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69b6b4f595
gecko/netwerk/protocol/http/SpdySession2.cpp
Patrick McManus 69b6b4f595 bug 819044 backout changes to spdy goaway handling r=backout 
--HG--
extra : rebase_source : 9e45cf2f9b25a015c3f39dcee162d144d1343640
2013-02-13 10:50:42 -05:00

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71 KiB
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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set sw=2 ts=8 et tw=80 : */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "nsHttp.h"
#include "SpdySession2.h"
#include "SpdyStream2.h"
#include "nsHttpConnection.h"
#include "nsHttpHandler.h"
#include "prnetdb.h"
#include "mozilla/Telemetry.h"
#include "mozilla/Preferences.h"
#include "prprf.h"
#include <algorithm>
#ifdef DEBUG
// defined by the socket transport service while active
extern PRThread *gSocketThread;
#endif
namespace mozilla {
namespace net {
// SpdySession2 has multiple inheritance of things that implement
// nsISupports, so this magic is taken from nsHttpPipeline that
// implements some of the same abstract classes.
NS_IMPL_THREADSAFE_ADDREF(SpdySession2)
NS_IMPL_THREADSAFE_RELEASE(SpdySession2)
NS_INTERFACE_MAP_BEGIN(SpdySession2)
NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsAHttpConnection)
NS_INTERFACE_MAP_END
SpdySession2::SpdySession2(nsAHttpTransaction *aHttpTransaction,
nsISocketTransport *aSocketTransport,
int32_t firstPriority)
: mSocketTransport(aSocketTransport),
mSegmentReader(nullptr),
mSegmentWriter(nullptr),
mSendingChunkSize(ASpdySession::kSendingChunkSize),
mNextStreamID(1),
mConcurrentHighWater(0),
mDownstreamState(BUFFERING_FRAME_HEADER),
mInputFrameBufferSize(kDefaultBufferSize),
mInputFrameBufferUsed(0),
mInputFrameDataLast(false),
mInputFrameDataStream(nullptr),
mNeedsCleanup(nullptr),
mDecompressBufferSize(kDefaultBufferSize),
mDecompressBufferUsed(0),
mShouldGoAway(false),
mClosed(false),
mCleanShutdown(false),
mGoAwayID(0),
mMaxConcurrent(kDefaultMaxConcurrent),
mConcurrent(0),
mServerPushedResources(0),
mOutputQueueSize(kDefaultQueueSize),
mOutputQueueUsed(0),
mOutputQueueSent(0),
mLastReadEpoch(PR_IntervalNow()),
mPingSentEpoch(0),
mNextPingID(1)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::SpdySession2 %p transaction 1 = %p",
this, aHttpTransaction));
mStreamIDHash.Init();
mStreamTransactionHash.Init();
mConnection = aHttpTransaction->Connection();
mInputFrameBuffer = new char[mInputFrameBufferSize];
mDecompressBuffer = new char[mDecompressBufferSize];
mOutputQueueBuffer = new char[mOutputQueueSize];
zlibInit();
mSendingChunkSize = gHttpHandler->SpdySendingChunkSize();
if (!aHttpTransaction->IsNullTransaction())
AddStream(aHttpTransaction, firstPriority);
mLastDataReadEpoch = mLastReadEpoch;
mPingThreshold = gHttpHandler->SpdyPingThreshold();
}
PLDHashOperator
SpdySession2::ShutdownEnumerator(nsAHttpTransaction *key,
nsAutoPtr<SpdyStream2> &stream,
void *closure)
{
SpdySession2 *self = static_cast<SpdySession2 *>(closure);
// On a clean server hangup the server sets the GoAwayID to be the ID of
// the last transaction it processed. If the ID of stream in the
// local session is greater than that it can safely be restarted because the
// server guarantees it was not partially processed.
if (self->mCleanShutdown && (stream->StreamID() > self->mGoAwayID))
self->CloseStream(stream, NS_ERROR_NET_RESET); // can be restarted
else
self->CloseStream(stream, NS_ERROR_ABORT);
return PL_DHASH_NEXT;
}
SpdySession2::~SpdySession2()
{
LOG3(("SpdySession2::~SpdySession2 %p mDownstreamState=%X",
this, mDownstreamState));
inflateEnd(&mDownstreamZlib);
deflateEnd(&mUpstreamZlib);
mStreamTransactionHash.Enumerate(ShutdownEnumerator, this);
Telemetry::Accumulate(Telemetry::SPDY_PARALLEL_STREAMS, mConcurrentHighWater);
Telemetry::Accumulate(Telemetry::SPDY_REQUEST_PER_CONN, (mNextStreamID - 1) / 2);
Telemetry::Accumulate(Telemetry::SPDY_SERVER_INITIATED_STREAMS,
mServerPushedResources);
}
void
SpdySession2::LogIO(SpdySession2 *self, SpdyStream2 *stream, const char *label,
const char *data, uint32_t datalen)
{
if (!LOG4_ENABLED())
return;
LOG4(("SpdySession2::LogIO %p stream=%p id=0x%X [%s]",
self, stream, stream ? stream->StreamID() : 0, label));
// Max line is (16 * 3) + 10(prefix) + newline + null
char linebuf[128];
uint32_t index;
char *line = linebuf;
linebuf[127] = 0;
for (index = 0; index < datalen; ++index) {
if (!(index % 16)) {
if (index) {
*line = 0;
LOG4(("%s", linebuf));
}
line = linebuf;
PR_snprintf(line, 128, "%08X: ", index);
line += 10;
}
PR_snprintf(line, 128 - (line - linebuf), "%02X ",
((unsigned char *)data)[index]);
line += 3;
}
if (index) {
*line = 0;
LOG4(("%s", linebuf));
}
}
typedef nsresult (*Control_FX) (SpdySession2 *self);
static Control_FX sControlFunctions[] =
{
nullptr,
SpdySession2::HandleSynStream,
SpdySession2::HandleSynReply,
SpdySession2::HandleRstStream,
SpdySession2::HandleSettings,
SpdySession2::HandleNoop,
SpdySession2::HandlePing,
SpdySession2::HandleGoAway,
SpdySession2::HandleHeaders,
SpdySession2::HandleWindowUpdate
};
bool
SpdySession2::RoomForMoreConcurrent()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
return (mConcurrent < mMaxConcurrent);
}
bool
SpdySession2::RoomForMoreStreams()
{
if (mNextStreamID + mStreamTransactionHash.Count() * 2 > kMaxStreamID)
return false;
return !mShouldGoAway;
}
PRIntervalTime
SpdySession2::IdleTime()
{
return PR_IntervalNow() - mLastDataReadEpoch;
}
void
SpdySession2::ReadTimeoutTick(PRIntervalTime now)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
NS_ABORT_IF_FALSE(mNextPingID & 1, "Ping Counter Not Odd");
if (!mPingThreshold)
return;
LOG(("SpdySession2::ReadTimeoutTick %p delta since last read %ds\n",
this, PR_IntervalToSeconds(now - mLastReadEpoch)));
if ((now - mLastReadEpoch) < mPingThreshold) {
// recent activity means ping is not an issue
if (mPingSentEpoch)
mPingSentEpoch = 0;
return;
}
if (mPingSentEpoch) {
LOG(("SpdySession2::ReadTimeoutTick %p handle outstanding ping\n"));
if ((now - mPingSentEpoch) >= gHttpHandler->SpdyPingTimeout()) {
LOG(("SpdySession2::ReadTimeoutTick %p Ping Timer Exhaustion\n",
this));
mPingSentEpoch = 0;
Close(NS_ERROR_NET_TIMEOUT);
}
return;
}
LOG(("SpdySession2::ReadTimeoutTick %p generating ping 0x%x\n",
this, mNextPingID));
if (mNextPingID == 0xffffffff) {
LOG(("SpdySession2::ReadTimeoutTick %p cannot form ping - ids exhausted\n",
this));
return;
}
mPingSentEpoch = PR_IntervalNow();
if (!mPingSentEpoch)
mPingSentEpoch = 1; // avoid the 0 sentinel value
GeneratePing(mNextPingID);
mNextPingID += 2;
ResumeRecv(); // read the ping reply
if (mNextPingID == 0xffffffff) {
LOG(("SpdySession2::ReadTimeoutTick %p "
"ping ids exhausted marking goaway\n", this));
mShouldGoAway = true;
}
}
uint32_t
SpdySession2::RegisterStreamID(SpdyStream2 *stream)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::RegisterStreamID session=%p stream=%p id=0x%X "
"concurrent=%d",this, stream, mNextStreamID, mConcurrent));
NS_ABORT_IF_FALSE(mNextStreamID < 0xfffffff0,
"should have stopped admitting streams");
uint32_t result = mNextStreamID;
mNextStreamID += 2;
// We've used up plenty of ID's on this session. Start
// moving to a new one before there is a crunch involving
// server push streams or concurrent non-registered submits
if (mNextStreamID >= kMaxStreamID)
mShouldGoAway = true;
// integrity check
if (mStreamIDHash.Get(result)) {
LOG3((" New ID already present\n"));
NS_ABORT_IF_FALSE(false, "New ID already present in mStreamIDHash");
mShouldGoAway = true;
return kDeadStreamID;
}
mStreamIDHash.Put(result, stream);
return result;
}
bool
SpdySession2::AddStream(nsAHttpTransaction *aHttpTransaction,
int32_t aPriority)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
NS_ABORT_IF_FALSE(!mStreamTransactionHash.Get(aHttpTransaction),
"AddStream duplicate transaction pointer");
// integrity check
if (mStreamTransactionHash.Get(aHttpTransaction)) {
LOG3((" New transaction already present\n"));
NS_ABORT_IF_FALSE(false, "New transaction already present in hash");
return false;
}
aHttpTransaction->SetConnection(this);
SpdyStream2 *stream = new SpdyStream2(aHttpTransaction,
this,
mSocketTransport,
mSendingChunkSize,
&mUpstreamZlib,
aPriority);
LOG3(("SpdySession2::AddStream session=%p stream=%p NextID=0x%X (tentative)",
this, stream, mNextStreamID));
mStreamTransactionHash.Put(aHttpTransaction, stream);
if (RoomForMoreConcurrent()) {
LOG3(("SpdySession2::AddStream %p stream %p activated immediately.",
this, stream));
ActivateStream(stream);
}
else {
LOG3(("SpdySession2::AddStream %p stream %p queued.",
this, stream));
mQueuedStreams.Push(stream);
}
return true;
}
void
SpdySession2::ActivateStream(SpdyStream2 *stream)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
mConcurrent++;
if (mConcurrent > mConcurrentHighWater)
mConcurrentHighWater = mConcurrent;
LOG3(("SpdySession2::AddStream %p activating stream %p Currently %d "
"streams in session, high water mark is %d",
this, stream, mConcurrent, mConcurrentHighWater));
mReadyForWrite.Push(stream);
SetWriteCallbacks();
// Kick off the SYN transmit without waiting for the poll loop
// This won't work for stream id=1 because there is no segment reader
// yet.
