def test_load_data_after_init():
code = """\
func main():
ret
end
"""
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout='plain')
runner.initialize_segments()
runner.initialize_main_entrypoint()
runner.initialize_vm({})
addr = runner.segments.add()
runner.load_data(addr, [42])
assert runner.vm_memory[addr] == 42
def verify_secure_runner(runner: CairoRunner, verify_builtins=True):
"""
Verifies the complete run in runner is safe to relocate and run by another Cairo program.
Checks that:
* No access to pure addresses (The entire run must be relocatable).
* All segment offsets are non negative.
* All segment accesses are continuous.
* No access to builtin segments beyond the allowed region. This region is defined
by the start ptr (0), and the ptr returned in final stack.
* No access to program segment beyond program data.
Note: There is no need to check that builtin segment accesses are continuous. They will be
accessed continuously in the builtin itself.
"""
builtin_segments = runner.get_builtin_segments_info(
) if verify_builtins else {}
builtin_segment_names = {
seg.index: name
for name, seg in builtin_segments.items()
}
builtin_segment_sizes = {
seg.index: seg.size
for seg in builtin_segments.values()
}
segment_usage = defaultdict(set)
for addr in runner.vm_memory:
# Check pure addresses.
if not isinstance(addr, RelocatableValue):
raise SecurityError(f'Accessed address {addr} is not relocatable.')
# Check non negative offset.
if addr.offset < 0:
raise SecurityError(
f'Accessed address {addr} has negative offset.')
# Check builtin segment out of bounds.
if addr.segment_index in builtin_segment_sizes:
if not addr.offset < builtin_segment_sizes[addr.segment_index]:
raise SecurityError(
'Out of bounds access to builtin segment '
f'{builtin_segment_names[addr.segment_index]} at {addr}.')
# Check out of bounds for program segment.
if addr.segment_index == runner.program_base.segment_index:
if not addr.offset < len(runner.program.data):
raise SecurityError(
f'Out of bounds access to program segment at {addr}.')
# Check usage.
segment_usage[addr.segment_index].add(addr.offset)
# Check continuity.
for segment_index, usage in segment_usage.items():
if len(usage) != max(usage) + 1:
# Find the non continuity for error message.
i = 0
while i in usage:
i += 1
raise SecurityError(
f'Non continuous segment {segment_index} at offset {i}.')
def test_select_input_builtins(builtin_selection_indicators):
"""
Tests the select_input_builtins Cairo function: calls the function with different builtins
selection and checks that the function returns the expected builtin pointers.
"""
# Setup runner.
cairo_file = os.path.join(os.path.dirname(__file__),
'select_input_builtins.cairo')
runner = CairoRunner.from_file(cairo_file, DEFAULT_PRIME)
runner.initialize_segments()
output_base = runner.segments.add()
hash_base = runner.segments.add()
range_check_base = runner.segments.add()
signature_base = runner.segments.add()
# Setup function.
builtins_encoding = {
builtin: int.from_bytes(builtin.encode('ascii'), 'big')
for builtin in ['output', 'pedersen', 'range_check', 'ecdsa']
}
all_builtins = [output_base, hash_base, range_check_base, signature_base]
selected_builtin_encodings = [
builtin_encoding for builtin_encoding, is_builtin_selected in zip(
builtins_encoding.values(), builtin_selection_indicators)
if is_builtin_selected
]
selected_builtins = [
builtin for builtin, is_builtin_selected in zip(
all_builtins, builtin_selection_indicators) if is_builtin_selected
]
all_encodings = create_memory_struct(runner, builtins_encoding.values())
selected_encodings = create_memory_struct(runner,
selected_builtin_encodings)
all_ptrs = create_memory_struct(runner, all_builtins)
n_builtins = len(selected_builtin_encodings)
args = [all_encodings, all_ptrs, selected_encodings, n_builtins]
end = runner.initialize_function_entrypoint('select_input_builtins', args)
