/* * Wininet - HTTP Implementation * * Copyright 1999 Corel Corporation * Copyright 2002 CodeWeavers Inc. * Copyright 2002 TransGaming Technologies Inc. * Copyright 2004 Mike McCormack for CodeWeavers * Copyright 2005 Aric Stewart for CodeWeavers * Copyright 2006 Robert Shearman for CodeWeavers * Copyright 2011 Jacek Caban for CodeWeavers * * Ulrich Czekalla * David Hammerton * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #ifdef HAVE_ZLIB # include #endif #include "winsock2.h" #include "ws2ipdef.h" #include #include #include #include #include #include "windef.h" #include "winbase.h" #include "wininet.h" #include "winerror.h" #include "winternl.h" #define NO_SHLWAPI_STREAM #define NO_SHLWAPI_REG #define NO_SHLWAPI_STRFCNS #define NO_SHLWAPI_GDI #include "shlwapi.h" #include "sspi.h" #include "wincrypt.h" #include "winuser.h" #include "internet.h" #include "wine/debug.h" #include "wine/exception.h" #include "wine/unicode.h" WINE_DEFAULT_DEBUG_CHANNEL(wininet); static const WCHAR g_szHttp1_0[] = {'H','T','T','P','/','1','.','0',0}; static const WCHAR g_szHttp1_1[] = {'H','T','T','P','/','1','.','1',0}; static const WCHAR szOK[] = {'O','K',0}; static const WCHAR hostW[] = { 'H','o','s','t',0 }; static const WCHAR szAuthorization[] = { 'A','u','t','h','o','r','i','z','a','t','i','o','n',0 }; static const WCHAR szProxy_Authorization[] = { 'P','r','o','x','y','-','A','u','t','h','o','r','i','z','a','t','i','o','n',0 }; static const WCHAR szStatus[] = { 'S','t','a','t','u','s',0 }; static const WCHAR szKeepAlive[] = {'K','e','e','p','-','A','l','i','v','e',0}; static const WCHAR szGET[] = { 'G','E','T', 0 }; static const WCHAR szHEAD[] = { 'H','E','A','D', 0 }; static const WCHAR szAccept[] = { 'A','c','c','e','p','t',0 }; static const WCHAR szAccept_Charset[] = { 'A','c','c','e','p','t','-','C','h','a','r','s','e','t', 0 }; static const WCHAR szAccept_Encoding[] = { 'A','c','c','e','p','t','-','E','n','c','o','d','i','n','g',0 }; static const WCHAR szAccept_Language[] = { 'A','c','c','e','p','t','-','L','a','n','g','u','a','g','e',0 }; static const WCHAR szAccept_Ranges[] = { 'A','c','c','e','p','t','-','R','a','n','g','e','s',0 }; static const WCHAR szAge[] = { 'A','g','e',0 }; static const WCHAR szAllow[] = { 'A','l','l','o','w',0 }; static const WCHAR szCache_Control[] = { 'C','a','c','h','e','-','C','o','n','t','r','o','l',0 }; static const WCHAR szConnection[] = { 'C','o','n','n','e','c','t','i','o','n',0 }; static const WCHAR szContent_Base[] = { 'C','o','n','t','e','n','t','-','B','a','s','e',0 }; static const WCHAR szContent_Disposition[] = { 'C','o','n','t','e','n','t','-','D','i','s','p','o','s','i','t','i','o','n',0 }; static const WCHAR szContent_Encoding[] = { 'C','o','n','t','e','n','t','-','E','n','c','o','d','i','n','g',0 }; static const WCHAR szContent_ID[] = { 'C','o','n','t','e','n','t','-','I','D',0 }; static const WCHAR szContent_Language[] = { 'C','o','n','t','e','n','t','-','L','a','n','g','u','a','g','e',0 }; static const WCHAR szContent_Length[] = { 'C','o','n','t','e','n','t','-','L','e','n','g','t','h',0 }; static const WCHAR szContent_Location[] = { 'C','o','n','t','e','n','t','-','L','o','c','a','t','i','o','n',0 }; static const WCHAR szContent_MD5[] = { 'C','o','n','t','e','n','t','-','M','D','5',0 }; static