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awlsim-test
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awlsim-test
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#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# AWL simulator - Commandline testing interface
#
# Copyright 2012-2018 Michael Buesch <[email protected]>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License along
# with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
#
from __future__ import division, absolute_import, print_function, unicode_literals
import sys
import os
import getopt
import traceback
import signal
from awlsim_loader.common import *
from awlsim_loader.core import *
from awlsim_loader.coreclient import *
from awlsim_loader.awlcompiler import *
from awlsim_loader.fupcompiler import *
import awlsim_loader.cython_helper as cython_helper
class TestAwlSimClient(AwlSimClient):
def handle_CPUDUMP(self, dumpText):
emitCpuDump(dumpText)
def handle_MEMORY(self, memAreas):
for memArea in memAreas:
if memArea.flags & (memArea.FLG_ERR_READ |
memArea.FLG_ERR_WRITE):
raise AwlSimError("awlsim-test: "
"Failed to access memory: %s" % (
str(memArea)))
def usage():
print("awlsim version %s" % VERSION_STRING)
print("")
print("Usage: awlsim-test [OPTIONS] <AWL-source or awlsim-project file>")
print("")
print("Options:")
print(" -Y|--cycle-limit SEC Cycle time limit, in seconds (default 1.0)")
print(" -M|--max-runtime SEC CPU will be stopped after SEC seconds (default: off)")
print(" -2|--twoaccu Force 2-accu mode")
print(" -4|--fouraccu Force 4-accu mode")
print(" -D|--no-cpu-dump Do not show CPU status while running")
print(" -x|--extended-insns Enable extended instructions")
print(" -t|--obtemp 1/0 Enable/disable writing of OB-temp variables (Default: off)")
print(" -T|--clock-mem ADDR Force clock memory address (Default: off)")
print(" -m|--mnemonics auto Force mnemonics type: en, de, auto")
print(" -O|--optimizers OPT Sets the optimization mode.")
print(" OPT may be one of:")
print(" default: Keep project settings (default)")
print(" all: Enable all optimizers")
print(" off: Disable all optimizers")
print(" --insn-meas OUTFILE Detailed instruction timing measurements")
print(" -L|--loglevel LVL Set the log level:")
print(" 0: Log nothing")
print(" 1: Log errors")
print(" 2: Log errors and warnings")
print(" 3: Log errors, warnings and info messages (default)")
print(" 4: Verbose logging")
print(" 5: Extremely verbose logging")
print("")
print("Server backend related options:")
print(" -c|--connect Connect to server backend")
print(" -C|--connect-to IP:PORT Connect to server backend")
print(" -b|--spawn-backend Spawn a new backend server and connect to it")
if not isWinStandalone:
print(" -i|--interpreter EXE Set the backend interpreter executable")
print(" -R|--mem-read AREA:OFFS:BITWIDTH Memory read access.")
print(" -W|--mem-write AREA:OFFS:BITWIDTH:VAL Memory write access.")
print("")
print("Loading hardware modules:")
print(" -H|--hardware NAME:PARAM=VAL:PARAM=VAL...")
print("Print module information:")
print(" -I|--hardware-info NAME")
print("")
print(" Where NAME is the name of the hardware module.")
print(" PARAM=VAL are optional hardware specific parameters.")
print("")
print("Environment variables:")
print(" AWLSIM_PROFILE =0 Disable profiling (default)")
print(" =1 Enable core cycle profiling")
print(" =2 Enable full core profiling (including startup)")
print("")
print(" AWLSIM_CYTHON =0 Do not attempt to use Cython core (default)")
print(" =1 Attempt to use Cython core, but fall back to Python")
print(" =2 Enforce Cython core")
print("")
print(" AWLSIM_AFFINITY =0,2,... Comma separated list of host CPU cores")
print(" to run on. Default: all cores.")
print(" AWLSIM_COVERAGE =DATAFILE Enable code coverage tracing.")
