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|
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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 "nsMultiMixedConv.h"
#include "nsIHttpChannel.h"
#include "nsIThreadRetargetableStreamListener.h"
#include "nsNetCID.h"
#include "nsMimeTypes.h"
#include "nsIStringStream.h"
#include "nsCRT.h"
#include "nsIHttpChannelInternal.h"
#include "nsURLHelper.h"
#include "nsIStreamConverterService.h"
#include <algorithm>
#include "nsContentSecurityManager.h"
#include "nsHttp.h"
#include "nsNetUtil.h"
#include "nsIURI.h"
#include "nsHttpHeaderArray.h"
#include "mozilla/AutoRestore.h"
#include "mozilla/Tokenizer.h"
#include "nsComponentManagerUtils.h"
#include "mozilla/StaticPrefs_network.h"
using namespace mozilla;
nsPartChannel::nsPartChannel(nsIChannel* aMultipartChannel, uint32_t aPartID,
bool aIsFirstPart, nsIStreamListener* aListener)
: mMultipartChannel(aMultipartChannel),
mListener(aListener),
mPartID(aPartID),
mIsFirstPart(aIsFirstPart) {
// Inherit the load flags from the original channel...
mMultipartChannel->GetLoadFlags(&mLoadFlags);
mMultipartChannel->GetLoadGroup(getter_AddRefs(mLoadGroup));
}
void nsPartChannel::InitializeByteRange(int64_t aStart, int64_t aEnd) {
mIsByteRangeRequest = true;
mByteRangeStart = aStart;
mByteRangeEnd = aEnd;
}
nsresult nsPartChannel::SendOnStartRequest(nsISupports* aContext) {
return mListener->OnStartRequest(this);
}
nsresult nsPartChannel::SendOnDataAvailable(nsISupports* aContext,
nsIInputStream* aStream,
uint64_t aOffset, uint32_t aLen) {
return mListener->OnDataAvailable(this, aStream, aOffset, aLen);
}
nsresult nsPartChannel::SendOnStopRequest(nsISupports* aContext,
nsresult aStatus) {
// Drop the listener
nsCOMPtr<nsIStreamListener> listener;
listener.swap(mListener);
return listener->OnStopRequest(this, aStatus);
}
void nsPartChannel::SetContentDisposition(
const nsACString& aContentDispositionHeader) {
mContentDispositionHeader = aContentDispositionHeader;
nsCOMPtr<nsIURI> uri;
GetURI(getter_AddRefs(uri));
NS_GetFilenameFromDisposition(mContentDispositionFilename,
mContentDispositionHeader);
mContentDisposition =
NS_GetContentDispositionFromHeader(mContentDispositionHeader, this);
}
//
// nsISupports implementation...
//
NS_IMPL_ADDREF(nsPartChannel)
NS_IMPL_RELEASE(nsPartChannel)
NS_INTERFACE_MAP_BEGIN(nsPartChannel)
NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsIChannel)
NS_INTERFACE_MAP_ENTRY(nsIRequest)
NS_INTERFACE_MAP_ENTRY(nsIChannel)
NS_INTERFACE_MAP_ENTRY(nsIByteRangeRequest)
NS_INTERFACE_MAP_ENTRY(nsIMultiPartChannel)
NS_INTERFACE_MAP_END
//
// nsIRequest implementation...
//
NS_IMETHODIMP
nsPartChannel::GetName(nsACString& aResult) {
return mMultipartChannel->GetName(aResult);
}
NS_IMETHODIMP
nsPartChannel::IsPending(bool* aResult) {
// For now, consider the active lifetime of each part the same as
// the underlying multipart channel... This is not exactly right,
// but it is good enough :-)
return mMultipartChannel->IsPending(aResult);
}
NS_IMETHODIMP
nsPartChannel::GetStatus(nsresult* aResult) {
nsresult rv = NS_OK;
if (NS_FAILED(mStatus)) {
*aResult = mStatus;
} else {
rv = mMultipartChannel->GetStatus(aResult);
}
return rv;
}
NS_IMETHODIMP nsPartChannel::SetCanceledReason(const nsACString& aReason) {
return SetCanceledReasonImpl(aReason);
}
NS_IMETHODIMP nsPartChannel::GetCanceledReason(nsACString& aReason) {
return GetCanceledReasonImpl(aReason);
}
NS_IMETHODIMP nsPartChannel::CancelWithReason(nsresult aStatus,
const nsACString& aReason) {
return CancelWithReasonImpl(aStatus, aReason);
}
NS_IMETHODIMP
nsPartChannel::Cancel(nsresult aStatus) {
// Cancelling an individual part must not cancel the underlying
// multipart channel...
