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trezor-firmware/protob/types.proto
2017-12-23 13:41:52 +01:00

431 lines
14 KiB
Protocol Buffer

/**
* Types for TREZOR communication
*
* @author Marek Palatinus <slush@satoshilabs.com>
* @version 1.2
*/
// Sugar for easier handling in Java
option java_package = "com.satoshilabs.trezor.lib.protobuf";
option java_outer_classname = "TrezorType";
import "google/protobuf/descriptor.proto";
/**
* Options for specifying message direction and type of wire (normal/debug)
*/
extend google.protobuf.EnumValueOptions {
optional bool wire_in = 50002; // message can be transmitted via wire from PC to TREZOR
optional bool wire_out = 50003; // message can be transmitted via wire from TREZOR to PC
optional bool wire_debug_in = 50004; // message can be transmitted via debug wire from PC to TREZOR
optional bool wire_debug_out = 50005; // message can be transmitted via debug wire from TREZOR to PC
optional bool wire_tiny = 50006; // message is handled by TREZOR when the USB stack is in tiny mode
optional bool wire_bootloader = 50007; // message is only handled by TREZOR Bootloader
}
/**
* Type of failures returned by Failure message
* @used_in Failure
*/
enum FailureType {
Failure_UnexpectedMessage = 1;
Failure_ButtonExpected = 2;
Failure_DataError = 3;
Failure_ActionCancelled = 4;
Failure_PinExpected = 5;
Failure_PinCancelled = 6;
Failure_PinInvalid = 7;
Failure_InvalidSignature = 8;
Failure_ProcessError = 9;
Failure_NotEnoughFunds = 10;
Failure_NotInitialized = 11;
Failure_FirmwareError = 99;
}
/**
* Type of script which will be used for transaction output
* @used_in TxOutputType
*/
enum OutputScriptType {
PAYTOADDRESS = 0; // used for all addresses (bitcoin, p2sh, witness)
PAYTOSCRIPTHASH = 1; // p2sh address (deprecated; use PAYTOADDRESS)
PAYTOMULTISIG = 2; // only for change output
PAYTOOPRETURN = 3; // op_return
PAYTOWITNESS = 4; // only for change output
PAYTOP2SHWITNESS = 5; // only for change output
}
/**
* Type of script which will be used for transaction output
* @used_in TxInputType
*/
enum InputScriptType {
SPENDADDRESS = 0; // standard p2pkh address
SPENDMULTISIG = 1; // p2sh multisig address
EXTERNAL = 2; // reserved for external inputs (coinjoin)
SPENDWITNESS = 3; // native segwit
SPENDP2SHWITNESS = 4; // segwit over p2sh (backward compatible)
}
/**
* Type of information required by transaction signing process
* @used_in TxRequest
*/
enum RequestType {
TXINPUT = 0;
TXOUTPUT = 1;
TXMETA = 2;
TXFINISHED = 3;
TXEXTRADATA = 4;
}
/**
* Type of button request
* @used_in ButtonRequest
*/
enum ButtonRequestType {
ButtonRequest_Other = 1;
ButtonRequest_FeeOverThreshold = 2;
ButtonRequest_ConfirmOutput = 3;
ButtonRequest_ResetDevice = 4;
ButtonRequest_ConfirmWord = 5;
ButtonRequest_WipeDevice = 6;
ButtonRequest_ProtectCall = 7;
ButtonRequest_SignTx = 8;
ButtonRequest_FirmwareCheck = 9;
ButtonRequest_Address = 10;
ButtonRequest_PublicKey = 11;
}
/**
* Type of PIN request
* @used_in PinMatrixRequest
*/
enum PinMatrixRequestType {
PinMatrixRequestType_Current = 1;
PinMatrixRequestType_NewFirst = 2;
PinMatrixRequestType_NewSecond = 3;
}
/**
* Type of recovery procedure. These should be used as bitmask, e.g.,
* `RecoveryDeviceType_ScrambledWords | RecoveryDeviceType_Matrix`
* listing every method supported by the host computer.
*
* Note that ScrambledWords must be supported by every implementation
* for backward compatibility; there is no way to not support it.