def writeStdout(message):
if Logging.loglevel >= Logging.LOG_INFO:
sys.stdout.write(message)
if not isMicroPython:
sys.stdout.flush()
nextScreenUpdate = 0.0
lastDump = ""
lastDumpNrLines = 0
emptyLine = " " * 79
def clearConsole():
# Make cursor visible, clear console and
# move cursor to homeposition.
if osIsPosix:
writeStdout("\x1B[?25h\x1B[2J\x1B[H")
elif osIsWindows:
os.system("cls")
def emitCpuDump(dump):
global lastDump
global lastDumpNrLines
# Pad lines
dumpLines = list(line + (78 - len(line)) * ' ' + '|'
for line in dump.splitlines())
dumpNrLines = len(dumpLines)
# Clear lines from previous dump.
if dumpNrLines < lastDumpNrLines:
dumpLines.extend([ emptyLine, ] * (lastDumpNrLines - dumpNrLines))
dump = "\n".join(dumpLines)
lastDumpNrLines = dumpNrLines
lastDump = dump
if osIsPosix:
# Clear console, move home and print dump.
writeStdout("\x1B[2J\x1B[H" + dump)
else:
# Clear console, move home and print dump.
clearConsole()
writeStdout(dump)
def cpuBlockExitCallback(cpu):
global nextScreenUpdate
if cpu.now >= nextScreenUpdate:
nextScreenUpdate = cpu.now + 0.3
emitCpuDump(str(cpu))
def assignCpuSpecs(cpuSpecs, projectCpuSpecs):
cpuSpecs.assignFrom(projectCpuSpecs)
if opt_nrAccus is not None:
cpuSpecs.setNrAccus(opt_nrAccus)
def assignCpuConf(cpuConf, projectCpuConf):
cpuConf.assignFrom(projectCpuConf)
if opt_mnemonics is not None:
cpuConf.setConfiguredMnemonics(opt_mnemonics)
if opt_clockMem is not None:
cpuConf.setClockMemByte(opt_clockMem)
if opt_cycletime is not None:
cpuConf.setCycleTimeLimitUs(int(round(opt_cycletime * 1000000.0)))
if opt_maxRuntime is not None:
cpuConf.setRunTimeLimitUs(int(round(opt_maxRuntime * 1000000.0)))
if opt_obtemp is not None:
cpuConf.setOBStartinfoEn(opt_obtemp)
if opt_extInsns is not None:
cpuConf.setExtInsnsEn(opt_extInsns)
def readInputFile(inputFile):
if inputFile == "-":
if isPy2Compat:
dataBytes = sys.stdin.read()
else:
dataBytes = sys.stdin.buffer.read()
project = Project.fromProjectOrRawAwlData(dataBytes)
else:
project = Project.fromProjectOrRawAwlFile(inputFile)
return project
def run(inputFile):
insnMeas = None
s = None
try:
if cython_helper.shouldUseCython():
printInfo("*** Using accelerated CYTHON core "
"(AWLSIM_CYTHON environment variable is set)")
if opt_memReads or opt_memWrites:
raise AwlSimError("awlsim-test --mem-read and --mem-write "
"are not supported in non-server-mode.")
project = readInputFile(inputFile)
printInfo("Parsing code...")
generatedAwlSrcs = []
# Get mnemonics type
mnemonics = project.getCpuConf().getConfiguredMnemonics()
if opt_mnemonics is not None:
mnemonics = opt_mnemonics
# Parse FUP sources
optSettCont = None
if opt_optimizers == "off":
optSettCont = AwlOptimizerSettingsContainer(globalEnable=False)
elif opt_optimizers == "all":
optSettCont = AwlOptimizerSettingsContainer(globalEnable=True,
allEnable=True)
for fupSrc in project.getFupSources():
if not fupSrc.enabled:
continue
generatedAwlSrcs.append(FupCompiler().compile(
fupSource=fupSrc,
symTabSources=project.getSymTabSources(),
mnemonics=mnemonics,
optimizerSettingsContainer=optSettCont))
# Parse KOP sources
for kopSrc in project.getKopSources():
if not kopSrc.enabled:
continue
pass#TODO
# Parse AWL sources
parseTrees = []
for awlSrc in itertools.chain(project.getAwlSources(),
generatedAwlSrcs):
if not awlSrc.enabled:
continue
p = AwlParser()
p.parseSource(awlSrc)
parseTrees.append(p.getParseTree())
# Parse symbol tables
symTables = []
for symTabSrc in project.getSymTabSources():
if not symTabSrc.enabled:
continue
tab = SymTabParser.parseSource(symTabSrc,
autodetectFormat = True,
mnemonics = mnemonics)
symTables.append(tab)
printInfo("Initializing core...")