if (mSegmentReader) {
uint32_t countRead;
ReadSegments(nullptr, kDefaultBufferSize, &countRead);
}
}
void
SpdySession2::ProcessPending()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
while (RoomForMoreConcurrent()) {
SpdyStream2 *stream = static_cast<SpdyStream2 *>(mQueuedStreams.PopFront());
if (!stream)
return;
LOG3(("SpdySession2::ProcessPending %p stream %p activated from queue.",
this, stream));
ActivateStream(stream);
}
}
nsresult
SpdySession2::NetworkRead(nsAHttpSegmentWriter *writer, char *buf,
uint32_t count, uint32_t *countWritten)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
if (!count) {
*countWritten = 0;
return NS_OK;
}
nsresult rv = writer->OnWriteSegment(buf, count, countWritten);
if (NS_SUCCEEDED(rv) && *countWritten > 0)
mLastReadEpoch = PR_IntervalNow();
return rv;
}
void
SpdySession2::SetWriteCallbacks()
{
if (mConnection && (GetWriteQueueSize() || mOutputQueueUsed))
mConnection->ResumeSend();
}
void
SpdySession2::RealignOutputQueue()
{
mOutputQueueUsed -= mOutputQueueSent;
memmove(mOutputQueueBuffer.get(),
mOutputQueueBuffer.get() + mOutputQueueSent,
mOutputQueueUsed);
mOutputQueueSent = 0;
}
void
SpdySession2::FlushOutputQueue()
{
if (!mSegmentReader || !mOutputQueueUsed)
return;
nsresult rv;
uint32_t countRead;
uint32_t avail = mOutputQueueUsed - mOutputQueueSent;
rv = mSegmentReader->
OnReadSegment(mOutputQueueBuffer.get() + mOutputQueueSent, avail,
&countRead);
LOG3(("SpdySession2::FlushOutputQueue %p sz=%d rv=%x actual=%d",
this, avail, rv, countRead));
// Dont worry about errors on write, we will pick this up as a read error too
if (NS_FAILED(rv))
return;
if (countRead == avail) {
mOutputQueueUsed = 0;
mOutputQueueSent = 0;
return;
}
mOutputQueueSent += countRead;
// If the output queue is close to filling up and we have sent out a good
// chunk of data from the beginning then realign it.
if ((mOutputQueueSent >= kQueueMinimumCleanup) &&
((mOutputQueueSize - mOutputQueueUsed) < kQueueTailRoom)) {
RealignOutputQueue();
}
}
void
SpdySession2::DontReuse()
{
mShouldGoAway = true;
if (!mStreamTransactionHash.Count())
Close(NS_OK);
}
uint32_t
SpdySession2::GetWriteQueueSize()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
return mUrgentForWrite.GetSize() + mReadyForWrite.GetSize();
}
void
SpdySession2::ChangeDownstreamState(enum stateType newState)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdyStream2::ChangeDownstreamState() %p from %X to %X",
this, mDownstreamState, newState));
mDownstreamState = newState;
}
void
SpdySession2::ResetDownstreamState()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdyStream2::ResetDownstreamState() %p", this));
ChangeDownstreamState(BUFFERING_FRAME_HEADER);
if (mInputFrameDataLast && mInputFrameDataStream) {
mInputFrameDataLast = false;
if (!mInputFrameDataStream->RecvdFin()) {
mInputFrameDataStream->SetRecvdFin(true);
--mConcurrent;
ProcessPending();
}
}
mInputFrameBufferUsed = 0;
mInputFrameDataStream = nullptr;
}
void
SpdySession2::EnsureBuffer(nsAutoArrayPtr<char> &buf,
uint32_t newSize,
uint32_t preserve,
uint32_t &objSize)
{
if (objSize >= newSize)
return;
// Leave a little slop on the new allocation - add 2KB to
// what we need and then round the result up to a 4KB (page)
// boundary.
objSize = (newSize + 2048 + 4095) & ~4095;
nsAutoArrayPtr<char> tmp(new char[objSize]);
memcpy(tmp, buf, preserve);
buf = tmp;
}
void
SpdySession2::zlibInit()
{
mDownstreamZlib.zalloc = SpdyStream2::zlib_allocator;
mDownstreamZlib.zfree = SpdyStream2::zlib_destructor;
mDownstreamZlib.opaque = Z_NULL;
inflateInit(&mDownstreamZlib);
mUpstreamZlib.zalloc = SpdyStream2::zlib_allocator;
mUpstreamZlib.zfree = SpdyStream2::zlib_destructor;
mUpstreamZlib.opaque = Z_NULL;
// mixing carte blanche compression with tls subjects us to traffic
// analysis attacks
deflateInit(&mUpstreamZlib, Z_NO_COMPRESSION);
deflateSetDictionary(&mUpstreamZlib,
reinterpret_cast<const unsigned char *>
(SpdyStream2::kDictionary),
strlen(SpdyStream2::kDictionary) + 1);
}
nsresult
SpdySession2::DownstreamUncompress(char *blockStart, uint32_t blockLen)
{
mDecompressBufferUsed = 0;
mDownstreamZlib.avail_in = blockLen;
mDownstreamZlib.next_in = reinterpret_cast<unsigned char *>(blockStart);
bool triedDictionary = false;
do {
mDownstreamZlib.next_out =
reinterpret_cast<unsigned char *>(mDecompressBuffer.get()) +
mDecompressBufferUsed;
mDownstreamZlib.avail_out = mDecompressBufferSize - mDecompressBufferUsed;
int zlib_rv = inflate(&mDownstreamZlib, Z_NO_FLUSH);
if (zlib_rv == Z_NEED_DICT) {
if (triedDictionary) {
LOG3(("SpdySession2::DownstreamUncompress %p Dictionary Error\n", this));
return NS_ERROR_FAILURE;
}
triedDictionary = true;
inflateSetDictionary(&mDownstreamZlib,
reinterpret_cast<const unsigned char *>
(SpdyStream2::kDictionary),
strlen(SpdyStream2::kDictionary) + 1);
}
if (zlib_rv == Z_DATA_ERROR || zlib_rv == Z_MEM_ERROR)
return NS_ERROR_FAILURE;
mDecompressBufferUsed += mDecompressBufferSize - mDecompressBufferUsed -
mDownstreamZlib.avail_out;
// When there is no more output room, but input still available then
// increase the output space
if (zlib_rv == Z_OK &&
!mDownstreamZlib.avail_out && mDownstreamZlib.avail_in) {
LOG3(("SpdySession2::DownstreamUncompress %p Large Headers - so far %d",
this, mDecompressBufferSize));
EnsureBuffer(mDecompressBuffer,
mDecompressBufferSize + 4096,
mDecompressBufferUsed,
mDecompressBufferSize);
}
}
while (mDownstreamZlib.avail_in);
return NS_OK;
}
nsresult
SpdySession2::FindHeader(nsCString name,
nsDependentCSubstring &value)
{
const unsigned char *nvpair = reinterpret_cast<unsigned char *>
(mDecompressBuffer.get()) + 2;
const unsigned char *lastHeaderByte = reinterpret_cast<unsigned char *>
(mDecompressBuffer.get()) + mDecompressBufferUsed;
if (lastHeaderByte < nvpair)
return NS_ERROR_ILLEGAL_VALUE;
uint16_t numPairs =
PR_ntohs(reinterpret_cast<uint16_t *>(mDecompressBuffer.get())[0]);
for (uint16_t index = 0; index < numPairs; ++index) {
if (lastHeaderByte < nvpair + 2)
return NS_ERROR_ILLEGAL_VALUE;
uint32_t nameLen = (nvpair[0] << 8) + nvpair[1];
if (lastHeaderByte < nvpair + 2 + nameLen)
return NS_ERROR_ILLEGAL_VALUE;
nsDependentCSubstring nameString =
Substring(reinterpret_cast<const char *>(nvpair) + 2,
reinterpret_cast<const char *>(nvpair) + 2 + nameLen);
if (lastHeaderByte < nvpair + 4 + nameLen)
return NS_ERROR_ILLEGAL_VALUE;
uint16_t valueLen = (nvpair[2 + nameLen] << 8) + nvpair[3 + nameLen];
if (lastHeaderByte < nvpair + 4 + nameLen + valueLen)
return NS_ERROR_ILLEGAL_VALUE;
if (nameString.Equals(name)) {
value.Assign(((char *)nvpair) + 4 + nameLen, valueLen);
return NS_OK;
}
nvpair += 4 + nameLen + valueLen;
}
return NS_ERROR_NOT_AVAILABLE;
}
nsresult
SpdySession2::ConvertHeaders(nsDependentCSubstring &status,
nsDependentCSubstring &version)
{
mFlatHTTPResponseHeaders.Truncate();
mFlatHTTPResponseHeadersOut = 0;
mFlatHTTPResponseHeaders.SetCapacity(mDecompressBufferUsed + 64);
// Connection, Keep-Alive and chunked transfer encodings are to be
// removed.
