/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (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.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla. * * The Initial Developer of the Original Code is * Netscape Communications. * Portions created by the Initial Developer are Copyright (C) 2001 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Darin Fisher (original author) * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include #include "nsHttp.h" #include "nsHttpPipeline.h" #include "nsHttpHandler.h" #include "nsIOService.h" #include "nsIRequest.h" #include "nsISocketTransport.h" #include "nsIStringStream.h" #include "nsIPipe.h" #include "nsCOMPtr.h" #include "nsComponentManagerUtils.h" #include "nsAutoLock.h" #ifdef DEBUG #include "prthread.h" // defined by the socket transport service while active extern PRThread *gSocketThread; #endif //----------------------------------------------------------------------------- // nsHttpPushBackWriter //----------------------------------------------------------------------------- class nsHttpPushBackWriter : public nsAHttpSegmentWriter { public: nsHttpPushBackWriter(const char *buf, PRUint32 bufLen) : mBuf(buf) , mBufLen(bufLen) { } virtual ~nsHttpPushBackWriter() {} nsresult OnWriteSegment(char *buf, PRUint32 count, PRUint32 *countWritten) { if (mBufLen == 0) return NS_BASE_STREAM_CLOSED; if (count > mBufLen) count = mBufLen; memcpy(buf, mBuf, count); mBuf += count; mBufLen -= count; *countWritten = count; return NS_OK; } private: const char *mBuf; PRUint32 mBufLen; }; //----------------------------------------------------------------------------- // nsHttpPipeline //----------------------------------------------------------------------------- nsHttpPipeline::nsHttpPipeline() : mConnection(nsnull) , mStatus(NS_OK) , mRequestIsPartial(PR_FALSE) , mResponseIsPartial(PR_FALSE) , mClosed(PR_FALSE) , mPushBackBuf(nsnull) , mPushBackLen(0) , mPushBackMax(0) { } nsHttpPipeline::~nsHttpPipeline() { // make sure we aren't still holding onto any transactions! Close(NS_ERROR_ABORT); if (mPushBackBuf) free(mPushBackBuf); } nsresult nsHttpPipeline::AddTransaction(nsAHttpTransaction *trans) { LOG(("nsHttpPipeline::AddTransaction [this=%x trans=%x]\n", this, trans)); NS_ADDREF(trans); mRequestQ.AppendElement(trans); if (mConnection) { trans->SetConnection(this); if (mRequestQ.Length() == 1) mConnection->ResumeSend(); } return NS_OK; } //----------------------------------------------------------------------------- // nsHttpPipeline::nsISupports //----------------------------------------------------------------------------- NS_IMPL_THREADSAFE_ADDREF(nsHttpPipeline) NS_IMPL_THREADSAFE_RELEASE(nsHttpPipeline) // multiple inheritance fun :-) NS_INTERFACE_MAP_BEGIN(nsHttpPipeline) NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsAHttpConnection) NS_INTERFACE_MAP_END //----------------------------------------------------------------------------- // nsHttpPipeline::nsAHttpConnection //----------------------------------------------------------------------------- nsresult nsHttpPipeline::OnHeadersAvailable(nsAHttpTransaction *trans, nsHttpRequestHead *requestHead, nsHttpResponseHead *responseHead, PRBool *reset) { LOG(("nsHttpPipeline::OnHeadersAvailable [this=%x]\n", this)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); NS_ASSERTION(mConnection, "no connection"); // trans has now received its response headers; forward to the real connection return mConnection->OnHeadersAvailable(trans, requestHead, responseHead, reset); } nsresult nsHttpPipeline::ResumeSend() { NS_NOTREACHED("nsHttpPipeline::ResumeSend"); return NS_ERROR_UNEXPECTED; } nsresult nsHttpPipeline::ResumeRecv() { NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); NS_ASSERTION(mConnection, "no connection"); return mConnection->ResumeRecv(); } void nsHttpPipeline::CloseTransaction(nsAHttpTransaction *trans, nsresult reason) { LOG(("nsHttpPipeline::CloseTransaction [this=%x trans=%x reason=%x]\n", this, trans, reason)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); NS_ASSERTION(NS_FAILED(reason), "expecting failure code"); // the specified transaction is to be closed with the given "reason" PRInt32 index; PRBool killPipeline = PR_FALSE; index = mRequestQ.IndexOf(trans); if (index >= 0) { if (index == 0 && mRequestIsPartial) { // the transaction is in the request queue. check to see if any of // its data has been written