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trezor-firmware/protob/messages.proto

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/**
* Messages for TREZOR communication
*
* @author Marek Palatinus <slush@satoshilabs.com>
* @version 1.2
*/
// Sugar for easier handling in Java
option java_package = "com.satoshilabs.trezor.protobuf";
option java_outer_classname = "TrezorMessage";
import "types.proto";
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/**
* Mapping between Trezor wire identifier (uint) and a protobuf message
*/
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enum MessageType {
MessageType_Initialize = 0 [(wire_in) = true];
MessageType_Ping = 1 [(wire_in) = true];
MessageType_Success = 2 [(wire_out) = true];
MessageType_Failure = 3 [(wire_out) = true];
MessageType_ChangePin = 4 [(wire_in) = true];
MessageType_WipeDevice = 5 [(wire_in) = true];
MessageType_FirmwareErase = 6 [(wire_in) = true];
MessageType_FirmwareUpload = 7 [(wire_in) = true];
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MessageType_FirmwareRequest = 8 [(wire_out) = true];
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MessageType_GetEntropy = 9 [(wire_in) = true];
MessageType_Entropy = 10 [(wire_out) = true];
MessageType_GetPublicKey = 11 [(wire_in) = true];
MessageType_PublicKey = 12 [(wire_out) = true];
MessageType_LoadDevice = 13 [(wire_in) = true];
MessageType_ResetDevice = 14 [(wire_in) = true];
MessageType_SignTx = 15 [(wire_in) = true];
MessageType_SimpleSignTx = 16 [(wire_in) = true];
MessageType_Features = 17 [(wire_out) = true];
MessageType_PinMatrixRequest = 18 [(wire_out) = true];
MessageType_PinMatrixAck = 19 [(wire_in) = true];
MessageType_Cancel = 20 [(wire_in) = true];
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MessageType_TxRequest = 21 [(wire_out) = true];
MessageType_TxAck = 22 [(wire_in) = true];
MessageType_CipherKeyValue = 23 [(wire_in) = true];
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MessageType_ClearSession = 24 [(wire_in) = true];
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MessageType_ApplySettings = 25 [(wire_in) = true];
MessageType_ButtonRequest = 26 [(wire_out) = true];
MessageType_ButtonAck = 27 [(wire_in) = true];
MessageType_GetAddress = 29 [(wire_in) = true];
MessageType_Address = 30 [(wire_out) = true];
MessageType_EntropyRequest = 35 [(wire_out) = true];
MessageType_EntropyAck = 36 [(wire_in) = true];
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MessageType_SignMessage = 38 [(wire_in) = true];
MessageType_VerifyMessage = 39 [(wire_in) = true];
MessageType_MessageSignature = 40 [(wire_out) = true];
MessageType_PassphraseRequest = 41 [(wire_out) = true];
MessageType_PassphraseAck = 42 [(wire_in) = true];
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MessageType_EstimateTxSize = 43 [(wire_in) = true];
MessageType_TxSize = 44 [(wire_out) = true];
MessageType_RecoveryDevice = 45 [(wire_in) = true];
MessageType_WordRequest = 46 [(wire_out) = true];
MessageType_WordAck = 47 [(wire_in) = true];
MessageType_CipheredKeyValue = 48 [(wire_out) = true];
MessageType_EncryptMessage = 49 [(wire_in) = true];
MessageType_EncryptedMessage = 50 [(wire_out) = true];
MessageType_DecryptMessage = 51 [(wire_in) = true];
MessageType_DecryptedMessage = 52 [(wire_out) = true];
MessageType_SignIdentity = 53 [(wire_in) = true];
MessageType_SignedIdentity = 54 [(wire_out) = true];
MessageType_GetFeatures = 55 [(wire_in) = true];
MessageType_EthereumGetAddress = 56 [(wire_in) = true];
MessageType_EthereumAddress = 57 [(wire_out) = true];
MessageType_EthereumSignTx = 58 [(wire_in) = true];
MessageType_EthereumTxRequest = 59 [(wire_out) = true];
MessageType_EthereumTxAck = 60 [(wire_in) = true];
MessageType_GetECDHSessionKey = 61 [(wire_in) = true];
MessageType_ECDHSessionKey = 62 [(wire_out) = true];
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MessageType_SetU2FCounter = 63 [(wire_in) = true];
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MessageType_DebugLinkDecision = 100 [(wire_debug_in) = true];
MessageType_DebugLinkGetState = 101 [(wire_debug_in) = true];
MessageType_DebugLinkState = 102 [(wire_debug_out) = true];
MessageType_DebugLinkStop = 103 [(wire_debug_in) = true];
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MessageType_DebugLinkLog = 104 [(wire_debug_out) = true];
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MessageType_DebugLinkMemoryRead = 110 [(wire_debug_in) = true];
MessageType_DebugLinkMemory = 111 [(wire_debug_out) = true];
MessageType_DebugLinkMemoryWrite = 112 [(wire_debug_in) = true];
MessageType_DebugLinkFlashErase = 113 [(wire_debug_in) = true];
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}
////////////////////
// Basic messages //
////////////////////
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/**
* Request: Reset device to default state and ask for device details
* @next Features
*/
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message Initialize {
}
/**
* Request: Ask for device details (no device reset)
* @next Features
*/
message GetFeatures {
}
/**
* Response: Reports various information about the device
* @prev Initialize
* @prev GetFeatures
*/
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message Features {
