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compare: lin-epics-modules:1.5.2
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lin-epics-modules:main lin-epics-modules:v1.0 lin-epics-modules:makefile-fixes lin-epics-modules:static-dep
lin-epics-modules:1.5.2 lin-epics-modules:1.5.1 lin-epics-modules:1.5.0 lin-epics-modules:1.4.2 lin-epics-modules:1.4.1 lin-epics-modules:1.4.0 lin-epics-modules:1.3.0 lin-epics-modules:1.2.2 lin-epics-modules:1.2.1 lin-epics-modules:1.2.0 lin-epics-modules:1.1.2 lin-epics-modules:1.1.1 lin-epics-modules:1.0.1 lin-epics-modules:1.1.0 lin-epics-modules:1.0.0 lin-epics-modules:0.8.0 lin-epics-modules:0.7.0 lin-epics-modules:0.6.0 lin-epics-modules:0.5.0 lin-epics-modules:0.4.0 lin-epics-modules:0.3.0 lin-epics-modules:0.2.0 lin-epics-modules:0.1.0

43 Commits
0.8.0 ... 1.5.2

Author SHA1 Message Date
smathis
d834c8858e maxVelocity is not unused!
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2026-01-20 13:25:15 +01:00
smathis
5314362c83 maxVelocity is not unused!
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2026-01-20 13:21:32 +01:00
smathis
5efb94f83e Changed default for motorConnected and updated manual
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2026-01-20 11:43:26 +01:00
smathis
7e7b8f486c Updated sinqMotor to fix segfault and improved docs 2025-12-23 11:47:12 +01:00
smathis
6adca95ade Fixed wrong doc
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2025-11-03 11:17:04 +01:00
smathis
b4454a3ab6 Fixed wrong doc
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2025-11-03 11:16:24 +01:00
smathis
73c96a73bf Usage in IOC shell is part of the user guide
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2025-11-03 11:14:39 +01:00
smathis
e1732639b2 Added manual and .gitignore
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2025-11-03 08:40:25 +01:00
smathis
6f72766ae6 Improved script docs and script usage description in README.md
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Also introduced graceful error handling when trying to access
interactive mode on Windows.
 2025-09-24 15:43:22 +02:00
mathis_s
a435c3c960 Update src/masterMacsAxis.cpp
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Updated comment: encoder type 0 can also mean "no encoder"
 2025-09-23 15:11:07 +02:00
smathis
f1c41d3081 Perform poll even if init fails
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2025-09-17 13:12:21 +02:00
smathis
d78586a815 Updated sinqMotor to 1.5.6
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2025-09-17 12:38:30 +02:00
smathis
ebcf99ac56 Updated sinqMotor to 1.5.5 2025-09-17 12:34:47 +02:00
smathis
de32298609 Updated sinqMotor to 1.5.4 2025-09-17 12:19:00 +02:00
smathis
8f457889c0 Updated sinqMotor to 1.5.3 2025-09-17 11:28:53 +02:00
smathis
6f63e521c1 Updated sinqMotor to 1.5.2 2025-09-17 11:25:40 +02:00
smathis
670f01fbe3 Updated sinqMotor to 1.5.1 to get a better error message in case of speed problems 2025-09-17 10:54:56 +02:00
smathis
25286652d5 Moved version definition in Makefile
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The expected version can now be set in the Makefile via USR_CXXFLAGS.
Additionally, the README.md has received documentation regarding the
version check. Lastly, the version check can now be disabled by omitting
the flags or setting one of them to a negative value.
 2025-08-22 13:18:43 +02:00
smathis
27f7cc8602 Added version check prototype
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2025-08-22 08:46:30 +02:00
smathis
21a73717a5 Fixed handshake detection and reset bugs
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2025-08-14 17:16:14 +02:00
smathis
2cbb4f9028 Forgot to add masterMacs.db to Makefile
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2025-08-14 14:21:05 +02:00
smathis
23a911206a Removed node reset from doReset and moved it into dedicated function
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A "normal" error reset should not trigger a node reset. However, this
option is still available via a dedicated PV xx:NodeReset and a
corresponding function in masterMacsAxis.
 2025-08-12 15:51:12 +02:00
smathis
6553b468c8 Updated to sinqMotor 1.4.0 and hid all symbols
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2025-08-12 09:44:15 +02:00
smathis
954fc82414 Moved error handling out of error read condition.
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Previously, error messaging was only done after the error has been read.
This means that cached errors were simply ignored, if e.g. the motor was
moving. This commit now messages an error as long as it exists in the
cache "masterMacsAxisImpl->axisError".
 2025-08-05 09:04:11 +02:00
smathis
ff183576ec Added axis reinitialization after node reset 
When resetting the node, values within the controller may change, which
need to be reread by the init function.
 2025-08-05 08:58:50 +02:00
smathis
83f9be3be8 Switched to forcedPoll method 2025-07-24 13:20:30 +02:00
smathis
2c0c9a33b7 Updated sinqMotor version 2025-07-24 13:19:24 +02:00
smathis
8bb81b1716 Fixed wrong comments
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2025-07-22 17:13:09 +02:00
smathis
c32708e49c Removed lastSpeed caching
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After discussion with Sven Schlienger, I now send the new speed
unconditionally before each move command. This also means that the
caching of the last speed is no longer needed.
 2025-07-16 11:23:37 +02:00
Edward Wall
14a733fb67 adds gitea action
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2025-07-04 14:18:44 +02:00
smathis
64b932c3ae Fixed bug 2025-07-01 10:05:39 +02:00
smathis
09897b6125 Added node reset to doReset 2025-07-01 10:03:20 +02:00
smathis
9d47cd4e24 Fixed docs 2025-06-18 09:26:32 +02:00
smathis
52fa4e1e78 Updated sinqMotor version 2025-06-18 08:35:00 +02:00
smathis
a9e08460d9 Updated sinqMotor 2025-06-18 08:17:21 +02:00
smathis
37dacbd3ee Updated sinqMotor version and removed unnecessary require 2025-06-17 13:21:59 +02:00
smathis
d198dc8c9f Use axisParam accessor macros 2025-06-17 13:21:55 +02:00
smathis
13f2ec4fbf Switched to macro-based getters and setters for paramLib 2025-06-17 13:21:08 +02:00
mathis_s
6ccb60f263 Merge pull request 'Remove sinqmotor dep, it's statically linked. specify rhel8 arch' (#1) from makefile-fixes into main 
Reviewed-on: #1
 2025-06-11 16:52:42 +02:00
soederqvist_a
b8730e80e0 Remove sinqmotor dep, it's statically linked. specify rhel8 arch 2025-05-28 10:54:59 +02:00
smathis
deb6e6996e Ready for release 1.0 2025-05-23 12:29:30 +02:00
smathis
d1d694ad6b Applied PIMPL principle 2025-05-23 12:16:25 +02:00
smathis
e0a74c5598 Changed sinqMotor version to 0.15.2 2025-05-16 16:15:01 +02:00
15 changed files with 1105 additions and 880 deletions
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24
.gitea/workflows/action.yaml Normal file
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@@ -0,0 +1,24 @@
name: Test And Build
on: [push]
jobs:
Lint:
runs-on: linepics
steps:
- name: checkout repo
uses: actions/checkout@v4
- name: cppcheck
run: cppcheck --std=c++17 --addon=cert --addon=misc --error-exitcode=1 src/*.cpp
- name: formatting
run: clang-format --style=file --Werror --dry-run src/*.cpp
Build:
runs-on: linepics
steps:
- name: checkout repo
uses: actions/checkout@v4
with:
submodules: 'true'
- run: |
sed -i 's/ARCH_FILTER=.*/ARCH_FILTER=linux%/' Makefile
echo -e "\nIGNORE_SUBMODULES += sinqmotor" >> Makefile
make install

4
.gitignore vendored Normal file
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@@ -0,0 +1,4 @@
O.*
.cvsignore
.vscode
utils/__pycache__

48
.gitlab-ci.yml
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@@ -1,48 +0,0 @@
default:
image: docker.psi.ch:5000/sinqdev/sinqepics:latest
stages:
- lint
- build
- test
cppcheck:
stage: lint
script:
- cppcheck --std=c++17 --addon=cert --addon=misc --suppress=cert-STR07-C --error-exitcode=1 src/*.cpp
artifacts:
expire_in: 1 week
tags:
- sinq
formatting:
stage: lint
script:
- clang-format --style=file --Werror --dry-run src/*.cpp
artifacts:
expire_in: 1 week
tags:
- sinq
build_module:
stage: build
script:
- export SINQMOTOR_VERSION="$(grep 'sinqMotor_VERSION=' Makefile | cut -d= -f2)"
- git clone --depth 1 --branch "${SINQMOTOR_VERSION}" https://gitlab-ci-token:${CI_JOB_TOKEN}@git.psi.ch/sinq-epics-modules/sinqmotor.git
- pushd sinqmotor
- sed -i 's/ARCH_FILTER=.*/ARCH_FILTER=linux%/' Makefile
- echo "LIBVERSION=${SINQMOTOR_VERSION}" >> Makefile
- make install
- popd
- sed -i 's/ARCH_FILTER=.*/ARCH_FILTER=linux%/' Makefile
- echo "LIBVERSION=${CI_COMMIT_TAG:-0.0.1}" >> Makefile
- make install
- cp -rT "/ioc/modules/masterMacs/$(ls -U /ioc/modules/masterMacs/ | head -1)" "./masterMacs-${CI_COMMIT_TAG:-$CI_COMMIT_SHORT_SHA}"
artifacts:
name: "masterMacs-${CI_COMMIT_TAG:-$CI_COMMIT_SHORT_SHA}"
paths:
- "masterMacs-${CI_COMMIT_TAG:-$CI_COMMIT_SHORT_SHA}/*"
expire_in: 1 week
when: always
tags:
- sinq

11
Makefile
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@@ -6,9 +6,6 @@ BUILDCLASSES=Linux
