rgb-cln/create-close-tx.c

/* My example:
 * ./create-close-tx A-anchor.tx A-open.pb B-open.pb A-close.pb B-close-complete.pb > A-close.tx
 */
#include <ccan/crypto/shachain/shachain.h>
#include <ccan/short_types/short_types.h>
#include <ccan/tal/tal.h>
#include <ccan/opt/opt.h>
#include <ccan/str/hex/hex.h>
#include <ccan/err/err.h>
#include <ccan/read_write_all/read_write_all.h>
#include "lightning.pb-c.h"
#include "anchor.h"
#include "base58.h"
#include "pkt.h"
#include "bitcoin_script.h"
#include "permute_tx.h"
#include "signature.h"
#include "pubkey.h"
#include "close_tx.h"
#include <openssl/ec.h>
#include <unistd.h>

int main(int argc, char *argv[])
{
	const tal_t *ctx = tal_arr(NULL, char, 0);
	OpenChannel *o1, *o2;
	struct bitcoin_tx *anchor, *close_tx;
	struct sha256_double anchor_txid;
	struct bitcoin_signature sig1, sig2;
	struct pubkey pubkey1, pubkey2;
	u8 *redeemscript, *p2sh, *tx_arr;
	char *tx_hex;
	CloseChannel *close;
	CloseChannelComplete *closecomplete;
	size_t i;

	err_set_progname(argv[0]);

	/* FIXME: Take update.pbs to adjust channel */
	opt_register_noarg("--help|-h", opt_usage_and_exit,
			   "<anchor-tx> <open-channel-file1> <open-channel-file2> <close-protobuf> <close-complete-protobuf>\n"
			   "Create the close transaction from the signatures",
			   "Print this message.");

 	opt_parse(&argc, argv, opt_log_stderr_exit);

	if (argc != 6)
		opt_usage_exit_fail("Expected 5 arguments");

	anchor = bitcoin_tx_from_file(ctx, argv[1]);
	o1 = pkt_from_file(argv[2], PKT__PKT_OPEN)->open;
	o2 = pkt_from_file(argv[3], PKT__PKT_OPEN)->open;
	close = pkt_from_file(argv[4], PKT__PKT_CLOSE)->close;
	closecomplete = pkt_from_file(argv[5], PKT__PKT_CLOSE_COMPLETE)->close_complete;

	bitcoin_txid(anchor, &anchor_txid);

	/* Pubkeys well-formed? */
	if (!proto_to_pubkey(o1->anchor->pubkey, &pubkey1))
		errx(1, "Invalid anchor-1 key");
	if (!proto_to_pubkey(o2->anchor->pubkey, &pubkey2))
		errx(1, "Invalid anchor-2 key");
	
	/* This is what the anchor pays to; figure out which output. */
	redeemscript = bitcoin_redeem_2of2(ctx, &pubkey1, &pubkey2);

	/* This is the scriptPubKey commit tx will have */
	p2sh = scriptpubkey_p2sh(ctx, redeemscript);

	for (i = 0; i < anchor->output_count; i++) {
		if (anchor->output[i].script_length != tal_count(p2sh))
			continue;
		if (memcmp(anchor->output[i].script, p2sh, tal_count(p2sh)) == 0)
			break;
	}
	if (i == anchor->output_count)
		errx(1, "No matching output in %s", argv[1]);

	/* Now create the close tx to spend 2/2 output of anchor. */
	close_tx = create_close_tx(ctx, o1, o2, &anchor_txid, i);

	/* Signatures well-formed? */
	sig1.stype = sig2.stype = SIGHASH_ALL;
	if (!proto_to_signature(close->sig, &sig1.sig))
		errx(1, "Invalid close-packet");
	if (!proto_to_signature(closecomplete->sig, &sig2.sig))
		errx(1, "Invalid closecomplete-packet");

	/* Combined signatures must validate correctly. */
	if (!check_2of2_sig(close_tx, 0, redeemscript, tal_count(redeemscript),
			    &pubkey1, &pubkey2, &sig1, &sig2))
		errx(1, "Signature failed");

	/* Create p2sh input for close_tx */
	close_tx->input[0].script = scriptsig_p2sh_2of2(close_tx, &sig1, &sig2,
						      &pubkey1, &pubkey2);
	close_tx->input[0].script_length = tal_count(close_tx->input[0].script);

	/* Print it out in hex. */
	tx_arr = linearize_tx(ctx, close_tx);
	tx_hex = tal_arr(tx_arr, char, hex_str_size(tal_count(tx_arr)));
	hex_encode(tx_arr, tal_count(tx_arr), tx_hex, tal_count(tx_hex));

	if (!write_all(STDOUT_FILENO, tx_hex, strlen(tx_hex)))
		err(1, "Writing out transaction");