out yet. killPipeline = PR_TRUE; } mRequestQ.RemoveElementAt(index); } else { index = mResponseQ.IndexOf(trans); if (index >= 0) mResponseQ.RemoveElementAt(index); // while we could avoid killing the pipeline if this transaction is the // last transaction in the pipeline, there doesn't seem to be that much // value in doing so. most likely if this transaction is going away, // the others will be shortly as well. killPipeline = PR_TRUE; } trans->Close(reason); NS_RELEASE(trans); if (killPipeline) { if (mConnection) mConnection->CloseTransaction(this, reason); else Close(reason); } } void nsHttpPipeline::GetConnectionInfo(nsHttpConnectionInfo **result) { NS_ASSERTION(mConnection, "no connection"); mConnection->GetConnectionInfo(result); } void nsHttpPipeline::GetSecurityInfo(nsISupports **result) { NS_ASSERTION(mConnection, "no connection"); mConnection->GetSecurityInfo(result); } PRBool nsHttpPipeline::IsPersistent() { return PR_TRUE; // pipelining requires this } PRBool nsHttpPipeline::IsReused() { return PR_TRUE; // pipelining requires this } nsresult nsHttpPipeline::PushBack(const char *data, PRUint32 length) { LOG(("nsHttpPipeline::PushBack [this=%x len=%u]\n", this, length)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); NS_ASSERTION(mPushBackLen == 0, "push back buffer already has data!"); // PushBack is called recursively from WriteSegments // XXX we have a design decision to make here. either we buffer the data // and process it when we return to WriteSegments, or we attempt to move // onto the next transaction from here. doing so adds complexity with the // benefit of eliminating the extra buffer copy. the buffer is at most // 4096 bytes, so it is really unclear if there is any value in the added // complexity. besides simplicity, buffering this data has the advantage // that we'll call close on the transaction sooner, which will wake up // the HTTP channel sooner to continue with its work. if (!mPushBackBuf) { mPushBackMax = length; mPushBackBuf = (char *) malloc(mPushBackMax); if (!mPushBackBuf) return NS_ERROR_OUT_OF_MEMORY; } else if (length > mPushBackMax) { // grow push back buffer as necessary. NS_ASSERTION(length <= nsIOService::gDefaultSegmentSize, "too big"); mPushBackMax = length; mPushBackBuf = (char *) realloc(mPushBackBuf, mPushBackMax); if (!mPushBackBuf) return NS_ERROR_OUT_OF_MEMORY; } memcpy(mPushBackBuf, data, length); mPushBackLen = length; return NS_OK; } //----------------------------------------------------------------------------- // nsHttpPipeline::nsAHttpConnection //----------------------------------------------------------------------------- void nsHttpPipeline::SetConnection(nsAHttpConnection *conn) { LOG(("nsHttpPipeline::SetConnection [this=%x conn=%x]\n", this, conn)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); NS_ASSERTION(!mConnection, "already have a connection"); NS_IF_ADDREF(mConnection = conn); PRInt32 i, count = mRequestQ.Length(); for (i=0; iSetConnection(this); } void nsHttpPipeline::GetSecurityCallbacks(nsIInterfaceRequestor **result) { NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); // return security callbacks from first request nsAHttpTransaction *trans = Request(0); if (trans) trans->GetSecurityCallbacks(result); else *result = nsnull; } void nsHttpPipeline::OnTransportStatus(nsresult status, PRUint64 progress) { LOG(("nsHttpPipeline::OnStatus [this=%x status=%x progress=%llu]\n", this, status, progress)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); nsAHttpTransaction *trans; switch (status) { case NS_NET_STATUS_RECEIVING_FROM: // forward this only to the transaction currently recieving data trans = Response(0); if (trans) trans->OnTransportStatus(status, progress); break; default: // forward other notifications to all transactions PRInt32 i, count = mRequestQ.Length(); for (i=0; iOnTransportStatus(status, progress); } break; } } PRBool nsHttpPipeline::IsDone() { return (mRequestQ.Length() == 0) && (mResponseQ.Length() == 0); } nsresult nsHttpPipeline::Status() { return mStatus; } PRUint32 nsHttpPipeline::Available() { PRUint32 result = 0; PRInt32 i, count = mRequestQ.Length(); for (i=0; iAvailable(); return result; } NS_METHOD nsHttpPipeline::ReadFromPipe(nsIInputStream *stream, void *closure, const char *buf, PRUint32 offset, PRUint32 count, PRUint32 *countRead) { nsHttpPipeline *self = (nsHttpPipeline *) closure; return self->mReader->OnReadSegment(buf, count, countRead); } nsresult