EPICS_VERSIONS=7.0.7
ARCH_FILTER=RHEL%
# Additional module dependencies
REQUIRED+=sinqMotor
# Specify the version of asynMotor we want to build against
motorBase_VERSION=7.2.2
@@ -26,9 +23,15 @@ SOURCES += src/masterMacsController.cpp
# Store the record files
TEMPLATES += sinqMotor/db/asynRecord.db
TEMPLATES += sinqMotor/db/sinqMotor.db
TEMPLATES += db/masterMacs.db
# This file registers the motor-specific functions in the IOC shell.
DBDS += sinqMotor/src/sinqMotor.dbd
DBDS += src/masterMacs.dbd
USR_CFLAGS += -Wall -Wextra -Weffc++ -Wunused-result -Wextra -Werror
USR_CFLAGS += -Wall -Wextra -Wunused-result -Wextra -Werror
USR_CXXFLAGS += -Wall -Wextra -Wunused-result
# These flags define the expected firmware version. See README.md, section
# "Firmware version checking" for details.
USR_CXXFLAGS += -DFIRMWARE_MAJOR_VERSION=2 -DFIRMWARE_MINOR_VERSION=2

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MasterMACS_manual.pdf Normal file
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73
README.md
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@@ -17,23 +17,50 @@ The folder "utils" contains utility scripts for working with masterMacs motor co
- decodeError.py: Take the return message of a R11 (read error) command and print it in human-readable form.
- writeRead.py: Send messages to the controller and receive answers.
## Developer guide
These scripts can be run from anywhere. On Linux, the shebang (#!) automatically
calls the system Python 3 executable:
### Usage in IOC shell
```bash
# To show the help, use either flag -h or --help (works on all scripts)
/path/to/mastermacs_repo/utils/decodeStatus.py -h
/path/to/mastermacs_repo/utils/decodeError.py --help
/path/to/mastermacs_repo/utils/writeRead.py -h
masterMacs exposes the following IOC shell functions (all in masterMacsController.cpp):
# To run in non-interactive mode, give the value as an argument
/path/to/mastermacs_repo/utils/decodeStatus.py 1234
/path/to/mastermacs_repo/utils/decodeError.py 5678
/path/to/mastermacs_repo/utils/writeRead.py "R11"
# To run in interactive mode, don't give any argument. This only works on Linux
/path/to/mastermacs_repo/utils/decodeStatus.py
/path/to/mastermacs_repo/utils/decodeError.py
/path/to/mastermacs_repo/utils/writeRead.py
```
To use these scripts on Windows, prefix the Python 3 executable:
```bash
C:/path/to/python3.exe C:/path/to/mastermacs_repo/utils/decodeStatus.py 1234
```
### IOC startup script
masterMacs exposes the following IOC shell functions:
- `masterMacsController`: Create a new controller object.
- `masterMacsAxis`: Create a new axis object.
The full mcu.cmd file looks like this:
The full masterMacsX.cmd file looks like this:
```
```bash
# Define the name of the controller and the corresponding port
epicsEnvSet("NAME","mcu")
epicsEnvSet("ASYN_PORT","p$(NAME)")
# Create the TCP/IP socket used to talk with the controller. The socket can be adressed from within the IOC shell via the port name
drvAsynIPPortConfigure("$(ASYN_PORT)","172.28.101.24:1025")
# Create the TCP/IP socket used to talk with the controller. The socket can be
# adressed from within the IOC shell via the port name
# We do not use the standard asyn port driver here, but a PMAC-specific one
# which enables the usage of StreamDevices for
# communicating with the controller directly.
masterMacsAsynIPPortConfigure("$(ASYN_PORT)","172.28.101.24:1025")
# Create the controller object with the defined name and connect it to the socket via the port name.
# The other parameters are as follows:
@@ -55,17 +82,45 @@ setMaxSubsequentTimeouts("$(NAME)", 20);
setThresholdComTimeout("$(NAME)", 100, 1);
# Parametrize the EPICS record database with the substitution file named after the MCU.
epicsEnvSet("SINQDBPATH","$(sinqMotor_DB)/sinqMotor.db")
epicsEnvSet("SINQDBPATH","$(masterMacs_DB)/sinqMotor.db")
dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)")
epicsEnvSet("SINQDBPATH","$(masterMacs_DB)/masterMacs.db")
dbLoadTemplate("$(TOP)/$(NAME).substitutions", "INSTR=$(INSTR)$(NAME):,CONTROLLER=$(NAME)")
dbLoadRecords("$(sinqMotor_DB)/asynRecord.db","P=$(INSTR)$(NAME),PORT=$(ASYN_PORT)")
dbLoadRecords("$(masterMacs_DB)/asynRecord.db","P=$(INSTR)$(NAME),PORT=$(ASYN_PORT)")
```
## Developer guide
### Versioning
Please see the documentation for the module sinqMotor: https://git.psi.ch/sinq-epics-modules/sinqmotor/-/blob/main/README.md.
### Firmware version checking
This driver expects a certain version of the firmware running on the controller itself.
This is checked at IOC startup by reading the version directly from the hardware.
If the firmware version is incompatible to the driver, the IOC will be shut down.
If the firmware version cannot be read (e.g. because the variable used to do so
does not exist yet on old firmware versions), the firmware is assumed to be compatible
to the driver.
The version check is separated into a check of the major and the minor firmware
version against expected values. The firmware is seen as compatible if the following conditions hold:
- Read-out major version == Expected major version
- Read-out read major version >= Expected minor version
The expected versions are defined via compiler flags in `Makefile`:
```
USR_CXXFLAGS += -DFIRMWARE_MAJOR_VERSION=1 -DFIRMWARE_MINOR_VERSION=0
```
Be aware that these flags are only used to compile C++-files (.cpp, .cxx) and not
C-files (.c). For C-files, the Makefile variable `USR_CFLAGS` must be used.
In order to disable the checks, the flags can be set to -1 or just be removed
entirely. If one of the flags is not given, both the major and the minor version
checks are deactivated.
### How to build it
Please see the documentation for the module sinqMotor: https://git.psi.ch/sinq-epics-modules/sinqmotor/-/blob/main/README.md.

17
db/masterMacs.db Executable file
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@@ -0,0 +1,17 @@
# Call the nodeReset function of the corresponding masterMacsAxis.
# This record is coupled to the parameter library via nodeReset_ -> NODE_RESET.
record(longout, "$(INSTR)$(M):NodeReset") {
field(DTYP, "asynInt32")
field(OUT, "@asyn($(CONTROLLER),$(AXIS),1) NODE_RESET")
field(PINI, "NO")
}
# Overrides the default value for the "Connected" record provided by sinqMotor.
record(longin, "$(INSTR)$(M):Connected")
{
field(DTYP, "asynInt32")
field(INP, "@asyn($(CONTROLLER),$(AXIS)) MOTOR_CONNECTED")
field(SCAN, "I/O Intr")
field(PINI, "NO")
field(VAL, "0")
}

2
sinqMotor

Submodule sinqMotor updated: e088bfbbcb...e234d05815

608
src/masterMacsAxis.cpp
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@@ -11,6 +11,20 @@
#include <string.h>
#include <unistd.h>
struct masterMacsAxisImpl {
/*
The axis status and axis error of MasterMACS are given as an integer from
the controller. The 16 individual bits contain the actual information.
*/
std::bitset<16> axisStatus;
std::bitset<16> axisError;
bool waitForHandshake;
time_t timeAtHandshake;
bool needInit = true;
bool targetReachedUninitialized;
};
/*
A special communication timeout is used in the following two cases:
1) Enable command
@@ -71,7 +85,14 @@ void appendErrorMessage(char *fullMessage, size_t capacityFullMessage,
}
masterMacsAxis::masterMacsAxis(masterMacsController *pC, int axisNo)
: sinqAxis(pC, axisNo), pC_(pC) {
: sinqAxis(pC, axisNo), pC_(pC),
pMasterMacsA_(std::make_unique<masterMacsAxisImpl>((masterMacsAxisImpl){
.axisStatus = std::bitset<16>(0),
.axisError = std::bitset<16>(0),
.waitForHandshake = false,
.timeAtHandshake = 0,
.targetReachedUninitialized = true,
})) {
asynStatus status = asynSuccess;
@@ -104,18 +125,6 @@ masterMacsAxis::masterMacsAxis(masterMacsController *pC, int axisNo)
// Collect all axes into this list which will be used in the hook function
axes.push_back(this);
// Initialize all member variables
axisStatus_ = std::bitset<16>(0);
axisError_ = std::bitset<16>(0);
// Initial value for the motor speed, is overwritten in atFirstPoll.
lastSetSpeed_ = 0.0;
// Flag for handshake waiting
waitForHandshake_ = false;
timeAtHandshake_ = 0;
targetReachedUninitialized_ = true;
// masterMacs motors can always be disabled
status = pC_->setIntegerParam(axisNo_, pC_->motorCanDisable(), 1);
if (status != asynSuccess) {
@@ -206,6 +215,10 @@ asynStatus masterMacsAxis::init() {
}
}
// Initially assume that the axis is disconnected. It will be set to
// connected after the first communication attempted succeeded.
