// Copyright 2018 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 kernel import ( "sync/atomic" "unsafe" "gvisor.dev/gvisor/pkg/context" "gvisor.dev/gvisor/pkg/sentry/fs" "gvisor.dev/gvisor/pkg/sentry/vfs" ) type descriptorTable struct { // slice is a *[]unsafe.Pointer, where each element is actually // *descriptor object, updated atomically. // // Changes to the slice itself requiring holding FDTable.mu. slice unsafe.Pointer `state:".(map[int32]*descriptor)"` } // initNoLeakCheck initializes the table without enabling leak checking. // // This is used when loading an FDTable after S/R, during which the ref count // object itself will enable leak checking if necessary. func (f *FDTable) initNoLeakCheck() { var slice []unsafe.Pointer // Empty slice. atomic.StorePointer(&f.slice, unsafe.Pointer(&slice)) } // init initializes the table with leak checking. func (f *FDTable) init() { f.initNoLeakCheck() f.EnableLeakCheck() } // get gets a file entry. // // The boolean indicates whether this was in range. // //go:nosplit func (f *FDTable) get(fd int32) (*fs.File, FDFlags, bool) { file, _, flags, ok := f.getAll(fd) return file, flags, ok } // getVFS2 gets a file entry. // // The boolean indicates whether this was in range. // //go:nosplit func (f *FDTable) getVFS2(fd int32) (*vfs.FileDescription, FDFlags, bool) { _, file, flags, ok := f.getAll(fd) return file, flags, ok } // getAll gets a file entry. // // The boolean indicates whether this was in range. // //go:nosplit func (f *FDTable) getAll(fd int32) (*fs.File, *vfs.FileDescription, FDFlags, bool) { slice := *(*[]unsafe.Pointer)(atomic.LoadPointer(&f.slice)) if fd >= int32(len(slice)) { return nil, nil, FDFlags{}, false } d := (*descriptor)(atomic.LoadPointer(&slice[fd])) if d == nil { return nil, nil, FDFlags{}, true } if d.file != nil && d.fileVFS2 != nil { panic("VFS1 and VFS2 files set") } return d.file, d.fileVFS2, d.flags, true } // CurrentMaxFDs returns the number of file descriptors that may be stored in f // without reallocation. func (f *FDTable) CurrentMaxFDs() int { slice := *(*[]unsafe.Pointer)(atomic.LoadPointer(&f.slice)) return len(slice) } // set sets an entry for VFS1, refer to setAll(). // // Precondition: mu must be held. func (f *FDTable) set(ctx context.Context, fd int32, file *fs.File, flags FDFlags) *fs.File { dropFile, _ := f.setAll(ctx, fd, file, nil, flags) return dropFile } // setVFS2 sets an entry for VFS2, refer to setAll(). // // Precondition: mu must be held. func (f *FDTable) setVFS2(ctx context.Context, fd int32, file *vfs.FileDescription, flags FDFlags) *vfs.FileDescription { _, dropFile := f.setAll(ctx, fd, nil, file, flags) return dropFile } // setAll sets the file description referred to by fd to file/fileVFS2. If // file/fileVFS2 are non-nil, it takes a reference on them. If setAll replaces // an existing file description, it returns it with the FDTable's reference // transferred to the caller, which must call f.drop/dropVFS2() on the returned // file after unlocking f.mu. // // Precondition: mu must be held. func (f *FDTable) setAll(ctx context.Context, fd int32, file *fs.File, fileVFS2 *vfs.FileDescription, flags FDFlags) (*fs.File, *vfs.FileDescription) { if file != nil && fileVFS2 != nil { panic("VFS1 and VFS2 files set") } slice := *(*[]unsafe.Pointer)(atomic.LoadPointer(&f.slice)) // Grow the table as required. if last := int32(len(slice)); fd >= last { end := fd + 1 if end < 2*last { end = 2 * last } slice = append(slice, make([]unsafe.Pointer, end-last)...) atomic.StorePointer(&f.slice, unsafe.Pointer(&slice)) } var desc *descriptor if file != nil || fileVFS2 != nil { desc = &descriptor{ file: file, fileVFS2: fileVFS2, flags: flags, } } // Update the single element. orig := (*descriptor)(atomic.SwapPointer(&slice[fd], unsafe.Pointer(desc))) // Acquire a table reference. if desc != nil { switch { case desc.file != nil: if orig == nil || desc.file != orig.file { desc.file.IncRef() } case desc.fileVFS2 != nil: if orig == nil || desc.fileVFS2 != orig.fileVFS2 { desc.fileVFS2.IncRef() } } } // Adjust used. switch { case orig == nil && desc != nil: atomic.AddInt32(&f.used, 1) case orig != nil && desc == nil: atomic.AddInt32(&f.used, -1) } if orig != nil { switch { case orig.file != nil: if desc == nil || desc.file != orig.file { return orig.file, nil } case orig.fileVFS2 != nil: if desc == nil || desc.fileVFS2 != orig.fileVFS2 { return nil, orig.fileVFS2 } } } return nil, nil }