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#include <bitcoin/block.h>
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#include <bitcoin/chainparams.h>
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#include <bitcoin/pullpush.h>
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#include <bitcoin/tx.h>
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#include <ccan/str/hex/hex.h>
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#include <common/type_to_string.h>
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#include <wire/wire.h>
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static void sha256_varint(struct sha256_ctx *ctx, u64 val)
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{
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u8 vt[VARINT_MAX_LEN];
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size_t vtlen;
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vtlen = varint_put(vt, val);
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sha256_update(ctx, vt, vtlen);
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}
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static void bitcoin_block_pull_dynafed_params(const u8 **cursor, size_t *len, struct sha256_ctx *shactx)
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{
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u8 type;
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u64 l1, l2;
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pull(cursor, len, &type, 1);
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sha256_update(shactx, &type, 1);
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switch ((enum dynafed_params_type)type) {
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case DYNAFED_PARAMS_NULL:
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break;
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case DYNAFED_PARAMS_COMPACT:
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/* "scriptPubKey" used for block signing */
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l1 = pull_varint(cursor, len);
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sha256_varint(shactx, l1);
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sha256_update(shactx, *cursor, l1);
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pull(cursor, len, NULL, l1);
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/* signblock_witness_limit */
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sha256_update(shactx, *cursor, 4);
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pull(cursor, len, NULL, 4);
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/* Skip elided_root */
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sha256_update(shactx, *cursor, 32);
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pull(cursor, len, NULL, 32);
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break;
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case DYNAFED_PARAMS_FULL:
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/* "scriptPubKey" used for block signing */
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l1 = pull_varint(cursor, len);
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sha256_varint(shactx, l1);
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sha256_update(shactx, *cursor, l1);
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pull(cursor, len, NULL, l1);
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/* signblock_witness_limit */
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sha256_update(shactx, *cursor, 4);
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pull(cursor, len, NULL, 4);
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/* fedpeg_program */
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l1 = pull_varint(cursor, len);
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sha256_varint(shactx, l1);
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sha256_update(shactx, *cursor, l1);
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pull(cursor, len, NULL, l1);
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/* fedpegscript */
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l1 = pull_varint(cursor, len);
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sha256_varint(shactx, l1);
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sha256_update(shactx, *cursor, l1);
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pull(cursor, len, NULL, l1);
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/* extension space */
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l2 = pull_varint(cursor, len);
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sha256_varint(shactx, l2);
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for (size_t i = 0; i < l2; i++) {
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l1 = pull_varint(cursor, len);
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sha256_varint(shactx, l1);
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sha256_update(shactx, *cursor, l1);
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pull(cursor, len, NULL, l1);
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}
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break;
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}
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}
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static void bitcoin_block_pull_dynafed_details(const u8 **cursor, size_t *len, struct sha256_ctx *shactx)
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{
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bitcoin_block_pull_dynafed_params(cursor, len, shactx);
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bitcoin_block_pull_dynafed_params(cursor, len, shactx);
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/* Consume the signblock_witness */
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u64 numwitnesses = pull_varint(cursor, len);
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for (size_t i=0; i<numwitnesses; i++) {
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u64 witsize = pull_varint(cursor, len);
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pull(cursor, len, NULL, witsize);
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}
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}
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/* Encoding is <blockhdr> <varint-num-txs> <tx>... */
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struct bitcoin_block *
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bitcoin_block_from_hex(const tal_t *ctx, const struct chainparams *chainparams,
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const char *hex, size_t hexlen)
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{
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struct bitcoin_block *b;
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u8 *linear_tx;
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const u8 *p;
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size_t len, i, num, templen;
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struct sha256_ctx shactx;
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bool is_dynafed;
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u32 height;
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if (hexlen && hex[hexlen-1] == '\n')
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hexlen--;
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/* Set up the block for success. */
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b = tal(ctx, struct bitcoin_block);
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/* De-hex the array. */
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len = hex_data_size(hexlen);
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p = linear_tx = tal_arr(ctx, u8, len);
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if (!hex_decode(hex, hexlen, linear_tx, len))
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return tal_free(b);
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sha256_init(&shactx);
