# -*- coding: utf-8 -*- # # AWL simulator - PLC core server # # Copyright 2013-2017 Michael Buesch # # 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.compat import * from awlsim.common.subprocess_wrapper import * from awlsim.common.cpuspecs import * #+cimport from awlsim.common.cpuconfig import * from awlsim.common.sources import * from awlsim.common.net import * from awlsim.common.util import * from awlsim.common.exceptions import * from awlsim.core.main import * #+cimport from awlsim.core.symbolparser import * from awlsim.awlcompiler import * from awlsim.coreserver.messages import * from awlsim.coreserver.memarea import * from awlsim.fupcompiler import * import sys import os import select import signal import socket import errno import time class AwlSimClientInfo(object): """Client information.""" def __init__(self, sock, peerInfoString): # Socket self.socket = sock self.transceiver = AwlSimMessageTransceiver(sock, peerInfoString) # Broken-flag. Set, if connection breaks. self.broken = False # CPU-dump self.dumpInterval = 0 self.nextDump = 0 # Instruction state dump: Enabled lines. # dict key: AWL source ID number. # dict values: range() of AWL line numbers. self.insnStateDump_enabledLines = {} # Memory read requests self.memReadRequestMsg = None self.repetitionPeriod = 0.0 self.nextRepTime = monotonic_time() class AwlSimServer(object): #+cdef """Awlsim coreserver server API. """ DEFAULT_HOST = "localhost" DEFAULT_PORT = 4151 ENV_MAGIC = "AWLSIM_CORESERVER_MAGIC" EnumGen.start _STATE_INIT = EnumGen.item # CPU not runnable, yet. STATE_STOP = EnumGen.item # CPU runnable, but stopped. STATE_RUN = EnumGen.item # CPU running. STATE_MAINTENANCE = EnumGen.item # CPU maintenance (stopped). STATE_EXIT = EnumGen.item # CPU exiting (stopped). EnumGen.end # Command mask bits CMDMSK_SHUTDOWN = (1 << 0) # Allow shutdown command @classmethod def getaddrinfo(cls, host, port, family = None): socktype = socket.SOCK_STREAM if osIsPosix and\ family is None and\ host in {"localhost", "127.0.0.1", "::1"} and\ False: #XXX disabled, for now # We are on posix OS. Instead of AF_INET on localhost, # we use Unix domain sockets. family = AF_UNIX sockaddr = "/tmp/awlsim-server-%d.socket" % port else: if family in {None, socket.AF_UNSPEC}: # First try IPv4 try: family, socktype, proto, canonname, sockaddr =\ socket.getaddrinfo(host, port, socket.AF_INET, socktype)[0] except socket.gaierror as e: if e.errno == socket.EAI_ADDRFAMILY: # Also try IPv6 family, socktype, proto, canonname, sockaddr =\ socket.getaddrinfo(host, port, socket.AF_INET6, socktype)[0] else: raise e else: family, socktype, proto, canonname, sockaddr =\ socket.getaddrinfo(host, port, family, socktype)[0] return (family, socktype, sockaddr) @classmethod def portIsUnused(cls, host, port): sock = None result = True try: family, socktype, sockaddr = AwlSimServer.getaddrinfo(host, port) if family == AF_UNIX: if fileExists(sockaddr) == False: return True return False sock = socket.socket(family, socktype) sock.bind(sockaddr) sock.close() except SocketErrors as e: result = False if sock: with suppressAllExc: sock.shutdown(socket.SHUT_RDWR) with suppressAllExc: sock.close() return result @classmethod def start(cls, listenHost, listenPort, listenFamily=None, forkInterpreter=None, forkServerProcess=None, commandMask=CMDMSK_SHUTDOWN, projectFile=None, projectWriteBack=False): """Start a new server. If 'forkInterpreter' or 'forkServerProcess' are not None, spawn a subprocess. If 'forkInterpreter' and 'forkServerProcess' are None, run the server in this process.""" if listenFamily is None: listenFamily = "" else: listenFamily = int(listenFamily) # Prepare the environment for the server process. # Inherit from the starter and add awlsim specific variables. env = dict(os.environ) env[AwlSimServer.ENV_MAGIC] = AwlSimServer.ENV_MAGIC env["AWLSIM_CORESERVER_HOST"] = str(listenHost) env["AWLSIM_CORESERVER_PORT"] = str(int(listenPort)) env["AWLSIM_CORESERVER_FAM"] = str(listenFamily) env["AWLSIM_CORESERVER_LOGLEVEL"] = str(Logging.loglevel) env["AWLSIM_CORESERVER_CMDMSK"] = str(int(commandMask)) env["AWLSIM_CORESERVER_PROJECT"] = str(projectFile or "") env["AWLSIM_CORESERVER_PROJECTRW"] = str(int(bool(projectWriteBack))) if forkServerProcess: # Fork a new server process. proc = findExecutable(forkServerProcess) printInfo("Forking server process '%s'" % proc) if not proc: raise AwlSimError("Failed to find executable '%s'" %\ forkServerProcess) try: serverProcess = PopenWrapper([proc], env = env) except OSError as e: raise AwlSimError("Failed to run executable '%s': %s" %( forkServerProcess, str(e))) return