// XXX but we should stop sending data for _this_ part channel!
mStatus = aStatus;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetCanceled(bool* aCanceled) {
*aCanceled = NS_FAILED(mStatus);
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::Suspend(void) {
// Suspending an individual part must not suspend the underlying
// multipart channel...
// XXX why not?
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::Resume(void) {
// Resuming an individual part must not resume the underlying
// multipart channel...
// XXX why not?
return NS_OK;
}
//
// nsIChannel implementation
//
NS_IMETHODIMP
nsPartChannel::GetOriginalURI(nsIURI** aURI) {
return mMultipartChannel->GetOriginalURI(aURI);
}
NS_IMETHODIMP
nsPartChannel::SetOriginalURI(nsIURI* aURI) {
return mMultipartChannel->SetOriginalURI(aURI);
}
NS_IMETHODIMP
nsPartChannel::GetURI(nsIURI** aURI) { return mMultipartChannel->GetURI(aURI); }
NS_IMETHODIMP
nsPartChannel::Open(nsIInputStream** aStream) {
nsCOMPtr<nsIStreamListener> listener;
nsresult rv =
nsContentSecurityManager::doContentSecurityCheck(this, listener);
NS_ENSURE_SUCCESS(rv, rv);
// This channel cannot be opened!
return NS_ERROR_FAILURE;
}
NS_IMETHODIMP
nsPartChannel::AsyncOpen(nsIStreamListener* aListener) {
nsCOMPtr<nsIStreamListener> listener = aListener;
nsresult rv =
nsContentSecurityManager::doContentSecurityCheck(this, listener);
NS_ENSURE_SUCCESS(rv, rv);
// This channel cannot be opened!
return NS_ERROR_FAILURE;
}
NS_IMETHODIMP
nsPartChannel::GetLoadFlags(nsLoadFlags* aLoadFlags) {
*aLoadFlags = mLoadFlags;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetLoadFlags(nsLoadFlags aLoadFlags) {
mLoadFlags = aLoadFlags;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetTRRMode(nsIRequest::TRRMode* aTRRMode) {
return GetTRRModeImpl(aTRRMode);
}
NS_IMETHODIMP
nsPartChannel::SetTRRMode(nsIRequest::TRRMode aTRRMode) {
return SetTRRModeImpl(aTRRMode);
}
NS_IMETHODIMP
nsPartChannel::GetIsDocument(bool* aIsDocument) {
return NS_GetIsDocumentChannel(this, aIsDocument);
}
NS_IMETHODIMP
nsPartChannel::GetLoadGroup(nsILoadGroup** aLoadGroup) {
*aLoadGroup = do_AddRef(mLoadGroup).take();
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetLoadGroup(nsILoadGroup* aLoadGroup) {
mLoadGroup = aLoadGroup;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetOwner(nsISupports** aOwner) {
return mMultipartChannel->GetOwner(aOwner);
}
NS_IMETHODIMP
nsPartChannel::SetOwner(nsISupports* aOwner) {
return mMultipartChannel->SetOwner(aOwner);
}
NS_IMETHODIMP
nsPartChannel::GetLoadInfo(nsILoadInfo** aLoadInfo) {
return mMultipartChannel->GetLoadInfo(aLoadInfo);
}
NS_IMETHODIMP
nsPartChannel::SetLoadInfo(nsILoadInfo* aLoadInfo) {
MOZ_RELEASE_ASSERT(aLoadInfo, "loadinfo can't be null");
return mMultipartChannel->SetLoadInfo(aLoadInfo);
}
NS_IMETHODIMP
nsPartChannel::GetNotificationCallbacks(nsIInterfaceRequestor** aCallbacks) {
return mMultipartChannel->GetNotificationCallbacks(aCallbacks);
}
NS_IMETHODIMP
nsPartChannel::SetNotificationCallbacks(nsIInterfaceRequestor* aCallbacks) {
return mMultipartChannel->SetNotificationCallbacks(aCallbacks);
}
NS_IMETHODIMP
nsPartChannel::GetSecurityInfo(nsITransportSecurityInfo** aSecurityInfo) {
return mMultipartChannel->GetSecurityInfo(aSecurityInfo);
}
NS_IMETHODIMP
nsPartChannel::GetContentType(nsACString& aContentType) {
aContentType = mContentType;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetContentType(const nsACString& aContentType) {