setAxisParamChecked(this, motorConnected, false);
// Read out the current position
pl_status = pC_->read(axisNo_, 12, response);
if (pl_status != asynSuccess) {
@@ -250,11 +263,6 @@ asynStatus masterMacsAxis::init() {
__PRETTY_FUNCTION__, __LINE__);
}
// Cache the motor speed. If this value differs from the one in the motor
// record at the start of a movement, the motor record value is sent to
// MasterMACS.
lastSetSpeed_ = motorVelocity;
// Store the motor position in the parameter library
pl_status = setMotorPosition(motorPosition);
if (pl_status != asynSuccess) {
@@ -289,6 +297,10 @@ asynStatus masterMacsAxis::init() {
pC_->stringifyAsynStatus(pl_status));
return pl_status;
}
// Axis is fully initialized
setNeedInit(false);
return pl_status;
}
@@ -319,13 +331,20 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
// =========================================================================
// Does the axis need to be initialized?
if (needInit()) {
// Perform the rest of the poll, but remember if sth. failed in the
// init.
poll_status = init();
}
// Are we currently waiting for a handshake?
if (waitForHandshake_) {
if (pMasterMacsA_->waitForHandshake) {
// Check if the handshake takes too long and communicate an error in
// this case. A handshake should not take more than 5 seconds.
time_t currentTime = time(NULL);
bool timedOut = (currentTime > timeAtHandshake_ + 5);
bool timedOut = (currentTime > pMasterMacsA_->timeAtHandshake + 5);
if (pC_->getMsgPrintControl().shouldBePrinted(
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__, timedOut,
@@ -335,18 +354,15 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
"handshake at %ld s and didn't get a positive reply yet "
"(current time is %ld s).\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
timeAtHandshake_, currentTime);
pMasterMacsA_->timeAtHandshake, currentTime);
}
if (timedOut) {
pl_status =
setStringParam(pC_->motorMessageText(),
"Timed out while waiting for a handshake");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
setAxisParamChecked(this, motorMessageText,
"Timed out while waiting for a handshake. "
"Please call the support.");
poll_status = asynError;
}
pC_->read(axisNo_, 86, response);
@@ -363,39 +379,18 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
if (handshakePerformed == 1.0) {
// Handshake has been performed successfully -> Continue with the
// poll
waitForHandshake_ = false;
targetReachedUninitialized_ = false;
pMasterMacsA_->waitForHandshake = false;
pMasterMacsA_->targetReachedUninitialized = false;
} else {
// Still waiting for the handshake - try again in the next busy
// poll. This is already part of the movement procedure.
*moving = true;
pl_status = setIntegerParam(pC_->motorStatusMoving(), *moving);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status,
"motorStatusMoving_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDone(), !(*moving));
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDone_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return asynSuccess;
setAxisParamChecked(this, motorStatusMoving, *moving);
setAxisParamChecked(this, motorStatusDone, !(*moving));
return poll_status;
}
}
// Motor resolution from parameter library
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorRecResolution(),
&motorRecResolution);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorRecResolution_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
// Read the previous motor position
pl_status = motorPosition(&previousPosition);
@@ -409,7 +404,10 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
return rw_status;
}
if (targetReachedUninitialized_) {
// If we wait for a handshake, but the motor was moving in its last poll
// cycle and has reached its target, it is not moving. Otherwise it is
// considered moving, even if we're still waiting for the handshake.
if (pMasterMacsA_->targetReachedUninitialized) {
*moving = false;
} else {
if (targetReached() || !switchedOn()) {
@@ -420,7 +418,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
}
if (targetReached()) {
targetReachedUninitialized_ = false;
pMasterMacsA_->targetReachedUninitialized = false;
}
// Read the current position
@@ -438,11 +436,12 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
Read out the error if either a fault condition status flag has been set or
if a movement has just ended.
*/
msgPrintControlKey keyError = msgPrintControlKey(
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
if (faultConditionSet() || !(*moving)) {
rw_status = readAxisError();
}
msgPrintControlKey keyError = msgPrintControlKey(
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
/*
A communication error is a special case. If a communication between
@@ -459,15 +458,9 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
pC_->getMsgPrintControl().getSuffix());
}
pl_status =
setStringParam(pC_->motorMessageText(),
setAxisParamChecked(this, motorMessageText,
"Communication error between PC and motor "
"controller. Please call the support.");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
poll_status = asynError;
} else {
@@ -481,8 +474,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
if (shortCircuit()) {
appendErrorMessage(shellMessage, sizeof(shellMessage),
"Short circuit fault.");
appendErrorMessage(
errorMessage, sizeof(errorMessage),
appendErrorMessage(errorMessage, sizeof(errorMessage),
"Short circuit error. Please call the support.");
poll_status = asynError;
@@ -498,8 +490,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
}
if (followingError()) {
appendErrorMessage(
shellMessage, sizeof(shellMessage),
appendErrorMessage(shellMessage, sizeof(shellMessage),
"Maximum callowed following error exceeded.");
appendErrorMessage(
errorMessage, sizeof(errorMessage),
@@ -561,8 +552,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
if (overCurrent()) {
appendErrorMessage(shellMessage, sizeof(shellMessage),
"Overcurrent error.");
appendErrorMessage(
errorMessage, sizeof(errorMessage),
appendErrorMessage(errorMessage, sizeof(errorMessage),
"Overcurrent error. Please call the support.");
poll_status = asynError;
@@ -581,8 +571,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
if (overVoltage()) {
appendErrorMessage(shellMessage, sizeof(shellMessage),
"Overvoltage error.");
appendErrorMessage(
errorMessage, sizeof(errorMessage),
appendErrorMessage(errorMessage, sizeof(errorMessage),
"Overvoltage error. Please call the support.");
poll_status = asynError;
@@ -591,8 +580,7 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
if (underVoltage()) {
appendErrorMessage(shellMessage, sizeof(shellMessage),
"Undervoltage error.");
appendErrorMessage(
errorMessage, sizeof(errorMessage),
appendErrorMessage(errorMessage, sizeof(errorMessage),
"Undervoltage error. Please call the support.");
poll_status = asynError;
@@ -608,25 +596,21 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
}
if (strlen(shellMessage) > 0) {
if (pC_->getMsgPrintControl().shouldBePrinted(
keyError, true, pC_->pasynUser())) {
if (pC_->getMsgPrintControl().shouldBePrinted(keyError, true,
pC_->pasynUser())) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line "
"%d\n%s%s\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__,
__LINE__, shellMessage,
pC_->getMsgPrintControl().getSuffix());
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
shellMessage, pC_->getMsgPrintControl().getSuffix());
}
}
pl_status = setStringParam(pC_->motorMessageText(), errorMessage);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
setAxisParamChecked(this, motorMessageText, errorMessage);
}
}
} else {
// No error has been detected -> Reset the error count
if (poll_status == asynSuccess) {
pC_->getMsgPrintControl().resetCount(keyError, pC_->pasynUser());
}
@@ -665,40 +649,18 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
directly, but need to shrink them a bit. In this case, we're shrinking
them by 0.1 mm or 0.1 degree (depending on the axis type) on both sides.
*/
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorLimitsOffset(),
&limitsOffset);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorLimitsOffset_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
getAxisParamChecked(this, motorLimitsOffset, &limitsOffset);
highLimit = highLimit - limitsOffset;
lowLimit = lowLimit + limitsOffset;
pl_status = pC_->setDoubleParam(
axisNo_, pC_->motorHighLimitFromDriver(), highLimit);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(
pl_status, "motorHighLimitFromDriver_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = pC_->setDoubleParam(axisNo_, pC_->motorLowLimitFromDriver(),
lowLimit);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorLowLimit_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
setAxisParamChecked(this, motorHighLimitFromDriver, highLimit);
setAxisParamChecked(this, motorLowLimitFromDriver, lowLimit);
}
// Update the enable PV
pl_status = setIntegerParam(pC_->motorEnableRBV(),
setAxisParamChecked(this, motorEnableRBV,
readyToBeSwitchedOn() && switchedOn());
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorEnableRBV_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
if (*moving) {
// If the axis is moving, evaluate the movement direction
@@ -711,38 +673,16 @@ asynStatus masterMacsAxis::doPoll(bool *moving) {
// Update the parameter library
if (hasError) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
}
pl_status = setIntegerParam(pC_->motorStatusMoving(), *moving);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusMoving_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDone(), !(*moving));
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDone_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = setIntegerParam(pC_->motorStatusDirection(), direction);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusDirection_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
setAxisParamChecked(this, motorStatusProblem, true);
}
setAxisParamChecked(this, motorStatusMoving, *moving);
setAxisParamChecked(this, motorStatusDone, !(*moving));
setAxisParamChecked(this, motorStatusDirection, direction);
pl_status = setMotorPosition(currentPosition);
if (pl_status != asynSuccess) {
return pl_status;
}
return poll_status;
}
@@ -750,11 +690,12 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
double minVelocity, double maxVelocity,
double acceleration) {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Suppress unused variable warning
(void)minVelocity;
(void)acceleration;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
// Status of read-write-operations of ASCII commands to the controller
asynStatus status = asynSuccess;
char value[pC_->MAXBUF_];
double motorCoordinatesPosition = 0.0;
@@ -765,19 +706,8 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// =========================================================================
pl_status = pC_->getIntegerParam(axisNo_, pC_->motorEnableRBV(), &enabled);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "enableMotorRBV_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
pl_status = pC_->getDoubleParam(axisNo_, pC_->motorRecResolution(),
&motorRecResolution);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorRecResolution_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
getAxisParamChecked(this, motorEnableRBV, &enabled);
getAxisParamChecked(this, motorRecResolution, &motorRecResolution);
if (enabled == 0) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
@@ -797,42 +727,24 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__, position);
// Check if the speed is allowed to be changed
pl_status = pC_->getIntegerParam(axisNo_, pC_->motorCanSetSpeed(),
&motorCanSetSpeed);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorCanSetSpeed_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
getAxisParamChecked(this, motorCanSetSpeed, &motorCanSetSpeed);
// Initialize the movement handshake
rw_status = pC_->write(axisNo_, 86, "0");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
status = pC_->write(axisNo_, 86, "0");
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
return status;
}
// Set the new motor speed, if the user is allowed to do so and if the
// motor speed changed since the last move command.
