# -*- coding: utf-8 -*- # # AWL simulator - PyProfibus hardware interface # # Copyright 2013-2014 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.core.hardware import * from awlsim.core.util import * class HardwareInterface(AbstractHardwareInterface): name = "PyProfibus" # Hardware-specific parameters paramDescs = [ HwParamDesc_int("debug", minValue = 0, description = "Debug level."), HwParamDesc_int("baud", defaultValue = 19200, minValue = 9600, maxValue = 12000000, description = "The PROFIBUS baud rate."), HwParamDesc_int("masterClass", defaultValue = 1, minValue = 1, maxValue = 2, description = "The DP-Master class."), HwParamDesc_int("masterAddr", defaultValue = 1, minValue = 0, maxValue = 126, description = "The DP-Address of the master."), HwParamDesc_int("spiDev", minValue = 0, description = "The SPI device number."), HwParamDesc_int("spiChip", minValue = 0, description = "The SPI device chip-select number."), ] def __init__(self, sim, parameters={}): AbstractHardwareInterface.__init__(self, sim = sim, parameters = parameters) def __setupSlaves(self): #TODO: Rewrite. Must be configurable. et200s = self.pyprofibus.DpSlaveDesc(identNumber = 0x806A, slaveAddr = 8, inputAddressRangeSize = 1, outputAddressRangeSize = 2) for elem in (self.pyprofibus.DpCfgDataElement(0), self.pyprofibus.DpCfgDataElement(0x20), self.pyprofibus.DpCfgDataElement(0x20), self.pyprofibus.DpCfgDataElement(0x10)): et200s.chkCfgTelegram.addCfgDataElement(elem) et200s.setPrmTelegram.addUserPrmData([0x11 | 0x40]) et200s.setSyncMode(True) et200s.setFreezeMode(True) et200s.setGroupMask(1) et200s.setWatchdog(5000) self.master.addSlave(et200s) def __cleanup(self): if self.master: self.master.destroy() self.master = None self.phy = None self.cachedInputs = [] def doStartup(self): # Import the PROFIBUS hardware access modules # and keep references to it. try: import pyprofibus self.pyprofibus = pyprofibus except (ImportError, RuntimeError) as e: self.raiseException("Failed to import PROFIBUS protocol stack " "module 'pyprofibus':\n%s" % str(e)) # Initialize the DPM self.phy = None self.master = None try: self.phy = self.pyprofibus.CpPhy(device = self.getParamValueByName("spiDev"), chipselect = self.getParamValueByName("spiChip"), debug = True if (self.getParamValueByName("debug") >= 2) else False) self.phy.profibusSetPhyConfig(baudrate = self.getParamValueByName("baud")) if self.getParamValueByName("masterClass") == 1: DPM_cls = self.pyprofibus.DPM1 else: DPM_cls = self.pyprofibus.DPM2 self.master = DPM_cls(phy = self.phy, masterAddr = self.getParamValueByName("masterAddr"), debug = True if (self.getParamValueByName("debug") >= 1) else False) self.__setupSlaves() self.master.initialize() self.slaveList = self.master.getSlaveList() self.cachedInputs = [None] * len(self.slaveList) except self.pyprofibus.PhyError as e: self.raiseException("Profibus-PHY error: %s" % str(e)) self.__cleanup() except self.pyprofibus.DpError as e: self.raiseException("Profibus-DP error: %s" % str(e)) self.__cleanup() except self.pyprofibus.FdlError as e: self.raiseException("Profibus-FDL error: %s" % str(e)) self.__cleanup() def doShutdown(self): self.__cleanup() def readInputs(self): address = self.inputAddressBase for slave in self.slaveList: # Get the cached slave-data inData = self.cachedInputs.pop(0) if not inData: continue if len(inData) != slave.inputAddressRangeSize: self.raiseException("Input data from slave '%s' has " "invalid length %d (expected %d)" %\ (str(slave), len(inData), slave.inputAddressRangeSize)) self.sim.cpu.storeInputRange(address, inData) # Adjust the address base for the next slave. address += slave.inputAddressRangeSize assert(not self.cachedInputs) def writeOutputs(self): try: address = self.outputAddressBase for slave in self.slaveList: # Get the output data from the CPU outData = self.sim.cpu.fetchOutputRange(address, slave.outputAddressRangeSize) # Send it to the slave and request the input data. inData = self.master.dataExchange(slave.slaveAddr, outData) # Cache the input data for the readInputs() call. self.cachedInputs.append(inData) # Adjust the address base for the next slave. address += slave.outputAddressRangeSize except self.pyprofibus.ProfibusError as e: self.raiseException("Hardware error: %s" % str(e)) def directReadInput(self, accessWidth, accessOffset): return None#TODO def directWriteOutput(self, accessWidth, accessOffset, data): return False#TODO