/* * * Copyright 2014, Google Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following disclaimer * in the documentation and/or other materials provided with the * distribution. * * Neither the name of Google Inc. nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ package transport import ( "fmt" "sync" "github.com/bradfitz/http2" ) const ( // The default value of flow control window size in HTTP2 spec. defaultWindowSize = 65535 // The initial window size for flow control. initialWindowSize = defaultWindowSize // for an RPC initialConnWindowSize = defaultWindowSize * 16 // for a connection ) // The following defines various control items which could flow through // the control buffer of transport. They represent different aspects of // control tasks, e.g., flow control, settings, streaming resetting, etc. type windowUpdate struct { streamID uint32 increment uint32 } func (windowUpdate) isItem() bool { return true } type settings struct { ack bool setting []http2.Setting } func (settings) isItem() bool { return true } type resetStream struct { streamID uint32 code http2.ErrCode } func (resetStream) isItem() bool { return true } type flushIO struct { } func (flushIO) isItem() bool { return true } type ping struct { ack bool } func (ping) isItem() bool { return true } // quotaPool is a pool which accumulates the quota and sends it to acquire() // when it is available. type quotaPool struct { c chan int mu sync.Mutex quota int } // newQuotaPool creates a quotaPool which has quota q available to consume. func newQuotaPool(q int) *quotaPool { qb := "aPool{c: make(chan int, 1)} qb.c <- q return qb } // add adds n to the available quota and tries to send it on acquire. func (qb *quotaPool) add(n int) { qb.mu.Lock() defer qb.mu.Unlock() qb.quota += n if qb.quota <= 0 { return } select { case qb.c <- qb.quota: qb.quota = 0 default: } } // cancel cancels the pending quota sent on acquire, if any. func (qb *quotaPool) cancel() { qb.mu.Lock() defer qb.mu.Unlock() select { case n := <-qb.c: qb.quota += n default: } } // reset cancels the pending quota sent on acquired, incremented by v and sends // it back on acquire. func (qb *quotaPool) reset(v int) { qb.mu.Lock() defer qb.mu.Unlock() select { case n := <-qb.c: qb.quota += n default: } qb.quota += v if qb.quota <= 0 { return } select { case qb.c <- qb.quota: qb.quota = 0 default: } } // acquire returns the channel on which available quota amounts are sent. func (qb *quotaPool) acquire() <-chan int { return qb.c } // inFlow deals with inbound flow control type inFlow struct { // The inbound flow control limit for pending data. limit uint32 // conn points to the shared connection-level inFlow that is shared // by all streams on that conn. It is nil for the inFlow on the conn // directly. conn *inFlow mu sync.Mutex // pendingData is the overall data which have been received but not been // consumed by applications. pendingData uint32 // The amount of data the application has consumed but grpc has not sent // window update for them. Used to reduce window update frequency. pendingUpdate uint32 } // onData is invoked when some data frame is received. It increments not only its // own pendingData but also that of the associated connection-level flow. func (f *inFlow) onData(n uint32) error { if n == 0 { return nil } f.mu.Lock() defer f.mu.Unlock() if f.pendingData+f.pendingUpdate+n > f.limit { return fmt.Errorf("recieved %d-bytes data exceeding the limit %d bytes", f.pendingData+f.pendingUpdate+n, f.limit) } if f.conn != nil { if err := f.conn.onData(n); err != nil { return ConnectionErrorf("%v", err) } } f.pendingData += n return nil } // connOnRead updates the connection level states when the application consumes data. func (f *inFlow) connOnRead(n uint32) uint32 { if n == 0 || f.conn != nil { return 0 } f.mu.Lock() defer f.mu.Unlock() f.pendingData -= n f.pendingUpdate += n if f.pendingUpdate >= f.limit/4 { ret := f.pendingUpdate f.pendingUpdate = 0 return ret } return 0 } // onRead is invoked when the application reads the data. It returns the window updates // for both stream and connection level. func (f *inFlow) onRead(n uint32) (swu, cwu uint32) { if n == 0 { return } f.mu.Lock() defer f.mu.Unlock() if f.pendingData == 0 { // pendingData has been adjusted by restoreConn. return } f.pendingData -= n f.pendingUpdate += n if f.pendingUpdate >= f.limit/4 { swu = f.pendingUpdate f.pendingUpdate = 0 } cwu = f.conn.connOnRead(n) return } // restoreConn is invoked when a stream is terminated. It removes its stake in // the connection-level flow and resets its own state. func (f *inFlow) restoreConn() uint32 { if f.conn == nil { return 0 } f.mu.Lock() defer f.mu.Unlock() n := f.pendingData f.pendingData = 0 f.pendingUpdate = 0 return f.conn.connOnRead(n) }