bool dummy;
net_ParseContentType(aContentType, mContentType, mContentCharset, &dummy);
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetContentCharset(nsACString& aContentCharset) {
aContentCharset = mContentCharset;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetContentCharset(const nsACString& aContentCharset) {
mContentCharset = aContentCharset;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetContentLength(int64_t* aContentLength) {
*aContentLength = mContentLength;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetContentLength(int64_t aContentLength) {
mContentLength = aContentLength;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetContentDisposition(uint32_t* aContentDisposition) {
if (mContentDispositionHeader.IsEmpty()) return NS_ERROR_NOT_AVAILABLE;
*aContentDisposition = mContentDisposition;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetContentDisposition(uint32_t aContentDisposition) {
return NS_ERROR_NOT_AVAILABLE;
}
NS_IMETHODIMP
nsPartChannel::GetContentDispositionFilename(
nsAString& aContentDispositionFilename) {
if (mContentDispositionFilename.IsEmpty()) return NS_ERROR_NOT_AVAILABLE;
aContentDispositionFilename = mContentDispositionFilename;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::SetContentDispositionFilename(
const nsAString& aContentDispositionFilename) {
return NS_ERROR_NOT_AVAILABLE;
}
NS_IMETHODIMP
nsPartChannel::GetContentDispositionHeader(
nsACString& aContentDispositionHeader) {
if (mContentDispositionHeader.IsEmpty()) return NS_ERROR_NOT_AVAILABLE;
aContentDispositionHeader = mContentDispositionHeader;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetPartID(uint32_t* aPartID) {
*aPartID = mPartID;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetIsFirstPart(bool* aIsFirstPart) {
*aIsFirstPart = mIsFirstPart;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetIsLastPart(bool* aIsLastPart) {
*aIsLastPart = mIsLastPart;
return NS_OK;
}
//
// nsIByteRangeRequest implementation...
//
NS_IMETHODIMP
nsPartChannel::GetIsByteRangeRequest(bool* aIsByteRangeRequest) {
*aIsByteRangeRequest = mIsByteRangeRequest;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetStartRange(int64_t* aStartRange) {
*aStartRange = mByteRangeStart;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetEndRange(int64_t* aEndRange) {
*aEndRange = mByteRangeEnd;
return NS_OK;
}
NS_IMETHODIMP
nsPartChannel::GetBaseChannel(nsIChannel** aReturn) {
NS_ENSURE_ARG_POINTER(aReturn);
*aReturn = do_AddRef(mMultipartChannel).take();
return NS_OK;
}
// nsISupports implementation
NS_IMPL_ISUPPORTS(nsMultiMixedConv, nsIStreamConverter, nsIStreamListener,
nsIThreadRetargetableStreamListener, nsIRequestObserver)
// nsIStreamConverter implementation
// No syncronous conversion at this time.
NS_IMETHODIMP
nsMultiMixedConv::Convert(nsIInputStream* aFromStream, const char* aFromType,
const char* aToType, nsISupports* aCtxt,
nsIInputStream** _retval) {
return NS_ERROR_NOT_IMPLEMENTED;
}
// Stream converter service calls this to initialize the actual stream converter
// (us).
NS_IMETHODIMP
nsMultiMixedConv::AsyncConvertData(const char* aFromType, const char* aToType,
nsIStreamListener* aListener,
nsISupports* aCtxt) {
NS_ASSERTION(aListener && aFromType && aToType,
"null pointer passed into multi mixed converter");
// hook up our final listener. this guy gets the various On*() calls we want
// to throw at him.
