10
slsDetectorCalibration/multiThreadedInterpolatingDetector.h
View File

@ -25,10 +25,10 @@ class multiThreadedInterpolatingDetector
// }
}
virtual int *getFlatFieldDistribution() { return (dets[0])->getFlatFieldDistribution(); }
virtual int *getFlatField() { return (dets[0])->getFlatField(); }
virtual int *getFlatField(int &nbx, int &nby, double &emi, double &ema) {
return (dets[0])->getFlatField(nbx, nby, emi, ema);
virtual int *getFlatField(int &nb, double emi, double ema) {
return (dets[0])->getFlatField(nb, emi, ema);
}
virtual int *setFlatField(int *h = NULL, int nb = -1, double emin = 1,
@ -40,9 +40,9 @@ class multiThreadedInterpolatingDetector
return dets[0]->writeFlatField(imgname);
};
void *readFlatField(const char *imgname, double emin = 1,
void *readFlatField(const char *imgname, int nb = -1, double emin = 1,
double emax = 0) {
return (dets[0])->readFlatField(imgname, emin, emax);
return (dets[0])->readFlatField(imgname, nb, emin, emax);
};
/* virtual int setNSubPixels(int ns) { return

22
slsDetectorCalibration/singlePhotonDetector.h
View File

@ -429,15 +429,10 @@ class singlePhotonDetector : public analogDetector<uint16_t> {
for (ic = -(clusterSize / 2); ic < (clusterSize / 2) + 1;
ic++) {
if ((iy + ir) >= 0 && (iy + ir) < ny &&
(ix + ic) >= 0 && (ix + ic) < nx) {
if ((iy + ir) >= iy && (ix + ic) >= ix ) {
if ((iy + ir) >= iy && (iy + ir) < ny &&
(ix + ic) >= ix && (ix + ic) < nx) {
val[(iy + ir) * nx + ix + ic] =
subtractPedestal(data, ix + ic, iy + ir, cm);
}
v = &(val[(iy + ir) * nx + ix + ic]);
tot += *v;
if (ir <= 0 && ic <= 0)
@ -448,9 +443,9 @@ class singlePhotonDetector : public analogDetector<uint16_t> {
tl += *v;
if (ir >= 0 && ic >= 0)
tr += *v;
if (*v > max) //{
if (*v > max) {
max = *v;
//}
}
}
}
}
@ -518,19 +513,12 @@ class singlePhotonDetector : public analogDetector<uint16_t> {
for (ic = -(clusterSize / 2);
ic < (clusterSize / 2) + 1; ic++) {
if ((iy + ir) >= 0 && (iy + ir) < ny &&
(ix + ic) >= 0 && (ix + ic) < nx) {
(ix + ic) >= 0 && (ix + ic) < nx)
(clusters + nph)
->set_data(val[(iy + ir) * nx + ix + ic],
ic, ir);
if (val[(iy + ir) * nx + ix + ic]>max)
good=0;
}
}
}
if (good==0) {
(clusters + nph)->print();
cout << max << " " << val[iy * nx + ix] << endl;
}
good = 1;
if (eMin > 0 && tot < eMin)
good = 0;

4
slsDetectorCalibration/single_photon_hit.h
View File

@ -216,18 +216,14 @@ class single_photon_hit {
// int ix, iy;
printf("***************\n");
printf("** %d %d **\n",x,y);
for (int iy = 0; iy < dy; iy++) {
for (int ix = 0; ix < dx; ix++) {
printf("%d \t", data[ix + iy * dx]);
}
printf("\n");
}
printf("***************\n");
}
/**
assign the value to the element of the cluster matrix, with relative
coordinates where the center of the cluster is (0,0) \param v value to be

64
slsDetectorCalibration/tiffio/src/tiffIO.cpp → slsDetectorCalibration/tiffIO.cpp
View File

@ -1,12 +1,26 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#include "sls/tiffIO.h"
#ifndef MY_TIFF_IO_H
#include "tiffIO.h"
#endif
#include <iostream>
#include <tiffio.h>
using namespace std;
// #undef cbf_failnez
// #define cbf_failnez(x)
// {
// int err;
// err = (x);
// if (err) {
// fprintf(stderr,"\nCBFlib fatal error %x \n",err);
// exit(-1);
// }
// }
void *WriteToTiff(float *imgData, const char *imgname, int nrow, int ncol) {
constexpr uint32_t sampleperpixel = 1;
int sampleperpixel = 1;
// unsigned char * buff=NULL;
// tsize_t linebytes;
// cout << "--" <<endl;
TIFF *tif = TIFFOpen(imgname, "w");
if (tif) {
TIFFSetField(tif, TIFFTAG_IMAGEWIDTH, ncol);
@ -17,32 +31,50 @@ void *WriteToTiff(float *imgData, const char *imgname, int nrow, int ncol) {
TIFFSetField(tif, TIFFTAG_PLANARCONFIG, PLANARCONFIG_CONTIG);
TIFFSetField(tif, TIFFTAG_PHOTOMETRIC, PHOTOMETRIC_MINISBLACK);
TIFFSetField(tif, TIFFTAG_SAMPLEFORMAT, SAMPLEFORMAT_IEEEFP);
// linebytes = sampleperpixel*ncol;
TIFFSetField(tif, TIFFTAG_ROWSPERSTRIP,
TIFFDefaultStripSize(tif, ncol * sampleperpixel));
for (int irow = 0; irow < nrow; irow++) {
TIFFWriteScanline(tif, &imgData[irow * ncol], irow, 0);
}
TIFFClose(tif);
} else {
std::cout << "could not open file " << imgname << " for writing\n";
}
return nullptr;
}
} else
cout << "could not open file " << imgname << " for writing " << endl;
return NULL;
};
float *ReadFromTiff(const char *imgname, uint32_t &nrow, uint32_t &ncol) {
// unsigned char * buff=NULL;
TIFF *tif = TIFFOpen(imgname, "r");
if (tif) {
uint32_t bps;
uint32_t sampleperpixel = 1;
// tsize_t linebytes;
uint32_t imagelength;
TIFFGetField(tif, TIFFTAG_IMAGEWIDTH, &ncol);
TIFFGetField(tif, TIFFTAG_IMAGELENGTH, &nrow);
TIFFSetField(tif, TIFFTAG_SAMPLESPERPIXEL, sampleperpixel);
TIFFSetField(tif, TIFFTAG_BITSPERSAMPLE, &bps);
TIFFGetField(tif, TIFFTAG_IMAGELENGTH, &imagelength);
float *imgData = new float[ncol * nrow];
for (uint32_t irow = 0; irow < nrow; ++irow) {
// linebytes = sampleperpixel*ncol;
// TIFFSetField(tif, TIFFTAG_ROWSPERSTRIP, TIFFDefaultStripSize(tif,
// ncol*sampleperpixel));
for (uint32_t irow = 0; irow < nrow; irow++) {
// tiffreadscanline(tif, buf, row);
TIFFReadScanline(tif, &imgData[irow * ncol], irow);
}
TIFFClose(tif);
return imgData;
} else {
std::cout << "could not open file " << imgname << " for reading\n";
return nullptr;
}
}
} else
cout << "could not open file " << imgname << " for reading " << endl;
return NULL;
};

35
slsDetectorCalibration/tiffIO.h Normal file
View File

@ -0,0 +1,35 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#ifndef MY_TIFF_IO_H
#define MY_TIFF_IO_H
#include <fstream>
#include <iomanip>
#include <sstream>
#include <stdio.h>
#include <string>
#include <vector>
/*****************************************************************************/
//
// CBFlib must be installed to use this program
//
/*****************************************************************************/
#include <tiffio.h>
#undef cbf_failnez
#define cbf_failnez(x) \
{ \
int err; \
err = (x); \
if (err) { \
fprintf(stderr, "\nCBFlib fatal error %x \n", err); \
exit(-1); \
} \
}
void *WriteToTiff(float *imgData, const char *imgname, int nrow, int ncol);
float *ReadFromTiff(const char *imgname, uint32_t &nrow, uint32_t &ncol);
#endif

14
slsDetectorCalibration/tiffio/CMakeLists.txt
View File

@ -1,14 +0,0 @@
find_package(TIFF REQUIRED)
add_library(tiffio STATIC src/tiffIO.cpp)
target_include_directories(tiffio PUBLIC include/)
target_link_libraries(tiffio
PUBLIC
TIFF::TIFF
PRIVATE
slsProjectWarnings
slsProjectOptions
)
if(SLS_USE_TESTS)
add_subdirectory(tests)
endif()

16
slsDetectorCalibration/tiffio/include/sls/tiffIO.h
View File

@ -1,16 +0,0 @@
// SPDX-License-Identifier: LGPL-3.0-or-other
// Copyright (C) 2021 Contributors to the SLS Detector Package
#pragma once
#include <cstdint>
//Write 32bit float data to tiff file
//Always returns nullptr, prints message on failure
void *WriteToTiff(float *imgData, const char *imgname, int nrow, int ncol);
//Read 32bit float data from tiff file, returns pointer to data and sets
//image dimensions in the out parameters nrow, ncol.
//Returns nullptr on failure
//The caller is responsible to deallocate the memory that the returned
//pointer points to.
float *ReadFromTiff(const char *imgname, uint32_t &nrow, uint32_t &ncol);

5
slsDetectorCalibration/tiffio/tests/CMakeLists.txt
View File

@ -1,5 +0,0 @@
# SPDX-License-Identifier: LGPL-3.0-or-other
# Copyright (C) 2021 Contributors to the SLS Detector Package
target_sources(tests PRIVATE
${CMAKE_CURRENT_SOURCE_DIR}/test-tiffio.cpp
)

54
slsDetectorCalibration/tiffio/tests/test-tiffio.cpp
View File

@ -1,54 +0,0 @@
#include "catch.hpp"
#include "sls/tiffIO.h"
#include <cstdio>
#include <ftw.h>
#include <iostream>
#include <vector>
/* Call-back to the 'remove()' function called by nftw() */
static int remove_callback(const char *pathname,
__attribute__((unused)) const struct stat *sbuf,
__attribute__((unused)) int type,
__attribute__((unused)) struct FTW *ftwb) {
return remove(pathname);
}
TEST_CASE("Write and read back data from tiff file") {
std::vector<float> data{1, 2, 3, 4, 5, 6, 7, 8, 9};
/* Create the temporary directory */
char tmp[] = "/tmp/tmpdir.XXXXXX";
char *tmp_dirname = mkdtemp(tmp);
if (tmp_dirname == NULL) {
perror("tempdir: error: Could not create tmp directory");
CHECK(false);
}
std::string fname = std::string(tmp_dirname) + std::string("/test.tif");
std::cout << "Writing to: " << fname<< '\n';
WriteToTiff(data.data(), fname.c_str(), 3, 3);
//Readback
uint32_t nrow, ncol;
float* ptr = ReadFromTiff(fname.c_str(), nrow, ncol);
CHECK(nrow == 3);
CHECK(ncol == 3);
uint32_t size = nrow*ncol;
for (uint32_t i = 0; i!=size; ++i){
CHECK(data[i] == ptr[i]);
}
delete[] ptr;
/* Delete the temporary directory */
if (nftw(tmp_dirname, remove_callback, FOPEN_MAX,
FTW_DEPTH | FTW_MOUNT | FTW_PHYS) == -1) {
perror("tempdir: error: ");
exit(EXIT_FAILURE);
}
}

5
slsDetectorGui/forms/form_tab_settings.ui
View File

@ -97,11 +97,6 @@
<string>65535</string>
</property>
</item>
<item>
<property name="text">
<string>4095</string>
</property>
</item>
<item>
<property name="text">
<string>255</string>

3
slsDetectorGui/include/qDrawPlot.h
View File

@ -91,10 +91,8 @@ class qDrawPlot : public QWidget, private Ui::PlotObject {
void Update2dPlot();
void Update1dXYRange();
void Update2dXYRange();
void rearrangeGotthard25data(double *data);
static const int NUM_PEDESTAL_FRAMES = 20;
static const int NUM_GOTTHARD25_CHANS = 1280;
sls::Detector *det;
slsDetectorDefs::detectorType detType;
@ -166,5 +164,4 @@ class qDrawPlot : public QWidget, private Ui::PlotObject {
uint32_t pixelMask{0};
uint32_t gainMask{0};
int gainOffset{0};
bool gotthard25;
};

8
slsDetectorGui/include/qTabSettings.h
View File

@ -69,11 +69,5 @@ class qTabSettings : public QWidget, private Ui::TabSettingsObject {
enum { DYNAMIC, FORCE_SWITCH_G1, FORCE_SWITCH_G2, FIX_G1, FIX_G2, FIX_G0 };
bool isVisibleFixG0{false};
enum {
DYNAMICRANGE_32,
DYNAMICRANGE_16,
DYNAMICRANGE_12,
DYNAMICRANGE_8,
DYNAMICRANGE_4
};
enum { DYNAMICRANGE_32, DYNAMICRANGE_16, DYNAMICRANGE_8, DYNAMICRANGE_4 };
};

36
slsDetectorGui/src/qDrawPlot.cpp
View File

@ -80,10 +80,6 @@ void qDrawPlot::SetupWidgetWindow() {
fileSaveName = "Image";
}
gotthard25 = ((detType == slsDetectorDefs::GOTTHARD2 ||
detType == slsDetectorDefs::GOTTHARD) &&
det->size() == 2);
SetupPlots();
SetDataCallBack(true);
det->registerAcquisitionFinishedCallback(&(GetAcquisitionFinishedCallBack),
@ -811,11 +807,6 @@ void qDrawPlot::GetData(detectorData *data, uint64_t frameIndex,
isGainDataExtracted = false;
}
// gotthard25um rearranging
if (gotthard25) {
rearrangeGotthard25data(rawData);
}
// title and frame index titles
plotTitle =
plotTitlePrefix + QString(data->fileName.c_str()).section('/', -1);
@ -1073,8 +1064,6 @@ void qDrawPlot::toDoublePixelData(double *dest, char *source, int size,
// mythen3 / gotthard2 debugging
int discardBits = numDiscardBits;
uint16_t temp = 0;
uint8_t *src = (uint8_t *)source;
switch (dr) {
case 4:
@ -1094,19 +1083,6 @@ void qDrawPlot::toDoublePixelData(double *dest, char *source, int size,
}
break;
case 12:
for (ichan = 0; ichan < size; ++ichan) {
temp = (*src++ & 0xFF);
temp |= ((*src & 0xF) << 8u);
dest[ichan] = (double)temp;
++ichan;
temp = ((*src++ & 0xF0) >> 4u);
temp |= ((*src++ & 0xFF) << 4u);
dest[ichan] = (double)temp;
}
break;
case 16:
if (detType == slsDetectorDefs::JUNGFRAU ||
detType == slsDetectorDefs::GOTTHARD2) {
@ -1154,18 +1130,6 @@ void qDrawPlot::toDoublePixelData(double *dest, char *source, int size,
}
}
void qDrawPlot::rearrangeGotthard25data(double *data) {
const int nChans = NUM_GOTTHARD25_CHANS;
double temp[nChans * 2] = {0.0};
for (int i = 0; i != nChans; ++i) {
// master module
temp[i * 2] = data[i];
// slave module
temp[i * 2 + 1] = data[nChans + i];
}
memcpy(data, temp, nChans * 2 * sizeof(double));
}
void qDrawPlot::UpdatePlot() {
std::lock_guard<std::mutex> lock(mPlots);
LOG(logDEBUG) << "Update Plot";

18
slsDetectorGui/src/qTabSettings.cpp
View File

@ -60,19 +60,13 @@ void qTabSettings::SetupWidgetWindow() {
QStandardItemModel *model =
qobject_cast<QStandardItemModel *>(comboDynamicRange->model());
if (model) {
QModelIndex index;
QStandardItem *item;
int dr = DYNAMICRANGE_4;
for (int i = 0; i != 2; ++i) {
// disable dr 4
QModelIndex index =
model->index(dr, comboDynamicRange->modelColumn(),
index =
model->index(DYNAMICRANGE_4, comboDynamicRange->modelColumn(),
comboDynamicRange->rootModelIndex());
item = model->itemFromIndex(index);
item->setEnabled(false);
// disable dr 12
dr = DYNAMICRANGE_12;
}
}
} else if (detType == slsDetectorDefs::EIGER) {
lblDynamicRange->setEnabled(true);
@ -311,9 +305,6 @@ void qTabSettings::GetDynamicRange() {
case 16:
comboDynamicRange->setCurrentIndex(DYNAMICRANGE_16);
break;
case 12:
comboDynamicRange->setCurrentIndex(DYNAMICRANGE_12);
break;
case 8:
comboDynamicRange->setCurrentIndex(DYNAMICRANGE_8);
break;
@ -342,9 +333,6 @@ void qTabSettings::SetDynamicRange(int index) {
case DYNAMICRANGE_16:
det->setDynamicRange(16);
break;
case DYNAMICRANGE_12:
det->setDynamicRange(12);
break;
case DYNAMICRANGE_8:
det->setDynamicRange(8);
break;

8
slsDetectorServers/ctbDetectorServer/RegisterDefs.h
View File

@ -165,9 +165,11 @@
#define PATTERN_OUT_LSB_REG (0x20 << MEM_MAP_SHIFT)
#define PATTERN_OUT_MSB_REG (0x21 << MEM_MAP_SHIFT)
/* Frame number of next acquisition register (64 bit register) */
#define NEXT_FRAME_NUMB_LOCAL_LSB_REG (0x22 << MEM_MAP_SHIFT)
#define NEXT_FRAME_NUMB_LOCAL_MSB_REG (0x23 << 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_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)

BIN
slsDetectorServers/ctbDetectorServer/bin/ctbDetectorServer_developer
View File

Binary file not shown.

59
slsDetectorServers/ctbDetectorServer/slsDetectorFunctionList.c
View File

@ -45,6 +45,7 @@ char initErrorMessage[MAX_STR_LENGTH];
#ifdef VIRTUAL
pthread_t pthread_virtual_tid;
int64_t virtual_currentFrameNumber = 2;
#endif
// 1g readout
@ -433,22 +434,17 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
#endif
}
initCheckDone = 1;
}
/* set up detector */
@ -585,7 +581,6 @@ void setupDetector() {
LOG(logERROR, ("%s\n\n", initErrorMessage));
initError = FAIL;
}
setNextFrameNumber(DEFAULT_STARTING_FRAME_NUMBER);
}
int updateDatabytesandAllocateRAM() {
@ -707,16 +702,8 @@ void resetPeripheral() {
}
/* set parameters - dr, adcenablemask */
int setDynamicRange(int dr) {
if (dr == 16)
return OK;
return FAIL;
}
int getDynamicRange(int *retval) {
*retval = DYNAMIC_RANGE;
return OK;
}
int setDynamicRange(int dr) { return DYNAMIC_RANGE; }
int setADCEnableMask(uint32_t mask) {
if (mask == 0u) {
@ -911,24 +898,6 @@ int getReadoutMode() {
}
/* parameters - timer */
int setNextFrameNumber(uint64_t value) {
LOG(logINFO,
("Setting next frame number: %llu\n", (long long unsigned int)value));
setU64BitReg(value, NEXT_FRAME_NUMB_LOCAL_LSB_REG,
NEXT_FRAME_NUMB_LOCAL_MSB_REG);
#ifndef VIRTUAL
// for 1g udp interface
setUDPFrameNumber(value);
#endif
return OK;
}
int getNextFrameNumber(uint64_t *retval) {
*retval = getU64BitReg(NEXT_FRAME_NUMB_LOCAL_LSB_REG,
NEXT_FRAME_NUMB_LOCAL_MSB_REG);
return OK;
}
void setNumFrames(int64_t val) {
if (val > 0) {
LOG(logINFO, ("Setting number of frames %lld\n", (long long int)val));
@ -1523,8 +1492,6 @@ enum timingMode getTiming() {
/* configure mac */
int getNumberofUDPInterfaces() { return 1; }
void calcChecksum(udp_header *udp) {
int count = IP_HEADER_SIZE;
long int sum = 0;
@ -2031,14 +1998,11 @@ void *start_timer(void *arg) {
}
// Send data
uint64_t frameNr = 0;
getNextFrameNumber(&frameNr);
// loop over number of frames
for (int iframes = 0; iframes != numFrames; ++iframes) {
for (int frameNr = 0; frameNr != numFrames; ++frameNr) {
// check if manual stop
if (sharedMemory_getStop() == 1) {
setNextFrameNumber(frameNr + iframes + 1);
break;
}
@ -2057,7 +2021,7 @@ void *start_timer(void *arg) {
sls_detector_header *header = (sls_detector_header *)(packetData);
header->detType = (uint16_t)myDetectorType;
header->version = SLS_DETECTOR_HEADER_VERSION - 1;
header->frameNumber = frameNr + iframes;
header->frameNumber = virtual_currentFrameNumber;
header->packetNumber = i;
header->modId = 0;
header->row = detPos[X];
@ -2070,18 +2034,19 @@ void *start_timer(void *arg) {
sendUDPPacket(0, 0, packetData, packetSize);
}
LOG(logINFO, ("Sent frame: %d [%lld]\n", iframes, frameNr + iframes));
LOG(logINFO, ("Sent frame: %d [%lld]\n", frameNr,
(long long unsigned int)virtual_currentFrameNumber));
clock_gettime(CLOCK_REALTIME, &end);
int64_t timeNs =
((end.tv_sec - begin.tv_sec) * 1E9 + (end.tv_nsec - begin.tv_nsec));
// sleep for (period - exptime)
if (iframes < numFrames) { // if there is a next frame
if (frameNr < numFrames) { // if there is a next frame
if (periodNs > timeNs) {
usleep((periodNs - timeNs) / 1000);
}
}
setNextFrameNumber(frameNr + numFrames);
++virtual_currentFrameNumber;
}
closeUDPSocket(0);

3
slsDetectorServers/ctbDetectorServer/slsDetectorServer_defs.h
View File

@ -109,7 +109,6 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
/** Default Parameters */
#define DEFAULT_DATA_BYTES (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
#define DEFAULT_STARTING_FRAME_NUMBER (1)
#define DEFAULT_NUM_SAMPLES (1)
#define DEFAULT_NUM_FRAMES (1)
#define DEFAULT_EXPTIME (0)
@ -125,8 +124,6 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
#define DEFAULT_SYNC_CLK (40) // 20
#define DEFAULT_DBIT_CLK (200)
#define UDP_HEADER_MAX_FRAME_VALUE (0xFFFFFFFFFFFF)
#define HIGHVOLTAGE_MIN (60)
#define HIGHVOLTAGE_MAX (200) // min dac val
#define DAC_MIN_MV (0)

52
slsDetectorServers/eigerDetectorServer/Beb.c
View File

@ -177,7 +177,7 @@ void Beb_AdjustIPChecksum(struct udp_header_type *ip) {
ip->ip_header_checksum[1] = ip_checksum & 0xff;
}
int Beb_GetModuleConfiguration(int *master, int *top, int *normal) {
void Beb_GetModuleConfiguration(int *master, int *top, int *normal) {
*top = 0;
*master = 0;
// mapping new memory to read master top module configuration
@ -187,7 +187,6 @@ int Beb_GetModuleConfiguration(int *master, int *top, int *normal) {
int fd = Beb_open(&csp0base, XPAR_PLB_GPIO_SYS_BASEADDR);
if (fd < 0) {
LOG(logERROR, ("Module Configuration FAIL\n"));
return FAIL;
} else {
// read data
ret = Beb_Read32(csp0base, BEB_CONFIG_RD_OFST);
@ -203,7 +202,6 @@ int Beb_GetModuleConfiguration(int *master, int *top, int *normal) {
// close file pointer
Beb_close(fd, csp0base);
}
return OK;
}
int Beb_IsTransmitting(int *retval, int tengiga, int waitForDelay) {
@ -494,11 +492,6 @@ int Beb_SetDataStream(enum portPosition port, int enable) {
u_int32_t reg = XPAR_GPIO_P15_STREAMING_REG;
u_int32_t mask = (port == LEFT ? XPAR_GPIO_LFT_STRM_DSBL_MSK
: XPAR_GPIO_RGHT_STRM_DSBL_MSK);
// invert left/right if bottom
if (!Beb_top) {
mask = (port == LEFT ? XPAR_GPIO_RGHT_STRM_DSBL_MSK
: XPAR_GPIO_LFT_STRM_DSBL_MSK);
}
u_int32_t value = Beb_Read32(csp0base, reg);
// disabling in firmware
@ -536,11 +529,6 @@ int Beb_GetDataStream(enum portPosition port, int *retval) {
u_int32_t reg = XPAR_GPIO_P15_STREAMING_REG;
u_int32_t mask = (port == LEFT ? XPAR_GPIO_LFT_STRM_DSBL_MSK
: XPAR_GPIO_RGHT_STRM_DSBL_MSK);
// invert left/right if bottom
if (!Beb_top) {
mask = (port == LEFT ? XPAR_GPIO_RGHT_STRM_DSBL_MSK
: XPAR_GPIO_LFT_STRM_DSBL_MSK);
}
u_int32_t value = Beb_Read32(csp0base, reg);
// disabling in firmware
@ -694,10 +682,6 @@ int Beb_GetTransmissionDelayLeft() {
return Beb_deactivated_transmission_delay_left;
}
u_int32_t offset = TXM_DELAY_LEFT_OFFSET;
// invert left/right if bottom
if (!Beb_top) {
offset = TXM_DELAY_RIGHT_OFFSET;
}
u_int32_t *csp0base = 0;
int fd = Beb_open(&csp0base, XPAR_PLB_GPIO_SYS_BASEADDR);
if (fd <= 0) {
@ -722,10 +706,6 @@ int Beb_SetTransmissionDelayLeft(int value) {
return 1;
}
u_int32_t offset = TXM_DELAY_LEFT_OFFSET;
// invert left/right if bottom
if (!Beb_top) {
offset = TXM_DELAY_RIGHT_OFFSET;
}
u_int32_t *csp0base = 0;
int fd = Beb_open(&csp0base, XPAR_PLB_GPIO_SYS_BASEADDR);
if (fd <= 0) {
@ -746,10 +726,6 @@ int Beb_GetTransmissionDelayRight() {
}
u_int32_t offset = TXM_DELAY_RIGHT_OFFSET;
// invert left/right if bottom
if (!Beb_top) {
offset = TXM_DELAY_LEFT_OFFSET;
}
u_int32_t *csp0base = 0;
int fd = Beb_open(&csp0base, XPAR_PLB_GPIO_SYS_BASEADDR);
if (fd <= 0) {
@ -774,10 +750,6 @@ int Beb_SetTransmissionDelayRight(int value) {
return 1;
}
u_int32_t offset = TXM_DELAY_RIGHT_OFFSET;
// invert left/right if bottom
if (!Beb_top) {
offset = TXM_DELAY_LEFT_OFFSET;
}
u_int32_t *csp0base = 0;
int fd = Beb_open(&csp0base, XPAR_PLB_GPIO_SYS_BASEADDR);
if (fd <= 0) {
@ -864,17 +836,11 @@ void Beb_ResetFrameNumber() {
}
int Beb_SetUpTransferParameters(short the_bit_mode) {
switch (the_bit_mode) {
case 4:
case 8:
case 12:
case 16:
case 32:
if (the_bit_mode != 4 && the_bit_mode != 8 && the_bit_mode != 16 &&
the_bit_mode != 32)
return 0;
Beb_bit_mode = the_bit_mode;
return 1;
default:
return 0;
}
}
int Beb_StopAcquisition() {
@ -1259,20 +1225,20 @@ int Beb_GetNextFrameNumber(uint64_t *retval, int tengigaEnable) {
else {
uint64_t left10g =
Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_10G_LEFT_MSB_OFST);
temp = Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_10G_LEFT_LSB_OFST);
Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_1G_LEFT_MSB_OFST);
temp = Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_1G_LEFT_LSB_OFST);
left10g = ((left10g << 32) | temp) >> 16;
++left10g; // increment for firmware
uint64_t right10g =
Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_10G_LEFT_MSB_OFST);
temp = Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_10G_LEFT_LSB_OFST);
Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_1G_LEFT_MSB_OFST);
temp = Beb_Read32(csp0base, UDP_HEADER_GET_FNUM_1G_LEFT_LSB_OFST);
right10g = ((right10g << 32) | temp) >> 16;
Beb_close(fd, csp0base);
++right10g; // increment for firmware
if (left10g != right10g) {
LOG(logERROR, ("Retrieved inconsistent frame numbers from 10g left "
LOG(logERROR, ("Retrieved inconsistent frame numbers from `0g left "
"%llu and right %llu\n",
(long long int)left10g, (long long int)right10g));
*retval = (left10g > right10g)

