// Copyright 2016 The Netstack Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package pipe // Rx is the receive side of the shared memory ring buffer. type Rx struct { p pipe tail uint64 head uint64 } // Init initializes the receive end of the pipe. In the initial state, the next // slot to be inspected is the very first one. func (r *Rx) Init(b []byte) { r.p.init(b) r.tail = 0xfffffffe * jump r.head = r.tail } // Pull reads the next buffer from the pipe, returning nil if there isn't one // currently available. // // The returned slice is available until Flush() is next called. After that, it // must not be touched. func (r *Rx) Pull() []byte { if r.head == r.tail+jump { // We've already pulled the whole pipe. return nil } header := r.p.readAtomic(r.head) if header&slotFree != 0 { // The next slot is free, we can't pull it yet. return nil } payloadSize := header & slotSizeMask newHead := r.head + payloadToSlotSize(payloadSize) headWrap := (r.head & revolutionMask) | uint64(len(r.p.buffer)) // Check if this is a wrapping slot. If that's the case, it carries no // data, so we just skip it and try again from the first slot. if int64(newHead-headWrap) >= 0 { if int64(newHead-headWrap) > int64(jump) || newHead&offsetMask != 0 { return nil } if r.tail == r.head { // If this is the first pull since the last Flush() // call, we flush the state so that the sender can use // this space if it needs to. r.p.writeAtomic(r.head, slotFree|slotToPayloadSize(newHead-r.head)) r.tail = newHead } r.head = newHead return r.Pull() } // Grab the buffer before updating r.head. b := r.p.data(r.head, payloadSize) r.head = newHead return b } // Flush tells the transmitter that all buffers pulled since the last Flush() // have been used, so the transmitter is free to used their slots for further // transmission. func (r *Rx) Flush() { if r.head == r.tail { return } r.p.writeAtomic(r.tail, slotFree|slotToPayloadSize(r.head-r.tail)) r.tail = r.head } // Bytes returns the byte slice on which the pipe operates. func (r *Rx) Bytes() []byte { return r.p.buffer }