*
* @used_in RecoveryDevice
*/
enum RecoveryDeviceType {
// use powers of two when extending this field
RecoveryDeviceType_ScrambledWords = 0; // words in scrambled order
RecoveryDeviceType_Matrix = 1; // matrix recovery type
}
/**
* Type of Recovery Word request
* @used_in WordRequest
*/
enum WordRequestType {
WordRequestType_Plain = 0;
WordRequestType_Matrix9 = 1;
WordRequestType_Matrix6 = 2;
}
/**
* Structure representing BIP32 (hierarchical deterministic) node
* Used for imports of private key into the device and exporting public key out of device
* @used_in PublicKey
* @used_in LoadDevice
* @used_in DebugLinkState
* @used_in Storage
*/
message HDNodeType {
required uint32 depth = 1;
required uint32 fingerprint = 2;
required uint32 child_num = 3;
required bytes chain_code = 4;
optional bytes private_key = 5;
optional bytes public_key = 6;
}
message HDNodePathType {
required HDNodeType node = 1; // BIP-32 node in deserialized form
repeated uint32 address_n = 2; // BIP-32 path to derive the key from node
}
/**
* Structure representing Coin
* @used_in Features
*/
message CoinType {
optional string coin_name = 1;
optional string coin_shortcut = 2;
optional uint32 address_type = 3 [default=0];
optional uint64 maxfee_kb = 4;
optional uint32 address_type_p2sh = 5 [default=5];
optional string signed_message_header = 8;
optional uint32 xpub_magic = 9 [default=76067358]; // default=0x0488b21e
optional uint32 xprv_magic = 10 [default=76066276]; // default=0x0488ade4
optional bool segwit = 11;
optional uint32 forkid = 12;
optional bool force_bip143 = 13;
}
/**
* Type of redeem script used in input
* @used_in TxInputType
*/
message MultisigRedeemScriptType {
repeated HDNodePathType pubkeys = 1; // pubkeys from multisig address (sorted lexicographically)
repeated bytes signatures = 2; // existing signatures for partially signed input
optional uint32 m = 3; // "m" from n, how many valid signatures is necessary for spending
}
/**
* Structure representing transaction input
* @used_in SimpleSignTx
* @used_in TransactionType
*/
message TxInputType {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
required bytes prev_hash = 2; // hash of previous transaction output to spend by this input
required uint32 prev_index = 3; // index of previous output to spend
optional bytes script_sig = 4; // script signature, unset for tx to sign
optional uint32 sequence = 5 [default=4294967295]; // sequence (default=0xffffffff)
optional InputScriptType script_type = 6 [default=SPENDADDRESS]; // defines template of input script
optional MultisigRedeemScriptType multisig = 7; // Filled if input is going to spend multisig tx
optional uint64 amount = 8; // amount of previous transaction output (for segwit only)
optional uint32 decred_tree = 9;
optional uint32 decred_script_version = 10;
}
/**
* Structure representing transaction output
* @used_in SimpleSignTx
* @used_in TransactionType
*/
message TxOutputType {
optional string address = 1; // target coin address in Base58 encoding
repeated uint32 address_n = 2; // BIP-32 path to derive the key from master node; has higher priority than "address"
required uint64 amount = 3; // amount to spend in satoshis
required OutputScriptType script_type = 4; // output script type
optional MultisigRedeemScriptType multisig = 5; // defines multisig address; script_type must be PAYTOMULTISIG
optional bytes op_return_data = 6; // defines op_return data; script_type must be PAYTOOPRETURN, amount must be 0
optional uint32 decred_script_version = 7;
}
/**
* Structure representing compiled transaction output
* @used_in TransactionType
*/
message TxOutputBinType {
required uint64 amount = 1;
required bytes script_pubkey = 2;
optional uint32 decred_script_version = 3;
}
/**
* Structure representing transaction
* @used_in SimpleSignTx
*/
message TransactionType {
optional uint32 version = 1;
repeated TxInputType inputs = 2;
repeated TxOutputBinType bin_outputs = 3;
repeated TxOutputType outputs = 5;
optional uint32 lock_time = 4;
optional uint32 inputs_cnt = 6;
optional uint32 outputs_cnt = 7;
optional bytes extra_data = 8;
optional uint32 extra_data_len = 9;
optional uint32 decred_expiry = 10;
}
/**
* Structure representing request details
* @used_in TxRequest
*/
message TxRequestDetailsType {
optional uint32 request_index = 1; // device expects TxAck message from the computer
optional bytes tx_hash = 2; // tx_hash of requested transaction
optional uint32 extra_data_len = 3; // length of requested extra data
optional uint32 extra_data_offset = 4; // offset of requested extra data
}
/**
* Structure representing serialized data
* @used_in TxRequest
*/
message TxRequestSerializedType {
optional uint32 signature_index = 1; // 'signature' field contains signed input of this index
optional bytes signature = 2; // signature of the signature_index input
optional bytes serialized_tx = 3; // part of serialized and signed transaction
}
/**
* Structure representing identity data
* @used_in IdentityType
*/
message IdentityType {
optional string proto = 1; // proto part of URI
optional string user = 2; // user part of URI
optional string host = 3; // host part of URI
optional string port = 4; // port part of URI
optional string path = 5; // path part of URI
optional uint32 index = 6 [default=0]; // identity index