// Content-Length is 'advisory'.. we will not strip it because it can
// create UI feedback.
mFlatHTTPResponseHeaders.Append(version);
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING(" "));
mFlatHTTPResponseHeaders.Append(status);
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING("\r\n"));
const unsigned char *nvpair = reinterpret_cast<unsigned char *>
(mDecompressBuffer.get()) + 2;
const unsigned char *lastHeaderByte = reinterpret_cast<unsigned char *>
(mDecompressBuffer.get()) + mDecompressBufferUsed;
if (lastHeaderByte < nvpair)
return NS_ERROR_ILLEGAL_VALUE;
uint16_t numPairs =
PR_ntohs(reinterpret_cast<uint16_t *>(mDecompressBuffer.get())[0]);
for (uint16_t index = 0; index < numPairs; ++index) {
if (lastHeaderByte < nvpair + 2)
return NS_ERROR_ILLEGAL_VALUE;
uint32_t nameLen = (nvpair[0] << 8) + nvpair[1];
if (lastHeaderByte < nvpair + 2 + nameLen)
return NS_ERROR_ILLEGAL_VALUE;
nsDependentCSubstring nameString =
Substring(reinterpret_cast<const char *>(nvpair) + 2,
reinterpret_cast<const char *>(nvpair) + 2 + nameLen);
if (lastHeaderByte < nvpair + 4 + nameLen)
return NS_ERROR_ILLEGAL_VALUE;
// Look for illegal characters in the nameString.
// This includes upper case characters and nulls (as they will
// break the fixup-nulls-in-value-string algorithm)
// Look for upper case characters in the name. They are illegal.
for (char *cPtr = nameString.BeginWriting();
cPtr && cPtr < nameString.EndWriting();
++cPtr) {
if (*cPtr <= 'Z' && *cPtr >= 'A') {
nsCString toLog(nameString);
LOG3(("SpdySession2::ConvertHeaders session=%p stream=%p "
"upper case response header found. [%s]\n",
this, mInputFrameDataStream, toLog.get()));
return NS_ERROR_ILLEGAL_VALUE;
}
// check for null characters
if (*cPtr == '\0')
return NS_ERROR_ILLEGAL_VALUE;
}
// HTTP Chunked responses are not legal over spdy. We do not need
// to look for chunked specifically because it is the only HTTP
// allowed default encoding and we did not negotiate further encodings
// via TE
if (nameString.Equals(NS_LITERAL_CSTRING("transfer-encoding"))) {
LOG3(("SpdySession2::ConvertHeaders session=%p stream=%p "
"transfer-encoding found. Chunked is invalid and no TE sent.",
this, mInputFrameDataStream));
return NS_ERROR_ILLEGAL_VALUE;
}
uint16_t valueLen = (nvpair[2 + nameLen] << 8) + nvpair[3 + nameLen];
if (lastHeaderByte < nvpair + 4 + nameLen + valueLen)
return NS_ERROR_ILLEGAL_VALUE;
if (!nameString.Equals(NS_LITERAL_CSTRING("version")) &&
!nameString.Equals(NS_LITERAL_CSTRING("status")) &&
!nameString.Equals(NS_LITERAL_CSTRING("connection")) &&
!nameString.Equals(NS_LITERAL_CSTRING("keep-alive"))) {
nsDependentCSubstring valueString =
Substring(reinterpret_cast<const char *>(nvpair) + 4 + nameLen,
reinterpret_cast<const char *>(nvpair) + 4 + nameLen +
valueLen);
mFlatHTTPResponseHeaders.Append(nameString);
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING(": "));
// expand NULL bytes in the value string
for (char *cPtr = valueString.BeginWriting();
cPtr && cPtr < valueString.EndWriting();
++cPtr) {
if (*cPtr != 0) {
mFlatHTTPResponseHeaders.Append(*cPtr);
continue;
}
// NULLs are really "\r\nhdr: "
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING("\r\n"));
mFlatHTTPResponseHeaders.Append(nameString);
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING(": "));
}
mFlatHTTPResponseHeaders.Append(NS_LITERAL_CSTRING("\r\n"));
}
nvpair += 4 + nameLen + valueLen;
}
mFlatHTTPResponseHeaders.Append(
NS_LITERAL_CSTRING("X-Firefox-Spdy: 2\r\n\r\n"));
LOG (("decoded response headers are:\n%s",
mFlatHTTPResponseHeaders.get()));
return NS_OK;
}
void
SpdySession2::GeneratePing(uint32_t aID)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::GeneratePing %p 0x%X\n", this, aID));
EnsureBuffer(mOutputQueueBuffer, mOutputQueueUsed + 12,
mOutputQueueUsed, mOutputQueueSize);
char *packet = mOutputQueueBuffer.get() + mOutputQueueUsed;
mOutputQueueUsed += 12;
packet[0] = kFlag_Control;
packet[1] = 2; /* version 2 */
packet[2] = 0;
packet[3] = CONTROL_TYPE_PING;
packet[4] = 0; /* flags */
packet[5] = 0;
packet[6] = 0;
packet[7] = 4; /* length */
aID = PR_htonl(aID);
memcpy(packet + 8, &aID, 4);
FlushOutputQueue();
}
void
SpdySession2::GenerateRstStream(uint32_t aStatusCode, uint32_t aID)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::GenerateRst %p 0x%X %d\n", this, aID, aStatusCode));
EnsureBuffer(mOutputQueueBuffer, mOutputQueueUsed + 16,
mOutputQueueUsed, mOutputQueueSize);
char *packet = mOutputQueueBuffer.get() + mOutputQueueUsed;
mOutputQueueUsed += 16;
packet[0] = kFlag_Control;
packet[1] = 2; /* version 2 */
packet[2] = 0;
packet[3] = CONTROL_TYPE_RST_STREAM;
packet[4] = 0; /* flags */
packet[5] = 0;
packet[6] = 0;
packet[7] = 8; /* length */
aID = PR_htonl(aID);
memcpy(packet + 8, &aID, 4);
aStatusCode = PR_htonl(aStatusCode);
memcpy(packet + 12, &aStatusCode, 4);
FlushOutputQueue();
}
void
SpdySession2::GenerateGoAway()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::GenerateGoAway %p\n", this));
EnsureBuffer(mOutputQueueBuffer, mOutputQueueUsed + 12,
mOutputQueueUsed, mOutputQueueSize);
char *packet = mOutputQueueBuffer.get() + mOutputQueueUsed;
mOutputQueueUsed += 12;
memset(packet, 0, 12);
packet[0] = kFlag_Control;
packet[1] = 2; /* version 2 */
packet[3] = CONTROL_TYPE_GOAWAY;
packet[7] = 4; /* data length */
// last-good-stream-id are bytes 8-11, when we accept server push this will
// need to be set non zero
FlushOutputQueue();
}
// perform a bunch of integrity checks on the stream.
