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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* 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/. */
#ifndef nsHttpHeaderArray_h__
#define nsHttpHeaderArray_h__
#include "nsHttp.h"
#include "nsTArray.h"
#include "nsString.h"
class nsIHttpHeaderVisitor;
// This needs to be forward declared here so we can include only this header
// without also including PHttpChannelParams.h
namespace IPC {
template <typename> struct ParamTraits;
} // namespace IPC
namespace mozilla { namespace net {
class nsHttpHeaderArray
{
public:
const char *PeekHeader(nsHttpAtom header) const;
// For nsHttpResponseHead nsHttpHeaderArray will keep track of the original
// headers as they come from the network and the parse headers used in
// firefox.
// If the original and the firefox header are the same, we will keep just
// one copy and marked it as eVarietyResponseNetOriginalAndResponse.
// If firefox header representation changes a header coming from the
// network (e.g. merged it) or a eVarietyResponseNetOriginalAndResponse
// header has been changed by SetHeader method, we will keep the original
// header as eVarietyResponseNetOriginal and make a copy for the new header
// and mark it as eVarietyResponse.
enum HeaderVariety
{
eVarietyUnknown,
// Used only for request header.
eVarietyRequestOverride,
eVarietyRequestDefault,
// Used only for response header.
eVarietyResponseNetOriginalAndResponse,
eVarietyResponseNetOriginal,
eVarietyResponse
};
// Used by internal setters: to set header from network use SetHeaderFromNet
nsresult SetHeader(const nsACString &headerName,
const nsACString &value,
bool merge, HeaderVariety variety);
nsresult SetHeader(nsHttpAtom header, const nsACString &value,
bool merge, HeaderVariety variety);
nsresult SetHeader(nsHttpAtom header,
const nsACString &headerName,
const nsACString &value,
bool merge, HeaderVariety variety);
// Used by internal setters to set an empty header
nsresult SetEmptyHeader(const nsACString &headerName, HeaderVariety variety);
// Merges supported headers. For other duplicate values, determines if error
// needs to be thrown or 1st value kept.
// For the response header we keep the original headers as well.
nsresult SetHeaderFromNet(nsHttpAtom header,
const nsACString &headerNameOriginal,
const nsACString &value,
bool response);
nsresult SetResponseHeaderFromCache(nsHttpAtom header,
const nsACString &headerNameOriginal,
const nsACString &value,
HeaderVariety variety);
nsresult GetHeader(nsHttpAtom header, nsACString &value) const;
nsresult GetOriginalHeader(nsHttpAtom aHeader,
nsIHttpHeaderVisitor *aVisitor);
void ClearHeader(nsHttpAtom h);
// Find the location of the given header value, or null if none exists.
const char *FindHeaderValue(nsHttpAtom header, const char *value) const
{
return nsHttp::FindToken(PeekHeader(header), value,
HTTP_HEADER_VALUE_SEPS);
}
// Determine if the given header value exists.
bool HasHeaderValue(nsHttpAtom header, const char *value) const
{
return FindHeaderValue(header, value) != nullptr;
}
bool HasHeader(nsHttpAtom header) const;
enum VisitorFilter
{
eFilterAll,
eFilterSkipDefault,
eFilterResponse,
eFilterResponseOriginal
};
nsresult VisitHeaders(nsIHttpHeaderVisitor *visitor, VisitorFilter filter = eFilterAll);
// parse a header line, return the header atom and a pointer to the
// header value (the substring of the header line -- do not free).
static nsresult ParseHeaderLine(const nsACString& line,
nsHttpAtom *header = nullptr,
nsACString *headerNameOriginal = nullptr,
nsACString *value = nullptr);
void Flatten(nsACString &, bool pruneProxyHeaders, bool pruneTransients);
void FlattenOriginalHeader(nsACString &);
uint32_t Count() const { return mHeaders.Length(); }
const char *PeekHeaderAt(uint32_t i, nsHttpAtom &header,
nsACString &headerNameOriginal) const;
void Clear();
// Must be copy-constructable and assignable
struct nsEntry
{
nsHttpAtom header;
nsCString headerNameOriginal;
nsCString value;
HeaderVariety variety = eVarietyUnknown;
struct MatchHeader {
bool Equals(const nsEntry &aEntry, const nsHttpAtom &aHeader) const {
return aEntry.header == aHeader;
}
};
bool operator==(const nsEntry& aOther) const
{
return header == aOther.header && value == aOther.value;
}
};
bool operator==(const nsHttpHeaderArray& aOther) const
{
return mHeaders == aOther.mHeaders;
}
private:
// LookupEntry function will never return eVarietyResponseNetOriginal.
