klipper-dgus/scripts/avrsim.py

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#!/usr/bin/env python2
# Script to interact with simulavr by simulating a serial port.
#
# Copyright (C) 2015 Kevin O'Connor <kevin@koconnor.net>
#
# This file may be distributed under the terms of the GNU GPLv3 license.
import sys, optparse, time, os, pty, fcntl, termios, errno
import pysimulavr
SERIALBITS = 10 # 8N1 = 1 start, 8 data, 1 stop
SIMULAVR_FREQ = 10**9
# Class to read serial data from AVR serial transmit pin.
class SerialRxPin(pysimulavr.PySimulationMember, pysimulavr.Pin):
def __init__(self, baud, terminal):
pysimulavr.Pin.__init__(self)
pysimulavr.PySimulationMember.__init__(self)
self.terminal = terminal
self.sc = pysimulavr.SystemClock.Instance()
self.delay = SIMULAVR_FREQ / baud
self.current = 0
self.pos = -1
def SetInState(self, pin):
pysimulavr.Pin.SetInState(self, pin)
self.state = pin.outState
if self.pos < 0 and pin.outState == pin.LOW:
self.pos = 0
self.sc.Add(self)
def DoStep(self, trueHwStep):
ishigh = self.state == self.HIGH
self.current |= ishigh << self.pos
self.pos += 1
if self.pos == 1:
return int(self.delay * 1.5)
if self.pos >= SERIALBITS:
data = chr((self.current >> 1) & 0xff)
self.terminal.write(data)
self.pos = -1
self.current = 0
return -1
return self.delay
# Class to send serial data to AVR serial receive pin.
class SerialTxPin(pysimulavr.PySimulationMember, pysimulavr.Pin):
def __init__(self, baud, terminal):
pysimulavr.Pin.__init__(self)
pysimulavr.PySimulationMember.__init__(self)
self.terminal = terminal
self.SetPin('H')
self.sc = pysimulavr.SystemClock.Instance()
self.delay = SIMULAVR_FREQ / baud
self.current = 0
self.pos = 0
self.queue = ""
self.sc.Add(self)
def DoStep(self, trueHwStep):
if not self.pos:
if not self.queue:
data = self.terminal.read()
if not data:
return self.delay * 100
self.queue += data
self.current = (ord(self.queue[0]) << 1) | 0x200
self.queue = self.queue[1:]
newstate = 'L'
if self.current & (1 << self.pos):
newstate = 'H'
self.SetPin(newstate)
self.pos += 1
if self.pos >= SERIALBITS:
self.pos = 0
return self.delay
# Support for creating VCD trace files
class Tracing:
def __init__(self, filename, signals):
self.filename = filename
self.signals = signals
if not signals:
self.dman = None
return
self.dman = pysimulavr.DumpManager.Instance()
self.dman.SetSingleDeviceApp()
def show_help(self):
ostr = pysimulavr.ostringstream()
self.dman.save(ostr)
sys.stdout.write(ostr.str())
sys.exit(1)
def load_options(self):
if self.dman is None:
return
if self.signals.strip() == '?':
self.show_help()
sigs = "\n".join(["+ " + s for s in self.signals.split(',')])
self.dman.addDumpVCD(self.filename, sigs, "ns", False, False)
def start(self):
if self.dman is not None:
self.dman.start()
def finish(self):
if self.dman is not None:
self.dman.stopApplication()
# Pace the simulation scaled to real time
class Pacing(pysimulavr.PySimulationMember):
def __init__(self, rate):
pysimulavr.PySimulationMember.__init__(self)
self.sc = pysimulavr.SystemClock.Instance()
self.pacing_rate = 1. / (rate * SIMULAVR_FREQ)
self.rel_time = self.next_rel_time = time.time()
self.rel_clock = self.next_rel_clock = self.sc.GetCurrentTime()
self.delay = SIMULAVR_FREQ / 10000
self.sc.Add(self)
def DoStep(self, trueHwStep):
curtime = time.time()
clock = self.sc.GetCurrentTime()
clock_diff = clock - self.rel_clock
