// SubmitBlockAsync returns an instance of a type that can be used to get the // result of the RPC at some future time by invoking the Receive function on the // returned instance. // // See SubmitBlock for the blocking version and more details. func (c *Client) SubmitBlockAsync(block *dcrutil.Block, options *dcrjson.SubmitBlockOptions) FutureSubmitBlockResult { blockHex := "" if block != nil { blockBytes, err := block.Bytes() if err != nil { return newFutureError(err) } blockHex = hex.EncodeToString(blockBytes) } cmd := dcrjson.NewSubmitBlockCmd(blockHex, options) return c.sendCmd(cmd) }
// InsertBlock inserts raw block and transaction data from a block into the // database. The first block inserted into the database will be treated as the // genesis block. Every subsequent block insert requires the referenced parent // block to already exist. func (db *LevelDb) InsertBlock(block *dcrutil.Block) (height int64, rerr error) { // Be careful with this function on syncs. It contains decred changes. // Obtain the previous block first so long as it's not the genesis block var blockPrev *dcrutil.Block // Decred: WARNING. This function assumes that all block insertion calls have // dcrutil.blocks passed to them with block.blockHeight set correctly. However, // loading the genesis block in btcd didn't do this (via block manager); pre- // production it should be established that all calls to this function pass // blocks with block.blockHeight set correctly. if block.Height() != 0 { var errBlockPrev error blockPrev, errBlockPrev = db.FetchBlockBySha(&block.MsgBlock().Header.PrevBlock) if errBlockPrev != nil { blockSha := block.Sha() log.Warnf("Failed to fetch parent block of block %v", blockSha) return 0, errBlockPrev } } db.dbLock.Lock() defer db.dbLock.Unlock() defer func() { if rerr == nil { rerr = db.processBatches() } else { db.lBatch().Reset() } }() blocksha := block.Sha() mblock := block.MsgBlock() rawMsg, err := block.Bytes() if err != nil { log.Warnf("Failed to obtain raw block sha %v", blocksha) return 0, err } _, sTxLoc, err := block.TxLoc() if err != nil { log.Warnf("Failed to obtain raw block sha %v, stxloc %v", blocksha, sTxLoc) return 0, err } // Insert block into database newheight, err := db.insertBlockData(blocksha, &mblock.Header.PrevBlock, rawMsg) if err != nil { log.Warnf("Failed to insert block %v %v %v", blocksha, &mblock.Header.PrevBlock, err) return 0, err } // Get data necessary to process regular tx tree of parent block if it's not // the genesis block. var mBlockPrev *wire.MsgBlock var txLoc []wire.TxLoc if blockPrev != nil { blockShaPrev := blockPrev.Sha() mBlockPrev = blockPrev.MsgBlock() txLoc, _, err = blockPrev.TxLoc() if err != nil { log.Warnf("Failed to obtain raw block sha %v, txloc %v", blockShaPrev, txLoc) return 0, err } } // Insert the regular tx of the parent block into the tx database if the vote // bits enable it, and if it's not the genesis block. votebits := mblock.Header.VoteBits if dcrutil.IsFlagSet16(votebits, dcrutil.BlockValid) && blockPrev != nil { for txidx, tx := range mBlockPrev.Transactions { txsha, err := blockPrev.TxSha(txidx) if err != nil { log.Warnf("failed to compute tx name block %v idx %v err %v", blocksha, txidx, err) return 0, err } spentbuflen := (len(tx.TxOut) + 7) / 8 spentbuf := make([]byte, spentbuflen, spentbuflen) if len(tx.TxOut)%8 != 0 { for i := uint(len(tx.TxOut) % 8); i < 8; i++ { spentbuf[spentbuflen-1] |= (byte(1) << i) } } // newheight-1 instead of newheight below, as the tx is actually found // in the parent. //fmt.Printf("insert tx %v into db at height %v\n", txsha, newheight) err = db.insertTx(txsha, newheight-1, uint32(txidx), txLoc[txidx].TxStart, txLoc[txidx].TxLen, spentbuf) if err != nil { log.Warnf("block %v idx %v failed to insert tx %v %v err %v", blocksha, newheight-1, &txsha, txidx, err) return 0, err } err = db.doSpend(tx) if err != nil { log.Warnf("block %v idx %v failed to spend tx %v %v err %v", blocksha, newheight, txsha, txidx, err) return 0, err } } } // Insert the stake tx of the current block into the tx database. if len(mblock.STransactions) != 0 { for txidx, tx := range mblock.STransactions { txsha, err := block.STxSha(txidx) if err != nil { log.Warnf("failed to compute stake tx name block %v idx %v err %v", blocksha, txidx, err) return 0, err } spentbuflen := (len(tx.TxOut) + 7) / 8 spentbuf := make([]byte, spentbuflen, spentbuflen) if len(tx.TxOut)%8 != 0 { for i := uint(len(tx.TxOut) % 8); i < 8; i++ { spentbuf[spentbuflen-1] |= (byte(1) << i) } } err = db.insertTx(txsha, newheight, uint32(txidx), sTxLoc[txidx].TxStart, sTxLoc[txidx].TxLen, spentbuf) if err != nil { log.Warnf("block %v idx %v failed to insert stake tx %v %v err %v", blocksha, newheight, &txsha, txidx, err) return 0, err } err = db.doSpend(tx) if err != nil { log.Warnf("block %v idx %v failed to spend stx %v %v err %v", blocksha, newheight, txsha, txidx, err) return 0, err } } } return newheight, nil }