# Setup context.
runner.initialize_vm(hint_locals={})
runner.run_until_pc(end)
runner.end_run()
# Check result.
context = runner.vm.run_context
# 'select_input_builtins' should return the pointers to the selected builtins.
return_values_addr = context.ap - n_builtins
assert [
context.memory[return_values_addr + i] for i in range(len(selected_builtins))] == \
selected_builtins
def test_builtin_list():
# This should work.
program = compile_cairo(
code=[('%builtins output pedersen range_check ecdsa\n', '')], prime=PRIME)
CairoRunner(program, layout='small')
# These should fail.
program = compile_cairo(code=[('%builtins pedersen output\n', '')], prime=PRIME)
with pytest.raises(
AssertionError,
match=r"Expected builtin list \['output', 'pedersen'\] does not match "
r"\['pedersen', 'output'\]."):
CairoRunner(program, layout='small')
program = compile_cairo(code=[('%builtins pedersen foo\n', '')], prime=PRIME)
with pytest.raises(
AssertionError,
match=r'Builtins {\'foo\'} are not present in layout "small"'):
CairoRunner(program, layout='small')
def runner_and_output_runner():
PRIME = 2**251 + 17 * 2**192 + 1
code = """
func main():
ret
end
"""
program = compile_cairo(code=[(code, '')], prime=PRIME, add_start=True)
runner = CairoRunner(program=program, layout='plain', proof_mode=True)
runner.initialize_segments()
output_builtin_runner = runner.builtin_runners[
'output'] = OutputBuiltinRunner(included=True)
output_builtin_runner.initialize_segments(runner=runner)
runner.initialize_main_entrypoint()
runner.initialize_vm(hint_locals={})
return runner, output_builtin_runner, output_builtin_runner.base
def test_run_until_label():
runner = CairoRunner.from_file(CAIRO_FILE, PRIME, proof_mode=True)
runner.initialize_segments()
runner.initialize_main_entrypoint()
runner.initialize_vm({})
# Test runs.
assert runner.vm.run_context.pc - runner.program_base == 0
runner.run_until_label(3)
assert runner.vm.run_context.pc - runner.program_base == 3
assert runner.vm.current_step == 3
runner.run_until_label('label1')
assert runner.vm.run_context.pc - runner.program_base == 6
assert runner.vm.current_step == 6
with pytest.raises(VmException, match='End of program was not reached'):
runner.run_until_label('label0', max_steps=100)
assert runner.vm.run_context.pc - runner.program_base == 8
assert runner.vm.current_step == 106
runner.run_until_next_power_of_2()
assert runner.vm.current_step == 128
def verify_secure_runner(runner: CairoRunner, verify_builtins=True):
"""
Verifies the complete run in runner is safe to relocate and run by another Cairo program.
Checks that:
* No access to pure addresses (The entire run must be relocatable).
* All segment offsets are non negative.
* No access to builtin segments beyond the allowed region. This region is defined
by the start ptr (0), and the ptr returned in final stack.
* No access to program segment beyond program data.
Note: The continuity of builtin segments is checked in builtin specific checks.
"""
builtin_segments = runner.get_builtin_segments_info() if verify_builtins else {}
builtin_segment_names = {seg.index: name for name, seg in builtin_segments.items()}
builtin_segment_sizes = {seg.index: seg.size for seg in builtin_segments.values()}
for addr in runner.vm_memory:
# Check pure addresses.
if not isinstance(addr, RelocatableValue):
raise SecurityError(f'Accessed address {addr} is not relocatable.')
# Check non negative offset.
if addr.offset < 0:
raise SecurityError(f'Accessed address {addr} has negative offset.')
# Check builtin segment out of bounds.
if addr.segment_index in builtin_segment_sizes:
if not addr.offset < builtin_segment_sizes[addr.segment_index]:
raise SecurityError(
'Out of bounds access to builtin segment '
f'{builtin_segment_names[addr.segment_index]} at {addr}.')
