lin-epics-modules/turboPmac
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Merge branch 'static-dep'

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mathis_s
2025-05-15 12:27:26 +02:00
parent 63a5fcd518 1597dc34e0
commit 53bbe2aae8
6 changed files with 48 additions and 67 deletions
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6
.gitmodules vendored Normal file
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@ -0,0 +1,6 @@
[submodule "sinqmotor"]
path = sinqmotor
url = https://gitea.psi.ch/lin-epics-modules/sinqmotor
[submodule "sinqMotor"]
path = sinqMotor
url = https://gitea.psi.ch/lin-epics-modules/sinqMotor

14
Makefile
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@ -1,4 +1,4 @@
# Use the PSI build system
# Include the external Makefile
include /ioc/tools/driver.makefile
MODULE=turboPmac
@ -8,28 +8,30 @@ ARCH_FILTER=RHEL%
# Additional module dependencies
REQUIRED+=motorBase
REQUIRED+=sinqMotor
# Specify the version of motorBase we want to build against
motorBase_VERSION=7.2.2
# Specify the version of sinqMotor we want to build against
sinqMotor_VERSION=mathis_s
# These headers allow to depend on this library for derived drivers.
HEADERS += src/pmacAsynIPPort.h
HEADERS += src/turboPmacAxis.h
HEADERS += src/turboPmacController.h
# Source files to build
SOURCES += sinqMotor/src/msgPrintControl.cpp
SOURCES += sinqMotor/src/sinqAxis.cpp
SOURCES += sinqMotor/src/sinqController.cpp
SOURCES += src/pmacAsynIPPort.c
SOURCES += src/turboPmacAxis.cpp
SOURCES += src/turboPmacController.cpp
# Store the record files
TEMPLATES += sinqMotor/db/asynRecord.db
TEMPLATES += sinqMotor/db/sinqMotor.db
TEMPLATES += db/turboPmac.db
# This file registers the motor-specific functions in the IOC shell.
DBDS += sinqMotor/src/sinqMotor.dbd
DBDS += src/turboPmac.dbd
USR_CFLAGS += -Wall -Wextra -Weffc++ -Wunused-result -Werror # -Wpedantic // Does not work because EPICS macros trigger warnings
USR_CFLAGS += -Wall -Wextra -Weffc++ -Wunused-result -Werror # -Wpedantic // Does not work because EPICS macros trigger warnings