// returns true if passed, false (plus LOG and ABORT) if failed.
bool
SpdySession2::VerifyStream(SpdyStream2 *aStream, uint32_t aOptionalID = 0)
{
// This is annoying, but at least it is O(1)
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
#ifndef DEBUG
// Only do the real verification in debug builds
return true;
#endif
if (!aStream)
return true;
uint32_t test = 0;
do {
if (aStream->StreamID() == kDeadStreamID)
break;
nsAHttpTransaction *trans = aStream->Transaction();
test++;
if (!trans)
break;
test++;
if (mStreamTransactionHash.Get(trans) != aStream)
break;
if (aStream->StreamID()) {
SpdyStream2 *idStream = mStreamIDHash.Get(aStream->StreamID());
test++;
if (idStream != aStream)
break;
if (aOptionalID) {
test++;
if (idStream->StreamID() != aOptionalID)
break;
}
}
// tests passed
return true;
} while (0);
LOG(("SpdySession %p VerifyStream Failure %p stream->id=0x%x "
"optionalID=0x%x trans=%p test=%d\n",
this, aStream, aStream->StreamID(),
aOptionalID, aStream->Transaction(), test));
NS_ABORT_IF_FALSE(false, "VerifyStream");
return false;
}
void
SpdySession2::CleanupStream(SpdyStream2 *aStream, nsresult aResult,
rstReason aResetCode)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::CleanupStream %p %p 0x%x %X\n",
this, aStream, aStream->StreamID(), aResult));
if (!VerifyStream(aStream)) {
LOG(("SpdySession2::CleanupStream failed to verify stream\n"));
return;
}
if (!aStream->RecvdFin() && aStream->StreamID()) {
LOG3(("Stream had not processed recv FIN, sending RST code %X\n",
aResetCode));
GenerateRstStream(aResetCode, aStream->StreamID());
--mConcurrent;
ProcessPending();
}
CloseStream(aStream, aResult);
// Remove the stream from the ID hash table. (this one isn't short, which is
// why it is hashed.)
mStreamIDHash.Remove(aStream->StreamID());
// removing from the stream transaction hash will
// delete the SpdyStream2 and drop the reference to
// its transaction
mStreamTransactionHash.Remove(aStream->Transaction());
if (mShouldGoAway && !mStreamTransactionHash.Count())
Close(NS_OK);
}
void
SpdySession2::CloseStream(SpdyStream2 *aStream, nsresult aResult)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::CloseStream %p %p 0x%x %X\n",
this, aStream, aStream->StreamID(), aResult));
// Check if partial frame reader
if (aStream == mInputFrameDataStream) {
LOG3(("Stream had active partial read frame on close"));
ChangeDownstreamState(DISCARDING_DATA_FRAME);
mInputFrameDataStream = nullptr;
}
// check the streams blocked on write, this is linear but the list
// should be pretty short.
uint32_t size = mReadyForWrite.GetSize();
for (uint32_t count = 0; count < size; ++count) {
SpdyStream2 *stream = static_cast<SpdyStream2 *>(mReadyForWrite.PopFront());
if (stream != aStream)
mReadyForWrite.Push(stream);
}
// Check the streams blocked on urgent (i.e. window update) writing.
// This should also be short.
size = mUrgentForWrite.GetSize();
for (uint32_t count = 0; count < size; ++count) {
SpdyStream2 *stream = static_cast<SpdyStream2 *>(mUrgentForWrite.PopFront());
if (stream != aStream)
mUrgentForWrite.Push(stream);
}
// Check the streams queued for activation. Because we normally accept a high
// level of parallelization this should also be short.
size = mQueuedStreams.GetSize();
for (uint32_t count = 0; count < size; ++count) {
SpdyStream2 *stream = static_cast<SpdyStream2 *>(mQueuedStreams.PopFront());
if (stream != aStream)
mQueuedStreams.Push(stream);
}
// Send the stream the close() indication
aStream->Close(aResult);
}
nsresult
SpdySession2::HandleSynStream(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_SYN_STREAM,
"wrong control type");
if (self->mInputFrameDataSize < 18) {
LOG3(("SpdySession2::HandleSynStream %p SYN_STREAM too short data=%d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
uint32_t streamID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
uint32_t associatedID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[3]);
LOG3(("SpdySession2::HandleSynStream %p recv SYN_STREAM (push) "
"for ID 0x%X associated with 0x%X.",
self, streamID, associatedID));
if (streamID & 0x01) { // test for odd stream ID
LOG3(("SpdySession2::HandleSynStream %p recvd SYN_STREAM id must be even.",
self));
return NS_ERROR_ILLEGAL_VALUE;
}
++(self->mServerPushedResources);
// Anytime we start using the high bit of stream ID (either client or server)
// begin to migrate to a new session.
if (streamID >= kMaxStreamID)
self->mShouldGoAway = true;
// Need to decompress the headers even though we aren't using them yet in
// order to keep the compression context consistent for other syn_reply frames
nsresult rv = self->DownstreamUncompress(self->mInputFrameBuffer + 18,
self->mInputFrameDataSize - 10);
if (NS_FAILED(rv)) {
LOG(("SpdySession2::HandleSynStream uncompress failed\n"));
return rv;
}
// todo populate cache. For now, just reject server push p3
self->GenerateRstStream(RST_REFUSED_STREAM, streamID);
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::SetInputFrameDataStream(uint32_t streamID)
{
mInputFrameDataStream = mStreamIDHash.Get(streamID);
if (VerifyStream(mInputFrameDataStream, streamID))
return NS_OK;
LOG(("SpdySession2::SetInputFrameDataStream failed to verify 0x%X\n",
streamID));
mInputFrameDataStream = nullptr;
return NS_ERROR_UNEXPECTED;
}
nsresult
SpdySession2::HandleSynReply(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_SYN_REPLY,
"wrong control type");
if (self->mInputFrameDataSize < 8) {
LOG3(("SpdySession2::HandleSynReply %p SYN REPLY too short data=%d",
self, self->mInputFrameDataSize));
// A framing error is a session wide error that cannot be recovered
return NS_ERROR_ILLEGAL_VALUE;
}
// Uncompress the headers into mDecompressBuffer, leaving them in
// spdy format for the time being. Make certain to do this
// step before any error handling that might abort the stream but not
// the session becuase the session compression context will become
// inconsistent if all of the compressed data is not processed.
if (NS_FAILED(self->DownstreamUncompress(self->mInputFrameBuffer + 14,
self->mInputFrameDataSize - 6))) {
LOG(("SpdySession2::HandleSynReply uncompress failed\n"));
return NS_ERROR_FAILURE;
}
LOG3(("SpdySession2::HandleSynReply %p lookup via streamID in syn_reply.\n",
self));
uint32_t streamID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
nsresult rv = self->SetInputFrameDataStream(streamID);
if (NS_FAILED(rv))
return rv;
if (!self->mInputFrameDataStream) {
LOG3(("SpdySession2::HandleSynReply %p lookup streamID in syn_reply "
"0x%X failed. NextStreamID = 0x%x", self, streamID,
self->mNextStreamID));
if (streamID >= self->mNextStreamID)
self->GenerateRstStream(RST_INVALID_STREAM, streamID);
self->ResetDownstreamState();
return NS_OK;
}
rv = self->HandleSynReplyForValidStream();
if (rv == NS_ERROR_ILLEGAL_VALUE) {
LOG3(("SpdySession2::HandleSynReply %p PROTOCOL_ERROR detected 0x%X\n",
self, streamID));
self->CleanupStream(self->mInputFrameDataStream, rv, RST_PROTOCOL_ERROR);
self->ResetDownstreamState();
rv = NS_OK;
}
return rv;
}
// HandleSynReplyForValidStream() returns NS_ERROR_ILLEGAL_VALUE when the stream
// should be reset with a PROTOCOL_ERROR, NS_OK when the SYN_REPLY was
// fine, and any other error is fatal to the session.
nsresult
SpdySession2::HandleSynReplyForValidStream()
{
if (mInputFrameDataStream->GetFullyOpen()) {
// "If an endpoint receives multiple SYN_REPLY frames for the same active
// stream ID, it must drop the stream, and send a RST_STREAM for the
// stream with the error PROTOCOL_ERROR."
//
// If the stream is open then just RST_STREAM and move on, otherwise
// abort the session
return mInputFrameDataStream->RecvdFin() ?