s = AwlSim()
s.reset()
# Load hardware modules
def loadMod(name, parameters):
printInfo("Loading hardware module '%s'..." % name)
hwClass = s.loadHardwareModule(name)
s.registerHardwareClass(hwClass = hwClass,
parameters = parameters)
for modDesc in project.getHwmodSettings().getLoadedModules():
loadMod(modDesc.getModuleName(),
modDesc.getParameters())
for name, parameters in opt_hwmods:
loadMod(name, parameters)
# Configure the CPU
cpu = s.getCPU()
assignCpuSpecs(cpu.getSpecs(), project.getCpuSpecs())
assignCpuConf(cpu.getConf(), project.getCpuConf())
if not opt_noCpuDump and opt_loglevel >= Logging.LOG_INFO:
cpu.setBlockExitCallback(cpuBlockExitCallback, cpu)
# Download the program
printInfo("Initializing CPU...")
for symTable in symTables:
s.loadSymbolTable(symTable)
for libSel in project.getLibSelections():
s.loadLibraryBlock(libSel)
for parseTree in parseTrees:
s.load(parseTree)
s.build()
if opt_insnMeas:
insnMeas = cpu.setupInsnMeas()
# Run the program
s.startup()
printInfo("[Initialization finished - CPU is executing user code]")
try:
if not opt_noCpuDump:
clearConsole()
while 1:
s.runCycle()
finally:
if not opt_noCpuDump and opt_loglevel >= Logging.LOG_INFO:
clearConsole()
writeStdout(lastDump + '\n')
except (AwlParserError, AwlSimError) as e:
printError(e.getReport())
return ExitCodes.EXIT_ERR_SIM
except KeyboardInterrupt as e:
if insnMeas:
if insnMeas.haveAnyMeasurements:
if opt_insnMeas == "-":
writeStdout(insnMeas.dump())
else:
with open(opt_insnMeas, "wb") as fd:
fd.write(insnMeas.dumpCSV().encode("UTF-8"))
else:
printError("Instruction timing measurement: Not enough samples.")
return ExitCodes.EXIT_ERR_OTHER
except MaintenanceRequest as e:
if e.requestType in (MaintenanceRequest.TYPE_SHUTDOWN,
MaintenanceRequest.TYPE_STOP,
MaintenanceRequest.TYPE_RTTIMEOUT):
printInfo("Shutting down, as requested (%s)..." % str(e))
else:
printError("Received unknown maintenance request "
"(%d: %s)..." % (e.requestType, str(e)))
finally:
if s:
s.shutdown()
return ExitCodes.EXIT_OK
def runWithServerBackend(inputFile):
client = None
tunnel = None
try:
project = readInputFile(inputFile)
linkSettings = project.getCoreLinkSettings()
if opt_spawnBackend:
host = AwlSimServer.DEFAULT_HOST
port = range(AwlSimServer.DEFAULT_PORT,
AwlSimServer.DEFAULT_PORT + 4096)
else:
host = linkSettings.getConnectHost()
port = linkSettings.getConnectPort()
if opt_connectTo:
host, port = opt_connectTo
# Establish SSH tunnel, if requested.
if linkSettings.getTunnel() == linkSettings.TUNNEL_SSH and\
not opt_spawnBackend:
printInfo("Establishing SSH tunnel...")