const WCHAR szContent_Range[] = { 'C','o','n','t','e','n','t','-','R','a','n','g','e',0 }; static const WCHAR szContent_Transfer_Encoding[] = { 'C','o','n','t','e','n','t','-','T','r','a','n','s','f','e','r','-','E','n','c','o','d','i','n','g',0 }; static const WCHAR szContent_Type[] = { 'C','o','n','t','e','n','t','-','T','y','p','e',0 }; static const WCHAR szCookie[] = { 'C','o','o','k','i','e',0 }; static const WCHAR szDate[] = { 'D','a','t','e',0 }; static const WCHAR szFrom[] = { 'F','r','o','m',0 }; static const WCHAR szETag[] = { 'E','T','a','g',0 }; static const WCHAR szExpect[] = { 'E','x','p','e','c','t',0 }; static const WCHAR szExpires[] = { 'E','x','p','i','r','e','s',0 }; static const WCHAR szIf_Match[] = { 'I','f','-','M','a','t','c','h',0 }; static const WCHAR szIf_Modified_Since[] = { 'I','f','-','M','o','d','i','f','i','e','d','-','S','i','n','c','e',0 }; static const WCHAR szIf_None_Match[] = { 'I','f','-','N','o','n','e','-','M','a','t','c','h',0 }; static const WCHAR szIf_Range[] = { 'I','f','-','R','a','n','g','e',0 }; static const WCHAR szIf_Unmodified_Since[] = { 'I','f','-','U','n','m','o','d','i','f','i','e','d','-','S','i','n','c','e',0 }; static const WCHAR szLast_Modified[] = { 'L','a','s','t','-','M','o','d','i','f','i','e','d',0 }; static const WCHAR szLocation[] = { 'L','o','c','a','t','i','o','n',0 }; static const WCHAR szMax_Forwards[] = { 'M','a','x','-','F','o','r','w','a','r','d','s',0 }; static const WCHAR szMime_Version[] = { 'M','i','m','e','-','V','e','r','s','i','o','n',0 }; static const WCHAR szPragma[] = { 'P','r','a','g','m','a',0 }; static const WCHAR szProxy_Authenticate[] = { 'P','r','o','x','y','-','A','u','t','h','e','n','t','i','c','a','t','e',0 }; static const WCHAR szProxy_Connection[] = { 'P','r','o','x','y','-','C','o','n','n','e','c','t','i','o','n',0 }; static const WCHAR szPublic[] = { 'P','u','b','l','i','c',0 }; static const WCHAR szRange[] = { 'R','a','n','g','e',0 }; static const WCHAR szReferer[] = { 'R','e','f','e','r','e','r',0 }; static const WCHAR szRetry_After[] = { 'R','e','t','r','y','-','A','f','t','e','r',0 }; static const WCHAR szServer[] = { 'S','e','r','v','e','r',0 }; static const WCHAR szSet_Cookie[] = { 'S','e','t','-','C','o','o','k','i','e',0 }; static const WCHAR szTransfer_Encoding[] = { 'T','r','a','n','s','f','e','r','-','E','n','c','o','d','i','n','g',0 }; static const WCHAR szUnless_Modified_Since[] = { 'U','n','l','e','s','s','-','M','o','d','i','f','i','e','d','-','S','i','n','c','e',0 }; static const WCHAR szUpgrade[] = { 'U','p','g','r','a','d','e',0 }; static const WCHAR szURI[] = { 'U','R','I',0 }; static const WCHAR szUser_Agent[] = { 'U','s','e','r','-','A','g','e','n','t',0 }; static const WCHAR szVary[] = { 'V','a','r','y',0 }; static const WCHAR szVia[] = { 'V','i','a',0 }; static const WCHAR szWarning[] = { 'W','a','r','n','i','n','g',0 }; static const WCHAR szWWW_Authenticate[] = { 'W','W','W','-','A','u','t','h','e','n','t','i','c','a','t','e',0 }; static const WCHAR emptyW[] = {0}; #define HTTP_REFERER szReferer #define HTTP_ACCEPT szAccept #define HTTP_USERAGENT szUser_Agent #define HTTP_ADDHDR_FLAG_ADD 0x20000000 #define HTTP_ADDHDR_FLAG_ADD_IF_NEW 0x10000000 #define HTTP_ADDHDR_FLAG_COALESCE 0x40000000 #define HTTP_ADDHDR_FLAG_COALESCE_WITH_COMMA 