2
slsDetectorServers/eigerDetectorServer/Beb.h
View File

@ -15,7 +15,7 @@ int Beb_SetHeaderData(uint64_t src_mac, uint32_t src_ip, uint16_t src_port,
uint64_t dst_mac, uint32_t dst_ip, uint16_t dst_port);
void Beb_AdjustIPChecksum(struct udp_header_type *ip);
int 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);
void Beb_SetTopVariable(int val);

72
slsDetectorServers/eigerDetectorServer/CMakeLists.txt
View File

@ -16,31 +16,91 @@ include_directories(
../../slsSupportLib/include
)
add_executable(eigerDetectorServer_virtual
add_executable(eigerDetectorServerMaster_virtual
${src}
)
target_include_directories(eigerDetectorServer_virtual
target_include_directories(eigerDetectorServerMaster_virtual
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}
)
target_compile_definitions(eigerDetectorServer_virtual
target_compile_definitions(eigerDetectorServerMaster_virtual
PUBLIC EIGERD PCCOMPILE STOP_SERVER
PUBLIC VIRTUAL #VIRTUAL_9M
PUBLIC VIRTUAL_MASTER
)
target_link_libraries(eigerDetectorServer_virtual
target_link_libraries(eigerDetectorServerMaster_virtual
PUBLIC pthread rt slsProjectCSettings
)
set_target_properties(eigerDetectorServer_virtual PROPERTIES
set_target_properties(eigerDetectorServerMaster_virtual PROPERTIES
RUNTIME_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/bin
)
install(TARGETS eigerDetectorServer_virtual
install(TARGETS eigerDetectorServerMaster_virtual
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
)
add_executable(eigerDetectorServerSlaveTop_virtual
${src}
)
target_include_directories(eigerDetectorServerSlaveTop_virtual
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}
)
target_compile_definitions(eigerDetectorServerSlaveTop_virtual
PUBLIC EIGERD PCCOMPILE STOP_SERVER
PUBLIC VIRTUAL #VIRTUAL_9M
PUBLIC VIRTUAL_TOP
)
target_link_libraries(eigerDetectorServerSlaveTop_virtual
PUBLIC pthread rt slsProjectCSettings
)
set_target_properties(eigerDetectorServerSlaveTop_virtual PROPERTIES
RUNTIME_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/bin
)
install(TARGETS eigerDetectorServerSlaveTop_virtual
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
)
add_executable(eigerDetectorServerSlaveBottom_virtual
${src}
)
target_include_directories(eigerDetectorServerSlaveBottom_virtual
PUBLIC ${CMAKE_CURRENT_SOURCE_DIR}
)
target_compile_definitions(eigerDetectorServerSlaveBottom_virtual
PUBLIC EIGERD PCCOMPILE STOP_SERVER
PUBLIC VIRTUAL #VIRTUAL_9M
)
target_link_libraries(eigerDetectorServerSlaveBottom_virtual
PUBLIC pthread rt slsProjectCSettings
)
set_target_properties(eigerDetectorServerSlaveBottom_virtual PROPERTIES
RUNTIME_OUTPUT_DIRECTORY ${CMAKE_BINARY_DIR}/bin
)
install(TARGETS eigerDetectorServerSlaveBottom_virtual
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
)
configure_file(config_eiger.txt ${CMAKE_BINARY_DIR}/bin/config_eiger.txt COPYONLY)
configure_file(detid_eiger.txt ${CMAKE_BINARY_DIR}/bin/detid_eiger.txt COPYONLY)

183
slsDetectorServers/eigerDetectorServer/FebControl.c
View File

@ -18,7 +18,7 @@
const unsigned int Feb_Control_leftAddress = 0x100;
const unsigned int Feb_Control_rightAddress = 0x200;
int Feb_Control_master = -1;
int Feb_Control_master = 0;
int Feb_Control_normal = 0;
int Feb_Control_activated = 1;
@ -50,16 +50,17 @@ double ratemax = -1;
// setup
void Feb_Control_activate(int activate) { Feb_Control_activated = activate; }
int Feb_Control_FebControl(int normal) {
Feb_Control_staticBits = 0;
Feb_Control_acquireNReadoutMode = 0;
Feb_Control_triggerMode = 0;
Feb_Control_externalEnableMode = 0;
void Feb_Control_FebControl() {
Feb_Control_staticBits = Feb_Control_acquireNReadoutMode =
Feb_Control_triggerMode = Feb_Control_externalEnableMode =
Feb_Control_subFrameMode = 0;
Feb_Control_trimbit_size = 263680;
Feb_Control_last_downloaded_trimbits =
malloc(Feb_Control_trimbit_size * sizeof(int));
}
int Feb_Control_Init(int master, int normal) {
Feb_Control_master = master;
Feb_Control_normal = normal;
Feb_Interface_SetAddress(Feb_Control_rightAddress, Feb_Control_leftAddress);
if (Feb_Control_activated) {
@ -930,10 +931,7 @@ unsigned int Feb_Control_ConvertTimeToRegister(float time_in_sec) {
int Feb_Control_PrepareForAcquisition() {
LOG(logINFOBLUE, ("Preparing for Acquisition\n"));
if (!Feb_Control_PrintAcquisitionSetup()) {
LOG(logERROR, ("Could not prepare acquisition\n"));
return 0;
}
Feb_Control_PrintAcquisitionSetup();
if (Feb_Control_Reset() == STATUS_ERROR) {
LOG(logERROR, ("Trouble reseting daq or data stream\n"));
@ -990,26 +988,20 @@ int Feb_Control_PrepareForAcquisition() {
return 1;
}
int Feb_Control_PrintAcquisitionSetup() {
void Feb_Control_PrintAcquisitionSetup() {
time_t rawtime;
time(&rawtime);
struct tm *timeinfo = localtime(&rawtime);
int dr = 0;
if (!Feb_Control_GetDynamicRange(&dr)) {
LOG(logERROR, ("Could not print acquisition set up\n"));
return 0;
}
LOG(logINFO, ("Starting an exposure: (%s)"
LOG(logINFO,
("Starting an exposure: (%s)"
"\t Dynamic range nbits: %d\n"
"\t Trigger mode: 0x%x\n"
"\t Number of exposures: %d\n"
"\t Exsposure time (if used): %f seconds.\n"
"\t Exsposure period (if used): %f seconds.\n\n",
asctime(timeinfo), dr, Feb_Control_triggerMode,
Feb_Control_GetNExposures(), Feb_Control_exposure_time_in_sec,
Feb_Control_exposure_period_in_sec));
return 1;
asctime(timeinfo), Feb_Control_GetDynamicRange(),
Feb_Control_triggerMode, Feb_Control_GetNExposures(),
Feb_Control_exposure_time_in_sec, Feb_Control_exposure_period_in_sec));
}
int Feb_Control_StartAcquisition() {
@ -1177,106 +1169,49 @@ int Feb_Control_SoftwareTrigger(int block) {
}
// parameters
int Feb_Control_SetDynamicRange(int dr) {
int Feb_Control_SetDynamicRange(unsigned int four_eight_sixteen_or_thirtytwo) {
static unsigned int everything_but_bit_mode = DAQ_STATIC_BIT_PROGRAM |
DAQ_STATIC_BIT_CHIP_TEST |
DAQ_STATIC_BIT_ROTEST;
switch (dr) {
case 4:
if (four_eight_sixteen_or_thirtytwo == 4) {
Feb_Control_staticBits =
DAQ_STATIC_BIT_M4 |
(Feb_Control_staticBits &
everything_but_bit_mode); // leave test bits in currernt state
Feb_Control_subFrameMode &= ~DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING;
break;
case 8:
} else if (four_eight_sixteen_or_thirtytwo == 8) {
Feb_Control_staticBits = DAQ_STATIC_BIT_M8 | (Feb_Control_staticBits &
everything_but_bit_mode);
Feb_Control_subFrameMode &= ~DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING;
break;
case 12:
case 16:
} else if (four_eight_sixteen_or_thirtytwo == 16) {
Feb_Control_staticBits = DAQ_STATIC_BIT_M12 | (Feb_Control_staticBits &
everything_but_bit_mode);
Feb_Control_subFrameMode &= ~DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING;
// disable 16 bit conversion if 12 bit mode (enable if 16 bit)
if (!Feb_Control_Disable16bitConversion(dr == 12))
return 0;
break;
case 32:
} else if (four_eight_sixteen_or_thirtytwo == 32) {
Feb_Control_staticBits = DAQ_STATIC_BIT_M12 | (Feb_Control_staticBits &
everything_but_bit_mode);
Feb_Control_subFrameMode |= DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING;
break;
default:
LOG(logERROR,
("dynamic range (%d) not valid, not setting bit mode.\n", dr));
} else {
LOG(logERROR, ("dynamic range (%d) not valid, not setting bit mode.\n",
four_eight_sixteen_or_thirtytwo));
LOG(logINFO, ("Set dynamic range int must equal 4,8 16, or 32.\n"));
return 0;
}
LOG(logINFO, ("Dynamic range set to %d\n", dr));
LOG(logINFO,
("Dynamic range set to %d\n", four_eight_sixteen_or_thirtytwo));
return 1;
}
int Feb_Control_GetDynamicRange(int *retval) {
if (Feb_Control_subFrameMode & DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING) {
*retval = 32;
} else if (DAQ_STATIC_BIT_M4 & Feb_Control_staticBits) {
*retval = 4;
} else if (DAQ_STATIC_BIT_M8 & Feb_Control_staticBits) {
*retval = 8;
} else {
int disable16 = 0;
if (!Feb_Control_Get16bitConversionDisabled(&disable16)) {
LOG(logERROR, ("Could not get dynamic range (12 or 16 bit)\n"));
return 0;
}
if (disable16) {
*retval = 12;
} else {
*retval = 16;
}
}
unsigned int Feb_Control_GetDynamicRange() {
if (Feb_Control_subFrameMode & DAQ_NEXPOSURERS_ACTIVATE_AUTO_SUBIMAGING)
return 32;
else if (DAQ_STATIC_BIT_M4 & Feb_Control_staticBits)
return 4;
else if (DAQ_STATIC_BIT_M8 & Feb_Control_staticBits)
return 8;
return 1;
}
int Feb_Control_Disable16bitConversion(int disable) {
LOG(logINFO, ("%s 16 bit expansion\n", disable ? "Disabling" : "Enabling"));
unsigned int regval = 0;
if (!Feb_Control_ReadRegister(DAQ_REG_HRDWRE, &regval)) {
LOG(logERROR, ("Could not %s 16 bit expansion (bit mode)\n",
(disable ? "disable" : "enable")));
return 0;
}
if (disable) {
regval |= DAQ_REG_HRDWRE_DSBL_16BIT_MSK;
} else {
regval &= ~DAQ_REG_HRDWRE_DSBL_16BIT_MSK;
}
if (!Feb_Control_WriteRegister(DAQ_REG_HRDWRE, regval)) {
LOG(logERROR, ("Could not %s 16 bit expansion (bit mode)\n",
(disable ? "disable" : "enable")));
return 0;
}
return 1;
}
int Feb_Control_Get16bitConversionDisabled(int *ret) {
unsigned int regval = 0;
if (!Feb_Control_ReadRegister(DAQ_REG_HRDWRE, &regval)) {
LOG(logERROR, ("Could not get 16 bit expansion (bit mode)\n"));
return 0;
}
if (regval & DAQ_REG_HRDWRE_DSBL_16BIT_MSK) {
*ret = 1;
} else {
*ret = 0;
}
return 1;
return 16;
}
int Feb_Control_SetReadoutSpeed(unsigned int readout_speed) {
@ -1555,8 +1490,9 @@ int Feb_Control_SetTop(enum TOPINDEX ind, int left, int right) {
return 1;
}
int Feb_Control_SetMaster(enum MASTERINDEX ind) {
void Feb_Control_SetMasterVariable(int val) { Feb_Control_master = val; }
int Feb_Control_SetMaster(enum MASTERINDEX ind) {
uint32_t offset = DAQ_REG_HRDWRE;
unsigned int addr[2] = {Feb_Control_leftAddress, Feb_Control_rightAddress};
char *master_names[] = {MASTER_NAMES};
@ -1593,31 +1529,9 @@ int Feb_Control_SetMaster(enum MASTERINDEX ind) {
LOG(logINFOBLUE, ("%s Master flag to %s Feb\n",
(ind == MASTER_HARDWARE ? "Resetting" : "Overwriting"),
master_names[ind]));
return 1;
}
int Feb_Control_SetMasterEffects(int master, int controlServer) {
int prevMaster = Feb_Control_master;
Feb_Control_master = master;
// change in master for 9m
if (controlServer && prevMaster != Feb_Control_master &&
!Feb_Control_normal) {
if (prevMaster) {
Feb_Control_CloseSerialCommunication();
}
if (Feb_Control_master) {
if (!Feb_Control_OpenSerialCommunication()) {
LOG(logERROR, ("Could not intitalize feb control serial "
"communication\n"));
return FAIL;
}
}
}
return OK;
}
int Feb_Control_SetQuad(int val) {
LOG(logINFO, ("Setting Quad to %d in Feb\n", val));
Feb_Control_quadMode = val;
@ -1640,10 +1554,7 @@ int Feb_Control_SetChipSignalsToTrimQuad(int enable) {
regval &= ~(DAQ_REG_HRDWRE_PROGRAM_MSK | DAQ_REG_HRDWRE_M8_MSK);
}
if (!Feb_Control_WriteRegister(DAQ_REG_HRDWRE, regval)) {
LOG(logERROR, ("Could not set chip signals to trim quad\n"));
return 0;
}
return Feb_Control_WriteRegister(DAQ_REG_HRDWRE, regval);
}
return 1;
}
@ -1693,7 +1604,7 @@ int Feb_Control_WriteRegister(uint32_t offset, uint32_t data) {
for (int iloop = 0; iloop < 2; ++iloop) {
if (run[iloop]) {
LOG(logDEBUG1,
LOG(logINFO,
("Writing 0x%x to %s 0x%x\n", data, side[iloop], actualOffset));
if (!Feb_Interface_WriteRegister(addr[iloop], actualOffset, data, 0,
0)) {
@ -1701,18 +1612,6 @@ int Feb_Control_WriteRegister(uint32_t offset, uint32_t data) {
side[iloop], actualOffset));
return 0;
}
uint32_t regVal = 0;
if (!Feb_Interface_ReadRegister(addr[iloop], actualOffset,
&regVal)) {
LOG(logERROR, ("Could not read %s register\n", addr[iloop]));
return 0;
}
if (regVal != data) {
LOG(logERROR,
("Could not write %s register. Write 0x%x, read 0x%x\n",
addr[iloop], data, regVal));
return 0;
}
}
}
@ -1749,8 +1648,8 @@ int Feb_Control_ReadRegister(uint32_t offset, uint32_t *retval) {
side[iloop], actualOffset));
return 0;
}
LOG(logDEBUG1, ("Read 0x%x from %s 0x%x\n", value[iloop],
side[iloop], actualOffset));
LOG(logINFO, ("Read 0x%x from %s 0x%x\n", value[iloop], side[iloop],
actualOffset));
*retval = value[iloop];
// if not the other (left, not right OR right, not left), return the
// value
@ -1925,11 +1824,7 @@ int64_t Feb_Control_Get_RateTable_Period_in_nsec() {
int Feb_Control_SetRateCorrectionTau(int64_t tau_in_Nsec) {
// period = exptime if 16bit, period = subexptime if 32 bit
int dr = 0;
if (!Feb_Control_GetDynamicRange(&dr)) {
LOG(logERROR, ("Could not set rate correction tau\n"));
return 0;
}
int dr = Feb_Control_GetDynamicRange();
double period_in_sec =
(double)(Feb_Control_GetSubFrameExposureTime()) / (double)1e9;
if (dr == 16)

13
slsDetectorServers/eigerDetectorServer/FebControl.h
View File

@ -7,7 +7,8 @@
// setup
void Feb_Control_activate(int activate);
int Feb_Control_FebControl(int normal);
void Feb_Control_FebControl();
int Feb_Control_Init(int master, int normal);
int Feb_Control_OpenSerialCommunication();
void Feb_Control_CloseSerialCommunication();
int Feb_Control_CheckSetup();
@ -54,7 +55,7 @@ int Feb_Control_ResetChipPartially();
int Feb_Control_SendBitModeToBebServer();
unsigned int Feb_Control_ConvertTimeToRegister(float time_in_sec);
int Feb_Control_PrepareForAcquisition();
int Feb_Control_PrintAcquisitionSetup();
void Feb_Control_PrintAcquisitionSetup();
int Feb_Control_StartAcquisition();
int Feb_Control_StopAcquisition();
int Feb_Control_IsReadyForTrigger(int *readyForTrigger);
@ -62,10 +63,8 @@ int Feb_Control_SendSoftwareTrigger();
int Feb_Control_SoftwareTrigger(int block);
// parameters
int Feb_Control_SetDynamicRange(int dr);
int Feb_Control_GetDynamicRange(int *retval);
int Feb_Control_Disable16bitConversion(int disable);
int Feb_Control_Get16bitConversionDisabled();
int Feb_Control_SetDynamicRange(unsigned int four_eight_sixteen_or_thirtytwo);
unsigned int Feb_Control_GetDynamicRange();
int Feb_Control_SetReadoutSpeed(unsigned int readout_speed);
int Feb_Control_SetReadoutMode(unsigned int readout_mode);
int Feb_Control_SetTriggerMode(unsigned int trigger_mode);
@ -87,8 +86,8 @@ int Feb_Control_Get_Counter_Bit();
int Feb_Control_SetInterruptSubframe(int val);
int Feb_Control_GetInterruptSubframe();
int Feb_Control_SetTop(enum TOPINDEX ind, int left, int right);
void Feb_Control_SetMasterVariable(int val);
int Feb_Control_SetMaster(enum MASTERINDEX ind);
int Feb_Control_SetMasterEffects(int master, int controlServer);
int Feb_Control_SetQuad(int val);
int Feb_Control_SetChipSignalsToTrimQuad(int enable);
int Feb_Control_SetReadNRows(int value);

2
slsDetectorServers/eigerDetectorServer/FebRegisterDefs.h
View File

@ -29,8 +29,6 @@
#define DAQ_REG_HRDWRE_OW_MASTER_MSK (0x00000001 << DAQ_REG_HRDWRE_OW_MASTER_OFST)
#define DAQ_REG_HRDWRE_MASTER_OFST (4)
#define DAQ_REG_HRDWRE_MASTER_MSK (0x00000001 << DAQ_REG_HRDWRE_MASTER_OFST)
#define DAQ_REG_HRDWRE_DSBL_16BIT_OFST (5)
#define DAQ_REG_HRDWRE_DSBL_16BIT_MSK (0x00000001 << DAQ_REG_HRDWRE_DSBL_16BIT_OFST)
#define DAQ_REG_HRDWRE_PROGRAM_OFST (30)
#define DAQ_REG_HRDWRE_PROGRAM_MSK (0x00000001 << DAQ_REG_HRDWRE_PROGRAM_OFST)
#define DAQ_REG_HRDWRE_M8_OFST (31)

BIN
slsDetectorServers/eigerDetectorServer/bin/eigerDetectorServer_developer
View File

Binary file not shown.