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b->hdr.version = pull_le32(&p, &len);
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sha256_le32(&shactx, b->hdr.version);
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pull(&p, &len, &b->hdr.prev_hash, sizeof(b->hdr.prev_hash));
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sha256_update(&shactx, &b->hdr.prev_hash, sizeof(b->hdr.prev_hash));
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pull(&p, &len, &b->hdr.merkle_hash, sizeof(b->hdr.merkle_hash));
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sha256_update(&shactx, &b->hdr.merkle_hash, sizeof(b->hdr.merkle_hash));
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b->hdr.timestamp = pull_le32(&p, &len);
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sha256_le32(&shactx, b->hdr.timestamp);
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if (is_elements(chainparams)) {
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/* A dynafed block is signalled by setting the MSB of the version. */
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is_dynafed = (b->hdr.version >> 31 == 1);
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/* elements_header.height */
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height = pull_le32(&p, &len);
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sha256_le32(&shactx, height);
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if (is_dynafed) {
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bitcoin_block_pull_dynafed_details(&p, &len, &shactx);
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} else {
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/* elemens_header.challenge */
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templen = pull_varint(&p, &len);
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sha256_varint(&shactx, templen);
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sha256_update(&shactx, p, templen);
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pull(&p, &len, NULL, templen);
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/* elements_header.solution. Not hashed since it'd be
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* a circular dependency. */
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templen = pull_varint(&p, &len);
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pull(&p, &len, NULL, templen);
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}
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} else {
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b->hdr.target = pull_le32(&p, &len);
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sha256_le32(&shactx, b->hdr.target);
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b->hdr.nonce = pull_le32(&p, &len);
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sha256_le32(&shactx, b->hdr.nonce);
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}
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sha256_double_done(&shactx, &b->hdr.hash.shad);
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num = pull_varint(&p, &len);
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b->tx = tal_arr(b, struct bitcoin_tx *, num);
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for (i = 0; i < num; i++) {
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b->tx[i] = pull_bitcoin_tx(b->tx, &p, &len);
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b->tx[i]->chainparams = chainparams;
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}
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/* We should end up not overrunning, nor have extra */
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if (!p || len)
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return tal_free(b);
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tal_free(linear_tx);
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return b;
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}
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void bitcoin_block_blkid(const struct bitcoin_block *b,
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struct bitcoin_blkid *out)
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{
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*out = b->hdr.hash;
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}
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/* We do the same hex-reversing crud as txids. */
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bool bitcoin_blkid_from_hex(const char *hexstr, size_t hexstr_len,
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struct bitcoin_blkid *blockid)
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{
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struct bitcoin_txid fake_txid;
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if (!bitcoin_txid_from_hex(hexstr, hexstr_len, &fake_txid))
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return false;
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blockid->shad = fake_txid.shad;
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return true;
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}
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bool bitcoin_blkid_to_hex(const struct bitcoin_blkid *blockid,
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char *hexstr, size_t hexstr_len)
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{
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struct bitcoin_txid fake_txid;
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fake_txid.shad = blockid->shad;
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return bitcoin_txid_to_hex(&fake_txid, hexstr, hexstr_len);
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}
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static char *fmt_bitcoin_blkid(const tal_t *ctx,
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const struct bitcoin_blkid *blkid)
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{
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char *hexstr = tal_arr(ctx, char, hex_str_size(sizeof(*blkid)));
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bitcoin_blkid_to_hex(blkid, hexstr, hex_str_size(sizeof(*blkid)));
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return hexstr;
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}
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REGISTER_TYPE_TO_STRING(bitcoin_blkid, fmt_bitcoin_blkid);
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void fromwire_bitcoin_blkid(const u8 **cursor, size_t *max,
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struct bitcoin_blkid *blkid)
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{
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fromwire_sha256_double(cursor, max, &blkid->shad);
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}
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void towire_bitcoin_blkid(u8 **pptr, const struct bitcoin_blkid *blkid)
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{
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towire_sha256_double(pptr, &blkid->shad);
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}
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void towire_chainparams(u8 **cursor, const struct chainparams *chainparams)
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{
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towire_bitcoin_blkid(cursor, &chainparams->genesis_blockhash);
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}
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void fromwire_chainparams(const u8 **cursor, size_t *max,
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const struct chainparams **chainparams)
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{
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struct bitcoin_blkid genesis;
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fromwire_bitcoin_blkid(cursor, max, &genesis);
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*chainparams = chainparams_by_chainhash(&genesis);
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}
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