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adjusted zenroom integraiton tests

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Signed-off-by: Jürgen Eckel <juergen@riddleandcode.com>
This commit is contained in:
Jürgen Eckel 2022-06-15 10:31:29 +02:00
parent 57f8529303
commit 7aa3228844
3 changed files with 105 additions and 93 deletions
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4
integration/python/Dockerfile
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@ -12,6 +12,6 @@ RUN pip install --upgrade \
planetmint-driver~=0.9.0 \ planetmint-driver~=0.9.0 \
pycco \ pycco \
websocket-client~=0.47.0 \ websocket-client~=0.47.0 \
git+https://github.com/planetmint/cryptoconditions.git@gitzenroom \ planetmint-cryptoconditions>=0.9.7\
git+https://github.com/planetmint/planetmint-driver.git@gitzenroom \ planetmint-driver>=0.9.2 \
blns blns

76
integration/python/src/conftest.py
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@ -5,36 +5,40 @@
import pytest import pytest
GENERATE_KEYPAIR = \ CONDITION_SCRIPT = """
"""Rule input encoding base58 Scenario 'ecdh': create the signature of an object
Rule output encoding base58 Given I have the 'keyring'
Scenario 'ecdh': Create the keypair Given that I have a 'string dictionary' named 'houses' inside 'asset'
Given that I am known as 'Pippo' When I create the signature of 'houses'
When I create the ecdh key Then print the 'signature'"""
When I create the testnet key
Then print data"""
# secret key to public key
SK_TO_PK = \
"""Rule input encoding base58
Rule output encoding base58
Scenario 'ecdh': Create the keypair
Given that I am known as '{}'
Given I have the 'keys'
When I create the ecdh public key
When I create the testnet address
Then print my 'ecdh public key'
Then print my 'testnet address'"""
FULFILL_SCRIPT = \ FULFILL_SCRIPT = \
"""Rule input encoding base58 """Scenario 'ecdh': Bob verifies the signature from Alice
Rule output encoding base58
Scenario 'ecdh': Bob verifies the signature from Alice
Given I have a 'ecdh public key' from 'Alice' Given I have a 'ecdh public key' from 'Alice'
Given that I have a 'string dictionary' named 'houses' inside 'asset' Given that I have a 'string dictionary' named 'houses' inside 'asset'
Given I have a 'signature' named 'data.signature' inside 'result' Given I have a 'signature' named 'signature' inside 'result'
When I verify the 'houses' has a signature in 'data.signature' by 'Alice' When I verify the 'houses' has a signature in 'signature' by 'Alice'
Then print the string 'ok'""" Then print the string 'ok'"""
SK_TO_PK = \
"""Scenario 'ecdh': Create the keypair
Given that I am known as '{}'
Given I have the 'keyring'
When I create the ecdh public key
When I create the bitcoin address
Then print my 'ecdh public key'
Then print my 'bitcoin address'"""
GENERATE_KEYPAIR = \
"""Scenario 'ecdh': Create the keypair
Given that I am known as 'Pippo'
When I create the ecdh key
When I create the bitcoin key
Then print data"""
ZENROOM_DATA = {
'also': 'more data'
}
HOUSE_ASSETS = { HOUSE_ASSETS = {
"data": { "data": {
@ -51,45 +55,31 @@ HOUSE_ASSETS = {
} }
} }
ZENROOM_DATA = { metadata = {
'also': 'more data' 'units': 300,
'type': 'KG'
} }
CONDITION_SCRIPT = """Rule input encoding base58
Rule output encoding base58
Scenario 'ecdh': create the signature of an object
Given I have the 'keys'
Given that I have a 'string dictionary' named 'houses' inside 'asset'
When I create the signature of 'houses'
When I rename the 'signature' to 'data.signature'
Then print the 'data.signature'"""
@pytest.fixture @pytest.fixture
def gen_key_zencode(): def gen_key_zencode():
return GENERATE_KEYPAIR return GENERATE_KEYPAIR
@pytest.fixture @pytest.fixture
def secret_key_to_private_key_zencode(): def secret_key_to_private_key_zencode():
return SK_TO_PK return SK_TO_PK
@pytest.fixture @pytest.fixture
def fulfill_script_zencode(): def fulfill_script_zencode():
return FULFILL_SCRIPT return FULFILL_SCRIPT
@pytest.fixture @pytest.fixture
def condition_script_zencode(): def condition_script_zencode():
return CONDITION_SCRIPT return CONDITION_SCRIPT
@pytest.fixture @pytest.fixture
def zenroom_house_assets(): def zenroom_house_assets():
return HOUSE_ASSETS return HOUSE_ASSETS
@pytest.fixture @pytest.fixture
def zenroom_data(): def zenroom_data():
return ZENROOM_DATA return ZENROOM_DATA