568
slsDetectorServers/eigerDetectorServer/slsDetectorFunctionList.c
View File

@ -26,17 +26,12 @@ extern int updateFlag;
extern udpStruct udpDetails[MAX_UDP_DESTINATION];
extern int numUdpDestinations;
extern const enum detectorType myDetectorType;
extern int ignoreConfigFileFlag;
// Global variable from communication_funcs.c
extern int isControlServer;
extern void getMacAddressinString(char *cmac, int size, uint64_t mac);
extern void getIpAddressinString(char *cip, uint32_t ip);
// Variables that will be exported
int masterCommandLine = -1;
int topCommandLine = -1;
int initError = OK;
int initCheckDone = 0;
char initErrorMessage[MAX_STR_LENGTH];
@ -93,7 +88,6 @@ int eiger_virtual_read_n_rows = 256;
int eiger_virtual_interrupt_subframe = 0;
int eiger_virtual_left_datastream = 1;
int eiger_virtual_right_datastream = 1;
int eiger_virtual_module_id = 0;
#endif
int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
@ -231,23 +225,6 @@ int getModuleId(int *ret, char *mess) {
return getModuleIdInFile(ret, mess, ID_FILE);
}
int updateModuleId() {
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return FAIL;
}
#ifdef VIRTUAL
eiger_virtual_module_id = modid;
#else
if (Beb_SetModuleId(modid) == FAIL) {
initError = FAIL;
strcpy(initErrorMessage, ("Could not get module id from the file"));
return FAIL;
}
#endif
return OK;
}
u_int64_t getDetectorMAC() {
char mac[255] = "";
u_int64_t res = 0;
@ -327,36 +304,47 @@ u_int32_t getDetectorIP() {
void initControlServer() {
LOG(logINFOBLUE, ("Configuring Control server\n"));
if (!updateFlag && initError == OK) {
if (updateModuleConfiguration() == FAIL) {
initCheckDone = 1;
#ifndef VIRTUAL
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
#else
getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
#endif
if (initError == FAIL) {
return;
}
getModuleConfiguration();
#ifndef VIRTUAL
sharedMemory_lockLocalLink();
Feb_Control_SetMasterVariable(master);
Feb_Interface_FebInterface();
if (!Feb_Control_FebControl(normal)) {
Feb_Control_FebControl();
// same addresses for top and bottom
if (!Feb_Control_Init(master, normal)) {
initError = FAIL;
sprintf(initErrorMessage,
"Could not intitalize eiger detector sever: feb control\n");
sprintf(initErrorMessage, "Could not intitalize feb control\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
sharedMemory_unlockLocalLink();
return;
}
if (Feb_Control_SetMasterEffects(master, isControlServer) == FAIL) {
// master of 9M, check high voltage serial communication to blackfin
if (master && !normal) {
if (!Feb_Control_OpenSerialCommunication()) {
initError = FAIL;
sprintf(initErrorMessage, "Could not intitalize HV for eiger "
"detector server: feb control serial "
"communication\n");
sprintf(
initErrorMessage,
"Could not intitalize feb control serial communication\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
sharedMemory_unlockLocalLink();
return;
}
}
sharedMemory_unlockLocalLink();
LOG(logDEBUG1, ("Control server: FEB Initialization done\n"));
Beb_SetTopVariable(top);
Beb_Beb();
Beb_SetModuleId(modid);
LOG(logDEBUG1, ("Control server: BEB Initialization done\n"));
#endif
// also reads config file and deactivates
@ -366,126 +354,73 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
// wait a few s (control server is setting top/master from config file/
// command line)
#ifdef VIRTUAL
LOG(logINFOBLUE, ("Configuring Stop server\n"));
getModuleConfiguration();
sharedMemory_setStop(0);
// get top/master in virtual
readConfigFile();
#else
// wait a few s (control server is setting top/master from config file)
usleep(WAIT_STOP_SERVER_START);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (updateModuleConfiguration() == FAIL) {
initCheckDone = 1;
return;
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
// force top or master if in config file
if (readConfigFile() == FAIL) {
initCheckDone = 1;
return;
}
// force top or master if in command line
if (checkCommandLineConfiguration() == FAIL) {
initCheckDone = 1;
return;
}
#else
// control server read config file and already set up master/top
// exit(-1);
getModuleConfiguration();
sharedMemory_lockLocalLink();
Feb_Control_SetMasterVariable(master);
Feb_Interface_FebInterface();
if (!Feb_Control_FebControl(normal)) {
initError = FAIL;
sprintf(initErrorMessage, "Could not intitalize feb control\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
sharedMemory_unlockLocalLink();
return;
}
if (Feb_Control_SetMasterEffects(master, isControlServer) == FAIL) {
initError = FAIL;
sprintf(initErrorMessage, "Could not intitalize HV for eiger "
"detector server: feb control serial "
"communication\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
sharedMemory_unlockLocalLink();
return;
}
Feb_Control_FebControl();
// same addresses for top and bottom
Feb_Control_Init(master, normal);
sharedMemory_unlockLocalLink();
LOG(logDEBUG1, ("Stop server: FEB Initialization done\n"));
Beb_SetTopVariable(top);
Beb_Beb();
LOG(logDEBUG1, ("Control server: BEB Initialization done\n"));
#endif
// client first connect (from shm) will activate
if (setActivate(0) == FAIL) {
initError = FAIL;
strcpy(initErrorMessage, "Could not deactivate\n");
LOG(logERROR, (initErrorMessage));
LOG(logERROR, ("Could not deactivate in stop server\n"));
}
}
initCheckDone = 1;
}
void checkVirtual9MFlag() {
void getModuleConfiguration() {
if (initError == FAIL) {
return;
}
#ifdef VIRTUAL
#ifdef VIRTUAL_MASTER
master = 1;
top = 1;
#else
master = 0;
#ifdef VIRTUAL_TOP
top = 1;
#else
top = 0;
#endif
#endif
#ifdef VIRTUAL_9M
normal = 0;
#else
normal = 1;
#endif
#endif
}
int updateModuleConfiguration() {
if (getModuleConfiguration(&master, &top, &normal) == FAIL) {
return FAIL;
}
#ifdef VIRTUAL
checkVirtual9MFlag();
#else
Beb_GetModuleConfiguration(&master, &top, &normal);
#endif
if (isControlServer) {
LOG(logINFOBLUE,
("Module: %s %s %s\n", (top ? "TOP" : "BOTTOM"),
(master ? "MASTER" : "SLAVE"), (normal ? "NORMAL" : "SPECIAL")));
}
return OK;
}
int getModuleConfiguration(int *m, int *t, int *n) {
if (initError == FAIL) {
return FAIL;
}
#ifdef VIRTUAL
*m = master;
*t = top;
*n = normal;
#else
if (Beb_GetModuleConfiguration(m, t, n) == FAIL) {
initError = FAIL;
strcpy(initErrorMessage, ("Could not get module configuration\n"));
LOG(logERROR, (initErrorMessage));
return FAIL;
}
#endif
LOG(logDEBUG,
("module config read: master:%d top:%d normal:%d\n", *m, *t, *n));
return OK;
}
int readConfigFile() {
if (initError == FAIL) {
return initError;
}
if (ignoreConfigFileFlag) {
LOG(logWARNING, ("Ignoring Config file\n"));
return OK;
}
#ifndef VIRTUAL
// if not found in config file, they will be reset to hardware settings
top = -1;
master = -1;
#endif
top = -1;
const int fileNameSize = 128;
char fname[fileNameSize];
@ -536,54 +471,91 @@ int readConfigFile() {
// top command
if (!strncmp(line, "top", strlen("top"))) {
int t = -1;
// cannot scan values
if (sscanf(line, "%s %d", command, &t) != 2) {
if (sscanf(line, "%s %d", command, &top) != 2) {
sprintf(initErrorMessage,
"Could not scan top commands from on-board server "
"config file. Line:[%s].\n",
line);
break;
}
if (t != 0 && t != 1) {
sprintf(initErrorMessage,
"Invalid top argument from on-board server "
#ifndef VIRTUAL
enum TOPINDEX ind = (top == 1 ? OW_TOP : OW_BOTTOM);
if (!Beb_SetTop(ind)) {
sprintf(
initErrorMessage,
"Could not overwrite top to %d in Beb from on-board server "
"config file. Line:[%s].\n",
line);
top, line);
break;
}
if (setTop(t == 1 ? OW_TOP : OW_BOTTOM) == FAIL) {
sprintf(initErrorMessage,
"Could not set top from config file. Line:[%s].\n",
line);
sharedMemory_lockLocalLink();
if (!Feb_Control_SetTop(ind, 1, 1)) {
sprintf(
initErrorMessage,
"Could not overwrite top to %d in Feb from on-board server "
"config file. Line:[%s].\n",
top, line);
sharedMemory_unlockLocalLink();
break;
}
sharedMemory_unlockLocalLink();
// validate change
int actual_top = -1, temp = -1, temp2 = -1;
Beb_GetModuleConfiguration(&temp, &actual_top, &temp2);
if (actual_top != top) {
sprintf(initErrorMessage, "Could not set top to %d. Read %d\n",
top, actual_top);
break;
}
Beb_SetTopVariable(top);
#endif
}
// master command
else if (!strncmp(line, "master", strlen("master"))) {
int m = -1;
// cannot scan values
if (sscanf(line, "%s %d", command, &m) != 2) {
if (sscanf(line, "%s %d", command, &master) != 2) {
sprintf(initErrorMessage,
"Could not scan master commands from on-board server "
"config file. Line:[%s].\n",
line);
break;
}
if (m != 0 && m != 1) {
#ifndef VIRTUAL
enum MASTERINDEX ind = (master == 1 ? OW_MASTER : OW_SLAVE);
if (!Beb_SetMaster(ind)) {
sprintf(initErrorMessage,
"Invalid master argument from on-board server "
"Could not overwrite master to %d in Beb from on-board "
"server "
"config file. Line:[%s].\n",
line);
master, line);
break;
}
if (setMaster(m == 1 ? OW_MASTER : OW_SLAVE) == FAIL) {
sharedMemory_lockLocalLink();
if (!Feb_Control_SetMaster(ind)) {
sprintf(initErrorMessage,
"Could not set master from config file. Line:[%s].\n",
line);
"Could not overwrite master to %d in Feb from on-board "
"server "
"config file. Line:[%s].\n",
master, line);
sharedMemory_unlockLocalLink();
break;
}
sharedMemory_unlockLocalLink();
// validate change
int actual_master = -1, temp = -1, temp2 = -1;
Beb_GetModuleConfiguration(&actual_master, &temp, &temp2);
if (actual_master != master) {
sprintf(initErrorMessage,
"Could not set master to %d. Read %d\n", master,
actual_master);
break;
}
sharedMemory_lockLocalLink();
Feb_Control_SetMasterVariable(master);
sharedMemory_unlockLocalLink();
#endif
}
// other commands
@ -604,10 +576,8 @@ int readConfigFile() {
LOG(logINFO, ("Successfully read config file\n"));
}
#ifndef VIRTUAL
// reset to hardware settings if not in config file (if overwritten)
resetToHardwareSettings();
#endif
return initError;
}
@ -619,56 +589,55 @@ void resetToHardwareSettings() {
}
// top not set in config file
if (top == -1) {
LOG(logINFO, ("Resetting Top to hardware settings\n"));
if (setTop(TOP_HARDWARE) == FAIL) {
if (!Beb_SetTop(TOP_HARDWARE)) {
initError = FAIL;
strcpy(initErrorMessage,
"Could not reset Top flag to hardware settings.\n");
"Could not reset Top flag to Beb hardware settings.\n");
LOG(logERROR, ("%s\n\n", initErrorMessage));
return;
}
sharedMemory_lockLocalLink();
if (!Feb_Control_SetTop(TOP_HARDWARE, 1, 1)) {
initError = FAIL;
strcpy(initErrorMessage,
"Could not reset Top flag to Feb hardware settings.\n");
LOG(logERROR, ("%s\n\n", initErrorMessage));
sharedMemory_unlockLocalLink();
return;
}
sharedMemory_unlockLocalLink();
int temp = -1, temp2 = -1;
Beb_GetModuleConfiguration(&temp, &top, &temp2);
Beb_SetTopVariable(top);
}
// master not set in config file
if (master == -1) {
LOG(logINFO, ("Resetting Master to hardware settings\n"));
if (setMaster(MASTER_HARDWARE) == FAIL) {
if (!Beb_SetMaster(TOP_HARDWARE)) {
initError = FAIL;
strcpy(initErrorMessage,
"Could not reset Master flag to hardware settings.\n");
"Could not reset Master flag to Beb hardware settings.\n");
LOG(logERROR, ("%s\n\n", initErrorMessage));
return;
}
sharedMemory_lockLocalLink();
if (!Feb_Control_SetMaster(TOP_HARDWARE)) {
initError = FAIL;
strcpy(initErrorMessage,
"Could not reset Master flag to Feb hardware settings.\n");
LOG(logERROR, ("%s\n\n", initErrorMessage));
sharedMemory_unlockLocalLink();
return;
}
sharedMemory_unlockLocalLink();
int temp = -1, temp2 = -1;
Beb_GetModuleConfiguration(&master, &temp, &temp2);
sharedMemory_lockLocalLink();
Feb_Control_SetMasterVariable(master);
sharedMemory_unlockLocalLink();
}
#endif
}
int checkCommandLineConfiguration() {
if (masterCommandLine != -1) {
LOG(logINFO, ("Setting %s from Command Line\n",
(masterCommandLine == 1 ? "Master" : "Slave")));
if (setMaster(masterCommandLine == 1 ? OW_MASTER : OW_SLAVE) == FAIL) {
initError = FAIL;
sprintf(initErrorMessage, "Could not set %s from command line.\n",
(masterCommandLine == 1 ? "Master" : "Slave"));
LOG(logERROR, (initErrorMessage));
return FAIL;
}
}
if (topCommandLine != -1) {
LOG(logINFO, ("Setting %s from Command Line\n",
(topCommandLine == 1 ? "Top" : "Bottom")));
if (setTop(topCommandLine == 1 ? OW_TOP : OW_BOTTOM) == FAIL) {
initError = FAIL;
sprintf(initErrorMessage, "Could not set %s from command line.\n",
(topCommandLine == 1 ? "Top" : "Bottom"));
LOG(logERROR, (initErrorMessage));
return FAIL;
}
}
return OK;
}
/* set up detector */
void allocateDetectorStructureMemory() {
@ -702,29 +671,15 @@ void allocateDetectorStructureMemory() {
}
void setupDetector() {
allocateDetectorStructureMemory();
// force top or master if in config file
if (readConfigFile() == FAIL)
return;
// force top or master if in command line
if (checkCommandLineConfiguration() == FAIL)
return;
LOG(logINFOBLUE,
("Module: %s %s %s\n", (top ? "TOP" : "BOTTOM"),
(master ? "MASTER" : "SLAVE"), (normal ? "NORMAL" : "SPECIAL")));
if (updateModuleId() == FAIL)
return;
LOG(logINFOBLUE, ("Setting Default Parameters\n"));
resetToDefaultDacs(0);
#ifdef VIRTUAL
sharedMemory_setStatus(IDLE);
setupUDPCommParameters();
#endif
LOG(logINFOBLUE, ("Setting Default Parameters\n"));
// setting default measurement parameters
setNumFrames(DEFAULT_NUM_FRAMES);
setExpTime(DEFAULT_EXPTIME);
@ -764,6 +719,14 @@ void setupDetector() {
}
sharedMemory_unlockLocalLink();
#endif
// force top or master if in config file
if (readConfigFile() == FAIL) {
return;
}
LOG(logINFOBLUE,
("Module: %s %s %s\n", (top ? "TOP" : "BOTTOM"),
(master ? "MASTER" : "SLAVE"), (normal ? "NORMAL" : "SPECIAL")));
if (setNumberofDestinations(numUdpDestinations) == FAIL) {
initError = FAIL;
strcpy(initErrorMessage, "Could not set number of udp destinations\n");
@ -858,12 +821,10 @@ int readRegister(uint32_t offset, uint32_t *retval) {
/* set parameters - dr, roi */
int setDynamicRange(int dr) {
if (dr <= 0) {
return FAIL;
}
#ifdef VIRTUAL
LOG(logINFO, ("Setting dynamic range: %d\n", dr));
#else
// setting dr
if (dr > 0) {
LOG(logDEBUG1, ("Setting dynamic range: %d\n", dr));
#ifndef VIRTUAL
sharedMemory_lockLocalLink();
if (Feb_Control_SetDynamicRange(dr)) {
if (!Beb_SetUpTransferParameters(dr)) {
@ -875,21 +836,14 @@ int setDynamicRange(int dr) {
sharedMemory_unlockLocalLink();
#endif
eiger_dynamicrange = dr;
return OK;
}
int getDynamicRange(int *retval) {
#ifdef VIRTUAL
*retval = eiger_dynamicrange;
#else
// getting dr
#ifndef VIRTUAL
sharedMemory_lockLocalLink();
if (!Feb_Control_GetDynamicRange(retval)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
eiger_dynamicrange = Feb_Control_GetDynamicRange();
sharedMemory_unlockLocalLink();
#endif
return OK;
return eiger_dynamicrange;
}
/* parameters - readout */
@ -1204,7 +1158,6 @@ int setModule(sls_detector_module myMod, char *mess) {
// if quad, set M8 and PROGRAM manually
if (!Feb_Control_SetChipSignalsToTrimQuad(1)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
@ -1217,7 +1170,6 @@ int setModule(sls_detector_module myMod, char *mess) {
// if quad, reset M8 and PROGRAM manually
if (!Feb_Control_SetChipSignalsToTrimQuad(0)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
@ -1227,7 +1179,6 @@ int setModule(sls_detector_module myMod, char *mess) {
// if quad, reset M8 and PROGRAM manually
if (!Feb_Control_SetChipSignalsToTrimQuad(0)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
@ -1499,120 +1450,7 @@ int setHighVoltage(int val) {
/* parameters - timing, extsig */
int setMaster(enum MASTERINDEX m) {
char *master_names[] = {MASTER_NAMES};
LOG(logINFOBLUE, ("Setting up Master flag as %s\n", master_names[m]));
#ifdef VIRTUAL
switch (m) {
case OW_MASTER:
master = 1;
break;
case OW_SLAVE:
master = 0;
break;
default:
// hardware settings (do nothing)
break;
}
#else
// need to set it only once via the control server
if (isControlServer) {
if (!Beb_SetMaster(m)) {
return FAIL;
}
sharedMemory_lockLocalLink();
if (!Feb_Control_SetMaster(m)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
sharedMemory_unlockLocalLink();
}
// get and update master variable (cannot get from m, could be hardware)
if (isMaster(&master) == FAIL) {
return FAIL;
}
// verify for master and slave (not hardware)
if ((m == OW_MASTER && master == 0) || (m == OW_SLAVE && master == 1)) {
LOG(logERROR,
("could not set master/slave. Master value retrieved %d\n",
master));
return FAIL;
}
// feb variable and hv comms (9m)
sharedMemory_lockLocalLink();
if (Feb_Control_SetMasterEffects(master, isControlServer) == FAIL) {
sharedMemory_unlockLocalLink();
return FAIL;
}
sharedMemory_unlockLocalLink();
#endif
return OK;
}
int isMaster(int *retval) {
int m = -1, t = -1, n = -1;
if (getModuleConfiguration(&m, &t, &n) == FAIL) {
return FAIL;
}
*retval = m;
return OK;
}
int setTop(enum TOPINDEX t) {
char *top_names[] = {TOP_NAMES};
LOG(logINFOBLUE, ("Setting up Top flag as %s\n", top_names[t]));
#ifdef VIRTUAL
switch (t) {
case OW_TOP:
top = 1;
break;
case OW_BOTTOM:
top = 0;
break;
default:
// hardware settings (do nothing)
break;
}
#else
if (!Beb_SetTop(t)) {
return FAIL;
}
sharedMemory_lockLocalLink();
if (!Feb_Control_SetTop(t, 1, 1)) {
sharedMemory_unlockLocalLink();
return FAIL;
}
sharedMemory_unlockLocalLink();
// get and update top variable(cannot get from t, could be hardware)
if (isTop(&top) == FAIL) {
return FAIL;
}
// verify for master and slave (not hardware)
if ((t == OW_TOP && top == 0) || (t == OW_BOTTOM && top == 1)) {
LOG(logERROR,
("could not set top/bottom. Top value retrieved %d\n", top));
return FAIL;
}
Beb_SetTopVariable(top);
#endif
return OK;
}
int isTop(int *retval) {
int m = -1, t = -1, n = -1;
if (getModuleConfiguration(&m, &t, &n) == FAIL) {
return FAIL;
}
*retval = t;
return OK;
}
int isMaster() { return master; }
void setTiming(enum timingMode arg) {
int ret = 0;
@ -1662,7 +1500,6 @@ enum timingMode getTiming() {
}
/* configure mac */
int getNumberofUDPInterfaces() { return 2; }
int getNumberofDestinations(int *retval) {
#ifdef VIRTUAL
@ -2085,8 +1922,7 @@ int setRateCorrection(
else if (custom_tau_in_nsec == -1)
custom_tau_in_nsec = Feb_Control_Get_RateTable_Tau_in_nsec();
int dr = eiger_dynamicrange;
int dr = Feb_Control_GetDynamicRange();
// get period = subexptime if 32bit , else period = exptime if 16 bit
int64_t actual_period =
Feb_Control_GetSubFrameExposureTime(); // already in nsec
@ -2268,9 +2104,6 @@ int setDataStream(enum portPosition port, int enable) {
LOG(logERROR, ("Invalid setDataStream enable argument: %d\n", enable));
return FAIL;
}
LOG(logINFO,
("%s 10GbE %s datastream\n", (enable ? "Enabling" : "Disabling"),
(port == LEFT ? "left" : "right")));
#ifdef VIRTUAL
if (port == LEFT) {
eiger_virtual_left_datastream = enable;
@ -2448,17 +2281,15 @@ void *start_timer(void *arg) {
}
int skipData = 0;
int tgEnable = send_to_ten_gig;
if (!eiger_virtual_activate ||
(tgEnable &&
(!eiger_virtual_left_datastream && !eiger_virtual_right_datastream))) {
(!eiger_virtual_left_datastream && !eiger_virtual_right_datastream)) {
skipData = 1;
LOG(logWARNING, ("Not sending Left and Right datastream\n"));
}
if (tgEnable && !eiger_virtual_left_datastream) {
if (!eiger_virtual_left_datastream) {
LOG(logWARNING, ("Not sending Left datastream\n"));
}
if (tgEnable && !eiger_virtual_right_datastream) {
if (!eiger_virtual_right_datastream) {
LOG(logWARNING, ("Not sending Right datastream\n"));
}
@ -2468,6 +2299,7 @@ void *start_timer(void *arg) {
int dr = eiger_dynamicrange;
double bytesPerPixel = (double)dr / 8.00;
int tgEnable = send_to_ten_gig;
int datasize = (tgEnable ? 4096 : 1024);
int packetsize = datasize + sizeof(sls_detector_header);
int maxPacketsPerFrame = (tgEnable ? 4 : 16) * dr;
@ -2485,7 +2317,7 @@ void *start_timer(void *arg) {
const int maxRows = MAX_ROWS_PER_READOUT;
const int packetsPerFrame = (maxPacketsPerFrame * readNRows) / maxRows;
LOG(logDEBUG,
LOG(logDEBUG1,
(" dr:%d\n bytesperpixel:%f\n tgenable:%d\n datasize:%d\n "
"packetsize:%d\n maxnumpackes:%d\n npixelsx:%d\n databytes:%d\n",
dr, bytesPerPixel, tgEnable, datasize, packetsize, maxPacketsPerFrame,
@ -2502,13 +2334,11 @@ void *start_timer(void *arg) {
npixels /= 2;
}
LOG(logDEBUG1,
("npixels:%d pixelsperpacket:%d\n", npixels, pixelsPerPacket));
uint8_t *src = (uint8_t *)imageData;
("pixels:%d pixelsperpacket:%d\n", npixels, pixelsPerPacket));
for (int i = 0; i < npixels; ++i) {
if (i > 0 && i % pixelsPerPacket == 0) {
++pixelVal;
}
switch (dr) {
case 4:
*((uint8_t *)(imageData + i)) =
@ -2523,30 +2353,6 @@ void *start_timer(void *arg) {
*((uint8_t *)(imageData + i)) =
eiger_virtual_test_mode ? 0xFE : (uint8_t)pixelVal;
break;
case 12:
if (eiger_virtual_test_mode) {
// first 12 bit pixel
// first 8 byte
*src++ = 0xFE;
// second 12bit pixel
++i;
// second 8 byte
*src++ = 0xEF;
// third byte
*src++ = 0xFF;
} else {
// first 12 bit pixel
// first 8 byte
*src++ = (uint8_t)(i & 0xFF);
// second 8 byte (first nibble)
*src = (uint8_t)((i++ >> 8u) & 0xF);
// second 12bit pixel
// second 8 byte (second nibble)
*src++ |= ((uint8_t)(i & 0xF) << 4u);
// third byte
*src++ = (uint8_t)((i >> 4u) & 0xFF);
}
break;
case 16:
*((uint16_t *)(imageData + i * sizeof(uint16_t))) =
eiger_virtual_test_mode ? 0xFFE : (uint16_t)pixelVal;
@ -2601,7 +2407,6 @@ void *start_timer(void *arg) {
header->version = SLS_DETECTOR_HEADER_VERSION;
header->frameNumber = frameNr + iframes;
header->packetNumber = i;
header->modId = eiger_virtual_module_id;
header->row = row;
header->column = colLeft;
@ -2612,7 +2417,6 @@ void *start_timer(void *arg) {
header->version = SLS_DETECTOR_HEADER_VERSION;
header->frameNumber = frameNr + iframes;
header->packetNumber = i;
header->modId = eiger_virtual_module_id;
header->row = row;
header->column = colRight;
if (eiger_virtual_quad_mode) {
@ -2623,27 +2427,9 @@ void *start_timer(void *arg) {
// fill data
int dstOffset = sizeof(sls_detector_header);
int dstOffset2 = sizeof(sls_detector_header);
if (dr == 12) {
// multiple of 768,1024,4096
int copysize = 256;
for (int psize = 0; psize < datasize; psize += copysize) {
memcpy(packetData + dstOffset, imageData + srcOffset,
copysize);
memcpy(packetData2 + dstOffset2, imageData + srcOffset2,
copysize);
srcOffset += copysize;
srcOffset2 += copysize;
dstOffset += copysize;
dstOffset2 += copysize;
// reached 1 row (quarter module)
if ((srcOffset % npixelsx) == 0) {
srcOffset += npixelsx;
srcOffset2 += npixelsx;
}
}
} else {
{
for (int psize = 0; psize < datasize; psize += npixelsx) {
if (dr == 32 && tgEnable == 0) {
memcpy(packetData + dstOffset,
imageData + srcOffset, npixelsx / 2);
@ -2673,16 +2459,14 @@ void *start_timer(void *arg) {
}
}
}
if ((!tgEnable ||
(tgEnable && eiger_virtual_left_datastream)) &&
i >= startval && i <= endval) {
if (eiger_virtual_left_datastream && i >= startval &&
i <= endval) {
usleep(eiger_virtual_transmission_delay_left);
sendUDPPacket(iRxEntry, 0, packetData, packetsize);
LOG(logDEBUG1, ("Sent left packet: %d\n", i));
}
if ((!tgEnable ||
(tgEnable && eiger_virtual_right_datastream)) &&
i >= startval && i <= endval) {
if (eiger_virtual_right_datastream && i >= startval &&
i <= endval) {
usleep(eiger_virtual_transmission_delay_right);
sendUDPPacket(iRxEntry, 1, packetData2, packetsize);
LOG(logDEBUG1, ("Sent right packet: %d\n", i));
@ -2943,9 +2727,9 @@ int copyModule(sls_detector_module *destMod, sls_detector_module *srcMod) {
int calculateDataBytes() {
if (send_to_ten_gig)
return eiger_dynamicrange * ONE_GIGA_CONSTANT * TEN_GIGA_BUFFER_SIZE;
return setDynamicRange(-1) * ONE_GIGA_CONSTANT * TEN_GIGA_BUFFER_SIZE;
else
return eiger_dynamicrange * TEN_GIGA_CONSTANT * ONE_GIGA_BUFFER_SIZE;
return setDynamicRange(-1) * TEN_GIGA_CONSTANT * ONE_GIGA_BUFFER_SIZE;
}
int getTotalNumberOfChannels() {

4
slsDetectorServers/eigerDetectorServer/slsDetectorServer_defs.h
View File

@ -5,7 +5,7 @@
#define LINKED_SERVER_NAME "eigerDetectorServer"
#define REQUIRED_FIRMWARE_VERSION (30)
#define REQUIRED_FIRMWARE_VERSION (29)
// virtual ones renamed for consistency
// real ones keep previous name for compatibility (already in production)
#ifdef VIRTUAL
@ -43,7 +43,7 @@ enum DACINDEX {
#define DAC_NAMES \
"VSvP", "Vtrim", "Vrpreamp", "Vrshaper", "VSvN", "Vtgstv", "Vcmp_ll", \
"Vcmp_lr", "Vcal", "Vcmp_rl", "rxb_rb", "rxb_lb", "Vcmp_rr", "Vcp", \
"Vcn", "Vishaper", "Vthreshold"
"Vcn", "Vishaper"
#define DEFAULT_DAC_VALS \
{ \
0, /* VSvP */ \

BIN
slsDetectorServers/gotthard2DetectorServer/bin/gotthard2DetectorServer_developer
View File

Binary file not shown.

