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trezor-firmware/protobuf/bitkey.proto

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/*
This file describes Protocol buffers messages for bitcoin hardware wallet devices.
Author: slush <info@bitcoin.cz>
*/
// Specifies algorithm used for generating private/public keys from the seed.
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enum Algorithm {
BIP32 = 0;
ELECTRUM = 1;
}
// Specifies which script will be used for given transaction output.
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enum ScriptType {
PAYTOADDRESS = 0;
PAYTOSCRIPTHASH = 1;
}
// Specifies which kind of information is required by transaction signing process
enum RequestType {
TXINPUT = 0;
TXOUTPUT = 1;
}
// Reset device's internal state
//
// Response: Features
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message Initialize {
required bytes session_id = 1; // Any value identifying current connection, will be echoed back in Features message
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}
// Response object for Initialize. Contains list of available features on the device.
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message Features {
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optional bytes session_id = 1; // Echoed back from Initialize message
optional string vendor = 2; // Name of the manufacturer, e.g. "bitkey"
optional uint32 major_version = 3; // Major version of the device, e.g. 1
optional uint32 minor_version = 4; // Minor version of the device, e.g. 0
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optional bool has_otp = 5; // True when device will send OtpRequest on important action
optional bool has_spv = 6; // True when device requires SPV verification of transaction inputs
optional bool pin = 7; // True when device will send PinRequest on important action
optional Algorithm algo = 8; // Choosen generation algorithm
repeated Algorithm algo_available = 9; // List of key generation algorithms supported by the device
optional uint64 maxfee_kb = 10; // Maximum accepted fee per kilobyte of signed transaction
}
// Test if device is live, device will send back the message on success
//
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// Response: None or Success
message Ping {
optional string message = 1; // Message will be sent back in Success message
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}
// Virtually "press" the button on the device.
// Message is available only on debugging connection and device must support "debug_link" feature.
//
// Response: Success
message DebugLinkDecision {
required bool yes_no = 1; // True for "confirm", False for "cancel"
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}
// When sent over debug link connection, computer asks for some internal information of the device.
//
// Response: DebugLinkState
message DebugLinkGetState {
optional bool layout = 1; // Request raw buffer of display
optional bool otp = 2; // Request current OTP
optional bool pin = 3; // Request current PIN
optional bool seed = 4; // Request current seed
// optional bool state = 5;
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}
// Response object reflecting device's current state. It can be received only over debug link connection.
message DebugLinkState {
optional bytes layout = 1; // Raw buffer of display
optional OtpAck otp = 2; // Current OTP, blank if device is not waiting to OTP
optional PinAck pin = 3; // Current PIN, blank if PIN is not set/enabled
optional string seed = 4; // Current seed (in mnemonic format)
// optional string state = 5;
}
// Response object defining success of the previous request
message Success {
optional string message = 1; // May contain human readable description of the action or request-specific payload
}
// Response object defining failure of the previous request
message Failure {
optional int32 code = 1; // May contain computer-readable definition of the error state
optional string message = 2; // May contain human-readable message of the error state
}
// Ask device for unique identifier.
//
// Response: UUID
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message GetUUID {
}
// Identifier of the device. This identifier must be composed from CPU serial number
// or other persistent source and must be the same for consecutive requests.
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message UUID {
required bytes UUID = 1;
}
// Message can be sent by the *device* as a resopnse to any request.
// Device is waiting for HW button press. No action is required from computer
// Computer should respond with ButtonAck message or ButtonCancel to cancel
// the original request.
message ButtonRequest {
}
// Computer agrees to wait for HW button press.
message ButtonAck {
}
// Computer want to cancel current action (don't wait to HW button press)
message ButtonCancel {
}
// Message can be sent by the *device* as a response to any request.
// Message asks computer to send back OtpAck with the password printed on the device's display.
//
// Response: OtpAck, OtpCancel
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message OtpRequest {
optional string message = 1; // Human readable message
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}
// Message is sent by the computer as a response to OtpRequest previously sent by the device.
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message OtpAck {
required string otp = 1; // User must be asked for the otp, which is displayed on the device's display
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}
// Message is sent as a response to OtpRequest by the computer, asking the device to cancel
// pending action and reset to the default state.
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message OtpCancel {
}
// Message can be sent by the *device* as a response to any request.
// Message asks computer to send back PinAck with the password associated with the device.
//
// Response: PinAck, PinCancel
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message PinRequest {
optional string message = 1; // Human readable message
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}
// Message is sent by the computer as a response to PinRequest previously sent by the device.