if (motorCanSetSpeed != 0 && lastSetSpeed_ != motorVelocity) {
lastSetSpeed_ = motorVelocity;
if (motorCanSetSpeed != 0) {
snprintf(value, sizeof(value), "%lf", motorVelocity);
rw_status = pC_->write(axisNo_, 05, value);
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status,
"motorStatusProblem_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return rw_status;
status = pC_->write(axisNo_, 05, value);
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
return status;
}
asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW,
@@ -844,43 +756,34 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
// Set the target position
snprintf(value, sizeof(value), "%lf", motorCoordinatesPosition);
rw_status = pC_->write(axisNo_, 02, value);
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
status = pC_->write(axisNo_, 02, value);
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
return status;
}
// If the motor has just been enabled, use Enable
double timeout = pC_->comTimeout();
if (targetReachedUninitialized_ && timeout < PowerCycleTimeout) {
if (pMasterMacsA_->targetReachedUninitialized &&
timeout < PowerCycleTimeout) {
timeout = PowerCycleTimeout;
}
// Start the move
if (relative) {
rw_status = pC_->write(axisNo_, 00, "2", timeout);
status = pC_->write(axisNo_, 00, "2", timeout);
} else {
rw_status = pC_->write(axisNo_, 00, "1", timeout);
status = pC_->write(axisNo_, 00, "1", timeout);
}
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return rw_status;
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
return status;
}
// In the next poll, we will check if the handshake has been performed in a
// reasonable time
waitForHandshake_ = true;
timeAtHandshake_ = time(NULL);
pMasterMacsA_->waitForHandshake = true;
pMasterMacsA_->timeAtHandshake = time(NULL);
// Waiting for a handshake is already part of the movement procedure =>
// Start the watchdog
@@ -888,101 +791,103 @@ asynStatus masterMacsAxis::doMove(double position, int relative,
return asynError;
}
return rw_status;
return status;
}
asynStatus masterMacsAxis::stop(double acceleration) {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Suppress unused variable warning
(void)acceleration;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
// =========================================================================
rw_status = pC_->write(axisNo_, 00, "8");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
asynStatus status = pC_->write(axisNo_, 00, "8");
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
}
return rw_status;
// Reset the driver to idle state and move out of the handshake wait loop,
// if we're currently inside it.
pMasterMacsA_->waitForHandshake = false;
return status;
}
asynStatus masterMacsAxis::doReset() {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
asynStatus status = asynSuccess;
// =========================================================================
rw_status = pC_->write(axisNo_, 17, "");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
// Reset any errors
status = pC_->write(axisNo_, 17, "");
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
}
return rw_status;
// Move out of the handshake wait loop, if we're currently inside it.
pMasterMacsA_->waitForHandshake = false;
// Disable the axis
return enable(false);
}
asynStatus masterMacsAxis::nodeReset() {
asynStatus status = asynSuccess;
// Reset the controller ("node reset"). Since the node reset results in a
// power cycle, we use the corresponding timeout.
status = pC_->write(axisNo_, 16, "", PowerCycleTimeout);
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
}
// Move out of the handshake wait loop, if we're currently inside it.
pMasterMacsA_->waitForHandshake = false;
// Reinitialize the axis
status = masterMacsAxis::init();
if (status != asynSuccess) {
return status;
}
bool moving = false;
return forcedPoll(&moving);
}
/*
Home the axis. On absolute encoder systems, this is a no-op
*/
asynStatus masterMacsAxis::doHome(double min_velocity, double max_velocity,
asynStatus masterMacsAxis::doHome(double minVelocity, double maxVelocity,
double acceleration, int forwards) {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char response[pC_->MAXBUF_] = {0};
// =========================================================================
pl_status = pC_->getStringParam(axisNo_, pC_->encoderType(),
sizeof(response), response);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "encoderType_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
// Suppress unused variable warning
(void)minVelocity;
(void)maxVelocity;
(void)acceleration;
(void)forwards;
getAxisParamChecked(this, encoderType, &response);
// Only send the home command if the axis has an incremental encoder
if (strcmp(response, IncrementalEncoder) == 0) {
// Initialize the movement handshake
rw_status = pC_->write(axisNo_, 86, "0");
if (rw_status != asynSuccess) {
pl_status = setIntegerParam(pC_->motorStatusProblem(), true);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status,
"motorStatusProblem_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return rw_status;
asynStatus status = pC_->write(axisNo_, 86, "0");
if (status != asynSuccess) {
setAxisParamChecked(this, motorStatusProblem, true);
return status;
}
rw_status = pC_->write(axisNo_, 00, "9");
if (rw_status != asynSuccess) {
return rw_status;
status = pC_->write(axisNo_, 00, "9");
if (status != asynSuccess) {
return status;
}
// In the next poll, we will check if the handshake has been performed
// in a reasonable time
waitForHandshake_ = true;
timeAtHandshake_ = time(NULL);
pMasterMacsA_->waitForHandshake = true;
pMasterMacsA_->timeAtHandshake = time(NULL);
return asynSuccess;
} else {
return asynError;
@@ -994,12 +899,6 @@ Read the encoder type and update the parameter library accordingly
*/
asynStatus masterMacsAxis::readEncoderType() {
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char command[pC_->MAXBUF_] = {0};
char response[pC_->MAXBUF_] = {0};
int nvals = 0;
@@ -1008,9 +907,9 @@ asynStatus masterMacsAxis::readEncoderType() {
// =========================================================================
// Check if this is an absolute encoder
rw_status = pC_->read(axisNo_, 60, response);
if (rw_status != asynSuccess) {
return rw_status;
asynStatus status = pC_->read(axisNo_, 60, response);
if (status != asynSuccess) {
return status;
}
nvals = sscanf(response, "%d", &encoder_id);
@@ -1021,33 +920,23 @@ asynStatus masterMacsAxis::readEncoderType() {
/*
Defined encoder IDs:
0=INC (Incremental)
0=INC (Incremental or no encoder)
1=SSI (Absolute encoder with SSI interface)
2=SSI (Absolute encoder with BiSS interface)
*/
if (encoder_id == 0) {
pl_status = setStringParam(pC_->encoderType(), IncrementalEncoder);
setAxisParamChecked(this, encoderType, IncrementalEncoder);
} else {
pl_status = setStringParam(pC_->encoderType(), AbsoluteEncoder);
setAxisParamChecked(this, encoderType, AbsoluteEncoder);
}
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "encoderType_", axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
return asynSuccess;
}
asynStatus masterMacsAxis::enable(bool on) {
int timeout_enable_disable = 2;
char value[pC_->MAXBUF_];
// Status of read-write-operations of ASCII commands to the controller
asynStatus rw_status = asynSuccess;
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
char msg[pC_->MAXBUF_];
// =========================================================================
@@ -1056,7 +945,7 @@ asynStatus masterMacsAxis::enable(bool on) {
0. In order to prevent the poll method in interpreting the motor state as
"moving", this flag is used. It is reset in the handshake.
*/
targetReachedUninitialized_ = true;
pMasterMacsA_->targetReachedUninitialized = true;
/*
Continue regardless of the status returned by the poll; we just want to
@@ -1068,23 +957,15 @@ asynStatus masterMacsAxis::enable(bool on) {
doPoll(&moving);
// If the axis is currently moving, it cannot be disabled. Ignore the
// command and inform the user. We check the last known status of the
// axis instead of "moving", since status -6 is also moving, but the
// motor can actually be disabled in this state!
// command and inform the user.