135
slsDetectorServers/gotthard2DetectorServer/slsDetectorFunctionList.c
View File

@ -28,16 +28,12 @@ extern int updateFlag;
extern int checkModuleFlag;
extern udpStruct udpDetails[MAX_UDP_DESTINATION];
extern const enum detectorType myDetectorType;
extern int ignoreConfigFileFlag;
// Global variable from communication_funcs.c
extern int isControlServer;
extern void getMacAddressinString(char *cmac, int size, uint64_t mac);
extern void getIpAddressinString(char *cip, uint32_t ip);
// Variables that will be exported
int masterCommandLine = -1;
int initError = OK;
int initCheckDone = 0;
char initErrorMessage[MAX_STR_LENGTH];
@ -45,7 +41,6 @@ char initErrorMessage[MAX_STR_LENGTH];
#ifdef VIRTUAL
pthread_t pthread_virtual_tid;
int64_t virtual_currentFrameNumber = 2;
int virtual_moduleid = 0;
#endif
enum detectorSettings thisSettings = UNINITIALIZED;
@ -73,7 +68,6 @@ int64_t burstPeriodReg = 0;
int filterResistor = 0;
int cdsGain = 0;
int detPos[2] = {};
int master = 1;
int isInitCheckDone() { return initCheckDone; }
@ -107,9 +101,8 @@ void basictests() {
}
// does check only if flag is 0 (by default), set by command line
if ((!debugflag) && (!updateFlag) &&
((validateKernelVersion(KERNEL_DATE_VRSN) == FAIL) ||
(checkType() == FAIL) || (testFpga() == FAIL) ||
(testBus() == FAIL))) {
((validateKernelVersion(KERNEL_DATE_VRSN) == FAIL) || (checkType() == FAIL) ||
(testFpga() == FAIL) || (testBus() == FAIL))) {
sprintf(initErrorMessage,
"Could not pass basic tests of FPGA and bus. Dangerous to "
"continue. (Firmware version:0x%llx) \n",
@ -300,18 +293,6 @@ void setModuleId(int modid) {
bus_r(MOD_ID_REG) | ((modid << MOD_ID_OFST) & MOD_ID_MSK));
}
int updateModuleId() {
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return FAIL;
}
#ifdef VIRTUAL
virtual_moduleid = modid;
#endif
setModuleId(modid);
return OK;
}
u_int64_t getDetectorMAC() {
#ifdef VIRTUAL
return 0;
@ -375,28 +356,17 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
// not reading config file (nothing of interest to stop server)
if (checkCommandLineConfiguration() == FAIL) {
initCheckDone = 1;
return;
}
#endif
}
initCheckDone = 1;
}
/* set up detector */
@ -508,13 +478,12 @@ void setupDetector() {
return;
}
// master for virtual
if (checkCommandLineConfiguration() == FAIL)
return;
if (updateModuleId() == FAIL) {
// set module id in register
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return;
}
setModuleId(modid);
setBurstMode(DEFAULT_BURST_MODE);
setFilterResistor(DEFAULT_FILTER_RESISTOR);
@ -626,11 +595,6 @@ int readConfigFile() {
return initError;
}
if (ignoreConfigFileFlag) {
LOG(logWARNING, ("Ignoring Config file\n"));
return OK;
}
// require a sleep before and after the rst dac signal
usleep(INITIAL_STARTUP_WAIT);
@ -955,21 +919,6 @@ int readConfigFile() {
return initError;
}
int checkCommandLineConfiguration() {
if (masterCommandLine != -1) {
#ifdef VIRTUAL
master = masterCommandLine;
#else
initError = FAIL;
strcpy(initErrorMessage,
"Cannot set Master from command line for this detector. "
"Should have been caught before!\n");
return FAIL;
#endif
}
return OK;
}
/* firmware functions (resets) */
void cleanFifos() {
@ -998,16 +947,7 @@ void resetPeripheral() {
/* set parameters - dr, roi */
int setDynamicRange(int dr) {
if (dr == 16)
return OK;
return FAIL;
}
int getDynamicRange(int *retval) {
*retval = DYNAMIC_RANGE;
return OK;
}
int setDynamicRange(int dr) { return DYNAMIC_RANGE; }
/* parameters - timer */
void setNumFrames(int64_t val) {
@ -1497,11 +1437,6 @@ int setHighVoltage(int val) {
/* parameters - timing */
int isMaster(int *retval) {
*retval = master;
return OK;
}
void updatingRegisters() {
LOG(logINFO, ("\tUpdating registers\n"));
// burst
@ -1981,17 +1916,9 @@ int checkDetectorType() {
return -2;
}
if (abs(type - TYPE_GOTTHARD2_25UM_MASTER_MODULE_VAL) <= TYPE_TOLERANCE) {
LOG(logINFOBLUE, ("MASTER 25um Module\n"));
master = 1;
} else if (abs(type - TYPE_GOTTHARD2_25UM_SLAVE_MODULE_VAL) <=
TYPE_TOLERANCE) {
master = 0;
LOG(logINFOBLUE, ("SLAVE 25um Module\n"));
} else if (abs(type - TYPE_GOTTHARD2_MODULE_VAL) <= TYPE_TOLERANCE) {
master = -1;
LOG(logINFOBLUE, ("50um Module\n"));
} else {
if ((abs(type - TYPE_GOTTHARD2_MODULE_VAL) > TYPE_TOLERANCE) &&
(abs(type - TYPE_GOTTHARD2_25UM_MASTER_MODULE_VAL) > TYPE_TOLERANCE) &&
(abs(type - TYPE_GOTTHARD2_25UM_SLAVE_MODULE_VAL) > TYPE_TOLERANCE)) {
LOG(logERROR,
("Wrong Module attached! Expected %d, %d or %d for Gotthard2, got "
"%d\n",
@ -2156,56 +2083,40 @@ int setReadoutSpeed(int val) {
case G2_108MHZ:
LOG(logINFOBLUE, ("Setting readout speed to 108 MHz\n"));
if (setClockDivider(READOUT_C0, SPEED_108_CLKDIV_0) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to "
"set readout clk 0 to %d\n",
SPEED_108_CLKDIV_0));
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to set readout clk 0 to %d\n", SPEED_108_CLKDIV_0));
return FAIL;
}
if (setClockDivider(READOUT_C1, SPEED_108_CLKDIV_1) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to "
"set readout clk 1 to %d\n",
SPEED_108_CLKDIV_1));
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to set readout clk 1 to %d\n", SPEED_108_CLKDIV_1));
return FAIL;
}
if (setPhase(READOUT_C1, SPEED_108_CLKPHASE_DEG_1, 1) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to "
"set clk phase 1 %d deg\n",
SPEED_108_CLKPHASE_DEG_1));
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to set clk phase 1 %d deg\n", SPEED_108_CLKPHASE_DEG_1));
return FAIL;
}
setDBITPipeline(SPEED_144_DBIT_PIPELINE);
if (getDBITPipeline() != SPEED_144_DBIT_PIPELINE) {
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to "
"set dbitpipeline to %d \n",
SPEED_144_DBIT_PIPELINE));
LOG(logERROR, ("Could not set readout speed to 108 MHz. Failed to set dbitpipeline to %d \n", SPEED_144_DBIT_PIPELINE));
return FAIL;
}
break;
case G2_144MHZ:
LOG(logINFOBLUE, ("Setting readout speed to 144 MHz\n"));
if (setClockDivider(READOUT_C0, SPEED_144_CLKDIV_0) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to "
"set readout clk 0 to %d\n",
SPEED_144_CLKDIV_0));
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to set readout clk 0 to %d\n", SPEED_144_CLKDIV_0));
return FAIL;
}
if (setClockDivider(READOUT_C1, SPEED_144_CLKDIV_1) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to "
"set readout clk 1 to %d\n",
SPEED_144_CLKDIV_1));
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to set readout clk 1 to %d\n", SPEED_144_CLKDIV_1));
return FAIL;
}
if (setPhase(READOUT_C1, SPEED_144_CLKPHASE_DEG_1, 1) == FAIL) {
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to "
"set clk phase 1 %d deg\n",
SPEED_144_CLKPHASE_DEG_1));
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to set clk phase 1 %d deg\n", SPEED_144_CLKPHASE_DEG_1));
return FAIL;
}
setDBITPipeline(SPEED_144_DBIT_PIPELINE);
if (getDBITPipeline() != SPEED_144_DBIT_PIPELINE) {
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to "
"set dbitpipeline to %d \n",
SPEED_144_DBIT_PIPELINE));
LOG(logERROR, ("Could not set readout speed to 144 MHz. Failed to set dbitpipeline to %d \n", SPEED_144_DBIT_PIPELINE));
return FAIL;
}
break;
@ -3094,7 +3005,7 @@ void *start_timer(void *arg) {
header->version = SLS_DETECTOR_HEADER_VERSION - 1;
header->frameNumber = virtual_currentFrameNumber;
header->packetNumber = 0;
header->modId = virtual_moduleid;
header->modId = 0;
header->row = detPos[X];
header->column = detPos[Y];
// fill data

BIN
slsDetectorServers/gotthardDetectorServer/bin/gotthardDetectorServer_developer
View File

Binary file not shown.

123
slsDetectorServers/gotthardDetectorServer/slsDetectorFunctionList.c
View File

@ -25,11 +25,9 @@ extern int debugflag;
extern int updateFlag;
extern udpStruct udpDetails[MAX_UDP_DESTINATION];
extern const enum detectorType myDetectorType;
extern int ignoreConfigFileFlag;
// Variables that will be exported
int phaseShift = DEFAULT_PHASE_SHIFT;
int masterCommandLine = -1;
// Global variable from communication_funcs.c
extern int isControlServer;
@ -361,28 +359,16 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
#endif
// to get master from file
if (readConfigFile() == FAIL ||
checkCommandLineConfiguration() == FAIL) {
initCheckDone = 1;
return;
}
}
initCheckDone = 1;
readConfigFile();
}
/* set up detector */
@ -435,13 +421,6 @@ void setupDetector() {
setROI(rois); // set adcsyncreg, daqreg, chipofinterestreg, cleanfifos,
setGbitReadout();
// no config file or not first time server
if (readConfigFile() == FAIL)
return;
if (checkCommandLineConfiguration() == FAIL)
return;
// master, slave (25um)
setMasterSlaveConfiguration();
@ -645,16 +624,6 @@ void setGbitReadout() {
}
int readConfigFile() {
if (initError == FAIL) {
return initError;
}
if (ignoreConfigFileFlag) {
LOG(logWARNING, ("Ignoring Config file\n"));
return OK;
}
const int fileNameSize = 128;
char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
@ -678,6 +647,7 @@ int readConfigFile() {
memset(key, 0, keySize);
char value[keySize];
memset(value, 0, keySize);
int scan = OK;
// keep reading a line
while (fgets(line, lineSize, fd)) {
@ -697,22 +667,19 @@ int readConfigFile() {
master = 0;
LOG(logINFOBLUE, ("\tSlave or No Master\n"));
} else {
initError = FAIL;
sprintf(
initErrorMessage,
"Could not scan masterflags %s value from config file\n",
value);
LOG(logERROR, (initErrorMessage))
fclose(fd);
return FAIL;
LOG(logERROR,
("\tCould not scan masterflags %s value from config file\n",
value));
scan = FAIL;
break;
}
// not first server since detector power on
if (!detectorFirstServer) {
LOG(logWARNING, ("\tServer has been started up before. "
LOG(logINFOBLUE, ("\tServer has been started up before. "
"Ignoring rest of config file\n"));
fclose(fd);
return OK;
return FAIL;
}
}
@ -721,14 +688,11 @@ int readConfigFile() {
// convert value to int
int ival = 0;
if (sscanf(value, "%d", &ival) <= 0) {
initError = FAIL;
sprintf(initErrorMessage,
"Could not scan parameter %s value %s from "
LOG(logERROR, ("\tCould not scan parameter %s value %s from "
"config file\n",
key, value);
LOG(logERROR, (initErrorMessage))
fclose(fd);
return FAIL;
key, value));
scan = FAIL;
break;
}
// set value
if (!strcasecmp(key, "masterdefaultdelay"))
@ -746,16 +710,16 @@ int readConfigFile() {
else if (!strcasecmp(key, "startacqdelay"))
startacqdelay = ival;
else {
initError = FAIL;
sprintf(initErrorMessage,
"Could not scan parameter %s from config file\n", key);
LOG(logERROR, (initErrorMessage))
fclose(fd);
return FAIL;
LOG(logERROR,
("\tCould not scan parameter %s from config file\n", key));
scan = FAIL;
break;
}
}
}
fclose(fd);
if (scan == FAIL)
exit(EXIT_FAILURE);
LOG(logINFOBLUE,
("\tmasterdefaultdelay:%d\n"
@ -770,28 +734,13 @@ int readConfigFile() {
return OK;
}
int checkCommandLineConfiguration() {
if (masterCommandLine != -1) {
#ifdef VIRTUAL
master = masterCommandLine;
#else
initError = FAIL;
strcpy(initErrorMessage,
"Cannot set Master from command line for this detector. "
"Should have been caught before!\n");
return FAIL;
#endif
}
return OK;
}
void setMasterSlaveConfiguration() {
// not the first time its being read
if (!detectorFirstServer) {
return;
}
LOG(logINFO, ("Reading Master Slave Configuration\n"));
// no config file or not first time server
if (readConfigFile() == FAIL)
return;
// master configuration
if (master) {
// master default delay set, so reset delay
@ -839,16 +788,7 @@ void setMasterSlaveConfiguration() {
/* set parameters - dr, roi */
int setDynamicRange(int dr) {
if (dr == 16)
return OK;
return FAIL;
}
int getDynamicRange(int *retval) {
*retval = DYNAMIC_RANGE;
return OK;
}
int setDynamicRange(int dr) { return DYNAMIC_RANGE; }
int setROI(ROI arg) {
@ -1298,10 +1238,7 @@ int setHighVoltage(int val) {
/* parameters - timing, extsig */
int isMaster(int *retval) {
*retval = master;
return OK;
}
int isMaster() { return master; }
void setTiming(enum timingMode arg) {
u_int32_t addr = EXT_SIGNAL_REG;
@ -1362,8 +1299,6 @@ int getExtSignal(int signalIndex) {
/* configure mac */
int getNumberofUDPInterfaces() { return 1; }
void calcChecksum(mac_conf *mac, int sourceip, int destip) {
mac->ip.ip_ver = 0x4;
mac->ip.ip_ihl = 0x5;

BIN
slsDetectorServers/jungfrauDetectorServer/bin/jungfrauDetectorServer_developer
View File

Binary file not shown.

35
slsDetectorServers/jungfrauDetectorServer/slsDetectorFunctionList.c
View File

@ -28,7 +28,6 @@ extern int updateFlag;
extern udpStruct udpDetails[MAX_UDP_DESTINATION];
extern int numUdpDestinations;
extern const enum detectorType myDetectorType;
extern int ignoreConfigFileFlag;
// Global variable from communication_funcs.c
extern int isControlServer;
@ -393,20 +392,12 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
}
if (readConfigFile() == FAIL) {
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
@ -415,8 +406,6 @@ void initStopServer() {
setTemperatureEvent(0);
#endif
}
initCheckDone = 1;
}
/* set up detector */
@ -654,11 +643,6 @@ int readConfigFile() {
return initError;
}
if (ignoreConfigFileFlag) {
LOG(logWARNING, ("Ignoring Config file\n"));
return OK;
}
const int fileNameSize = 128;
char fname[fileNameSize];
if (getAbsPath(fname, fileNameSize, CONFIG_FILE) == FAIL) {
@ -812,16 +796,7 @@ void resetPeripheral() {
/* set parameters - dr, roi */
int setDynamicRange(int dr) {
if (dr == 16)
return OK;
return FAIL;
}
int getDynamicRange(int *retval) {
*retval = DYNAMIC_RANGE;
return OK;
}
int setDynamicRange(int dr) { return DYNAMIC_RANGE; }
void setADCInvertRegister(uint32_t val) {
LOG(logINFO, ("Setting ADC Port Invert Reg to 0x%x\n", val));

8
slsDetectorServers/moenchDetectorServer/RegisterDefs.h
View File

@ -165,9 +165,11 @@
#define PATTERN_OUT_LSB_REG (0x20 << MEM_MAP_SHIFT)
#define PATTERN_OUT_MSB_REG (0x21 << MEM_MAP_SHIFT)
/* Frame number of next acquisition register (64 bit register) */
#define NEXT_FRAME_NUMB_LOCAL_LSB_REG (0x22 << MEM_MAP_SHIFT)
#define NEXT_FRAME_NUMB_LOCAL_MSB_REG (0x23 << 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_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)

BIN
slsDetectorServers/moenchDetectorServer/bin/moenchDetectorServer_developer
View File

Binary file not shown.

67
slsDetectorServers/moenchDetectorServer/slsDetectorFunctionList.c
View File

@ -43,6 +43,7 @@ char initErrorMessage[MAX_STR_LENGTH];
#ifdef VIRTUAL
pthread_t pthread_virtual_tid;
int64_t virtual_currentFrameNumber = 2;
#endif
// 1g readout
@ -67,13 +68,7 @@ int defaultDacValues[NDAC] = DEFAULT_DAC_VALS;
int vLimit = 0;
enum detectorSettings thisSettings = UNINITIALIZED;
int highvoltage = 0;
// getNumberofchannels return 0 for y in --update mode (virtual servers)
#ifdef VIRTUAL
int nSamples = DEFAULT_NUM_SAMPLES;
#else
int nSamples = 1;
#endif
int detPos[2] = {0, 0};
int isInitCheckDone() { return initCheckDone; }
@ -436,23 +431,17 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
#endif
}
initCheckDone = 1;
}
/* set up detector */
@ -580,7 +569,6 @@ void setupDetector() {
setFrequency(ADC_CLK, DEFAULT_ADC_CLK);
setFrequency(DBIT_CLK, DEFAULT_DBIT_CLK);
setPhase(ADC_CLK, DEFAULT_ADC_PHASE_DEG, 1);
setNextFrameNumber(DEFAULT_STARTING_FRAME_NUMBER);
}
int updateDatabytesandAllocateRAM() {
@ -712,16 +700,7 @@ void resetPeripheral() {
/* set parameters - dr, adcenablemask */
int setDynamicRange(int dr) {
if (dr == 16)
return OK;
return FAIL;
}
int getDynamicRange(int *retval) {
*retval = DYNAMIC_RANGE;
return OK;
}
int setDynamicRange(int dr) { return DYNAMIC_RANGE; }
int setADCEnableMask(uint32_t mask) {
if (mask == 0u) {
@ -821,24 +800,6 @@ uint32_t getADCInvertRegister() {
}
/* parameters - timer */
int setNextFrameNumber(uint64_t value) {
LOG(logINFO,
("Setting next frame number: %llu\n", (long long unsigned int)value));
setU64BitReg(value, NEXT_FRAME_NUMB_LOCAL_LSB_REG,
NEXT_FRAME_NUMB_LOCAL_MSB_REG);
#ifndef VIRTUAL
// for 1g udp interface
setUDPFrameNumber(value);
#endif
return OK;
}
int getNextFrameNumber(uint64_t *retval) {
*retval = getU64BitReg(NEXT_FRAME_NUMB_LOCAL_LSB_REG,
NEXT_FRAME_NUMB_LOCAL_MSB_REG);
return OK;
}
void setNumFrames(int64_t val) {
if (val > 0) {
LOG(logINFO, ("Setting number of frames %lld\n", (long long int)val));
@ -1196,8 +1157,6 @@ enum timingMode getTiming() {
/* configure mac */
int getNumberofUDPInterfaces() { return 1; }
void calcChecksum(udp_header *udp) {
int count = IP_HEADER_SIZE;
long int sum = 0;
@ -1703,14 +1662,11 @@ void *start_timer(void *arg) {
}
// Send data
uint64_t frameNr = 0;
getNextFrameNumber(&frameNr);
// loop over number of frames
for (int iframes = 0; iframes != numFrames; ++iframes) {
for (int frameNr = 0; frameNr != numFrames; ++frameNr) {
// check if manual stop
if (sharedMemory_getStop() == 1) {
setNextFrameNumber(frameNr + iframes + 1);
break;
}
@ -1728,7 +1684,7 @@ void *start_timer(void *arg) {
sls_detector_header *header = (sls_detector_header *)(packetData);
header->detType = (uint16_t)myDetectorType;
header->version = SLS_DETECTOR_HEADER_VERSION - 1;
header->frameNumber = frameNr + iframes;
header->frameNumber = virtual_currentFrameNumber;
header->packetNumber = i;
header->modId = 0;
header->row = detPos[X];
@ -1741,18 +1697,19 @@ void *start_timer(void *arg) {
sendUDPPacket(0, 0, packetData, packetSize);
}
LOG(logINFO, ("Sent frame: %d [%lld]\n", iframes, frameNr + iframes));
LOG(logINFO, ("Sent frame: %d [%lld]\n", frameNr,
(long long unsigned int)virtual_currentFrameNumber));
clock_gettime(CLOCK_REALTIME, &end);
int64_t timeNs =
((end.tv_sec - begin.tv_sec) * 1E9 + (end.tv_nsec - begin.tv_nsec));
// sleep for (period - exptime)
if (iframes < numFrames) { // if there is a next frame
if (frameNr < numFrames) { // if there is a next frame
if (periodNs > timeNs) {
usleep((periodNs - timeNs) / 1000);
}
}
setNextFrameNumber(frameNr + numFrames);
++virtual_currentFrameNumber;
}
closeUDPSocket(0);

3
slsDetectorServers/moenchDetectorServer/slsDetectorServer_defs.h
View File

@ -79,7 +79,6 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
/** Default Parameters */
#define DEFAULT_PATTERN_FILE ("DefaultPattern_moench.txt")
#define DEFAULT_STARTING_FRAME_NUMBER (1)
#define DEFAULT_DATA_BYTES (NCHIP * NCHAN * NUM_BITS_PER_PIXEL)
#define DEFAULT_NUM_SAMPLES (5000)
#define DEFAULT_EXPTIME (0)
@ -105,8 +104,6 @@ enum CLKINDEX { RUN_CLK, ADC_CLK, SYNC_CLK, DBIT_CLK, NUM_CLOCKS };
#define DEFAULT_PIPELINE (15)
#define DEFAULT_SETTINGS (G4_HIGHGAIN)
#define UDP_HEADER_MAX_FRAME_VALUE (0xFFFFFFFFFFFF)
// settings
#define DEFAULT_PATMASK (0x00000C800000800AULL)
#define G1_HIGHGAIN_PATSETBIT (0x00000C0000008008ULL)

BIN
slsDetectorServers/mythen3DetectorServer/bin/mythen3DetectorServer_developer
View File

Binary file not shown.

116
slsDetectorServers/mythen3DetectorServer/slsDetectorFunctionList.c
View File

@ -35,9 +35,6 @@ extern int isControlServer;
extern void getMacAddressinString(char *cmac, int size, uint64_t mac);
extern void getIpAddressinString(char *cip, uint32_t ip);
// Variables that will be exported
int masterCommandLine = -1;
int initError = OK;
int initCheckDone = 0;
char initErrorMessage[MAX_STR_LENGTH];
@ -45,7 +42,6 @@ char initErrorMessage[MAX_STR_LENGTH];
#ifdef VIRTUAL
pthread_t pthread_virtual_tid;
int64_t virtual_currentFrameNumber = 2;
int virtual_moduleid = 0;
#endif
enum detectorSettings thisSettings = UNINITIALIZED;
@ -292,18 +288,6 @@ void setModuleId(int modid) {
bus_r(MOD_ID_REG) | ((modid << MOD_ID_OFST) & MOD_ID_MSK));
}
int updateModuleId() {
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return FAIL;
}
#ifdef VIRTUAL
virtual_moduleid = modid;
#endif
setModuleId(modid);
return OK;
}
u_int64_t getDetectorMAC() {
#ifdef VIRTUAL
return 0;
@ -367,27 +351,17 @@ void initControlServer() {
}
void initStopServer() {
if (!updateFlag && initError == OK) {
usleep(CTRL_SRVR_INIT_TIME_US);
LOG(logINFOBLUE, ("Configuring Stop server\n"));
if (mapCSP0() == FAIL) {
initError = FAIL;
strcpy(initErrorMessage,
"Stop Server: Map Fail. Dangerous to continue. Goodbye!\n");
LOG(logERROR, (initErrorMessage));
initCheckDone = 1;
return;
LOG(logERROR,
("Stop Server: Map Fail. Dangerous to continue. Goodbye!\n"));
exit(EXIT_FAILURE);
}
#ifdef VIRTUAL
sharedMemory_setStop(0);
if (checkCommandLineConfiguration() == FAIL) {
initCheckDone = 1;
return;
}
#endif
}
initCheckDone = 1;
}
/* set up detector */
@ -432,12 +406,6 @@ void setupDetector() {
allocateDetectorStructureMemory();
if (checkCommandLineConfiguration() == FAIL)
return;
if (updateModuleId() == FAIL)
return;
clkDivider[READOUT_C0] = DEFAULT_READOUT_C0;
clkDivider[READOUT_C1] = DEFAULT_READOUT_C1;
clkDivider[SYSTEM_C0] = DEFAULT_SYSTEM_C0;
@ -478,6 +446,13 @@ void setupDetector() {
setASICDefaults();
setADIFDefaults();
// set module id in register
int modid = getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return;
}
setModuleId(modid);
// set trigger flow for m3 (for all timing modes)
bus_w(FLOW_TRIGGER_REG, bus_r(FLOW_TRIGGER_REG) | FLOW_TRIGGER_MSK);
@ -501,6 +476,13 @@ void setupDetector() {
setInitialExtSignals();
// 10G UDP
enableTenGigabitEthernet(1);
#ifdef VIRTUAL
enableTenGigabitEthernet(0);
#endif
getModuleIdInFile(&initError, initErrorMessage, ID_FILE);
if (initError == FAIL) {
return;
}
setSettings(DEFAULT_SETTINGS);
// check module type attached if not in debug mode
@ -717,27 +699,6 @@ void setADIFDefaults() {
ADIF_ADDTNL_OFST_MSK)));
}
int checkCommandLineConfiguration() {
if (masterCommandLine != -1) {
#ifdef VIRTUAL
if (masterCommandLine == 1) {
bus_w(SYSTEM_STATUS_REG,
bus_r(SYSTEM_STATUS_REG) & ~SYSTEM_STATUS_SLV_BRD_DTCT_MSK);
} else {
bus_w(SYSTEM_STATUS_REG,
bus_r(SYSTEM_STATUS_REG) | SYSTEM_STATUS_SLV_BRD_DTCT_MSK);
}
#else
initError = FAIL;
strcpy(initErrorMessage,
"Cannot set Master from command line for this detector. "
"Should have been caught before!\n");
return FAIL;
#endif
}
return OK;
}
/* firmware functions (resets) */
void cleanFifos() {
@ -767,9 +728,7 @@ void resetPeripheral() {
/* set parameters - dr, roi */
int setDynamicRange(int dr) {
if (dr <= 0) {
return FAIL;
}
if (dr > 0) {
uint32_t regval = 0;
switch (dr) {
/*case 1: TODO:Not implemented in firmware yet
@ -792,29 +751,23 @@ int setDynamicRange(int dr) {
bus_w(CONFIG_REG, bus_r(CONFIG_REG) & ~CONFIG_DYNAMIC_RANGE_MSK);
bus_w(CONFIG_REG, bus_r(CONFIG_REG) | regval);
updatePacketizing();
return OK;
}
int getDynamicRange(int *retval) {
uint32_t regval = bus_r(CONFIG_REG) & CONFIG_DYNAMIC_RANGE_MSK;
switch (regval) {
/*case CONFIG_DYNAMIC_RANGE_1_VAL: TODO:Not implemented in firmware yet
return 1;*/
case CONFIG_DYNAMIC_RANGE_8_VAL:
*retval = 8;
break;
return 8;
case CONFIG_DYNAMIC_RANGE_16_VAL:
*retval = 16;
break;
return 16;
case CONFIG_DYNAMIC_RANGE_24_VAL:
*retval = 32;
break;
return 32;
default:
LOG(logERROR, ("Invalid dynamic range %d read back\n",
regval >> CONFIG_DYNAMIC_RANGE_OFST));
return FAIL;
return -1;
}
return OK;
}
/* set parameters - readout */
@ -1137,8 +1090,7 @@ void updatePacketizing() {
// 10g
if (tgEnable) {
int dr = 0;
getDynamicRange(&dr);
const int dr = setDynamicRange(-1);
packetsPerFrame = 1;
if (dr == 32 && ncounters > 1) {
packetsPerFrame = 2;
@ -1592,18 +1544,14 @@ int setHighVoltage(int val) {
/* parameters - timing */
int isMaster(int *retval) {
int slave = ((bus_r(SYSTEM_STATUS_REG) & SYSTEM_STATUS_SLV_BRD_DTCT_MSK) >>
int isMaster() {
return !((bus_r(SYSTEM_STATUS_REG) & SYSTEM_STATUS_SLV_BRD_DTCT_MSK) >>
SYSTEM_STATUS_SLV_BRD_DTCT_OFST);
*retval = (slave == 0 ? 1 : 0);
return OK;
}
void setTiming(enum timingMode arg) {
int master = 0;
isMaster(&master);
if (master && arg == AUTO_TIMING)
if (!isMaster() && arg == AUTO_TIMING)
arg = TRIGGER_EXPOSURE;
uint32_t addr = CONFIG_REG;
@ -1771,8 +1719,6 @@ int getExtSignal(int signalIndex) {
}
}
int getNumberofUDPInterfaces() { return 1; }
int configureMAC() {
uint32_t srcip = udpDetails[0].srcip;
@ -2253,8 +2199,7 @@ void *start_timer(void *arg) {
const int imageSize = calculateDataBytes();
const int tgEnable = enableTenGigabitEthernet(-1);
int dr = 0;
getDynamicRange(&dr);
const int dr = setDynamicRange(-1);
int ncounters = __builtin_popcount(getCounterMask());
int dataSize = 0;
int packetsPerFrame = 0;
@ -2335,7 +2280,7 @@ void *start_timer(void *arg) {
header->version = SLS_DETECTOR_HEADER_VERSION - 1;
header->frameNumber = virtual_currentFrameNumber;
header->packetNumber = i;
header->modId = virtual_moduleid;
header->modId = 0;
header->row = detPos[X];
header->column = detPos[Y];
@ -2575,8 +2520,7 @@ int copyModule(sls_detector_module *destMod, sls_detector_module *srcMod) {
int calculateDataBytes() {
int numCounters = __builtin_popcount(getCounterMask());
int dr = 0;
getDynamicRange(&dr);
int dr = setDynamicRange(-1);
return (NCHAN_1_COUNTER * NCHIP * numCounters * ((double)dr / 8.00));
}

