// Recovery recovery needles map from super block. func (b *SuperBlock) Recovery(offset uint32, fn func(*needle.Needle, uint32, uint32) error) (err error) { // WARN block may be no left data, must update block offset first if offset == 0 { offset = needle.NeedleOffset(_headerOffset) } b.Offset = offset if err = b.Scan(b.r, offset, func(n *needle.Needle, so, eo uint32) (err1 error) { if err1 = fn(n, so, eo); err1 == nil { b.Offset = eo } return }); err != nil { return } // advise random read // POSIX_FADV_RANDOM disables file readahead entirely. // These changes affect the entire file, not just the specified region // (but other open file handles to the same file are unaffected). if err = myos.Fadvise(b.r.Fd(), 0, 0, myos.POSIX_FADV_RANDOM); err != nil { log.Errorf("block: %s Fadvise() error(%v)", b.File) return } // reset b.w offset, discard left space which can't parse to a needle if _, err = b.w.Seek(needle.BlockOffset(b.Offset), os.SEEK_SET); err != nil { log.Errorf("block: %s Seek() error(%v)", b.File, err) } return }
// init init block file, add/parse meta info. func (b *SuperBlock) init() (err error) { var stat os.FileInfo if stat, err = b.r.Stat(); err != nil { log.Errorf("block: %s Stat() error(%v)", b.File, err) return } if b.Size = stat.Size(); b.Size == 0 { if err = myos.Fallocate(b.w.Fd(), myos.FALLOC_FL_KEEP_SIZE, 0, _maxSize); err != nil { log.Errorf("block: %s Fallocate() error(%s)", b.File, err) return } if err = b.writeMeta(); err != nil { log.Errorf("block: %s writeMeta() error(%v)", b.File, err) return } b.Size = _headerSize } else { if err = b.parseMeta(); err != nil { log.Errorf("block: %s parseMeta() error(%v)", b.File, err) return } if _, err = b.w.Seek(_headerOffset, os.SEEK_SET); err != nil { log.Errorf("block: %s Seek() error(%v)", b.File, err) return } } b.Offset = needle.NeedleOffset(_headerOffset) return }
// Recovery recovery needles map from super block. func (b *SuperBlock) Recovery(offset uint32, fn func(*needle.Needle, uint32, uint32) error) (err error) { var rsize int64 // WARN block may be no left data, must update block offset first if offset == 0 { offset = needle.NeedleOffset(_headerOffset) } b.Offset = offset if err = b.Scan(b.r, offset, func(n *needle.Needle, so, eo uint32) (err1 error) { if err1 = fn(n, so, eo); err1 == nil { b.Offset = eo } return }); err != nil { return } // advise random read // POSIX_FADV_RANDOM disables file readahead entirely. // These changes affect the entire file, not just the specified region // (but other open file handles to the same file are unaffected). if err = myos.Fadvise(b.r.Fd(), 0, 0, myos.POSIX_FADV_RANDOM); err != nil { log.Errorf("block: %s Fadvise() error(%v)", b.File) return } rsize = needle.BlockOffset(b.Offset) // reset b.w offset, discard left space which can't parse to a needle if _, err = b.w.Seek(rsize, os.SEEK_SET); err != nil { log.Errorf("block: %s Seek() error(%v)", b.File, err) return } // recheck offset, keep size and offset consistency if b.Size != rsize { log.Warningf("block: %s [real size: %d, offset: %d] but [size: %d, offset: %d] not consistency, truncate file for force recovery, this may lost data", b.File, b.Size, needle.NeedleOffset(b.Size), rsize, b.Offset) // truncate file if err = b.w.Truncate(rsize); err != nil { log.Errorf("block: %s Truncate() error(%v)", b.File, err) } } return }
// init recovery super block from index or super block. func (v *Volume) init() (err error) { var ( size int64 offset uint32 lastOffset uint32 ) // recovery from index if err = v.Indexer.Recovery(func(ix *index.Index) error { // must no less than last offset if ix.Offset < lastOffset { log.Error("recovery index: %s lastoffset: %d error(%v)", ix, lastOffset, errors.ErrIndexOffset) return errors.ErrIndexOffset } // WARN if index's offset more than the block, discard it. if size = int64(ix.Size) + needle.BlockOffset(ix.Offset); size > v.Block.Size { log.Error("recovery index: %s EOF", ix) return errors.ErrIndexEOF } v.needles[ix.Key] = needle.NewCache(ix.Offset, ix.Size) offset = ix.Offset + needle.NeedleOffset(int64(ix.Size)) lastOffset = ix.Offset return nil }); err != nil && err != errors.ErrIndexEOF { return } // recovery from super block if err = v.Block.Recovery(offset, func(n *needle.Needle, so, eo uint32) (err1 error) { if n.Flag == needle.FlagOK { if err1 = v.Indexer.Write(n.Key, so, n.TotalSize); err1 != nil { return } } else { so = needle.CacheDelOffset } v.needles[n.Key] = needle.NewCache(so, n.TotalSize) return }); err != nil { return } // recheck offset, keep size and offset consistency if v.Block.Size != needle.BlockOffset(v.Block.Offset) { log.Error("block: %s size: %d, offset: %d (%d size) not consistency", v.Block.File, v.Block.Size, v.Block.Offset, needle.BlockOffset(v.Block.Offset)) return errors.ErrSuperBlockOffset } // flush index err = v.Indexer.Flush() return }
func compareTestOffset(b *SuperBlock, n *needle.Needle, offset uint32) (err error) { var v int64 if b.Offset != offset+needle.NeedleOffset(int64(n.TotalSize)) { err = fmt.Errorf("b.Offset: %d not match %d", b.Offset, offset) return } if v, err = b.w.Seek(0, os.SEEK_CUR); err != nil { err = fmt.Errorf("b.Seek() error(%v)", err) return } else { if v != needle.BlockOffset(b.Offset) { err = fmt.Errorf("offset: %d not match", v) return } } return }
func TestIndex(t *testing.T) { var ( i *Indexer err error noffset uint32 file = "../test/test.idx" needles = make(map[int64]int64) ) os.Remove(file) defer os.Remove(file) if i, err = NewIndexer(file, testConf); err != nil { t.Errorf("NewIndexer() error(%v)", err) t.FailNow() } i.Close() // test closed if err = i.Add(1, 1, 8); err != errors.ErrIndexClosed { t.Errorf("Add() error(%v)", err) t.FailNow() } // test open if err = i.Open(); err != nil { t.Errorf("Open() error(%v)", err) t.FailNow() } defer i.Close() // test add if err = i.Add(1, 1, 8); err != nil { t.Errorf("Add() error(%v)", err) t.FailNow() } if err = i.Add(2, 2, 8); err != nil { t.Errorf("Add() error(%v)", err) t.FailNow() } if err = i.Add(5, 3, 8); err != nil { t.Errorf("Add() error(%v)", err) t.FailNow() } if err = i.Add(6, 4, 8); err != nil { t.Errorf("Add() error(%v)", err) t.FailNow() } i.Signal() time.Sleep(1 * time.Second) i.Flush() // test recovery if err = i.Recovery(func(ix *Index) error { needles[ix.Key] = needle.NewCache(ix.Offset, ix.Size) noffset = ix.Offset + needle.NeedleOffset(int64(ix.Size)) return nil }); err != nil { t.Errorf("Recovery() error(%v)", err) t.FailNow() } // add 4 index, start with 5 if noffset != 5 { t.Errorf("noffset: %d not match", noffset) t.FailNow() } if o, s := needle.Cache(needles[1]); o != 1 && s != 8 { t.Error("needle cache not match") t.FailNow() } if o, s := needle.Cache(needles[2]); o != 2 && s != 8 { t.Error("needle cache not match") t.FailNow() } if o, s := needle.Cache(needles[5]); o != 3 && s != 8 { t.Error("needle cache not match") t.FailNow() } if o, s := needle.Cache(needles[6]); o != 4 && s != 8 { t.Error("needle cache not match") t.FailNow() } // test write if err = i.Write(10, 5, 8); err != nil { t.Error("Write() error(%v)", err) t.FailNow() } if err = i.Flush(); err != nil { t.Error("Flush() error(%v)", err) t.FailNow() } // test recovery noffset = 0 if err = i.Recovery(func(ix *Index) error { needles[ix.Key] = needle.NewCache(ix.Offset, ix.Size) noffset = ix.Offset + needle.NeedleOffset(int64(ix.Size)) return nil }); err != nil { t.Errorf("Recovery() error(%v)", err) t.FailNow() } // add 5 index, start with 6 if noffset != 6 { t.Errorf("noffset: %d not match", noffset) t.FailNow() } if o, s := needle.Cache(needles[10]); o != 5 && s != 8 { t.Error("needle.Value(1) not match") t.FailNow() } }
