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# -*- coding: utf-8 -*-
#
# AWL simulator
#
# Copyright 2012-2017 Michael Buesch <m@bues.ch>
#
# 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
#from awlsim.common.cython_support cimport * #@cy
from awlsim.common.compat import *
from awlsim.common.project import *
from awlsim.common.env import *
from awlsim.common.exceptions import *
from awlsim.core.util import *
from awlsim.core.cpu import * #+cimport
from awlsim.core.hardware import * #+cimport
from awlsim.core.hardware_loader import *
import sys
__all__ = [
"AwlSim",
]
def AwlSim_decorator_profiled(profileLevel):
"""Profiled call decorator.
"""
def profiled_decorator(func):
@functools.wraps(func) #@nocy
def profiled_wrapper(self, *args, **kwargs):
if self._profileLevel >= profileLevel:
self._profileStart()
try:
func(self, *args, **kwargs)
finally:
if self._profileLevel >= profileLevel:
self._profileStop()
return profiled_wrapper
return profiled_decorator
def AwlSim_decorator_throwsAwlSimError(func):
"""Handler decorator for AwlSimError exceptions.
"""
@functools.wraps(func) #@nocy
def awlSimErrorExtension_wrapper(self, *args, **kwargs):
try:
func(self, *args, **kwargs)
except AwlSimError as e:
self._handleSimException(e)
return awlSimErrorExtension_wrapper
class AwlSim(object): #+cdef
"""Main awlsim core object.
"""
profiled = AwlSim_decorator_profiled
throwsAwlSimError = AwlSim_decorator_throwsAwlSimError
def __init__(self):
self.__registeredHardware = []
self.__registeredHardwareCount = 0
self._fatalHwErrors = True
self.cpu = S7CPU()
self.cpu.setPeripheralReadCallback(self.__peripheralReadCallback)
self.cpu.setPeripheralWriteCallback(self.__peripheralWriteCallback)
self.__setProfiler(AwlSimEnv.getProfileLevel())
def getCPU(self):
return self.cpu
def __setProfiler(self, profileLevel):
self._profileLevel = profileLevel
if self._profileLevel <= 0:
return
try:
import cProfile as profileModule
except ImportError:
profileModule = None
self.__profileModule = profileModule
try:
import pstats as pstatsModule
except ImportError:
pstatsModule = None
self.__pstatsModule = pstatsModule
if not self.__profileModule or\
not self.__pstatsModule:
raise AwlSimError("Failed to load cProfile/pstats modules. "
"Cannot enable profiling.")
self.__profiler = self.__profileModule.Profile()
def _profileStart(self):
self.__profiler.enable()
def _profileStop(self):
self.__profiler.disable()
def getProfileStats(self):
if self._profileLevel <= 0:
return None
sio = StringIO()
ps = self.__pstatsModule.Stats(self.__profiler,
stream = sio)
ps.sort_stats("time")
ps.print_stats()
return sio.getvalue()
def _handleSimException(self, e, fatal = True):
"""Handle an exception and add some information
to it. Note that this might get called twice or more often
for the same exception object.
"""
if not e.getCpu():
# The CPU reference is not set, yet.
# Set it to the current CPU.
e.setCpu(self.cpu)
if fatal:
# Re-raise the exception for upper layers to catch.
raise e
else:
# Non-fatal. Just log an error.
printError(str(e))
@throwsAwlSimError
def __handleMaintenanceRequest(self, e):
if e.requestType in (MaintenanceRequest.TYPE_SHUTDOWN,
MaintenanceRequest.TYPE_STOP,
MaintenanceRequest.TYPE_RTTIMEOUT):
# This is handled in the toplevel loop, so
# re-raise the exception.
raise e
try:
if e.requestType == MaintenanceRequest.TYPE_SOFTREBOOT:
# Run the CPU startup sequence again
self.cpu.startup()
else:
assert(0)
except MaintenanceRequest as e:
raise AwlSimError("Recursive maintenance request")
@profiled(2)
@throwsAwlSimError
def reset(self):
self.cpu.reset()
self.unregisterAllHardware(inCpuReset = True)
@profiled(2)
@throwsAwlSimError
def build(self):
self.cpu.build()
@profiled(2)
@throwsAwlSimError
def load(self, parseTree, rebuild = False, sourceManager = None):
self.cpu.load(parseTree, rebuild, sourceManager)
@profiled(2)
@throwsAwlSimError
def loadSymbolTable(self, symTab, rebuild = False):
self.cpu.loadSymbolTable(symTab, rebuild)
@profiled(2)
@throwsAwlSimError
def loadLibraryBlock(self, libSelection, rebuild = False):
self.cpu.loadLibraryBlock(libSelection, rebuild)
@profiled(2)
@throwsAwlSimError
def removeBlock(self, blockInfo, sanityChecks = True):
self.cpu.removeBlock(blockInfo, sanityChecks)
@profiled(2)
@throwsAwlSimError
def staticSanityChecks(self):
self.cpu.staticSanityChecks()
@profiled(2)
@throwsAwlSimError
def startup(self):
self.__hwStartup()
try:
self.__readHwInputs()
self.cpu.startup()
self.__writeHwOutputs()
except MaintenanceRequest as e:
self.__handleMaintenanceRequest(e)
def runCycle(self): #+cpdef
if self._profileLevel >= 1:
self._profileStart()
try:
if self.__registeredHardwareCount:
self.__readHwInputs()
self.cpu.runCycle()
if self.__registeredHardwareCount:
self.__writeHwOutputs()
except AwlSimError as e:
self._handleSimException(e)
except MaintenanceRequest as e:
self.__handleMaintenanceRequest(e)
if self._profileLevel >= 1:
self._profileStop()
@throwsAwlSimError
def shutdown(self):
"""Shutdown the Awlsim core.
