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510 lines
21 KiB
Markdown
510 lines
21 KiB
Markdown
# Bitcoin signing flow
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The Bitcoin signing process is one of the most complicated workflows in the Trezor
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codebase. This is because Trezor cannot store arbitrarily large transactions in memory,
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so both the input data and the results must be sent in chunks. The Protobuf messages
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cannot fully encode the data pertaining to a single transaction; instead, the data
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is spread out over multiple messages.
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## Overview
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The signing flow is initiated by a `SignTx` command. The message contains the name of
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the coin, number of inputs and outputs, and transaction metadata: version, lock time,
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and others that are required for some coins.
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In response, Trezor will send a number of `TxRequest` messages, asking for additional
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data from the host. The host is supposed to respond with a `TxAck` providing the
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requested data.
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Trezor can request the following kinds of items:
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* input of the transaction being signed
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* output of the transaction being signed
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* metadata of a _previous transaction_, i.e., the transaction whose UTXO is being spent
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* metadata of an _original transaction_, i.e., a transaction that is being replaced by
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the current transaction
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* input of a previous or original transaction
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* output of a previous or original transaction
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* additional trailing data of a previous transaction
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As part of each `TxRequest` message, Trezor can also send a chunk of the resulting
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serialized transaction, and/or a signature of one of the inputs.
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The flow ends when Trezor sends a `TxRequest` with `request_type` of `TXFINISHED`.
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## Signing phases
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The following content is for reference only, and details might change in the future.
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Host code should make no assumptions about the order of the phases.
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The list of phases here also does not necessarily correspond to internal phase
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numbering.
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### Gathering info about current transaction
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Trezor will request all inputs and outputs of the transaction to be signed, and set up
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data structures that allow it to verify that the same data is sent in the following
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phases.
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In this phase, Trezor will also ask the user to confirm destination addresses,
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the transaction fee, metadata, and the total being sent. If the user confirms, we continue
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to the next phase.
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### Validation of input data
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Trezor must verify that the host does not lie about input amounts, i.e., that the
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transaction total in the first phase was calculated correctly.
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For this reason, Trezor will ask the host to send each input again. It will then request
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data about the referenced previous transaction: metadata, all inputs, all outputs, and
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possible trailing data. This allows Trezor to reconstruct the previous transaction and
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calculate its hash. If this hash matches the provided one, and the amount on selected
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UTXO matches the input amount, the given input is considered valid.
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If all internal inputs are taproot, then the verification of the previous transactions
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is skipped. This is possible because if the host provides invalid information about the
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UTXOs being spent, then the resulting taproot signatures will also be invalid.
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Trezor T also supports pre-signed inputs for multi-party signing. If an input has script
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type `EXTERNAL` and provides a signature, Trezor will validate the signature against the
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previous transaction in this step.
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### Serialization and signing
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Trezor will ask once again about every input and begin outputting a serialization of the
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transaction. For every legacy (non-segwit) input, it is necessary to stream the full set
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of inputs and outputs again, so that Trezor can compute the transaction digest which it
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then signs. For segwit inputs this is not necessary.
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When all inputs are serialized, Trezor will ask for every output, so that it can
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serialize it, fill out change addresses, and return the full transaction.
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Finally Trezor asks again about segwit inputs to sign them and to serialize the
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witnesses.
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## Old versus new data structures
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Originally, the `TxAck` message contained one field of type `TransactionType`. This, in
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turn, contained all the possible fields that Trezor could request:
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* `TransactionType` itself contains fields for all necessary metadata, plus a field
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`extra_data` for trailing data.
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* `TransactionType.inputs` is an array of `TxInputType` objects, each of which can
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describe either the current input, or an input of a previous transaction.
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* `TransactionType.outputs` is an array of `TxOutputType` objects, each of which can
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describe an output of the _current_ transaction.
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* `TransactionType.bin_outputs` is an array of `TxOutputBinType` objects, each of which
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can describe an output of a _previous_ transaction.