// It will ignore original headers from the network.
int32_t LookupEntry(nsHttpAtom header, const nsEntry **) const;
int32_t LookupEntry(nsHttpAtom header, nsEntry **);
nsresult MergeHeader(nsHttpAtom header, nsEntry *entry,
const nsACString &value, HeaderVariety variety);
nsresult SetHeader_internal(nsHttpAtom header,
const nsACString &headerName,
const nsACString &value,
HeaderVariety variety);
// Header cannot be merged: only one value possible
bool IsSingletonHeader(nsHttpAtom header);
// For some headers we want to track empty values to prevent them being
// combined with non-empty ones as a CRLF attack vector
bool TrackEmptyHeader(nsHttpAtom header);
// Subset of singleton headers: should never see multiple, different
// instances of these, else something fishy may be going on (like CLRF
// injection)
bool IsSuspectDuplicateHeader(nsHttpAtom header);
// All members must be copy-constructable and assignable
nsTArray<nsEntry> mHeaders;
friend struct IPC::ParamTraits<nsHttpHeaderArray>;
friend class nsHttpRequestHead;
};
//-----------------------------------------------------------------------------
// nsHttpHeaderArray <private>: inline functions
//-----------------------------------------------------------------------------
inline int32_t
nsHttpHeaderArray::LookupEntry(nsHttpAtom header, const nsEntry **entry) const
{
uint32_t index = 0;
while (index != UINT32_MAX) {
index = mHeaders.IndexOf(header, index, nsEntry::MatchHeader());
if (index != UINT32_MAX) {
if ((&mHeaders[index])->variety != eVarietyResponseNetOriginal) {
*entry = &mHeaders[index];
return index;
}
index++;
}
}
return index;
}
inline int32_t
nsHttpHeaderArray::LookupEntry(nsHttpAtom header, nsEntry **entry)
{
uint32_t index = 0;
while (index != UINT32_MAX) {
index = mHeaders.IndexOf(header, index, nsEntry::MatchHeader());
if (index != UINT32_MAX) {
if ((&mHeaders[index])->variety != eVarietyResponseNetOriginal) {
*entry = &mHeaders[index];
return index;
}
index++;
}
}
return index;
}
inline bool
nsHttpHeaderArray::IsSingletonHeader(nsHttpAtom header)
{
return header == nsHttp::Content_Type ||
header == nsHttp::Content_Disposition ||
header == nsHttp::Content_Length ||
header == nsHttp::User_Agent ||
header == nsHttp::Referer ||
header == nsHttp::Host ||
header == nsHttp::Authorization ||
header == nsHttp::Proxy_Authorization ||
header == nsHttp::If_Modified_Since ||
header == nsHttp::If_Unmodified_Since ||
header == nsHttp::From ||
header == nsHttp::Location ||
header == nsHttp::Max_Forwards;
}
inline bool
nsHttpHeaderArray::TrackEmptyHeader(nsHttpAtom header)
{
return header == nsHttp::Content_Length ||
header == nsHttp::Location ||
header == nsHttp::Access_Control_Allow_Origin;
}
inline nsresult
nsHttpHeaderArray::MergeHeader(nsHttpAtom header,
nsEntry *entry,
const nsACString &value,
nsHttpHeaderArray::HeaderVariety variety)
{
if (value.IsEmpty())
return NS_OK; // merge of empty header = no-op
nsCString newValue = entry->value;
if (!newValue.IsEmpty()) {
// Append the new value to the existing value
if (header == nsHttp::Set_Cookie ||
header == nsHttp::WWW_Authenticate ||
header == nsHttp::Proxy_Authenticate)
{
// Special case these headers and use a newline delimiter to
// delimit the values from one another as commas may appear
// in the values of these headers contrary to what the spec says.
newValue.Append('\n');
} else {
// Delimit each value from the others using a comma (per HTTP spec)
newValue.AppendLiteral(", ");
}
}
newValue.Append(value);
if (entry->variety == eVarietyResponseNetOriginalAndResponse) {
MOZ_ASSERT(variety == eVarietyResponse);
entry->variety = eVarietyResponseNetOriginal;
// Copy entry->headerNameOriginal because in SetHeader_internal we are going
// to a new one and a realocation can happen.
nsCString headerNameOriginal = entry->headerNameOriginal;
nsresult rv = SetHeader_internal(header, headerNameOriginal,
newValue, eVarietyResponse);
if (NS_FAILED(rv)) {
return rv;
}
} else {
entry->value = newValue;
entry->variety = variety;
}
return NS_OK;
}
inline bool
nsHttpHeaderArray::IsSuspectDuplicateHeader(nsHttpAtom header)
{
bool retval = header == nsHttp::Content_Length ||
header == nsHttp::Content_Disposition ||
header == nsHttp::Location;
MOZ_ASSERT(!retval || IsSingletonHeader(header),
"Only non-mergeable headers should be in this list\n");
return retval;
}
} // namespace net
} // namespace mozilla
#endif
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