# Check out of bounds for program segment.
if addr.segment_index == runner.program_base.segment_index:
if not addr.offset < len(runner.program.data):
raise SecurityError(f'Out of bounds access to program segment at {addr}.')
# Builtin specific checks.
try:
for builtin_runner in runner.builtin_runners.values():
builtin_runner.run_security_checks(runner)
except Exception as exc:
raise SecurityError(str(exc))
def test_validate_builtins(old_builtins, new_builtins, builtin_sizes,
expect_throw):
"""
Tests the inner_validate_builtins_usage Cairo function: calls the function with different
builtins usage and checks that the used builtins list was filled correctly.
"""
# Setup runner.
runner = CairoRunner.from_file(CAIRO_FILE, DEFAULT_PRIME)
assert len(
runner.program.hints) == 0, 'Expecting validator to have no hints.'
range_check_builtin = RangeCheckBuiltinRunner(
included=True,
ratio=None,
inner_rc_bound=2**16,
n_parts=small_instance.builtins['range_check'].n_parts)
runner.builtin_runners['range_check_builtin'] = range_check_builtin
runner.initialize_segments()
# Setup function.
old_builtins_ptr = create_memory_struct(runner, old_builtins)
new_builtins_ptr = create_memory_struct(runner, new_builtins)
builtins_sizes = create_memory_struct(runner, builtin_sizes)
args = [
range_check_builtin.base,
old_builtins_ptr,
new_builtins_ptr,
builtins_sizes,
len(builtin_sizes),
]
end = runner.initialize_function_entrypoint('validate_builtins', args)
# Setup context.
runner.initialize_vm(hint_locals={})
if expect_throw:
with pytest.raises(VmException, match='is out of range'):
runner.run_until_pc(end)
else:
runner.run_until_pc(end)
runner.end_run()
def test_tracer_data():
code = """
%builtins output
func main(output_ptr) -> (output_ptr):
[ap] = 1000; ap++
let x = 2000
[ap] = x; ap++
let x = 5000
let y = [ap]
[ap] = [ap - 2] + [ap - 1]; ap++
assert [output_ptr] = 1234
assert [output_ptr + 1] = 4321
ret
end
"""
program: Program = compile_cairo(code=code, prime=PRIME, debug_info=True)
runner = CairoRunner(program, layout='small')
runner.initialize_segments()
runner.initialize_main_entrypoint()
runner.initialize_vm(hint_locals={})
runner.run_until_steps(steps=6)
runner.end_run()
runner.finalize_segments_by_effective_size()
runner.relocate()
memory = runner.relocated_memory
trace = runner.relocated_trace
tracer_data = TracerData(program=program,
memory=memory,
trace=trace,
program_base=runner.relocate_value(
runner.program_base))
# Test watch evaluator.
watch_evaluator = WatchEvaluator(tracer_data=tracer_data,
entry=tracer_data.trace[0])
with pytest.raises(TypeError, match='NoneType'):
watch_evaluator.eval(None)
assert watch_evaluator.eval_suppress_errors(
'x') == "FlowTrackingError: Invalid reference 'x'."
watch_evaluator = WatchEvaluator(tracer_data=tracer_data,
entry=tracer_data.trace[1])
assert watch_evaluator.eval('x') == '2000'
watch_evaluator = WatchEvaluator(tracer_data=tracer_data,
entry=tracer_data.trace[2])
assert watch_evaluator.eval('[ap]') == '3000'
assert watch_evaluator.eval('[ap-1]') == '2000'
assert watch_evaluator.eval('[ap-2]') == '1000'
assert watch_evaluator.eval('[fp]') == '1000'
assert watch_evaluator.eval('x') == '5000'