if (moving) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line %d:\nAxis is not "
"idle and can therefore not be disabled.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__);
pl_status =
setStringParam(pC_->motorMessageText(),
setAxisParamChecked(this, motorMessageText,
"Axis cannot be disabled while it is moving.");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return asynError;
}
@@ -1102,7 +983,7 @@ asynStatus masterMacsAxis::enable(bool on) {
}
// Enable / disable the axis if it is not moving
snprintf(value, sizeof(value), "%d", on);
snprintf(msg, sizeof(msg), "%d", on);
asynPrint(pC_->pasynUser(), ASYN_TRACE_FLOW,
"Controller \"%s\", axis %d => %s, line %d:\n%s axis.\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
@@ -1112,13 +993,14 @@ asynStatus masterMacsAxis::enable(bool on) {
// hence we wait for a custom timespan in seconds instead of
// pC_->comTimeout_
double timeout = pC_->comTimeout();
if (targetReachedUninitialized_ && timeout < PowerCycleTimeout) {
if (pMasterMacsA_->targetReachedUninitialized &&
timeout < PowerCycleTimeout) {
timeout = PowerCycleTimeout;
}
rw_status = pC_->write(axisNo_, 04, value, timeout);
if (rw_status != asynSuccess) {
return rw_status;
asynStatus status = pC_->write(axisNo_, 04, msg, timeout);
if (status != asynSuccess) {
return status;
}
// Query the axis status every few milliseconds until the axis has been
@@ -1128,15 +1010,15 @@ asynStatus masterMacsAxis::enable(bool on) {
// Read the axis status
usleep(100000);
rw_status = readAxisStatus();
if (rw_status != asynSuccess) {
return rw_status;
status = readAxisStatus();
if (status != asynSuccess) {
return status;
}
if (switchedOn() == on) {
bool moving = false;
// Perform a poll to update the parameter library
poll(&moving);
forcedPoll(&moving);
return asynSuccess;
}
}
@@ -1150,17 +1032,24 @@ asynStatus masterMacsAxis::enable(bool on) {
on ? "enable" : "disable", timeout_enable_disable);
// Output message to user
snprintf(value, sizeof(value), "Failed to %s within %d seconds",
snprintf(msg, sizeof(msg), "Failed to %s within %d seconds",
on ? "enable" : "disable", timeout_enable_disable);
pl_status = setStringParam(pC_->motorMessageText(), value);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
setAxisParamChecked(this, motorMessageText, msg);
return asynError;
}
bool masterMacsAxis::needInit() { return pMasterMacsA_->needInit; }
/**
* @brief Instruct the axis to run its init() function during the next poll
*
* @param needInit
*/
void masterMacsAxis::setNeedInit(bool needInit) {
pMasterMacsA_->needInit = needInit;
}
/**
Convert a float to an unint16_t bitset
*/
@@ -1190,7 +1079,7 @@ asynStatus masterMacsAxis::readAxisStatus() {
__PRETTY_FUNCTION__, __LINE__);
}
axisStatus_ = toBitset(axisStatus);
pMasterMacsA_->axisStatus = toBitset(axisStatus);
}
return rw_status;
@@ -1210,11 +1099,83 @@ asynStatus masterMacsAxis::readAxisError() {
return pC_->couldNotParseResponse("R11", response, axisNo_,
__PRETTY_FUNCTION__, __LINE__);
}
axisError_ = toBitset(axisError);
pMasterMacsA_->axisError = toBitset(axisError);
}
return rw_status;
}
bool masterMacsAxis::readyToBeSwitchedOn() {
return pMasterMacsA_->axisStatus[0];
}
bool masterMacsAxis::switchedOn() { return pMasterMacsA_->axisStatus[1]; }
bool masterMacsAxis::faultConditionSet() {
return pMasterMacsA_->axisStatus[3];
}
bool masterMacsAxis::voltagePresent() { return pMasterMacsA_->axisStatus[4]; }
bool masterMacsAxis::quickStopping() {
return pMasterMacsA_->axisStatus[5] == 0;
}
bool masterMacsAxis::switchOnDisabled() { return pMasterMacsA_->axisStatus[6]; }
bool masterMacsAxis::warning() { return pMasterMacsA_->axisStatus[7]; }
bool masterMacsAxis::remoteMode() { return pMasterMacsA_->axisStatus[9]; }
bool masterMacsAxis::targetReached() { return pMasterMacsA_->axisStatus[10]; }
bool masterMacsAxis::internalLimitActive() {
return pMasterMacsA_->axisStatus[11];
}
bool masterMacsAxis::setEventHasOcurred() {
return pMasterMacsA_->axisStatus[14];
}
bool masterMacsAxis::powerEnabled() { return pMasterMacsA_->axisStatus[15]; }
bool masterMacsAxis::shortCircuit() { return pMasterMacsA_->axisError[1]; }
bool masterMacsAxis::encoderError() { return pMasterMacsA_->axisError[2]; }
bool masterMacsAxis::followingError() { return pMasterMacsA_->axisError[3]; }
bool masterMacsAxis::communicationError() {
return pMasterMacsA_->axisError[4];
}
bool masterMacsAxis::feedbackError() { return pMasterMacsA_->axisError[5]; }
bool masterMacsAxis::positiveLimitSwitch() {
return pMasterMacsA_->axisError[6];
}
bool masterMacsAxis::negativeLimitSwitch() {
return pMasterMacsA_->axisError[7];
}
bool masterMacsAxis::positiveSoftwareLimit() {
return pMasterMacsA_->axisError[8];
}
bool masterMacsAxis::negativeSoftwareLimit() {
return pMasterMacsA_->axisError[9];
}
bool masterMacsAxis::overCurrent() { return pMasterMacsA_->axisError[10]; }
bool masterMacsAxis::overTemperature() { return pMasterMacsA_->axisError[11]; }
bool masterMacsAxis::overVoltage() { return pMasterMacsA_->axisError[12]; }
bool masterMacsAxis::underVoltage() { return pMasterMacsA_->axisError[13]; }
bool masterMacsAxis::stoFault() { return pMasterMacsA_->axisError[15]; }
/***************************************************************************/
/** The following functions are C-wrappers, and can be called directly from
* iocsh */
@@ -1298,8 +1259,9 @@ static const iocshArg CreateAxisArg0 = {"Controller name (e.g. mmacs1)",
static const iocshArg CreateAxisArg1 = {"Axis number", iocshArgInt};
static const iocshArg *const CreateAxisArgs[] = {&CreateAxisArg0,
&CreateAxisArg1};
static const iocshFuncDef configMasterMacsCreateAxis = {"masterMacsAxis", 2,
CreateAxisArgs};
static const iocshFuncDef configMasterMacsCreateAxis = {
"masterMacsAxis", 2, CreateAxisArgs,
"Create a new instance of a MasterMACS axis."};
static void configMasterMacsCreateAxisCallFunc(const iocshArgBuf *args) {
masterMacsCreateAxis(args[0].sval, args[1].ival);
}

238
src/masterMacsAxis.h
View File

@@ -1,14 +1,12 @@
#ifndef masterMacsAXIS_H
#define masterMacsAXIS_H
#include "masterMacsController.h"
#include "sinqAxis.h"
#include <bitset>
#include <memory>
// Forward declaration of the controller class to resolve the cyclic dependency
// between the controller and the axis .h-file. See
// https://en.cppreference.com/w/cpp/language/class.
class masterMacsController;
struct HIDDEN masterMacsAxisImpl;
class masterMacsAxis : public sinqAxis {
class HIDDEN masterMacsAxis : public sinqAxis {
public:
/**
* @brief Construct a new masterMacsAxis
@@ -18,6 +16,13 @@ class masterMacsAxis : public sinqAxis {
*/
masterMacsAxis(masterMacsController *pController, int axisNo);
/**
* @brief Delete the copy and copy assignment constructors, because this
* class should not be copied (it is tied to hardware!)
*/
masterMacsAxis(const masterMacsAxis &) = delete;
masterMacsAxis &operator=(const masterMacsAxis &) = delete;
/**
* @brief Destroy the masterMacsAxis
*
@@ -52,13 +57,13 @@ class masterMacsAxis : public sinqAxis {
*
* @param position
* @param relative
* @param min_velocity
* @param max_velocity
* @param minVelocity
* @param maxVelocity
* @param acceleration
* @return asynStatus
*/
asynStatus doMove(double position, int relative, double min_velocity,
double max_velocity, double acceleration);
asynStatus doMove(double position, int relative, double minVelocity,
double maxVelocity, double acceleration);
/**
* @brief Implementation of the `stop` function from asynMotorAxis
@@ -77,12 +82,27 @@ class masterMacsAxis : public sinqAxis {
*/
asynStatus doReset();
/**
* @brief Performs a "node reset" on the axis as defined in the CANopen
* standard
*
* A "node reset" is a factory reset on the axis which completely deletes
* all configured information (e.g. limits or speed) from the axis. The
* MasterMACS controller then reapplies the initial configuration to this
* axis. It can therefore be seen as a "hard" version of the normal error
* reset performed by the `doReset` method.
*
* @return asynStatus
*/
asynStatus nodeReset();
/**
* @brief Readout of some values from the controller at IOC startup
*
* The following steps are performed:
* - Read out the motor status, motor position, velocity and acceleration
* from the MCU and store this information in the parameter library.
* - Read out the motor status, motor position, velocity and
* acceleration from the MCU and store this information in the parameter
* library.
* - Set the enable PV accordint to the initial status of the axis.
*
* @return asynStatus
@@ -98,191 +118,227 @@ class masterMacsAxis : public sinqAxis {
asynStatus enable(bool on);
/**
* @brief Read the encoder type (incremental or absolute) for this axis from
* the MCU and store the information in the PV ENCODER_TYPE.
* @brief Read the encoder type (incremental or absolute) for this axis
* from the MCU and store the information in the PV ENCODER_TYPE.
*
* @return asynStatus
*/
asynStatus readEncoderType();
protected:
masterMacsController *pC_;
double lastSetSpeed_;
bool waitForHandshake_;
time_t timeAtHandshake_;
bool targetReachedUninitialized_;
asynStatus readConfig();
/*
The axis status and axis error of MasterMACS are given as an integer from
the controller. The 16 individual bits contain the actual information.
/**
* @brief Check if the axis needs to run its initialization function
*
* @return true
* @return false
*/
std::bitset<16> axisStatus_;
std::bitset<16> axisError_;
bool needInit();
/**
* @brief Read the Master MACS status with the xR10 command and store the
* result in axisStatus_
* @brief Instruct the axis to run its init() function during the next
* poll
*
* @param needInit
*/
void setNeedInit(bool needInit);
/**
* @brief Return a pointer to the axis controller
*/
virtual masterMacsController *pController() override { return pC_; };
/**
* @brief Read the Master MACS status with the xR10 command and store
* the result in axisStatus (see masterMacsAxisImpl redefinition in
* masterMacsAxis.cpp)
*
*/
asynStatus readAxisStatus();
/*
The functions below read the specified status bit from the axisStatus_
bitset. Since a bit can either be 0 or 1, the return value is given as a
boolean.
