Type
TOKEN
Validation date
2023-10-18 14:43:46 UTC
Fee
0 UCO
@version 1
####################################
# EVM => Archethic : Request funds #
####################################
condition triggered_by: transaction, on: request_funds(end_time, amount, user_address, secret_hash), as: [
type: "contract",
code: valid_chargeable_code?(end_time, amount, user_address, secret_hash),
timestamp:
(
# End time cannot be less than now or more than 1 day
now = Time.now()
end_time > now && end_time <= now + 86400
),
# Here ensure Ethereum contract exists and check rules
# How to ensure Ethereum contract is a valid one ?
# Maybe get the ABI of HTLC on github and compare it to the one on Ethereum
# Then control rules
address: true
]
actions triggered_by: transaction, on: request_funds(_end_time, amount, _user_address, _secret_hash) do
args = [
0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4,
amount,
transaction.address
]
token_definition =
Contract.call_function(0x0000795bfd6ca2f5ea9f378c20775caf798e9bfbff6aec94bf87ad8d59233b4fa299, "get_token_resupply_definition", args)
Contract.set_type("token")
Contract.set_content(token_definition)
end
##########################################
# Archethic => EVM : Request secret hash #
##########################################
condition triggered_by: transaction, on: request_secret_hash(htlc_genesis_address, amount, user_address, chain_id), as: [
type: "transfer",
code: valid_signed_code?(htlc_genesis_address, amount, user_address),
previous_public_key:
(
# Ensure contract has enough fund to withdraw
previous_address = Chain.get_previous_address()
balance = Chain.get_token_balance(previous_address, 0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4)
balance >= amount
),
content: List.in?([11155111], chain_id),
token_transfers:
(
valid? = false
htlc_genesis_address = String.to_hex(htlc_genesis_address)
transfers = Map.get(transaction.token_transfers, htlc_genesis_address, [])
for transfer in transfers do
if transfer.token_address == 0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4 &&
transfer.token_id == 0 &&
transfer.amount == amount do
valid? = true
end
end
valid?
)
]
actions triggered_by: transaction, on: request_secret_hash(htlc_genesis_address, _amount, _user_address, chain_id) do
# Here delete old secret that hasn't been used before endTime
contract_content = Contract.call_function(0x0000efaca06da86f910a9362e6eb7692723b7d3f350ccef27119cb3fb7661c2a1c53, "get_state", [])
for key in Map.keys(contract_content) do
htlc_map = Map.get(contract_content, key)
if htlc_map.end_time > Time.now() do
contract_content = Map.delete(contract_content, key)
end
end
secret = Crypto.hmac(transaction.address)
secret_hash = Crypto.hash(secret, "sha256")
# Build signature for EVM decryption
signature = sign_for_evm(secret_hash, chain_id)
# Calculate endtime now + 2 hours
now = Time.now()
end_time = now - Math.rem(now, 60) + 7200
# Add secret and signature in content
htlc_map = [
hmac_address: transaction.address,
end_time: end_time,
chain_id: chain_id
]
htlc_genesis_address = String.to_hex(htlc_genesis_address)
contract_content = Map.set(contract_content, htlc_genesis_address, htlc_map)
Contract.add_recipient(
address: 0x0000efaca06da86f910a9362e6eb7692723b7d3f350ccef27119cb3fb7661c2a1c53,
action: "update_state",
args: [contract_content]
)
Contract.add_recipient(
address: htlc_genesis_address,
action: "set_secret_hash",
args: [secret_hash, signature, end_time]
)
end
####################################
# Archethic => EVM : Reveal secret #
####################################
condition triggered_by: transaction, on: reveal_secret(htlc_genesis_address), as: [
type: "transfer",
content:
(
# Ensure htlc_genesis_address exists in pool state
# and end_time has not been reached
contract_content = Contract.call_function(0x0000efaca06da86f910a9362e6eb7692723b7d3f350ccef27119cb3fb7661c2a1c53, "get_state", [])
valid? = false
htlc_genesis_address = String.to_hex(htlc_genesis_address)
htlc_map = Map.get(contract_content, htlc_genesis_address)
if htlc_map != nil do
valid? = htlc_map.end_time > Time.now()
end
valid?