2
slsDetectorServers/mythen3DetectorServer/slsDetectorServer_defs.h
View File

@ -95,7 +95,7 @@ enum DACINDEX {
#define DAC_NAMES \
"vcassh", "vth2", "vrshaper", "vrshaper_n", "vipre_out", "vth3", "vth1", \
"vicin", "vcas", "vrpreamp", "vcal_n", "vipre", "vishaper", "vcal_p", \
"vtrim", "vdcsh", "vthreshold"
"vtrim", "vdcsh"
#define DEFAULT_DAC_VALS \
{ \
1200, /* casSh */ \

20
slsDetectorServers/slsDetectorServer/include/UDPPacketHeaderGenerator.h
View File

@ -4,11 +4,25 @@
#include <inttypes.h>
uint32_t getUDPPacketNumber();
uint64_t getUDPFrameNumber();
void setUDPFrameNumber(uint64_t fnum);
/**
* Get current udp packet number
*/
uint32_t getUDPPacketNumber();
/**
* Get current udp frame number
*/
uint64_t getUDPFrameNumber();
/**
* Called for each UDP packet header creation
* @param buffer pointer to header
* @param id module id
*/
void createUDPPacketHeader(char *buffer, uint16_t id);
/**
* fill up the udp packet with data till its full
* @param buffer pointer to memory
*/
int fillUDPPacket(char *buffer);

6
slsDetectorServers/slsDetectorServer/include/programViaBlackfin.h
View File

@ -26,12 +26,10 @@ int preparetoCopyProgram(char *mess, char *functionType, FILE **fd,
uint64_t fsize);
int eraseAndWriteToFlash(char *mess, enum PROGRAM_INDEX index,
char *functionType, char *clientChecksum,
ssize_t fsize, int forceDeleteNormalFile);
ssize_t fsize);
int getDrive(char *mess, enum PROGRAM_INDEX index);
/** Notify fpga not to touch flash, open src and flash drive to write */
int openFileForFlash(char *mess, enum PROGRAM_INDEX index, FILE **flashfd, FILE **srcfd,
int forceDeleteNormalFile);
int checkNormalFile(char *mess, enum PROGRAM_INDEX index, int forceDeleteNormalFile);
int openFileForFlash(char *mess, FILE **flashfd, FILE **srcfd);
int eraseFlash(char *mess);
/* write from tmp file to flash */
int writeToFlash(char *mess, ssize_t fsize, FILE *flashfd, FILE *srcfd);

30
slsDetectorServers/slsDetectorServer/include/slsDetectorFunctionList.h
View File

@ -97,9 +97,6 @@ u_int32_t getDetectorNumber();
#if defined(GOTTHARD2D) || defined(EIGERD) || defined(MYTHEN3D)
int getModuleId(int *ret, char *mess);
#endif
#if defined(EIGERD) || defined(MYTHEN3D) || defined(GOTTHARD2D)
int updateModuleId();
#endif
#if defined(GOTTHARD2D) || defined(MYTHEN3D)
void setModuleId(int modid);
#endif
@ -113,11 +110,7 @@ u_int32_t getBoardRevision();
void initControlServer();
void initStopServer();
#ifdef EIGERD
int updateModuleConfiguration();
int getModuleConfiguration(int *m, int *t, int *n);
#ifdef VIRTUAL
void checkVirtual9MFlag();
#endif
void getModuleConfiguration();
#endif
// set up detector
@ -144,10 +137,6 @@ void setADIFDefaults();
#if defined(GOTTHARD2D) || defined(EIGERD) || defined(JUNGFRAUD)
int readConfigFile();
#endif
#if defined(GOTTHARDD) || defined(GOTTHARD2D) || defined(EIGERD) || \
defined(MYTHEN3D)
int checkCommandLineConfiguration();
#endif
#ifdef EIGERD
void resetToHardwareSettings();
#endif
@ -184,7 +173,6 @@ void setMasterSlaveConfiguration();
// parameters - dr, roi
int setDynamicRange(int dr);
int getDynamicRange(int *retval);
#ifdef GOTTHARDD
int setROI(ROI arg);
ROI getROI();
@ -225,8 +213,7 @@ int getReadoutMode();
int selectStoragecellStart(int pos);
int getMaxStoragecellStart();
#endif
#if defined(JUNGFRAUD) || defined(EIGERD) || defined(MOENCHD) || \
defined(CHIPTESTBOARDD)
#if defined(JUNGFRAUD) || defined(EIGERD)
int setNextFrameNumber(uint64_t value);
int getNextFrameNumber(uint64_t *value);
#endif
@ -374,16 +361,9 @@ int getADC(enum ADCINDEX ind);
int setHighVoltage(int val);
// parameters - timing, extsig
#ifdef EIGERD
int setMaster(enum MASTERINDEX m);
int setTop(enum TOPINDEX t);
int isTop(int *retval);
#if defined(MYTHEN3D) || defined(EIGERD) || defined(GOTTHARDD)
int isMaster();
#endif
#if defined(MYTHEN3D) || defined(EIGERD) || defined(GOTTHARDD) || \
defined(GOTTHARD2D)
int isMaster(int *retval);
#endif
#ifdef GOTTHARD2D
void updatingRegisters();
#endif
@ -407,8 +387,8 @@ void calcChecksum(mac_conf *mac, int sourceip, int destip);
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARD2D)
void setNumberofUDPInterfaces(int val);
#endif
int getNumberofUDPInterfaces();
#endif
#if defined(JUNGFRAUD) || defined(EIGERD)
int getNumberofDestinations(int *retval);

6
slsDetectorServers/slsDetectorServer/include/slsDetectorServer_funcs.h
View File

@ -245,7 +245,6 @@ int get_pattern(int);
int load_default_pattern(int);
int get_all_threshold_energy(int);
int get_master(int);
int set_master(int);
int get_csr();
int set_gain_caps(int);
int get_gain_caps(int);
@ -285,12 +284,9 @@ int update_detector_server(int);
int receive_program(int file_des, enum PROGRAM_INDEX index);
void receive_program_via_blackfin(int file_des, enum PROGRAM_INDEX index,
char *functionType, uint64_t filesize,
char *checksum, char *serverName,
int forceDeleteNormalFile);
char *checksum, char *serverName);
void receive_program_default(int file_des, enum PROGRAM_INDEX index,
char *functionType, uint64_t filesize,
char *checksum, char *serverName);
int get_update_mode(int);
int set_update_mode(int);
int get_top(int);
int set_top(int);

5
slsDetectorServers/slsDetectorServer/src/UDPPacketHeaderGenerator.c
View File

@ -32,11 +32,6 @@ uint64_t udpFrameNumber = 0;
uint32_t getUDPPacketNumber() { return udpPacketNumber; }
uint64_t getUDPFrameNumber() { return udpFrameNumber; }
void setUDPFrameNumber(uint64_t fnum) {
LOG(logINFO, ("Setting next frame number also for 1g to %lld\n", fnum));
// this gets incremented before setting it
udpFrameNumber = fnum - 1;
}
void createUDPPacketHeader(char *buffer, uint16_t id) {
memset(buffer, 0, sizeof(sls_detector_header));

8
slsDetectorServers/slsDetectorServer/src/common.c
View File

@ -74,14 +74,8 @@ int getTimeFromString(char *buf, time_t *result) {
// remove timezone as strptime cannot validate timezone despite
// documentation (for blackfin)
LOG(logDEBUG, ("kernel v %s\n", buffer));
char timezone[8] = {0};
strcpy(timezone, "CEST");
const char *timezone = {"CEST"};
char *res = strstr(buffer, timezone);
// remove CET as well
if (res == NULL) {
strcpy(timezone, "CET");
res = strstr(buffer, timezone);
}
if (res != NULL) {
size_t cestPos = res - buffer;
size_t pos = cestPos + strlen(timezone) + 1;

109
slsDetectorServers/slsDetectorServer/src/programViaBlackfin.c
View File

@ -7,7 +7,6 @@
#include "slsDetectorServer_defs.h"
#include <string.h>
#include <sys/stat.h>
#include <sys/sysinfo.h>
#include <unistd.h> // usleep
@ -39,9 +38,6 @@
#define CMD_GET_AMD_FLASH "dmesg | grep Amd"
#define CMD_CREATE_DEVICE_FILE_PART1 "mknod"
#define CMD_CREATE_DEVICE_FILE_PART2 "c 90 6"
#define FLASH_BUFFER_MEMORY_SIZE (128 * 1024) // 500 KB
// clang-format on
@ -278,8 +274,7 @@ int allowUpdate(char *mess, char *functionType) {
getKernelVersion(retvals);
snprintf(mess, MAX_STR_LENGTH,
"Could not update %s. Kernel version %s is too old to "
"update the Amd flash/ root directory. Most likely, blackfin "
"needs rescue or replacement. Please contact us.\n",
"update the Amd flash/ root directory. Most likely, blackfin needs rescue or replacement. Please contact us.\n",
functionType, retvals);
LOG(logERROR, (mess));
return FAIL;
@ -324,7 +319,7 @@ int preparetoCopyProgram(char *mess, char *functionType, FILE **fd,
int eraseAndWriteToFlash(char *mess, enum PROGRAM_INDEX index,
char *functionType, char *clientChecksum,
ssize_t fsize, int forceDeleteNormalFile) {
ssize_t fsize) {
memset(messageType, 0, sizeof(messageType));
strcpy(messageType, functionType);
@ -335,8 +330,7 @@ int eraseAndWriteToFlash(char *mess, enum PROGRAM_INDEX index,
FILE *flashfd = NULL;
FILE *srcfd = NULL;
if (openFileForFlash(mess, index, &flashfd, &srcfd, forceDeleteNormalFile) ==
FAIL) {
if (openFileForFlash(mess, &flashfd, &srcfd) == FAIL) {
return FAIL;
}
@ -440,8 +434,7 @@ int getDrive(char *mess, enum PROGRAM_INDEX index) {
return OK;
}
int openFileForFlash(char *mess, enum PROGRAM_INDEX index, FILE **flashfd, FILE **srcfd,
int forceDeleteNormalFile) {
int openFileForFlash(char *mess, FILE **flashfd, FILE **srcfd) {
// open src file
*srcfd = fopen(TEMP_PROG_FILE_NAME, "r");
if (*srcfd == NULL) {
@ -454,11 +447,6 @@ int openFileForFlash(char *mess, enum PROGRAM_INDEX index, FILE **flashfd, FILE
}
LOG(logDEBUG1, ("Temp file ready for reading\n"));
if (checkNormalFile(mess, index, forceDeleteNormalFile) == FAIL) {
fclose(*srcfd);
return FAIL;
}
// open flash drive for writing
*flashfd = fopen(flashDriveName, "w");
if (*flashfd == NULL) {
@ -474,95 +462,6 @@ int openFileForFlash(char *mess, enum PROGRAM_INDEX index, FILE **flashfd, FILE
return OK;
}
int checkNormalFile(char *mess, enum PROGRAM_INDEX index, int forceDeleteNormalFile) {
#ifndef VIRTUAL
// check if its a normal file or special file
struct stat buf;
if (stat(flashDriveName, &buf) == -1) {
sprintf(mess,
"Could not %s. Unable to find the flash drive %s\n",
messageType, flashDriveName);
LOG(logERROR, (mess));
return FAIL;
}
// zero = normal file (not char special drive file)
if (!S_ISCHR(buf.st_mode)) {
// kernel memory is not permanent
if (index != PROGRAM_FPGA) {
sprintf(mess,
"Could not %s. The flash drive found is a normal file. "
"Reboot board using 'rebootcontroller' command to load "
"proper device tree\n",
messageType);
LOG(logERROR, (mess));
return FAIL;
}
// user does not allow to fix it (default)
if (forceDeleteNormalFile == 0) {
sprintf(mess,
"Could not %s. The flash drive %s found for fpga programming is a normal file. To "
"fix this (by deleting this file, creating the flash drive and proceeding with "
"programming), re-run the programming command 'programfpga' with parameter "
"'--force-delete-normal-file'\n",
messageType, flashDriveName);
LOG(logERROR, (mess));
return FAIL;
}
// fpga memory stays after a reboot, user allowed to fix it
LOG(logWARNING, ("Flash drive invalidated (normal file). Fixing it...\n"));
// user allows to fix it, so force delete normal file
char cmd[MAX_STR_LENGTH] = {0};
char retvals[MAX_STR_LENGTH] = {0};
if (snprintf(cmd, MAX_STR_LENGTH, "rm %s", flashDriveName) >=
MAX_STR_LENGTH) {
sprintf(mess,
"Could not update %s. Command to delete normal file %s is "
"too long\n",
messageType, flashDriveName);
LOG(logERROR, (mess));
return FAIL;
}
if (executeCommand(cmd, retvals, logDEBUG1) == FAIL) {
snprintf(
mess, MAX_STR_LENGTH,
"Could not update %s. (could not delete normal file %s: %s)\n",
messageType, flashDriveName, retvals);
LOG(logERROR, (mess));
return FAIL;
}
LOG(logINFO, ("\tDeleted Normal File (%s)\n", flashDriveName));
// create special drive
if (snprintf(cmd, MAX_STR_LENGTH, "%s %s %s",
CMD_CREATE_DEVICE_FILE_PART1, flashDriveName,
CMD_CREATE_DEVICE_FILE_PART2) >= MAX_STR_LENGTH) {
sprintf(mess,
"Could not update %s. Command to create special file %s is "
"too long\n",
messageType, flashDriveName);
LOG(logERROR, (mess));
return FAIL;
}
if (executeCommand(cmd, retvals, logDEBUG1) == FAIL) {
snprintf(
mess, MAX_STR_LENGTH,
"Could not update %s. (could not create special file %s: %s)\n",
messageType, flashDriveName, retvals);
LOG(logERROR, (mess));
return FAIL;
}
LOG(logINFO, ("\tSpecial File created (%s)\n", flashDriveName));
} else {
LOG(logINFO, ("\tValidated flash drive (not a normal file)\n"));
}
#endif
return OK;
}
int eraseFlash(char *mess) {
LOG(logINFO, ("\tErasing Flash...\n"));

25
slsDetectorServers/slsDetectorServer/src/programViaNios.c
View File

@ -8,7 +8,6 @@
#include <string.h>
#include <unistd.h> // usleep
#include <sys/stat.h>
/* global variables */
@ -147,30 +146,6 @@ int getDrive(char *mess, enum PROGRAM_INDEX index) {
}
int openFileForFlash(char *mess, FILE **flashfd) {
#ifndef VIRTUAL
// check if its a normal file or special file
struct stat buf;
if (stat(flashDriveName, &buf) == -1) {
sprintf(mess,
"Could not %s. Unable to find the flash drive %s\n",
messageType, flashDriveName);
LOG(logERROR, (mess));
return FAIL;
}
// zero = normal file (not char drive special file)
if (!S_ISCHR(buf.st_mode)) {
// memory is not permanent
sprintf(mess,
"Could not %s. The flash drive found is a normal file. "
"Reboot board using 'rebootcontroller' command to load "
"proper device tree\n",
messageType);
LOG(logERROR, (mess));
return FAIL;
}
LOG(logINFO, ("\tValidated flash drive (not a normal file)\n"));
#endif
*flashfd = fopen(flashDriveName, "w");
if (*flashfd == NULL) {
sprintf(mess,

120
slsDetectorServers/slsDetectorServer/src/slsDetectorServer.c
View File

@ -26,19 +26,11 @@ extern int sockfd;
extern int debugflag;
extern int updateFlag;
extern int checkModuleFlag;
extern int ignoreConfigFileFlag;
// Global variables from slsDetectorFunctionList
#ifdef GOTTHARDD
extern int phaseShift;
#endif
#if defined(GOTTHARDD) || defined(GOTTHARD2D) || defined(EIGERD) || \
defined(MYTHEN3D)
extern int masterCommandLine;
#endif
#ifdef EIGERD
extern int topCommandLine;
#endif
void error(char *msg) { perror(msg); }
@ -56,57 +48,26 @@ int main(int argc, char *argv[]) {
updateFlag = 0;
checkModuleFlag = 1;
int version = 0;
ignoreConfigFileFlag = 0;
#if defined(GOTTHARDD) || defined(GOTTHARD2D) || defined(EIGERD) || \
defined(MYTHEN3D)
masterCommandLine = -1;
#endif
#ifdef EIGERD
topCommandLine = -1;
#endif
// help message
const size_t helpMessageSize = 1200;
char helpMessage[helpMessageSize];
{
memset(helpMessage, 0, helpMessageSize);
int len = snprintf(
helpMessage, helpMessageSize,
char helpMessage[MAX_STR_LENGTH];
memset(helpMessage, 0, MAX_STR_LENGTH);
sprintf(
helpMessage,
"Usage: %s [arguments]\n"
"Possible arguments are:\n"
"\t-v, --version : Software version\n"
"\t-p, --port <port> : TCP communication port with client. "
"\n"
"\t-g, --nomodule : [Mythen3][Gotthard2] \n"
"\t Generic or No Module mode. Skips "
"detector type checks. \n"
"\t-p, --port <port> : TCP communication port with client. \n"
"\t-g, --nomodule : [Mythen3][Gotthard2] Generic or No "
"Module mode. Skips detector type checks. \n"
"\t-f, --phaseshift <value> : [Gotthard] only. Sets phase shift. \n"
"\t-d, --devel : Developer mode. Skips firmware "
"checks. \n"
"\t-u, --update : Update mode. Skips firmware checks "
"and "
"\t-d, --devel : Developer mode. Skips firmware checks. \n"
"\t-u, --update : Update mode. Skips firmware checks and "
"initial detector setup. \n"
"\t-i, --ignore-config : "
"[Eiger][Jungfrau][Gotthard][Gotthard2] \n"
"\t Ignore config file. \n"
"\t-m, --master <master> : "
"[Eiger][Mythen3][Gotthard][Gotthard2] \n"
"\t Set Master to 0 or 1. Precedence "
"over "
"config file. Only for virtual servers except Eiger. \n"
"\t-t, --top <top> : [Eiger] Set Top to 0 or 1. "
"Precedence "
"over config file. \n"
"\t-s, --stopserver : Stop server. Do not use as it is "
"created "
"by control server \n\n",
"\t-s, --stopserver : Stop server. Do not use as it is created "
"by "
"control server \n\n",
argv[0]);
if (len >= (int)helpMessageSize) {
LOG(logERROR, ("Help for Server command line arguments size %d "
"exceed capacity of %d characters\n",
len, helpMessageSize));
}
}
// parse command line for config
static struct option long_options[] = {
@ -119,9 +80,6 @@ int main(int argc, char *argv[]) {
{"nomodule", no_argument, NULL, 'g'}, // generic
{"devel", no_argument, NULL, 'd'},
{"update", no_argument, NULL, 'u'},
{"ignore-config", no_argument, NULL, 'i'},
{"master", required_argument, NULL, 'm'},
{"top", required_argument, NULL, 't'},
{"stopserver", no_argument, NULL, 's'},
{NULL, 0, NULL, 0}};
@ -131,8 +89,7 @@ int main(int argc, char *argv[]) {
int c = 0;
while (c != -1) {
c = getopt_long(argc, argv, "hvp:f:gduim:t:s", long_options,
&option_index);
c = getopt_long(argc, argv, "hvp:f:gdus", long_options, &option_index);
// Detect the end of the options
if (c == -1)
@ -203,57 +160,6 @@ int main(int argc, char *argv[]) {
isControlServer = 0;
break;
case 'i':
#if defined(EIGERD) || defined(GOTTHARDD) || defined(GOTTHARD2D) || \
defined(JUNGFRAUD)
LOG(logINFO, ("Ignoring config file\n"));
ignoreConfigFileFlag = 1;
#else
LOG(logERROR, ("No server config files for this detector\n"));
exit(EXIT_FAILURE);
#endif
break;
case 'm':
#if (defined(MYTHEN3D) || defined(GOTTHARDD) || defined(GOTTHARD2D)) && \
!defined(VIRTUAL)
LOG(logERROR, ("Cannot set master via the detector server for this "
"detector\n"));
exit(EXIT_FAILURE);
#elif defined(GOTTHARDD) || defined(GOTTHARD2D) || defined(EIGERD) || \
defined(MYTHEN3D)
if (sscanf(optarg, "%d", &masterCommandLine) != 1) {
LOG(logERROR, ("Cannot scan master argument\n%s", helpMessage));
exit(EXIT_FAILURE);
}
if (masterCommandLine == 1) {
LOG(logINFO, ("Detector Master mode\n"));
} else {
LOG(logINFO, ("Detector Slave mode\n"));
}
#else
LOG(logERROR, ("No master implemented for this detector server\n"));
exit(EXIT_FAILURE);
#endif
break;
case 't':
#ifdef EIGERD
if (sscanf(optarg, "%d", &topCommandLine) != 1) {
LOG(logERROR, ("Cannot scan top argument\n%s", helpMessage));
exit(EXIT_FAILURE);
}
if (topCommandLine == 1) {
LOG(logINFO, ("Detector Top mode\n"));
} else {
LOG(logINFO, ("Detector Bottom mode\n"));
}
#else
LOG(logERROR, ("No top implemented for this detector server\n"));
exit(EXIT_FAILURE);
#endif
break;
case 'h':
printf("%s", helpMessage);
exit(EXIT_SUCCESS);