//
// WARNING: this listener must be able to handle multiple OnStartRequest,
// OnDataAvail() and OnStopRequest() call combinations. We call of series
// of these for each sub-part in the raw stream.
mFinalListener = aListener;
return NS_OK;
}
NS_IMETHODIMP
nsMultiMixedConv::GetConvertedType(const nsACString& aFromType,
nsIChannel* aChannel, nsACString& aToType) {
return NS_ERROR_NOT_IMPLEMENTED;
}
// nsIRequestObserver implementation
NS_IMETHODIMP
nsMultiMixedConv::OnStartRequest(nsIRequest* request) {
// we're assuming the content-type is available at this stage
NS_ASSERTION(mBoundary.IsEmpty(), "a second on start???");
nsresult rv;
mTotalSent = 0;
mChannel = do_QueryInterface(request, &rv);
if (NS_FAILED(rv)) return rv;
nsAutoCString contentType;
// ask the HTTP channel for the content-type and extract the boundary from it.
nsCOMPtr<nsIHttpChannel> httpChannel = do_QueryInterface(mChannel, &rv);
if (NS_SUCCEEDED(rv)) {
rv = httpChannel->GetResponseHeader("content-type"_ns, contentType);
if (NS_FAILED(rv)) {
return rv;
}
nsCString csp;
rv = httpChannel->GetResponseHeader("content-security-policy"_ns, csp);
if (NS_SUCCEEDED(rv)) {
mRootContentSecurityPolicy = csp;
}
} else {
// try asking the channel directly
rv = mChannel->GetContentType(contentType);
if (NS_FAILED(rv)) {
return NS_ERROR_FAILURE;
}
}
Tokenizer p(contentType);
p.SkipUntil(Token::Char(';'));
if (!p.CheckChar(';')) {
return NS_ERROR_CORRUPTED_CONTENT;
}
p.SkipWhites();
if (!p.CheckWord("boundary")) {
return NS_ERROR_CORRUPTED_CONTENT;
}
p.SkipWhites();
if (!p.CheckChar('=')) {
return NS_ERROR_CORRUPTED_CONTENT;
}
p.SkipWhites();
Unused << p.ReadUntil(Token::Char(';'), mBoundary);
mBoundary.Trim(
" \""); // ignoring potential quoted string formatting violations
if (mBoundary.IsEmpty()) {
return NS_ERROR_CORRUPTED_CONTENT;
}
mHeaderTokens[HEADER_CONTENT_TYPE] = mTokenizer.AddCustomToken(
"content-type", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_CONTENT_LENGTH] = mTokenizer.AddCustomToken(
"content-length", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_CONTENT_DISPOSITION] = mTokenizer.AddCustomToken(
"content-disposition", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_SET_COOKIE] = mTokenizer.AddCustomToken(
"set-cookie", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_CONTENT_RANGE] = mTokenizer.AddCustomToken(
"content-range", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_RANGE] =
mTokenizer.AddCustomToken("range", mTokenizer.CASE_INSENSITIVE, false);
mHeaderTokens[HEADER_CONTENT_SECURITY_POLICY] = mTokenizer.AddCustomToken(
"content-security-policy", mTokenizer.CASE_INSENSITIVE, false);
mLFToken = mTokenizer.AddCustomToken("\n", mTokenizer.CASE_SENSITIVE, false);
mCRLFToken =
mTokenizer.AddCustomToken("\r\n", mTokenizer.CASE_SENSITIVE, false);
SwitchToControlParsing();
mBoundaryToken =
mTokenizer.AddCustomToken(mBoundary, mTokenizer.CASE_SENSITIVE);
mBoundaryTokenWithDashes =
mTokenizer.AddCustomToken("--"_ns + mBoundary, mTokenizer.CASE_SENSITIVE);
return NS_OK;
}
// nsIStreamListener implementation
NS_IMETHODIMP
nsMultiMixedConv::OnDataAvailable(nsIRequest* request, nsIInputStream* inStr,
uint64_t sourceOffset, uint32_t count) {
// Failing these assertions may indicate that some of the target listeners of
// this converter is looping the thead queue, which is harmful to how we
// collect the raw (content) data.