This will unregister all hardware modules and shut down execution.
"""
self.unregisterAllHardware()
ps = self.getProfileStats()
if ps:
sys.stdout.write("\n\nAwlsim core profile stats "
"(level %d) follow:\n" %\
self._profileLevel)
sys.stdout.write(ps)
sys.stdout.write("\n")
sys.stdout.flush()
def unregisterAllHardware(self, inCpuReset = False):
newHwList = []
for hw in self.__registeredHardware:
if not hw.getParam("removeOnReset") and inCpuReset:
# This module has "removeOnReset" set to False
# and we are in a CPU reset.
# Do shutdown the module, but keep it in the
# list of registered modules.
newHwList.append(hw)
hw.shutdown()
self.__registeredHardware = newHwList
self.__registeredHardwareCount = len(self.__registeredHardware)
def registerHardware(self, hwClassInst):
"""Register a new hardware interface."""
if hwClassInst.getParamValueByName("enabled"):
self.__registeredHardware.append(hwClassInst)
self.__registeredHardwareCount = len(self.__registeredHardware)
def registerHardwareClass(self, hwClass, parameters={}):
"""Register a new hardware interface class.
'parameters' is a dict of hardware specific parameters.
Returns the instance of the hardware class."""
hwClassInst = hwClass(sim = self,
parameters = parameters)
self.registerHardware(hwClassInst)
return hwClassInst
@classmethod
def loadHardwareModule(cls, name):
"""Load a hardware interface module.
'name' is the name of the module to load (without 'awlsimhw_' prefix).
Returns the HardwareInterface class."""
return HwModLoader.loadModule(name).getInterface()
def __hwStartup(self):
"""Startup all attached hardware modules.
"""
# Hw errors are fatal if debugging.
# Otherwise just log the errors, but don't abort the program.
self._fatalHwErrors = bool(Logging.loglevel >= Logging.LOG_DEBUG)
for hw in self.__registeredHardware:
try:
hw.startup()
except AwlSimError as e:
# Always fatal in startup.
self._handleSimException(e, fatal = True)
def __readHwInputs(self): #+cdef
"""Read all hardware module inputs.
"""
#@cy cdef AbstractHardwareInterface hw
for hw in self.__registeredHardware:
try:
hw.readInputs()
except AwlSimError as e:
self._handleSimException(e,
fatal = self._fatalHwErrors)
def __writeHwOutputs(self): #+cdef
"""Write all hardware module outputs.
"""
#@cy cdef AbstractHardwareInterface hw
for hw in self.__registeredHardware:
try:
hw.writeOutputs()
except AwlSimError as e:
self._handleSimException(e,
fatal = self._fatalHwErrors)
def __peripheralReadCallback(self, userData, width, offset):
"""The CPU issued a direct peripheral read access.
Poke all registered hardware modules, but only return the value
from the last module returning a valid value.
"""
#@cy cdef AbstractHardwareInterface hw
#@cy cdef bytearray retValue
#@cy cdef bytearray value
for hw in self.__registeredHardware:
try:
value = hw.directReadInput(width, offset)
if value:
return value
except AwlSimError as e:
self._handleSimException(e,
fatal = self._fatalHwErrors)
break
return bytearray()
def __peripheralWriteCallback(self, userData, width, offset, value):
"""The CPU issued a direct peripheral write access.
Send the write request down to all hardware modules.
Returns true, if any hardware accepted the value.
"""
#@cy cdef AbstractHardwareInterface hw
#@cy cdef _Bool retOk
#@cy cdef ExBool_t ok
retOk = False
try:
for hw in self.__registeredHardware:
ok = hw.directWriteOutput(width, offset, value)
retOk = ok or retOk
except AwlSimError as e:
self._handleSimException(e,
fatal = self._fatalHwErrors)
return False
return retOk
def __repr__(self):
return str(self.cpu)
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