The functions below read the specified status bit from the axisStatus (see
masterMacsAxisImpl redefinition in masterMacsAxis.cpp) bitset. Since a bit
can either be 0 or 1, the return value is given as a boolean.
*/
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool readyToBeSwitchedOn() { return axisStatus_[0]; }
bool readyToBeSwitchedOn();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool switchedOn() { return axisStatus_[1]; }
bool switchedOn();
// Bit 2 is unused
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool faultConditionSet() { return axisStatus_[3]; }
bool faultConditionSet();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool voltagePresent() { return axisStatus_[4]; }
bool voltagePresent();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool quickStopping() { return axisStatus_[5] == 0; }
bool quickStopping();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool switchOnDisabled() { return axisStatus_[6]; }
bool switchOnDisabled();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool warning() { return axisStatus_[7]; }
bool warning();
// Bit 8 is unused
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool remoteMode() { return axisStatus_[9]; }
bool remoteMode();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool targetReached() { return axisStatus_[10]; }
bool targetReached();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool internalLimitActive() { return axisStatus_[11]; }
bool internalLimitActive();
// Bits 12 and 13 are unused
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool setEventHasOcurred() { return axisStatus_[14]; }
bool setEventHasOcurred();
/**
* @brief Read the property from axisStatus_
* @brief Read the property from axisStatus (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool powerEnabled() { return axisStatus_[15]; }
bool powerEnabled();
/**
* @brief Read the Master MACS status with the xR10 command and store the
* result in axisStatus_
* @brief Read the Master MACS error with the xR10 command and store
* the result in axisError (see masterMacsAxisImpl redefinition in
* masterMacsAxis.cpp)
*
*/
asynStatus readAxisError();
/*
The functions below read the specified error bit from the axisError_
bitset. Since a bit can either be 0 or 1, the return value is given as a
boolean.
The functions below read the specified error bit from the axisError (see
masterMacsAxisImpl redefinition in masterMacsAxis.cpp) bitset. Since a bit
can either be 0 or 1, the return value is given as a boolean.
*/
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool shortCircuit() { return axisError_[1]; }
bool shortCircuit();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool encoderError() { return axisError_[2]; }
bool encoderError();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool followingError() { return axisError_[3]; }
bool followingError();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool communicationError() { return axisError_[4]; }
bool communicationError();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool feedbackError() { return axisError_[5]; }
bool feedbackError();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool positiveLimitSwitch() { return axisError_[6]; }
bool positiveLimitSwitch();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool negativeLimitSwitch() { return axisError_[7]; }
bool negativeLimitSwitch();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool positiveSoftwareLimit() { return axisError_[8]; }
bool positiveSoftwareLimit();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool negativeSoftwareLimit() { return axisError_[9]; }
bool negativeSoftwareLimit();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool overCurrent() { return axisError_[10]; }
bool overCurrent();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool overTemperature() { return axisError_[11]; }
bool overTemperature();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool overVoltage() { return axisError_[12]; }
bool overVoltage();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool underVoltage() { return axisError_[13]; }
bool underVoltage();
/**
* @brief Read the property from axisError_
* @brief Read the property from axisError (see masterMacsAxisImpl
* redefinition in masterMacsAxis.cpp)
*/
bool stoFault() { return axisError_[15]; }
bool stoFault();
private:
masterMacsController *pC_;
std::unique_ptr<masterMacsAxisImpl> pMasterMacsA_;
};
#endif

268
src/masterMacsController.cpp
View File

@@ -12,6 +12,35 @@
#include <string>
#include <unistd.h>
/*
These functions are used to read out the compiler flags defining the major and
minor versions. See README.md, section "Firmware version checking" for
details. If these flags are not given, a default value of -1 is used, which
disables the version checks (it suffices to have one of these at -1 to disable
both major and minor version check)
*/
constexpr int firmware_major_version() {
#ifdef FIRMWARE_MAJOR_VERSION
return FIRMWARE_MAJOR_VERSION;
#else
return -1;
#endif
}
constexpr int firmware_minor_version() {
#ifdef FIRMWARE_MINOR_VERSION
return FIRMWARE_MINOR_VERSION;
#else
return -1;
#endif
}
struct masterMacsControllerImpl {
double comTimeout;
// Indices of additional ParamLib entries
int nodeReset;
};
/**
* @brief Copy src into dst and replace all NULL terminators up to the carriage
* return with spaces. This allows to print *dst with asynPrint.
@@ -52,15 +81,32 @@ masterMacsController::masterMacsController(const char *portName,
: sinqController(portName, ipPortConfigName, numAxes, movingPollPeriod,
idlePollPeriod,
// No additional parameter library entries
0)
0),
pMasterMacsC_(
std::make_unique<masterMacsControllerImpl>((masterMacsControllerImpl){
.comTimeout = comTimeout,
.nodeReset = 0, // Overwritten later
}))
{
// Initialization of local variables
asynStatus status = asynSuccess;
char response[MAXBUF_] = {0};
// Initialization of all member variables
comTimeout_ = comTimeout;
// =========================================================================
// Create additional parameter library entries
status =
createParam("NODE_RESET", asynParamInt32, &pMasterMacsC_->nodeReset);
if (status != asynSuccess) {
asynPrint(this->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\" => %s, line %d\nFATAL ERROR (creating a "
"parameter failed with %s).\nTerminating IOC",
portName, __PRETTY_FUNCTION__, __LINE__,
stringifyAsynStatus(status));
exit(-1);
}
// =========================================================================
@@ -93,6 +139,60 @@ masterMacsController::masterMacsController(const char *portName,
pasynOctetSyncIO->disconnect(pasynOctetSyncIOipPort());
exit(-1);
}
// =========================================================================
if (firmware_major_version() >= 0 && firmware_minor_version() >= 0) {
// Check the firmware version according to the conditions outlined in
// README.md
status = read(0, 99, response);
if (status == asynSuccess) {
// Just interpret the version if the variable already exists
double versionRaw = 0.0;
int nvals = sscanf(response, "%lf", &versionRaw);
if (nvals == 1 && versionRaw != 0.0) {
// Discard decimal part
long long versionInt = (long long)versionRaw;
// Extract bugfix (last 3 digits)
// Currently not used, just here for completions sake
// int bugfix = versionInt % 1000;
versionInt /= 1000;
// Extract minor (next 3 digits)
int minor = versionInt % 1000;
versionInt /= 1000;
// Remaining is major
int major = (int)versionInt;
// Compare to target values
if (firmware_major_version() != major ||
firmware_minor_version() > minor) {
asynPrint(this->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\" => %s, line %d\nFATAL ERROR "
"(Incorrect "
"version number of firmware: Expected major "
"version equal "
"to %d, got %d. Expected minor version equal to "
"or larger "
"than %d, got %d).\nTerminating IOC",
portName, __PRETTY_FUNCTION__, __LINE__,
firmware_major_version(), major,
firmware_minor_version(), minor);
exit(-1);
}
}
} else {
asynPrint(
this->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\" => %s, line %d\nCould not read firmware "
"version\n",
portName, __PRETTY_FUNCTION__, __LINE__);
}
}
}
/*
@@ -114,8 +214,24 @@ masterMacsAxis *masterMacsController::getMasterMacsAxis(int axisNo) {
return dynamic_cast<masterMacsAxis *>(asynAxis);
}
asynStatus masterMacsController::writeInt32(asynUser *pasynUser,
epicsInt32 value) {
int function = pasynUser->reason;
// =====================================================================
masterMacsAxis *axis = getMasterMacsAxis(pasynUser);
// Handle custom PVs
if (function == nodeReset()) {
return axis->nodeReset();
} else {
return sinqController::writeInt32(pasynUser, value);
}
}
asynStatus masterMacsController::read(int axisNo, int tcpCmd, char *response,
double comTimeout) {
double /*comTimeout*/) {
return writeRead(axisNo, tcpCmd, NULL, response);
}
@@ -130,7 +246,6 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
// Definition of local variables.
asynStatus status = asynSuccess;
asynStatus pl_status = asynSuccess;
char fullCommand[MAXBUF_] = {0};
char fullResponse[MAXBUF_] = {0};
char drvMessageText[MAXBUF_] = {0};
@@ -158,13 +273,7 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
// Check if a custom timeout has been given
if (comTimeout < 0.0) {
comTimeout = comTimeout_;
}
masterMacsAxis *axis = getMasterMacsAxis(axisNo);
if (axis == nullptr) {
// We already did the error logging directly in getAxis
return asynError;
comTimeout = pMasterMacsC_->comTimeout;
}
// Build the full command depending on the inputs to this function
@@ -192,7 +301,7 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
msgPrintControlKey comKey =
msgPrintControlKey(portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
if (status != asynSuccess) {
if (msgPrintControl_.shouldBePrinted(comKey, true, pasynUserSelf)) {
if (getMsgPrintControl().shouldBePrinted(comKey, true, pasynUserSelf)) {
char printableCommand[MAXBUF_] = {0};
adjustForPrint(printableCommand, fullCommand, MAXBUF_);
asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR,
@@ -202,7 +311,7 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
stringifyAsynStatus(status), printableCommand);
}
} else {
msgPrintControl_.resetCount(comKey, pasynUserSelf);
getMsgPrintControl().resetCount(comKey, pasynUserSelf);
}
// Create custom error messages for different failure modes
@@ -248,41 +357,38 @@ asynStatus masterMacsController::writeRead(int axisNo, int tcpCmd,
}
// Log the overall status (communication successfull or not)
if (status == asynSuccess) {
pl_status = axis->setIntegerParam(this->motorStatusCommsError_, 0);
} else {
// Check if the axis already is in an error communication mode. If
// it is not, upstream the error. This is done to avoid "flooding"
// the user with different error messages if more than one error
// ocurred before an error-free communication
pl_status =
getIntegerParam(axisNo, motorStatusProblem_, &motorStatusProblem);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusProblem_",
axisNo, __PRETTY_FUNCTION__, __LINE__);
if (axisNo != 0) {
masterMacsAxis *axis = getMasterMacsAxis(axisNo);
if (axis == nullptr) {
// We already did the error logging directly in getAxis
return asynError;
}
if (status == asynSuccess) {
setAxisParamChecked(axis, motorStatusCommsError, false);
} else {
/*
Since the communication failed, there is the possibility that the
controller is not connected at all to the network. In that case, we
cannot be sure that the information read out in the init method of
the axis is still up-to-date the next time we get a connection.