118
integration/python/src/test_zenroom.py
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@ -1,67 +1,61 @@
# GOAL:
# In this script I tried to implement the ECDSA signature using zenroom
# However, the scripts are customizable and so with the same procedure
# we can implement more complex smart contracts
# PUBLIC IDENTITY
# The public identity of the users in this script (Bob and Alice)
# is the pair (ECDH public key, Testnet address)
import json import json
import base58
from hashlib import sha3_256
from cryptoconditions.types.zenroom import ZenroomSha256
from planetmint_driver.crypto import generate_keypair
from .helper.hosts import Hosts
import time
from cryptoconditions import ZenroomSha256 def test_zenroom_signing(gen_key_zencode, secret_key_to_private_key_zencode,
from json.decoder import JSONDecodeError fulfill_script_zencode, zenroom_data, zenroom_house_assets,
condition_script_zencode):
biolabs = generate_keypair()
version = '2.0'
def test_zenroom(gen_key_zencode, secret_key_to_private_key_zencode, fulfill_script_zencode, alice = json.loads(ZenroomSha256.run_zenroom(gen_key_zencode).output)['keyring']
condition_script_zencode, zenroom_data, zenroom_house_assets): bob = json.loads(ZenroomSha256.run_zenroom(gen_key_zencode).output)['keyring']
alice = json.loads(ZenroomSha256.run_zenroom(gen_key_zencode).output)['keys']
bob = json.loads(ZenroomSha256.run_zenroom(gen_key_zencode).output)['keys']
zen_public_keys = json.loads(ZenroomSha256.run_zenroom(secret_key_to_private_key_zencode.format('Alice'), zen_public_keys = json.loads(ZenroomSha256.run_zenroom(secret_key_to_private_key_zencode.format('Alice'),
keys={'keys': alice}).output) keys={'keyring': alice}).output)
zen_public_keys.update(json.loads(ZenroomSha256.run_zenroom(secret_key_to_private_key_zencode.format('Bob'), zen_public_keys.update(json.loads(ZenroomSha256.run_zenroom(secret_key_to_private_key_zencode.format('Bob'),
keys={'keys': bob}).output)) keys={'keyring': bob}).output))
# CRYPTO-CONDITIONS: instantiate an Ed25519 crypto-condition for buyer
zenSha = ZenroomSha256(script=fulfill_script_zencode, keys=zen_public_keys, data=zenroom_data)
zenroomscpt = ZenroomSha256(script=fulfill_script_zencode, data=zenroom_data, keys=zen_public_keys)
print(F'zenroom is: {zenroomscpt.script}')
# CRYPTO-CONDITIONS: generate the condition uri # CRYPTO-CONDITIONS: generate the condition uri
condition_uri = zenSha.condition.serialize_uri() condition_uri_zen = zenroomscpt.condition.serialize_uri()
print(F'\nzenroom condition URI: {condition_uri_zen}')
# CRYPTO-CONDITIONS: construct an unsigned fulfillment dictionary # CRYPTO-CONDITIONS: construct an unsigned fulfillment dictionary
unsigned_fulfillment_dict = { unsigned_fulfillment_dict_zen = {
'type': zenSha.TYPE_NAME, 'type': zenroomscpt.TYPE_NAME,
'script': fulfill_script_zencode, 'public_key': base58.b58encode(biolabs.public_key).decode(),
'keys': zen_public_keys,
} }
output = { output = {
'amount': '1000', 'amount': '10',
'condition': { 'condition': {
'details': unsigned_fulfillment_dict, 'details': unsigned_fulfillment_dict_zen,
'uri': condition_uri, 'uri': condition_uri_zen,
},
'data': zenroom_data,
'script': fulfill_script_zencode,
'conf': '',
'public_keys': (zen_public_keys['Alice']['ecdh_public_key'], ),
}
},
'public_keys': [biolabs.public_key,],
}
input_ = { input_ = {
'fulfillment': None, 'fulfillment': None,
'fulfills': None, 'fulfills': None,
'owners_before': (zen_public_keys['Alice']['ecdh_public_key'], ), 'owners_before': [biolabs.public_key,]
} }
token_creation_tx = { token_creation_tx = {
'operation': 'CREATE', 'operation': 'CREATE',
'asset': zenroom_house_assets, 'asset': zenroom_house_assets,
'metadata': None, 'metadata': None,
'outputs': (output,), 'outputs': [output,],
'inputs': (input_,), 'inputs': [input_,],
'version': '2.0', 'version': version,
'id': None, 'id': None,
} }
@ -73,12 +67,40 @@ def test_zenroom(gen_key_zencode, secret_key_to_private_key_zencode, fulfill_scr
ensure_ascii=False, ensure_ascii=False,
) )
try: # major workflow:
assert(not zenSha.validate(message=message)) # we store the fulfill script in the transaction/message (zenroom-sha)
except JSONDecodeError: # the condition script is used to fulfill the transaction and create the signature
pass #
except ValueError: # the server should ick the fulfill script and recreate the zenroom-sha and verify the signature
pass
message = zenSha.sign(message, condition_script_zencode, alice)
assert(zenSha.validate(message=message))
message = zenroomscpt.sign(message, condition_script_zencode, alice)
assert(zenroomscpt.validate(message=message))
message = json.loads(message)
fulfillment_uri_zen = zenroomscpt.serialize_uri()
message['inputs'][0]['fulfillment'] = fulfillment_uri_zen
tx = message
tx['id'] = None
json_str_tx = json.dumps(
tx,
sort_keys=True,
skipkeys=False,
separators=(',', ':')
)
# SHA3: hash the serialized id-less transaction to generate the id
shared_creation_txid = sha3_256(json_str_tx.encode()).hexdigest()
message['id'] = shared_creation_txid
hosts = Hosts('/shared/hostnames')
pm_alpha = hosts.get_connection()
sent_transfer_tx = pm_alpha.transactions.send_commit(message)
time.sleep(1)
# Assert that transaction is stored on both planetmint nodes
hosts.assert_transaction(shared_creation_txid)
print( f"\n\nstatus and result : + {sent_transfer_tx}")