NS_ERROR_ALREADY_OPENED : NS_ERROR_ILLEGAL_VALUE;
}
mInputFrameDataStream->SetFullyOpen();
mInputFrameDataLast = mInputFrameBuffer[4] & kFlag_Data_FIN;
if (mInputFrameBuffer[4] & kFlag_Data_UNI) {
LOG3(("SynReply had unidirectional flag set on it - nonsensical"));
return NS_ERROR_ILLEGAL_VALUE;
}
LOG3(("SpdySession2::HandleSynReplyForValidStream %p SYN_REPLY for 0x%X "
"fin=%d",
this, mInputFrameDataStream->StreamID(), mInputFrameDataLast));
Telemetry::Accumulate(Telemetry::SPDY_SYN_REPLY_SIZE,
mInputFrameDataSize - 6);
if (mDecompressBufferUsed) {
uint32_t ratio =
(mInputFrameDataSize - 6) * 100 / mDecompressBufferUsed;
Telemetry::Accumulate(Telemetry::SPDY_SYN_REPLY_RATIO, ratio);
}
// status and version are required.
nsDependentCSubstring status, version;
nsresult rv = FindHeader(NS_LITERAL_CSTRING("status"), status);
if (NS_FAILED(rv))
return (rv == NS_ERROR_NOT_AVAILABLE) ? NS_ERROR_ILLEGAL_VALUE : rv;
rv = FindHeader(NS_LITERAL_CSTRING("version"), version);
if (NS_FAILED(rv))
return (rv == NS_ERROR_NOT_AVAILABLE) ? NS_ERROR_ILLEGAL_VALUE : rv;
// The spdystream needs to see flattened http headers
// Uncompressed spdy format headers currently live in
// mDeccompressBuffer - convert that to HTTP format in
// mFlatHTTPResponseHeaders in ConvertHeaders()
rv = ConvertHeaders(status, version);
if (NS_FAILED(rv))
return rv;
mInputFrameDataStream->UpdateTransportReadEvents(mInputFrameDataSize);
mLastDataReadEpoch = mLastReadEpoch;
ChangeDownstreamState(PROCESSING_CONTROL_SYN_REPLY);
return NS_OK;
}
nsresult
SpdySession2::HandleRstStream(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_RST_STREAM,
"wrong control type");
if (self->mInputFrameDataSize != 8) {
LOG3(("SpdySession2::HandleRstStream %p RST_STREAM wrong length data=%d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
uint8_t flags = reinterpret_cast<uint8_t *>(self->mInputFrameBuffer.get())[4];
uint32_t streamID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
self->mDownstreamRstReason =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[3]);
LOG3(("SpdySession2::HandleRstStream %p RST_STREAM Reason Code %u ID %x "
"flags %x", self, self->mDownstreamRstReason, streamID, flags));
if (flags != 0) {
LOG3(("SpdySession2::HandleRstStream %p RST_STREAM with flags is illegal",
self));
return NS_ERROR_ILLEGAL_VALUE;
}
if (self->mDownstreamRstReason == RST_INVALID_STREAM ||
self->mDownstreamRstReason == RST_FLOW_CONTROL_ERROR) {
// basically just ignore this
self->ResetDownstreamState();
return NS_OK;
}
nsresult rv = self->SetInputFrameDataStream(streamID);
if (!self->mInputFrameDataStream) {
if (NS_FAILED(rv))
LOG(("SpdySession2::HandleRstStream %p lookup streamID for RST Frame "
"0x%X failed reason = %d :: VerifyStream Failed\n", self, streamID,
self->mDownstreamRstReason));
LOG3(("SpdySession2::HandleRstStream %p lookup streamID for RST Frame "
"0x%X failed reason = %d", self, streamID,
self->mDownstreamRstReason));
return NS_ERROR_ILLEGAL_VALUE;
}
self->ChangeDownstreamState(PROCESSING_CONTROL_RST_STREAM);
return NS_OK;
}
nsresult
SpdySession2::HandleSettings(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_SETTINGS,
"wrong control type");
if (self->mInputFrameDataSize < 4) {
LOG3(("SpdySession2::HandleSettings %p SETTINGS wrong length data=%d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
uint32_t numEntries =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
// Ensure frame is large enough for supplied number of entries
// Each entry is 8 bytes, frame data is reduced by 4 to account for
// the NumEntries value.
if ((self->mInputFrameDataSize - 4) < (numEntries * 8)) {
LOG3(("SpdySession2::HandleSettings %p SETTINGS wrong length data=%d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
LOG3(("SpdySession2::HandleSettings %p SETTINGS Control Frame with %d entries",
self, numEntries));
for (uint32_t index = 0; index < numEntries; ++index) {
// To clarify the v2 spec:
// Each entry is a 24 bits of a little endian id
// followed by 8 bits of flags
// followed by a 32 bit big endian value
unsigned char *setting = reinterpret_cast<unsigned char *>
(self->mInputFrameBuffer.get()) + 12 + index * 8;
uint32_t id = (setting[2] << 16) + (setting[1] << 8) + setting[0];
uint32_t flags = setting[3];
uint32_t value = PR_ntohl(reinterpret_cast<uint32_t *>(setting)[1]);
LOG3(("Settings ID %d, Flags %X, Value %d", id, flags, value));
switch (id)
{
case SETTINGS_TYPE_UPLOAD_BW:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_UL_BW, value);
break;
case SETTINGS_TYPE_DOWNLOAD_BW:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_DL_BW, value);
break;
case SETTINGS_TYPE_RTT:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_RTT, value);
break;
case SETTINGS_TYPE_MAX_CONCURRENT:
self->mMaxConcurrent = value;
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_MAX_STREAMS, value);
break;
case SETTINGS_TYPE_CWND:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_CWND, value);
break;
case SETTINGS_TYPE_DOWNLOAD_RETRANS_RATE:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_RETRANS, value);
break;
case SETTINGS_TYPE_INITIAL_WINDOW:
Telemetry::Accumulate(Telemetry::SPDY_SETTINGS_IW, value >> 10);
break;
default:
break;
}
}
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::HandleNoop(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_NOOP,
"wrong control type");
if (self->mInputFrameDataSize != 0) {
LOG3(("SpdySession2::HandleNoop %p NOP had data %d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
LOG3(("SpdySession2::HandleNoop %p NOP.", self));
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::HandlePing(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_PING,
"wrong control type");
if (self->mInputFrameDataSize != 4) {
LOG3(("SpdySession2::HandlePing %p PING had wrong amount of data %d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
uint32_t pingID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
LOG3(("SpdySession2::HandlePing %p PING ID 0x%X.", self, pingID));
if (pingID & 0x01) {
// presumably a reply to our timeout ping
self->mPingSentEpoch = 0;
}
else {
// Servers initiate even numbered pings, go ahead and echo it back
self->GeneratePing(pingID);
}
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::HandleGoAway(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_GOAWAY,
"wrong control type");
if (self->mInputFrameDataSize != 4) {
LOG3(("SpdySession2::HandleGoAway %p GOAWAY had wrong amount of data %d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
self->mShouldGoAway = true;
self->mGoAwayID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
self->mCleanShutdown = true;
LOG3(("SpdySession2::HandleGoAway %p GOAWAY Last-Good-ID 0x%X.",
self, self->mGoAwayID));
self->ResumeRecv();
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::HandleHeaders(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_HEADERS,
"wrong control type");
if (self->mInputFrameDataSize < 10) {
LOG3(("SpdySession2::HandleHeaders %p HEADERS had wrong amount of data %d",
self, self->mInputFrameDataSize));
return NS_ERROR_ILLEGAL_VALUE;
}
uint32_t streamID =
PR_ntohl(reinterpret_cast<uint32_t *>(self->mInputFrameBuffer.get())[2]);
// this is actually not legal in the HTTP mapping of SPDY. All
// headers are in the syn or syn reply. Log and ignore it.
// in v3 this will be legal and we must remember to note
// NS_NET_STATUS_RECEIVING_FROM from it
LOG3(("SpdySession2::HandleHeaders %p HEADERS for Stream 0x%X. "
"They are ignored in the HTTP/SPDY mapping.",
self, streamID));
self->mLastDataReadEpoch = self->mLastReadEpoch;
self->ResetDownstreamState();
return NS_OK;
}
nsresult
SpdySession2::HandleWindowUpdate(SpdySession2 *self)
{
NS_ABORT_IF_FALSE(self->mFrameControlType == CONTROL_TYPE_WINDOW_UPDATE,
"wrong control type");
LOG3(("SpdySession2::HandleWindowUpdate %p WINDOW UPDATE was "
"received. WINDOW UPDATE is no longer defined in v2. Ignoring.",
self));
self->ResetDownstreamState();
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsAHttpTransaction. It is expected that nsHttpConnection is the caller
// of these methods
//-----------------------------------------------------------------------------
void
SpdySession2::OnTransportStatus(nsITransport* aTransport,
nsresult aStatus,
uint64_t aProgress)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
switch (aStatus) {
// These should appear only once, deliver to the first
// transaction on the session.
case NS_NET_STATUS_RESOLVING_HOST:
case NS_NET_STATUS_RESOLVED_HOST:
case NS_NET_STATUS_CONNECTING_TO:
case NS_NET_STATUS_CONNECTED_TO:
{
SpdyStream2 *target = mStreamIDHash.Get(1);
if (target)
target->Transaction()->OnTransportStatus(aTransport, aStatus, aProgress);
break;
}
default:
// The other transport events are ignored here because there is no good
// way to map them to the right transaction in spdy. Instead, the events
// are generated again from the spdy code and passed directly to the
// correct transaction.
// NS_NET_STATUS_SENDING_TO:
// This is generated by the socket transport when (part) of
// a transaction is written out
//
// There is no good way to map it to the right transaction in spdy,
// so it is ignored here and generated separately when the SYN_STREAM
// is sent from SpdyStream2::TransmitFrame
// NS_NET_STATUS_WAITING_FOR:
// Created by nsHttpConnection when the request has been totally sent.
// There is no good way to map it to the right transaction in spdy,
// so it is ignored here and generated separately when the same
// condition is complete in SpdyStream2 when there is no more
// request body left to be transmitted.
