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#!/usr/bin/env python3
#
# yosys -- Yosys Open SYnthesis Suite
#
# Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
#
# Permission to use, copy, modify, and/or distribute this software for any
# purpose with or without fee is hereby granted, provided that the above
# copyright notice and this permission notice appear in all copies.
#
# THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
# WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
# MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
# ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
# WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
# ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
# OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
#
import os, sys, getopt, re
##yosys-sys-path##
from smtio import smtio, smtopts, mkvcd
skip_steps = 0
step_size = 1
num_steps = 20
vcdfile = None
tempind = False
assume_skipped = None
topmod = None
so = smtopts()
def usage():
print("""
yosys-smtbmc [options] <yosys_smt2_output>
-t <num_steps>, -t <skip_steps>:<num_steps>
default: skip_steps=0, num_steps=20
-u <start_step>
assume asserts in skipped steps in BMC
-S <step_size>
proof <step_size> time steps at once
-c <vcd_filename>
write counter-example to this VCD file
(hint: use 'write_smt2 -wires' for maximum
coverage of signals in generated VCD file)
-i
instead of BMC run temporal induction
-m <module_name>
name of the top module
""" + so.helpmsg())
sys.exit(1)
try:
opts, args = getopt.getopt(sys.argv[1:], so.optstr + "t:u:S:c:im:")
except:
usage()
for o, a in opts:
if o == "-t":
match = re.match(r"(\d+):(.*)", a)
if match:
skip_steps = int(match.group(1))
num_steps = int(match.group(2))
else:
num_steps = int(a)
elif o == "-u":
assume_skipped = int(a)
elif o == "-S":
step_size = int(a)
elif o == "-c":
vcdfile = a
elif o == "-i":
tempind = True
elif o == "-m":
topmod = a
elif so.handle(o, a):
pass
else:
usage()
if len(args) != 1:
usage()
smt = smtio(opts=so)
print("%s Solver: %s" % (smt.timestamp(), so.solver))
smt.setup("QF_AUFBV")
debug_nets = set()
debug_nets_re = re.compile(r"^; yosys-smt2-(input|output|register|wire) (\S+) (\d+)")
with open(args[0], "r") as f:
for line in f:
match = debug_nets_re.match(line)
if match:
debug_nets.add(match.group(2))
if line.startswith("; yosys-smt2-module") and topmod is None:
topmod = line.split()[2]
smt.write(line)
assert topmod is not None
def write_vcd_model(steps):
print("%s Writing model to VCD file." % smt.timestamp())
vcd = mkvcd(open(vcdfile, "w"))
for netname in sorted(debug_nets):
width = len(smt.get_net_bin(topmod, netname, "s0"))
vcd.add_net(netname, width)
for i in range(steps):
vcd.set_time(i)
for netname in debug_nets:
vcd.set_net(netname, smt.get_net_bin(topmod, netname, "s%d" % i))
vcd.set_time(steps)
if tempind:
retstatus = False
skip_counter = step_size
for step in range(num_steps, -1, -1):
smt.write("(declare-fun s%d () %s_s)" % (step, topmod))
smt.write("(assert (%s_u s%d))" % (topmod, step))
if step == num_steps:
smt.write("(assert (not (%s_a s%d)))" % (topmod, step))
else:
smt.write("(assert (%s_t s%d s%d))" % (topmod, step, step+1))
smt.write("(assert (%s_a s%d))" % (topmod, step))
if step > num_steps-skip_steps:
print("%s Skipping induction in step %d.." % (smt.timestamp(), step))
continue
skip_counter += 1
if skip_counter < step_size:
print("%s Skipping induction in step %d.." % (smt.timestamp(), step))
continue
skip_counter = 0
print("%s Trying induction in step %d.." % (smt.timestamp(), step))
if smt.check_sat() == "sat":
if step == 0:
print("%s Temporal induction failed!" % smt.timestamp())
if vcdfile is not None:
write_vcd_model(num_steps+1)
else:
print("%s Temporal induction successful." % smt.timestamp())
retstatus = True
break
else: # not tempind
step = 0
retstatus = True
while step < num_steps:
smt.write("(declare-fun s%d () %s_s)" % (step, topmod))
smt.write("(assert (%s_u s%d))" % (topmod, step))
if step == 0:
smt.write("(assert (%s_i s0))" % (topmod))
else:
smt.write("(assert (%s_t s%d s%d))" % (topmod, step-1, step))
if step < skip_steps:
if assume_skipped is not None and step >= assume_skipped:
print("%s Skipping step %d (and assuming pass).." % (smt.timestamp(), step))
smt.write("(assert (%s_a s%d))" % (topmod, step))
else:
print("%s Skipping step %d.." % (smt.timestamp(), step))
step += 1
continue
last_check_step = step
for i in range(1, step_size):
if step+i < num_steps:
smt.write("(declare-fun s%d () %s_s)" % (step+i, topmod))
smt.write("(assert (%s_u s%d))" % (topmod, step+i))
smt.write("(assert (%s_t s%d s%d))" % (topmod, step+i-1, step+i))
last_check_step = step+i
if last_check_step == step:
print("%s Checking asserts in step %d.." % (smt.timestamp(), step))
else:
print("%s Checking asserts in steps %d to %d.." % (smt.timestamp(), step, last_check_step))
smt.write("(push 1)")
smt.write("(assert (not (and %s)))" % " ".join(["(%s_a s%d)" % (topmod, i) for i in range(step, last_check_step+1)]))
if smt.check_sat() == "sat":
print("%s BMC failed!" % smt.timestamp())
if vcdfile is not None:
write_vcd_model(step+step_size)
retstatus = False
break
else: # unsat
smt.write("(pop 1)")
for i in range(step, last_check_step+1):
smt.write("(assert (%s_a s%d))" % (topmod, i))
step += step_size
smt.write("(exit)")
smt.wait()
print("%s Status: %s" % (smt.timestamp(), "PASSED" if retstatus else "FAILED (!)"))
sys.exit(0 if retstatus else 1)
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