MOZ_DIAGNOSTIC_ASSERT(!mInOnDataAvailable,
"nsMultiMixedConv::OnDataAvailable reentered!");
MOZ_DIAGNOSTIC_ASSERT(
!mRawData, "There are unsent data from the previous tokenizer feed!");
if (mInOnDataAvailable) {
// The multipart logic is incapable of being reentered.
return NS_ERROR_UNEXPECTED;
}
mozilla::AutoRestore<bool> restore(mInOnDataAvailable);
mInOnDataAvailable = true;
nsresult rv_feed = mTokenizer.FeedInput(inStr, count);
// We must do this every time. Regardless if something has failed during the
// parsing process. Otherwise the raw data reference would not be thrown
// away.
nsresult rv_send = SendData();
return NS_FAILED(rv_send) ? rv_send : rv_feed;
}
NS_IMETHODIMP
nsMultiMixedConv::OnDataFinished(nsresult aStatus) { return NS_OK; }
NS_IMETHODIMP
nsMultiMixedConv::CheckListenerChain() { return NS_ERROR_NOT_IMPLEMENTED; }
NS_IMETHODIMP
nsMultiMixedConv::OnStopRequest(nsIRequest* request, nsresult aStatus) {
nsresult rv;
if (mPartChannel) {
mPartChannel->SetIsLastPart();
MOZ_DIAGNOSTIC_ASSERT(
!mRawData, "There are unsent data from the previous tokenizer feed!");
rv = mTokenizer.FinishInput();
if (NS_SUCCEEDED(aStatus)) {
aStatus = rv;
}
rv = SendData();
if (NS_SUCCEEDED(aStatus)) {
aStatus = rv;
}
(void)SendStop(aStatus);
} else if (NS_FAILED(aStatus) && !mRequestListenerNotified) {
// underlying data production problem. we should not be in
// the middle of sending data. if we were, mPartChannel,
// above, would have been non-null.
(void)mFinalListener->OnStartRequest(request);
(void)mFinalListener->OnStopRequest(request, aStatus);
}
nsCOMPtr<nsIMultiPartChannelListener> multiListener =
do_QueryInterface(mFinalListener);
if (multiListener) {
multiListener->OnAfterLastPart(aStatus);
}
return NS_OK;
}
nsresult nsMultiMixedConv::ConsumeToken(Token const& token) {
nsresult rv;
switch (mParserState) {
case PREAMBLE:
if (token.Equals(mBoundaryTokenWithDashes)) {
// The server first used boundary '--boundary'. Hence, we no longer
// accept plain 'boundary' token as a delimiter.
mTokenizer.RemoveCustomToken(mBoundaryToken);
mParserState = BOUNDARY_CRLF;
break;
}
if (token.Equals(mBoundaryToken)) {
// And here the opposite from the just above block...
mTokenizer.RemoveCustomToken(mBoundaryTokenWithDashes);
mParserState = BOUNDARY_CRLF;
break;
}
// This is a preamble, just ignore it and wait for the boundary.
break;
case BOUNDARY_CRLF:
if (token.Equals(Token::NewLine())) {
mParserState = HEADER_NAME;
mResponseHeader = HEADER_UNKNOWN;
HeadersToDefault();
SetHeaderTokensEnabled(true);
break;
}
return NS_ERROR_CORRUPTED_CONTENT;
case HEADER_NAME:
SetHeaderTokensEnabled(false);
if (token.Equals(Token::NewLine())) {
mParserState = BODY_INIT;
SwitchToBodyParsing();
break;
}
for (uint32_t h = HEADER_CONTENT_TYPE; h < HEADER_UNKNOWN; ++h) {
if (token.Equals(mHeaderTokens[h])) {
mResponseHeader = static_cast<EHeader>(h);
break;
}
}
mParserState = HEADER_SEP;
break;
case HEADER_SEP:
if (token.Equals(Token::Char(':'))) {
mParserState = HEADER_VALUE;
mResponseHeaderValue.Truncate();
break;
}
if (mResponseHeader == HEADER_UNKNOWN) {
// If the header is not of any we understand, just pass everything till
// ':'
break;
}
if (token.Equals(Token::Whitespace())) {
// Accept only header-name traling whitespaces after known headers
break;
}
return NS_ERROR_CORRUPTED_CONTENT;
case HEADER_VALUE:
if (token.Equals(Token::Whitespace()) && mResponseHeaderValue.IsEmpty()) {
// Eat leading whitespaces
break;
}
if (token.Equals(Token::NewLine())) {
nsresult rv = ProcessHeader();
if (NS_FAILED(rv)) {
return rv;
}
mParserState = HEADER_NAME;
mResponseHeader = HEADER_UNKNOWN;
SetHeaderTokensEnabled(true);
} else {
mResponseHeaderValue.Append(token.Fragment());
}
break;
case BODY_INIT:
rv = SendStart();
if (NS_FAILED(rv)) {
return rv;
}
mParserState = BODY;
[[fallthrough]];
case BODY: {
if (!token.Equals(mLFToken) && !token.Equals(mCRLFToken)) {
if (token.Equals(mBoundaryTokenWithDashes) ||
token.Equals(mBoundaryToken)) {
// Allow CRLF to NOT be part of the boundary as well
SwitchToControlParsing();
mParserState = TRAIL_DASH1;
break;
}
AccumulateData(token);
break;
}
// After CRLF we must explicitly check for boundary. If found,
// that CRLF is part of the boundary and must not be send to the
// data listener.