273
slsDetectorServers/slsDetectorServer/src/slsDetectorServer_funcs.c
View File

@ -37,8 +37,6 @@ const enum detectorType myDetectorType = GOTTHARD2;
const enum detectorType myDetectorType = GENERIC;
#endif
#define LOCALHOSTIP_INT 2130706433
// Global variables from communication_funcs
extern int lockStatus;
extern uint32_t lastClientIP;
@ -54,7 +52,6 @@ int sockfd = 0;
int debugflag = 0;
int updateFlag = 0;
int checkModuleFlag = 1;
int ignoreConfigFileFlag = 0;
udpStruct udpDetails[MAX_UDP_DESTINATION];
int numUdpDestinations = 1;
@ -81,7 +78,8 @@ char scanErrMessage[MAX_STR_LENGTH] = "";
/* initialization functions */
int updateModeAllowedFunction(int file_des) {
enum detFuncs allowedFuncs[] = {F_EXEC_COMMAND,
unsigned int listsize = 19;
enum detFuncs list[] = {F_EXEC_COMMAND,
F_GET_DETECTOR_TYPE,
F_GET_FIRMWARE_VERSION,
F_GET_SERVER_VERSION,
@ -99,14 +97,9 @@ int updateModeAllowedFunction(int file_des) {
F_UPDATE_KERNEL,
F_UPDATE_DETECTOR_SERVER,
F_GET_UPDATE_MODE,
F_SET_UPDATE_MODE,
F_GET_NUM_CHANNELS,
F_GET_NUM_INTERFACES,
F_ACTIVATE};
size_t allowedFuncsSize = sizeof(allowedFuncs) / sizeof(enum detFuncs);
for (unsigned int i = 0; i < allowedFuncsSize; ++i) {
if ((unsigned int)fnum == allowedFuncs[i]) {
F_SET_UPDATE_MODE};
for (unsigned int i = 0; i < listsize; ++i) {
if ((unsigned int)fnum == list[i]) {
return OK;
}
}
@ -126,11 +119,10 @@ int printSocketReadError() {
}
void init_detector() {
memset(udpDetails, 0, sizeof(udpDetails));
#ifdef VIRTUAL
LOG(logINFO, ("This is a VIRTUAL detector\n"));
udpDetails[0].srcip = LOCALHOSTIP_INT;
#endif
memset(udpDetails, 0, sizeof(udpDetails));
udpDetails[0].srcport = DEFAULT_UDP_SRC_PORTNO;
udpDetails[0].dstport = DEFAULT_UDP_DST_PORTNO;
#ifdef EIGERD
@ -469,9 +461,6 @@ void function_table() {
flist[F_UPDATE_DETECTOR_SERVER] = &update_detector_server;
flist[F_GET_UPDATE_MODE] = &get_update_mode;
flist[F_SET_UPDATE_MODE] = &set_update_mode;
flist[F_SET_MASTER] = &set_master;
flist[F_GET_TOP] = &get_top;
flist[F_SET_TOP] = &set_top;
// check
if (NUM_DET_FUNCTIONS >= RECEIVER_ENUM_START) {
@ -2819,9 +2808,6 @@ int set_dynamic_range(int file_des) {
#endif
#if defined(EIGERD) || defined(MYTHEN3D)
case 8:
#ifdef EIGERD
case 12:
#endif
case 16:
case 32:
#endif
@ -2829,25 +2815,14 @@ int set_dynamic_range(int file_des) {
defined(MOENCHD) || defined(GOTTHARD2D)
case 16:
#endif
if (dr >= 0) {
ret = setDynamicRange(dr);
if (ret == FAIL) {
sprintf(mess, "Could not set dynamic range to %d\n", dr);
LOG(logERROR, (mess));
}
}
// get
if (ret == OK) {
ret = getDynamicRange(&retval);
if (ret == FAIL) {
strcpy(mess, "Could not get dynamic range\n");
LOG(logERROR, (mess));
} else {
retval = setDynamicRange(dr);
LOG(logDEBUG1, ("Dynamic range: %d\n", retval));
if (retval == -1) {
ret = FAIL;
sprintf(mess, "Could not get dynamic range.\n");
LOG(logERROR, (mess));
}
validate(&ret, mess, dr, retval, "set dynamic range", DEC);
}
}
break;
default:
modeNotImplemented("Dynamic range", dr);
@ -2957,7 +2932,7 @@ int enable_ten_giga(int file_des) {
if (receiveData(file_des, &arg, sizeof(arg), INT32) < 0)
return printSocketReadError();
LOG(logDEBUG, ("Setting 10GbE: %d\n", arg));
LOG(logINFOBLUE, ("Setting 10GbE: %d\n", arg));
#if defined(JUNGFRAUD) || defined(GOTTHARDD) || defined(GOTTHARD2D)
functionNotImplemented();
@ -3995,6 +3970,7 @@ int check_version(int file_des) {
return printSocketReadError();
// check software- firmware compatibility and basic tests
if (isControlServer) {
LOG(logDEBUG1, ("Checking software-firmware compatibility and basic "
"test result\n"));
@ -4003,12 +3979,12 @@ int check_version(int file_des) {
usleep(3 * 1000 * 1000);
if (!isInitCheckDone()) {
ret = FAIL;
strcpy(mess, "Server Initialization still not done done in server. "
"Unexpected.\n");
strcpy(mess, "Firmware Software Compatibility Check (Server "
"Initialization) "
"still not done done in server. Unexpected.\n");
LOG(logERROR, (mess));
}
}
// check firmware check result
if (ret == OK) {
char *firmware_message = NULL;
@ -4018,6 +3994,7 @@ int check_version(int file_des) {
LOG(logERROR, (mess));
}
}
}
if (ret == OK) {
LOG(logDEBUG1,
@ -4434,10 +4411,9 @@ int set_next_frame_number(int file_des) {
if (receiveData(file_des, &arg, sizeof(arg), INT64) < 0)
return printSocketReadError();
LOG(logDEBUG1, ("Setting next frame number to %llu\n", arg));
LOG(logINFO, ("Setting next frame number to %llu\n", arg));
#if (!defined(EIGERD)) && (!defined(JUNGFRAUD)) && (!defined(MOENCHD)) && \
(!defined(CHIPTESTBOARDD))
#if (!defined(EIGERD)) && (!defined(JUNGFRAUD))
functionNotImplemented();
#else
// only set
@ -4447,7 +4423,7 @@ int set_next_frame_number(int file_des) {
sprintf(mess, "Could not set next frame number. Cannot be 0.\n");
LOG(logERROR, (mess));
}
#if (defined(EIGERD)) || (defined(MOENCHD)) || (defined(CHIPTESTBOARDD))
#ifdef EIGERD
else if (arg > UDP_HEADER_MAX_FRAME_VALUE) {
ret = FAIL;
#ifdef VIRTUAL
@ -4467,18 +4443,16 @@ int set_next_frame_number(int file_des) {
else {
ret = setNextFrameNumber(arg);
if (ret == FAIL) {
sprintf(
mess, "Could not set next frame number. %s\n",
(myDetectorType == EIGER ? "Failed to map address" : ""));
sprintf(mess, "Could not set next frame number. Failed to "
"map address.\n");
LOG(logERROR, (mess));
}
if (ret == OK) {
uint64_t retval = 0;
ret = getNextFrameNumber(&retval);
if (ret == FAIL) {
sprintf(mess, "Could not set next frame number. %s\n",
(myDetectorType == EIGER ? "Failed to map address"
: ""));
sprintf(mess, "Could not get next frame number. Failed "
"to map address.\n");
LOG(logERROR, (mess));
} else if (ret == -2) {
sprintf(mess, "Inconsistent next frame number from "
@ -4515,15 +4489,14 @@ int get_next_frame_number(int file_des) {
LOG(logDEBUG1, ("Getting next frame number \n"));
#if (!defined(EIGERD)) && (!defined(JUNGFRAUD)) && (!defined(MOENCHD)) && \
(!defined(CHIPTESTBOARDD))
#if (!defined(EIGERD)) && (!defined(JUNGFRAUD))
functionNotImplemented();
#else
// get
ret = getNextFrameNumber(&retval);
if (ret == FAIL) {
sprintf(mess, "Could not set next frame number. %s\n",
(myDetectorType == EIGER ? "Failed to map address" : ""));
sprintf(mess, "Could not get next frame number. Failed to map "
"address.\n");
LOG(logERROR, (mess));
} else if (ret == -2) {
sprintf(mess, "Inconsistent next frame number from left and right "
@ -4666,17 +4639,11 @@ int set_read_n_rows(int file_des) {
LOG(logERROR, (mess));
} else {
#ifdef EIGERD
int dr = 0;
ret = getDynamicRange(&dr);
int dr = setDynamicRange(GET_FLAG);
int isTenGiga = enableTenGigabitEthernet(GET_FLAG);
unsigned int maxnl = MAX_ROWS_PER_READOUT;
unsigned int maxnp = (isTenGiga ? 4 : 16) * dr;
// get dr fail
if (ret == FAIL) {
strcpy(mess,
"Could not read n rows (failed to get dynamic range)\n");
LOG(logERROR, (mess));
} else if ((arg * maxnp) % maxnl) {
if ((arg * maxnp) % maxnl) {
ret = FAIL;
sprintf(mess,
"Could not set number of rows to %d. For %d bit "
@ -4758,22 +4725,19 @@ void calculate_and_set_position() {
LOG(logERROR, (mess));
return;
}
// calculating new position
int modulePorts[2] = {1, 1};
// position does change for eiger and jungfrau (2 interfaces)
#if defined(EIGERD)
modulePorts[1] = getNumberofUDPInterfaces(); // horz
#elif defined(JUNGFRAUD)
modulePorts[0] = getNumberofUDPInterfaces(); // vert
int maxy = maxydet;
// position does not change for gotthard2 (2 interfaces)
#ifdef JUNGFRAUD
maxy *= getNumberofUDPInterfaces();
#endif
int maxy = maxydet * modulePorts[0];
int pos[2] = {0, 0};
// row
pos[0] = (detectorId % maxy);
// col for horiz. udp ports
pos[1] = (detectorId / maxy) * modulePorts[1];
pos[1] = (detectorId / maxy);
#ifdef EIGERD
pos[1] *= 2;
#endif
LOG(logDEBUG, ("Setting Positions (%d,%d)\n", pos[0], pos[1]));
if (setDetectorPosition(pos) == FAIL) {
ret = FAIL;
@ -4884,15 +4848,12 @@ int is_udp_configured() {
LOG(logWARNING, ("%s", configureMessage));
return FAIL;
}
// virtual: no check (can be eth name: lo, ip: 127.0.0.1)
#ifndef VIRTUAL
if (udpDetails[i].dstmac == 0) {
sprintf(configureMessage,
"udp destination mac not configured [entry:%d]\n", i);
LOG(logWARNING, ("%s", configureMessage));
return FAIL;
}
#endif
#if defined(JUNGFRAUD) || defined(GOTTHARD2D)
if (getNumberofUDPInterfaces() == 2) {
if (udpDetails[i].srcip2 == 0) {
@ -4913,14 +4874,12 @@ int is_udp_configured() {
LOG(logWARNING, ("%s", configureMessage));
return FAIL;
}
#ifndef VIRTUAL
if (udpDetails[i].dstmac2 == 0) {
sprintf(configureMessage,
"udp destination mac2 not configured [entry:%d]\n", i);
LOG(logWARNING, ("%s", configureMessage));
return FAIL;
}
#endif
}
#endif
}
@ -5361,16 +5320,7 @@ int set_num_interfaces(int file_des) {
LOG(logINFO, ("Setting number of interfaces: %d\n", arg));
#if !defined(JUNGFRAUD) && !defined(GOTTHARD2D)
// fixed number of udp interfaces
int num_interfaces = getNumberofUDPInterfaces();
if (arg != num_interfaces) {
ret = FAIL;
sprintf(mess,
"Could not set number of interfaces. Invalid value: %d. Must "
"be %d\n",
arg, num_interfaces);
LOG(logERROR, (mess));
}
functionNotImplemented();
#else
// only set
if (Server_VerifyLock() == OK) {
@ -5430,9 +5380,12 @@ int get_num_interfaces(int file_des) {
int retval = -1;
LOG(logDEBUG1, ("Getting number of udp interfaces\n"));
#if !defined(JUNGFRAUD) && !defined(GOTTHARD2D)
retval = 1;
#else
// get only
retval = getNumberofUDPInterfaces();
#endif
LOG(logDEBUG1, ("Number of udp interfaces retval: %u\n", retval));
return Server_SendResult(file_des, INT32, &retval, sizeof(retval));
}
@ -6930,7 +6883,11 @@ int get_receiver_parameters(int file_des) {
// sending real detector parameters
// udp interfaces
#if defined(JUNGFRAUD) || defined(GOTTHARD2D)
i32 = getNumberofUDPInterfaces();
#else
i32 = 1;
#endif
n += sendData(file_des, &i32, sizeof(i32), INT32);
if (n < 0)
return printSocketReadError();
@ -7134,10 +7091,7 @@ int get_receiver_parameters(int file_des) {
}
// dynamic range
ret = getDynamicRange(&i32);
if (ret == FAIL) {
i32 = 0;
}
i32 = setDynamicRange(GET_FLAG);
n += sendData(file_des, &i32, sizeof(i32), INT32);
if (n < 0)
return printSocketReadError();
@ -8219,60 +8173,14 @@ int get_master(int file_des) {
LOG(logDEBUG1, ("Getting master\n"));
#if !defined(MYTHEN3D) && !defined(EIGERD) && !defined(GOTTHARDD) && \
!defined(GOTTHARD2D)
#if !defined(MYTHEN3D) && !defined(EIGERD) && !defined(GOTTHARDD)
functionNotImplemented();
#else
ret = isMaster(&retval);
if (ret == FAIL) {
strcpy(mess, "Could not get master\n");
LOG(logERROR, (mess));
}
retval = isMaster();
#endif
return Server_SendResult(file_des, INT32, &retval, sizeof(retval));
}
int set_master(int file_des) {
ret = OK;
memset(mess, 0, sizeof(mess));
int arg = -1;
if (receiveData(file_des, &arg, sizeof(arg), INT32) < 0)
return printSocketReadError();
LOG(logDEBUG1, ("Setting master: %u\n", (int)arg));
#ifndef EIGERD
functionNotImplemented();
#else
// only set
if (Server_VerifyLock() == OK) {
if ((check_detector_idle("set master") == OK) &&
(arg != 0 && arg != 1)) {
ret = FAIL;
sprintf(mess, "Could not set master. Invalid argument %d.\n", arg);
LOG(logERROR, (mess));
} else {
ret = setMaster(arg == 1 ? OW_MASTER : OW_SLAVE);
if (ret == FAIL) {
strcpy(mess, "Could not set master\n");
LOG(logERROR, (mess));
} else {
int retval = 0;
ret = isMaster(&retval);
if (ret == FAIL) {
strcpy(mess, "Could not get master\n");
LOG(logERROR, (mess));
} else {
LOG(logDEBUG1, ("master retval: %u\n", retval));
validate(&ret, mess, arg, retval, "set master", DEC);
}
}
}
}
#endif
return Server_SendResult(file_des, INT32, NULL, 0);
}
int get_csr(int file_des) {
ret = OK;
memset(mess, 0, sizeof(mess));
@ -9444,15 +9352,6 @@ int receive_program(int file_des, enum PROGRAM_INDEX index) {
LOG(logINFO, ("\tServer Name: %s\n", serverName));
}
#if !defined(GOTTHARD2D) && !defined(MYTHEN3D) && !defined(EIGERD)
int forceDeleteNormalFile = 0;
if (receiveData(file_des, &forceDeleteNormalFile,
sizeof(forceDeleteNormalFile), INT32) < 0)
return printSocketReadError();
LOG(logINFO,
("\tForce Delete Normal File flag? %s\n", (forceDeleteNormalFile ? "Y" : "N")));
#endif
// in same folder as current process (will also work for virtual then
// with write permissions)
{
@ -9477,7 +9376,7 @@ int receive_program(int file_des, enum PROGRAM_INDEX index) {
checksum, serverName);
#else
receive_program_via_blackfin(file_des, index, functionType,
filesize, checksum, serverName, forceDeleteNormalFile);
filesize, checksum, serverName);
#endif
}
@ -9493,7 +9392,7 @@ int receive_program(int file_des, enum PROGRAM_INDEX index) {
void receive_program_via_blackfin(int file_des, enum PROGRAM_INDEX index,
char *functionType, uint64_t filesize,
char *checksum, char *serverName, int forceDeleteNormalFile) {
char *checksum, char *serverName) {
#if !defined(JUNGFRAUD) && !defined(CHIPTESTBOARDD) && !defined(MOENCHD) && \
!defined(GOTTHARDD)
@ -9592,7 +9491,7 @@ void receive_program_via_blackfin(int file_des, enum PROGRAM_INDEX index,
case PROGRAM_FPGA:
case PROGRAM_KERNEL:
ret = eraseAndWriteToFlash(mess, index, functionType, checksum,
totalsize, forceDeleteNormalFile);
totalsize);
break;
case PROGRAM_SERVER:
ret = moveBinaryFile(mess, serverName, TEMP_PROG_FILE_NAME,
@ -9756,69 +9655,3 @@ int set_update_mode(int file_des) {
return Server_SendResult(file_des, INT32, NULL, 0);
}
int get_top(int file_des) {
ret = OK;
memset(mess, 0, sizeof(mess));
int retval = -1;
LOG(logDEBUG1, ("Getting top\n"));
#ifndef EIGERD
functionNotImplemented();
#else
// get only
ret = isTop(&retval);
if (ret == FAIL) {
strcpy(mess, "Could not get Top\n");
LOG(logERROR, (mess));
} else {
LOG(logDEBUG1, ("retval top: %d\n", retval));
}
#endif
return Server_SendResult(file_des, INT32, &retval, sizeof(retval));
}
int set_top(int file_des) {
ret = OK;
memset(mess, 0, sizeof(mess));
int arg = -1;
if (receiveData(file_des, &arg, sizeof(arg), INT32) < 0)
return printSocketReadError();
LOG(logDEBUG1, ("Setting top : %u\n", arg));
#ifndef EIGERD
functionNotImplemented();
#else
// only set
if (Server_VerifyLock() == OK) {
if (arg != 0 && arg != 1) {
ret = FAIL;
sprintf(
mess,
"Could not set top mode. Invalid value: %d. Must be 0 or 1\n",
arg);
LOG(logERROR, (mess));
} else {
ret = setTop(arg == 1 ? OW_TOP : OW_BOTTOM);
if (ret == FAIL) {
sprintf(mess, "Could not set %s\n",
(arg == 1 ? "Top" : "Bottom"));
LOG(logERROR, (mess));
} else {
int retval = -1;
ret = isTop(&retval);
if (ret == FAIL) {
strcpy(mess, "Could not get Top mode\n");
LOG(logERROR, (mess));
} else {
LOG(logDEBUG1, ("retval top: %d\n", retval));
validate(&ret, mess, arg, retval, "set top mode", DEC);
}
}
}
}
#endif
return Server_SendResult(file_des, INT32, NULL, 0);
}

1
slsDetectorSoftware/CMakeLists.txt
View File

@ -7,7 +7,6 @@ set(SOURCES
src/CmdProxy.cpp
src/CmdParser.cpp
src/Pattern.cpp
src/CtbConfig.cpp
)
add_library(slsDetectorObject OBJECT

74
slsDetectorSoftware/include/sls/Detector.h
View File

@ -193,12 +193,6 @@ class Detector {
*/
void setFlipRows(bool value, Positions pos = {});
/** [Eiger][Mythen3][Gotthard1] via stop server **/
Result<bool> getMaster(Positions pos = {}) const;
/** [Eiger] Set half module to master and the others to slaves */
void setMaster(bool value, int pos);
Result<bool> isVirtualDetectorServer(Positions pos = {}) const;
///@}
@ -290,7 +284,7 @@ class Detector {
Result<int> getDynamicRange(Positions pos = {}) const;
/**
* [Eiger] Options: 4, 8, 12, 16, 32. If i is 32, also sets clkdivider to 2,
* [Eiger] Options: 4, 8, 16, 32. If i is 32, also sets clkdivider to 2,
* else sets clkdivider to 1 \n [Mythen3] Options: 8, 16, 32 \n
* [Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16
*/
@ -573,7 +567,7 @@ class Detector {
/** Non blocking: start detector acquisition. Status changes to RUNNING or
* WAITING and automatically returns to idle at the end of acquisition.
[Mythen3] Master starts acquisition first */
void startDetector(Positions pos = {});
void startDetector();
/** [Mythen3] Non blocking: start detector readout of counters in chip.
* Status changes to TRANSMITTING and automatically returns to idle at the
@ -592,22 +586,19 @@ class Detector {
/** Options: IDLE, TRANSMITTING, RUNNING */
Result<defs::runStatus> getReceiverStatus(Positions pos = {}) const;
/** Gets the number of frames caught for each port in receiver. */
Result<std::vector<int64_t>> getFramesCaught(Positions pos = {}) const;
Result<int64_t> getFramesCaught(Positions pos = {}) const;
/** Gets the number of missing packets for each port in receiver. Negative
* number denotes extra packets. */
Result<std::vector<int64_t>> getNumMissingPackets(Positions pos = {}) const;
/** Gets the number of missing packets for each port in receiver.
* Troubleshoot: If they are large numbers, convert it to signed to get
* number of access packets received */
Result<std::vector<uint64_t>>
getNumMissingPackets(Positions pos = {}) const;
/** Gets frame index for each port in receiver. */
Result<std::vector<int64_t>>
getRxCurrentFrameIndex(Positions pos = {}) const;
/** [Eiger][Jungfrau][Moench][CTB] */
/** [Eiger][Jungfrau] */
Result<uint64_t> getNextFrameNumber(Positions pos = {}) const;
/** [Eiger][Jungfrau][Moench][CTB] Stopping acquisition might result in
* different frame numbers for different modules.*/
/** [Eiger][Jungfrau] Stopping acquisition might result in different frame
* numbers for different modules.*/
void setNextFrameNumber(uint64_t value, Positions pos = {});
/** [Eiger][Mythen3] Sends an internal software trigger to the detector
@ -887,18 +878,10 @@ class Detector {
Result<sls::IpAddr> getRxLastClientIP(Positions pos = {}) const;
/** Get thread ids from the receiver in order of [parent, tcp, listener 0,
* processor 0, streamer 0, listener 1, processor 1, streamer 1, arping]. If
* no streamer yet or there is no second interface, it gives 0 in its place.
*/
* processor 0, streamer 0, listener 1, processor 1, streamer 1]. If no
* streamer yet or there is no second interface, it gives 0 in its place. */
Result<std::array<pid_t, NUM_RX_THREAD_IDS>>
getRxThreadIds(Positions pos = {}) const;
Result<bool> getRxArping(Positions pos = {}) const;
/** Starts a thread in slsReceiver to arping the interface it is listening
* every minute. Useful in 10G mode. */
void setRxArping(bool value, Positions pos = {});
///@}
/** @name File */
@ -1156,18 +1139,12 @@ class Detector {
Result<bool> getDataStream(const defs::portPosition port,
Positions pos = {}) const;
/** [Eiger] enable or disable data streaming from left or right of detector
* for 10GbE. Default: enabled
/** [Eiger] enable or disable data streaming from left or right of detector.
* Default: enabled
*/
void setDataStream(const defs::portPosition port, const bool enable,
Positions pos = {});
/** [Eiger] Advanced */
Result<bool> getTop(Positions pos = {}) const;
/** [Eiger] Advanced. Default is hardware default */
void setTop(bool value, Positions pos = {});
///@}
/** @name Jungfrau Specific */
@ -1465,6 +1442,9 @@ class Detector {
* (internal gating). Gate index: 0-2, -1 for all */
Result<std::array<ns, 3>> getGateDelayForAllGates(Positions pos = {}) const;
/** [Eiger][Mythen3][Gotthard1] via stop server **/
Result<bool> getMaster(Positions pos = {}) const;
// TODO! check if we really want to expose this !!!!!
Result<int> getChipStatusRegister(Positions pos = {}) const;
@ -1613,14 +1593,6 @@ class Detector {
/** [CTB] Default is enabled. */
void setLEDEnable(bool enable, Positions pos = {});
void setDacNames(const std::vector<std::string> names);
std::vector<std::string> getDacNames() const;
defs::dacIndex getDacIndex(const std::string& name);
std::string getDacName(defs::dacIndex i);
///@}
/** @name Pattern */
@ -1755,13 +1727,10 @@ class Detector {
/** [Jungfrau][Gotthard][CTB][Moench][Mythen3][Gotthard2]
* Advanced user Function!
* Program firmware from command line, after which detector controller is
* rebooted. forceDeleteNormalFile is true, if normal file found
* in device tree, it must be deleted, a new device drive created and
* programming continued.[Jungfrau][CTB][Moench] fname is a pof file (full
* path) \n [Mythen3][Gotthard2] fname is an rbf file (full path)
* rebooted. [Jungfrau][CTB][Moench] fname is a pof file (full path) \n
* [Mythen3][Gotthard2] fname is an rbf file (full path)
*/
void programFPGA(const std::string &fname, const bool forceDeleteNormalFile,
Positions pos = {});
void programFPGA(const std::string &fname, Positions pos = {});
/** [Jungfrau][CTB][Moench] Advanced user Function! */
void resetFPGA(Positions pos = {});
@ -1927,6 +1896,7 @@ class Detector {
*/
std::string getUserDetails() const;
Result<uint64_t> getRxCurrentFrameIndex(Positions pos = {}) const;
///@}
private:

125
slsDetectorSoftware/src/CmdProxy.cpp
View File

@ -1056,10 +1056,11 @@ std::string CmdProxy::TemperatureValues(int action) {
std::string CmdProxy::Dac(int action) {
std::ostringstream os;
os << cmd << ' ';
auto type = det->getDetectorType().squash();
// dac indices only for ctb
if (args.size() > 0 && action != defs::HELP_ACTION) {
if (is_int(args[0]) && type != defs::CHIPTESTBOARD) {
if (is_int(args[0]) &&
det->getDetectorType().squash() != defs::CHIPTESTBOARD) {
throw sls::RuntimeError(
"Dac indices can only be used for chip test board. Use daclist "
"to get list of dac names for current detector.");
@ -1076,14 +1077,7 @@ std::string CmdProxy::Dac(int action) {
if (args.empty())
WrongNumberOfParameters(1); // This prints slightly wrong
defs::dacIndex dacIndex{};
//TODO! Remove if
if (type == defs::CHIPTESTBOARD && !is_int(args[0])) {
dacIndex = det->getDacIndex(args[0]);
} else {
dacIndex = StringTo<defs::dacIndex>(args[0]);
}
defs::dacIndex dacIndex = StringTo<defs::dacIndex>(args[0]);
bool mV = false;
if (args.size() == 2) {
@ -1101,11 +1095,7 @@ std::string CmdProxy::Dac(int action) {
if (args.empty())
WrongNumberOfParameters(1); // This prints slightly wrong
defs::dacIndex dacIndex{};
if (type == defs::CHIPTESTBOARD && !is_int(args[0]))
dacIndex = det->getDacIndex(args[0]);
else
dacIndex = StringTo<defs::dacIndex>(args[0]);
defs::dacIndex dacIndex = StringTo<defs::dacIndex>(args[0]);
bool mV = false;
if (args.size() == 3) {
if ((args[2] != "mv") && (args[2] != "mV")) {
@ -1125,41 +1115,6 @@ std::string CmdProxy::Dac(int action) {
return os.str();
}
std::string CmdProxy::DacList(const int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == slsDetectorDefs::HELP_ACTION) {
os << "\n\t[dacname1 dacname2 .. dacname18] \n\t\t[ChipTestBoard] Set "
"the list of dac names for this detector.\n\t\t[All] Gets the "
"list "
"of "
"dac names for every dac for this detector."
<< '\n';
} else if (action == slsDetectorDefs::GET_ACTION) {
if (!args.empty()) {
WrongNumberOfParameters(0);
}
auto t = det->getDacNames();
os << sls::ToString(t) << '\n';
} else if (action == slsDetectorDefs::PUT_ACTION) {
if (det->getDetectorType().squash() != defs::CHIPTESTBOARD) {
throw sls::RuntimeError("This detector already has fixed dac "
"names. Cannot change them.");
}
if (det_id != -1) {
throw sls::RuntimeError("Cannot configure dacnames at module level");
}
if (args.size() != 18) {
WrongNumberOfParameters(18);
}
det->setDacNames(args);
os << ToString(args) << '\n';
} else {
throw sls::RuntimeError("Unknown action");
}
return os.str();
}
std::string CmdProxy::DacValues(int action) {
std::ostringstream os;
os << cmd << ' ';
@ -1179,15 +1134,13 @@ std::string CmdProxy::DacValues(int action) {
WrongNumberOfParameters(1);
}
auto t = det->getDacList();
auto names = det->getDacNames();
auto name_it = names.begin();
os << '[';
auto it = t.cbegin();
os << ToString(*name_it++) << ' ';
os << ToString(*it) << ' ';
os << OutString(det->getDAC(*it++, mv, std::vector<int>{det_id}))
<< (!args.empty() ? " mV" : "");
while (it != t.cend()) {
os << ", " << ToString(*name_it++) << ' ';
os << ", " << ToString(*it) << ' ';
os << OutString(det->getDAC(*it++, mv, std::vector<int>{det_id}))
<< (!args.empty() ? " mV" : "");
}
@ -1321,6 +1274,40 @@ std::string CmdProxy::DetectorStatus(int action) {
return os.str();
}
std::string CmdProxy::RxMissingPackets(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "Number of missing packets for each port in receiver. If "
"negative, they are packets in excess. "
<< '\n';
} else if (action == defs::GET_ACTION) {
if (!args.empty()) {
WrongNumberOfParameters(0);
}
auto mp = det->getNumMissingPackets(std::vector<int>{det_id});
/*
auto tmp = det->getNumMissingPackets(std::vector<int>{det_id});
// convert to signed missing packets (to get excess)
Result<std::vector<int64_t>> mp(tmp.size());
for (unsigned int i = 0; i < mp.size(); ++i) {
mp[i] = static_cast<int64_t>(tmp[i]);
}
OR
Result<std::vector<int64_t>> tmp;
for (auto val : tmp) {
mp.push_back(static_cast<int64_t>(val));
}
*/
os << OutString(mp) << '\n';
} else if (action == defs::PUT_ACTION) {
throw sls::RuntimeError("Cannot put");
} else {
throw sls::RuntimeError("Unknown action");
}
return os.str();
}
std::string CmdProxy::Scan(int action) {
std::ostringstream os;
os << cmd << ' ';
@ -1817,9 +1804,7 @@ std::string CmdProxy::DataStream(int action) {
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[left|right] [0, 1]\n\t[Eiger] Enables or disables data "
"streaming from left or/and right side of detector for 10 GbE "
"mode. "
"1 (enabled) "
"streaming from left or/and right side of detector. 1 (enabled) "
"by default."
<< '\n';
} else if (action == defs::GET_ACTION) {
@ -2879,31 +2864,19 @@ std::string CmdProxy::ProgramFpga(int action) {
std::ostringstream os;
os << cmd << ' ';
if (action == defs::HELP_ACTION) {
os << "[fname.pof | fname.rbf (full "
"path)][(opitonal)--force-delete-normal-file]\n\t[Jungfrau][Ctb]["
"Moench] Programs FPGA from pof file (full path). Then, detector "
"controller is rebooted. \n\t\tUse --force-delete-normal-file "
"argument, if normal file found in device tree, it must be "
"deleted, a new device drive created and programming "
"continued.\n\t[Mythen3][Gotthard2] Programs FPGA from rbf file "
"(full path). Then, detector controller is rebooted."
os << "[fname.pof | fname.rbf (full path)]\n\t[Jungfrau][Ctb][Moench] "
"Programs FPGA from pof file (full path). Then, detector "
"controller is rebooted \n\t[Mythen3][Gotthard2] Programs FPGA "
"from rbf file (full path). Then, detector controller is "
"rebooted."
<< '\n';
} else if (action == defs::GET_ACTION) {
throw sls::RuntimeError("Cannot get");
} else if (action == defs::PUT_ACTION) {
bool forceDeteleNormalFile = false;
if (args.size() == 2) {
if (args[1] != "--force-delete-normal-file") {
throw sls::RuntimeError(
"Could not scan second argument. Did you "
"mean --force-delete-normal-file?");
}
forceDeteleNormalFile = true;
} else if (args.size() != 1) {
if (args.size() != 1) {
WrongNumberOfParameters(1);
}
det->programFPGA(args[0], forceDeteleNormalFile,
std::vector<int>{det_id});
det->programFPGA(args[0], std::vector<int>{det_id});
os << "successful\n";
} else {
throw sls::RuntimeError("Unknown action");