# Test memory_accesses.
assert memory[tracer_data.memory_accesses[0]['op1']] == 1000
assert memory[tracer_data.memory_accesses[1]['op1']] == 2000
assert tracer_data.memory_accesses[2]['dst'] == trace[2].ap
assert tracer_data.memory_accesses[2]['op0'] == trace[2].ap - 2
assert tracer_data.memory_accesses[2]['op1'] == trace[2].ap - 1
# Test current identifier values.
assert tracer_data.get_current_identifier_values(trace[0]) == {
'output_ptr': '21'
}
assert tracer_data.get_current_identifier_values(trace[1]) == {
'output_ptr': '21',
'x': '2000'
}
assert tracer_data.get_current_identifier_values(trace[2]) == {
'output_ptr': '21',
'x': '5000',
'y': '3000'
}
# '__temp1' identifier is already available in this step, but should not be returned as its
# value is still unknown.
assert tracer_data.get_current_identifier_values(trace[3]) == \
tracer_data.get_current_identifier_values(trace[4]) == {
'output_ptr': '21', 'x': '5000', 'y': '3000', '__temp0': '1234'}
assert tracer_data.get_current_identifier_values(trace[5]) == {
'output_ptr': '21',
'x': '5000',
'y': '3000',
'__temp0': '1234',
'__temp1': '4321'
}
def cairo_run(args):
trace_file = args.trace_file
if trace_file is None and args.tracer:
# If --tracer is used, use a temporary file as trace_file.
trace_file = tempfile.NamedTemporaryFile(mode='wb')
memory_file = args.memory_file
if memory_file is None and args.tracer:
# If --tracer is used, use a temporary file as memory_file.
memory_file = tempfile.NamedTemporaryFile(mode='wb')
debug_info_file = args.debug_info_file
if debug_info_file is None and args.tracer:
# If --tracer is used, use a temporary file as debug_info_file.
debug_info_file = tempfile.NamedTemporaryFile(mode='w')
ret_code = 0
if args.program is not None:
program: ProgramBase = Program.Schema().load(json.load(args.program))
initial_memory = MemoryDict()
steps_input = args.steps
else:
raise NotImplementedError('--run_from_cairo_pie is not supported.')
runner = CairoRunner(program=program,
layout=args.layout,
memory=initial_memory,
proof_mode=args.proof_mode)
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
if args.run_from_cairo_pie is not None:
# Add extra_segments.
for segment_info in cairo_pie_input.metadata.extra_segments:
runner.segments.add(size=segment_info.size)
program_input = json.load(args.program_input) if args.program_input else {}
runner.initialize_vm(hint_locals={'program_input': program_input})
try:
if args.no_end:
assert args.steps is not None, '--steps must specified when running with --no-end.'
else:
additional_steps = 1 if args.proof_mode else 0
max_steps = steps_input - additional_steps if steps_input is not None else None
runner.run_until_pc(end, max_steps=max_steps)
if args.proof_mode:
# Run one more step to make sure the last pc that was executed (rather than the pc
# after it) is __end__.
runner.run_for_steps(1)
runner.original_steps = runner.vm.current_step
if args.min_steps:
runner.run_until_steps(args.min_steps)
if steps_input is not None:
runner.run_until_steps(steps_input)
elif args.proof_mode:
runner.run_until_next_power_of_2()
while not runner.check_used_cells():
runner.run_for_steps(1)
runner.run_until_next_power_of_2()
runner.end_run()
except (VmException, AssertionError) as exc:
if args.debug_error:
print(f'Got an error:\n{exc}')
ret_code = 1
else:
raise exc
if not args.no_end:
runner.read_return_values()
if args.no_end or not args.proof_mode:
runner.finalize_segments_by_effective_size()
else:
# Finalize important segments by correct size.
runner.finalize_segments()
# Finalize all user segments by effective size.
runner.finalize_segments_by_effective_size()
if args.secure_run:
verify_secure_runner(runner)
if args.cairo_pie_output:
runner.get_cairo_pie().to_file(args.cairo_pie_output)
runner.relocate()
if args.print_memory:
runner.print_memory(relocated=args.relocate_prints)
if args.print_output:
runner.print_output()
if args.print_info:
runner.print_info(relocated=args.relocate_prints)