Token token2;
if (!mTokenizer.Next(token2)) {
// Note: this will give us the CRLF token again when more data
// or OnStopRequest arrive. I.e. we will enter BODY case in
// the very same state as we are now and start this block over.
mTokenizer.NeedMoreInput();
break;
}
if (token2.Equals(mBoundaryTokenWithDashes) ||
token2.Equals(mBoundaryToken)) {
SwitchToControlParsing();
mParserState = TRAIL_DASH1;
break;
}
AccumulateData(token);
AccumulateData(token2);
break;
}
case TRAIL_DASH1:
if (token.Equals(Token::NewLine())) {
rv = SendStop(NS_OK);
if (NS_FAILED(rv)) {
return rv;
}
mParserState = BOUNDARY_CRLF;
mTokenizer.Rollback();
break;
}
if (token.Equals(Token::Char('-'))) {
mParserState = TRAIL_DASH2;
break;
}
return NS_ERROR_CORRUPTED_CONTENT;
case TRAIL_DASH2:
if (token.Equals(Token::Char('-'))) {
mPartChannel->SetIsLastPart();
// SendStop calls SendData first.
rv = SendStop(NS_OK);
if (NS_FAILED(rv)) {
return rv;
}
mParserState = EPILOGUE;
break;
}
return NS_ERROR_CORRUPTED_CONTENT;
case EPILOGUE:
// Just ignore
break;
default:
MOZ_ASSERT(false, "Missing parser state handling branch");
break;
} // switch
return NS_OK;
}
void nsMultiMixedConv::SetHeaderTokensEnabled(bool aEnable) {
for (uint32_t h = HEADER_FIRST; h < HEADER_UNKNOWN; ++h) {
mTokenizer.EnableCustomToken(mHeaderTokens[h], aEnable);
}
}
void nsMultiMixedConv::SwitchToBodyParsing() {
mTokenizer.SetTokenizingMode(Tokenizer::Mode::CUSTOM_ONLY);
mTokenizer.EnableCustomToken(mLFToken, true);
mTokenizer.EnableCustomToken(mCRLFToken, true);
mTokenizer.EnableCustomToken(mBoundaryTokenWithDashes, true);
mTokenizer.EnableCustomToken(mBoundaryToken, true);
}
void nsMultiMixedConv::SwitchToControlParsing() {
mTokenizer.SetTokenizingMode(Tokenizer::Mode::FULL);
mTokenizer.EnableCustomToken(mLFToken, false);
mTokenizer.EnableCustomToken(mCRLFToken, false);
mTokenizer.EnableCustomToken(mBoundaryTokenWithDashes, false);
mTokenizer.EnableCustomToken(mBoundaryToken, false);
}
// nsMultiMixedConv methods
nsMultiMixedConv::nsMultiMixedConv()
// XXX: This is a hack to bypass the raw pointer to refcounted object in
// lambda analysis. It should be removed and replaced when the
// IncrementalTokenizer API is improved to avoid the need for such
// workarounds.
//
// This is safe because `mTokenizer` will not outlive `this`, meaning
// that this std::bind object will be destroyed before `this` dies.
: mTokenizer(std::bind(&nsMultiMixedConv::ConsumeToken, this,
std::placeholders::_1)) {}
nsresult nsMultiMixedConv::SendStart() {
nsresult rv = NS_OK;
nsCOMPtr<nsIStreamListener> partListener(mFinalListener);
if (mContentType.IsEmpty()) {
mContentType.AssignLiteral(UNKNOWN_CONTENT_TYPE);
nsCOMPtr<nsIStreamConverterService> serv =
do_GetService(NS_STREAMCONVERTERSERVICE_CONTRACTID, &rv);
if (NS_SUCCEEDED(rv)) {
nsCOMPtr<nsIStreamListener> converter;
rv = serv->AsyncConvertData(UNKNOWN_CONTENT_TYPE, "*/*", mFinalListener,
mContext, getter_AddRefs(converter));
if (NS_SUCCEEDED(rv)) {
partListener = converter;
}
}
}
// if we already have an mPartChannel, that means we never sent a Stop()
// before starting up another "part." that would be bad.