optional string vendor = 1; // name of the manufacturer, e.g. "bitcointrezor.com"
optional uint32 major_version = 2; // major version of the device, e.g. 1
optional uint32 minor_version = 3; // minor version of the device, e.g. 0
optional uint32 patch_version = 4; // patch version of the device, e.g. 0
optional bool bootloader_mode = 5; // is device in bootloader mode?
optional string device_id = 6; // device's unique identifier
optional bool pin_protection = 7; // is device protected by PIN?
optional bool passphrase_protection = 8; // is node/mnemonic encrypted using passphrase?
optional string language = 9; // device language
optional string label = 10; // device description label
repeated CoinType coins = 11; // supported coins
optional bool initialized = 12; // does device contain seed?
optional bytes revision = 13; // SCM revision of firmware
optional bytes bootloader_hash = 14; // hash of the bootloader
optional bool imported = 15; // was storage imported from an external source?
optional bool pin_cached = 16; // is PIN already cached in session?
optional bool passphrase_cached = 17; // is passphrase already cached in session?
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optional bool firmware_present = 18; // is valid firmware loaded?
}
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/**
* Request: clear session (removes cached PIN, passphrase, etc).
* @next Success
*/
message ClearSession {
}
/**
* Request: change language and/or label of the device
* @next Success
* @next Failure
* @next ButtonRequest
* @next PinMatrixRequest
*/
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message ApplySettings {
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optional string language = 1;
optional string label = 2;
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optional bool use_passphrase = 3;
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optional bytes homescreen = 4;
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}
/**
* Request: Starts workflow for setting/changing/removing the PIN
* @next ButtonRequest
* @next PinMatrixRequest
*/
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message ChangePin {
optional bool remove = 1; // is PIN removal requested?
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}
/**
* Request: Test if the device is alive, device sends back the message in Success response
* @next Success
*/
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message Ping {
optional string message = 1; // message to send back in Success message
optional bool button_protection = 2; // ask for button press
optional bool pin_protection = 3; // ask for PIN if set in device
optional bool passphrase_protection = 4; // ask for passphrase if set in device
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}
/**
* Response: Success of the previous request
*/
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message Success {
optional string message = 1; // human readable description of action or request-specific payload
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}
/**
* Response: Failure of the previous request
*/
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message Failure {
optional FailureType code = 1; // computer-readable definition of the error state
optional string message = 2; // human-readable message of the error state
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}
/**
* Response: Device is waiting for HW button press.
* @next ButtonAck
* @next Cancel
*/
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message ButtonRequest {
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optional ButtonRequestType code = 1;
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optional string data = 2;
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}
/**
* Request: Computer agrees to wait for HW button press
* @prev ButtonRequest
*/
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message ButtonAck {
}
/**
* Response: Device is asking computer to show PIN matrix and awaits PIN encoded using this matrix scheme
* @next PinMatrixAck
* @next Cancel
*/
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message PinMatrixRequest {
optional PinMatrixRequestType type = 1;
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}
/**
* Request: Computer responds with encoded PIN
* @prev PinMatrixRequest
*/
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message PinMatrixAck {
required string pin = 1; // matrix encoded PIN entered by user
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}
/**
* Request: Abort last operation that required user interaction
* @prev ButtonRequest
* @prev PinMatrixRequest
* @prev PassphraseRequest
*/
message Cancel {
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}
/**
* Response: Device awaits encryption passphrase
* @next PassphraseAck
* @next Cancel
*/
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message PassphraseRequest {
}
/**
* Request: Send passphrase back
* @prev PassphraseRequest
*/
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message PassphraseAck {
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required string passphrase = 1;
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}
/**
* Request: Request a sample of random data generated by hardware RNG. May be used for testing.