localPort = linkSettings.getTunnelLocalPort()
if localPort == linkSettings.TUNNEL_LOCPORT_AUTO:
localPort = None
tunnel = SSHTunnel(
remoteHost=host,
remotePort=port,
localPort=localPort,
sshUser=linkSettings.getSSHUser(),
sshPort=linkSettings.getSSHPort(),
sshExecutable=linkSettings.getSSHExecutable(),
)
host, port = tunnel.connect()
# Connect to the server
client = TestAwlSimClient()
if opt_spawnBackend:
client.spawnServer(interpreter = opt_interpreter,
listenHost = host,
listenPort = port)
port = client.serverProcessPort
printInfo("Connecting to core server...")
client.connectToServer(host=host, port=port, timeout=20.0)
printInfo("Initializing core...")
client.setLoglevel(opt_loglevel)
client.setRunState(False)
client.reset()
# Load hardware modules
client.loadHardwareModules(project.getHwmodSettings().getLoadedModules())
for name, parameters in opt_hwmods:
client.loadHardwareModule(HwmodDescriptor(name, parameters))
# Configure the core
if opt_noCpuDump:
client.setPeriodicDumpInterval(0)
else:
client.setPeriodicDumpInterval(300)
specs = client.getCpuSpecs()
assignCpuSpecs(specs, project.getCpuSpecs())
client.setCpuSpecs(specs)
conf = client.getCpuConf()
assignCpuConf(conf, project.getCpuConf())
client.setCpuConf(conf)
#TODO configure optimizers
# Fire up the core
printInfo("Initializing CPU...")
client.loadProject(project, loadCpuSpecs=False,
loadCpuConf=False,
loadHwMods=False)
client.setRunState(True)
# Run the client-side event loop
printInfo("[Initialization finished - Remote-CPU is executing user code]")
try:
if opt_memReads:
client.setMemoryReadRequests(memAreas=opt_memReads,
repetitionPeriod=0.001,
sync=False)
if not opt_noCpuDump:
clearConsole()
while True:
client.processMessages(timeout=0.05)
if opt_memWrites:
client.writeMemory(memAreas=opt_memWrites,
sync=True)
finally:
if not opt_noCpuDump and opt_loglevel >= Logging.LOG_INFO:
clearConsole()
writeStdout(lastDump + '\n')
except AwlSimError as e:
printError(e.getReport())
return ExitCodes.EXIT_ERR_SIM
except MaintenanceRequest as e:
if e.requestType in (MaintenanceRequest.TYPE_SHUTDOWN,
MaintenanceRequest.TYPE_STOP,
MaintenanceRequest.TYPE_RTTIMEOUT):
printInfo("Shutting down, as requested (%s)..." % str(e))
else:
printError("Received unknown maintenance request "
"(%d: %s)..." % (e.requestType, str(e)))
except KeyboardInterrupt as e:
pass
finally:
if client:
client.shutdown()
if tunnel:
tunnel.shutdown()
return ExitCodes.EXIT_OK
def __signalHandler(sig, frame):
printInfo("Received signal %d" % sig)
if sig == signal.SIGTERM:
# Raise SIGINT. It will shut down everything.
os.kill(os.getpid(), signal.SIGINT)
def parseMemoryArea(memAreaStr, withData):
try:
def dataToBytes(value, length):
if not (0 <= value <= ((1 << length) - 1)):
raise ValueError
return WordPacker.toBytes(byteBuffer=bytearray(length // 8),
bitWidth=length,
value=value)
memAreaStr = memAreaStr.split(":")
start = index = length = 0
data = b''
memType = {
"E" : MemoryArea.TYPE_E,
"A" : MemoryArea.TYPE_A,
"M" : MemoryArea.TYPE_M,
"L" : MemoryArea.TYPE_L,
"DB" : MemoryArea.TYPE_DB,
"T" : MemoryArea.TYPE_T,
"Z" : MemoryArea.TYPE_Z,
"STW" : MemoryArea.TYPE_STW,
}[memAreaStr[0].upper().strip()]
if memType in { MemoryArea.TYPE_E,
MemoryArea.TYPE_A,
MemoryArea.TYPE_M,
MemoryArea.TYPE_L, }:
start = int(memAreaStr[1])
length = int(memAreaStr[2])
if (not (0 <= start <= 0xFFFF) or
length not in (8, 16, 32)):
raise ValueError
if withData:
data = dataToBytes(int(memAreaStr[3]), length)
elif memType == MemoryArea.TYPE_DB:
index = int(memAreaStr[1])
start = int(memAreaStr[2])
length = int(memAreaStr[3])
if (not (0 <= start <= 0xFFFF) or
not (0 <= index <= 0xFFFF) or
length not in (8, 16, 32)):
raise ValueError
if withData:
data = dataToBytes(int(memAreaStr[4]), length)
elif memType in { MemoryArea.TYPE_T,
MemoryArea.TYPE_Z, }:
index = int(memAreaStr[1])
length = 16
if not (0 <= index <= 0xFFFF):
raise ValueError
if withData:
data = dataToBytes(int(memAreaStr[2]), 16)
elif memType == MemoryArea.TYPE_STW:
length = 16
if withData:
data = dataToBytes(int(memAreaStr[1]), 16)
else:
assert(0)
return MemoryArea(memType=memType,
flags=0,
index=index,
start=start,
length=length // 8,
data=data)
except (ValueError, IndexError, KeyError, AwlSimError) as e:
pass
return None
def main():
global opt_cycletime
global opt_maxRuntime
global opt_noCpuDump
global opt_nrAccus
global opt_extInsns
global opt_obtemp
global opt_clockMem
global opt_mnemonics
global opt_optimizers
global opt_insnMeas
global opt_hwmods
global opt_hwinfos
global opt_loglevel
global opt_connect
global opt_connectTo
global opt_spawnBackend
global opt_interpreter
global opt_memReads
global opt_memWrites
opt_cycletime = None
opt_maxRuntime = None
opt_noCpuDump = False
opt_nrAccus = None
opt_extInsns = None
opt_obtemp = None
opt_clockMem = None
opt_mnemonics = None
opt_optimizers = "default"
opt_insnMeas = None
opt_hwmods = []
opt_hwinfos = []
opt_loglevel = Logging.LOG_INFO
opt_connect = None
opt_connectTo = False
opt_spawnBackend = False
opt_interpreter = None
opt_memReads = []
opt_memWrites = []
try:
(opts, args) = getopt.getopt(sys.argv[1:],
"hY:M:24qDxt:T:m:O:H:I:P:L:cC:bi:R:W:",
[ "help", "cycle-limit=", "max-runtime=", "twoaccu", "fouraccu",
"quiet", "no-cpu-dump", "extended-insns",
"obtemp=", "clock-mem=", "mnemonics=", "optimizers=",
"hardware=", "hardware-info=", "profile=",
"loglevel=",
"connect", "connect-to=", "spawn-backend", "interpreter=",
"mem-read=", "mem-write=",
"insn-meas=", ])
except getopt.GetoptError as e:
printError(str(e))
usage()
return ExitCodes.EXIT_ERR_CMDLINE
for (o, v) in opts:
if o in ("-h", "--help"):
usage()
return ExitCodes.EXIT_OK
if o in ("-Y", "--cycle-limit"):
try:
opt_cycletime = float(v)
except ValueError:
printError("-Y|--cycle-limit: Invalid time format")
sys.exit(1)
if o in ("-M", "--max-runtime"):
try:
opt_maxRuntime = float(v)
except ValueError:
printError("-M|--max-runtime: Invalid time format")
sys.exit(1)