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This organization makes it practical to use the `TransactionType` for host-side storage:
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a transaction can be fully stored in one object, and in order to send a `TxAck`
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response, you only need to extract the appropriate data.
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The cost of this is that this organization makes it extremely unclear _which data_
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should be extracted at which points.
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To make the constraints more visible, a new set of data types was designed. There is a
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`TxAck<Kind>` message for every `Kind` of data. These only define the fields that are
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appropriate for that kind of request.
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It is possible to use both representations, as they are wire-compatible. However, we
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recommend using the new definitions for new applications.
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## Request types
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The `TxRequest` message always contains a `request_type` field, indicating which kind of
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data it wants. In addition, `request_details` specify the particular piece of data
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requested.
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If `request_details.tx_hash` is set, Trezor is requesting data about a specified
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previous transaction. If it is unset, Trezor wants data about current transaction.
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### Transaction input
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Trezor sets `request_type` to `TXINPUT`, and `request_details.tx_hash` is unset.
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`request_details.request_index` is the index of the input in the transaction: 0 is the
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first input, 1 is second, etc.
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**Old style:** Host must respond with a `TxAck` message. The field `tx.inputs` must be
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set to an array of one element, which describes the requested input. All other fields
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should be left unset.
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**New style:** Host must respond with a `TxAckInput` message. All relevant data must be
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set on `tx.input`.
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#### Normal (internal) inputs
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Usually, the user owns, and wants to sign, all inputs of the transaction. For that, the
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host must specify a derivation path for the key, and script type `SPENDADDRESS` (legacy),
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`SPENDP2SHWITNESS` (P2SH segwit), `SPENDWITNESS` (native segwit) or `SPENDTAPROOT`.
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#### Multisig inputs
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For multisig inputs, the XPUBs of all signers (including the current user) must be
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provided in the `multisig` structure. Legacy multisig uses type `SPENDMULTISIG`, P2SH
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segwit and native segwit multisig use the same type as non-multisig inputs, i.e.
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`SPENDP2SHWITNESS` or `SPENDWITNESS`.
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Full documentation for multisig is TBD.
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#### External inputs
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Trezor can include inputs that it will not sign, typically because they are
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owned by another party. Such inputs are of type `EXTERNAL` and the host does
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not specify a derivation path for the key, but sets the `script_pubkey` field
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to the scriptPubKey of the previous output that is being spent by the external
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input. An external input can either be *verified* or *unverified*. The amounts
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supplied to the transaction by verified external inputs are subtracted from the
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transaction total that the user is asked to confirm, whereas unverified
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external inputs are not subtracted.
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Verified external inputs are only supported on the Trezor T. They must either
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already have a valid signature or they must come with an ownership proof. If
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the input already has a valid signature, then the host provides the
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`script_sig` and/or `witness` fields. If the other signing party hasn't signed
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their input yet (i.e., with two Trezors, one must sign first so that the other
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can include a pre-signed input), they can instead provide a
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[SLIP-19](https://github.com/satoshilabs/slips/blob/master/slip-0019.md)
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ownership proof in the `ownership_proof` field, with optional commitment data
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in `commitment_data`.
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Unverified external inputs are accepted by Trezor only if
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[safety checks](https://wiki.trezor.io/Using_trezorctl_commands_with_Trezor#Safety-checks)
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are disabled on the device.
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### Transaction output
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Trezor sets `request_type` to `OUTPUT`, and `request_details.tx_hash` is unset.
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`request_details.request_index` is the index of the output in the transaction: 0 is the
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first input, 1 is second, etc.
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**Old style:** Host must respond with a `TxAck` message. The field `tx.outputs` must be
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set to an array of one element, which describes the requested output. All other fields
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should be left unset.
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**New style:** Host must respond with a `TxAckOutput` message. All relevant data must be
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set on `tx.output`.
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#### External outputs
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Outputs that send coins to a particular address are always of type `PAYTOADDRESS`. The
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address is sent as a string in the field `address`.