6
README.md
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@ -54,11 +54,11 @@ setMaxSubsequentTimeouts("$(DRIVER_PORT)", 20);
setThresholdComTimeout("$(DRIVER_PORT)", 300, 10);
# Parametrize the EPICS record database with the substitution file named after the MCU.
epicsEnvSet("SINQDBPATH","$(sinqMotor_DB)/sinqMotor.db")
epicsEnvSet("SINQDBPATH","$(turboPmac_DB)/sinqMotor.db")
dbLoadTemplate("$(TOP)/$(DRIVER_PORT).substitutions", "INSTR=$(INSTR)$(DRIVER_PORT):,CONTROLLER=$(DRIVER_PORT)")
epicsEnvSet("SINQDBPATH","$(turboPmac_DB)/turboPmac.db")
dbLoadTemplate("$(TOP)/$(DRIVER_PORT).substitutions", "INSTR=$(INSTR)$(DRIVER_PORT):,CONTROLLER=$(DRIVER_PORT)")
dbLoadRecords("$(sinqMotor_DB)/asynRecord.db","P=$(INSTR)$(DRIVER_PORT),PORT=$(IP_PORT)")
dbLoadRecords("$(turboPmac_DB)/asynRecord.db","P=$(INSTR)$(DRIVER_PORT),PORT=$(IP_PORT)")
```
### Additional records
@ -73,4 +73,4 @@ Please see the documentation for the module sinqMotor: https://git.psi.ch/sinq-e
### How to build it
Please see the documentation for the module sinqMotor: https://git.psi.ch/sinq-epics-modules/sinqmotor/-/blob/main/README.md.
This driver can be compiled and installed by running `make install` from the same directory where the Makefile is located. However, since it uses the git submodule sinqMotor, make sure that the correct version of the submodule repository is checked out AND the change is commited (`git status` shows no non-committed changes). Please see the section "Usage as static dependency" in https://git.psi.ch/sinq-epics-modules/sinqmotor/-/blob/main/README.md for more details.

1
sinqMotor Submodule

Submodule sinqMotor added at e088bfbbcb

79
src/turboPmacAxis.cpp
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@ -71,6 +71,20 @@ turboPmacAxis::turboPmacAxis(turboPmacController *pC, int axisNo,
exit(-1);
}
// Even though this happens already in sinqAxis, a default value for
// motorMessageText is set here again, because apparently the sinqAxis
// constructor is not run before the string is accessed?
status = setStringParam(pC_->motorMessageText(), "");
if (status != asynSuccess) {
asynPrint(pC_->pasynUser(), ASYN_TRACE_ERROR,
"Controller \"%s\", axis %d => %s, line %d:\nFATAL ERROR "
"(setting a parameter value failed "
"with %s)\n. Terminating IOC",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
pC_->stringifyAsynStatus(status));
exit(-1);
}
// turboPmac motors can always be disabled
status = pC_->setIntegerParam(axisNo_, pC_->motorCanDisable(), 1);
if (status != asynSuccess) {
@ -397,13 +411,6 @@ asynStatus turboPmacAxis::doPoll(bool *moving) {
case -5:
// Axis is deactivated
*moving = false;
pl_status = setStringParam(pC_->motorMessageText(), "Deactivated");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
break;
case -4:
// Emergency stop
@ -426,19 +433,10 @@ asynStatus turboPmacAxis::doPoll(bool *moving) {
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
break;
case -3:
// Disabled
*moving = false;
pl_status = setStringParam(pC_->motorMessageText(), "Disabled");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
break;
case 0:
// Idle
@ -599,8 +597,7 @@ asynStatus turboPmacAxis::handleError(int error, char *userMessage,
resetError = false;
status = setStringParam(pC_->motorMessageText(),
"Target position would exceed software "
"limits. Please call the support.");
"Target position would exceed software limits");
if (status != asynSuccess) {
return pC_->paramLibAccessFailed(status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
@ -783,10 +780,10 @@ asynStatus turboPmacAxis::handleError(int error, char *userMessage,
}
resetError = false;
snprintf(userMessage, sizeUserMessage,
"Driver hardware error (P%2.2d01 = 13). "
"Please call the support.",
axisNo_);
snprintf(
userMessage, sizeUserMessage,
"Driver hardware error (P%2.2d01 = 13). Please call the support.",
axisNo_);
status = setStringParam(pC_->motorMessageText(), userMessage);
if (status != asynSuccess) {
return pC_->paramLibAccessFailed(status, "motorMessageText_",
@ -1084,22 +1081,7 @@ asynStatus turboPmacAxis::doHome(double min_velocity, double max_velocity,
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
pl_status = setStringParam(pC_->motorMessageText(), "Homing");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
return callParamCallbacks();
} else {
pl_status = setStringParam(pC_->motorMessageText(),
"Can't home a motor with absolute encoder");
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
}
return asynSuccess;
@ -1271,6 +1253,14 @@ asynStatus turboPmacAxis::enable(bool on) {
// Status of parameter library operations
asynStatus pl_status = asynSuccess;
bool moving = false;
rw_status = doPoll(&moving);
if (rw_status != asynSuccess) {
return rw_status;
}
// =========================================================================
/*
Continue regardless of the status returned by the poll; we just want to
find out whether the motor is currently moving or not. If the poll
@ -1280,8 +1270,6 @@ asynStatus turboPmacAxis::enable(bool on) {
bool moving = false;
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
@ -1330,16 +1318,7 @@ asynStatus turboPmacAxis::enable(bool on) {
"Controller \"%s\", axis %d => %s, line %d\n%s axis\n",
pC_->portName, axisNo_, __PRETTY_FUNCTION__, __LINE__,
on ? "Enable" : "Disable");
if (on == 0) {
pl_status = setStringParam(pC_->motorMessageText(), "Disabling ...");
} else {
pl_status = setStringParam(pC_->motorMessageText(), "Enabling ...");
}
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,
__LINE__);
}
rw_status = pC_->writeRead(axisNo_, command, response, 0);
if (rw_status != asynSuccess) {
return rw_status;
@ -1382,7 +1361,7 @@ asynStatus turboPmacAxis::enable(bool on) {
// Output message to user
snprintf(command, sizeof(command), "Failed to %s within %d seconds",
on ? "enable" : "disable", timeout_enable_disable);
pl_status = setStringParam(pC_->motorMessageText(), "Enabling ...");
pl_status = setStringParam(pC_->motorMessageText(), command);
if (pl_status != asynSuccess) {
return pC_->paramLibAccessFailed(pl_status, "motorMessageText_",
axisNo_, __PRETTY_FUNCTION__,

9
src/turboPmacController.h
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@ -120,17 +120,10 @@ class turboPmacController : public sinqController {
int readConfig() { return readConfig_; }
int flushHardware() { return flushHardware_; }
// Set the maximum buffer size. This is an empirical value which must be
// large enough to avoid overflows for all commands to the device /
// responses from it.
static const uint32_t MAXBUF_ = 200;
asynUser *pasynInt32SyncIOipPort() { return pasynInt32SyncIOipPort_; }
protected:
/*
Timeout for the communication process in seconds
*/
// Timeout for the communication process in seconds
double comTimeout_;
char lastResponse[MAXBUF_];