lbcd/sqlite3/sqliteblock.go

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// Copyright (c) 2013 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package sqlite3
import (
"database/sql"
"github.com/conformal/btcdb"
"github.com/conformal/btcwire"
_ "github.com/mattn/go-sqlite3"
)
// InsertBlockData stores a block hash and its associated data block with a
// previous sha of `prevSha' and a version of `pver'.
func (db *SqliteDb) InsertBlockData(sha *btcwire.ShaHash, prevSha *btcwire.ShaHash, pver uint32, buf []byte) (blockid int64, err error) {
db.dbLock.Lock()
defer db.dbLock.Unlock()
return db.insertBlockData(sha, prevSha, pver, buf)
}
// insertSha stores a block hash and its associated data block with a
// previous sha of `prevSha' and a version of `pver'.
// insertSha shall be called with db lock held
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func (db *SqliteDb) insertBlockData(sha *btcwire.ShaHash, prevSha *btcwire.ShaHash, pver uint32, buf []byte) (int64, error) {
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tx := &db.txState
if tx.tx == nil {
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err := db.startTx()
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if err != nil {
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return 0, err
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}
}
// It is an error if the previous block does not already exist in the
// database, unless there are no blocks at all.
if prevOk := db.blkExistsSha(prevSha); !prevOk {
var numBlocks uint64
querystr := "SELECT COUNT(blockid) FROM block;"
err := db.sqldb.QueryRow(querystr).Scan(&numBlocks)
if err != nil {
return 0, err
}
if numBlocks != 0 {
return 0, btcdb.PrevShaMissing
}
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}
result, err := db.blkStmts[blkInsertSha].Exec(sha.Bytes(), pver, buf)
if err != nil {
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return 0, err
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}
blkid, err := result.LastInsertId()
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if err != nil {
return 0, err
}
blkid -= 1 // skew between btc blockid and sql
// Because we don't know know what the last idx is, we don't
// cache unless already cached
if db.lastBlkShaCached == true {
db.lastBlkSha = *sha
db.lastBlkIdx++
}
bid := tBlockInsertData{*sha, pver, buf}
tx.txInsertList = append(tx.txInsertList, bid)
tx.txDataSz += len(buf)
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return blkid, nil
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}
// fetchSha returns the datablock and pver for the given ShaHash.
func (db *SqliteDb) fetchSha(sha btcwire.ShaHash) (buf []byte, pver uint32,
blkid int64, err error) {
row := db.blkStmts[blkFetchSha].QueryRow(sha.Bytes())
var blockidx int64
var databytes []byte
err = row.Scan(&pver, &databytes, &blockidx)
if err == sql.ErrNoRows {
return // no warning
}
if err != nil {
log.Warnf("fail 2 %v", err)
return
}
buf = databytes
blkid = blockidx - 1 // skew between btc blockid and sql
return
}
// ExistsSha looks up the given block hash
// returns true if it is present in the database.
func (db *SqliteDb) ExistsSha(sha *btcwire.ShaHash) (exists bool) {
db.dbLock.Lock()
defer db.dbLock.Unlock()
_, exists = db.fetchBlockCache(sha)
if exists {
return
}
// not in cache, try database
exists = db.blkExistsSha(sha)
return
}
// blkExistsSha looks up the given block hash
// returns true if it is present in the database.
// CALLED WITH LOCK HELD
func (db *SqliteDb) blkExistsSha(sha *btcwire.ShaHash) bool {
var pver uint32
row := db.blkStmts[blkExistsSha].QueryRow(sha.Bytes())
err := row.Scan(&pver)
if err == sql.ErrNoRows {
return false
}
if err != nil {
// ignore real errors?
log.Warnf("blkExistsSha: fail %v", err)
return false
}
return true
}
// FetchBlockShaByHeight returns a block hash based on its height in the
// block chain.
func (db *SqliteDb) FetchBlockShaByHeight(height int64) (sha *btcwire.ShaHash, err error) {
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db.dbLock.Lock()
defer db.dbLock.Unlock()
return db.fetchBlockShaByHeight(height)
}
// fetchBlockShaByHeight returns a block hash based on its height in the
// block chain.