72
slsDetectorSoftware/src/CmdProxy.h
View File

@ -784,7 +784,6 @@ class CmdProxy {
{"trimen", &CmdProxy::TrimEnergies},
{"gappixels", &CmdProxy::GapPixels},
{"fliprows", &CmdProxy::fliprows},
{"master", &CmdProxy::master},
/* acquisition parameters */
{"acquire", &CmdProxy::Acquire},
@ -837,7 +836,7 @@ class CmdProxy {
/* dacs */
{"dac", &CmdProxy::Dac},
{"daclist", &CmdProxy::DacList},
{"daclist", &CmdProxy::daclist},
{"dacvalues", &CmdProxy::DacValues},
{"resetdacs", &CmdProxy::ResetDacs},
{"defaultdac", &CmdProxy::DefaultDac},
@ -860,8 +859,7 @@ class CmdProxy {
{"rx_status", &CmdProxy::ReceiverStatus},
{"status", &CmdProxy::DetectorStatus},
{"rx_framescaught", &CmdProxy::rx_framescaught},
{"rx_missingpackets", &CmdProxy::rx_missingpackets},
{"rx_frameindex", &CmdProxy::rx_frameindex},
{"rx_missingpackets", &CmdProxy::RxMissingPackets},
{"nextframenumber", &CmdProxy::nextframenumber},
{"trigger", &CmdProxy::Trigger},
{"scan", &CmdProxy::Scan},
@ -905,7 +903,6 @@ class CmdProxy {
{"rx_lock", &CmdProxy::rx_lock},
{"rx_lastclient", &CmdProxy::rx_lastclient},
{"rx_threads", &CmdProxy::rx_threads},
{"rx_arping", &CmdProxy::rx_arping},
/* File */
{"fformat", &CmdProxy::fformat},
@ -944,7 +941,6 @@ class CmdProxy {
{"pulsechip", &CmdProxy::PulseChip},
{"quad", &CmdProxy::Quad},
{"datastream", &CmdProxy::DataStream},
{"top", &CmdProxy::top},
/* Jungfrau Specific */
{"chipversion", &CmdProxy::chipversion},
@ -1087,7 +1083,8 @@ class CmdProxy {
{"framecounter", &CmdProxy::framecounter},
{"runtime", &CmdProxy::runtime},
{"frametime", &CmdProxy::frametime},
{"user", &CmdProxy::UserDetails}
{"user", &CmdProxy::UserDetails},
{"rx_frameindex", &CmdProxy::rx_frameindex}
};
@ -1111,6 +1108,7 @@ class CmdProxy {
/* acquisition parameters */
std::string Acquire(int action);
std::string Exptime(int action);
std::string DynamicRange(int action);
std::string ReadoutSpeed(int action);
std::string Adcphase(int action);
std::string Dbitphase(int action);
@ -1124,7 +1122,6 @@ class CmdProxy {
std::string TemperatureValues(int action);
/* dacs */
std::string Dac(int action);
std::string DacList(int action);
std::string DacValues(int action);
std::string ResetDacs(int action);
std::string DefaultDac(int action);
@ -1283,12 +1280,6 @@ class CmdProxy {
"interfaces must be set to 2. slsReceiver and slsDetectorGui "
"does not handle.");
INTEGER_COMMAND_VEC_ID_GET(
master, getMaster, setMaster, StringTo<int>,
"[0, 1]\n\t[Eiger] Sets half module to master and "
"others to slaves.\n\t[Gotthard][Gotthard2][Mythen3][Eiger] "
"Gets if the current module/ half module is master.");
/* acquisition parameters */
INTEGER_COMMAND_SET_NOID_GET_ID(
@ -1336,7 +1327,7 @@ class CmdProxy {
dr, getDynamicRange, setDynamicRange, StringTo<int>,
"[value]\n\tDynamic Range or number of bits per "
"pixel in detector.\n\t"
"[Eiger] Options: 4, 8, 12, 16, 32. If set to 32, also sets "
"[Eiger] Options: 4, 8, 16, 32. If set to 32, also sets "
"clkdivider to 2, else to 0.\n\t"
"[Mythen3] Options: 8, 16, 32\n\t"
"[Jungfrau][Gotthard][Ctb][Moench][Mythen3][Gotthard2] 16");
@ -1466,6 +1457,10 @@ class CmdProxy {
/* dacs */
GET_COMMAND_NOID(
daclist, getDacList,
"\n\tGets the list of commands for every dac for this detector.");
/* on chip dacs */
INTEGER_USER_IND_COMMAND(
vchip_comp_fe, getOnChipDAC, setOnChipDAC, StringTo<int>,
@ -1520,7 +1515,7 @@ class CmdProxy {
"\n\tStops receiver listener for detector data packets and closes "
"current data file (if file write enabled).");
EXECUTE_SET_COMMAND(
EXECUTE_SET_COMMAND_NOID(
start, startDetector,
"\n\tStarts detector acquisition. Status changes to RUNNING or WAITING "
"and automatically returns to idle at the end of acquisition. If the "
@ -1537,22 +1532,16 @@ class CmdProxy {
"to IDLE or STOPPED. Goes to stop server.");
GET_COMMAND(rx_framescaught, getFramesCaught,
"\n\tNumber of frames caught by each port in receiver.");
"\n\tNumber of frames caught by receiver.");
GET_COMMAND(rx_missingpackets, getNumMissingPackets,
"\n\tNumber of missing packets for each port in receiver. If "
"negative, they are packets in excess. ");
"\n\tNumber of missing packets for each port in receiver.");
GET_COMMAND(rx_frameindex, getRxCurrentFrameIndex,
"\n\tCurrent frame index received for each port in receiver "
"during acquisition.");
INTEGER_COMMAND_VEC_ID(
nextframenumber, getNextFrameNumber, setNextFrameNumber,
StringTo<uint64_t>,
"[n_value]\n\t[Eiger][Jungfrau][Moench][CTB] Next frame number. "
"Stopping acquisition might result in different frame numbers for "
"different modules.");
INTEGER_COMMAND_VEC_ID(nextframenumber, getNextFrameNumber,
setNextFrameNumber, StringTo<uint64_t>,
"[n_value]\n\t[Eiger][Jungfrau] Next frame number. "
"Stopping acquisition might result in "
"different frame numbers for different modules.");
GET_COMMAND(scanerrmsg, getScanErrorMessage,
"\n\tGets Scan error message if scan ended in error for non "
@ -1748,16 +1737,13 @@ class CmdProxy {
rx_lastclient, getRxLastClientIP,
"\n\tClient IP Address that last communicated with the receiver.");
GET_COMMAND(rx_threads, getRxThreadIds,
"\n\tGet thread ids from the receiver in order of [parent, "
"tcp, listener 0, processor 0, streamer 0, listener 1, "
"processor 1, streamer 1, arping]. If no streamer yet or there "
"is no second interface, it gives 0 in its place.");
INTEGER_COMMAND_VEC_ID(rx_arping, getRxArping, setRxArping, StringTo<int>,
"[0, 1]\n\tStarts a thread in slsReceiver to arping "
"the interface it is "
"listening to every minute. Useful in 10G mode.");
GET_COMMAND(
rx_threads, getRxThreadIds,
"\n\tGet thread ids from the receiver in order of [parent, tcp, "
"listener 0, "
"processor 0, streamer 0, listener 1, processor 1, streamer 1]. If no "
"streamer yet or there is no second interface, it gives 0 in its "
"place.");
/* File */
@ -1909,10 +1895,6 @@ class CmdProxy {
"start of acquisition. 0 complete reset, 1 partial reset. Default is "
"complete reset. Advanced function!");
INTEGER_COMMAND_VEC_ID(
top, getTop, setTop, StringTo<int>,
"[0, 1]\n\t[Eiger] Sets half module to top (1), else bottom.");
/* Jungfrau Specific */
GET_COMMAND(chipversion, getChipVersion,
@ -2263,6 +2245,10 @@ class CmdProxy {
"ns|us|ms|s]\n\t[Jungfrau][Mythen3][Gotthard2][Moench]["
"CTB] Timestamp at a frame start."
"\n\t[Gotthard2] not in burst and auto mode.");
GET_COMMAND(
rx_frameindex, getRxCurrentFrameIndex,
"\n\tCurrent frame index received in receiver during acquisition.");
};
} // namespace sls

72
slsDetectorSoftware/src/CtbConfig.cpp
View File

@ -1,72 +0,0 @@
#include "CtbConfig.h"
#include "SharedMemory.h"
#include "sls/ToString.h"
#include "sls/string_utils.h"
#include <algorithm>
#include <fstream>
#include <sstream>
namespace sls {
CtbConfig::CtbConfig(){
for (size_t i=0; i!=num_dacs; ++i){
setDacName(i, "dac"+ToString(i));
}
}
void CtbConfig::check_index(size_t i) const {
if (!(i < num_dacs)) {
std::ostringstream oss;
oss << "DAC index is too large needs to be below " << num_dacs;
throw RuntimeError(oss.str());
}
}
void CtbConfig::check_size(const std::string &name) const {
if (name.empty())
throw RuntimeError("Name needs to be at least one character");
// dacname_length -1 to account for \0 termination
if (!(name.size() < (name_length - 1))) {
std::ostringstream oss;
oss << "Length of name needs to be less than " << name_length - 1
<< " chars";
throw RuntimeError(oss.str());
}
}
void CtbConfig::setDacName(size_t index, const std::string &name) {
check_index(index);
check_size(name);
char *dst = &dacnames[index * name_length];
memset(dst, '\0', name_length);
memcpy(dst, &name[0], name.size());
}
void CtbConfig::setDacNames(const std::vector<std::string>& names){
for (size_t i = 0; i!=num_dacs; ++i){
setDacName(i, names[i]);
}
}
std::string CtbConfig::getDacName(size_t index) const {
return dacnames + index * name_length;
}
std::vector<std::string> CtbConfig::getDacNames() const {
std::vector<std::string> names;
for (size_t i = 0; i != num_dacs; ++i)
names.push_back(getDacName(i));
return names;
}
const char* CtbConfig::shm_tag(){
return shm_tag_;
}
} // namespace sls

31
slsDetectorSoftware/src/CtbConfig.h
View File

@ -1,31 +0,0 @@
#pragma once
#include <string>
#include <vector>
namespace sls {
class CtbConfig {
static constexpr size_t name_length = 20;
static constexpr size_t num_dacs = 18;
static constexpr const char* shm_tag_ = "ctbdacs";
char dacnames[name_length * num_dacs]{};
void check_index(size_t i) const;
void check_size(const std::string &name) const;
public:
CtbConfig();
CtbConfig(const CtbConfig&) = default;
CtbConfig(CtbConfig&&) = default;
CtbConfig& operator=(const CtbConfig&) = default;
~CtbConfig() = default;
void setDacNames(const std::vector<std::string> &names);
void setDacName(size_t index, const std::string &name);
std::string getDacName(size_t index) const;
std::vector<std::string> getDacNames() const;
static const char* shm_tag();
};
} // namespace sls

170
slsDetectorSoftware/src/Detector.cpp
View File

@ -7,7 +7,6 @@
#include "CmdProxy.h"
#include "DetectorImpl.h"
#include "Module.h"
#include "CtbConfig.h"
#include "sls/Pattern.h"
#include "sls/container_utils.h"
#include "sls/file_utils.h"
@ -22,7 +21,6 @@
namespace sls {
void freeSharedMemory(int detectorIndex, int moduleIndex) {
// single module
if (moduleIndex >= 0) {
SharedMemory<sharedModule> moduleShm(detectorIndex, moduleIndex);
@ -46,11 +44,6 @@ void freeSharedMemory(int detectorIndex, int moduleIndex) {
SharedMemory<sharedModule> moduleShm(detectorIndex, i);
moduleShm.RemoveSharedMemory();
}
// Ctb configuration
SharedMemory<CtbConfig> ctbShm(detectorIndex, -1, CtbConfig::shm_tag());
if (ctbShm.IsExisting())
ctbShm.RemoveSharedMemory();
}
using defs = slsDetectorDefs;
@ -305,23 +298,6 @@ void Detector::setFlipRows(bool value, Positions pos) {
pimpl->Parallel(&Module::setFlipRows, pos, value);
}
Result<bool> Detector::getMaster(Positions pos) const {
return pimpl->Parallel(&Module::isMaster, pos);
}
void Detector::setMaster(bool master, int pos) {
// multi mod, set slaves first
if (master && size() > 1) {
if (pos == -1) {
throw RuntimeError("Master can be set only to a single module");
}
pimpl->Parallel(&Module::setMaster, {}, false);
pimpl->Parallel(&Module::setMaster, {pos}, master);
} else {
pimpl->Parallel(&Module::setMaster, {pos}, master);
}
}
Result<bool> Detector::isVirtualDetectorServer(Positions pos) const {
return pimpl->Parallel(&Module::isVirtualDetectorServer, pos);
}
@ -411,7 +387,7 @@ void Detector::setDynamicRange(int value) {
std::vector<int> Detector::getDynamicRangeList() const {
switch (getDetectorType().squash()) {
case defs::EIGER:
return std::vector<int>{4, 8, 12, 16, 32};
return std::vector<int>{4, 8, 16, 32};
case defs::MYTHEN3:
return std::vector<int>{8, 16, 32};
default:
@ -780,24 +756,22 @@ void Detector::startReceiver() { pimpl->Parallel(&Module::startReceiver, {}); }
void Detector::stopReceiver() { pimpl->Parallel(&Module::stopReceiver, {}); }
void Detector::startDetector(Positions pos) {
auto detector_type = getDetectorType(pos).squash();
void Detector::startDetector() {
auto detector_type = getDetectorType().squash();
if (detector_type == defs::MYTHEN3 && size() > 1) {
std::vector<int> slaves(pos);
auto is_master = getMaster(pos);
int masterPosition = -1;
for (unsigned int i = 0; i < is_master.size(); ++i) {
if (is_master[i]) {
auto is_master = getMaster();
int masterPosition = 0;
std::vector<int> slaves;
for (int i = 0; i < size(); ++i) {
if (is_master[i])
masterPosition = i;
slaves.erase(slaves.begin() + i);
else
slaves.push_back(i);
}
}
pimpl->Parallel(&Module::startAcquisition, pos);
if (masterPosition != -1) {
pimpl->Parallel(&Module::startAcquisition, slaves);
pimpl->Parallel(&Module::startAcquisition, {masterPosition});
}
} else {
pimpl->Parallel(&Module::startAcquisition, pos);
pimpl->Parallel(&Module::startAcquisition, {});
}
}
@ -807,25 +781,6 @@ void Detector::startDetectorReadout() {
void Detector::stopDetector(Positions pos) {
pimpl->Parallel(&Module::stopAcquisition, pos);
// validate consistent frame numbers
switch (getDetectorType().squash()) {
case defs::EIGER:
case defs::JUNGFRAU:
case defs::MOENCH:
case defs::CHIPTESTBOARD: {
auto res = getNextFrameNumber(pos);
if (!res.equal()) {
uint64_t maxVal = 0;
for (auto it : res) {
maxVal = std::max(maxVal, it);
}
setNextFrameNumber(maxVal + 1);
}
} break;
default:
break;
}
}
Result<defs::runStatus> Detector::getDetectorStatus(Positions pos) const {
@ -836,20 +791,15 @@ Result<defs::runStatus> Detector::getReceiverStatus(Positions pos) const {
return pimpl->Parallel(&Module::getReceiverStatus, pos);
}
Result<std::vector<int64_t>> Detector::getFramesCaught(Positions pos) const {
Result<int64_t> Detector::getFramesCaught(Positions pos) const {
return pimpl->Parallel(&Module::getFramesCaughtByReceiver, pos);
}
Result<std::vector<int64_t>>
Result<std::vector<uint64_t>>
Detector::getNumMissingPackets(Positions pos) const {
return pimpl->Parallel(&Module::getNumMissingPackets, pos);
}
Result<std::vector<int64_t>>
Detector::getRxCurrentFrameIndex(Positions pos) const {
return pimpl->Parallel(&Module::getReceiverCurrentFrameIndex, pos);
}
Result<uint64_t> Detector::getNextFrameNumber(Positions pos) const {
return pimpl->Parallel(&Module::getNextFrameNumber, pos);
}
@ -883,7 +833,7 @@ Result<std::string> Detector::getScanErrorMessage(Positions pos) const {
Result<int> Detector::getNumberofUDPInterfaces(Positions pos) const {
// also called by vetostream (for gotthard2)
return pimpl->Parallel(&Module::getNumberofUDPInterfacesFromShm, pos);
return pimpl->getNumberofUDPInterfaces(pos);
}
void Detector::setNumberofUDPInterfaces(int n, Positions pos) {
@ -1220,14 +1170,6 @@ Detector::getRxThreadIds(Positions pos) const {
return pimpl->Parallel(&Module::getReceiverThreadIds, pos);
}
Result<bool> Detector::getRxArping(Positions pos) const {
return pimpl->Parallel(&Module::getRxArping, pos);
}
void Detector::setRxArping(bool value, Positions pos) {
pimpl->Parallel(&Module::setRxArping, pos, value);
}
// File
Result<defs::fileFormat> Detector::getFileFormat(Positions pos) const {
@ -1536,14 +1478,6 @@ void Detector::setDataStream(const defs::portPosition port, const bool enable,
pimpl->Parallel(&Module::setDataStream, pos, port, enable);
}
Result<bool> Detector::getTop(Positions pos) const {
return pimpl->Parallel(&Module::getTop, pos);
}
void Detector::setTop(bool value, Positions pos) {
pimpl->Parallel(&Module::setTop, pos, value);
}
// Jungfrau Specific
Result<double> Detector::getChipVersion(Positions pos) const {
return pimpl->Parallel(&Module::getChipVersion, pos);
@ -1619,6 +1553,7 @@ std::vector<defs::gainMode> Detector::getGainModeList() const {
return std::vector<defs::gainMode>{
defs::DYNAMIC, defs::FORCE_SWITCH_G1, defs::FORCE_SWITCH_G2,
defs::FIX_G1, defs::FIX_G2, defs::FIX_G0};
break;
default:
throw RuntimeError("Gain mode is not implemented for this detector.");
}
@ -1751,7 +1686,7 @@ Result<defs::streamingInterface> Detector::getVetoStream(Positions pos) const {
// 3gbe
auto r3 = pimpl->Parallel(&Module::getVetoStream, pos);
// 10gbe (debugging interface) opens 2nd udp interface in receiver
auto r10 = getNumberofUDPInterfaces(pos);
auto r10 = pimpl->getNumberofUDPInterfaces(pos);
Result<defs::streamingInterface> res(r3.size());
for (unsigned int i = 0; i < res.size(); ++i) {
@ -1773,7 +1708,7 @@ void Detector::setVetoStream(defs::streamingInterface interface,
pimpl->Parallel(&Module::setVetoStream, pos, LOW_LATENCY_LINK);
// 10gbe (debugging interface) opens 2nd udp interface in receiver
int old_numinterfaces = getNumberofUDPInterfaces(pos).tsquash(
int old_numinterfaces = pimpl->getNumberofUDPInterfaces(pos).tsquash(
"retrieved inconsistent number of udp interfaces");
int numinterfaces =
(((interface & defs::streamingInterface::ETHERNET_10GB) ==
@ -1863,6 +1798,10 @@ Detector::getGateDelayForAllGates(Positions pos) const {
return pimpl->Parallel(&Module::getGateDelayForAllGates, pos);
}
Result<bool> Detector::getMaster(Positions pos) const {
return pimpl->Parallel(&Module::isMaster, pos);
}
Result<int> Detector::getChipStatusRegister(Positions pos) const {
return pimpl->Parallel(&Module::getChipStatusRegister, pos);
}
@ -2074,42 +2013,6 @@ void Detector::setLEDEnable(bool enable, Positions pos) {
pimpl->Parallel(&Module::setLEDEnable, pos, enable);
}
void Detector::setDacNames(const std::vector<std::string> names) {
if (getDetectorType().squash() != defs::CHIPTESTBOARD)
throw RuntimeError("Named dacs only for CTB");
pimpl->setCtbDacNames(names);
}
std::vector<std::string> Detector::getDacNames() const {
std::vector<std::string> names;
auto type = getDetectorType().squash();
if (type == defs::CHIPTESTBOARD)
return pimpl->getCtbDacNames();
for (const auto &index : getDacList())
names.push_back(ToString(index));
return names;
}
defs::dacIndex Detector::getDacIndex(const std::string &name) {
auto type = getDetectorType().squash();
if (type == defs::CHIPTESTBOARD) {
auto names = getDacNames();
auto it = std::find(names.begin(), names.end(), name);
if (it == names.end())
throw RuntimeError("Dacname not found");
return static_cast<defs::dacIndex>(it - names.begin());
}
return StringTo<defs::dacIndex>(name);
}
std::string Detector::getDacName(defs::dacIndex i) {
auto type = getDetectorType().squash();
if (type == defs::CHIPTESTBOARD)
return pimpl->getCtbDacName(i);
return ToString(i);
}
// Pattern
void Detector::setPattern(const std::string &fname, Positions pos) {
@ -2230,11 +2133,10 @@ void Detector::setAdditionalJsonParameter(const std::string &key,
// Advanced
void Detector::programFPGA(const std::string &fname,
const bool forceDeleteNormalFile, Positions pos) {
void Detector::programFPGA(const std::string &fname, Positions pos) {
LOG(logINFO) << "Updating Firmware...";
std::vector<char> buffer = pimpl->readProgrammingFile(fname);
pimpl->Parallel(&Module::programFPGA, pos, buffer, forceDeleteNormalFile);
pimpl->Parallel(&Module::programFPGA, pos, buffer);
rebootController(pos);
}
@ -2279,7 +2181,7 @@ void Detector::updateFirmwareAndServer(const std::string &sname,
LOG(logINFO) << "Updating Firmware and Detector Server (with tftp)...";
LOG(logINFO) << "Updating Detector Server (via tftp)...";
pimpl->Parallel(&Module::copyDetectorServer, pos, sname, hostname);
programFPGA(fname, false, pos);
programFPGA(fname, pos);
}
void Detector::updateFirmwareAndServer(const std::string &sname,
@ -2290,7 +2192,7 @@ void Detector::updateFirmwareAndServer(const std::string &sname,
std::vector<char> buffer = readBinaryFile(sname, "Update Detector Server");
std::string filename = sls::getFileNameFromFilePath(sname);
pimpl->Parallel(&Module::updateDetectorServer, pos, buffer, filename);
programFPGA(fname, false, pos);
programFPGA(fname, pos);
}
Result<bool> Detector::getUpdateMode(Positions pos) const {
@ -2399,9 +2301,25 @@ Result<ns> Detector::getMeasurementTime(Positions pos) const {
std::string Detector::getUserDetails() const { return pimpl->getUserDetails(); }
Result<uint64_t> Detector::getRxCurrentFrameIndex(Positions pos) const {
return pimpl->Parallel(&Module::getReceiverCurrentFrameIndex, pos);
}
std::vector<int> Detector::getPortNumbers(int start_port) {
int num_sockets_per_detector = getNumberofUDPInterfaces({}).tsquash(
"Number of UDP Interfaces is not consistent among modules");
int num_sockets_per_detector = 1;
switch (getDetectorType().squash()) {
case defs::EIGER:
num_sockets_per_detector *= 2;
break;
case defs::JUNGFRAU:
case defs::GOTTHARD2:
if (pimpl->getNumberofUDPInterfaces({}).squash() == 2) {
num_sockets_per_detector *= 2;
}
break;
default:
break;
}
std::vector<int> res;
res.reserve(size());
for (int idet = 0; idet < size(); ++idet) {