time_diff = curtime - self.rel_time
offset = clock_diff * self.pacing_rate - time_diff
if offset > 0.000050:
time.sleep(offset)
if clock_diff > self.delay * 20:
self.rel_clock = self.next_rel_clock
self.rel_time = self.next_rel_time
self.next_rel_clock = clock
self.next_rel_time = curtime
return self.delay
# Forward data from a terminal device to the serial port pins
class TerminalIO:
def __init__(self):
self.fd = -1
def run(self, fd):
self.fd = fd
def write(self, data):
os.write(self.fd, data)
def read(self):
try:
return os.read(self.fd, 64)
except os.error, e:
if e.errno not in (errno.EAGAIN, errno.EWOULDBLOCK):
pysimulavr.SystemClock.Instance().stop()
return ""
# Support for creating a pseudo-tty for emulating a serial port
def create_pty(ptyname):
mfd, sfd = pty.openpty()
try:
os.unlink(ptyname)
except os.error:
pass
os.symlink(os.ttyname(sfd), ptyname)
fcntl.fcntl(mfd, fcntl.F_SETFL
, fcntl.fcntl(mfd, fcntl.F_GETFL) | os.O_NONBLOCK)
old = termios.tcgetattr(mfd)
old[3] = old[3] & ~termios.ECHO
termios.tcsetattr(mfd, termios.TCSADRAIN, old)
return mfd
def main():
usage = "%prog [options] <program.elf>"
opts = optparse.OptionParser(usage)
opts.add_option("-m", "--machine", type="string", dest="machine",
default="atmega644", help="type of AVR machine to simulate")
opts.add_option("-s", "--speed", type="int", dest="speed", default=8000000,
help="machine speed")
opts.add_option("-r", "--rate", type="float", dest="pacing_rate", default=0.,
help="real-time pacing rate")
opts.add_option("-b", "--baud", type="int", dest="baud", default=38400,
help="baud rate of the emulated serial port")
opts.add_option("-t", "--trace", type="string", dest="trace",
help="signals to trace (? for help)")
opts.add_option("-p", "--port", type="string", dest="port",
default="/tmp/pseudoserial",
help="pseudo-tty device to create for serial port")
deffile = os.path.splitext(os.path.basename(sys.argv[0]))[0] + ".vcd"
opts.add_option("-f", "--tracefile", type="string", dest="tracefile",
default=deffile, help="filename to write signal trace to")
options, args = opts.parse_args()
if len(args) != 1:
opts.error("Incorrect number of arguments")
elffile = args[0]
proc = options.machine
ptyname = options.port
speed = options.speed
baud = options.baud
# launch simulator
sc = pysimulavr.SystemClock.Instance()
trace = Tracing(options.tracefile, options.trace)
dev = pysimulavr.AvrFactory.instance().makeDevice(proc)
dev.Load(elffile)
dev.SetClockFreq(SIMULAVR_FREQ / speed)
sc.Add(dev)
pysimulavr.cvar.sysConHandler.SetUseExit(False)
trace.load_options()
# Do optional real-time pacing
if options.pacing_rate:
pacing = Pacing(options.pacing_rate)
# Setup terminal
io = TerminalIO()
# Setup rx pin
rxpin = SerialRxPin(baud, io)
net = pysimulavr.Net()
net.Add(rxpin)
net.Add(dev.GetPin("D1"))
# Setup tx pin
txpin = SerialTxPin(baud, io)
net2 = pysimulavr.Net()
net2.Add(dev.GetPin("D0"))
net2.Add(txpin)
# Display start banner
msg = "Starting AVR simulation: machine=%s speed=%d\n" % (proc, speed)
msg += "Serial: port=%s baud=%d\n" % (ptyname, baud)
if options.trace:
msg += "Trace file: %s\n" % (options.tracefile,)
sys.stdout.write(msg)
sys.stdout.flush()
# Create terminal device
fd = create_pty(ptyname)
# Run loop
try:
io.run(fd)
trace.start()
sc.RunTimeRange(0x7fff0000ffff0000)
trace.finish()
finally:
os.unlink(ptyname)
if __name__ == '__main__':
main()