core-lightning/bitcoin/tx.h

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#ifndef LIGHTNING_BITCOIN_TX_H
#define LIGHTNING_BITCOIN_TX_H
#include "config.h"
#include "shadouble.h"
#include "signature.h"
#include "varint.h"
#include <ccan/short_types/short_types.h>
#include <ccan/structeq/structeq.h>
#include <ccan/tal/tal.h>
#include <common/amount.h>
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#include <wally_psbt.h>
#include <wally_transaction.h>
#define BITCOIN_TX_DEFAULT_SEQUENCE 0xFFFFFFFF
/* BIP 125: Any nsequence < 0xFFFFFFFE is replacable.
* And bitcoind uses this value. */
#define BITCOIN_TX_RBF_SEQUENCE 0xFFFFFFFD
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struct wally_psbt;
struct bitcoin_txid {
struct sha256_double shad;
};
struct bitcoin_outpoint {
struct bitcoin_txid txid;
u32 n;
};
/* Define bitcoin_txid_eq */
STRUCTEQ_DEF(bitcoin_txid, 0, shad.sha.u);
struct bitcoin_tx {
struct wally_tx *wtx;
/* Keep a reference to the ruleset we have to abide by */
const struct chainparams *chainparams;
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/* psbt struct */
struct wally_psbt *psbt;
};
struct bitcoin_tx_output {
struct amount_sat amount;
u8 *script;
};
struct bitcoin_tx_output *new_tx_output(const tal_t *ctx,
struct amount_sat amount,
const u8 *script);
/* SHA256^2 the tx in legacy format. */
void bitcoin_txid(const struct bitcoin_tx *tx, struct bitcoin_txid *txid);
void wally_txid(const struct wally_tx *wtx, struct bitcoin_txid *txid);
/* Linear bytes of tx. */
u8 *linearize_tx(const tal_t *ctx, const struct bitcoin_tx *tx);
u8 *linearize_wtx(const tal_t *ctx, const struct wally_tx *wtx);
/* Get weight of tx in Sipa. */
size_t bitcoin_tx_weight(const struct bitcoin_tx *tx);
/* Allocate a tx: you just need to fill in inputs and outputs (they're
* zeroed with inputs' sequence_number set to FFFFFFFF) */
struct bitcoin_tx *bitcoin_tx(const tal_t *ctx,
const struct chainparams *chainparams,
varint_t input_count, varint_t output_count,
u32 nlocktime);
/* This takes a raw bitcoin tx in hex. */
struct bitcoin_tx *bitcoin_tx_from_hex(const tal_t *ctx, const char *hex,
size_t hexlen);
/* Parse hex string to get txid (reversed, a-la bitcoind). */
bool bitcoin_txid_from_hex(const char *hexstr, size_t hexstr_len,
struct bitcoin_txid *txid);
/* Get hex string of txid (reversed, a-la bitcoind). */
bool bitcoin_txid_to_hex(const struct bitcoin_txid *txid,
char *hexstr, size_t hexstr_len);
/* Create a bitcoin_tx from a psbt */
struct bitcoin_tx *bitcoin_tx_with_psbt(const tal_t *ctx, struct wally_psbt *psbt);
/* Internal de-linearization functions. */
struct bitcoin_tx *pull_bitcoin_tx(const tal_t *ctx,
const u8 **cursor, size_t *max);
/* Helper to create a wally_tx_output: make sure to wally_tx_output_free!
* Returns NULL if amount is extreme (wally doesn't like).
*/
struct wally_tx_output *wally_tx_output(const tal_t *ctx,
const u8 *script,
struct amount_sat amount);
/* Add one output to tx. */
int bitcoin_tx_add_output(struct bitcoin_tx *tx, const u8 *script,
u8 *wscript,
struct amount_sat amount);
/* Add mutiple output to tx. */
int bitcoin_tx_add_multi_outputs(struct bitcoin_tx *tx,
struct bitcoin_tx_output **outputs);
/* Set the locktime for a transaction */
void bitcoin_tx_set_locktime(struct bitcoin_tx *tx, u32 locktime);
/* Add a new input to a bitcoin tx.
*
* For P2WSH inputs, we'll also store the wscript and/or scriptPubkey
* Passing in just the {input_wscript}, we'll generate the scriptPubkey for you.
* In some cases we may not have the wscript, in which case the scriptPubkey
* should be provided. We'll check that it's P2WSH before saving it */
int bitcoin_tx_add_input(struct bitcoin_tx *tx, const struct bitcoin_txid *txid,
u32 outnum, u32 sequence, const u8 *scriptSig,
struct amount_sat amount, const u8 *scriptPubkey,
const u8 *input_wscript);
/* This helps is useful because wally uses a raw byte array for txids */
bool wally_tx_input_spends(const struct wally_tx_input *input,
const struct bitcoin_txid *txid,
int outnum);
struct amount_asset
wally_tx_output_get_amount(const struct wally_tx_output *output);
/**
* Set the output amount on the transaction.
*
* Allows changing the amount on the transaction output after it was set on
* creation. This is useful to grind a feerate or subtract the fee from an
* existing output.
*/
void bitcoin_tx_output_set_amount(struct bitcoin_tx *tx, int outnum,
struct amount_sat amount);
/**
* Helper to get the script of a script's output as a tal_arr
*
* Internally we use a `wally_tx` to represent the transaction. The script
* attached to a `wally_tx_output` is not a `tal_arr`, so in order to keep the
* comfort of being able to call `tal_bytelen` and similar on a script we just
* return a `tal_arr` clone of the original script.