MOZ_ASSERT(!mPartChannel, "tisk tisk, shouldn't be overwriting a channel");
nsPartChannel* newChannel;
newChannel = new nsPartChannel(mChannel, mCurrentPartID, mCurrentPartID == 0,
partListener);
++mCurrentPartID;
if (mIsByteRangeRequest) {
newChannel->InitializeByteRange(mByteRangeStart, mByteRangeEnd);
}
mTotalSent = 0;
// Set up the new part channel...
mPartChannel = newChannel;
rv = mPartChannel->SetContentType(mContentType);
if (NS_FAILED(rv)) return rv;
rv = mPartChannel->SetContentLength(mContentLength);
if (NS_FAILED(rv)) return rv;
mPartChannel->SetContentDisposition(mContentDisposition);
// Each part of a multipart/replace response can be used
// for the top level document. We must inform upper layers
// about this by setting the LOAD_REPLACE flag so that certain
// state assertions are evaluated as positive.
nsLoadFlags loadFlags = 0;
mPartChannel->GetLoadFlags(&loadFlags);
loadFlags |= nsIChannel::LOAD_REPLACE;
mPartChannel->SetLoadFlags(loadFlags);
nsCOMPtr<nsILoadGroup> loadGroup;
(void)mPartChannel->GetLoadGroup(getter_AddRefs(loadGroup));
// Add the new channel to the load group (if any)
if (loadGroup) {
rv = loadGroup->AddRequest(mPartChannel, nullptr);
if (NS_FAILED(rv)) return rv;
}
// This prevents artificial call to OnStart/StopRequest when the root
// channel fails. Since now it's ensured to keep with the nsIStreamListener
// contract every time.
mRequestListenerNotified = true;
// Let's start off the load. NOTE: we don't forward on the channel passed
// into our OnDataAvailable() as it's the root channel for the raw stream.
return mPartChannel->SendOnStartRequest(mContext);
}
nsresult nsMultiMixedConv::SendStop(nsresult aStatus) {
// Make sure we send out all accumulcated data prior call to OnStopRequest.
// If there is no data, this is a no-op.
nsresult rv = SendData();
if (NS_SUCCEEDED(aStatus)) {
aStatus = rv;
}
if (mPartChannel) {
rv = mPartChannel->SendOnStopRequest(mContext, aStatus);
// don't check for failure here, we need to remove the channel from
// the loadgroup.
// Remove the channel from its load group (if any)
nsCOMPtr<nsILoadGroup> loadGroup;
(void)mPartChannel->GetLoadGroup(getter_AddRefs(loadGroup));
if (loadGroup) {
(void)loadGroup->RemoveRequest(mPartChannel, mContext, aStatus);
}
}
mPartChannel = nullptr;
return rv;
}
void nsMultiMixedConv::AccumulateData(Token const& aToken) {
if (!mRawData) {
// This is the first read of raw data during this FeedInput loop
// of the incremental tokenizer. All 'raw' tokens are coming from
// the same linear buffer, hence begining of this loop raw data
// is begining of the first raw token. Length of this loop raw
// data is just sum of all 'raw' tokens we collect during this loop.
//
// It's ensured we flush (send to to the listener via OnDataAvailable)
// and nullify the collected raw data right after FeedInput call.
// Hence, the reference can't outlive the actual buffer.
mRawData = aToken.Fragment().BeginReading();
mRawDataLength = 0;
}
mRawDataLength += aToken.Fragment().Length();
}
nsresult nsMultiMixedConv::SendData() {
nsresult rv;
if (!mRawData) {
return NS_OK;
}
nsACString::const_char_iterator rawData = mRawData;
mRawData = nullptr;
if (!mPartChannel) {
return NS_ERROR_FAILURE; // something went wrong w/ processing
}
if (mContentLength != UINT64_MAX) {
// make sure that we don't send more than the mContentLength
// XXX why? perhaps the Content-Length header was actually wrong!!
