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trezor-firmware/common/protob/messages-cardano.proto

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syntax = "proto2";
package hw.trezor.messages.cardano;
// Sugar for easier handling in Java
option java_package = "com.satoshilabs.trezor.lib.protobuf";
option java_outer_classname = "TrezorMessageCardano";
import "messages-common.proto";
/**
* Values correspond to address header values given by the spec.
* Script addresses are only supported in transaction outputs.
*/
enum CardanoAddressType {
BASE = 0;
BASE_SCRIPT_KEY = 1;
BASE_KEY_SCRIPT = 2;
BASE_SCRIPT_SCRIPT = 3;
POINTER = 4;
POINTER_SCRIPT = 5;
ENTERPRISE = 6;
ENTERPRISE_SCRIPT = 7;
BYRON = 8;
REWARD = 14;
REWARD_SCRIPT = 15;
}
enum CardanoCertificateType {
STAKE_REGISTRATION = 0;
STAKE_DEREGISTRATION = 1;
STAKE_DELEGATION = 2;
}
/**
* Structure representing cardano PointerAddress pointer,
* which points to a staking key registration certificate.
* @embed
*/
message CardanoBlockchainPointerType {
optional uint32 block_index = 1;
optional uint32 tx_index = 2;
optional uint32 certificate_index = 3;
}
/**
* Structure to represent address parameters so they can be
* reused in CardanoGetAddress and CardanoTxOutputType.
* NetworkId isn't a part of the parameters, because in a transaction
* this will be included separately in the transaction itself, so it
* shouldn't be duplicated here.
* @embed
*/
message CardanoAddressParametersType {
optional CardanoAddressType address_type = 1; // one of the CardanoAddressType-s
repeated uint32 address_n = 2; // BIP-32-style path to derive the spending key from master node
repeated uint32 address_n_staking = 3; // BIP-32-style path to derive staking key from master node
optional bytes staking_key_hash = 4; // staking key can be derived from address_n_staking, or
// can be sent directly e.g. if it doesn't belong to
// the same account as address_n
optional CardanoBlockchainPointerType certificate_pointer = 5; // a pointer to the staking key registration certificate
}
/**
* Request: Ask device for Cardano address
* @start
* @next CardanoAddress
* @next Failure
*/
message CardanoGetAddress {
// repeated uint32 address_n = 1; // moved to address_parameters
optional bool show_display = 2; // optionally prompt for confirmation on trezor display
optional uint32 protocol_magic = 3; // network's protocol magic - needed for Byron addresses on testnets
optional uint32 network_id = 4; // network id - mainnet or testnet
optional CardanoAddressParametersType address_parameters = 5; // parameters used to derive the address
}
/**
* Request: Ask device for Cardano address
* @end
*/
message CardanoAddress {
optional string address = 1; // Base58 cardano address
}
/**
* Request: Ask device for public key corresponding to address_n path
* @start
* @next CardanoPublicKey
* @next Failure
*/
message CardanoGetPublicKey {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
optional bool show_display = 2; // optionally show on display before sending the result
}
/**
* Response: Contains public key derived from device private seed
* @end
*/
message CardanoPublicKey {
optional string xpub = 1; // Xpub key
optional hw.trezor.messages.common.HDNodeType node = 2; // BIP-32 public node
}
/**
* Request: Ask device to sign Cardano transaction
* @start
* @next CardanoSignedTx
* @next Failure
*/
message CardanoSignTx {
repeated CardanoTxInputType inputs = 1; // inputs to be used in transaction
repeated CardanoTxOutputType outputs = 2; // outputs to be used in transaction
// optional uint32 transactions_count = 3; // left as a comment so we know to skip the id 3 in the future
optional uint32 protocol_magic = 5; // network's protocol magic
optional uint64 fee = 6; // transaction fee - added in shelley
optional uint64 ttl = 7; // transaction ttl - added in shelley
optional uint32 network_id = 8; // network id - mainnet or testnet
repeated CardanoTxCertificateType certificates = 9; // transaction certificates - added in shelley
repeated CardanoTxWithdrawalType withdrawals = 10; // transaction withdrawals - added in shelley
optional bytes metadata = 11; // transaction metadata - added in shelley
/**
* Structure representing cardano transaction input
*/
message CardanoTxInputType {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
optional bytes prev_hash = 2; // hash of previous transaction output to spend by this input
optional uint32 prev_index = 3; // index of previous output to spend
// left as a comment so we know to skip the id 4 in the future
// optional uint32 type = 4;
}
/**
* Structure representing cardano transaction output
*/
message CardanoTxOutputType {
optional string address = 1; // target coin address in bech32 or base58
// repeated uint32 address_n = 2; // moved to address_parameters
optional uint64 amount = 3; // amount to spend
optional CardanoAddressParametersType address_parameters = 4; // parameters used to derive the address
}
/**
* Structure representing cardano transaction certificate
*/
message CardanoTxCertificateType {
optional CardanoCertificateType type = 1; // certificate type
repeated uint32 path = 2; // BIP-32 path to derive (staking) key
optional bytes pool = 3; // pool hash
}
/**
* Structure representing cardano transaction withdrawals
*/
message CardanoTxWithdrawalType {
repeated uint32 path = 1;
optional uint64 amount = 2;
}
}
/**
* Response: Serialised signed cardano transaction
* @end
*/
message CardanoSignedTx {
optional bytes tx_hash = 1; // hash of the transaction body
optional bytes serialized_tx = 2; // serialized, signed transaction
}
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