/* -*- 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/. */ #ifndef _NSNSSCALLBACKS_H_ #define _NSNSSCALLBACKS_H_ #include "nsAutoPtr.h" #include "nsCOMPtr.h" #include "pk11func.h" #include "nspr.h" #include "ocspt.h" #include "nsIStreamLoader.h" #include "mozilla/CondVar.h" #include "mozilla/Mutex.h" #include "mozilla/Attributes.h" #include "nsString.h" class nsILoadGroup; char* PK11PasswordPrompt(PK11SlotInfo *slot, PRBool retry, void* arg); void HandshakeCallback(PRFileDesc *fd, void *client_data); SECStatus CanFalseStartCallback(PRFileDesc* fd, void* client_data, PRBool *canFalseStart); class nsHTTPListener final : public nsIStreamLoaderObserver { private: // For XPCOM implementations that are not a base class for some other // class, it is good practice to make the destructor non-virtual and // private. Then the only way to delete the object is via Release. #ifdef _MSC_VER // C4265: Class has virtual members but destructor is not virtual __pragma(warning(disable:4265)) #endif ~nsHTTPListener(); public: nsHTTPListener(); NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSISTREAMLOADEROBSERVER nsCOMPtr mLoader; nsresult mResultCode; bool mHttpRequestSucceeded; uint16_t mHttpResponseCode; nsCString mHttpResponseContentType; const uint8_t* mResultData; // allocated in loader, but owned by listener uint32_t mResultLen; mozilla::Mutex mLock; mozilla::CondVar mCondition; volatile bool mWaitFlag; bool mResponsibleForDoneSignal; void send_done_signal(); // no nsCOMPtr. When I use it, I get assertions about // loadgroup not being thread safe. // So, let's use a raw pointer and ensure we only create and destroy // it on the network thread ourselves. nsILoadGroup *mLoadGroup; PRThread *mLoadGroupOwnerThread; void FreeLoadGroup(bool aCancelLoad); }; class nsNSSHttpServerSession { public: nsCString mHost; uint16_t mPort; static SECStatus createSessionFcn(const char *host, uint16_t portnum, SEC_HTTP_SERVER_SESSION *pSession); }; class nsNSSHttpRequestSession { protected: mozilla::ThreadSafeAutoRefCnt mRefCount; public: static SECStatus createFcn(SEC_HTTP_SERVER_SESSION session, const char *http_protocol_variant, const char *path_and_query_string, const char *http_request_method, const PRIntervalTime timeout, SEC_HTTP_REQUEST_SESSION *pRequest); SECStatus setPostDataFcn(const char *http_data, const uint32_t http_data_len, const char *http_content_type); SECStatus addHeaderFcn(const char *http_header_name, const char *http_header_value); SECStatus trySendAndReceiveFcn(PRPollDesc **pPollDesc, uint16_t *http_response_code, const char **http_response_content_type, const char **http_response_headers, const char **http_response_data, uint32_t *http_response_data_len); SECStatus cancelFcn(); SECStatus freeFcn(); void AddRef(); void Release(); nsCString mURL; nsCString mRequestMethod; bool mHasPostData; nsCString mPostData; nsCString mPostContentType; PRIntervalTime mTimeoutInterval; nsRefPtr mListener; protected: nsNSSHttpRequestSession(); ~nsNSSHttpRequestSession(); SECStatus internal_send_receive_attempt(bool &retryable_error, PRPollDesc **pPollDesc, uint16_t *http_response_code, const char **http_response_content_type, const char **http_response_headers, const char **http_response_data, uint32_t *http_response_data_len); }; class nsNSSHttpInterface { public: static SECStatus createSessionFcn(const char *host, uint16_t portnum, SEC_HTTP_SERVER_SESSION *pSession) { return nsNSSHttpServerSession::createSessionFcn(host, portnum, pSession); } static SECStatus keepAliveFcn(SEC_HTTP_SERVER_SESSION session, PRPollDesc **pPollDesc) { // Not yet implemented, however, Necko does transparent keep-alive // anyway, when enabled in Necko's prefs. return SECSuccess; } static SECStatus freeSessionFcn(SEC_HTTP_SERVER_SESSION session) { delete static_cast(session); return SECSuccess; } static SECStatus createFcn(SEC_HTTP_SERVER_SESSION session, const char *http_protocol_variant, const char *path_and_query_string, const char *http_request_method, const PRIntervalTime timeout, SEC_HTTP_REQUEST_SESSION *pRequest) { return nsNSSHttpRequestSession::createFcn(session, http_protocol_variant, path_and_query_string, http_request_method, timeout, pRequest); } static SECStatus setPostDataFcn(SEC_HTTP_REQUEST_SESSION request, const char *http_data, const uint32_t http_data_len, const char *http_content_type) { return static_cast(request) ->setPostDataFcn(http_data, http_data_len, http_content_type); } static SECStatus addHeaderFcn(SEC_HTTP_REQUEST_SESSION request, const char *http_header_name, const char *http_header_value) { return static_cast(request) ->addHeaderFcn(http_header_name, http_header_value); } static SECStatus trySendAndReceiveFcn(SEC_HTTP_REQUEST_SESSION request, PRPollDesc **pPollDesc, uint16_t *http_response_code, const char **http_response_content_type, const char **http_response_headers, const char **http_response_data, uint32_t *http_response_data_len) { return static_cast(request) ->trySendAndReceiveFcn(pPollDesc, http_response_code, http_response_content_type, http_response_headers, http_response_data, http_response_data_len); } static SECStatus cancelFcn(SEC_HTTP_REQUEST_SESSION request) { return static_cast(request) ->cancelFcn(); } static SECStatus freeFcn(SEC_HTTP_REQUEST_SESSION request) { return static_cast(request) ->freeFcn(); } static void initTable(); static SEC_HttpClientFcn sNSSInterfaceTable; }; #endif // _NSNSSCALLBACKS_H_