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#### Change outputs
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Outputs that send coins back to the same owner must specify a derivation path and the
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appropriate script type. If the derivation path has the same prefix as _all_ inputs, and
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a matching script type (legacy, p2sh segwit, native segwit), it is considered to be a
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change output, and its amount is subtracted from the total.
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`address` must not be specified in this case. It is instead derived internally from the
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provided derivation path.
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#### OP_RETURN outputs
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Outputs of type `PAYTOOPRETURN` must not specify `address` nor `address_n`, and the
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`amount` must be zero. The OP_RETURN data is sent as `op_return_data` field.
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### Previous transaction metadata
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Trezor sets `request_type` to `TXMETA`. `request_details.tx_hash` is a transaction hash,
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matching one of the current transaction inputs.
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**Old style:** Host must respond with a `TxAck` message. The structure `tx` must be
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filled out with relevant data, in particular, `inputs_cnt` and `outputs_cnt` must be set
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to the number of transaction inputs and outputs. Arrays `inputs`, `outputs`,
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`bin_outputs` and `extra_data` should be empty.
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**New style:** Host must respond with a `TxAckPrevMeta` message. All relevant data must
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be set on `tx`.
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#### Extra data
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Some coins (e.g., Zcash) contain data at the end of transaction serialization that
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Trezor does not understand. The host must indicate the length of this extra data in the
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field `extra_data_len`.
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To figure out which is the extra data, the host must parse the serialized previous
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transaction up to the last field understood by Trezor. In case of Zcash, that is:
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* version + version group ID
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* number of inputs, and every input
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* number of outputs, and every output
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* lock time
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* expiry
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All data after the `expiry` field is considered "extra data".
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### Previous transaction input
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Trezor sets `request_type` to `TXINPUT`. `request_details.tx_hash` is a transaction
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hash, matching one of the current transaction inputs.
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**Old style:** Host must respond with a `TxAck` message. The field `tx.inputs` must be
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set to an array of one element, which describes the requested input of the specified
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previous transaction. All other fields should be left unset.
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**New style:** Host must respond with a `TxAckPrevInput` message. All relevant data must
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be set on `tx.input`.
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### Previous transaction output
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Trezor sets `request_type` to `TXOUTPUT`. `request_details.tx_hash` is a transaction
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hash, matching one of the current transaction inputs.
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**Old style:** Host must respond with a `TxAck` message. The field `tx.bin_outputs` must
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be set to an array of one element, which describes the requested output of the specified
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previous transaction. All other fields should be left unset.
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**New style:** Host must respond with a `TxAckPrevOutput` message. All relevant data
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must be set on `tx.output`.
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### Previous transaction trailing data
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On some coins, such as Zcash, the transaction serialization can contain data not
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understood by Trezor. This data is not relevant for validation, but it must be included
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so that Trezor can correctly compute the previous transaction hash.
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Trezor sets `request_type` to `TXEXTRADATA`. `request_details.tx_hash` is a transaction
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hash, matching one of the current transaction inputs.
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`request_details.extra_data_offset` specifies the offset of the requested data from the
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_start_ of the extra data. `request_details.extra_data_length` specifies the length of
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the requested chunk.
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**Old style:** Host must respond with a `TxAck` message. The field `tx.extra_data` must
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contain the specified chunk, starting at the given offset and of exactly the given
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length. All other fields should be unset.
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**New style:** Host must respond with a `TxAckPrevExtraData` message. The chunk must be
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set to `tx.extra_data_chunk`.
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### Original transaction input
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Trezor sets `request_type` to `TXORIGINPUT`. `request_details.tx_hash` is the
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transaction hash of the original transaction.
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The host must respond with a `TxAckInput` message. All relevant data must be set in
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`tx.input`. The derivation path and `script_type` are mandatory for all original
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internal inputs. All original internal inputs must also be accompanied with full
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transaction signature data in the `script_sig` and/or `witness` fields.
