// Copyright 2015 Google Inc. All Rights Reserved. // // 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 buffer import ( "fmt" "log" "reflect" "unsafe" "github.com/jacobsa/fuse/internal/fusekernel" ) // OutMessageHeaderSize is the size of the leading header in every // properly-constructed OutMessage. Reset brings the message back to this size. const OutMessageHeaderSize = unsafe.Sizeof(fusekernel.OutHeader{}) // OutMessage provides a mechanism for constructing a single contiguous fuse // message from multiple segments, where the first segment is always a // fusekernel.OutHeader message. // // Must be initialized with Reset. type OutMessage struct { // The offset into payload to which we're currently writing. payloadOffset int header [OutMessageHeaderSize]byte payload [MaxReadSize]byte } // Make sure that the header field is aligned correctly for // fusekernel.OutHeader type punning. func init() { a := unsafe.Alignof(OutMessage{}) o := unsafe.Offsetof(OutMessage{}.header) e := unsafe.Alignof(fusekernel.OutHeader{}) if a%e != 0 || o%e != 0 { log.Panicf("Bad alignment or offset: %d, %d, need %d", a, o, e) } } // Make sure that the header and payload are contiguous. func init() { a := unsafe.Offsetof(OutMessage{}.header) + OutMessageHeaderSize b := unsafe.Offsetof(OutMessage{}.payload) if a != b { log.Panicf( "header ends at offset %d, but payload starts at offset %d", a, b) } } // Reset resets m so that it's ready to be used again. Afterward, the contents // are solely a zeroed fusekernel.OutHeader struct. func (m *OutMessage) Reset() { m.payloadOffset = 0 memclr(unsafe.Pointer(&m.header), OutMessageHeaderSize) } // OutHeader returns a pointer to the header at the start of the message. func (m *OutMessage) OutHeader() (h *fusekernel.OutHeader) // Grow grows m's buffer by the given number of bytes, returning a pointer to // the start of the new segment, which is guaranteed to be zeroed. If there is // insufficient space, it returns nil. func (b *OutMessage) Grow(n int) (p unsafe.Pointer) // GrowNoZero is equivalent to Grow, except the new segment is not zeroed. Use // with caution! func (b *OutMessage) GrowNoZero(n int) (p unsafe.Pointer) // ShrinkTo shrinks m to the given size. It panics if the size is greater than // Len() or less than OutMessageHeaderSize. func (b *OutMessage) ShrinkTo(n int) // Append is equivalent to growing by len(src), then copying src over the new // segment. Int panics if there is not enough room available. func (b *OutMessage) Append(src []byte) { p := b.GrowNoZero(len(src)) if p == nil { panic(fmt.Sprintf("Can't grow %d bytes", len(src))) } sh := (*reflect.SliceHeader)(unsafe.Pointer(&src)) memmove(p, unsafe.Pointer(sh.Data), uintptr(sh.Len)) return } // AppendString is like Append, but accepts string input. func (b *OutMessage) AppendString(src string) { p := b.GrowNoZero(len(src)) if p == nil { panic(fmt.Sprintf("Can't grow %d bytes", len(src))) } sh := (*reflect.StringHeader)(unsafe.Pointer(&src)) memmove(p, unsafe.Pointer(sh.Data), uintptr(sh.Len)) return } // Len returns the current size of the message, including the leading header. func (b *OutMessage) Len() int { return int(b.offset) } // Bytes returns a reference to the current contents of the buffer, including // the leading header. func (b *OutMessage) Bytes() []byte { return b.storage[:int(b.offset)] }