Therefore, an info flag is set which the axis object can use at the
start of its poll method to try to initialize itself.
*/
axis->setNeedInit(true);
/*
Check if the axis already is in an error communication mode. If
it is not, upstream the error. This is done to avoid "flooding"
the user with different error messages if more than one error
ocurred before an error-free communication
*/
getAxisParamChecked(axis, motorStatusProblem, &motorStatusProblem);
if (motorStatusProblem == 0) {
pl_status = axis->setStringParam(motorMessageText_, drvMessageText);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = axis->setIntegerParam(motorStatusProblem_, 1);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusProblem",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = axis->setIntegerParam(motorStatusProblem_, 1);
if (pl_status != asynSuccess) {
return paramLibAccessFailed(pl_status, "motorStatusCommsError_",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
setAxisParamChecked(axis, motorMessageText, drvMessageText);
setAxisParamChecked(axis, motorStatusProblem, true);
setAxisParamChecked(axis, motorStatusCommsError, false);
}
}
}
@@ -306,22 +412,23 @@ asynStatus masterMacsController::parseResponse(
bool responseValid = false;
int responseStart = 0;
asynStatus status = asynSuccess;
int prevConnected = 0;
int prevConnected = 1;
char printableCommand[MAXBUF_] = {0};
char printableResponse[MAXBUF_] = {0};
msgPrintControlKey parseKey =
msgPrintControlKey(portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
// Was the motor previously connected?
status = getIntegerParam(axisNo, motorConnected(), &prevConnected);
if (status != asynSuccess) {
return paramLibAccessFailed(status, "motorConnected", axisNo,
__PRETTY_FUNCTION__, __LINE__);
masterMacsAxis *axis = getMasterMacsAxis(axisNo);
if (axisNo != 0 && axis == nullptr) {
return asynError;
}
// Was the motor previously connected?
if (axis != nullptr) {
getAxisParamChecked(axis, motorConnected, &prevConnected);
}
// We don't use strlen here since the C string terminator 0x00
// occurs in the middle of the char array.
for (uint32_t i = 0; i < MAXBUF_; i++) {
if (fullResponse[i] == '\x19') {
responseStart = i;
@@ -342,25 +449,19 @@ asynStatus masterMacsController::parseResponse(
"connected.\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
masterMacsAxis *axis = getMasterMacsAxis(axisNo);
if (axis == nullptr) {
return asynError;
}
status = axis->setIntegerParam(motorConnected(), 1);
if (status != asynSuccess) {
return paramLibAccessFailed(status, "motorConnected",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
if (axis != nullptr) {
setAxisParamChecked(axis, motorConnected, true);
status = callParamCallbacks();
if (status != asynSuccess) {
asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line "
"%d:\nCould not update parameter library\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
portName, axisNo, __PRETTY_FUNCTION__,
__LINE__);
return status;
}
}
}
break;
} else if (fullResponse[i] == '\x15') {
@@ -379,25 +480,19 @@ asynStatus masterMacsController::parseResponse(
"disconnected.\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
masterMacsAxis *axis = getMasterMacsAxis(axisNo);
if (axis == nullptr) {
return asynError;
}
status = axis->setIntegerParam(motorConnected(), 0);
if (status != asynSuccess) {
return paramLibAccessFailed(status, "motorConnected",
axisNo, __PRETTY_FUNCTION__,
__LINE__);
}
if (axis != nullptr) {
setAxisParamChecked(axis, motorConnected, false);
status = callParamCallbacks();
if (status != asynSuccess) {
asynPrint(this->pasynUserSelf, ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line "
"%d:\nCould not update parameter library\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__);
portName, axisNo, __PRETTY_FUNCTION__,
__LINE__);
return status;
}
}
}
break;
} else if (fullResponse[i] == '\x18') {
// CAN
@@ -405,7 +500,7 @@ asynStatus masterMacsController::parseResponse(
"Tried to write with a read-only command. This is a "
"bug, please call the support.");
if (msgPrintControl_.shouldBePrinted(parseKey, true,
if (getMsgPrintControl().shouldBePrinted(parseKey, true,
pasynUserSelf)) {
adjustForPrint(printableCommand, fullCommand, MAXBUF_);
asynPrint(
@@ -413,7 +508,7 @@ asynStatus masterMacsController::parseResponse(
"Controller \"%s\", axis %d => %s, line %d:\nTried to "
"write with the read-only command %s.%s\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__,
printableCommand, msgPrintControl_.getSuffix());
printableCommand, getMsgPrintControl().getSuffix());
}
responseValid = false;
break;
@@ -421,7 +516,7 @@ asynStatus masterMacsController::parseResponse(
}
if (responseValid) {
msgPrintControl_.resetCount(parseKey, pasynUserSelf);
getMsgPrintControl().resetCount(parseKey, pasynUserSelf);
// Check if the response matches the expectations. Each response
// contains the string "axisNo R tcpCmd" (including the spaces)
@@ -445,7 +540,7 @@ asynStatus masterMacsController::parseResponse(
adjustForPrint(printableCommand, fullCommand, MAXBUF_);
adjustForPrint(printableResponse, fullResponse, MAXBUF_);
if (msgPrintControl_.shouldBePrinted(parseKey, true,
if (getMsgPrintControl().shouldBePrinted(parseKey, true,
pasynUserSelf)) {
asynPrint(this->pasynUserSelf, ASYN_TRACEIO_DRIVER,
"Controller \"%s\", axis %d => %s, line "
@@ -453,7 +548,7 @@ asynStatus masterMacsController::parseResponse(
"response %s to command %s.%s\n",
portName, axisNo, __PRETTY_FUNCTION__, __LINE__,
printableResponse, printableCommand,
msgPrintControl_.getSuffix());
getMsgPrintControl().getSuffix());
}
snprintf(drvMessageText, MAXBUF_,
@@ -462,7 +557,7 @@ asynStatus masterMacsController::parseResponse(
printableResponse, printableCommand);
return asynError;
} else {
msgPrintControl_.resetCount(responseMatchKey, pasynUserSelf);
getMsgPrintControl().resetCount(responseMatchKey, pasynUserSelf);
}
}
return asynSuccess;
@@ -471,7 +566,7 @@ asynStatus masterMacsController::parseResponse(
asynStatus masterMacsController::readInt32(asynUser *pasynUser,
epicsInt32 *value) {
// masterMacs can be disabled
if (pasynUser->reason == motorCanDisable_) {
if (pasynUser->reason == motorCanDisable()) {
*value = 1;
return asynSuccess;
} else {
@@ -479,6 +574,10 @@ asynStatus masterMacsController::readInt32(asynUser *pasynUser,
}
}
double masterMacsController::comTimeout() { return pMasterMacsC_->comTimeout; }
int masterMacsController::nodeReset() { return pMasterMacsC_->nodeReset; }
/***************************************************************************/
/** The following functions are C-wrappers, and can be called directly from
* iocsh */
@@ -538,7 +637,8 @@ static const iocshArg *const CreateControllerArgs[] = {
&CreateControllerArg0, &CreateControllerArg1, &CreateControllerArg2,
&CreateControllerArg3, &CreateControllerArg4, &CreateControllerArg5};
static const iocshFuncDef configMasterMacsCreateController = {
"masterMacsController", 6, CreateControllerArgs};
"masterMacsController", 6, CreateControllerArgs,
"Create a new instance of a MasterMACS controller."};
static void configMasterMacsCreateControllerCallFunc(const iocshArgBuf *args) {
masterMacsCreateController(args[0].sval, args[1].sval, args[2].ival,
args[3].dval, args[4].dval, args[5].dval);

39
src/masterMacsController.h
View File

@@ -8,11 +8,18 @@
#ifndef masterMacsController_H
#define masterMacsController_H
#include "masterMacsAxis.h"
#include "sinqAxis.h"
#include "sinqController.h"
#include <memory>
class masterMacsController : public sinqController {
// Forward declaration of the controller class to resolve the cyclic dependency
// between the controller and the axis .h-file. See
// https://en.cppreference.com/w/cpp/language/class.
class HIDDEN masterMacsAxis;
struct HIDDEN masterMacsControllerImpl;
class HIDDEN masterMacsController : public sinqController {
public:
/**
@@ -31,6 +38,13 @@ class masterMacsController : public sinqController {
int numAxes, double movingPollPeriod,
double idlePollPeriod, double comTimeout);
/**
* @brief Delete the copy and copy assignment constructors, because this
* class should not be copied (it is tied to hardware!)
