// 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 fsutil import ( "math" "gvisor.dev/gvisor/pkg/sentry/context" "gvisor.dev/gvisor/pkg/sentry/fs" "gvisor.dev/gvisor/pkg/sentry/memmap" "gvisor.dev/gvisor/pkg/sentry/platform" "gvisor.dev/gvisor/pkg/sentry/safemem" "gvisor.dev/gvisor/pkg/sentry/usermem" "gvisor.dev/gvisor/pkg/sync" ) // HostMappable implements memmap.Mappable and platform.File over a // CachedFileObject. // // Lock order (compare the lock order model in mm/mm.go): // truncateMu ("fs locks") // mu ("memmap.Mappable locks not taken by Translate") // ("platform.File locks") // backingFile ("CachedFileObject locks") // // +stateify savable type HostMappable struct { hostFileMapper *HostFileMapper backingFile CachedFileObject mu sync.Mutex `state:"nosave"` // mappings tracks mappings of the cached file object into // memmap.MappingSpaces so it can invalidated upon save. Protected by mu. mappings memmap.MappingSet // truncateMu protects writes and truncations. See Truncate() for details. truncateMu sync.RWMutex `state:"nosave"` } // NewHostMappable creates a new mappable that maps directly to host FD. func NewHostMappable(backingFile CachedFileObject) *HostMappable { return &HostMappable{ hostFileMapper: NewHostFileMapper(), backingFile: backingFile, } } // AddMapping implements memmap.Mappable.AddMapping. func (h *HostMappable) AddMapping(ctx context.Context, ms memmap.MappingSpace, ar usermem.AddrRange, offset uint64, writable bool) error { // Hot path. Avoid defers. h.mu.Lock() mapped := h.mappings.AddMapping(ms, ar, offset, writable) for _, r := range mapped { h.hostFileMapper.IncRefOn(r) } h.mu.Unlock() return nil } // RemoveMapping implements memmap.Mappable.RemoveMapping. func (h *HostMappable) RemoveMapping(ctx context.Context, ms memmap.MappingSpace, ar usermem.AddrRange, offset uint64, writable bool) { // Hot path. Avoid defers. h.mu.Lock() unmapped := h.mappings.RemoveMapping(ms, ar, offset, writable) for _, r := range unmapped { h.hostFileMapper.DecRefOn(r) } h.mu.Unlock() } // CopyMapping implements memmap.Mappable.CopyMapping. func (h *HostMappable) CopyMapping(ctx context.Context, ms memmap.MappingSpace, srcAR, dstAR usermem.AddrRange, offset uint64, writable bool) error { return h.AddMapping(ctx, ms, dstAR, offset, writable) } // Translate implements memmap.Mappable.Translate. func (h *HostMappable) Translate(ctx context.Context, required, optional memmap.MappableRange, at usermem.AccessType) ([]memmap.Translation, error) { return []memmap.Translation{ { Source: optional, File: h, Offset: optional.Start, Perms: usermem.AnyAccess, }, }, nil } // InvalidateUnsavable implements memmap.Mappable.InvalidateUnsavable. func (h *HostMappable) InvalidateUnsavable(_ context.Context) error { h.mu.Lock() h.mappings.InvalidateAll(memmap.InvalidateOpts{}) h.mu.Unlock() return nil } // NotifyChangeFD must be called after the file description represented by // CachedFileObject.FD() changes. func (h *HostMappable) NotifyChangeFD() error { // Update existing sentry mappings to refer to the new file description. if err := h.hostFileMapper.RegenerateMappings(h.backingFile.FD()); err != nil { return err } // Shoot down existing application mappings of the old file description; // they will be remapped with the new file description on demand. h.mu.Lock() defer h.mu.Unlock() h.mappings.InvalidateAll(memmap.InvalidateOpts{}) return nil } // MapInternal implements platform.File.MapInternal. func (h *HostMappable) MapInternal(fr platform.FileRange, at usermem.AccessType) (safemem.BlockSeq, error) { return h.hostFileMapper.MapInternal(fr, h.backingFile.FD(), at.Write) } // FD implements platform.File.FD. func (h *HostMappable) FD() int { return h.backingFile.FD() } // IncRef implements platform.File.IncRef. func (h *HostMappable) IncRef(fr platform.FileRange) { mr := memmap.MappableRange{Start: fr.Start, End: fr.End} h.hostFileMapper.IncRefOn(mr) } // DecRef implements platform.File.DecRef. func (h *HostMappable) DecRef(fr platform.FileRange) { mr := memmap.MappableRange{Start: fr.Start, End: fr.End} h.hostFileMapper.DecRefOn(mr) } // Truncate truncates the file, invalidating any mapping that may have been // removed after the size change. // // Truncation and writes are synchronized to prevent races where writes make the // file grow between truncation and invalidation below: // T1: Calls SetMaskedAttributes and stalls // T2: Appends to file causing it to grow // T2: Writes to mapped pages and COW happens // T1: Continues and wronly invalidates the page mapped in step above. func (h *HostMappable) Truncate(ctx context.Context, newSize int64) error { h.truncateMu.Lock() defer h.truncateMu.Unlock() mask := fs.AttrMask{Size: true} attr := fs.UnstableAttr{Size: newSize} if err := h.backingFile.SetMaskedAttributes(ctx, mask, attr, false); err != nil { return err } // Invalidate COW mappings that may exist beyond the new size in case the file // is being shrunk. Other mappings don't need to be invalidated because // translate will just return identical mappings after invalidation anyway, // and SIGBUS will be raised and handled when the mappings are touched. // // Compare Linux's mm/truncate.c:truncate_setsize() => // truncate_pagecache() => // mm/memory.c:unmap_mapping_range(evencows=1). h.mu.Lock() defer h.mu.Unlock() mr := memmap.MappableRange{ Start: fs.OffsetPageEnd(newSize), End: fs.OffsetPageEnd(math.MaxInt64), } h.mappings.Invalidate(mr, memmap.InvalidateOpts{InvalidatePrivate: true}) return nil } // Allocate reserves space in the backing file. func (h *HostMappable) Allocate(ctx context.Context, offset int64, length int64) error { h.truncateMu.RLock() err := h.backingFile.Allocate(ctx, offset, length) h.truncateMu.RUnlock() return err } // Write writes to the file backing this mappable. func (h *HostMappable) Write(ctx context.Context, src usermem.IOSequence, offset int64) (int64, error) { h.truncateMu.RLock() n, err := src.CopyInTo(ctx, &writer{ctx: ctx, hostMappable: h, off: offset}) h.truncateMu.RUnlock() return n, err } type writer struct { ctx context.Context hostMappable *HostMappable off int64 } // WriteFromBlocks implements safemem.Writer.WriteFromBlocks. func (w *writer) WriteFromBlocks(src safemem.BlockSeq) (uint64, error) { n, err := w.hostMappable.backingFile.WriteFromBlocksAt(w.ctx, src, uint64(w.off)) w.off += int64(n) return n, err }