serverProcess elif forkInterpreter: # Fork a new interpreter process and run server.py as module. interp = findExecutable(forkInterpreter) printInfo("Forking awlsim core server with interpreter '%s'" % interp) if not interp: raise AwlSimError("Failed to find interpreter " "executable '%s'" % forkInterpreter) try: serverProcess = PopenWrapper( [interp, "-m", "awlsim.coreserver.run"], env = env) except OSError as e: raise AwlSimError("Failed to run interpreter '%s': %s" %( forkInterpreter, str(e))) return serverProcess else: # Do not fork. Just run the server in this process. return cls._execute(env) @classmethod def _execute(cls, env=None): """Execute the server process. Returns the exit() return value.""" server, retval = None, ExitCodes.EXIT_OK try: server = AwlSimServer() for sig in (signal.SIGTERM, ): signal.signal(sig, server.signalHandler) server.runFromEnvironment(env) except AwlSimError as e: print(e.getReport()) retval = ExitCodes.EXIT_ERR_SIM except MaintenanceRequest as e: print("AwlSimServer: Unhandled MaintenanceRequest:\n%s" %\ str(e)) retval = ExitCodes.EXIT_ERR_SIM except KeyboardInterrupt: print("AwlSimServer: Interrupted.") finally: if server: server.shutdown() return retval def __init__(self): self.__emptyList = [] self.__startupDone = False self.__state = -1 self.__needOB10x = True self.__projectFile = None self.__projectWriteBack = False self.setRunState(self._STATE_INIT) self.__nextStats = 0 self.__commandMask = 0 self.__handleExceptionServerside = False self.__handleMaintenanceServerside = False self.__haveAnyMemReadReq = False self.__socket = None self.__unixSockPath = None self.__clients = [] self.__sock2client = {} self.__sim = AwlSim() self.setCycleExitHook(None) # Container of loaded and managed AwlSource()s self.awlSourceContainer = SourceContainer() # Container of loaded and managed SymTabSource()s self.symTabSourceContainer = SourceContainer() # List of tuples of loaded hardware modules (HwmodDescriptor instances) self.loadedHwModules = [] # List of loaded AwlLibEntrySelection()s self.loadedLibSelections = [] self.__resetSources() def runFromEnvironment(self, env=None): """Run the server. Configuration is passed via environment variables in 'env'. If 'env' is not passed, os.environ is used.""" if not env: env = dict(os.environ) try: loglevel = int(env.get("AWLSIM_CORESERVER_LOGLEVEL")) except (TypeError, ValueError) as e: raise AwlSimError("AwlSimServer: No loglevel specified") Logging.setPrefix("AwlSimServer: ") Logging.setLoglevel(loglevel) if self.__socket: raise AwlSimError("AwlSimServer: Already running") if env.get(self.ENV_MAGIC) != self.ENV_MAGIC: raise AwlSimError("AwlSimServer: Missing magic value") host = env.get("AWLSIM_CORESERVER_HOST") if host is None: raise AwlSimError("AwlSimServer: No listen host specified") try: port = int(env.get("AWLSIM_CORESERVER_PORT")) except (TypeError, ValueError) as e: raise AwlSimError("AwlSimServer: No listen port specified") try: fam = env.get("AWLSIM_CORESERVER_FAM") if fam and fam.strip(): fam = int(fam) else: fam = None except (TypeError, ValueError) as e: raise AwlSimError("AwlSimServer: Invalid family specified") try: commandMask = int(env.get("AWLSIM_CORESERVER_CMDMSK")) except (TypeError, ValueError) as e: raise AwlSimError("AwlSimServer: No command mask specified") projectFile = env.get("AWLSIM_CORESERVER_PROJECT") try: projectWriteBack = bool(int(env.get("AWLSIM_CORESERVER_PROJECTRW"))) except (TypeError, ValueError) as e: projectWriteBack = True self.startup(host = host, port = port, family = fam, commandMask = commandMask, project = projectFile, projectWriteBack = projectWriteBack) self.run() def getRunState(self): return self.__state def setRunState(self, runstate): if self.__state == runstate: # Already in that state. return if self.__state == self.STATE_EXIT: # We are exiting. Cannot set another state. return if runstate == self.STATE_RUN or\ runstate == self.STATE_STOP: # Reset instruction dump serial number self.__insnSerial = 0 if runstate == self._STATE_INIT: # We just entered initialization state. printVerbose("Putting CPU into INIT state.") self.__needOB10x = True elif runstate == self.STATE_RUN: # We just entered RUN state. if self.__needOB10x: printVerbose("CPU startup (OB 10x).") self.__sim.startup() self.__needOB10x = False printVerbose("Putting CPU into RUN state.") elif runstate == self.STATE_STOP: # We just entered STOP state. printVerbose("Putting CPU into STOP state.") elif runstate == self.STATE_MAINTENANCE: # We just entered MAINTENANCE state. printVerbose("Putting CPU into MAINTENANCE state.") self.