*/
masterMacsController(const masterMacsController &) = delete;
masterMacsController &operator=(const masterMacsController &) = delete;
/**
* @brief Overloaded version of the sinqController version
*
@@ -58,6 +72,17 @@ class masterMacsController : public sinqController {
*/
masterMacsAxis *getMasterMacsAxis(int axisNo);
/**
* @brief Overloaded function of sinqController
*
* The function is overloaded to allow resetting the node
*
* @param pasynUser Specify the axis via the asynUser
* @param value New value
* @return asynStatus
*/
virtual asynStatus writeInt32(asynUser *pasynUser, epicsInt32 value);
/**
* @brief Send a command to the hardware (S mode)
*
@@ -132,13 +157,13 @@ class masterMacsController : public sinqController {
*
* @return double Timeout in seconds
*/
double comTimeout() { return comTimeout_; }
double comTimeout();
// Accessors for additional PVs
int nodeReset();
private:
/*
Stores the constructor input comTimeout
*/
double comTimeout_;
std::unique_ptr<masterMacsControllerImpl> pMasterMacsC_;
};
#endif /* masterMacsController_H */

71
utils/decodeError.py
View File

@@ -9,6 +9,8 @@ To read the manual, simply run this script without any arguments.
Stefan Mathis, January 2025
"""
import platform
from decodeCommon import interactive, decode, print_decoded
# List of tuples which encodes the states given in the file description.
@@ -32,50 +34,57 @@ interpretation = [
("Ok", "STO fault (STO input is on disable state)"), # Bit 15
]
help = """
Decode R11 message of MasterMACs
------------------
MasterMACs returns its error message (R11) as a floating-point number.
The bits of this float encode different states. These states are stored
in the interpretation variable.
This script can be used in two different ways:
Option 1: Single Command
------------------------
Usage: decodeError.py value
'value' is the return value of a R11 command. This value is interpreted
bit-wise and the result is printed out.
Option 2: CLI Mode (Linux-only)
-------------------------------
Usage: decodeError.py
ONLY AVAILABLE ON LINUX!
A prompt will be opened. Type in the return value of a R11 command, hit
enter and the interpretation will be printed in the prompt. After that,
the next value can be typed in. Type 'quit' to close the prompt.
"""
if __name__ == "__main__":
from sys import argv
if "-h" or "--help" in argv:
print(help)
if len(argv) == 1:
# Start interactive mode
if platform.system() == "Linux":
interactive()
else:
print(help)
else:
number = None
try:
number = int(float(argv[1]))
except:
print("""
Decode R11 message of MasterMACs
------------------
MasterMACs returns its error message (R11) as a floating-point number.
The bits of this float encode different states. These states are stored
in the interpretation variable.
This script can be used in two different ways:
Option 1: Single Command
------------------------
Usage: decodeError.py value
'value' is the return value of a R11 command. This value is interpreted
bit-wise and the result is printed out.
Option 2: CLI Mode
------------------
Usage: decodeError.py
A prompt will be opened. Type in the return value of a R11 command, hit
enter and the interpretation will be printed in the prompt. After that,
the next value can be typed in. Type 'quit' to close the prompt.
""")
print(help)
if number is not None:
print("Motor error")
print("============")
print("===========")
(bit_list, interpreted) = decode(number, interpretation)
print_decoded(bit_list, interpreted)

72
utils/decodeStatus.py
View File

@@ -9,6 +9,8 @@ To read the manual, simply run this script without any arguments.
Stefan Mathis, December 2024
"""
import platform
from decodeCommon import interactive, decode, print_decoded
# List of tuples which encodes the states given in the file description.
@@ -23,7 +25,8 @@ interpretation = [
("Switch on enabled", "Switch on disabled"), # Bit 6
("Ok", "Warning: Movement function was called while motor is still moving. The function call is ignored"), # Bit 7
("Not specified", "Not specified"), # Bit 8
("Motor does not execute command messages (local mode)", "Motor does execute command messages (remote mode)"), # Bit 9
("Motor does not execute command messages (local mode)",
"Motor does execute command messages (remote mode)"), # Bit 9
("Target not reached", "Target reached"), # Bit 10
("Ok", "Internal limit active (current, voltage, velocity or position)"), # Bit 11
("Not specified", "Not specified"), # Bit 12
@@ -32,48 +35,55 @@ interpretation = [
("Not specified", "Not specified"), # Bit 15
]
help = """
Decode R10 message of MasterMACs
------------------
MasterMACs returns its status message (R10) as a floating-point number.
The bits of this float encode different states. These states are stored
in the interpretation variable.
This script can be used in two different ways:
Option 1: Single Command
------------------------
Usage: decodeStatus.py value
'value' is the return value of a R10 command. This value is interpreted
bit-wise and the result is printed out.
Option 2: CLI Mode (Linux-only)
-------------------------------
Usage: decodeStatus.py
ONLY AVAILABLE ON LINUX!
A prompt will be opened. Type in the return value of a R10 command, hit
enter and the interpretation will be printed in the prompt. After that,
the next value can be typed in. Type 'quit' to close the prompt.
"""
if __name__ == "__main__":
from sys import argv
if "-h" or "--help" in argv:
print(help)
if len(argv) == 1:
# Start interactive mode
if platform.system() == "Linux":
interactive()
else:
print(help)
else:
number = None
try:
number = int(float(argv[1]))
except:
print("""
Decode R10 message of MasterMACs
------------------
MasterMACs returns its status message (R10) as a floating-point number.
The bits of this float encode different states. These states are stored
in the interpretation variable.
This script can be used in two different ways:
Option 1: Single Command
------------------------
Usage: decodeStatus.py value
'value' is the return value of a R10 command. This value is interpreted
bit-wise and the result is printed out.
Option 2: CLI Mode
------------------
Usage: decodeStatus.py
A prompt will be opened. Type in the return value of a R10 command, hit
enter and the interpretation will be printed in the prompt. After that,
the next value can be typed in. Type 'quit' to close the prompt.
""")
print(help)
if number is not None:
print("Motor status")
print("============")

98
utils/writeRead.py
View File

@@ -6,23 +6,47 @@ To read the manual, simply run this script without any arguments.
Stefan Mathis, April 2025
"""
import platform
import struct
import socket
import curses
help = """
Send commands to and receive replies from MasterMACS controllers
Option 1: Single Command
------------------------
Usage: writeRead.py pmachost:port command
This then returns the response for command.
Option 2: CLI Mode (Linux-only)
-------------------------------
Usage: writeRead.py pmachost:port
ONLY AVAILABLE ON LINUX!
You can then type in a command, hit enter, and the response will see
the reponse, before being prompted to again enter a command. Type
'quit' to close prompt.
"""
def packMasterMacsCommand(command):
# 0x0D = Carriage return
buf = struct.pack('B',0x0D)
buf = bytes(command,'utf-8') + buf
return bytes(command,'utf-8')
buf = struct.pack('B', 0x0D)
buf = bytes(command, 'utf-8') + buf
return bytes(command, 'utf-8')
def readMasterMacsReply(input):
msg = bytearray()
expectAck = True
while True:
b = input.recv(1)
bint = int.from_bytes(b,byteorder='little')
if bint == 2 or bint == 7: #STX or BELL
bint = int.from_bytes(b, byteorder='little')
if bint == 2 or bint == 7: # STX or BELL
expectAck = False
continue
if expectAck and bint == 6: # ACK
@@ -33,24 +57,21 @@ def readMasterMacsReply(input):
else:
msg.append(bint)
if __name__ == "__main__":
from sys import argv
try:
addr = argv[1].split(':')
s = socket.socket(socket.AF_INET,socket.SOCK_STREAM)
s.connect((addr[0],int(addr[1])))
if len(argv) == 3:
buf = packMasterMacsCommand(argv[2])
s.send(buf)
reply = readMasterMacsReply(s)
print(reply.decode('utf-8') + '\n')
if "-h" or "--help" in argv:
print(help)
else:
addr = argv[1].split(':')
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((addr[0], int(addr[1])))
try:
if len(argv) == 2:
if platform.system() == "Linux":
import curses
stdscr = curses.initscr()
curses.noecho()
@@ -125,7 +146,8 @@ if __name__ == "__main__":
if len(history[ptr]) == 0:
continue
(y, x) = stdscr.getyx()
history[ptr] = history[ptr][0:x-4] + history[ptr][x-3:]
history[ptr] = history[ptr][0:x-4] + \
history[ptr][x-3:]
stdscr.addch("\r")
stdscr.clrtoeol()
stdscr.addstr(">> " + history[ptr])
@@ -134,38 +156,24 @@ if __name__ == "__main__":
else:
(y, x) = stdscr.getyx()
history[ptr] = history[ptr][0:x-3] + chr(c) + history[ptr][x-3:]
history[ptr] = history[ptr][0:x-3] + \
chr(c) + history[ptr][x-3:]
stdscr.addch("\r")
stdscr.clrtoeol()
stdscr.addstr(">> " + history[ptr])
stdscr.move(y, x+1)
stdscr.refresh()
finally:
# to quit
curses.nocbreak()
stdscr.keypad(False)
curses.echo()
curses.endwin()
except:
print("""
Invalid Arguments
Option 1: Single Command
------------------------
Usage: writeRead.py pmachost:port command
This then returns the response for command.
Option 2: CLI Mode
------------------
Usage: writeRead.py pmachost:port
You can then type in a command, hit enter, and the response will see
the reponse, before being prompted to again enter a command. Type
'quit' to close prompt.
""")
else:
print(help)
elif len(argv) == 3:
buf = packMasterMacsCommand(argv[2])
s.send(buf)
reply = readMasterMacsReply(s)
print(reply.decode('utf-8') + '\n')
else:
print(help)