# Skip builtin usage calculation if the execution stopped before reaching the end symbol.
# Trying to calculate the builtin usage is likely to raise an exception and prevent the user
# from opening the tracer.
if args.proof_mode and not args.no_end:
runner.print_builtin_usage()
if trace_file is not None:
field_bytes = math.ceil(program.prime.bit_length() / 8)
write_binary_trace(trace_file, runner.relocated_trace)
if memory_file is not None:
field_bytes = math.ceil(program.prime.bit_length() / 8)
write_binary_memory(memory_file, runner.relocated_memory, field_bytes)
if args.air_public_input is not None:
rc_min, rc_max = runner.get_perm_range_check_limits()
write_air_public_input(
layout=args.layout,
public_input_file=args.air_public_input,
memory=runner.relocated_memory,
public_memory_addresses=runner.segments.
get_public_memory_addresses(runner.segment_offsets),
memory_segment_addresses=runner.get_memory_segment_addresses(),
trace=runner.relocated_trace,
rc_min=rc_min,
rc_max=rc_max)
if args.air_private_input is not None:
assert args.trace_file is not None, \
'--trace_file must be set when --air_private_input is set.'
assert args.memory_file is not None, \
'--memory_file must be set when --air_private_input is set.'
json.dump(
{
'trace_path': f'{os.path.abspath(trace_file.name)}',
'memory_path': f'{os.path.abspath(memory_file.name)}',
**runner.get_air_private_input(),
},
args.air_private_input,
indent=4)
print(file=args.air_private_input)
args.air_private_input.flush()
if debug_info_file is not None:
json.dump(DebugInfo.Schema().dump(runner.get_relocated_debug_info()),
debug_info_file)
debug_info_file.flush()
if args.tracer:
CAIRO_TRACER = 'starkware.cairo.lang.tracer.tracer'
subprocess.call(
list(
filter(None, [
sys.executable,
'-m',
CAIRO_TRACER,
f'--program={args.program.name}',
f'--trace={trace_file.name}',
f'--memory={memory_file.name}',
f'--air_public_input={args.air_public_input.name}'
if args.air_public_input else None,
f'--debug_info={debug_info_file.name}',
])))
return ret_code
def cairo_run(args, program_input):
program: ProgramBase = load_program(args.program)
initial_memory = MemoryDict()
steps_input = args.steps
runner = CairoRunner(program=program,
layout=args.layout,
memory=initial_memory,
proof_mode=args.proof_mode)
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
runner.initialize_vm(hint_locals={'program_input': program_input})
try:
additional_steps = 1 if args.proof_mode else 0
max_steps = steps_input - additional_steps if steps_input is not None else None
runner.run_until_pc(end, max_steps=max_steps)
runner.original_steps = runner.vm.current_step
runner.end_run()
except (VmException, AssertionError) as exc:
raise exc
runner.read_return_values()
runner.finalize_segments_by_effective_size()
verify_secure_runner(runner)
runner.relocate()
output = retrieveOutput(runner, args.exception)
return output
def compile_and_run(code: str):
"""
Compiles the given code and runs it in the VM.
