def generate_input_generator(self, defs):
defs['create_input'] = zcc_parser.generate_create_input()
t = Template(file=VERIFIER_INP_GEN_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_H,
t.__str__())
t = Template(file=VERIFIER_INP_GEN_CC_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_IMPL,
t.__str__())
def generate_input_generator(self, defs): defs['create_input'] = zcc_parser.generate_create_input() t = Template(file=VERIFIER_INP_GEN_H_TMPL, searchList=[defs]) self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_H, t.__str__()) t = Template(file=VERIFIER_INP_GEN_CC_TMPL, searchList=[defs]) self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_IMPL, t.__str__())
def generate_code_from_template(self, spec):
text = zcc_parser.read_file(spec)
zcc_parser.parse_text(text)
computation_name = os.path.splitext(os.path.split(spec)[1])[0]
OUTPUT_PREFIX = re.sub(r'/',r'_',self.output_prefix).upper()
defs = {}
defs['computation_name'] = computation_name
defs['computation_classname'] = self.class_name
defs['OUTPUT_PREFIX'] = OUTPUT_PREFIX
defs['output_prefix'] = self.output_prefix
(defs['num_io_vars'], defs['num_z_vars'], defs['computation_worksheet']) = zcc_parser.generate_computation_worksheet(text) #leads to variable creation
if (self.worksheetMode):
defs['computation'] = zcc_parser.generate_computation_dynamic("bin/" + self.class_name + PROVER_WORKSHEET)
else:
defs['computation'] = zcc_parser.generate_computation_static(text)
#number of variables, number of basic constraints (chi) fixed from this point onwards
t = Template(file=PROVER_WORKSHEET_TMPL, searchList=[defs])
self.write_to_file("bin/" + self.class_name + PROVER_WORKSHEET, t.__str__())
#Generate the variable shuffling
(defs['F1_index'], shuffledIndices) = zcc_parser.generate_F1_index()
t = Template(file=F1_INDEX_TMPL, searchList=[defs])
self.write_to_file("bin/" + self.class_name+F1_INDEX, t.__str__())
if (self.framework=="GINGER"):
defs['NzA'] = "n/a"
defs['NzB'] = "n/a"
defs['NzC'] = "n/a"
else:
qap_file_name = os.path.join(self.output_dir, "bin/" + self.class_name + QAP);
(defs['NzA'], defs['NzB'], defs['NzC'], defs['num_constraints']) = zcc_parser.generate_zaatar_matrices(text, shuffledIndices, qap_file_name)
#Write the prover
if (self.framework=="GINGER"):
t = Template(file=PROVER_GINGER_H_TMPL, searchList=[defs])
else:
t = Template(file=PROVER_ZAATAR_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + PROVER_H, t.__str__())
if (self.framework=="GINGER"):
defs['gamma12_file_name'] = "bin/" + self.class_name + GAMMA12;
t = Template(file=PROVER_GINGER_CC_TMPL, searchList=[defs])
else:
t = Template(file=PROVER_ZAATAR_CC_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + PROVER_IMPL, t.__str__())
#Write the constants file
defs['constants'] = zcc_parser.generate_constants(zcc_parser.read_file(spec+".cons"))
t = Template(file=CONSTANTS_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + CONSTANTS_H, t.__str__())
protectedFiles = {(PROVER_EXO_HW_H, PROVER_EXO_HW_H_TMPL),
(PROVER_EXO_HW_IMPL, PROVER_EXO_HW_CC_TMPL),
(VERIFIER_INP_GEN_HW_H, VERIFIER_INP_GEN_HW_H_TMPL),
(VERIFIER_INP_GEN_HW_IMPL, VERIFIER_INP_GEN_HW_CC_TMPL)}
for (targetfile, tmplfile) in protectedFiles:
filename = "apps_sfdl_hw/" + self.class_name + targetfile;
try:
filename_ = os.path.join(self.output_dir, filename)
with file(filename_, 'r'):
os.utime(filename_, None) # Touch it if it exists
except IOError as e:
#The file doesn't exist, create it:
t = Template(file=tmplfile, searchList=[defs])
self.write_to_file(filename, t.__str__())
#Create the input generator
defs['create_input'] = zcc_parser.generate_create_input(text)
t = Template(file=VERIFIER_INP_GEN_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_H, t.__str__())
