// Copyright 2019 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package ext import ( "io" "sort" "gvisor.dev/gvisor/pkg/binary" "gvisor.dev/gvisor/pkg/sentry/fsimpl/ext/disklayout" "gvisor.dev/gvisor/pkg/syserror" ) // extentFile is a type of regular file which uses extents to store file data. type extentFile struct { regFile regularFile // root is the root extent node. This lives in the 60 byte diskInode.Data(). // Immutable. root disklayout.ExtentNode } // Compiles only if extentFile implements io.ReaderAt. var _ io.ReaderAt = (*extentFile)(nil) // newExtentFile is the extent file constructor. It reads the entire extent // tree into memory. // TODO(b/134676337): Build extent tree on demand to reduce memory usage. func newExtentFile(regFile regularFile) (*extentFile, error) { file := &extentFile{regFile: regFile} file.regFile.impl = file err := file.buildExtTree() if err != nil { return nil, err } return file, nil } // buildExtTree builds the extent tree by reading it from disk by doing // running a simple DFS. It first reads the root node from the inode struct in // memory. Then it recursively builds the rest of the tree by reading it off // disk. // // Precondition: inode flag InExtents must be set. func (f *extentFile) buildExtTree() error { rootNodeData := f.regFile.inode.diskInode.Data() binary.Unmarshal(rootNodeData[:disklayout.ExtentStructsSize], binary.LittleEndian, &f.root.Header) // Root node can not have more than 4 entries: 60 bytes = 1 header + 4 entries. if f.root.Header.NumEntries > 4 { // read(2) specifies that EINVAL should be returned if the file is unsuitable // for reading. return syserror.EINVAL } f.root.Entries = make([]disklayout.ExtentEntryPair, f.root.Header.NumEntries) for i, off := uint16(0), disklayout.ExtentStructsSize; i < f.root.Header.NumEntries; i, off = i+1, off+disklayout.ExtentStructsSize { var curEntry disklayout.ExtentEntry if f.root.Header.Height == 0 { // Leaf node. curEntry = &disklayout.Extent{} } else { // Internal node. curEntry = &disklayout.ExtentIdx{} } binary.Unmarshal(rootNodeData[off:off+disklayout.ExtentStructsSize], binary.LittleEndian, curEntry) f.root.Entries[i].Entry = curEntry } // If this node is internal, perform DFS. if f.root.Header.Height > 0 { for i := uint16(0); i < f.root.Header.NumEntries; i++ { var err error if f.root.Entries[i].Node, err = f.buildExtTreeFromDisk(f.root.Entries[i].Entry); err != nil { return err } } } return nil } // buildExtTreeFromDisk reads the extent tree nodes from disk and recursively // builds the tree. Performs a simple DFS. It returns the ExtentNode pointed to // by the ExtentEntry. func (f *extentFile) buildExtTreeFromDisk(entry disklayout.ExtentEntry) (*disklayout.ExtentNode, error) { var header disklayout.ExtentHeader off := entry.PhysicalBlock() * f.regFile.inode.blkSize err := readFromDisk(f.regFile.inode.dev, int64(off), &header) if err != nil { return nil, err } entries := make([]disklayout.ExtentEntryPair, header.NumEntries) for i, off := uint16(0), off+disklayout.ExtentStructsSize; i < header.NumEntries; i, off = i+1, off+disklayout.ExtentStructsSize { var curEntry disklayout.ExtentEntry if header.Height == 0 { // Leaf node. curEntry = &disklayout.Extent{} } else { // Internal node. curEntry = &disklayout.ExtentIdx{} } err := readFromDisk(f.regFile.inode.dev, int64(off), curEntry) if err != nil { return nil, err } entries[i].Entry = curEntry } // If this node is internal, perform DFS. if header.Height > 0 { for i := uint16(0); i < header.NumEntries; i++ { var err error entries[i].Node, err = f.buildExtTreeFromDisk(entries[i].Entry) if err != nil { return nil, err } } } return &disklayout.ExtentNode{header, entries}, nil } // ReadAt implements io.ReaderAt.ReadAt. func (f *extentFile) ReadAt(dst []byte, off int64) (int, error) { if len(dst) == 0 { return 0, nil } if off < 0 { return 0, syserror.EINVAL } if uint64(off) >= f.regFile.inode.diskInode.Size() { return 0, io.EOF } n, err := f.read(&f.root, uint64(off), dst) if n < len(dst) && err == nil { err = io.EOF } return n, err } // read is the recursive step of extentFile.ReadAt which traverses the extent // tree from the node passed and reads file data. func (f *extentFile) read(node *disklayout.ExtentNode, off uint64, dst []byte) (int, error) { // Perform a binary search for the node covering bytes starting at r.fileOff. // A highly fragmented filesystem can have upto 340 entries and so linear // search should be avoided. Finds the first entry which does not cover the // file block we want and subtracts 1 to get the desired index. fileBlk := uint32(off / f.regFile.inode.blkSize) n := len(node.Entries) found := sort.Search(n, func(i int) bool { return node.Entries[i].Entry.FileBlock() > fileBlk }) - 1 // We should be in this recursive step only if the data we want exists under // the current node. if found < 0 { panic("searching for a file block in an extent entry which does not cover it") } read := 0 toRead := len(dst) var curR int var err error for i := found; i < n && read < toRead; i++ { if node.Header.Height == 0 { curR, err = f.readFromExtent(node.Entries[i].Entry.(*disklayout.Extent), off, dst[read:]) } else { curR, err = f.read(node.Entries[i].Node, off, dst[read:]) } read += curR off += uint64(curR) if err != nil { return read, err } } return read, nil } // readFromExtent reads file data from the extent. It takes advantage of the // sequential nature of extents and reads file data from multiple blocks in one // call. // // A non-nil error indicates that this is a partial read and there is probably // more to read from this extent. The caller should propagate the error upward // and not move to the next extent in the tree. // // A subsequent call to extentReader.Read should continue reading from where we // left off as expected. func (f *extentFile) readFromExtent(ex *disklayout.Extent, off uint64, dst []byte) (int, error) { curFileBlk := uint32(off / f.regFile.inode.blkSize) exFirstFileBlk := ex.FileBlock() exLastFileBlk := exFirstFileBlk + uint32(ex.Length) // This is exclusive. // We should be in this recursive step only if the data we want exists under // the current extent. if curFileBlk < exFirstFileBlk || exLastFileBlk <= curFileBlk { panic("searching for a file block in an extent which does not cover it") } curPhyBlk := uint64(curFileBlk-exFirstFileBlk) + ex.PhysicalBlock() readStart := curPhyBlk*f.regFile.inode.blkSize + (off % f.regFile.inode.blkSize) endPhyBlk := ex.PhysicalBlock() + uint64(ex.Length) extentEnd := endPhyBlk * f.regFile.inode.blkSize // This is exclusive. toRead := int(extentEnd - readStart) if len(dst) < toRead { toRead = len(dst) } n, _ := f.regFile.inode.dev.ReadAt(dst[:toRead], int64(readStart)) if n < toRead { return n, syserror.EIO } return n, nil }