"""
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout='small', proof_mode=False)
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
runner.initialize_vm({})
runner.run_until_pc(end)
runner.end_run()
def test_missing_exit_scope():
code = """\
func main():
%{ vm_enter_scope() %}
ret
end
"""
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout='small')
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
runner.initialize_vm({})
runner.run_until_pc(end)
with pytest.raises(
AssertionError,
match=re.escape(
'Every enter_scope() requires a corresponding exit_scope().')):
runner.end_run()
def test_bad_stop_ptr():
code = """\
%builtins output
func main(output_ptr) -> (output_ptr):
[ap] = 0; ap++
[ap - 1] = [output_ptr]
[ap] = output_ptr + 3; ap++ # The correct return value is output_ptr + 1
ret
end
"""
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout='small')
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
runner.initialize_vm({})
runner.run_until_pc(end)
with pytest.raises(
AssertionError,
match='Invalid stop pointer for output. Expected: 2:1, found: 2:3'
):
runner.read_return_values()
def run_code_in_runner(code, layout='plain'):
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout=layout)
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
runner.initialize_vm(hint_locals={})
runner.run_until_pc(end)
runner.end_run()
runner.read_return_values()
runner.finalize_segments_by_effective_size()
return runner
def test_run_past_end():
code = """\
func main():
ret
end
"""
program = compile_cairo(code, PRIME)
runner = CairoRunner(program, layout='plain')
runner.initialize_segments()
runner.initialize_main_entrypoint()
runner.initialize_vm({})
runner.run_for_steps(1)
with pytest.raises(
VmException,
match='Error: Execution reached the end of the program.'):
runner.run_for_steps(1)
def cairo_run(args):
trace_needed = args.tracer or args.profile_output is not None
trace_file = args.trace_file
if trace_file is None and trace_needed:
# If --tracer or --profile_output is used, use a temporary file as trace_file.
trace_file = tempfile.NamedTemporaryFile(mode='wb')
memory_file = args.memory_file
if memory_file is None and trace_needed:
# If --tracer or --profile_output is used, use a temporary file as memory_file.
memory_file = tempfile.NamedTemporaryFile(mode='wb')
debug_info_file = args.debug_info_file
if debug_info_file is None and trace_needed:
# If --tracer or --profile_output is used, use a temporary file as debug_info_file.
debug_info_file = tempfile.NamedTemporaryFile(mode='w')
ret_code = 0
cairo_pie_input = None
if args.program is not None:
program: ProgramBase = load_program(args.program)
initial_memory = MemoryDict()
steps_input = args.steps
else:
assert args.run_from_cairo_pie is not None
assert args.steps is None and args.min_steps is None, \
'--steps and --min_steps cannot be specified in --run_from_cairo_pie mode.'
cairo_pie_input = CairoPie.from_file(args.run_from_cairo_pie)
try:
cairo_pie_input.run_validity_checks()
except Exception as exc:
# Trim error message in case it's too long.
msg = str(exc)[:10000]
raise CairoRunError(
f'Security check for the CairoPIE input failed: {msg}')
program = cairo_pie_input.program
initial_memory = cairo_pie_input.memory
steps_input = cairo_pie_input.execution_resources.n_steps
runner = CairoRunner(program=program,
layout=args.layout,
memory=initial_memory,
proof_mode=args.proof_mode)
runner.initialize_segments()
end = runner.initialize_main_entrypoint()
if args.run_from_cairo_pie is not None:
# Add extra_segments.
for segment_info in cairo_pie_input.metadata.extra_segments:
runner.segments.add(size=segment_info.size)
# Update the builtin runners' additional_data.
for name, builtin_runner in runner.builtin_runners.items():
if name in cairo_pie_input.additional_data:
builtin_runner.extend_additional_data(
data=cairo_pie_input.additional_data[name],
relocate_callback=lambda x: x,
data_is_trusted=not args.secure_run)
program_input = json.load(args.program_input) if args.program_input else {}
runner.initialize_vm(hint_locals={'program_input': program_input})
try:
if args.no_end:
assert args.steps is not None, '--steps must be specified when running with --no-end.'