__needOB10x = True self.__state = runstate # Make a shortcut variable for RUN self.__running = bool(runstate == self.STATE_RUN) def __getMnemonics(self): return self.__sim.cpu.getConf().getMnemonics() def __rebuildSelectReadList(self): rlist = [ self.__socket ] rlist.extend(client.transceiver.sock for client in self.__clients) self.__selectRlist = rlist def __sendCpuDump(self, constrained=True): dumpText = self.__sim.cpu.dump(withTime=self.__running) if not dumpText: return msg = AwlSimMessage_CPUDUMP(dumpText) now = self.__sim.cpu.now broken = False for client in self.__clients: if client.dumpInterval and\ (now >= client.nextDump or not constrained): client.nextDump = now + client.dumpInterval / 1000.0 try: client.transceiver.send(msg) except TransferError as e: client.broken = broken = True if broken: self.__removeBrokenClients() def __cpuBlockExitCallback(self, userData): now = self.__sim.cpu.now if any(c.dumpInterval and now >= c.nextDump for c in self.__clients): self.__sendCpuDump() def __cpuPostInsnCallback(self, callStackElement, userData): try: insn = callStackElement.insns[callStackElement.ip] except IndexError: return cpu, sourceId, lineNr, msg =\ self.__sim.cpu, insn.getSourceId(), insn.getLineNr(), None broken = False for client in self.__clients: try: if lineNr not in client.insnStateDump_enabledLines[sourceId]: continue except KeyError: continue if not msg: msg = AwlSimMessage_INSNSTATE( sourceId, lineNr & 0xFFFFFFFF, self.__insnSerial, 0, cpu.statusWord.getWord(), cpu.accu1.get(), cpu.accu2.get(), cpu.accu3.get(), cpu.accu4.get(), cpu.ar1.get(), cpu.ar2.get(), cpu.dbRegister.index & 0xFFFF, cpu.diRegister.index & 0xFFFF) try: client.transceiver.send(msg) except TransferError as e: client.broken = broken = True if broken: self.__removeBrokenClients() self.__insnSerial += 1 def __printCpuStats(self): cpu = self.__sim.cpu if cpu.insnPerSecond: usPerInsn = "%.03f" % ((1.0 / cpu.insnPerSecond) * 1000000) else: usPerInsn = "-/-" printVerbose("[CPU] " "%d stmt/s (= %s us/stmt); %.01f stmt/cycle" %\ (int(round(cpu.insnPerSecond)), usPerInsn, cpu.avgInsnPerCycle)) def __cpuCycleExitCallback(self, userData): # Reset instruction dump serial number self.__insnSerial = 0 # Print CPU stats, if requested. if Logging.loglevel >= Logging.LOG_VERBOSE: now = self.__sim.cpu.now if now >= self.__nextStats: self.__nextStats = now + 1.0 self.__printCpuStats() # Call the cycle exit hook, if any. if self.__cycleExitHook: self.__cycleExitHook(self.__cycleExitHookData) def __updateCpuBlockExitCallback(self): if any(c.dumpInterval for c in self.__clients): self.__sim.cpu.setBlockExitCallback(self.__cpuBlockExitCallback, None) else: self.__sim.cpu.setBlockExitCallback(None) def __updateCpuPostInsnCallback(self): if any(c.insnStateDump_enabledLines for c in self.__clients): self.__sim.cpu.setPostInsnCallback(self.__cpuPostInsnCallback, None) else: self.__sim.cpu.setPostInsnCallback(None) def __updateCpuCycleExitCallback(self): if any(c.insnStateDump_enabledLines for c in self.__clients) or\ Logging.loglevel >= Logging.LOG_VERBOSE or\ self.__cycleExitHook: self.__sim.cpu.setCycleExitCallback(self.__cpuCycleExitCallback, None) else: self.__sim.cpu.setCycleExitCallback(None) def __updateCpuCallbacks(self): self.__updateCpuBlockExitCallback() self.__updateCpuPostInsnCallback() self.__updateCpuCycleExitCallback() def __generateProject(self): cpu = self.__sim.getCPU() awlSources = self.awlSourceContainer.getSources() fupSources = [] #TODO kopSources = [] #TODO symTabSources = self.symTabSourceContainer.getSources() libSelections = self.loadedLibSelections[:] cpuSpecs = cpu.getSpecs() # (Note: not a deep-copy) cpuConf = cpu.getConf() # (Note: not a deep-copy) hwmodSettings = HwmodSettings( loadedModules = self.loadedHwModules[:] ) project = Project( projectFile = None, awlSources = awlSources, fupSources = fupSources, kopSources = kopSources, symTabSources = symTabSources, libSelections = libSelections, cpuSpecs = cpuSpecs, cpuConf = cpuConf, obTempPresetsEn = cpu.obTempPresetsEnabled(), extInsnsEn = cpu.extendedInsnsEnabled(), guiSettings = None, coreLinkSettings = None, hwmodSettings = hwmodSettings, ) return project def __updateProjectFile(self): if not self.__projectWriteBack or\ not self.__projectFile: return printDebug("Updating project file '%s'" % self.__projectFile) project = self.__generateProject() project.toFile(self.__projectFile) def __resetSources(self): self.awlSourceContainer.clear() self.symTabSourceContainer.clear() self.loadedHwModules = [] self.loadedLibSelections = [] # Schedule a CPU restart/rebuild. self.