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### Original transaction output
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Trezor sets `request_type` to `TXORIGOUTPUT`. `request_details.tx_hash` is the
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transaction hash of the original transaction.
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Host must respond with a `TxAckOutput` message. All relevant data must be set in
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`tx.output`. The derivation path and script type are mandatory for all original
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change-outputs.
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### Payment request
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Trezor sets `request_type` to `TXPAYMENTREQ`, and `request_details.tx_hash` is unset.
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`request_details.request_index` is the index of the payment request in the transaction:
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0 is the first payment request, 1 is second, etc.
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The host must respond with a `TxAckPaymentRequest` message.
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## Replacement transactions
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A replacement transaction is a transaction that uses the same inputs as one or more
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transactions which have already been signed (the original transactions). Replacement
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transactions can be used to securely bump the fee of an already signed transaction
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([BIP-125](https://github.com/bitcoin/bips/blob/master/bip-0125.mediawiki)) or to
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participate as a sender in PayJoin
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([BIP-78](https://github.com/bitcoin/bips/blob/master/bip-0078.mediawiki)). Trezor only
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supports signing of replacement transaction which do not increase the amount that the
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user is spending on external outputs. Thus when signing a replacement transaction the
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user only needs to confirm the fee modification and the original TXIDs without being
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shown any outputs, since the original external outputs must have already been confirmed
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by the user and any new external outputs can only be paid for by new external inputs.
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The host signals that a transaction is a replacement transaction by setting the
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`orig_hash` and `orig_index` fields for at least one `TxInput`. Trezor will then
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automatically request metadata about the original transaction and verify the original
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signatures.
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A replacement transaction in Trezor must satisfy the following requirements:
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* All inputs of the original transactions must be inputs of the replacement transation.
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* All _external_ outputs of the original transactions must be outputs of the replacement
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transation.
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* The value of an external output may be decreased only if there are no new external
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inputs. This should only be used to bump the fee if the original transaction transfers
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the entire account balance and there is no other source available to bump the fee.
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* The replacement transaction must not increase the amount that the user is spending
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on external outputs.
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* Original transactions must have the same effective `nLockTime` as the replacement
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transaction.
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* The inputs and outputs of the original transactions must not be permuted in the
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replacement transaction, but they can be interleaved with new inputs or with inputs
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from another original transaction.
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* New `OP_RETURN` outputs cannot be added in the replacement transaction.
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So the replacement transaction is, for example, allowed to:
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* Increase the user's contribution to the mining fee by adding new inputs or decreasing
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or removing change outputs.
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* Decrease the user's contribution to the mining fee by increasing or adding
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change-outputs.
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* Add external inputs (PayJoin) and use them to introduce new outputs, increase the
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original external outputs or even to increase the user's change outputs so as to
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decrease the amount that the user is spending.
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## Payment requests
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In Trezor T a set of transaction outputs can be accompanied by a payment request.
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Multiple payment requests per transaction are also possible. A payment request is a
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message signed by a trusted party requesting payment of certain amounts to a set of
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outputs as specified in [SLIP-24](https://github.com/satoshilabs/slips/blob/master/slip-0024.md).
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The user then does not have to verify the output addresses, but only confirms the
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payment of the requested amount to the recipient.
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The host signals that an output belongs to a payment request by setting the
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`payment_req_index` field in the `TxOutput` message. When Trezor encounters the first
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output that has this field set to a particular index, it will ask for the payment request
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that has the given index.
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All outputs belonging to one payment request must be consecutive in the transaction.
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## Implementation notes
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### Pseudo-code
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The following is a rough outline of host-side implementation. See above for detailed
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info.