if ((uint64_t(mRawDataLength) + mTotalSent) > mContentLength) {
mRawDataLength = static_cast<uint32_t>(mContentLength - mTotalSent);
}
if (mRawDataLength == 0) return NS_OK;
}
uint64_t offset = mTotalSent;
mTotalSent += mRawDataLength;
nsCOMPtr<nsIStringInputStream> ss(
do_CreateInstance("@mozilla.org/io/string-input-stream;1", &rv));
if (NS_FAILED(rv)) return rv;
rv = ss->ShareData(rawData, mRawDataLength);
mRawData = nullptr;
if (NS_FAILED(rv)) return rv;
return mPartChannel->SendOnDataAvailable(mContext, ss, offset,
mRawDataLength);
}
void nsMultiMixedConv::HeadersToDefault() {
mContentLength = UINT64_MAX;
mContentType.Truncate();
mContentDisposition.Truncate();
mContentSecurityPolicy.Truncate();
mIsByteRangeRequest = false;
}
nsresult nsMultiMixedConv::ProcessHeader() {
mozilla::Tokenizer p(mResponseHeaderValue);
switch (mResponseHeader) {
case HEADER_CONTENT_TYPE:
mContentType = mResponseHeaderValue;
mContentType.CompressWhitespace();
break;
case HEADER_CONTENT_LENGTH:
p.SkipWhites();
if (!p.ReadInteger(&mContentLength)) {
return NS_ERROR_CORRUPTED_CONTENT;
}
break;
case HEADER_CONTENT_DISPOSITION:
mContentDisposition = mResponseHeaderValue;
mContentDisposition.CompressWhitespace();
break;
case HEADER_SET_COOKIE: {
nsCOMPtr<nsIHttpChannelInternal> httpInternal =
do_QueryInterface(mChannel);
mResponseHeaderValue.CompressWhitespace();
if (!StaticPrefs::network_cookie_prevent_set_cookie_from_multipart() &&
httpInternal) {
DebugOnly<nsresult> rv = httpInternal->SetCookie(mResponseHeaderValue);
MOZ_ASSERT(NS_SUCCEEDED(rv));
}
break;
}
case HEADER_RANGE:
case HEADER_CONTENT_RANGE: {
if (!p.CheckWord("bytes") || !p.CheckWhite()) {
return NS_ERROR_CORRUPTED_CONTENT;
}
p.SkipWhites();
if (p.CheckChar('*')) {
mByteRangeStart = mByteRangeEnd = 0;
} else if (!p.ReadInteger(&mByteRangeStart) || !p.CheckChar('-') ||
!p.ReadInteger(&mByteRangeEnd)) {
return NS_ERROR_CORRUPTED_CONTENT;
}
mIsByteRangeRequest = true;
if (mContentLength == UINT64_MAX) {
mContentLength = uint64_t(mByteRangeEnd - mByteRangeStart + 1);
}
break;
}
case HEADER_CONTENT_SECURITY_POLICY: {
mContentSecurityPolicy = mResponseHeaderValue;
mContentSecurityPolicy.CompressWhitespace();
nsCOMPtr<nsIHttpChannel> httpChannel = do_QueryInterface(mChannel);
if (httpChannel) {
nsCString resultCSP = mRootContentSecurityPolicy;
if (!mContentSecurityPolicy.IsEmpty()) {
// We are updating the root channel CSP header respectively for
// each part as: CSP-root + CSP-partN, where N is the part number.
// Here we append current part's CSP to root CSP and reset CSP
// header for each part.
if (!resultCSP.IsEmpty()) {
resultCSP.Append(";");
}
resultCSP.Append(mContentSecurityPolicy);
}
nsresult rv = httpChannel->SetResponseHeader(
"Content-Security-Policy"_ns, resultCSP, false);
if (NS_FAILED(rv)) {
return NS_ERROR_CORRUPTED_CONTENT;
}
}
break;
}
case HEADER_UNKNOWN:
// We ignore anything else...
break;
}
return NS_OK;
}
nsresult NS_NewMultiMixedConv(nsMultiMixedConv** aMultiMixedConv) {
MOZ_ASSERT(aMultiMixedConv != nullptr, "null ptr");
RefPtr<nsMultiMixedConv> conv = new nsMultiMixedConv();
conv.forget(aMultiMixedConv);
return NS_OK;
}
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