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message PinAck {
required string pin = 1; // User must write down the password for accessing the device.
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}
// Message is sent as a response to PinRequest by the computer, asking the device to cancel
// pending action and reset to the default state.
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message PinCancel {
}
// Request a sample of random data generated by hardware RNG. May be used
// for tests of internal RNG.
//
// Response: OtpRequest, PinRequest, Entropy, Failure
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message GetEntropy {
required uint32 size = 1; // Size of randomly generated buffer
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}
// Response to GetEntropy request contains random data generated by internal HRNG.
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message Entropy {
required bytes entropy = 1; // Stream of generated bytes
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}
// Set maximum allowed fee per kB of transaction. This is used by internal sanity checking
// in SignTx method. Transaction won't be signed if requested transaction fees are above
// current value.
//
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// Response: Success, OtpRequest, PinRequest, Failure
message SetMaxFeeKb {
required uint64 maxfee_kb= 1; // Maximum allowed transaction fee in satoshis per kB
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}
// Ask device for it's current master public key. This may be used for generating
// public keys on the computer independently to the device. API doesn't provide
// any other way how to get bitcoin addresses from the device.
//
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// Response: MasterPublicKey, Failure
message GetMasterPublicKey {
}
// Contains master public key derived from device's seed.
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message MasterPublicKey {
required bytes key = 1; // master public key of requested algorithm in binary format
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}
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message GetAddress {
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repeated uint32 address_n = 1; // Parameter for address generation algorithm to derive the address from the master public key
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}
message Address {
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required string address = 1; // Bitcoin address in base58 encoding corresponding to GetAddress(n) call
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}
// Load seed and related internal settings from computer to the device. Existing seed is overwritten.
//
// Response: Success, OtpRequest, PinRequest, Failure
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message LoadDevice {
required string seed = 1; // Seed encoded as a mnemonic (12 english words)
optional bool otp = 2 [default=true]; // Enable OTP for important actions?
optional string pin = 3; // Set PIN protection for important actions
optional bool spv = 4 [default=true]; // Enable SPV verification for transaction inputs (if available on device)
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}
// Request device to do full-reset, to generate new seed
// and ask user for new settings (OTP, PIN, SPV).
//
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// Response: Success, OtpRequest, PinRequest, Failure
message ResetDevice {
optional bytes random = 7; // Provide additional entropy for seed generation function.
// Recommended to provide 256 bytes of random data.
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}
// Request the device to sign the transaction
//
// Response: TxRequest, OtpRequest, PinRequest, Failure
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message SignTx {
required uint32 outputs_count = 3; // Count of outputs of the transaction
required uint32 inputs_count = 5; // Count of inputs of the transaction
optional bytes random = 6; // Provide additional entropy for signing function.
// Recommended to provide 256 bytes of random data.
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}
// Sent by the device as a response for SignTx. Device asks for information for signing transaction.
// If request_index is set, device asks for TxInput/TxOutput message (depends on request_type)
// with details of index's input.
// If signed_index is set, 'signature' contains signed input of signed_index's input.
message TxRequest {
optional int32 request_index = 1; // If >=0, device expects TxInput/TxOutput message from the computer
optional RequestType request_type = 2; // Ask for TxInput or TxOutput?
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optional int32 signed_index = 3; // If >=0, 'signature' contains signed input of this input
optional bytes signature = 4; // If signed_index>=0, represent signature of the signed_index input
optional bytes serialized_tx = 5; // Part of serialized and signed transaction
}
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// Transaction onput for SignTx workflow. It is response to TxRequest message sent by device.
//
// Response: TxRequest, Failure
message TxInput {
required uint32 index = 1; // Position of input in proposed transaction
repeated uint32 address_n = 2; // Parameter for address generation algorithm to derive the address from the master public key
required uint64 amount = 3; // Amount to spend in satoshis. The rest will be used for transaction fees
required bytes prev_hash = 4; // Hash of previous transaction output to spend by this input
required uint32 prev_index = 5; // Index of previous output to spend
optional bytes script_sig = 6; // Script signature
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}
// Transaction output for SignTx workflow. It is response to TxRequest message sent by the device.
message TxOutput {
required uint32 index = 1; // Position of output in proposed transaction
required string address = 2; // Target bitcoin address in base58 encoding
repeated uint32 address_n = 3; // Has higher priority than "address". If the output is to myself, specify parameter for address generation algorithm.
required uint64 amount = 4; // Amount to send in satoshis
required ScriptType script_type = 5;// Select output script type
repeated bytes script_args = 6; // Provide additional parameters for the script (its script-depended)
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}