def test_cli_ecdsa_recover():
if not secp256k1.HAS_RECOVERABLE:
pytest.skip('secp256k1_recovery not enabled, skipping')
return
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['signrec', '-k', raw_privkey, '-m', 'hi', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
signature, raw_pubkey2 = out.getvalue().strip().split('\n')
assert raw_pubkey2.split(':')[1].strip() == raw_pubkey
sig_raw, recid = signature.split()
args = parser.parse_args(
['recpub', '-m', 'hi', '-s', sig_raw, '-i', recid])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
recpub = out.getvalue().strip()
assert recpub.split(':')[1].strip() == raw_pubkey
def test_cli_ecdsa():
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['sign', '-k', raw_privkey, '-m', 'hi', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
signature, raw_pubkey2 = out.getvalue().strip().split('\n')
assert raw_pubkey2.split(':')[1].strip() == raw_pubkey
args = parser.parse_args(
['checksig', '-p', raw_pubkey, '-m', 'hi', '-s', signature])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
assert out.getvalue().strip() == str(True)
# Pass an invalid signature.
args = parser.parse_args(
['checksig', '-p', raw_pubkey, '-m', 'hi', '-s', signature[:-2]])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 1
assert out.getvalue().strip() == str(False)
def test_cli_ecdsa_recover():
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['signrec', '-k', raw_privkey, '-m', 'hi', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
signature, raw_pubkey2 = out.getvalue().strip().split('\n')
assert raw_pubkey2.split(':')[1].strip() == raw_pubkey
sig_raw, recid = signature.split()
args = parser.parse_args(
['recpub', '-m', 'hi', '-s', sig_raw, '-i', recid])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
recpub = out.getvalue().strip()
assert recpub.split(':')[1].strip() == raw_pubkey
def test_cli_ecdsa():
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['sign', '-k', raw_privkey, '-m', 'hi', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
signature, raw_pubkey2 = out.getvalue().strip().split('\n')
assert raw_pubkey2.split(':')[1].strip() == raw_pubkey
args = parser.parse_args(
['checksig', '-p', raw_pubkey, '-m', 'hi', '-s', signature])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
assert out.getvalue().strip() == str(True)
# Pass an invalid signature.
args = parser.parse_args(
['checksig', '-p', raw_pubkey, '-m', 'hi', '-s', signature[:-2]])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 1
assert out.getvalue().strip() == str(False)
def test_cli():
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['privkey', '-k', raw_privkey, '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey2, raw_pubkey2 = out.getvalue().strip().split('\n')
raw_pubkey2 = raw_pubkey2.split(':')[1].strip()
assert raw_privkey2 == raw_privkey
assert raw_pubkey2 == raw_pubkey2
def test_cli():
parser, enc = secp256k1._parse_cli()
args = parser.parse_args(['privkey', '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey, raw_pubkey = out.getvalue().strip().split('\n')
raw_pubkey = raw_pubkey.split(':')[1].strip()
args = parser.parse_args(['privkey', '-k', raw_privkey, '-p'])
out = StringIO()
res = secp256k1._main_cli(args, out, enc)
assert res == 0
raw_privkey2, raw_pubkey2 = out.getvalue().strip().split('\n')
raw_pubkey2 = raw_pubkey2.split(':')[1].strip()
assert raw_privkey2 == raw_privkey
assert raw_pubkey2 == raw_pubkey2