func (db *SqliteDb) fetchBlockShaByHeight(height int64) (sha *btcwire.ShaHash, err error) {
var row *sql.Row
blockidx := height + 1 // skew between btc blockid and sql
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row = db.blkStmts[blkFetchIdx].QueryRow(blockidx)
var shabytes []byte
err = row.Scan(&shabytes)
if err != nil {
return
}
var shaval btcwire.ShaHash
shaval.SetBytes(shabytes)
return &shaval, nil
}
// FetchHeightRange looks up a range of blocks by the start and ending
// heights. Fetch is inclusive of the start height and exclusive of the
// ending height. To fetch all hashes from the start height until no
// more are present, use the special id `AllShas'.
func (db *SqliteDb) FetchHeightRange(startHeight, endHeight int64) (rshalist []btcwire.ShaHash, err error) {
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db.dbLock.Lock()
defer db.dbLock.Unlock()
startidx := startHeight + 1 // skew between btc block height and sql
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var endidx int64
if endHeight == btcdb.AllShas {
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endidx = btcdb.AllShas // no skew if asking for all
} else {
endidx = endHeight + 1 // skew between btc block height and sql
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}
rows, err := db.blkStmts[blkFetchIdxList].Query(startidx, endidx)
if err != nil {
log.Warnf("query failed %v", err)
return
}
var shalist []btcwire.ShaHash
for rows.Next() {
var sha btcwire.ShaHash
var shabytes []byte
err = rows.Scan(&shabytes)
if err != nil {
log.Warnf("wtf? %v", err)
break
}
sha.SetBytes(shabytes)
shalist = append(shalist, sha)
}
rows.Close()
if err == nil {
rshalist = shalist
}
log.Tracef("FetchIdxRange idx %v %v returned %v shas err %v", startHeight, endHeight, len(shalist), err)
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return
}
// NewestSha returns the hash and block height of the most recent (end) block of
// the block chain. It will return the zero hash, -1 for the block height, and
// no error (nil) if there are not any blocks in the database yet.
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func (db *SqliteDb) NewestSha() (sha *btcwire.ShaHash, blkid int64, err error) {
var row *sql.Row
var blockidx int64
db.dbLock.Lock()
defer db.dbLock.Unlock()
// answer may be cached
if db.lastBlkShaCached == true {
shacopy := db.lastBlkSha
sha = &shacopy
blkid = db.lastBlkIdx - 1 // skew between btc blockid and sql
return
}
querystr := "SELECT key, blockid FROM block ORDER BY blockid DESC;"
tx := &db.txState
if tx.tx != nil {
row = tx.tx.QueryRow(querystr)
} else {
row = db.sqldb.QueryRow(querystr)
}
var shabytes []byte
err = row.Scan(&shabytes, &blockidx)
if err == sql.ErrNoRows {
return &btcwire.ShaHash{}, -1, nil
}
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if err == nil {
var retsha btcwire.ShaHash
retsha.SetBytes(shabytes)
sha = &retsha
blkid = blockidx - 1 // skew between btc blockid and sql
db.lastBlkSha = retsha
db.lastBlkIdx = blockidx
db.lastBlkShaCached = true
}
return
}
type SqliteBlockIterator struct {
rows *sql.Rows
stmt *sql.Stmt
db *SqliteDb
}
// NextRow iterates thru all blocks in database.
func (bi *SqliteBlockIterator) NextRow() bool {
return bi.rows.Next()
}
// Row returns row data for block iterator.
func (bi *SqliteBlockIterator) Row() (key *btcwire.ShaHash, pver uint32,
buf []byte, err error) {
var keybytes []byte
err = bi.rows.Scan(&keybytes, &pver, &buf)
if err == nil {
var retkey btcwire.ShaHash
retkey.SetBytes(keybytes)
key = &retkey
}
return
}
// Close shuts down the iterator when done walking blocks in the database.
func (bi *SqliteBlockIterator) Close() {
bi.rows.Close()
bi.stmt.Close()
}
// NewIterateBlocks prepares iterator for all blocks in database.
func (db *SqliteDb) NewIterateBlocks() (btcdb.BlockIterator, error) {
var bi SqliteBlockIterator
db.dbLock.Lock()
defer db.dbLock.Unlock()
stmt, err := db.sqldb.Prepare("SELECT key, pver, data FROM block ORDER BY blockid;")
if err != nil {
return nil, err
}
tx := &db.txState
if tx.tx != nil {
txstmt := tx.tx.Stmt(stmt)
stmt.Close()
stmt = txstmt
}
bi.stmt = stmt
bi.rows, err = bi.stmt.Query()
if err != nil {
return nil, err
}
bi.db = db
return &bi, nil
}