Type
CONTRACT
Validation date
2023-10-19 21:50:22 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)
),
content: (
# Ensure the pool has enough UCO to send the requested fund
balance = Chain.get_uco_balance(contract.address)
balance >= amount
),
address: (
# 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
true
)
]
actions triggered_by: transaction, on: request_funds(_end_time, amount, _user_address, _secret_hash) do
Contract.set_type "transfer"
Contract.add_uco_transfer to: transaction.address, amount: amount
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_uco_balance(previous_address)
balance >= amount
),
content: List.in?([11155111,80001,97], chain_id),
uco_transfers: (
htlc_genesis_address = String.to_hex(htlc_genesis_address)
Map.get(htlc_genesis_address) == amount
)
]
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 = Map.new()
if Json.is_valid?(contract.content) do
contract_content = Json.parse(contract.content)
end
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.set_content Json.to_string(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
valid? = false
if Json.is_valid?(contract.content) do
htlc_genesis_address = String.to_hex(htlc_genesis_address)
htlc_map = Map.get(Json.parse(contract.content), htlc_genesis_address)
if htlc_map != nil do
valid? = htlc_map.end_time > Time.now()
end
end
valid?
),
address: (
# 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
true
)
]
actions triggered_by: transaction, on: reveal_secret(htlc_genesis_address) do
contract_content = Json.parse(contract.content)
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.set_content Json.to_string(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
"UCO"
end
#####################
# Private functions #
#####################
fun valid_chargeable_code?(end_time, amount, user_address, secret_hash) do
args = [
end_time,
user_address,
0x000018d60115ece0c7558a46b4693749bf6beab524fddccf9b10b910619e4ee08801,
secret_hash,
"UCO",
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,
0x000018d60115ece0c7558a46b4693749bf6beab524fddccf9b10b910619e4ee08801,
"UCO",
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
{
"000042D40F8A1F8FB03913C3EFDD45A5675DC5624610E1B8566B8941B2C9E4E33745": {
"chain_id": 11155111,
"end_time": 1697757600,
"hmac_address": "00001799D58F728A8E082C58B9A4740BE101296D2E292BEA4B15976CC2685572AE00"
},
"0000AA0F4E7933EB10D8A7D242D8155B0B07AA2B9A7DCC184750896A7D2AC231358C": {
"chain_id": 11155111,
"end_time": 1697759400,
"hmac_address": "0000AF1C8DD17B0D32DEA64E951FFCFA613620095EDD8C74C55069D2954251BB6F4E"
},
"0000C38D9489C558DAA2D9051A2ED3BF74D17DF3606FF73BD86F5DBFD51BFB9A701A": {
"chain_id": 11155111,
"end_time": 1697756220,
"hmac_address": "00000D5E65FCD3DA3B30A91E938335C9C28A9C4F35D89437EB5671D77BA79C079704"
},
"0000D2784ED784F12D5593BF1698EA71E261195503160656090810825C8FC579FC8C": {
"chain_id": 11155111,
"end_time": 1697757960,
"hmac_address": "0000FF272CB877CFFD2AE579F1223F1881F730E2F657062E1120686FE5DD5E6610F9"
}
}
State (0 B)
Movements (0)
-
Secret shared with 1 key
Encoded secret
01704AC4BFB352B414E5341F713DF047944ED70D91E3EBC379C7EF2C27C70EBAECAB016D40AD1191EA993048050C8B83F7158211D02423138C227F05
Authorized keys
- 00017877BCF4122095926A49489009649603AB129822A19EF9D573B8FD714911ED7F
-
Resolved 00000CBF...5855set_secret_hash
[ "20BBA2A409D82D9B3A2E954556742299CDC080CAD31C05BD075CECE3236DDE27", { "r": "F6AB3A2E60314207A1DC3A2EA95E7F80CC212C86A35FEEA5CEC7572D6DF92DD3", "s": "52A0E1EDF9CF14DEDA4D76158C46D89C1A17A00CA857F7FCEF3720B1DE87508B", "v": 27 }, 1697759400 ]
Inputs (0)
Contract inputs (0)
Unspent outputs (1)
-
From 00006407...BF2DAt 2023-10-19 21:50:22 UTCAmount 247.26734885 UCO
Previous public key
000151386A715565C114B90ADB7B791DAB36F9472C77B27EAAEE1BB7A7BBF0B76F89
Previous signature
529C693B2D1D19F1B6893A1B4E517BAD3CAFD6E42DB0A0DD5BC691B4D1D28A576BC96B50689F4BCE47B016AA70944E40FC0883CAE8CC8103A00D8275A98C6907
Origin signature
3046022100E2F83F2034487520443BA60F21194FE12D73108D12397EDCCCB2A10B3AFF31A7022100B6FD2FA99F999C1EB151D69830F1AB3BF97F2A933FDC41B308AF4CB130863AA9
Proof of work
0101046C39D56B717142B6EE14B0F8B2561ECA458F3D2D12C9977D613F78829419063211F9C21F7BB0D56B6523040A8156BE22B6E9D6332B88ED882574D12AE32F7A45
Proof of integrity
003D1D22981C98F78A47DBFE873FD2BA75014633CC71C1A1B3D728668E40228CED
Coordinator signature
26FF645B645237B172FDE981A30FB5D3BA7F1942118EC38D9387EA9F4DF0945BB862385511EEAB2D898B48ADAD974849B02ACD398CF74F4AAB2ED54D43F15404
Validator #1 public key
0001500FBE298B79FFBDD5CCA1798F30FD88A53D26EC39DE5DDE1F4137B032A4BC34
Validator #1 signature
B6283FFA13BFC59386DED140BFEF7CB131AF705F5EEAF9FFCAFB18D4737EFD055909F32394C2268E0F9635E86EBBAB2541C84493FA80B5325040C0264976D50B
Validator #2 public key
00018A312AFA617E98B343D09AD2E73F0AB661DB0A59FB986D5DB8CE7664E14C25FC
Validator #2 signature
7820FCBFF95B8C398B1B159E3A9B2A74082CCD39DD16B69F0D87F85B87A876A05C62F23C3E91E732E51DD575F1AB52C60DC2752281B10D12CDB6AAAB292E320C