__needOB10x = True self.__updateProjectFile() def __resetAll(self): self.setRunState(self.STATE_STOP) self.__sim.reset() self.__resetSources() def removeSource(self, identHash): ret = True srcMgr = self.awlSourceContainer.getSourceManagerByIdent(identHash) tabMgr = self.symTabSourceContainer.getSourceManagerByIdent(identHash) try: if srcMgr: # Remove all blocks that were created from this source. for block in srcMgr.getBlocks(): if not isinstance(block, CodeBlock): # This is not a compiled block. continue blockInfo = block.getBlockInfo() if not blockInfo: continue self.__sim.removeBlock(blockInfo, sanityChecks = False) # Remove the source, if it's not gone already. self.awlSourceContainer.removeByIdent(identHash) # Run static sanity checks now to ensure # the CPU is still runnable. self.__sim.staticSanityChecks() elif tabMgr: pass#TODO ret = False finally: if ret: self.__updateProjectFile() return ret def loadAwlSource(self, awlSource): parser = AwlParser() parser.parseSource(awlSource) srcManager = SourceManager(awlSource) needRebuild = False if self.__state == self.STATE_RUN or\ (self.__state == self.STATE_STOP and\ not self.__needOB10x): needRebuild = True self.__sim.load(parser.getParseTree(), needRebuild, srcManager) self.awlSourceContainer.addManager(srcManager) self.__updateProjectFile() def loadFupSource(self, fupSource): #TODO src manager #TODO do not add to awlSourceContainer compiler = FupCompiler() #FIXME mnemonics auto detection might cause mismatching mnemonics w.r.t. the main blocks. awlSource = compiler.compile(fupSource=fupSource, mnemonics=self.__getMnemonics()) self.loadAwlSource(awlSource) def loadKopSource(self, kopSource): pass#TODO def loadSymTabSource(self, symTabSource): symbolTable = SymTabParser.parseSource(symTabSource, autodetectFormat=True, mnemonics=self.__getMnemonics()) srcManager = SourceManager(symTabSource) self.setRunState(self.STATE_STOP) self.__sim.loadSymbolTable(symbolTable) self.symTabSourceContainer.addManager(srcManager) self.__updateProjectFile() def loadHardwareModule(self, hwmodDesc): hwmodName = hwmodDesc.getModuleName() printInfo("Loading hardware module '%s'..." % hwmodName) hwClass = self.__sim.loadHardwareModule(hwmodDesc.getModuleName()) self.__sim.registerHardwareClass(hwClass = hwClass, parameters = hwmodDesc.getParameters()) self.loadedHwModules.append(hwmodDesc) self.__updateProjectFile() printInfo("Hardware module '%s' loaded." % hwmodName) def loadLibraryBlock(self, libSelection): self.setRunState(self.STATE_STOP) self.__sim.loadLibraryBlock(libSelection) self.loadedLibSelections.append(libSelection) self.__updateProjectFile() def cpuEnableObTempPresets(self, en): self.__sim.cpu.enableObTempPresets(en) self.__updateProjectFile() def cpuEnableExtendedInsns(self, en): self.__sim.cpu.enableExtendedInsns(en) self.__updateProjectFile() def cpuSetCycleTimeLimit(self, limitSeconds): self.__sim.cpu.setCycleTimeLimit(limitSeconds) self.__updateProjectFile() def cpuSetRunTimeLimit(self, limitSeconds): self.__sim.cpu.setRunTimeLimit(limitSeconds) self.__updateProjectFile() def cpuSetSpecs(self, cpuSpecs): self.__sim.cpu.getSpecs().assignFrom(cpuSpecs) self.__updateProjectFile() def cpuSetConf(self, cpuConf): self.__sim.cpu.getConf().assignFrom(cpuConf) self.__updateProjectFile() def setCycleExitHook(self, hook, hookData = None): self.__cycleExitHook = hook self.__cycleExitHookData = hookData self.__updateCpuCallbacks() def __rx_PING(self, client, msg): printDebug("Received message: PING") client.transceiver.send(AwlSimMessage_PONG()) def __rx_PONG(self, client, msg): printInfo("Received message: PONG") def __rx_RESET(self, client, msg): printVerbose("Resetting CPU.") status = AwlSimMessage_REPLY.STAT_OK self.__resetAll() client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_SHUTDOWN(self, client, msg): printDebug("Received message: SHUTDOWN") status = AwlSimMessage_REPLY.STAT_FAIL if self.__commandMask & AwlSimServer.CMDMSK_SHUTDOWN: printInfo("Exiting due to shutdown command") self.setRunState(self.STATE_EXIT) status = AwlSimMessage_REPLY.STAT_OK client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_RUNSTATE(self, client, msg): printDebug("Received message: RUNSTATE %d" % msg.runState) status = AwlSimMessage_REPLY.STAT_OK if msg.runState == msg.STATE_STOP: self.setRunState(self.STATE_STOP) elif msg.runState == msg.STATE_RUN: if self.__state == self.STATE_RUN: pass elif self.__state == self.STATE_STOP or\ self.