* @next ButtonRequest
* @next Entropy
* @next Failure
*/
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message GetEntropy {
required uint32 size = 1; // size of requested entropy
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}
/**
* Response: Reply with random data generated by internal RNG
* @prev GetEntropy
*/
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message Entropy {
required bytes entropy = 1; // stream of random generated bytes
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}
/**
* Request: Ask device for public key corresponding to address_n path
* @next PassphraseRequest
* @next PublicKey
* @next Failure
*/
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message GetPublicKey {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
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optional string ecdsa_curve_name = 2; // ECDSA curve name to use
optional bool show_display = 3; // optionally show on display before sending the result
optional string coin_name = 4 [default='Bitcoin'];
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}
/**
* Response: Contains public key derived from device private seed
* @prev GetPublicKey
*/
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message PublicKey {
required HDNodeType node = 1; // BIP32 public node
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optional string xpub = 2; // serialized form of public node
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}
/**
* Request: Ask device for address corresponding to address_n path
* @next PassphraseRequest
* @next Address
* @next Failure
*/
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message GetAddress {
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repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
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optional string coin_name = 2 [default='Bitcoin'];
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optional bool show_display = 3; // optionally show on display before sending the result
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optional MultisigRedeemScriptType multisig = 4; // Filled if we are showing a multisig address
optional InputScriptType script_type = 5 [default=SPENDADDRESS]; // Used to distinguish segwit addresses
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}
/**
* Request: Ask device for Ethereum address corresponding to address_n path
* @next PassphraseRequest
* @next EthereumAddress
* @next Failure
*/
message EthereumGetAddress {
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 address derived from device private seed
* @prev GetAddress
*/
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message Address {
required string address = 1; // Coin address in Base58 encoding
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}
/**
* Response: Contains an Ethereum address derived from device private seed
* @prev EthereumGetAddress
*/
message EthereumAddress {
required bytes address = 1; // Coin address as an Ethereum 160 bit hash
}
/**
* Request: Request device to wipe all sensitive data and settings
* @next ButtonRequest
*/
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message WipeDevice {
}
/**
* Request: Load seed and related internal settings from the computer
* @next ButtonRequest
* @next Success
* @next Failure
*/
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message LoadDevice {
optional string mnemonic = 1; // seed encoded as BIP-39 mnemonic (12, 18 or 24 words)
optional HDNodeType node = 2; // BIP-32 node
optional string pin = 3; // set PIN protection
optional bool passphrase_protection = 4; // enable master node encryption using passphrase
optional string language = 5 [default='english']; // device language
optional string label = 6; // device label
optional bool skip_checksum = 7; // do not test mnemonic for valid BIP-39 checksum
optional uint32 u2f_counter = 8; // U2F counter
}
/**
* Request: Ask device to do initialization involving user interaction
* @next EntropyRequest
* @next Failure
*/
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message ResetDevice {
optional bool display_random = 1; // display entropy generated by the device before asking for additional entropy
optional uint32 strength = 2 [default=256]; // strength of seed in bits
optional bool passphrase_protection = 3; // enable master node encryption using passphrase
optional bool pin_protection = 4; // enable PIN protection
optional string language = 5 [default='english']; // device language
optional string label = 6; // device label
optional uint32 u2f_counter = 7; // U2F counter
}
/**
* Response: Ask for additional entropy from host computer
* @prev ResetDevice
* @next EntropyAck
*/
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message EntropyRequest {
}
/**
* Request: Provide additional entropy for seed generation function
* @prev EntropyRequest
* @next ButtonRequest
*/
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message EntropyAck {
optional bytes entropy = 1; // 256 bits (32 bytes) of random data
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}
/**
* Request: Start recovery workflow asking user for specific words of mnemonic
* Used to recovery device safely even on untrusted computer.
