import re import function_puller from argparse import ArgumentParser from typing import Tuple, List PHASE0_IMPORTS = '''from typing import ( Any, Dict, List, NewType, Tuple, ) from eth2spec.utils.minimal_ssz import ( SSZType, hash_tree_root, signing_root, ) from eth2spec.utils.bls_stub import ( bls_aggregate_pubkeys, bls_verify, bls_verify_multiple, ) from eth2spec.utils.hash_function import hash ''' PHASE1_IMPORTS = '''from typing import ( Any, Dict, List, NewType, Tuple, ) from eth2spec.utils.minimal_ssz import ( SSZType, hash_tree_root, signing_root, type_of, empty, ) from eth2spec.utils.bls_stub import ( bls_aggregate_pubkeys, bls_verify, bls_verify_multiple, ) from eth2spec.utils.hash_function import hash ''' NEW_TYPES = { 'Slot': 'int', 'Epoch': 'int', 'Shard': 'int', 'ValidatorIndex': 'int', 'Gwei': 'int', 'Bytes32': 'bytes', 'BLSPubkey': 'bytes', 'BLSSignature': 'bytes', 'Store': 'None', 'Hash': 'bytes' } SUNDRY_FUNCTIONS = ''' # Monkey patch validator compute committee code _compute_committee = compute_committee committee_cache = {} def compute_committee(indices: List[ValidatorIndex], seed: Bytes32, index: int, count: int) -> List[ValidatorIndex]: param_hash = (hash_tree_root(indices), seed, index, count) if param_hash in committee_cache: return committee_cache[param_hash] else: ret = _compute_committee(indices, seed, index, count) committee_cache[param_hash] = ret return ret # Monkey patch hash cache _hash = hash hash_cache = {} def hash(x): if x in hash_cache: return hash_cache[x] else: ret = _hash(x) hash_cache[x] = ret return ret # Access to overwrite spec constants based on configuration def apply_constants_preset(preset: Dict[str, Any]): global_vars = globals() for k, v in preset.items(): global_vars[k] = v # Deal with derived constants global_vars['GENESIS_EPOCH'] = slot_to_epoch(GENESIS_SLOT) # Initialize SSZ types again, to account for changed lengths init_SSZ_types() ''' def objects_to_spec(functions, constants, ssz_objects, inserts, imports): new_type_definitions = '\n'.join(['''%s = NewType('%s', %s)''' % (key, key, value) for key, value in NEW_TYPES.items()]) functions_spec = '\n\n'.join(functions.values()) constants_spec = '\n'.join(map(lambda x: '%s = %s' % (x, constants[x]),constants)) ssz_objects_instantiation_spec = '\n'.join(map(lambda x: '%s = SSZType(%s)' % (x, ssz_objects[x][:-1]), ssz_objects)) ssz_objects_reinitialization_spec = '\n'.join( map(lambda x: ' global_vars[\'%s\'] = SSZType(%s })' % (x, re.sub('( ){4}', ' '*8, ssz_objects[x][:-2])), ssz_objects)) ssz_objects_reinitialization_spec = ( 'def init_SSZ_types():\n global_vars = globals()\n' + ssz_objects_reinitialization_spec ) spec = ( imports + '\n' + new_type_definitions + '\n\n' + constants_spec + '\n\n' + ssz_objects_instantiation_spec + '\n\n\n' + functions_spec + '\n' + SUNDRY_FUNCTIONS + '\n\n' + ssz_objects_reinitialization_spec + '\n' ) # Handle @inserts for key, value in inserts.items(): spec = re.sub('[ ]*# %s\\n' % key, value, spec) return spec def combine_functions(old_funcitons, new_functions): for key, value in new_functions.items(): old_funcitons[key] = value return old_funcitons def combine_constants(old_constants, new_constants): for key, value in new_constants.items(): old_constants[key] = value return old_constants def dependency_order_ssz_objects(objects): items = list(objects.items()) for key, value in items: dependencies = re.findall(r'(: [\[]*[A-Z][a-z][\w]+)', value) dependencies = map(lambda x: re.sub(r'\W', '', x), dependencies) for dep in dependencies: if dep in NEW_TYPES: continue key_list = list(objects.keys()) for item in [dep, key] + key_list[key_list.index(dep)+1:]: objects[item] = objects.pop(item) def combine_ssz_objects(old_objects, new_objects): for key, value in new_objects.items(): # remove leading "{" and trailing "\n}" old_objects[key] = old_objects.get(key, '')[1:-3] # remove leading "{" value = value[1:] old_objects[key] = '{' + old_objects.get(key, '') + value dependency_order_ssz_objects(old_objects) return old_objects # inserts are handeled the same way as functions combine_inserts = combine_functions def combine_spec_objects(spec0, spec1): functions0, constants0, ssz_objects0, inserts0 = spec0 functions1, constants1, ssz_objects1, inserts1 = spec1 functions = combine_functions(functions0, functions1) constants = combine_constants(constants0, constants1) ssz_objects = combine_ssz_objects(ssz_objects0, ssz_objects1) inserts = combine_inserts(inserts0, inserts1) return functions, constants, ssz_objects, inserts def build_phase0_spec(sourcefile, outfile=None): functions, constants, ssz_objects, inserts = function_puller.get_spec(sourcefile) spec = objects_to_spec(functions, constants, ssz_objects, inserts, PHASE0_IMPORTS) if outfile is not None: with open(outfile, 'w') as out: out.write(spec) else: return spec def build_phase1_spec(phase0_sourcefile, phase1_custody_sourcefile, phase1_shard_sourcefile, outfile=None): phase0_spec = function_puller.get_spec(phase0_sourcefile) phase1_custody = function_puller.get_spec(phase1_custody_sourcefile) phase1_shard_data = function_puller.get_spec(phase1_shard_sourcefile) spec_objects = phase0_spec for value in [phase1_custody, phase1_shard_data]: spec_objects = combine_spec_objects(spec_objects, value) spec = objects_to_spec(*spec_objects, PHASE1_IMPORTS) if outfile is not None: with open(outfile, 'w') as out: out.write(spec) else: return spec if __name__ == '__main__': description = ''' Build the specs from the md docs. If building phase 0: 1st argument is input spec.md 2nd argument is output spec.py If building phase 1: 1st argument is input spec_phase0.md 2nd argument is input spec_phase1.md 3rd argument is output spec.py ''' parser = ArgumentParser(description=description) parser.add_argument("-p", "--phase", dest="phase", type=int, default=0, help="Build for phase #") parser.add_argument(dest="files", help="Input and output files", nargs="+") args = parser.parse_args() if args.phase == 0: build_phase0_spec(*args.files) elif args.phase == 1: print(args.files) if len(args.files) == 4: build_phase1_spec(*args.files) else: print(" Phase 1 requires an output as well as 3 input files (phase0.md and phase1.md, phase1.md)") else: print("Invalid phase: {0}".format(args.phase))