t = Template(file=VERIFIER_INP_GEN_CC_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_IMPL, t.__str__())
# Produce the verifier code (ginger) or A,B,C matrices (Zaatar) and drivers
if (self.framework=="GINGER"):
self.write_ginger(defs, text)
else:
self.write_zaatar(defs, text)
def generate_code_from_template(self, spec):
text = zcc_parser.read_file(spec)
zcc_parser.parse_text(text)
computation_name = os.path.splitext(os.path.split(spec)[1])[0]
OUTPUT_PREFIX = re.sub(r'/', r'_', self.output_prefix).upper()
defs = {}
defs['computation_name'] = computation_name
defs['computation_classname'] = self.class_name
defs['OUTPUT_PREFIX'] = OUTPUT_PREFIX
defs['output_prefix'] = self.output_prefix
(defs['num_io_vars'], defs['num_z_vars'], defs['computation_worksheet']
) = zcc_parser.generate_computation_worksheet(
text) #leads to variable creation
if (self.worksheetMode):
defs['computation'] = zcc_parser.generate_computation_dynamic(
"bin/" + self.class_name + PROVER_WORKSHEET)
else:
defs['computation'] = zcc_parser.generate_computation_static(text)
#number of variables, number of basic constraints (chi) fixed from this point onwards
t = Template(file=PROVER_WORKSHEET_TMPL, searchList=[defs])
self.write_to_file("bin/" + self.class_name + PROVER_WORKSHEET,
t.__str__())
#Generate the variable shuffling
(defs['F1_index'], shuffledIndices) = zcc_parser.generate_F1_index()
t = Template(file=F1_INDEX_TMPL, searchList=[defs])
self.write_to_file("bin/" + self.class_name + F1_INDEX, t.__str__())
if (self.framework == "GINGER"):
defs['NzA'] = "n/a"
defs['NzB'] = "n/a"
defs['NzC'] = "n/a"
else:
qap_file_name = os.path.join(self.output_dir,
"bin/" + self.class_name + QAP)
(defs['NzA'], defs['NzB'], defs['NzC'],
defs['num_constraints']) = zcc_parser.generate_zaatar_matrices(
text, shuffledIndices, qap_file_name)
#Write the prover
if (self.framework == "GINGER"):
t = Template(file=PROVER_GINGER_H_TMPL, searchList=[defs])
else:
t = Template(file=PROVER_ZAATAR_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + PROVER_H, t.__str__())
if (self.framework == "GINGER"):
defs['gamma12_file_name'] = "bin/" + self.class_name + GAMMA12
t = Template(file=PROVER_GINGER_CC_TMPL, searchList=[defs])
else:
t = Template(file=PROVER_ZAATAR_CC_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + PROVER_IMPL, t.__str__())
#Write the constants file
defs['constants'] = zcc_parser.generate_constants(
zcc_parser.read_file(spec + ".cons"))
t = Template(file=CONSTANTS_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + CONSTANTS_H, t.__str__())
protectedFiles = {(PROVER_EXO_HW_H, PROVER_EXO_HW_H_TMPL),
(PROVER_EXO_HW_IMPL, PROVER_EXO_HW_CC_TMPL),
(VERIFIER_INP_GEN_HW_H, VERIFIER_INP_GEN_HW_H_TMPL),
(VERIFIER_INP_GEN_HW_IMPL,
VERIFIER_INP_GEN_HW_CC_TMPL)}
for (targetfile, tmplfile) in protectedFiles:
filename = "apps_sfdl_hw/" + self.class_name + targetfile
try:
filename_ = os.path.join(self.output_dir, filename)
with file(filename_, 'r'):
os.utime(filename_, None) # Touch it if it exists
except IOError as e:
#The file doesn't exist, create it:
t = Template(file=tmplfile, searchList=[defs])
self.write_to_file(filename, t.__str__())
#Create the input generator
defs['create_input'] = zcc_parser.generate_create_input(text)
t = Template(file=VERIFIER_INP_GEN_H_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_H,
t.__str__())
t = Template(file=VERIFIER_INP_GEN_CC_TMPL, searchList=[defs])
self.write_to_file(self.output_prefix + VERIFIER_INP_GEN_IMPL,
t.__str__())
# Produce the verifier code (ginger) or A,B,C matrices (Zaatar) and drivers
if (self.framework == "GINGER"):
self.write_ginger(defs, text)
else:
self.write_zaatar(defs, text)