import json import subprocess import os import sys import datetime import requests from .blockchain import ( get_latest_header ) from .rpc.exceptions import ( RPCError, RequestsError, RequestsTimeoutError, ) from .account import ( is_valid_address ) from .bech32.bech32 import ( bech32_decode, convertbits ) from eth_utils import to_checksum_address datetime_format = "%Y-%m-%d %H:%M:%S.%f" class Typgpy(str): """ Typography constants for pretty printing. Note that an ENDC is needed to mark the end of a 'highlighted' text segment. """ HEADER = '\033[95m' OKBLUE = '\033[94m' OKGREEN = '\033[92m' WARNING = '\033[93m' FAIL = '\033[91m' ENDC = '\033[0m' BOLD = '\033[1m' UNDERLINE = '\033[4m' def chain_id_to_int(chainId): chainIds = dict( Default = 0, EthMainnet = 1, Morden = 2, Ropsten = 3, Rinkeby = 4, RootstockMainnet = 30, RootstockTestnet = 31, Kovan = 42, EtcMainnet = 61, EtcTestnet = 62, Geth = 1337, Ganache = 0, HmyMainnet = 1, HmyTestnet = 2, HmyLocal = 2, HmyPangaea = 3, ) if isinstance(chainId, str): assert chainId in chainIds, f'ChainId {chainId} is not valid' return chainIds.get(chainId) elif isinstance(chainId, int): assert chainId in chainIds.values(), f'Unknown chain id {chainId}' return chainId else: raise TypeError( 'chainId must be str or int' ) def get_gopath(): """ :returns The go-path, assuming that go is installed. """ return subprocess.check_output(["go", "env", "GOPATH"]).decode().strip() def get_goversion(): """ :returns The go-version, assuming that go is installed. """ return subprocess.check_output(["go", "version"]).decode().strip() def convert_one_to_hex(addr): """ Given a one address, convert it to hex checksum address """ if not is_valid_address(addr): return to_checksum_address(addr) hrp, data = bech32_decode(addr) buf = convertbits(data, 5, 8, False) address = '0x' + ''.join('{:02x}'.format(x) for x in buf) return to_checksum_address(address) def is_active_shard(endpoint, delay_tolerance=60): """ :param endpoint: The endpoint of the SHARD to check :param delay_tolerance: The time (in seconds) that the shard timestamp can be behind :return: If shard is active or not """ try: curr_time = datetime.datetime.utcnow() latest_header = get_latest_header(endpoint=endpoint) time_str = latest_header["timestamp"][:19] + '.0' # Fit time format timestamp = datetime.datetime.strptime(time_str, "%Y-%m-%d %H:%M:%S.%f").replace(tzinfo=None) time_delta = curr_time - timestamp return abs(time_delta.seconds) < delay_tolerance except (RPCError, RequestsError, RequestsTimeoutError): return False def get_bls_build_variables(): """ :returns The environment variables needed to build and/or run programs that use the Harmony BLS & MCL repo. :raises RuntimeError if openssl is not found. Note that this assumes that the BLS & MCL repo are in the appropriate directory as stated here: https://github.com/harmony-one/harmony/blob/master/README.md """ variables = {} try: openssl_dir = subprocess.check_output(["which", "openssl"]).decode().strip().split("\n")[0] except (IndexError, subprocess.CalledProcessError) as e: raise RuntimeError("`openssl` not found") from e hmy_path = f"{get_gopath()}/src/github.com/harmony-one" bls_dir = f"{hmy_path}/bls" mcl_dir = f"{hmy_path}/mcl" assert os.path.exists(bls_dir), f"Harmony BLS repo not found at {bls_dir}" assert os.path.exists(mcl_dir), f"Harmony MCL repo not found at {mcl_dir}" if sys.platform.startswith("darwin"): variables["CGO_CFLAGS"] = f"-I{bls_dir}/include -I{mcl_dir}/include -I{openssl_dir}/include" variables["CGO_LDFLAGS"] = f"-L{bls_dir}/lib -L{openssl_dir}/lib" variables["LD_LIBRARY_PATH"] = f"{bls_dir}/lib:{mcl_dir}/lib:{openssl_dir}/lib" variables["DYLD_FALLBACK_LIBRARY_PATH"] = variables["LD_LIBRARY_PATH"] else: variables["CGO_CFLAGS"] = f"-I{bls_dir}/include -I{mcl_dir}/include" variables["CGO_LDFLAGS"] = f"-L{bls_dir}/lib" variables["LD_LIBRARY_PATH"] = f"{bls_dir}/lib:{mcl_dir}/lib" return variables def json_load(string, **kwargs): """ :param string: The JSON string to load :returns A dictionary loaded from a JSON string to a dictionary. :raises The exception caused by the load (if present). Note that this prints the failed input should an error arise. """ try: return json.loads(string, **kwargs) except Exception as e: print(f"{Typgpy.FAIL}Could not parse input: '{string}'{Typgpy.ENDC}") raise e from e