__state == self.STATE_MAINTENANCE: self.setRunState(self.STATE_RUN) else: status = AwlSimMessage_REPLY.STAT_FAIL else: status = AwlSimMessage_REPLY.STAT_FAIL client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_GET_RUNSTATE(self, client, msg): printDebug("Received message: GET_RUNSTATE") reply = AwlSimMessage_RUNSTATE( AwlSimMessage_RUNSTATE.STATE_RUN\ if self.__state == self.STATE_RUN else\ AwlSimMessage_RUNSTATE.STATE_STOP ) client.transceiver.send(reply) def __rx_GET_AWLSRC(self, client, msg): printDebug("Received message: GET_AWLSRC") awlSource = self.awlSourceContainer.getSourceByIdent(msg.identHash) reply = AwlSimMessage_AWLSRC(awlSource) client.transceiver.send(reply) def __rx_AWLSRC(self, client, msg): printDebug("Received message: AWLSRC") status = AwlSimMessage_REPLY.STAT_OK self.loadAwlSource(msg.source) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_GET_SYMTABSRC(self, client, msg): printDebug("Received message: GET_SYMTABSRC") symTabSource = self.symTabSourceContainer.getSourceByIdent(msg.identHash) reply = AwlSimMessage_SYMTABSRC(symTabSource) client.transceiver.send(reply) def __rx_SYMTABSRC(self, client, msg): printDebug("Received message: SYMTABSRC") status = AwlSimMessage_REPLY.STAT_OK self.loadSymTabSource(msg.source) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_HWMOD(self, client, msg): printDebug("Received message: HWMOD") status = AwlSimMessage_REPLY.STAT_OK self.loadHardwareModule(msg.hwmodDesc) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_LIBSEL(self, client, msg): printDebug("Received message: LIBSEL") status = AwlSimMessage_REPLY.STAT_OK self.loadLibraryBlock(msg.libSelection) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_FUPSRC(self, client, msg): printDebug("Received message: FUPSRC") status = AwlSimMessage_REPLY.STAT_OK self.loadFupSource(msg.source) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_KOPSRC(self, client, msg): printDebug("Received message: KOPSRC") status = AwlSimMessage_REPLY.STAT_OK self.loadKopSource(msg.source) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_BUILD(self, client, msg): printDebug("Received message: BUILD") status = AwlSimMessage_REPLY.STAT_OK self.__sim.build() client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_REMOVESRC(self, client, msg): printDebug("Received message: REMOVESRC") status = AwlSimMessage_REPLY.STAT_OK if not self.removeSource(msg.identHash): status = AwlSimMessage_REPLY.STAT_FAIL client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_REMOVEBLK(self, client, msg): printDebug("Received message: REMOVEBLK") status = AwlSimMessage_REPLY.STAT_OK self.__sim.removeBlock(msg.blockInfo) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_OPT(self, client, msg): printDebug("Received message: OPT %s" % msg.name) status = AwlSimMessage_REPLY.STAT_OK if msg.name == "loglevel": Logging.setLoglevel(msg.getIntValue()) elif msg.name == "ob_temp_presets": self.cpuEnableObTempPresets(msg.getBoolValue()) elif msg.name == "extended_insns": self.cpuEnableExtendedInsns(msg.getBoolValue()) elif msg.name == "periodic_dump_int": client.dumpInterval = msg.getIntValue() if client.dumpInterval: client.nextDump = self.__sim.cpu.now else: client.nextDump = None self.__updateCpuCallbacks() elif msg.name == "cycle_time_limit": self.cpuSetCycleTimeLimit(msg.getFloatValue()) elif msg.name == "runtime_limit": self.cpuSetRunTimeLimit(msg.getFloatValue()) else: status = AwlSimMessage_REPLY.STAT_FAIL client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_GET_BLOCKINFO(self, client, msg): printDebug("Received message: GET_BLOCKINFO") blockInfos = self.__sim.cpu.getBlockInfos( getOBInfo = bool(msg.getFlags & msg.GET_OB_INFO), getFCInfo = bool(msg.getFlags & msg.GET_FC_INFO), getFBInfo = bool(msg.getFlags & msg.GET_FB_INFO), getDBInfo = bool(msg.getFlags & msg.GET_DB_INFO)) reply = AwlSimMessage_BLOCKINFO(blockInfos) client.transceiver.send(reply) def __rx_GET_CPUSPECS(self, client, msg): printDebug("Received message: GET_CPUSPECS") reply = AwlSimMessage_CPUSPECS(self.__sim.cpu.getSpecs()) client.transceiver.send(reply) def __rx_CPUSPECS(self, client, msg): printDebug("Received message: CPUSPECS") status = AwlSimMessage_REPLY.STAT_OK self.cpuSetSpecs(msg.cpuspecs) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_GET_CPUCONF(self, client, msg): printDebug("Received message: GET_CPUCONF") reply = AwlSimMessage_CPUCONF(self.__sim.cpu.getConf()) client.transceiver.send(reply) def __rx_CPUCONF(self, client, msg): printDebug("Received message: CPUCONF") status = AwlSimMessage_REPLY.STAT_OK self.cpuSetConf(msg.cpuconf) client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_REQ_MEMORY(self, client, msg): printDebug("Received message: REQ_MEMORY") client.memReadRequestMsg = AwlSimMessage_MEMORY(0, msg.memAreas) client.repetitionPeriod = msg.repetitionPeriod client.nextRepTime = monotonic_time() self.