if o in ("-2", "--twoaccu"):
opt_nrAccus = 2
if o in ("-4", "--fouraccu"):
opt_nrAccus = 4
if o in ("-D", "--no-cpu-dump"):
opt_noCpuDump = True
if o in ("-x", "--extended-insns"):
opt_extInsns = True
if o in ("-t", "--obtemp"):
opt_obtemp = str2bool(v)
if o in ("-T", "--clock-mem"):
try:
opt_clockMem = int(v)
if opt_clockMem < -1 or opt_clockMem > 0xFFFF:
raise ValueError
except ValueError:
printError("-T|--clock-mem: Invalid byte address")
sys.exit(1)
if o in ("-m", "--mnemonics"):
opt_mnemonics = v.lower()
if opt_mnemonics not in ("en", "de", "auto"):
printError("-m|--mnemonics: Invalid mnemonics type")
sys.exit(1)
if o in ("-O", "--optimizers"):
try:
modes = v.split(",")
for mode in modes:
mode = mode.lower()
if mode in ("off", "all", "default"):
opt_optimizers = mode
else:
printError("-O|--optimizers: Unknown optimizer: %s" % mode)
sys.exit(1)
except (ValueError, IndexError) as e:
printError("-O|--optimizers: Invalid optimization mode")
sys.exit(1)
if o == "--insn-meas":
opt_insnMeas = v
if o in ("-H", "--hardware"):
try:
v = v.split(':')
if not v:
raise ValueError
name = v[0]
params = {}
for pstr in v[1:]:
if not pstr:
continue
i = pstr.find('=')
if i < 0:
raise ValueError
pname = pstr[:i]
pval = pstr[i+1:]
if not pname or not pval:
raise ValueError
params[pname] = pval
opt_hwmods.append( (name, params) )
except (ValueError, IndexError) as e:
printError("-H|--hardware: Invalid module name or parameters")
sys.exit(1)
if o in ("-I", "--hardware-info"):
opt_hwinfos.append(v.split(':')[0])
if o in ("-L", "--loglevel"):
try:
opt_loglevel = int(v)
except ValueError:
printError("-L|--loglevel: Invalid log level")
sys.exit(1)
if o in ("-c", "--connect"):
opt_connect = True
if o in ("-C", "--connect-to"):
try:
idx = v.rfind(":")
if idx <= 0:
raise ValueError
opt_connectTo = (v[:idx], int(v[idx+1:]))
except ValueError:
printError("-c|--connect: Invalid host/port")
sys.exit(1)
if o in ("-b", "--spawn-backend"):
opt_spawnBackend = True
if o in ("-i", "--interpreter"):
if isWinStandalone:
printError("-i|--interpreter not supported on win-standalone")
sys.exit(1)
opt_interpreter = v
if o in ("-R", "--mem-read"):
memArea = parseMemoryArea(v, withData=False)
if not memArea:
printError("-R|--mem-read invalid arguments.")
sys.exit(1)
opt_memReads.append(memArea)
if o in ("-W", "--mem-write"):
memArea = parseMemoryArea(v, withData=True)
if not memArea:
printError("-W|--mem-write invalid arguments.")
sys.exit(1)
opt_memWrites.append(memArea)
if len(args) != 1 and not opt_hwinfos:
usage()
return ExitCodes.EXIT_ERR_CMDLINE
if args:
inputFile = args[0]
Logging.setLoglevel(opt_loglevel)
opt_mnemonics = {
None : None,
"en" : S7CPUConfig.MNEMONICS_EN,
"de" : S7CPUConfig.MNEMONICS_DE,
"auto" : S7CPUConfig.MNEMONICS_AUTO,
}[opt_mnemonics]
try:
if opt_hwinfos:
# Just print the hardware-infos and exit.
for name in opt_hwinfos:
cls = AwlSim.loadHardwareModule(name)
print(cls.getModuleInfo())
return ExitCodes.EXIT_OK
except (AwlParserError, AwlSimError) as e:
printError(e.getReport())
return ExitCodes.EXIT_ERR_SIM
signal.signal(signal.SIGTERM, __signalHandler)
if opt_interpreter and not opt_spawnBackend:
printError("Selected an --interpreter, but no "
"--spawn-backend was requested.")
return ExitCodes.EXIT_ERR_CMDLINE
if opt_spawnBackend or opt_connect or opt_connectTo:
return runWithServerBackend(inputFile)
return run(inputFile)
if __name__ == "__main__":
sys.exit(main())