* @next WordRequest
*/
message RecoveryDevice {
optional uint32 word_count = 1; // number of words in BIP-39 mnemonic
optional bool passphrase_protection = 2; // enable master node encryption using passphrase
optional bool pin_protection = 3; // enable PIN protection
optional string language = 4 [default='english']; // device language
optional string label = 5; // device label
optional bool enforce_wordlist = 6; // enforce BIP-39 wordlist during the process
// 7 reserved for unused recovery method
optional uint32 type = 8; // supported recovery type (see RecoveryType)
optional uint32 u2f_counter = 9; // U2F counter
}
/**
* Response: Device is waiting for user to enter word of the mnemonic
* Its position is shown only on device's internal display.
* @prev RecoveryDevice
* @prev WordAck
*/
message WordRequest {
optional WordRequestType type = 1;
}
/**
* Request: Computer replies with word from the mnemonic
* @prev WordRequest
* @next WordRequest
* @next Success
* @next Failure
*/
message WordAck {
required string word = 1; // one word of mnemonic on asked position
}
//////////////////////////////
// Message signing messages //
//////////////////////////////
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/**
* Request: Ask device to sign message
* @next MessageSignature
* @next Failure
*/
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message SignMessage {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
required bytes message = 2; // message to be signed
optional string coin_name = 3 [default='Bitcoin']; // coin to use for signing
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}
/**
* Request: Ask device to verify message
* @next Success
* @next Failure
*/
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message VerifyMessage {
optional string address = 1; // address to verify
optional bytes signature = 2; // signature to verify
optional bytes message = 3; // message to verify
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optional string coin_name = 4 [default='Bitcoin']; // coin to use for verifying
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}
/**
* Response: Signed message
* @prev SignMessage
*/
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message MessageSignature {
optional string address = 1; // address used to sign the message
optional bytes signature = 2; // signature of the message
}
///////////////////////////
// Encryption/decryption //
///////////////////////////
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/**
* Request: Ask device to encrypt message
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* @next EncryptedMessage
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* @next Failure
*/
message EncryptMessage {
optional bytes pubkey = 1; // public key
optional bytes message = 2; // message to encrypt
optional bool display_only = 3; // show just on display? (don't send back via wire)
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repeated uint32 address_n = 4; // BIP-32 path to derive the signing key from master node
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optional string coin_name = 5 [default='Bitcoin']; // coin to use for signing
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}
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/**
* Response: Encrypted message
* @prev EncryptMessage
*/
message EncryptedMessage {
optional bytes nonce = 1; // nonce used during encryption
optional bytes message = 2; // encrypted message
optional bytes hmac = 3; // message hmac
}
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/**
* Request: Ask device to decrypt message
* @next Success
* @next Failure
*/
message DecryptMessage {
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repeated uint32 address_n = 1; // BIP-32 path to derive the decryption key from master node
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optional bytes nonce = 2; // nonce used during encryption
optional bytes message = 3; // message to decrypt
optional bytes hmac = 4; // message hmac
}
/**
* Response: Decrypted message
* @prev DecryptedMessage
*/
message DecryptedMessage {
optional bytes message = 1; // decrypted message
optional string address = 2; // address used to sign the message (if used)
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}
/**
* Request: Ask device to encrypt or decrypt value of given key
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* @next CipheredKeyValue
* @next Failure
*/
message CipherKeyValue {
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repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
optional string key = 2; // key component of key:value
optional bytes value = 3; // value component of key:value
optional bool encrypt = 4; // are we encrypting (True) or decrypting (False)?
optional bool ask_on_encrypt = 5; // should we ask on encrypt operation?
optional bool ask_on_decrypt = 6; // should we ask on decrypt operation?