else:
additional_steps = 1 if args.proof_mode else 0
max_steps = steps_input - additional_steps if steps_input is not None else None
runner.run_until_pc(end, max_steps=max_steps)
if args.proof_mode:
# Run one more step to make sure the last pc that was executed (rather than the pc
# after it) is __end__.
runner.run_for_steps(1)
runner.original_steps = runner.vm.current_step
if args.min_steps:
runner.run_until_steps(args.min_steps)
disable_trace_padding = False
if steps_input is not None:
runner.run_until_steps(steps_input)
disable_trace_padding = True
runner.end_run(disable_trace_padding=disable_trace_padding)
except (VmException, AssertionError) as exc:
if args.debug_error:
print(f'Got an error:\n{exc}')
ret_code = 1
else:
raise exc
if not args.no_end:
runner.read_return_values()
if not args.no_end and args.proof_mode:
# Finalize important segments by correct size.
runner.finalize_segments()
if args.secure_run:
verify_secure_runner(runner)
if args.run_from_cairo_pie is not None:
assert cairo_pie_input is not None
assert cairo_pie_input == runner.get_cairo_pie(), \
'The Cairo PIE input is not identical to the resulting Cairo PIE. ' \
'This may indicate that the Cairo PIE was not generated by cairo_run.'
if args.cairo_pie_output:
runner.get_cairo_pie().to_file(args.cairo_pie_output)
runner.relocate()
if args.print_memory:
runner.print_memory(relocated=args.relocate_prints)
if args.print_output:
runner.print_output()
if args.print_info:
runner.print_info(relocated=args.relocate_prints)
# Skip builtin usage calculation if the execution stopped before reaching the end symbol.
# Trying to calculate the builtin usage is likely to raise an exception and prevent the user
# from opening the tracer.
if args.proof_mode and not args.no_end:
runner.print_builtin_usage()
if trace_file is not None:
field_bytes = math.ceil(program.prime.bit_length() / 8)
write_binary_trace(trace_file, runner.relocated_trace)
if memory_file is not None:
field_bytes = math.ceil(program.prime.bit_length() / 8)
write_binary_memory(memory_file, runner.relocated_memory, field_bytes)
if args.air_public_input is not None:
rc_min, rc_max = runner.get_perm_range_check_limits()
write_air_public_input(
layout=args.layout,
public_input_file=args.air_public_input,
memory=runner.relocated_memory,
public_memory_addresses=runner.segments.
get_public_memory_addresses(runner.segment_offsets),
memory_segment_addresses=runner.get_memory_segment_addresses(),
trace=runner.relocated_trace,
rc_min=rc_min,
rc_max=rc_max)
if args.air_private_input is not None:
assert args.trace_file is not None, \
'--trace_file must be set when --air_private_input is set.'
assert args.memory_file is not None, \
'--memory_file must be set when --air_private_input is set.'
json.dump(
{
'trace_path': f'{os.path.abspath(trace_file.name)}',
'memory_path': f'{os.path.abspath(memory_file.name)}',
**runner.get_air_private_input(),
},
args.air_private_input,
indent=4)
print(file=args.air_private_input)
args.air_private_input.flush()
if debug_info_file is not None:
json.dump(DebugInfo.Schema().dump(runner.get_relocated_debug_info()),
debug_info_file)
debug_info_file.flush()
if args.tracer:
CAIRO_TRACER = 'starkware.cairo.lang.tracer.tracer'
subprocess.call(
list(
filter(None, [
sys.executable,
'-m',
CAIRO_TRACER,
f'--program={args.program.name}',
f'--trace={trace_file.name}',
f'--memory={memory_file.name}',
f'--air_public_input={args.air_public_input.name}'
if args.air_public_input else None,
f'--debug_info={debug_info_file.name}',
])))
if args.profile_output is not None:
CAIRO_PROFILER = 'starkware.cairo.lang.tracer.profiler'
subprocess.call(
list(
filter(None, [
sys.executable,
'-m',
CAIRO_PROFILER,
f'--program={args.program.name}',
f'--trace={trace_file.name}',
f'--memory={memory_file.name}',
f'--air_public_input={args.air_public_input.name}'
if args.air_public_input else None,
f'--debug_info={debug_info_file.name}',
f'--profile_output={args.profile_output}',
])))
return ret_code
