reg_list = inst_test_suite.get_registers()
# Fixes the bytestring issue in unicorn for the test genration
int_list = inst_test_suite.get_bytestr()
bytecode = bytearray(int_list)
# Unicorn output file
unicorn_output_file_name = inst_test_suite.get_hexstring()
op_fileptr = open(output_dir + unicorn_output_file_name, "w")
bitstring = inst_test_suite.get_pvs_bitstring()
hexstring = unicorn_output_file_name
# Add more info to the file for repeating the test case using the bitstring, hexstring , int_list combination
op_fileptr.write("input_bitstring=" + bitstring + "\n")
op_fileptr.write("input_hexstring=" + hexstring + "\n")
op_fileptr.write("reg_list=" + str(reg_list) + "\n")
op_fileptr.write("int_list=" + str(int_list) + "\n")
# Run the instruction
mtest.test_arm64(bytes(bytecode), op_fileptr, reg_list, item)
# Code for generating the pvs lemma file from the unicorn output file
pvs_lemma_filename = inst_name + "_" + unicorn_output_file_name
pvs_lemma_filename = pvs_lemma_filename.upper()
pg = pvs_lemma_generator(pvs_lemma_filename)
# This sets the name of the inout file for pvs lemma generator to the output file generated by unicorn
pg.set_name_inputfile(unicorn_output_file_name)
pg.parse_unicorn_output_file()
pg.generate_pvs_lemma_file()
print "Generating " + pvs_lemma_filename + ".pvs"
generate_pvs = tc.test_concrete(bitstring, hexstring)
# print "Generating the test_concrete file for the instruction"
# generate_pvs.extract_inst_class()
# generate_pvs.extract_theory_parameters()
# inst_imm.view_fields()
# generate_pvs.generate_pvs_code()
reg_list = inst_test_suite.get_registers()
# Fixes the bytestring issue in unicorn for the test genration
int_list = inst_test_suite.get_bytestr()
bytecode = bytearray(int_list)
# Unicorn output file
unicorn_output_file_name = inst_test_suite.get_hexstring()
op_fileptr = open(output_dir + unicorn_output_file_name, "w")
bitstring = inst_test_suite.get_pvs_bitstring()
hexstring = unicorn_output_file_name
# Add more info to the file for repeating the test case using the bitstring, hexstring , int_list combination
op_fileptr.write("input_bitstring=" + bitstring + "\n")
op_fileptr.write("input_hexstring=" + hexstring + "\n")
op_fileptr.write("reg_list=" + str(reg_list) + "\n")
op_fileptr.write("int_list=" + str(int_list) + "\n")
# Run the instruction
post_state = mtest.test_arm64(bytes(bytecode), op_fileptr, reg_list,
bitstring)
# Code for generating the pvs lemma file from the unicorn output file
pvs_lemma_filename = inst_name + "_" + unicorn_output_file_name
pvs_lemma_filename = pvs_lemma_filename.upper()
pg = pvs_lemma_generator(pvs_lemma_filename)
# This sets the name of the inout file for pvs lemma generator to the output file generated by unicorn
pg.set_name_inputfile(unicorn_output_file_name)
pg.parse_unicorn_output_file()
pg.generate_pvs_lemma_file(post_state)
print "Generating " + pvs_lemma_filename + ".pvs"
generate_pvs = tc.test_concrete(bitstring, hexstring)
##############################################################
## Decoupling the concrete file generation logic from the test_lemma generator
reg_list = inst_test_suite.get_registers()
# Fixes the bytestring issue in unicorn for the test genration
int_list = inst_test_suite.get_bytestr()
bytecode = bytearray(int_list)
# Unicorn output file
unicorn_output_file_name = inst_test_suite.get_hexstring()
op_fileptr = open(output_dir + unicorn_output_file_name, "w")
bitstring = inst_test_suite.get_pvs_bitstring()
hexstring = unicorn_output_file_name
# Add more info to the file for repeating the test case using the bitstring, hexstring , int_list combination
op_fileptr.write("input_bitstring=" + bitstring + "\n")
op_fileptr.write("input_hexstring=" + hexstring + "\n")
op_fileptr.write("reg_list=" + str(reg_list) + "\n")
op_fileptr.write("int_list=" + str(int_list) + "\n")
# Run the instruction
post_state, final_address = mtest.test_arm64(bytes(bytecode), op_fileptr, reg_list, bitstring)
# Code for generating the pvs lemma file from the unicorn output file
pvs_lemma_filename = inst_name + "_" + unicorn_output_file_name
pvs_lemma_filename = pvs_lemma_filename.upper()
pg = pvs_lemma_generator(pvs_lemma_filename)
# This sets the name of the inout file for pvs lemma generator to the output file generated by unicorn
pg.set_name_inputfile(unicorn_output_file_name)
pg.parse_unicorn_output_file()
pg.generate_pvs_lemma_file(post_state, final_address)
print "Generating " + pvs_lemma_filename + ".pvs"
generate_pvs = tc.test_concrete(bitstring, hexstring)
##############################################################
## Decoupling the concrete file generation logic from the test_lemma generator