__updateMemReadReqFlag() if msg.flags & msg.FLG_SYNC: client.transceiver.send(AwlSimMessage_REPLY.make( msg, AwlSimMessage_REPLY.STAT_OK) ) def __rx_MEMORY(self, client, msg): printDebug("Received message: MEMORY") cpu = self.__sim.cpu status = AwlSimMessage_REPLY.STAT_OK for memArea in msg.memAreas: try: memArea.writeToCpu(cpu) except AwlSimError as e: if memArea.flags & (MemoryArea.FLG_ERR_READ |\ MemoryArea.FLG_ERR_WRITE): # Just signal failure to the client. status = AwlSimMessage_REPLY.STAT_FAIL else: # This is a serious fault. # Re-raise the exception. raise if msg.flags & msg.FLG_SYNC: client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_INSNSTATE_CONFIG(self, client, msg): printDebug("Received message: INSNSTATE_CONFIG") status = AwlSimMessage_REPLY.STAT_OK if msg.flags & (msg.FLG_CLEAR | msg.FLG_CLEAR_ONLY): client.insnStateDump_enabledLines = {} if not (msg.flags & msg.FLG_CLEAR_ONLY): rnge = range(msg.fromLine, msg.toLine + 1) client.insnStateDump_enabledLines[msg.sourceId] = rnge self.__updateCpuCallbacks() if msg.flags & msg.FLG_SYNC: client.transceiver.send(AwlSimMessage_REPLY.make(msg, status)) def __rx_GET_IDENTS(self, client, msg): printDebug("Received message: GET_IDENTS") awlSrcs = symSrcs = hwMods = libSels = fupSrcs = kopSrcs = () if msg.getFlags & msg.GET_AWLSRCS: awlSrcs = self.awlSourceContainer.getSources() if msg.getFlags & msg.GET_SYMTABSRCS: symSrcs = self.symTabSourceContainer.getSources() if msg.getFlags & msg.GET_HWMODS: hwMods = self.loadedHwModules if msg.getFlags & msg.GET_LIBSELS: libSels = self.loadedLibSelections if msg.getFlags & msg.GET_FUPSRCS: pass#TODO if msg.getFlags & msg.GET_KOPSRCS: pass#TODO reply = AwlSimMessage_IDENTS(awlSrcs, symSrcs, hwMods, libSels, fupSrcs, kopSrcs) client.transceiver.send(reply) __msgRxHandlers = { AwlSimMessage.MSG_ID_PING : __rx_PING, AwlSimMessage.MSG_ID_PONG : __rx_PONG, AwlSimMessage.MSG_ID_RESET : __rx_RESET, AwlSimMessage.MSG_ID_SHUTDOWN : __rx_SHUTDOWN, AwlSimMessage.MSG_ID_RUNSTATE : __rx_RUNSTATE, AwlSimMessage.MSG_ID_GET_RUNSTATE : __rx_GET_RUNSTATE, AwlSimMessage.MSG_ID_GET_AWLSRC : __rx_GET_AWLSRC, AwlSimMessage.MSG_ID_AWLSRC : __rx_AWLSRC, AwlSimMessage.MSG_ID_GET_SYMTABSRC : __rx_GET_SYMTABSRC, AwlSimMessage.MSG_ID_SYMTABSRC : __rx_SYMTABSRC, AwlSimMessage.MSG_ID_HWMOD : __rx_HWMOD, AwlSimMessage.MSG_ID_LIBSEL : __rx_LIBSEL, AwlSimMessage.MSG_ID_FUPSRC : __rx_FUPSRC, # AwlSimMessage.MSG_ID_KOPSRC : __rx_KOPSRC, AwlSimMessage.MSG_ID_BUILD : __rx_BUILD, AwlSimMessage.MSG_ID_REMOVESRC : __rx_REMOVESRC, AwlSimMessage.MSG_ID_REMOVEBLK : __rx_REMOVEBLK, AwlSimMessage.MSG_ID_OPT : __rx_OPT, AwlSimMessage.MSG_ID_GET_BLOCKINFO : __rx_GET_BLOCKINFO, AwlSimMessage.MSG_ID_GET_CPUSPECS : __rx_GET_CPUSPECS, AwlSimMessage.MSG_ID_CPUSPECS : __rx_CPUSPECS, AwlSimMessage.MSG_ID_GET_CPUCONF : __rx_GET_CPUCONF, AwlSimMessage.MSG_ID_CPUCONF : __rx_CPUCONF, AwlSimMessage.MSG_ID_REQ_MEMORY : __rx_REQ_MEMORY, AwlSimMessage.MSG_ID_MEMORY : __rx_MEMORY, AwlSimMessage.MSG_ID_INSNSTATE_CONFIG : __rx_INSNSTATE_CONFIG, AwlSimMessage.MSG_ID_GET_IDENTS : __rx_GET_IDENTS, } def __clientCommTransferError(self, exception, client): if exception.reason == exception.REASON_REMOTEDIED: printInfo("Client '%s' disconnected" %\ client.transceiver.peerInfoString) else: printInfo("Client '%s' data " "transfer error:\n%s" %\ (client.transceiver.peerInfoString, str(exception))) self.__clientRemove(client) def __handleClientComm(self, client): #+cdef try: msg = client.transceiver.receive(0.0) except TransferError as e: self.__clientCommTransferError(e, client) return if not msg: return try: handler = self.__msgRxHandlers[msg.msgId] except KeyError: printInfo("Received unsupported " "message 0x%02X" % msg.msgId) return try: handler(self, client, msg) except TransferError as e: self.__clientCommTransferError(e, client) return def __handleSocketComm(self, sockList): #@nocy #@cy cdef __handleSocketComm(self, list sockList): if self.__socket in sockList: sockList.remove(self.__socket) self.__accept() for sock in sockList: self.__handleClientComm(self.__sock2client[sock]) def __selectException(self, exception): raise AwlSimError("AwlSimServer: Communication error. " "'select' failed") def __handleCommunication(self, __select=select.select, __Exception=Exception): #@nocy #@cy cdef __handleCommunication(self, object __select=select.select, type __Exception=Exception): #@cy cdef list rlist #@cy cdef list wlist #@cy cdef list xlist try: rlist, wlist, xlist = __select(self.