	tal_free(ctx);
	return 0;
}
create-close-tx: create a mutual close tx from the close sigs. Signed-off-by: Rusty Russell <rusty@rustcorp.com.au> 2015-06-08 06:38:10 +01:00			`/* My example:`
			`* ./create-close-tx A-anchor.tx A-open.pb B-open.pb A-close.pb B-close-complete.pb > A-close.tx`
			`*/`
			`#include <ccan/crypto/shachain/shachain.h>`
			`#include <ccan/short_types/short_types.h>`
			`#include <ccan/tal/tal.h>`
			`#include <ccan/opt/opt.h>`
			`#include <ccan/str/hex/hex.h>`
			`#include <ccan/err/err.h>`
			`#include <ccan/read_write_all/read_write_all.h>`
			`#include "lightning.pb-c.h"`
			`#include "anchor.h"`
			`#include "base58.h"`
			`#include "pkt.h"`
			`#include "bitcoin_script.h"`
			`#include "permute_tx.h"`
			`#include "signature.h"`
			`#include "pubkey.h"`
			`#include "close_tx.h"`
			`#include <openssl/ec.h>`
			`#include <unistd.h>`

			`int main(int argc, char *argv[])`
			`{`
			`const tal_t *ctx = tal_arr(NULL, char, 0);`
			`OpenChannel o1, o2;`
			`struct bitcoin_tx anchor, close_tx;`
			`struct sha256_double anchor_txid;`
			`struct bitcoin_signature sig1, sig2;`
			`struct pubkey pubkey1, pubkey2;`
			`u8 redeemscript, p2sh, *tx_arr;`
			`char *tx_hex;`
			`CloseChannel *close;`
			`CloseChannelComplete *closecomplete;`
			`size_t i;`

			`err_set_progname(argv[0]);`

			`/* FIXME: Take update.pbs to adjust channel */`
			`opt_register_noarg("--help\|-h", opt_usage_and_exit,`
			`"<anchor-tx> <open-channel-file1> <open-channel-file2> <close-protobuf> <close-complete-protobuf>\n"`
			`"Create the close transaction from the signatures",`
			`"Print this message.");`

			`opt_parse(&argc, argv, opt_log_stderr_exit);`

			`if (argc != 6)`
			`opt_usage_exit_fail("Expected 5 arguments");`

			`anchor = bitcoin_tx_from_file(ctx, argv[1]);`
			`o1 = pkt_from_file(argv[2], PKT__PKT_OPEN)->open;`
			`o2 = pkt_from_file(argv[3], PKT__PKT_OPEN)->open;`
			`close = pkt_from_file(argv[4], PKT__PKT_CLOSE)->close;`
			`closecomplete = pkt_from_file(argv[5], PKT__PKT_CLOSE_COMPLETE)->close_complete;`

			`bitcoin_txid(anchor, &anchor_txid);`

			`/* Pubkeys well-formed? */`
			`if (!proto_to_pubkey(o1->anchor->pubkey, &pubkey1))`
			`errx(1, "Invalid anchor-1 key");`
			`if (!proto_to_pubkey(o2->anchor->pubkey, &pubkey2))`
			`errx(1, "Invalid anchor-2 key");`

			`/* This is what the anchor pays to; figure out which output. */`
			`redeemscript = bitcoin_redeem_2of2(ctx, &pubkey1, &pubkey2);`

			`/* This is the scriptPubKey commit tx will have */`
			`p2sh = scriptpubkey_p2sh(ctx, redeemscript);`

			`for (i = 0; i < anchor->output_count; i++) {`
			`if (anchor->output[i].script_length != tal_count(p2sh))`
			`continue;`
			`if (memcmp(anchor->output[i].script, p2sh, tal_count(p2sh)) == 0)`
			`break;`
			`}`
			`if (i == anchor->output_count)`
			`errx(1, "No matching output in %s", argv[1]);`

			`/* Now create the close tx to spend 2/2 output of anchor. */`
			`close_tx = create_close_tx(ctx, o1, o2, &anchor_txid, i);`

			`/* Signatures well-formed? */`
			`sig1.stype = sig2.stype = SIGHASH_ALL;`
			`if (!proto_to_signature(close->sig, &sig1.sig))`
			`errx(1, "Invalid close-packet");`
			`if (!proto_to_signature(closecomplete->sig, &sig2.sig))`
			`errx(1, "Invalid closecomplete-packet");`

			`/* Combined signatures must validate correctly. */`
			`if (!check_2of2_sig(close_tx, 0, redeemscript, tal_count(redeemscript),`
			`&pubkey1, &pubkey2, &sig1, &sig2))`
			`errx(1, "Signature failed");`

			`/* Create p2sh input for close_tx */`
			`close_tx->input[0].script = scriptsig_p2sh_2of2(close_tx, &sig1, &sig2,`
			`&pubkey1, &pubkey2);`
			`close_tx->input[0].script_length = tal_count(close_tx->input[0].script);`

			`/* Print it out in hex. */`
			`tx_arr = linearize_tx(ctx, close_tx);`
			`tx_hex = tal_arr(tx_arr, char, hex_str_size(tal_count(tx_arr)));`
			`hex_encode(tx_arr, tal_count(tx_arr), tx_hex, tal_count(tx_hex));`

			`if (!write_all(STDOUT_FILENO, tx_hex, strlen(tx_hex)))`
			`err(1, "Writing out transaction");`

			`tal_free(ctx);`
			`return 0;`
			`}`