#ifndef LIGHTNING_BITCOIN_TX_H #define LIGHTNING_BITCOIN_TX_H #include #include #include "shadouble.h" /* We unpack varints for our in-memory representation */ #define varint_t u64 struct bitcoin_tx { u32 version; varint_t input_count; struct bitcoin_tx_input *input; /* Only in alpha. */ u64 fee; varint_t output_count; struct bitcoin_tx_output *output; u32 lock_time; }; struct bitcoin_tx_output { u64 amount; varint_t script_length; u8 *script; }; struct bitcoin_tx_input { /* In alpha, this is hashed for signature */ u64 input_amount; struct sha256_double txid; u32 index; /* output number referred to by above */ varint_t script_length; u8 *script; u32 sequence_number; }; /* SHA256^2 the tx: simpler than sha256_tx */ void bitcoin_txid(const struct bitcoin_tx *tx, struct sha256_double *txid); /* Useful for signature code. */ void sha256_tx_for_sig(struct sha256_ctx *ctx, const struct bitcoin_tx *tx, unsigned int input_num); /* Linear bytes of tx. */ u8 *linearize_tx(const tal_t *ctx, 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, varint_t input_count, varint_t output_count); struct bitcoin_tx *bitcoin_tx_from_file(const tal_t *ctx, const char *filename); bool bitcoin_tx_write(int fd, const struct bitcoin_tx *tx); /* Parse hex string to get txid (reversed, a-la bitcoind). */ bool bitcoin_txid_from_hex(const char *hexstr, size_t hexstr_len, struct sha256_double *txid); /* Get hex string of txid (reversed, a-la bitcoind). */ bool bitcoin_txid_to_hex(const struct sha256_double *txid, char *hexstr, size_t hexstr_len); #endif /* LIGHTNING_BITCOIN_TX_H */