// Scan scan a block file. func (b *SuperBlock) Scan(r *os.File, offset uint32, fn func(*needle.Needle, uint32, uint32) error) (err error) { var ( so, eo uint32 bso int64 fi os.FileInfo fd = r.Fd() n = new(needle.Needle) rd = bufio.NewReaderSize(r, b.conf.Block.BufferSize) ) if offset == 0 { offset = needle.NeedleOffset(_headerOffset) } so, eo = offset, offset bso = needle.BlockOffset(so) // advise sequential read if fi, err = r.Stat(); err != nil { log.Errorf("block: %s Stat() error(%v)", b.File) return } if err = myos.Fadvise(fd, bso, fi.Size(), myos.POSIX_FADV_SEQUENTIAL); err != nil { log.Errorf("block: %s Fadvise() error(%v)", b.File) return } log.Infof("scan block: %s from offset: %d", b.File, offset) if _, err = r.Seek(bso, os.SEEK_SET); err != nil { log.Errorf("block: %s Seek() error(%v)", b.File) return } for { if err = n.ParseFrom(rd); err != nil { if err != io.EOF { log.Errorf("block: parse needle from offset: %d:%d error(%v)", so, eo, err) } break } if n.TotalSize > int32(b.conf.BlockMaxSize) { log.Errorf("scan block: %s error(%v)", n, errors.ErrNeedleSize) err = errors.ErrNeedleSize break } if log.V(1) { log.Info(n.String()) } eo += n.IncrOffset if err = fn(n, so, eo); err != nil { log.Errorf("block: callback from offset: %d:%d error(%v)", so, eo, err) break } so = eo } if err == io.EOF { // advise no need page cache if err = myos.Fadvise(fd, bso, needle.BlockOffset(eo-so), myos.POSIX_FADV_DONTNEED); err != nil { log.Errorf("block: %s Fadvise() error(%v)", b.File) return } log.Infof("scan block: %s to offset: %d [ok]", b.File, eo) err = nil } else { log.Infof("scan block: %s to offset: %d error(%v) [failed]", b.File, eo, err) } return }
func TestSuperBlock(t *testing.T) { var ( b *SuperBlock offset, v2, v3, v4 uint32 err error buf = &bytes.Buffer{} needles = make(map[int64]int64) data = []byte("test") n = needle.NewBufferNeedle(4) file = "../test/test.block" ifile = "../test/test.idx" //indexer *Indexer ) os.Remove(file) os.Remove(ifile) defer os.Remove(file) defer os.Remove(ifile) // test new block file if b, err = NewSuperBlock(file, testConf); err != nil { t.Errorf("NewSuperBlock(\"%s\") error(%v)", file, err) t.FailNow() } b.Close() // test parse block file if b, err = NewSuperBlock(file, testConf); err != nil { t.Errorf("NewSuperBlock(\"%s\") error(%v)", file, err) t.FailNow() } b.Close() // test open if err = b.Open(); err != nil { t.Errorf("Open() error(%v)", err) t.FailNow() } defer b.Close() // test write if _, err = buf.Write(data); err != nil { t.Errorf("buf.Write() error(%v)", err) t.FailNow() } if err = n.WriteFrom(1, 1, 4, buf); err != nil { t.Errorf("n.Write() error(%v)", err) t.FailNow() } if err = b.Write(n); err != nil { t.Errorf("b.Write() error(%v)", err) t.FailNow() } if err = compareTestOffset(b, n, needle.NeedleOffset(int64(_headerSize))); err != nil { t.Errorf("compareTestOffset() error(%v)", err) t.FailNow() } offset = b.Offset v2 = b.Offset // test get if err = b.ReadAt(1, n); err != nil { t.Errorf("b.ReadAt() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 1, 1, needle.FlagOK, n, data); err != nil { t.Errorf("compareTestNeedle() error(%v)", err) t.FailNow() } // test write if _, err = buf.Write(data); err != nil { t.Errorf("buf.Write() error(%v)", err) t.FailNow() } if err = n.WriteFrom(2, 2, 4, buf); err != nil { t.Errorf("n.Write() error(%v)", err) t.FailNow() } if err = b.Write(n); err != nil { t.Errorf("b.Write() error(%v)", err) t.FailNow() } if err = compareTestOffset(b, n, offset); err != nil { t.Errorf("compareTestOffset() error(%v)", err) t.FailNow() } offset = b.Offset v3 = b.Offset if err = b.ReadAt(6, n); err != nil { t.Errorf("b.ReadAt() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 2, 2, needle.FlagOK, n, data); err != nil { t.Error("compareTestNeedle(2)") t.FailNow() } // test write if _, err = buf.Write(data); err != nil { t.Errorf("buf.Write() error(%v)", err) t.FailNow() } if err = n.WriteFrom(3, 3, 4, buf); err != nil { t.Errorf("n.Write() error(%v)", err) t.FailNow() } if err = b.Write(n); err != nil { t.Errorf("b.Write() error(%v)", err) t.FailNow() } offset = b.Offset v4 = b.Offset // test write if _, err = buf.Write(data); err != nil { t.Errorf("buf.Write() error(%v)", err) t.FailNow() } if err = n.WriteFrom(4, 4, 4, buf); err != nil { t.Errorf("n.Write() error(%v)", err) t.FailNow() } if err = b.Write(n); err != nil { t.Errorf("b.Write() error(%v)", err) t.FailNow() } if err = b.flush(true); err != nil { t.Errorf("Flush() error(%v)", err) t.FailNow() } if err = compareTestOffset(b, n, offset); err != nil { t.Errorf("compareTestOffset() error(%v)", err) t.FailNow() } if err = b.ReadAt(11, n); err != nil { t.Errorf("Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 3, 3, needle.FlagOK, n, data); err != nil { t.Error("compareTestNeedle(3)") t.FailNow() } if err = b.ReadAt(16, n); err != nil { t.Errorf("Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 4, 4, needle.FlagOK, n, data); err != nil { t.Error("compareTestNeedle(r)") t.FailNow() } // test del, del first needles if err = b.Delete(1); err != nil { t.Errorf("Del() error(%v)", err) t.FailNow() } // test get if err = b.ReadAt(1, n); err != nil { t.Errorf("Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 1, 1, needle.FlagDel, n, data); err != nil { t.FailNow() } if err = b.ReadAt(11, n); err != nil { t.Errorf("Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 3, 3, needle.FlagOK, n, data); err != nil { t.FailNow() } if err = b.ReadAt(16, n); err != nil { t.Errorf("b.Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 4, 4, needle.FlagOK, n, data); err != nil { t.FailNow() } // test recovery offset = b.Offset if err = b.Recovery(0, func(rn *needle.Needle, so, eo uint32) (err1 error) { if rn.Flag != needle.FlagOK { so = needle.CacheDelOffset } needles[rn.Key] = needle.NewCache(so, rn.TotalSize) return }); err != nil { t.Errorf("Recovery() error(%v)", err) t.FailNow() } if b.Offset != offset { err = fmt.Errorf("b.Offset not match %d", b.Offset) t.Error(err) t.FailNow() } if o, s := needle.Cache(needles[1]); o != needle.CacheDelOffset && s != 40 { t.Error("needle.Cache() not match") t.FailNow() } if o, s := needle.Cache(needles[2]); o != v2 && s != 40 { t.Error("needle.Cache() not match") t.FailNow() } if o, s := needle.Cache(needles[3]); o != v3 && s != 40 { t.Error("needle.Cache() not match") t.FailNow() } if o, s := needle.Cache(needles[4]); o != v4 && s != 40 { t.Error("needle.Cache() not match") t.FailNow() } needles = make(map[int64]int64) if err = b.Recovery(v2, func(rn *needle.Needle, so, eo uint32) (err1 error) { if rn.Flag != needle.FlagOK { so = needle.CacheDelOffset } needles[rn.Key] = needle.NewCache(so, rn.TotalSize) return }); err != nil { t.Errorf("b.Recovery() error(%v)", err) t.FailNow() } // skip first needle, so key:1 must not exist if o, s := needle.Cache(needles[1]); o != 0 && s != 0 { t.Error("needle.Value(1) not match") t.FailNow() } if o, s := needle.Cache(needles[2]); o != v2 && s != 40 { t.Error("needle.Value(2) not match") t.FailNow() } if o, s := needle.Cache(needles[3]); o != v3 && s != 40 { t.Error("needle.Value(3) not match") t.FailNow() } if o, s := needle.Cache(needles[4]); o != v4 && s != 40 { t.Error("needle.Value(4) not match") t.FailNow() } // test repair if _, err = buf.Write(data); err != nil { t.Errorf("buf.Write() error(%v)", err) t.FailNow() } if err = n.WriteFrom(3, 3, 4, buf); err != nil { t.Errorf("n.Write() error(%v)", err) t.FailNow() } if err = b.WriteAt(v3, n); err != nil { t.Errorf("b.Repair(3) error(%v)", err) t.FailNow() } if err = b.ReadAt(v3, n); err != nil { t.Errorf("b.Get() error(%v)", err) t.FailNow() } if err = compareTestNeedle(t, 3, 3, needle.FlagOK, n, data); err != nil { t.Error("compareTestNeedle(3)") t.FailNow() } // test compress if err = b.Compact(0, func(rn *needle.Needle, so, eo uint32) (err1 error) { if rn.Flag != needle.FlagOK { return } needles[rn.Key] = needle.NewCache(so, rn.TotalSize) return }); err != nil { t.Errorf("b.Compress() error(%v)", err) t.FailNow() } // skip first needle, so key:1 must not exist if o, s := needle.Cache(needles[1]); o != 0 && s != 0 { t.Error("needle.Value(1) not match") t.FailNow() } if o, s := needle.Cache(needles[2]); o != v2 && s != 40 { t.Error("needle.Value(2) not match") t.FailNow() } if o, s := needle.Cache(needles[3]); o != v3 && s != 40 { t.Error("needle.Value(3) not match") t.FailNow() } if o, s := needle.Cache(needles[4]); o != v4 && s != 40 { t.Error("needle.Value(4) not match") t.FailNow() } }