// NS_NET_STATUS_RECEIVING_FROM
// Generated in spdysession whenever we read a data frame or a syn_reply
// that can be attributed to a particular stream/transaction
break;
}
}
// ReadSegments() is used to write data to the network. Generally, HTTP
// request data is pulled from the approriate transaction and
// converted to SPDY data. Sometimes control data like window-update are
// generated instead.
nsresult
SpdySession2::ReadSegments(nsAHttpSegmentReader *reader,
uint32_t count,
uint32_t *countRead)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
NS_ABORT_IF_FALSE(!mSegmentReader || !reader || (mSegmentReader == reader),
"Inconsistent Write Function Callback");
if (reader)
mSegmentReader = reader;
nsresult rv;
*countRead = 0;
// First priority goes to frames that were writing to the network but were
// blocked part way through. Then to frames that have no streams (e.g ping
// reply) and then third to streams marked urgent (generally they have
// window updates), and finally to streams generally
// ready to send data frames (http requests).
LOG3(("SpdySession2::ReadSegments %p", this));
SpdyStream2 *stream;
stream = static_cast<SpdyStream2 *>(mUrgentForWrite.PopFront());
if (!stream)
stream = static_cast<SpdyStream2 *>(mReadyForWrite.PopFront());
if (!stream) {
LOG3(("SpdySession2 %p could not identify a stream to write; suspending.",
this));
FlushOutputQueue();
SetWriteCallbacks();
return NS_BASE_STREAM_WOULD_BLOCK;
}
LOG3(("SpdySession2 %p will write from SpdyStream2 %p", this, stream));
rv = stream->ReadSegments(this, count, countRead);
// Not every permutation of stream->ReadSegents produces data (and therefore
// tries to flush the output queue) - SENDING_FIN_STREAM can be an example
// of that. But we might still have old data buffered that would be good
// to flush.
FlushOutputQueue();
if (stream->RequestBlockedOnRead()) {
// We are blocked waiting for input - either more http headers or
// any request body data. When more data from the request stream
// becomes available the httptransaction will call conn->ResumeSend().
LOG3(("SpdySession2::ReadSegments %p dealing with block on read", this));
// call readsegments again if there are other streams ready
// to run in this session
if (GetWriteQueueSize())
rv = NS_OK;
else
rv = NS_BASE_STREAM_WOULD_BLOCK;
SetWriteCallbacks();
return rv;
}
if (NS_FAILED(rv)) {
LOG3(("SpdySession2::ReadSegments %p returning FAIL code %X",
this, rv));
if (rv != NS_BASE_STREAM_WOULD_BLOCK)
CleanupStream(stream, rv, RST_CANCEL);
return rv;
}
if (*countRead > 0) {
LOG3(("SpdySession2::ReadSegments %p stream=%p generated end of frame %d",
this, stream, *countRead));
mReadyForWrite.Push(stream);
SetWriteCallbacks();
return rv;
}
LOG3(("SpdySession2::ReadSegments %p stream=%p stream send complete",
this, stream));
/* we now want to recv data */
ResumeRecv();
// call readsegments again if there are other streams ready
// to go in this session
SetWriteCallbacks();
return rv;
}
// WriteSegments() is used to read data off the socket. Generally this is
// just the SPDY frame header and from there the appropriate SPDYStream
// is identified from the Stream-ID. The http transaction associated with
// that read then pulls in the data directly, which it will feed to
// OnWriteSegment(). That function will gateway it into http and feed
// it to the appropriate transaction.
// we call writer->OnWriteSegment via NetworkRead() to get a spdy header..
// and decide if it is data or control.. if it is control, just deal with it.
// if it is data, identify the spdy stream
// call stream->WriteSegemnts which can call this::OnWriteSegment to get the
// data. It always gets full frames if they are part of the stream
nsresult
SpdySession2::WriteSegments(nsAHttpSegmentWriter *writer,
uint32_t count,
uint32_t *countWritten)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
nsresult rv;
*countWritten = 0;
if (mClosed)
return NS_ERROR_FAILURE;
SetWriteCallbacks();
// We buffer all control frames and act on them in this layer.
// We buffer the first 8 bytes of data frames (the header) but
// the actual data is passed through unprocessed.
if (mDownstreamState == BUFFERING_FRAME_HEADER) {
// The first 8 bytes of every frame is header information that
// we are going to want to strip before passing to http. That is
// true of both control and data packets.
NS_ABORT_IF_FALSE(mInputFrameBufferUsed < 8,
"Frame Buffer Used Too Large for State");
rv = NetworkRead(writer, mInputFrameBuffer + mInputFrameBufferUsed,
8 - mInputFrameBufferUsed, countWritten);
if (NS_FAILED(rv)) {
LOG3(("SpdySession2 %p buffering frame header read failure %x\n",
this, rv));
// maybe just blocked reading from network
if (rv == NS_BASE_STREAM_WOULD_BLOCK)
ResumeRecv();
return rv;
}
LogIO(this, nullptr, "Reading Frame Header",
mInputFrameBuffer + mInputFrameBufferUsed, *countWritten);
mInputFrameBufferUsed += *countWritten;
if (mInputFrameBufferUsed < 8)
{
LOG3(("SpdySession2::WriteSegments %p "
"BUFFERING FRAME HEADER incomplete size=%d",
this, mInputFrameBufferUsed));
return rv;
}
// For both control and data frames the second 32 bit word of the header
// is 8-flags, 24-length. (network byte order)
mInputFrameDataSize =
PR_ntohl(reinterpret_cast<uint32_t *>(mInputFrameBuffer.get())[1]);
mInputFrameDataSize &= 0x00ffffff;
mInputFrameDataRead = 0;
if (mInputFrameBuffer[0] & kFlag_Control) {
EnsureBuffer(mInputFrameBuffer, mInputFrameDataSize + 8, 8,
mInputFrameBufferSize);
ChangeDownstreamState(BUFFERING_CONTROL_FRAME);
// The first 32 bit word of the header is
// 1 ctrl - 15 version - 16 type
uint16_t version =
PR_ntohs(reinterpret_cast<uint16_t *>(mInputFrameBuffer.get())[0]);
version &= 0x7fff;
mFrameControlType =
PR_ntohs(reinterpret_cast<uint16_t *>(mInputFrameBuffer.get())[1]);
LOG3(("SpdySession2::WriteSegments %p - Control Frame Identified "
"type %d version %d data len %d",
this, mFrameControlType, version, mInputFrameDataSize));
if (mFrameControlType >= CONTROL_TYPE_LAST ||
mFrameControlType <= CONTROL_TYPE_FIRST)
return NS_ERROR_ILLEGAL_VALUE;
// The protocol document says this value must be 1 even though this
// is known as version 2.. Testing interop indicates that is a typo
// in the protocol document
if (version != 2) {
return NS_ERROR_ILLEGAL_VALUE;
}
}
else {
ChangeDownstreamState(PROCESSING_DATA_FRAME);
uint32_t streamID =
PR_ntohl(reinterpret_cast<uint32_t *>(mInputFrameBuffer.get())[0]);
rv = SetInputFrameDataStream(streamID);
if (NS_FAILED(rv)) {
LOG(("SpdySession2::WriteSegments %p lookup streamID 0x%X failed. "
"probably due to verification.\n", this, streamID));
return rv;
}
if (!mInputFrameDataStream) {
LOG3(("SpdySession2::WriteSegments %p lookup streamID 0x%X failed. "
"Next = 0x%x", this, streamID, mNextStreamID));
if (streamID >= mNextStreamID)
GenerateRstStream(RST_INVALID_STREAM, streamID);
ChangeDownstreamState(DISCARDING_DATA_FRAME);
}
mInputFrameDataLast = (mInputFrameBuffer[4] & kFlag_Data_FIN);
Telemetry::Accumulate(Telemetry::SPDY_CHUNK_RECVD,
mInputFrameDataSize >> 10);
LOG3(("Start Processing Data Frame. "
"Session=%p Stream ID 0x%x Stream Ptr %p Fin=%d Len=%d",
this, streamID, mInputFrameDataStream, mInputFrameDataLast,
mInputFrameDataSize));
mLastDataReadEpoch = mLastReadEpoch;
if (mInputFrameBuffer[4] & kFlag_Data_ZLIB) {
LOG3(("Data flag has ZLIB flag set which is not valid >=2 spdy"));
return NS_ERROR_ILLEGAL_VALUE;
}
}
}
if (mDownstreamState == PROCESSING_CONTROL_RST_STREAM) {
if (mDownstreamRstReason == RST_REFUSED_STREAM)
rv = NS_ERROR_NET_RESET; //we can retry this 100% safely
else if (mDownstreamRstReason == RST_CANCEL ||
mDownstreamRstReason == RST_PROTOCOL_ERROR ||
mDownstreamRstReason == RST_INTERNAL_ERROR ||
mDownstreamRstReason == RST_UNSUPPORTED_VERSION)
rv = NS_ERROR_NET_INTERRUPT;
else
rv = NS_ERROR_ILLEGAL_VALUE;
if (mDownstreamRstReason != RST_REFUSED_STREAM &&
mDownstreamRstReason != RST_CANCEL)
mShouldGoAway = true;
// mInputFrameDataStream is reset by ChangeDownstreamState
SpdyStream2 *stream = mInputFrameDataStream;
ResetDownstreamState();
LOG3(("SpdySession2::WriteSegments cleanup stream on recv of rst "
"session=%p stream=%p 0x%X\n", this, stream,
stream ? stream->StreamID() : 0));
CleanupStream(stream, rv, RST_CANCEL);
return NS_OK;
}
if (mDownstreamState == PROCESSING_DATA_FRAME ||
mDownstreamState == PROCESSING_CONTROL_SYN_REPLY) {
// The cleanup stream should only be set while stream->WriteSegments is
// on the stack and then cleaned up in this code block afterwards.