*/
const u8 *bitcoin_tx_output_get_script(const tal_t *ctx, const struct bitcoin_tx *tx, int outnum);
/**
* Helper to get the script of a script's output as a tal_arr
*
* The script attached to a `wally_tx_output` is not a `tal_arr`, so in order to keep the
* comfort of being able to call `tal_bytelen` and similar on a script we just
* return a `tal_arr` clone of the original script.
*/
const u8 *wally_tx_output_get_script(const tal_t *ctx,
const struct wally_tx_output *output);
/**
* Helper to get a witness script for an output.
*/
u8 *bitcoin_tx_output_get_witscript(const tal_t *ctx, const struct bitcoin_tx *tx, int outnum);
/** bitcoin_tx_output_get_amount_sat - Helper to get transaction output's amount
*
* Internally we use a `wally_tx` to represent the transaction. The
* satoshi amount isn't a struct amount_sat, so we need a conversion
*/
void bitcoin_tx_output_get_amount_sat(const struct bitcoin_tx *tx, int outnum,
struct amount_sat *amount);
/**
* Helper to just get an amount_sat for the output amount.
*/
struct amount_asset bitcoin_tx_output_get_amount(const struct bitcoin_tx *tx,
int outnum);
/**
* Set the input witness.
*
* Given that we generate the witness after constructing the transaction
* itself, we need a way to attach a witness to an existing input.
*/
void bitcoin_tx_input_set_witness(struct bitcoin_tx *tx, int innum,
u8 **witness TAKES);
/**
* Set the input script on the given input.
*/
void bitcoin_tx_input_set_script(struct bitcoin_tx *tx, int innum, u8 *script);
/**
* Helper to get a witness as a tal_arr array.
*/
const u8 *bitcoin_tx_input_get_witness(const tal_t *ctx,
const struct bitcoin_tx *tx, int innum,
int witnum);
/**
* Wrap the raw txhash in the wally_tx_input into a bitcoin_txid
*/
void bitcoin_tx_input_get_txid(const struct bitcoin_tx *tx, int innum,
struct bitcoin_txid *out);
void wally_tx_input_get_txid(const struct wally_tx_input *in,
struct bitcoin_txid *txid);
/**
* Check a transaction for consistency.
*
* Mainly for the transition from `bitcoin_tx` to the `wally_tx`. Checks that
* both transactions serialize to two identical representations.
*/
bool bitcoin_tx_check(const struct bitcoin_tx *tx);
/**
* Finalize a transaction by truncating overallocated and temporary
* fields. This includes adding a fee output for elements transactions or
* adjusting an existing fee output, and resizing metadata arrays for inputs
* and outputs.
*/
void bitcoin_tx_finalize(struct bitcoin_tx *tx);
/**
* Returns true if the given outnum is a fee output
*/
bool elements_wtx_output_is_fee(const struct wally_tx *tx, int outnum);
/**
* Returns true if the given outnum is a fee output
*/
bool elements_tx_output_is_fee(const struct bitcoin_tx *tx, int outnum);
/**
* Calculate the fees for this transaction
*/
struct amount_sat bitcoin_tx_compute_fee(const struct bitcoin_tx *tx);
/*
* Calculate the fees for this transaction, given a pre-computed input balance.
*
* This is needed for cases where the transaction's psbt metadata isn't properly filled
* in typically due to being instantiated from a tx hex (i.e. from a block scan)
*/
struct amount_sat bitcoin_tx_compute_fee_w_inputs(const struct bitcoin_tx *tx,
struct amount_sat input_val);
/* Wire marshalling and unmarshalling */
void fromwire_bitcoin_txid(const u8 **cursor, size_t *max,
struct bitcoin_txid *txid);
struct bitcoin_tx *fromwire_bitcoin_tx(const tal_t *ctx,
const u8 **cursor, size_t *max);
struct bitcoin_tx_output *fromwire_bitcoin_tx_output(const tal_t *ctx,
const u8 **cursor, size_t *max);
struct wally_tx *fromwire_wally_tx(const tal_t *ctx, const u8 **cursor, size_t *max);
void towire_bitcoin_txid(u8 **pptr, const struct bitcoin_txid *txid);
void towire_bitcoin_tx(u8 **pptr, const struct bitcoin_tx *tx);
void towire_bitcoin_tx_output(u8 **pptr, const struct bitcoin_tx_output *output);
void towire_wally_tx(u8 **pptr, const struct wally_tx *wtx);
/* Various weights of transaction parts. */
size_t bitcoin_tx_core_weight(size_t num_inputs, size_t num_outputs);
size_t bitcoin_tx_output_weight(size_t outscript_len);
/* Weight to push sig on stack. */
size_t bitcoin_tx_input_sig_weight(void);
/* Segwit input, but with parameter for witness weight (size) */
size_t bitcoin_tx_input_weight(bool p2sh, size_t witness_weight);
/* The witness weight for a simple (sig + key) input */
size_t bitcoin_tx_simple_input_witness_weight(void);
/* We only do segwit inputs, and we assume witness is sig + key */
size_t bitcoin_tx_simple_input_weight(bool p2sh);
/**
* change_amount - Is it worth making a P2WPKH change output at this feerate?
* @excess: input amount we have above the tx fee and other outputs.
* @feerate_perkw: feerate.
*
* If it's not worth (or possible) to make change, returns AMOUNT_SAT(0).
* Otherwise returns the amount of the change output to add (@excess minus
* the additional fee for the change output itself).
*/
struct amount_sat change_amount(struct amount_sat excess, u32 feerate_perkw);
#endif /* LIGHTNING_BITCOIN_TX_H */