__selectRlist, self.__emptyList, self.__emptyList, 0.0) if not rlist: return except __Exception as e: self.__selectException(e) self.__handleSocketComm(rlist) # Check again to receive more data (with a small timeout). while True: try: rlist, wlist, xlist = __select(self.__selectRlist, self.__emptyList, self.__emptyList, 0.01) if not rlist: return except __Exception as e: self.__selectException(e) self.__handleSocketComm(rlist) def __handleCommunicationBlocking(self): try: select.select(self.__selectRlist, [], [], None) except Exception as e: self.__selectException(e) self.__handleCommunication() def __updateMemReadReqFlag(self): self.__haveAnyMemReadReq = bool(any(bool(c.memReadRequestMsg) for c in self.__clients)) def __handleMemReadReqs(self, constrained=True): broken = False for client in self.__clients: if not client.memReadRequestMsg: continue if client.repetitionPeriod < 0.0: # One shot mem read request. memReadRequestMsg = client.memReadRequestMsg self.memReadRequestMsg = None else: # Repetitive mem read request. now = monotonic_time() if now < client.nextRepTime and constrained: continue # Time constrained. Don't send, yet. client.nextRepTime = now + client.repetitionPeriod memReadRequestMsg = client.memReadRequestMsg cpu, memAreas = self.__sim.cpu, memReadRequestMsg.memAreas for memArea in memAreas: memArea.flags = 0 try: memArea.readFromCpu(cpu) except AwlSimError as e: if memArea.flags & (MemoryArea.FLG_ERR_READ |\ MemoryArea.FLG_ERR_WRITE): # We do not forward this as an exception. # The client is supposed to check the error bits. # Just continue as usual. pass else: # This is a serious fault. # Re-raise the exception. raise e try: client.transceiver.send(memReadRequestMsg) except TransferError as e: client.broken = broken = True if broken: self.__removeBrokenClients() def __loadProject(self, project, writeBack): self.__projectFile = None self.__projectWriteBack = False if not project: return if isString(project): if fileExists(project) == False and writeBack: # The project file does not exist. # Create an empty one. printInfo("Creating empty project at '%s'" %\ project) empty = Project(project) empty.toFile() project = Project.fromProjectOrRawAwlFile(project) printDebug("Loading project '%s'" % str(project)) self.__resetAll() for modDesc in project.getHwmodSettings().getLoadedModules(): self.loadHardwareModule(modDesc) self.cpuEnableObTempPresets(project.getObTempPresetsEn()) self.cpuEnableExtendedInsns(project.getExtInsnsEn()) self.cpuSetSpecs(project.getCpuSpecs()) #TODO set cycle time limit #TODO set run time limit for symSrc in project.getSymTabSources(): self.loadSymTabSource(symSrc) for libSel in project.getLibSelections(): self.loadLibraryBlock(libSel) for awlSrc in project.getAwlSources(): self.loadAwlSource(awlSrc) for fupSrc in project.getFupSources(): self.loadFupSource(fupSrc) for kopSrc in project.getKopSources(): self.loadKopSource(kopSrc) self.__projectFile = project.getProjectFile() self.__projectWriteBack = writeBack def startup(self, host, port, family = None, commandMask = 0, handleExceptionServerside = False, handleMaintenanceServerside = False, project = None, projectWriteBack = False): """Start the server on 'host':'port'. family -> Address family. Either None or one of socket.AF_... commanMask -> Mask of allowed commands (CMDMSK_...). handleExceptionServerside -> Flag whether to raise AwlSimError() exceptions on the server only. handleMaintenanceServerside -> Flag whether to raise maintenance request exceptions on the server only. project -> If this is a .awlpro path string or Project(), it uses the data from the specified project as an initial program. projectWriteBack -> If True, all data changes (e.g. source download) be written to the projectFile (if available). This must be called once before run().""" assert(not self.__startupDone) self.__commandMask = commandMask self.__handleExceptionServerside = handleExceptionServerside self.__handleMaintenanceServerside = handleMaintenanceServerside self.__loadProject(project, projectWriteBack) self.__listen(host, port, family) self.__rebuildSelectReadList() self.__nextStats = self.__sim.cpu.now self.__updateCpuCallbacks() self.__startupDone = True self.setRunState(self.STATE_STOP) def run(self): """Run the main server event loop.""" #@cy cdef AwlSim sim # Check whether startup() was called and # the CPU is in a runnable state. assert(self.__startupDone) assert(self.__state in (self.STATE_STOP, self.STATE_RUN, self.STATE_MAINTENANCE)) # Main event loop. while self.__state != self.STATE_EXIT: try: sim = self.__sim if self.