NS_ABORT_IF_FALSE(!mNeedsCleanup, "cleanup stream set unexpectedly");
mNeedsCleanup = nullptr; /* just in case */
mSegmentWriter = writer;
rv = mInputFrameDataStream->WriteSegments(this, count, countWritten);
mSegmentWriter = nullptr;
mLastDataReadEpoch = mLastReadEpoch;
if (rv == NS_BASE_STREAM_CLOSED) {
// This will happen when the transaction figures out it is EOF, generally
// due to a content-length match being made
SpdyStream2 *stream = mInputFrameDataStream;
if (mInputFrameDataRead == mInputFrameDataSize)
ResetDownstreamState();
LOG3(("SpdySession2::WriteSegments session=%p stream=%p 0x%X "
"needscleanup=%p. cleanup stream based on "
"stream->writeSegments returning BASE_STREAM_CLOSED\n",
this, stream, stream ? stream->StreamID() : 0,
mNeedsCleanup));
CleanupStream(stream, NS_OK, RST_CANCEL);
NS_ABORT_IF_FALSE(!mNeedsCleanup, "double cleanup out of data frame");
mNeedsCleanup = nullptr; /* just in case */
return NS_OK;
}
if (mNeedsCleanup) {
LOG3(("SpdySession2::WriteSegments session=%p stream=%p 0x%X "
"cleanup stream based on mNeedsCleanup.\n",
this, mNeedsCleanup, mNeedsCleanup ? mNeedsCleanup->StreamID() : 0));
CleanupStream(mNeedsCleanup, NS_OK, RST_CANCEL);
mNeedsCleanup = nullptr;
}
// In v3 this is where we would generate a window update
return rv;
}
if (mDownstreamState == DISCARDING_DATA_FRAME) {
char trash[4096];
uint32_t count = std::min(4096U, mInputFrameDataSize - mInputFrameDataRead);
if (!count) {
ResetDownstreamState();
ResumeRecv();
return NS_BASE_STREAM_WOULD_BLOCK;
}
rv = NetworkRead(writer, trash, count, countWritten);
if (NS_FAILED(rv)) {
LOG3(("SpdySession2 %p discard frame read failure %x\n", this, rv));
// maybe just blocked reading from network
if (rv == NS_BASE_STREAM_WOULD_BLOCK)
ResumeRecv();
return rv;
}
LogIO(this, nullptr, "Discarding Frame", trash, *countWritten);
mInputFrameDataRead += *countWritten;
if (mInputFrameDataRead == mInputFrameDataSize)
ResetDownstreamState();
return rv;
}
if (mDownstreamState != BUFFERING_CONTROL_FRAME) {
// this cannot happen
NS_ABORT_IF_FALSE(false, "Not in Bufering Control Frame State");
return NS_ERROR_UNEXPECTED;
}
NS_ABORT_IF_FALSE(mInputFrameBufferUsed == 8,
"Frame Buffer Header Not Present");
rv = NetworkRead(writer, mInputFrameBuffer + 8 + mInputFrameDataRead,
mInputFrameDataSize - mInputFrameDataRead, countWritten);
if (NS_FAILED(rv)) {
LOG3(("SpdySession2 %p buffering control frame read failure %x\n",
this, rv));
// maybe just blocked reading from network
if (rv == NS_BASE_STREAM_WOULD_BLOCK)
ResumeRecv();
return rv;
}
LogIO(this, nullptr, "Reading Control Frame",
mInputFrameBuffer + 8 + mInputFrameDataRead, *countWritten);
mInputFrameDataRead += *countWritten;
if (mInputFrameDataRead != mInputFrameDataSize)
return NS_OK;
// This check is actually redundant, the control type was previously
// checked to make sure it was in range, but we will check it again
// at time of use to make sure a regression doesn't creep in.
if (mFrameControlType >= CONTROL_TYPE_LAST ||
mFrameControlType <= CONTROL_TYPE_FIRST)
{
NS_ABORT_IF_FALSE(false, "control type out of range");
return NS_ERROR_ILLEGAL_VALUE;
}
rv = sControlFunctions[mFrameControlType](this);
NS_ABORT_IF_FALSE(NS_FAILED(rv) ||
mDownstreamState != BUFFERING_CONTROL_FRAME,
"Control Handler returned OK but did not change state");
if (mShouldGoAway && !mStreamTransactionHash.Count())
Close(NS_OK);
return rv;
}
void
SpdySession2::Close(nsresult aReason)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
if (mClosed)
return;
LOG3(("SpdySession2::Close %p %X", this, aReason));
mClosed = true;
NS_ABORT_IF_FALSE(mStreamTransactionHash.Count() ==
mStreamIDHash.Count(),
"index corruption");
mStreamTransactionHash.Enumerate(ShutdownEnumerator, this);
mStreamIDHash.Clear();
mStreamTransactionHash.Clear();
if (NS_SUCCEEDED(aReason))
GenerateGoAway();
mConnection = nullptr;
mSegmentReader = nullptr;
mSegmentWriter = nullptr;
}
void
SpdySession2::CloseTransaction(nsAHttpTransaction *aTransaction,
nsresult aResult)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::CloseTransaction %p %p %x", this, aTransaction, aResult));
// Generally this arrives as a cancel event from the connection manager.
// need to find the stream and call CleanupStream() on it.
SpdyStream2 *stream = mStreamTransactionHash.Get(aTransaction);
if (!stream) {
LOG3(("SpdySession2::CloseTransaction %p %p %x - not found.",
this, aTransaction, aResult));
return;
}
LOG3(("SpdySession2::CloseTranscation probably a cancel. "
"this=%p, trans=%p, result=%x, streamID=0x%X stream=%p",
this, aTransaction, aResult, stream->StreamID(), stream));
CleanupStream(stream, aResult, RST_CANCEL);
ResumeRecv();
}
//-----------------------------------------------------------------------------
// nsAHttpSegmentReader
//-----------------------------------------------------------------------------
nsresult
SpdySession2::OnReadSegment(const char *buf,
uint32_t count,
uint32_t *countRead)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
nsresult rv;
// If we can release old queued data then we can try and write the new
// data directly to the network without using the output queue at all
if (mOutputQueueUsed)
FlushOutputQueue();
if (!mOutputQueueUsed && mSegmentReader) {
// try and write directly without output queue
rv = mSegmentReader->OnReadSegment(buf, count, countRead);
if (rv == NS_BASE_STREAM_WOULD_BLOCK)
*countRead = 0;
else if (NS_FAILED(rv))
return rv;
if (*countRead < count) {
uint32_t required = count - *countRead;
// assuming a commitment() happened, this ensurebuffer is a nop
// but just in case the queuesize is too small for the required data
// call ensurebuffer().
EnsureBuffer(mOutputQueueBuffer, required, 0, mOutputQueueSize);
memcpy(mOutputQueueBuffer.get(), buf + *countRead, required);
mOutputQueueUsed = required;
}
*countRead = count;
return NS_OK;
}
// At this point we are going to buffer the new data in the output
// queue if it fits. By coalescing multiple small submissions into one larger
// buffer we can get larger writes out to the network later on.
// This routine should not be allowed to fill up the output queue
// all on its own - at least kQueueReserved bytes are always left
// for other routines to use - but this is an all-or-nothing function,
// so if it will not all fit just return WOULD_BLOCK
if ((mOutputQueueUsed + count) > (mOutputQueueSize - kQueueReserved))
return NS_BASE_STREAM_WOULD_BLOCK;
memcpy(mOutputQueueBuffer.get() + mOutputQueueUsed, buf, count);
mOutputQueueUsed += count;
*countRead = count;
FlushOutputQueue();
return NS_OK;
}
nsresult
SpdySession2::CommitToSegmentSize(uint32_t count, bool forceCommitment)
{
if (mOutputQueueUsed)
FlushOutputQueue();
// would there be enough room to buffer this if needed?
if ((mOutputQueueUsed + count) <= (mOutputQueueSize - kQueueReserved))
return NS_OK;
// if we are using part of our buffers already, try again later unless
// forceCommitment is set.
if (mOutputQueueUsed && !forceCommitment)
return NS_BASE_STREAM_WOULD_BLOCK;
if (mOutputQueueUsed) {
// normally we avoid the memmove of RealignOutputQueue, but we'll try
// it if forceCommitment is set before growing the buffer.