94
slsDetectorSoftware/src/DetectorImpl.cpp
View File

@ -32,8 +32,7 @@
namespace sls {
DetectorImpl::DetectorImpl(int detector_index, bool verify, bool update)
: detectorIndex(detector_index), shm(detector_index, -1),
ctb_shm(detector_index, -1, CtbConfig::shm_tag()) {
: detectorIndex(detector_index), shm(detector_index, -1) {
setupDetector(verify, update);
}
@ -45,9 +44,6 @@ void DetectorImpl::setupDetector(bool verify, bool update) {
if (update) {
updateUserdetails();
}
if (ctb_shm.IsExisting())
ctb_shm.OpenSharedMemory();
}
void DetectorImpl::setAcquiringFlag(bool flag) { shm()->acquiringFlag = flag; }
@ -78,10 +74,6 @@ void DetectorImpl::freeSharedMemory(int detectorIndex, int detPos) {
SharedMemory<sharedModule> moduleShm(detectorIndex, i);
moduleShm.RemoveSharedMemory();
}
SharedMemory<CtbConfig> ctbShm(detectorIndex, -1, CtbConfig::shm_tag());
if (ctbShm.IsExisting())
ctbShm.RemoveSharedMemory();
}
void DetectorImpl::freeSharedMemory() {
@ -94,9 +86,6 @@ void DetectorImpl::freeSharedMemory() {
// clear detector shm
shm.RemoveSharedMemory();
client_downstream = false;
if (ctb_shm.IsExisting())
ctb_shm.RemoveSharedMemory();
}
std::string DetectorImpl::getUserDetails() {
@ -256,16 +245,6 @@ void DetectorImpl::setHostname(const std::vector<std::string> &name) {
addModule(hostname);
}
updateDetectorSize();
// Here we know the detector type and can add ctb shared memory
// if needed, CTB dac names are only on detector level
if (shm()->detType == defs::CHIPTESTBOARD) {
if (ctb_shm.IsExisting())
ctb_shm.OpenSharedMemory();
else
ctb_shm.CreateSharedMemory();
}
}
void DetectorImpl::addModule(const std::string &hostname) {
@ -293,13 +272,6 @@ void DetectorImpl::addModule(const std::string &hostname) {
// get type by connecting
detectorType type = Module::getTypeFromDetector(host, port);
// gotthard cannot have more than 2 modules (50um=1, 25um=2
if ((type == GOTTHARD || type == GOTTHARD2) && modules.size() > 2) {
freeSharedMemory();
throw sls::RuntimeError("Gotthard cannot have more than 2 modules");
}
auto pos = modules.size();
modules.emplace_back(
sls::make_unique<Module>(type, detectorIndex, pos, false));
@ -307,20 +279,11 @@ void DetectorImpl::addModule(const std::string &hostname) {
modules[pos]->setControlPort(port);
modules[pos]->setStopPort(port + 1);
modules[pos]->setHostname(host, shm()->initialChecks);
// module type updated by now
shm()->detType = Parallel(&Module::getDetectorType, {})
.tsquash("Inconsistent detector types.");
// for moench and ctb
modules[pos]->updateNumberOfChannels();
// for eiger, jungfrau, gotthard2
modules[pos]->updateNumberofUDPInterfaces();
// update zmq port in case numudpinterfaces changed
int numInterfaces = modules[pos]->getNumberofUDPInterfacesFromShm();
modules[pos]->setClientStreamingPort(DEFAULT_ZMQ_CL_PORTNO +
pos * numInterfaces);
}
void DetectorImpl::updateDetectorSize() {
@ -439,21 +402,27 @@ int DetectorImpl::createReceivingDataSockets() {
}
LOG(logINFO) << "Going to create data sockets";
size_t numUDPInterfaces =
Parallel(&Module::getNumberofUDPInterfacesFromShm, {}).squash(1);
// gotthard2 second interface is only for veto debugging (not in gui)
if (shm()->detType == GOTTHARD2) {
numUDPInterfaces = 1;
size_t numSockets = modules.size();
size_t numSocketsPerModule = 1;
if (shm()->detType == EIGER) {
numSocketsPerModule = 2;
}
size_t numSockets = modules.size() * numUDPInterfaces;
// gotthard2 second interface is only for veto debugging
else if (shm()->detType != GOTTHARD2) {
if (Parallel(&Module::getNumberofUDPInterfacesFromShm, {}).squash() ==
2) {
numSocketsPerModule = 2;
}
}
numSockets *= numSocketsPerModule;
for (size_t iSocket = 0; iSocket < numSockets; ++iSocket) {
uint32_t portnum =
(modules[iSocket / numUDPInterfaces]->getClientStreamingPort());
portnum += (iSocket % numUDPInterfaces);
(modules[iSocket / numSocketsPerModule]->getClientStreamingPort());
portnum += (iSocket % numSocketsPerModule);
try {
zmqSocket.push_back(
sls::make_unique<ZmqSocket>(modules[iSocket / numUDPInterfaces]
zmqSocket.push_back(sls::make_unique<ZmqSocket>(
modules[iSocket / numSocketsPerModule]
->getClientStreamingIP()
.str()
.c_str(),
@ -491,9 +460,13 @@ void DetectorImpl::readFrameFromReceiver() {
int nDetPixelsX = 0;
int nDetPixelsY = 0;
bool quadEnable = false;
// to flip image
bool eiger = false;
bool numInterfaces = 1;
// gotthard2 second interface is veto debugging
if (shm()->detType != GOTTHARD2) {
numInterfaces = Parallel(&Module::getNumberofUDPInterfacesFromShm, {})
.squash(); // cannot pick up from zmq
}
std::vector<bool> runningList(zmqSocket.size());
std::vector<bool> connectList(zmqSocket.size());
numZmqRunning = 0;
@ -569,9 +542,10 @@ void DetectorImpl::readFrameFromReceiver() {
// shape
nPixelsX = zHeader.npixelsx;
nPixelsY = zHeader.npixelsy;
// module shape (port)
// module shape
nX = zHeader.ndetx;
nY = zHeader.ndety;
nY *= numInterfaces;
nDetPixelsX = nX * nPixelsX;
nDetPixelsY = nY * nPixelsY;
// det type
@ -1170,7 +1144,7 @@ int DetectorImpl::acquire() {
if (acquisition_finished != nullptr) {
int status = Parallel(&Module::getRunStatus, {}).squash(ERROR);
auto a = Parallel(&Module::getReceiverProgress, {});
double progress = (*std::max_element(a.begin(), a.end()));
double progress = (*std::min_element(a.begin(), a.end()));
acquisition_finished(progress, status, acqFinished_p);
}
@ -1389,6 +1363,10 @@ std::vector<char> DetectorImpl::readProgrammingFile(const std::string &fname) {
return buffer;
}
sls::Result<int> DetectorImpl::getNumberofUDPInterfaces(Positions pos) const {
return Parallel(&Module::getNumberofUDPInterfaces, pos);
}
sls::Result<int> DetectorImpl::getDefaultDac(defs::dacIndex index,
defs::detectorSettings sett,
Positions pos) {
@ -1400,16 +1378,4 @@ void DetectorImpl::setDefaultDac(defs::dacIndex index, int defaultValue,
Parallel(&Module::setDefaultDac, pos, index, defaultValue, sett);
}
std::vector<std::string> DetectorImpl::getCtbDacNames() const {
return ctb_shm()->getDacNames();
}
void DetectorImpl::setCtbDacNames(const std::vector<std::string> &names) {
ctb_shm()->setDacNames(names);
}
std::string DetectorImpl::getCtbDacName(defs::dacIndex i) const {
return ctb_shm()->getDacName(static_cast<int>(i));
}
} // namespace sls

9
slsDetectorSoftware/src/DetectorImpl.h
View File

@ -7,8 +7,6 @@
#include "sls/logger.h"
#include "sls/sls_detector_defs.h"
#include "CtbConfig.h"
class ZmqSocket;
class detectorData;
@ -293,6 +291,7 @@ class DetectorImpl : public virtual slsDetectorDefs {
*/
std::vector<char> readProgrammingFile(const std::string &fname);
sls::Result<int> getNumberofUDPInterfaces(Positions pos) const;
void setNumberofUDPInterfaces(int n, Positions pos);
sls::Result<int> getDefaultDac(defs::dacIndex index,
defs::detectorSettings sett,
@ -300,11 +299,6 @@ class DetectorImpl : public virtual slsDetectorDefs {
void setDefaultDac(defs::dacIndex index, int defaultValue,
defs::detectorSettings sett, Positions pos);
std::vector<std::string> getCtbDacNames() const;
std::string getCtbDacName(defs::dacIndex i) const;
void setCtbDacNames(const std::vector<std::string>& names);
private:
/**
* Creates/open shared memory, initializes detector structure and members
@ -388,7 +382,6 @@ class DetectorImpl : public virtual slsDetectorDefs {
const int detectorIndex{0};
sls::SharedMemory<sharedDetector> shm{0, -1};
sls::SharedMemory<CtbConfig> ctb_shm{0, -1, CtbConfig::shm_tag()};
std::vector<std::unique_ptr<sls::Module>> modules;
/** data streaming (down stream) enabled in client (zmq sckets created) */

146
slsDetectorSoftware/src/Module.cpp
View File

@ -214,21 +214,9 @@ void Module::setThresholdEnergy(int e_eV, detectorSettings isettings,
myMod.iodelay = myMod1.iodelay;
myMod.tau =
linearInterpolation(e_eV, trim1, trim2, myMod1.tau, myMod2.tau);
// m3, reg is used for gaincaps
if (shm()->detType == MYTHEN3) {
if (myMod1.reg != myMod2.reg) {
throw RuntimeError(
"setThresholdEnergyAndSettings: gaincaps do not "
"match between files");
}
myMod.reg = myMod1.reg;
}
}
// m3, reg is used for gaincaps
if (shm()->detType != MYTHEN3) {
myMod.reg = isettings;
}
myMod.reg = isettings;
myMod.eV[0] = e_eV;
setModule(myMod, trimbits);
if (getSettings() != isettings) {
@ -243,7 +231,6 @@ void Module::setThresholdEnergy(int e_eV, detectorSettings isettings,
void Module::setAllThresholdEnergy(std::array<int, 3> e_eV,
detectorSettings isettings, bool trimbits) {
// only mythen3
if (shm()->trimEnergies.empty()) {
throw RuntimeError(
"Trim energies have not been defined for this module yet!");
@ -324,13 +311,6 @@ void Module::setAllThresholdEnergy(std::array<int, 3> e_eV,
myMods[i] = interpolateTrim(&myMod1, &myMod2, energy[i], trim1,
trim2, trimbits);
// gaincaps
if (myMod1.reg != myMod2.reg) {
throw RuntimeError("setAllThresholdEnergy: gaincaps do not "
"match between files for energy (eV) " +
std::to_string(energy[i]));
}
myMods[i].reg = myMod1.reg;
}
}
@ -377,11 +357,6 @@ void Module::setAllThresholdEnergy(std::array<int, 3> e_eV,
for (int i = 0; i < myMod.nchan; ++i) {
myMod.chanregs[i] = myMods[i % 3].chanregs[i];
}
// gain caps
if (myMods[0].reg != myMods[1].reg || myMods[1].reg != myMods[2].reg) {
throw RuntimeError("setAllThresholdEnergy: gaincaps do not "
"match between files for all energies");
}
}
myMod.reg = isettings;
@ -509,13 +484,6 @@ void Module::setFlipRows(bool value) {
}
}
bool Module::isMaster() const { return sendToDetectorStop<int>(F_GET_MASTER); }
void Module::setMaster(const bool master) {
sendToDetector(F_SET_MASTER, static_cast<int>(master), nullptr);
sendToDetectorStop(F_SET_MASTER, static_cast<int>(master), nullptr);
}
bool Module::isVirtualDetectorServer() const {
return sendToDetector<int>(F_IS_VIRTUAL);
}
@ -873,29 +841,11 @@ double Module::getReceiverProgress() const {
return sendToReceiver<double>(F_GET_RECEIVER_PROGRESS);
}
std::vector<int64_t> Module::getFramesCaughtByReceiver() const {
// TODO!(Erik) Refactor
LOG(logDEBUG1) << "Getting frames caught";
if (shm()->useReceiverFlag) {
auto client = ReceiverSocket(shm()->rxHostname, shm()->rxTCPPort);
client.Send(F_GET_RECEIVER_FRAMES_CAUGHT);
if (client.Receive<int>() == FAIL) {
throw ReceiverError(
"Receiver " + std::to_string(moduleIndex) +
" returned error: " + client.readErrorMessage());
} else {
auto nports = client.Receive<int>();
std::vector<int64_t> retval(nports);
client.Receive(retval);
LOG(logDEBUG1) << "Frames caught of Receiver" << moduleIndex << ": "
<< sls::ToString(retval);
return retval;
}
}
throw RuntimeError("No receiver to get frames caught.");
int64_t Module::getFramesCaughtByReceiver() const {
return sendToReceiver<int64_t>(F_GET_RECEIVER_FRAMES_CAUGHT);
}
std::vector<int64_t> Module::getNumMissingPackets() const {
std::vector<uint64_t> Module::getNumMissingPackets() const {
// TODO!(Erik) Refactor
LOG(logDEBUG1) << "Getting num missing packets";
if (shm()->useReceiverFlag) {
@ -907,7 +857,7 @@ std::vector<int64_t> Module::getNumMissingPackets() const {
" returned error: " + client.readErrorMessage());
} else {
auto nports = client.Receive<int>();
std::vector<int64_t> retval(nports);
std::vector<uint64_t> retval(nports);
client.Receive(retval);
LOG(logDEBUG1) << "Missing packets of Receiver" << moduleIndex
<< ": " << sls::ToString(retval);
@ -917,28 +867,6 @@ std::vector<int64_t> Module::getNumMissingPackets() const {
throw RuntimeError("No receiver to get missing packets.");
}
std::vector<int64_t> Module::getReceiverCurrentFrameIndex() const {
// TODO!(Erik) Refactor
LOG(logDEBUG1) << "Getting frame index";
if (shm()->useReceiverFlag) {
auto client = ReceiverSocket(shm()->rxHostname, shm()->rxTCPPort);
client.Send(F_GET_RECEIVER_FRAME_INDEX);
if (client.Receive<int>() == FAIL) {
throw ReceiverError(
"Receiver " + std::to_string(moduleIndex) +
" returned error: " + client.readErrorMessage());
} else {
auto nports = client.Receive<int>();
std::vector<int64_t> retval(nports);
client.Receive(retval);
LOG(logDEBUG1) << "Frame index of Receiver" << moduleIndex << ": "
<< sls::ToString(retval);
return retval;
}
}
throw RuntimeError("No receiver to get frame index.");
}
uint64_t Module::getNextFrameNumber() const {
return sendToDetector<uint64_t>(F_GET_NEXT_FRAME_NUMBER);
}
@ -976,8 +904,9 @@ int Module::getNumberofUDPInterfacesFromShm() const {
return shm()->numUDPInterfaces;
}
void Module::updateNumberofUDPInterfaces() {
int Module::getNumberofUDPInterfaces() const {
shm()->numUDPInterfaces = sendToDetector<int>(F_GET_NUM_INTERFACES);
return shm()->numUDPInterfaces;
}
void Module::setNumberofUDPInterfaces(int n) {
@ -1092,10 +1021,6 @@ void Module::setDestinationUDPIP(const IpAddr ip) {
if (ip == 0) {
throw RuntimeError("Invalid destination udp ip address");
}
if (ip.str() == LOCALHOST_IP && !isVirtualDetectorServer()) {
throw RuntimeError("Invalid destination udp ip. Change rx_hostname "
"from localhost or change udp_dstip from auto?");
}
sendToDetector(F_SET_DEST_UDP_IP, ip, nullptr);
if (shm()->useReceiverFlag) {
sls::MacAddr retval(0LU);
@ -1115,10 +1040,7 @@ void Module::setDestinationUDPIP2(const IpAddr ip) {
if (ip == 0) {
throw RuntimeError("Invalid destination udp ip address2");
}
if (ip.str() == LOCALHOST_IP && !isVirtualDetectorServer()) {
throw RuntimeError("Invalid destination udp ip2. Change rx_hostname "
"from localhost or change udp_dstip from auto?");
}
sendToDetector(F_SET_DEST_UDP_IP2, ip, nullptr);
if (shm()->useReceiverFlag) {
sls::MacAddr retval(0LU);
@ -1185,7 +1107,7 @@ std::string Module::printReceiverConfiguration() {
<< getReceiverHostname();
if (shm()->detType == JUNGFRAU) {
os << "\nNumber of Interfaces:\t" << getNumberofUDPInterfacesFromShm()
os << "\nNumber of Interfaces:\t" << getNumberofUDPInterfaces()
<< "\nSelected Interface:\t" << getSelectedUDPInterface();
}
@ -1396,14 +1318,6 @@ std::array<pid_t, NUM_RX_THREAD_IDS> Module::getReceiverThreadIds() const {
F_GET_RECEIVER_THREAD_IDS);
}
bool Module::getRxArping() const {
return sendToReceiver<int>(F_GET_RECEIVER_ARPING);
}
void Module::setRxArping(bool enable) {
sendToReceiver(F_SET_RECEIVER_ARPING, static_cast<int>(enable), nullptr);
}
// File
slsDetectorDefs::fileFormat Module::getFileFormat() const {
return sendToReceiver<fileFormat>(F_GET_RECEIVER_FILE_FORMAT);
@ -1719,14 +1633,6 @@ void Module::setDataStream(const portPosition port, const bool enable) {
}
}
bool Module::getTop() const {
return (static_cast<bool>(sendToDetector<int>(F_GET_TOP)));
}
void Module::setTop(bool value) {
sendToDetector(F_SET_TOP, static_cast<int>(value), nullptr);
}
// Jungfrau Specific
double Module::getChipVersion() const {
return (sendToDetector<int>(F_GET_CHIP_VERSION)) / 10.00;
@ -2251,6 +2157,8 @@ std::array<time::ns, 3> Module::getGateDelayForAllGates() const {
return sendToDetector<std::array<time::ns, 3>>(F_GET_GATE_DELAY_ALL_GATES);
}
bool Module::isMaster() const { return sendToDetectorStop<int>(F_GET_MASTER); }
int Module::getChipStatusRegister() const {
return sendToDetector<int>(F_GET_CSR);
}
@ -2590,14 +2498,12 @@ void Module::setAdditionalJsonParameter(const std::string &key,
}
// Advanced
void Module::programFPGA(std::vector<char> buffer,
const bool forceDeleteNormalFile) {
void Module::programFPGA(std::vector<char> buffer) {
switch (shm()->detType) {
case JUNGFRAU:
case CHIPTESTBOARD:
case MOENCH:
sendProgram(true, buffer, F_PROGRAM_FPGA, "Update Firmware", "",
forceDeleteNormalFile);
sendProgram(true, buffer, F_PROGRAM_FPGA, "Update Firmware");
break;
case MYTHEN3:
case GOTTHARD2:
@ -2797,6 +2703,10 @@ int64_t Module::getMeasurementTime() const {
return sendToDetectorStop<int64_t>(F_GET_MEASUREMENT_TIME);
}
uint64_t Module::getReceiverCurrentFrameIndex() const {
return sendToReceiver<uint64_t>(F_GET_RECEIVER_FRAME_INDEX);
}
// private
void Module::checkArgs(const void *args, size_t args_size, void *retval,
@ -3220,10 +3130,10 @@ void Module::initializeModuleStructure(detectorType type) {
sls::strcpy_safe(shm()->rxHostname, "none");
shm()->rxTCPPort = DEFAULT_PORTNO + 2;
shm()->useReceiverFlag = false;
shm()->numUDPInterfaces = 1;
shm()->zmqport =
DEFAULT_ZMQ_CL_PORTNO + moduleIndex * shm()->numUDPInterfaces;
shm()->zmqport = DEFAULT_ZMQ_CL_PORTNO +
(moduleIndex * ((shm()->detType == EIGER) ? 2 : 1));
shm()->zmqip = IpAddr{};
shm()->numUDPInterfaces = 1;
shm()->stoppedFlag = false;
// get the Module parameters based on type
@ -3410,11 +3320,11 @@ sls_detector_module Module::interpolateTrim(sls_detector_module *a,
if (shm()->detType == EIGER) {
dacs_to_copy.insert(
dacs_to_copy.end(),
{E_SVP, E_SVN, E_VTGSTV, E_RXB_RB, E_RXB_LB, E_VCN, E_VIS});
{E_SVP, E_VTR, E_SVN, E_VTGSTV, E_RXB_RB, E_RXB_LB, E_VCN, E_VIS});
// interpolate vrf, vcmp, vcp
dacs_to_interpolate.insert(dacs_to_interpolate.end(),
{E_VTR, E_VRF, E_VCMP_LL, E_VCMP_LR,
E_VCMP_RL, E_VCMP_RR, E_VCP, E_VRS});
dacs_to_interpolate.insert(
dacs_to_interpolate.end(),
{E_VRF, E_VCMP_LL, E_VCMP_LR, E_VCMP_RL, E_VCMP_RR, E_VCP, E_VRS});
} else {
dacs_to_copy.insert(dacs_to_copy.end(),
{M_VCASSH, M_VRSHAPER, M_VRSHAPER_N, M_VIPRE_OUT,
@ -3584,8 +3494,7 @@ sls_detector_module Module::readSettingsFile(const std::string &fname,
void Module::sendProgram(bool blackfin, std::vector<char> buffer,
const int functionEnum,
const std::string &functionType,
const std::string serverName,
const bool forceDeleteNormalFile) {
const std::string serverName) {
LOG(logINFO) << "Module " << moduleIndex << " (" << shm()->hostname
<< "): Sending " << functionType;
@ -3609,11 +3518,6 @@ void Module::sendProgram(bool blackfin, std::vector<char> buffer,
client.Send(sname);
}
// send forceDeleteNormalFile flag
if (blackfin) {
client.Send(static_cast<int>(forceDeleteNormalFile));
}
// validate memory allocation etc in detector
if (client.Receive<int>() == FAIL) {
std::ostringstream os;

23
slsDetectorSoftware/src/Module.h
View File

@ -120,9 +120,6 @@ class Module : public virtual slsDetectorDefs {
int setTrimEn(const std::vector<int> &energies = {});
bool getFlipRows() const;
void setFlipRows(bool value);
bool isMaster() const;
void setMaster(const bool master);
bool isVirtualDetectorServer() const;
/**************************************************
@ -187,7 +184,6 @@ class Module : public virtual slsDetectorDefs {
void setDBITPipeline(int value);
int getReadNRows() const;
void setReadNRows(const int value);
/**************************************************
* *
* Acquisition *
@ -203,9 +199,8 @@ class Module : public virtual slsDetectorDefs {
runStatus getRunStatus() const;
runStatus getReceiverStatus() const;
double getReceiverProgress() const;
std::vector<int64_t> getFramesCaughtByReceiver() const;
std::vector<int64_t> getNumMissingPackets() const;
std::vector<int64_t> getReceiverCurrentFrameIndex() const;
int64_t getFramesCaughtByReceiver() const;
std::vector<uint64_t> getNumMissingPackets() const;
uint64_t getNextFrameNumber() const;
void setNextFrameNumber(uint64_t value);
void sendSoftwareTrigger(const bool block);
@ -219,7 +214,7 @@ class Module : public virtual slsDetectorDefs {
* *
* ************************************************/
int getNumberofUDPInterfacesFromShm() const;
void updateNumberofUDPInterfaces();
int getNumberofUDPInterfaces() const;
void setNumberofUDPInterfaces(int n);
int getSelectedUDPInterface() const;
void selectUDPInterface(int n);
@ -288,8 +283,6 @@ class Module : public virtual slsDetectorDefs {
void setReceiverLock(bool lock);
sls::IpAddr getReceiverLastClientIP() const;
std::array<pid_t, NUM_RX_THREAD_IDS> getReceiverThreadIds() const;
bool getRxArping() const;
void setRxArping(bool enable);
/**************************************************
* *
@ -370,8 +363,6 @@ class Module : public virtual slsDetectorDefs {
void setQuad(const bool enable);
bool getDataStream(const portPosition port) const;
void setDataStream(const portPosition port, const bool enable);
bool getTop() const;
void setTop(bool value);
/**************************************************
* *
@ -463,6 +454,7 @@ class Module : public virtual slsDetectorDefs {
int64_t getGateDelay(int gateIndex) const;
void setGateDelay(int gateIndex, int64_t value);
std::array<time::ns, 3> getGateDelayForAllGates() const;
bool isMaster() const;
int getChipStatusRegister() const;
void setGainCaps(int caps);
int getGainCaps();
@ -545,8 +537,7 @@ class Module : public virtual slsDetectorDefs {
* Advanced *
* *
* ************************************************/
void programFPGA(std::vector<char> buffer,
const bool forceDeleteNormalFile);
void programFPGA(std::vector<char> buffer);
void resetFPGA();
void copyDetectorServer(const std::string &fname,
const std::string &hostname);
@ -583,6 +574,7 @@ class Module : public virtual slsDetectorDefs {
int64_t getNumberOfFramesFromStart() const;
int64_t getActualTime() const;
int64_t getMeasurementTime() const;
uint64_t getReceiverCurrentFrameIndex() const;
private:
void checkArgs(const void *args, size_t args_size, void *retval,
@ -761,8 +753,7 @@ class Module : public virtual slsDetectorDefs {
bool trimbits = true);
void sendProgram(bool blackfin, std::vector<char> buffer,
const int functionEnum, const std::string &functionType,
const std::string serverName = "",
const bool forceDeleteNormalFile = false);
const std::string serverName = "");
void simulatingActivityinDetector(const std::string &functionType,
const int timeRequired);

Some files were not shown because too many files have changed in this diff Show More