optional bytes iv = 7; // initialization vector (will be computed if not set)
}
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/**
* Response: Return ciphered/deciphered value
* @prev CipherKeyValue
*/
message CipheredKeyValue {
optional bytes value = 1; // ciphered/deciphered value
}
//////////////////////////////////
// Transaction signing messages //
//////////////////////////////////
/**
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* Request: Estimated size of the transaction
* This behaves exactly like SignTx, which means that it can ask using TxRequest
* This call is non-blocking (except possible PassphraseRequest to unlock the seed)
* @next TxSize
* @next Failure
*/
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message EstimateTxSize {
required uint32 outputs_count = 1; // number of transaction outputs
required uint32 inputs_count = 2; // number of transaction inputs
optional string coin_name = 3 [default='Bitcoin']; // coin to use
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}
/**
* Response: Estimated size of the transaction
* @prev EstimateTxSize
*/
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message TxSize {
optional uint32 tx_size = 1; // estimated size of transaction in bytes
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}
/**
* Request: Ask device to sign transaction
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* @next PassphraseRequest
* @next PinMatrixRequest
* @next TxRequest
* @next Failure
*/
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message SignTx {
required uint32 outputs_count = 1; // number of transaction outputs
required uint32 inputs_count = 2; // number of transaction inputs
optional string coin_name = 3 [default='Bitcoin']; // coin to use
optional uint32 version = 4 [default=1]; // transaction version
optional uint32 lock_time = 5 [default=0]; // transaction lock_time
}
/**
* Request: Simplified transaction signing
* This method doesn't support streaming, so there are hardware limits in number of inputs and outputs.
* In case of success, the result is returned using TxRequest message.
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* @next PassphraseRequest
* @next PinMatrixRequest
* @next TxRequest
* @next Failure
*/
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message SimpleSignTx {
repeated TxInputType inputs = 1; // transaction inputs
repeated TxOutputType outputs = 2; // transaction outputs
repeated TransactionType transactions = 3; // transactions whose outputs are used to build current inputs
optional string coin_name = 4 [default='Bitcoin']; // coin to use
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optional uint32 version = 5 [default=1]; // transaction version
optional uint32 lock_time = 6 [default=0]; // transaction lock_time
}
/**
* Response: Device asks for information for signing transaction or returns the last result
* If request_index is set, device awaits TxAck message (with fields filled in according to request_type)
* If signature_index is set, 'signature' contains signed input of signature_index's input
* @prev SignTx
* @prev SimpleSignTx
* @prev TxAck
*/
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message TxRequest {
optional RequestType request_type = 1; // what should be filled in TxAck message?
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optional TxRequestDetailsType details = 2; // request for tx details
optional TxRequestSerializedType serialized = 3; // serialized data and request for next
}
/**
* Request: Reported transaction data
* @prev TxRequest
* @next TxRequest
*/
message TxAck {
optional TransactionType tx = 1;
}
/**
* Request: Ask device to sign transaction
* All fields are optional from the protocol's point of view. Each field defaults to value `0` if missing.
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* Note: the first at most 1024 bytes of data MUST be transmitted as part of this message.
* @next PassphraseRequest
* @next PinMatrixRequest
* @next EthereumTxRequest
* @next Failure
*/
message EthereumSignTx {
repeated uint32 address_n = 1; // BIP-32 path to derive the key from master node
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optional bytes nonce = 2; // <=256 bit unsigned big endian
optional bytes gas_price = 3; // <=256 bit unsigned big endian (in wei)
optional bytes gas_limit = 4; // <=256 bit unsigned big endian
optional bytes to = 5; // 160 bit address hash
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optional bytes value = 6; // <=256 bit unsigned big endian (in wei)
optional bytes data_initial_chunk = 7; // The initial data chunk (<= 1024 bytes)
optional uint32 data_length = 8; // Length of transaction payload
optional uint32 chain_id = 9; // Chain Id for EIP 155
}
/**
* Response: Device asks for more data from transaction payload, or returns the signature.
* If data_length is set, device awaits that many more bytes of payload.
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* Otherwise, the signature_* fields contain the computed transaction signature. All three fields will be present.
* @prev EthereumSignTx
* @next EthereumTxAck
*/
message EthereumTxRequest {
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optional uint32 data_length = 1; // Number of bytes being requested (<= 1024)
optional uint32 signature_v = 2; // Computed signature (recovery parameter, limited to 27 or 28)
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optional bytes signature_r = 3; // Computed signature R component (256 bit)
optional bytes signature_s = 4; // Computed signature S component (256 bit)
}
/**
* Request: Transaction payload data.