RealignOutputQueue();
// is there enough room now?
if ((mOutputQueueUsed + count) <= (mOutputQueueSize - kQueueReserved))
return NS_OK;
}
// resize the buffers as needed
EnsureBuffer(mOutputQueueBuffer, mOutputQueueUsed + count + kQueueReserved,
mOutputQueueUsed, mOutputQueueSize);
NS_ABORT_IF_FALSE((mOutputQueueUsed + count) <=
(mOutputQueueSize - kQueueReserved),
"buffer not as large as expected");
return NS_OK;
}
//-----------------------------------------------------------------------------
// nsAHttpSegmentWriter
//-----------------------------------------------------------------------------
nsresult
SpdySession2::OnWriteSegment(char *buf,
uint32_t count,
uint32_t *countWritten)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
nsresult rv;
if (!mSegmentWriter) {
// the only way this could happen would be if Close() were called on the
// stack with WriteSegments()
return NS_ERROR_FAILURE;
}
if (mDownstreamState == PROCESSING_DATA_FRAME) {
if (mInputFrameDataLast &&
mInputFrameDataRead == mInputFrameDataSize) {
*countWritten = 0;
SetNeedsCleanup();
return NS_BASE_STREAM_CLOSED;
}
count = std::min(count, mInputFrameDataSize - mInputFrameDataRead);
rv = NetworkRead(mSegmentWriter, buf, count, countWritten);
if (NS_FAILED(rv))
return rv;
LogIO(this, mInputFrameDataStream, "Reading Data Frame",
buf, *countWritten);
mInputFrameDataRead += *countWritten;
mInputFrameDataStream->UpdateTransportReadEvents(*countWritten);
if ((mInputFrameDataRead == mInputFrameDataSize) && !mInputFrameDataLast)
ResetDownstreamState();
return rv;
}
if (mDownstreamState == PROCESSING_CONTROL_SYN_REPLY) {
if (mFlatHTTPResponseHeaders.Length() == mFlatHTTPResponseHeadersOut &&
mInputFrameDataLast) {
*countWritten = 0;
SetNeedsCleanup();
return NS_BASE_STREAM_CLOSED;
}
count = std::min(count,
mFlatHTTPResponseHeaders.Length() -
mFlatHTTPResponseHeadersOut);
memcpy(buf,
mFlatHTTPResponseHeaders.get() + mFlatHTTPResponseHeadersOut,
count);
mFlatHTTPResponseHeadersOut += count;
*countWritten = count;
if (mFlatHTTPResponseHeaders.Length() == mFlatHTTPResponseHeadersOut &&
!mInputFrameDataLast)
ResetDownstreamState();
return NS_OK;
}
return NS_ERROR_UNEXPECTED;
}
void
SpdySession2::SetNeedsCleanup()
{
LOG3(("SpdySession2::SetNeedsCleanup %p - recorded downstream fin of "
"stream %p 0x%X", this, mInputFrameDataStream,
mInputFrameDataStream->StreamID()));
// This will result in Close() being called
NS_ABORT_IF_FALSE(!mNeedsCleanup, "mNeedsCleanup unexpectedly set");
mNeedsCleanup = mInputFrameDataStream;
ResetDownstreamState();
}
//-----------------------------------------------------------------------------
// Modified methods of nsAHttpConnection
//-----------------------------------------------------------------------------
void
SpdySession2::TransactionHasDataToWrite(nsAHttpTransaction *caller)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::TransactionHasDataToWrite %p trans=%p", this, caller));
// a trapped signal from the http transaction to the connection that
// it is no longer blocked on read.
SpdyStream2 *stream = mStreamTransactionHash.Get(caller);
if (!stream || !VerifyStream(stream)) {
LOG3(("SpdySession2::TransactionHasDataToWrite %p caller %p not found",
this, caller));
return;
}
LOG3(("SpdySession2::TransactionHasDataToWrite %p ID is %x",
this, stream->StreamID()));
mReadyForWrite.Push(stream);
}
void
SpdySession2::TransactionHasDataToWrite(SpdyStream2 *stream)
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
LOG3(("SpdySession2::TransactionHasDataToWrite %p stream=%p ID=%x",
this, stream, stream->StreamID()));
mReadyForWrite.Push(stream);
SetWriteCallbacks();
}
bool
SpdySession2::IsPersistent()
{
return true;
}
nsresult
SpdySession2::TakeTransport(nsISocketTransport **,
nsIAsyncInputStream **,
nsIAsyncOutputStream **)
{
NS_ABORT_IF_FALSE(false, "TakeTransport of SpdySession2");
return NS_ERROR_UNEXPECTED;
}
nsHttpConnection *
SpdySession2::TakeHttpConnection()
{
NS_ABORT_IF_FALSE(false, "TakeHttpConnection of SpdySession2");
return nullptr;
}
uint32_t
SpdySession2::CancelPipeline(nsresult reason)
{
// we don't pipeline inside spdy, so this isn't an issue
return 0;
}
nsAHttpTransaction::Classifier
SpdySession2::Classification()
{
if (!mConnection)
return nsAHttpTransaction::CLASS_GENERAL;
return mConnection->Classification();
}
//-----------------------------------------------------------------------------
// unused methods of nsAHttpTransaction
// We can be sure of this because SpdySession2 is only constructed in
// nsHttpConnection and is never passed out of that object
//-----------------------------------------------------------------------------
void
SpdySession2::SetConnection(nsAHttpConnection *)
{
// This is unexpected
NS_ABORT_IF_FALSE(false, "SpdySession2::SetConnection()");
}
void
SpdySession2::GetSecurityCallbacks(nsIInterfaceRequestor **)
{
// This is unexpected
NS_ABORT_IF_FALSE(false, "SpdySession2::GetSecurityCallbacks()");
}
void
SpdySession2::SetProxyConnectFailed()
{
NS_ABORT_IF_FALSE(false, "SpdySession2::SetProxyConnectFailed()");
}
bool
SpdySession2::IsDone()
{
return !mStreamTransactionHash.Count();
}
nsresult
SpdySession2::Status()
{
NS_ABORT_IF_FALSE(false, "SpdySession2::Status()");
return NS_ERROR_UNEXPECTED;
}
uint32_t
SpdySession2::Caps()
{
NS_ABORT_IF_FALSE(false, "SpdySession2::Caps()");
return 0;
}
uint64_t
SpdySession2::Available()
{
NS_ABORT_IF_FALSE(false, "SpdySession2::Available()");
return 0;
}
nsHttpRequestHead *
SpdySession2::RequestHead()
{
NS_ABORT_IF_FALSE(PR_GetCurrentThread() == gSocketThread, "wrong thread");
NS_ABORT_IF_FALSE(false,
"SpdySession2::RequestHead() "
"should not be called after SPDY is setup");
return NULL;
}
uint32_t
SpdySession2::Http1xTransactionCount()
{
return 0;
}
// used as an enumerator by TakeSubTransactions()
static PLDHashOperator
TakeStream(nsAHttpTransaction *key,
nsAutoPtr<SpdyStream2> &stream,
void *closure)
{
nsTArray<nsRefPtr<nsAHttpTransaction> > *list =
static_cast<nsTArray<nsRefPtr<nsAHttpTransaction> > *>(closure);
list->AppendElement(key);
// removing the stream from the hash will delete the stream
// and drop the transaction reference the hash held
return PL_DHASH_REMOVE;
}
nsresult
SpdySession2::TakeSubTransactions(
nsTArray<nsRefPtr<nsAHttpTransaction> > &outTransactions)
{
// Generally this cannot be done with spdy as transactions are
// started right away.
LOG3(("SpdySession2::TakeSubTransactions %p\n", this));
if (mConcurrentHighWater > 0)
return NS_ERROR_ALREADY_OPENED;
LOG3((" taking %d\n", mStreamTransactionHash.Count()));
mStreamTransactionHash.Enumerate(TakeStream, &outTransactions);
return NS_OK;
}
nsresult
SpdySession2::AddTransaction(nsAHttpTransaction *)
{
// This API is meant for pipelining, SpdySession2's should be
// extended with AddStream()
NS_ABORT_IF_FALSE(false,
"SpdySession2::AddTransaction() should not be called");
return NS_ERROR_NOT_IMPLEMENTED;
}
uint32_t
SpdySession2::PipelineDepth()
{
return IsDone() ? 0 : 1;
}
nsresult
SpdySession2::SetPipelinePosition(int32_t position)
{
// This API is meant for pipelining, SpdySession2's should be
// extended with AddStream()
NS_ABORT_IF_FALSE(false,
"SpdySession2::SetPipelinePosition() should not be called");
return NS_ERROR_NOT_IMPLEMENTED;
}
int32_t
SpdySession2::PipelinePosition()
{
return 0;
}
//-----------------------------------------------------------------------------
// Pass through methods of nsAHttpConnection
//-----------------------------------------------------------------------------
nsAHttpConnection *
SpdySession2::Connection()
{
NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread");
return mConnection;
}
nsresult
SpdySession2::OnHeadersAvailable(nsAHttpTransaction *transaction,
nsHttpRequestHead *requestHead,
nsHttpResponseHead *responseHead,
bool *reset)
{
return mConnection->OnHeadersAvailable(transaction,
requestHead,
responseHead,
reset);
}
bool
SpdySession2::IsReused()
{
return mConnection->IsReused();
}
nsresult
SpdySession2::PushBack(const char *buf, uint32_t len)
{
return mConnection->PushBack(buf, len);
}
} // namespace mozilla::net
} // namespace mozilla
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