nsHttpPipeline::ReadSegments(nsAHttpSegmentReader *reader, PRUint32 count, PRUint32 *countRead) { LOG(("nsHttpPipeline::ReadSegments [this=%x count=%u]\n", this, count)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); if (mClosed) { *countRead = 0; return mStatus; } nsresult rv; PRUint32 avail = 0; if (mSendBufIn) { rv = mSendBufIn->Available(&avail); if (NS_FAILED(rv)) return rv; } if (avail == 0) { rv = FillSendBuf(); if (NS_FAILED(rv)) return rv; rv = mSendBufIn->Available(&avail); if (NS_FAILED(rv)) return rv; // return EOF if send buffer is empty if (avail == 0) { *countRead = 0; return NS_OK; } } // read no more than what was requested if (avail > count) avail = count; mReader = reader; rv = mSendBufIn->ReadSegments(ReadFromPipe, this, avail, countRead); mReader = nsnull; return rv; } nsresult nsHttpPipeline::WriteSegments(nsAHttpSegmentWriter *writer, PRUint32 count, PRUint32 *countWritten) { LOG(("nsHttpPipeline::WriteSegments [this=%x count=%u]\n", this, count)); NS_ASSERTION(PR_GetCurrentThread() == gSocketThread, "wrong thread"); if (mClosed) return NS_SUCCEEDED(mStatus) ? NS_BASE_STREAM_CLOSED : mStatus; nsAHttpTransaction *trans; nsresult rv; trans = Response(0); if (!trans) { if (mRequestQ.Length() > 0) rv = NS_BASE_STREAM_WOULD_BLOCK; else rv = NS_BASE_STREAM_CLOSED; } else { // // ask the transaction to consume data from the connection. // PushBack may be called recursively. // rv = trans->WriteSegments(writer, count, countWritten); if (rv == NS_BASE_STREAM_CLOSED || trans->IsDone()) { trans->Close(NS_OK); NS_RELEASE(trans); mResponseQ.RemoveElementAt(0); mResponseIsPartial = PR_FALSE; // ask the connection manager to add additional transactions // to our pipeline. gHttpHandler->ConnMgr()->AddTransactionToPipeline(this); } else mResponseIsPartial = PR_TRUE; } if (mPushBackLen) { nsHttpPushBackWriter writer(mPushBackBuf, mPushBackLen); PRUint32 len = mPushBackLen, n; mPushBackLen = 0; // the push back buffer is never larger than NS_HTTP_SEGMENT_SIZE, // so we are guaranteed that the next response will eat the entire // push back buffer (even though it might again call PushBack). rv = WriteSegments(&writer, len, &n); } return rv; } void nsHttpPipeline::Close(nsresult reason) { LOG(("nsHttpPipeline::Close [this=%x reason=%x]\n", this, reason)); if (mClosed) { LOG((" already closed\n")); return; } // the connection is going away! mStatus = reason; mClosed = PR_TRUE; PRUint32 i, count; nsAHttpTransaction *trans; // any pending requests can ignore this error and be restarted count = mRequestQ.Length(); for (i=0; iClose(NS_ERROR_NET_RESET); NS_RELEASE(trans); } mRequestQ.Clear(); trans = Response(0); if (trans) { // if the current response is partially complete, then it cannot be // restarted and will have to fail with the status of the connection. if (mResponseIsPartial) trans->Close(reason); else trans->Close(NS_ERROR_NET_RESET); NS_RELEASE(trans); // any remaining pending responses can be restarted count = mResponseQ.Length(); for (i=1; iClose(NS_ERROR_NET_RESET); NS_RELEASE(trans); } mResponseQ.Clear(); } // we must no longer reference the connection! This needs to come // after we've closed all our transactions, since they might want // connection info as they close. NS_IF_RELEASE(mConnection); } nsresult nsHttpPipeline::OnReadSegment(const char *segment, PRUint32 count, PRUint32 *countRead) { return mSendBufOut->Write(segment, count, countRead); } nsresult nsHttpPipeline::FillSendBuf() { // reads from request queue, moving transactions to response queue // when they have been completely read. nsresult rv; if (!mSendBufIn) { // allocate a single-segment pipe rv = NS_NewPipe(getter_AddRefs(mSendBufIn), getter_AddRefs(mSendBufOut), nsIOService::gDefaultSegmentSize, /* segment size */ nsIOService::gDefaultSegmentSize, /* max size */ PR_TRUE, PR_TRUE, nsIOService::gBufferCache); if (NS_FAILED(rv)) return rv; } PRUint32 n, avail; nsAHttpTransaction *trans; while ((trans = Request(0)) != nsnull) { avail = trans->Available(); if (avail) { rv = trans->ReadSegments(this, avail, &n); if (NS_FAILED(rv)) return rv; if (n == 0) { LOG(("send pipe is full")); break; } } avail = trans->Available(); if (avail == 0) { // move transaction from request queue to response queue mRequestQ.RemoveElementAt(0); mResponseQ.AppendElement(trans); mRequestIsPartial = PR_FALSE; } else mRequestIsPartial = PR_TRUE; } return NS_OK; }