* @prev EthereumTxRequest
* @next EthereumTxRequest
*/
message EthereumTxAck {
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optional bytes data_chunk = 1; // Bytes from transaction payload (<= 1024 bytes)
}
///////////////////////
// Identity messages //
///////////////////////
/**
* Request: Ask device to sign identity
* @next SignedIdentity
* @next Failure
*/
message SignIdentity {
optional IdentityType identity = 1; // identity
optional bytes challenge_hidden = 2; // non-visible challenge
optional string challenge_visual = 3; // challenge shown on display (e.g. date+time)
optional string ecdsa_curve_name = 4; // ECDSA curve name to use
}
/**
* Response: Device provides signed identity
* @prev SignIdentity
*/
message SignedIdentity {
optional string address = 1; // identity address
optional bytes public_key = 2; // identity public key
optional bytes signature = 3; // signature of the identity data
}
///////////////////
// ECDH messages //
///////////////////
/**
* Request: Ask device to generate ECDH session key
* @next ECDHSessionKey
* @next Failure
*/
message GetECDHSessionKey {
optional IdentityType identity = 1; // identity
optional bytes peer_public_key = 2; // peer's public key
optional string ecdsa_curve_name = 3; // ECDSA curve name to use
}
/**
* Response: Device provides ECDH session key
* @prev GetECDHSessionKey
*/
message ECDHSessionKey {
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optional bytes session_key = 1; // ECDH session key
}
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///////////////////
// U2F messages //
///////////////////
/**
* Request: Set U2F counter
* @next Success
*/
message SetU2FCounter {
optional uint32 u2f_counter = 1; // counter
}
/////////////////////////
// Bootloader messages //
/////////////////////////
/**
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* Request: Ask device to erase its firmware (so it can be replaced via FirmwareUpload)
* @next Success
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* @next FirmwareRequest
* @next Failure
*/
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message FirmwareErase {
}
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/**
* Response: Ask for firmware chunk
* @next FirmwareUpload
*/
message FirmwareRequest {
optional uint32 offset = 1; // offset of requested firmware chunk
optional uint32 length = 2; // length of requested firmware chunk
}
/**
* Request: Send firmware in binary form to the device
* @next Success
* @next Failure
*/
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message FirmwareUpload {
required bytes payload = 1; // firmware to be loaded into device
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optional bytes hash = 2; // hash of the payload
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}
/////////////////////////////////////////////////////////////
// Debug messages (only available if DebugLink is enabled) //
/////////////////////////////////////////////////////////////
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/**
* Request: "Press" the button on the device
* @next Success
*/
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message DebugLinkDecision {
required bool yes_no = 1; // true for "Confirm", false for "Cancel"
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}
/**
* Request: Computer asks for device state
* @next DebugLinkState
*/
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message DebugLinkGetState {
}
/**
* Response: Device current state
* @prev DebugLinkGetState
*/
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message DebugLinkState {
optional bytes layout = 1; // raw buffer of display
optional string pin = 2; // current PIN, blank if PIN is not set/enabled
optional string matrix = 3; // current PIN matrix
optional string mnemonic = 4; // current BIP-39 mnemonic
optional HDNodeType node = 5; // current BIP-32 node
optional bool passphrase_protection = 6; // is node/mnemonic encrypted using passphrase?
optional string reset_word = 7; // word on device display during ResetDevice workflow
optional bytes reset_entropy = 8; // current entropy during ResetDevice workflow
optional string recovery_fake_word = 9; // (fake) word on display during RecoveryDevice workflow
optional uint32 recovery_word_pos = 10; // index of mnemonic word the device is expecting during RecoveryDevice workflow
}
/**
* Request: Ask device to restart
*/
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message DebugLinkStop {
}
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/**
* Response: Device wants host to log event
*/
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message DebugLinkLog {
optional uint32 level = 1;
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optional string bucket = 2;
optional string text = 3;
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}
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/**
* Request: Read memory from device
* @next DebugLinkMemory
*/
message DebugLinkMemoryRead {
optional uint32 address = 1;
optional uint32 length = 2;
}
/**
* Response: Device sends memory back
* @prev DebugLinkMemoryRead
*/
message DebugLinkMemory {
optional bytes memory = 1;
}
/**
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* Request: Write memory to device.
* WARNING: Writing to the wrong location can irreparably break the device.
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*/
message DebugLinkMemoryWrite {
optional uint32 address = 1;
optional bytes memory = 2;
optional bool flash = 3;
}
/**
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* Request: Erase block of flash on device
* WARNING: Writing to the wrong location can irreparably break the device.
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*/
message DebugLinkFlashErase {
optional uint32 sector = 1;
}