),
# Here ensure Ethereum contract exists and check rules
# How to ensure Ethereum contract is a valid one ?
# Maybe get the ABI of HTLC on github and compare it to the one on Ethereum
# Then control rules
address: true
]
actions triggered_by: transaction, on: reveal_secret(htlc_genesis_address) do
contract_content = Contract.call_function(0x0000efaca06da86f910a9362e6eb7692723b7d3f350ccef27119cb3fb7661c2a1c53, "get_state", [])
htlc_genesis_address = String.to_hex(htlc_genesis_address)
htlc_map = Map.get(contract_content, htlc_genesis_address)
contract_content = Map.delete(contract_content, htlc_genesis_address)
secret = Crypto.hmac(htlc_map.hmac_address)
# Do not use chain ID in signature for the secret reveal
signature = sign_for_evm(secret, nil)
Contract.add_recipient(
address: 0x0000efaca06da86f910a9362e6eb7692723b7d3f350ccef27119cb3fb7661c2a1c53,
action: "update_state",
args: [contract_content]
)
Contract.add_recipient(
address: htlc_genesis_address,
action: "reveal_secret",
args: [secret, signature]
)
end
condition triggered_by: transaction, on: update_code(new_code), as: [
previous_public_key:
(
# Pool code can only be updated from the master chain if the bridge
# Transaction is not yet validated so we need to use previous address
# to get the genesis address
previous_address = Chain.get_previous_address()
Chain.get_genesis_address(previous_address) == 0x000020a6911478356ca264174e35d26021fb4cbe870703bb7c3859e01cdb34bcd823
),
code: Code.is_valid?(new_code)
]
actions triggered_by: transaction, on: update_code(new_code) do
Contract.set_type("contract")
# Keep contract state
Contract.set_content(contract.content)
Contract.set_code(new_code)
end
####################
# Public functions #
####################
export fun(get_token_address()) do
0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4
end
#####################
# Private functions #
#####################
fun valid_chargeable_code?(end_time, amount, user_address, secret_hash) do
args = [
end_time,
user_address,
0x000066706d704329ca8c2a4153991e2ddacc968622ca10217ca14952eb7abb966c30,
secret_hash,
0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4,
amount
]
expected_code = Contract.call_function(0x0000795bfd6ca2f5ea9f378c20775caf798e9bfbff6aec94bf87ad8d59233b4fa299, "get_chargeable_htlc", args)
Code.is_same?(expected_code, transaction.code)
end
fun valid_signed_code?(htlc_address, amount, user_address) do
valid? = false
htlc_address = String.to_hex(htlc_address)
last_htlc_transaction = Chain.get_last_transaction(htlc_address)
if last_htlc_transaction != nil do
args = [
user_address,
0x000066706d704329ca8c2a4153991e2ddacc968622ca10217ca14952eb7abb966c30,
0x00003df600e329199bf3ee8fbe2b8223413d70bcdd97e15089e6a74d94de3f1173b4,
amount
]
expected_code = Contract.call_function(0x0000795bfd6ca2f5ea9f378c20775caf798e9bfbff6aec94bf87ad8d59233b4fa299, "get_signed_htlc", args)
valid? = Code.is_same?(expected_code, last_htlc_transaction.code)
end
valid?
end
fun sign_for_evm(data, chain_id) do
hash = data
if chain_id != nil do
# Perform a first hash to combine data and chain_id
abi_data = Evm.abi_encode("(bytes32,uint)", [data, chain_id])
hash = Crypto.hash(abi_data, "keccak256")
end
prefix = String.to_hex("\x19Ethereum Signed Message:\n32")
signature_payload = Crypto.hash("#{prefix}#{hash}", "keccak256")
sig = Crypto.sign_with_recovery(signature_payload)
if sig.v == 0 do
sig = Map.set(sig, "v", 27)
else
sig = Map.set(sig, "v", 28)
end
sig
end
{
"aeip": [
8,
18,
19
],
"recipients": [
{
"amount": 995,
"to": "0000E22EB252DE8D93F0658F45028767B2FF24D850F82C73352D984D87A0EAAF7D51"
}
],
"supply": 995,
"token_reference": "00003DF600E329199BF3EE8FBE2B8223413D70BCDD97E15089E6A74D94DE3F1173B4"
}
State (0 B)
Movements (0)
-
Secret shared with 1 key
Encoded secret
579500BDAF89C279C00954D1E73EA5B5E607DC274F235828089C8D83039C456CB231B211CD5000C28EC1D41805A4E7169638496FD7601BC56ABC1DD7
Authorized keys
- 00017877BCF4122095926A49489009649603AB129822A19EF9D573B8FD714911ED7F
Contract recipients (0)
Inputs (0)
Contract inputs (0)
Unspent outputs (1)
-
From 00007C4B...0302At 2023-10-18 14:43:46 UTCAmount 100.00533864 UCO
Previous public key
000115132F991A19C9C18DAC2360FA9B4A25994EB1E9D6A3E89F2027B161DA3C0C0E
Previous signature
A8D781C1A739750F984F0FC2C4AF768FE3B3693520D873987E7211CF7BC80D72CE4B1D11F5B9CC219EAAB9CB29BA2E55DEEF09C8E0A623F867361FEF5E6A7408
Origin signature
3045022100FEF57718338254EE9D2A829B7F36D62345FDD45E89C69F55A3FD1651441DBF86022012771E0AB62155E2618AF88585DE98E293401CF3BD2A699BD834A25D6E126CB3
Proof of work
010104AB672F1E69B064D192819F1797C1926F158DBA8F3924AC732B4C4D70D0C8EA0A0D6506E5896C9C2524D2BE26CB5016287E1816A597C408008BA36FCB154A7765
Proof of integrity
00A28B6088158527521FF6B5BB8D8BA66EDB7A8F15432324A9E39ACCB2F24B850F
Coordinator signature
D0A452BD70E2885B1D0FBEDA982838944968CCC1BCE43E749A737AB52F439933B07E7C04B56A355F2E3CD67A2730D6ED6AB1831F824E519DD530239DD440750B
Validator #1 public key
00018A312AFA617E98B343D09AD2E73F0AB661DB0A59FB986D5DB8CE7664E14C25FC
Validator #1 signature
5B468E552BA3E29E6969EDA006BD51397844CE5689CAE2A3693CADA25D58B053440A3454CD4854E9485A8690A8F805E2824A620D6C5B020BFD6215C8EF688B05
Validator #2 public key
0001500FBE298B79FFBDD5CCA1798F30FD88A53D26EC39DE5DDE1F4137B032A4BC34
Validator #2 signature
13A802C4BEC7E310E497C15AF7820D81FC785B868543F9202F901EB111F5E57AB0A9D957EF31C6DDC7FE8C4ABCFD218D0E0863437802179DEDF2CCD11027270F