}
/**
* Structure representing the common part for NEM transactions
* @used_in NEMSignTx
*/
message NEMTransactionCommon {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
optional uint32 network = 2; // Network ID (0x68 = Mainnet, 0x98 = Testnet, 0x60 = Mijin)
optional uint32 timestamp = 3; // Number of seconds elapsed since the creation of the nemesis block
optional uint64 fee = 4; // Fee for the transaction
optional uint32 deadline = 5; // Deadline of the transaction
optional bytes signer = 6; // Public key of the account (for multisig transactions)
}
/**
* Structure representing the transfer transaction part for NEM transactions
* @used_in NEMSignTx
*/
message NEMTransfer {
optional string recipient = 1; // Address of the recipient
optional uint64 amount = 2; // Amount of micro NEM that is transferred
optional bytes payload = 3; // Actual message data (unencrypted)
optional bytes public_key = 4; // Public key of the recipient (for encrypted payloads)
repeated NEMMosaic mosaics = 5; // Attached mosaics
}
/**
* Structure representing the mosaic attachment for NEM transfer transactions
* @used_in NEMTransfer
*/
message NEMMosaic {
optional string namespace = 1; // Fully qualified name of the namespace
optional string mosaic = 2; // Name of the mosaic definition
optional uint64 quantity = 3; // Mosaic quantity, always given in smallest units
}
/**
* Structure representing the provision namespace part for NEM transactions
* @used_in NEMSignTx
*/
message NEMProvisionNamespace {
optional string namespace = 1; // New part concatenated to the parent
optional string parent = 2; // Parent namespace (for child namespaces)
optional string sink = 3; // Rental fee sink address
optional uint64 fee = 4; // Rental fee
}
/**
* Type of levy which will be used for mosaic
* @used_in NEMMosaicDefinition
*/
enum NEMMosaicLevy {
MosaicLevy_Absolute = 1;
MosaicLevy_Percentile = 2;
}
/**
* Structure representing the mosaic definition creation part for NEM transactions
* @used_in NEMSignTx
*/
message NEMMosaicCreation {
optional NEMMosaicDefinition definition = 1; // Mosaic definition
optional string sink = 2; // Creation fee sink address
optional uint64 fee = 3; // Creation fee
}
/**
* Structure representing a mosaic definition
* @used_in NEMMosaicCreation
*/
message NEMMosaicDefinition {
optional string name = 1; // User-friendly name of the mosaic (for whitelisted mosaics)
optional string ticker = 2; // Ticker of the mosaic (for whitelisted mosaics)
optional string namespace = 3; // Fully qualified name of the namespace
optional string mosaic = 4; // Name of the mosaic definition
optional uint32 divisibility = 5; // Number of decimal places that a mosaic can be divided into
optional NEMMosaicLevy levy = 6; // Levy type
optional uint64 fee = 7; // Levy fee (interpretation depends on levy type)
optional string levy_address = 8; // Levy address
optional string levy_namespace = 9; // Fully qualified name of the namespace of the levy mosaic
optional string levy_mosaic = 10; // Name of the levy mosaic
optional uint64 supply = 11; // Initial supply to create, always given in entire units
optional bool mutable_supply = 12; // Mutable supply
optional bool transferable = 13; // Mosaic allows transfers among accounts other than the creator
optional string description = 14; // Mosaic description
repeated uint32 networks = 15; // Networks that the mosaic is valid on (for whitelisted mosaics)
}
/**
* Structure representing the mosaic supply change part for NEM transactions
* @used_in NEMSignTx
*/
message NEMMosaicSupplyChange {
optional string namespace = 1; // Fully qualified name of the namespace
optional string mosaic = 2; // Name of the mosaic definition
optional NEMSupplyChangeType type = 3; // Type of supply change
optional uint64 delta = 4; // Supply delta
}
/**
* Type of supply change which will be applied to mosaic
* @used_in NEMMosaicSupplyChange
*/
enum NEMSupplyChangeType {
SupplyChange_Increase = 1;
SupplyChange_Decrease = 2;
}
/**
* Structure representing the aggregate modification part for NEM transactions
* @used_in NEMSignTx
*/
message NEMAggregateModification {
repeated NEMCosignatoryModification modifications = 1; // Cosignatory modifications
optional sint32 relative_change = 2; // Relative change of the minimum cosignatories
}
/**
* Structure representing the cosignatory modification for aggregate modification transactions
* @used_in NEMAggregateMdofiication
*/
message NEMCosignatoryModification {
optional NEMModificationType type = 1; // Type of cosignatory modification
optional bytes public_key = 2; // Public key of the cosignatory
}
/**
* Type of cosignatory modification
* @used_in NEMCosignatoryModification
*/
enum NEMModificationType {
CosignatoryModification_Add = 1;
CosignatoryModification_Delete = 2;
}
/**
* Structure representing the importance transfer part for NEM transactions
* @used_in NEMSignTx
*/
message NEMImportanceTransfer {
optional NEMImportanceTransferMode mode = 1; // Mode of importance transfer
optional bytes public_key = 2; // Public key of the remote account
}
/**
* Mode of importance transfer
* @used_in NEMModificationType
*/
enum NEMImportanceTransferMode {
ImportanceTransfer_Activate = 1;
ImportanceTransfer_Deactivate = 2;
}