__state in {self.STATE_STOP, self.STATE_MAINTENANCE}: while self.__state in {self.STATE_STOP, self.STATE_MAINTENANCE}: self.__sendCpuDump(constrained=False) self.__handleMemReadReqs(constrained=False) self.__handleCommunicationBlocking() continue if self.__state == self.STATE_RUN: while self.__running: sim.runCycle() if self.__haveAnyMemReadReq: self.__handleMemReadReqs() self.__handleCommunication() continue except (AwlSimError, AwlParserError) as e: self.setRunState(self.STATE_STOP) # Schedule a CPU restart/rebuild. self.__needOB10x = True if self.__handleExceptionServerside: # Let the server handle the exception raise e else: # Send the exception to all clients. msg = AwlSimMessage_EXCEPTION(e) for client in self.__clients: try: client.transceiver.send(msg) except TransferError as e: printError("Failed to forward " "exception to client.") client.broken = True self.__removeBrokenClients() except MaintenanceRequest as e: # Put the CPU into maintenance mode. # This will halt the CPU until a client # or the server sets it into RUN or STOP again. self.setRunState(self.STATE_MAINTENANCE) if self.__handleMaintenanceServerside: # Let the server handle the request. raise e else: # Send the maintenance message. with contextlib.suppress(TransferError): if self.__clients: # Forward it to the first client msg = AwlSimMessage_MAINTREQ(e) self.__clients[0].transceiver.send(msg) except TransferError as e: # This should be caught earlier. printError("Uncaught transfer error: " + str(e)) def __listen(self, host, port, family): """Listen on 'host':'port'.""" if family is None or\ family not in {socket.AF_INET, socket.AF_INET6, AF_UNIX}: family = None # autodetect self.close() try: if host: family, socktype, sockaddr = netGetAddrInfo( host, port, family) if family == AF_UNIX: self.__unixSockPath = sockaddr readableSockaddr = sockaddr else: readableSockaddr = "[%s]:%d" % (sockaddr[0], sockaddr[1]) else: if family is None: family = socket.AF_INET if family == AF_UNIX: raise AwlSimError("AwlSimServer: " "AF_UNIX can't be used with 'ANY' host.") assert(family in {socket.AF_INET, socket.AF_INET6}) socktype = socket.SOCK_STREAM sockaddr = ("", # INADDR_ANY port) readableSockaddr = "[all-interfaces-ipv%d]:%d" %\ (4 if family == socket.AF_INET else 6, port) printInfo("Listening on %s..." % readableSockaddr) sock = socket.socket(family, socktype) sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) sock.setblocking(False) sock.bind(sockaddr) sock.listen(5) except SocketErrors as e: raise AwlSimError("AwlSimServer: Failed to create server " "socket: " + str(e)) self.__socket = sock def __accept(self): """Accept a client connection. Returns the Client instance or None.""" if not self.__socket: raise AwlSimError("AwlSimServer: No server socket") try: clientSock, addrInfo = self.__socket.accept() if self.__unixSockPath: peerInfoString = self.__unixSockPath else: peerInfoString = "[%s]:%d" % addrInfo[:2] except SocketErrors as e: transferError = TransferError(None, parentException = e) if transferError.reason == transferError.REASON_BLOCKING: return None raise AwlSimError("AwlSimServer: accept() failed: %s" % str(e)) printInfo("Client '%s' connected" % peerInfoString) client = AwlSimClientInfo(clientSock, peerInfoString) self.__clientAdd(client) return client def __clientAdd(self, client): self.__clients.append(client) self.__sock2client[client.socket] = client self.__rebuildSelectReadList() def __clientRemove(self, client): self.__clients.remove(client) self.__sock2client.pop(client.socket) self.__rebuildSelectReadList() self.__updateCpuCallbacks() self.__updateMemReadReqFlag() def __removeBrokenClients(self): for client in [ c for c in self.__clients if c.broken ]: self.__clientRemove(client) self.__updateMemReadReqFlag() def close(self): """Closes all client sockets and the main socket.""" self.__startupDone = False for client in self.__clients: client.transceiver.shutdown() client.transceiver = None client.socket = None self.__clients = [] if self.__socket: with suppressAllExc: self.__socket.shutdown(socket.SHUT_RDWR) with suppressAllExc: self.__socket.close() self.__socket = None if self.__unixSockPath: with contextlib.suppress(OSError): os.unlink(self.__unixSockPath) self.__unixSockPath = None def shutdown(self): printInfo("Shutting down.") self.close() self.__sim.shutdown() def signalHandler(self, sig, frame): printInfo("Received signal %d" % sig) if sig in (signal.SIGTERM, signal.SIGINT): self.setRunState(self.STATE_EXIT) if __name__ == "__main__": # Run a server process. # Parameters are passed via environment. sys.exit(AwlSimServer._execute())