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```python
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transaction_bytes = ""
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signatures = [""] * len(INPUTS)
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def sign_tx():
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# send initial message
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send_message(
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SignTx(
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coin_name,
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inputs_count=len(INPUTS),
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outputs_count=len(OUTPUTS),
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# ...fill individual metadata fields
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)
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)
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# wait for TxAck forever, until Trezor indicates we are finished
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while True:
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msg = receive_message()
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# extract data first
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extract_streamed_data(msg.serialized)
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if msg.request_type == TXFINISHED:
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# we are done
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break
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if msg.details.tx_hash is not None:
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# Trezor requires data about some previous transaction
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send_response_prev(msg.request_type, msg.details)
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else:
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# Trezor requires data about this transaction
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send_response_current(msg.request_type, msg.details)
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def extract_streamed_data(ser: TxRequestSerializedType):
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global transaction_bytes, signatures
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# append serialized data to what we got so far
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transaction_bytes += ser.serialized_tx
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if ser.signature_index is not None:
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# read the signature
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signatures[ser.signature_index] = ser.signature
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def send_response_prev(request_type: RequestType, details: TxRequestDetailsType):
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prev_tx = get_prev_tx(details.tx_hash)
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if request_type == TXINPUT:
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send_prev_input(prev_tx.inputs[details.request_index])
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elif request_type == TXOUTPUT:
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send_prev_output(prev_tx.outputs[details.request_index])
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elif request_type == TXMETA:
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send_prev_metadata(prev_tx)
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elif request_type == TXEXTRADATA:
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offset = details.extra_data_offset
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length = details.extra_data_length
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extra_data_chunk = prev_tx.extra_data[offset : offset + length]
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send_prev_extra_data(extra_data_chunk)
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def send_response_current(request_type: RequestType, details: TxRequestDetailsType):
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if request_type == TXINPUT:
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send_input(INPUTS[details.request_index])
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elif request_type == TXOUTPUT:
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send_output(OUTPUTS[details.request_index])
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```
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### Wire compatibility
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The new definitions are structured so that the Protobuf binary encoded form can be
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decoded into both representations. This means that the host can encode data in the old
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representation, and Trezor will successfully and correctly decode it into the new one.
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This is done by reusing field IDs as appropriate, and taking advantage of the fact that
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Protobuf encodes arrays as a sequence of the same field repeated a number of times.
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For example, here is a part of the `TxAck` definition:
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```protobuf
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message TxAck {
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optional TransactionType tx = 1;
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message TransactionType {
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// ... some fields omitted ...
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repeated TxInputType inputs = 2;
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// ... some fields omitted ...
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message TxInputType {
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repeated uint32 address_n = 1;
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// ... some fields omitted ...
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optional uint64 amount = 8;
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// ... some fields omitted ...
|
|
}
|
|
}
|
|
}
|
|
```
|
|
|
|
A message carrying these fields would look like this:
|
|
|
|
```
|
|
FIELD 1 (type NESTED):
|
|
FIELD 2 (type NESTED):
|
|
FIELD 1 (type int): 0x8000002c
|
|
FIELD 1 (type int): 0x80000000
|
|
FIELD 1 (type int): 0x80000000
|
|
FIELD 1 (type int): 0
|
|
FIELD 1 (type int): 0
|
|
FIELD 8 (type int): 1234567
|
|
```
|
|
|
|
We can see that this is identical as if the type definition looked as follows; indeed,
|
|
we only renamed the types, removed some fields, and set some `optional` or `repeated`
|
|
to `required` instead.
|
|
|
|
```protobuf
|
|
message TxAckInput {
|
|
required TxAckInputWrapper tx = 1;
|
|
|
|
message TxAckInputWrapper {
|
|
required TxInput input = 2; // the field is now required instead of repeated
|
|
|
|
message TxInput {
|
|
repeated uint32 address_n = 1;
|
|
required uint64 amount = 8;
|
|
}
|
|
}
|
|
}
|
|
```
|
|
|
|
A caveat of this approach is that this introduces invisible dependencies: `TxInput` and
|
|
`PrevInput` fold into the same old-style `TxInputType`, so adding new fields must be
|
|
done carefully.
|
|
|
|
We expect to gradually deprecate the `TransactionType`. At that point, the new-style
|
|
types will be fully independent.
|