0x40000000 #define HTTP_ADDHDR_FLAG_COALESCE_WITH_SEMICOLON 0x01000000 #define HTTP_ADDHDR_FLAG_REPLACE 0x80000000 #define HTTP_ADDHDR_FLAG_REQ 0x02000000 #define COLLECT_TIME 60000 #define ARRAYSIZE(array) (sizeof(array)/sizeof((array)[0])) struct HttpAuthInfo { LPWSTR scheme; CredHandle cred; CtxtHandle ctx; TimeStamp exp; ULONG attr; ULONG max_token; void *auth_data; unsigned int auth_data_len; BOOL finished; /* finished authenticating */ }; typedef struct _basicAuthorizationData { struct list entry; LPWSTR host; LPWSTR realm; LPSTR authorization; UINT authorizationLen; } basicAuthorizationData; typedef struct _authorizationData { struct list entry; LPWSTR host; LPWSTR scheme; LPWSTR domain; UINT domain_len; LPWSTR user; UINT user_len; LPWSTR password; UINT password_len; } authorizationData; static struct list basicAuthorizationCache = LIST_INIT(basicAuthorizationCache); static struct list authorizationCache = LIST_INIT(authorizationCache); static CRITICAL_SECTION authcache_cs; static CRITICAL_SECTION_DEBUG critsect_debug = { 0, 0, &authcache_cs, { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": authcache_cs") } }; static CRITICAL_SECTION authcache_cs = { &critsect_debug, -1, 0, 0, 0, 0 }; static DWORD HTTP_GetResponseHeaders(http_request_t *req, INT *len); static DWORD HTTP_ProcessHeader(http_request_t *req, LPCWSTR field, LPCWSTR value, DWORD dwModifier); static LPWSTR * HTTP_InterpretHttpHeader(LPCWSTR buffer); static DWORD HTTP_InsertCustomHeader(http_request_t *req, LPHTTPHEADERW lpHdr); static INT HTTP_GetCustomHeaderIndex(http_request_t *req, LPCWSTR lpszField, INT index, BOOL Request); static BOOL HTTP_DeleteCustomHeader(http_request_t *req, DWORD index); static LPWSTR HTTP_build_req( LPCWSTR *list, int len ); static DWORD HTTP_HttpQueryInfoW(http_request_t*, DWORD, LPVOID, LPDWORD, LPDWORD); static LPWSTR HTTP_GetRedirectURL(http_request_t *req, LPCWSTR lpszUrl); static UINT HTTP_DecodeBase64(LPCWSTR base64, LPSTR bin); static BOOL drain_content(http_request_t*,BOOL); static CRITICAL_SECTION connection_pool_cs; static CRITICAL_SECTION_DEBUG connection_pool_debug = { 0, 0, &connection_pool_cs, { &critsect_debug.ProcessLocksList, &critsect_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": connection_pool_cs") } }; static CRITICAL_SECTION connection_pool_cs = { &connection_pool_debug, -1, 0, 0, 0, 0 }; static struct list connection_pool = LIST_INIT(connection_pool); static BOOL collector_running; void server_addref(server_t *server) { InterlockedIncrement(&server->ref); } void server_release(server_t *server) { if(InterlockedDecrement(&server->ref)) return; list_remove(&server->entry); if(server->cert_chain) CertFreeCertificateChain(server->cert_chain); heap_free(server->name); heap_free(server->scheme_host_port); heap_free(server); } static BOOL process_host_port(server_t *server) { BOOL default_port; size_t name_len; WCHAR *buf; static const WCHAR httpW[] = {'h','t','t','p',0}; static const WCHAR httpsW[] = {'h','t','t','p','s',0}; static const WCHAR formatW[] = {'%','s',':','/','/','%','s',':','%','u',0}; name_len = strlenW(server->name); buf = heap_alloc((name_len + 10 /* strlen("://:") */)*sizeof(WCHAR) + sizeof(httpsW)); if(!buf) return FALSE; sprintfW(buf, formatW, server->is_https ? httpsW : httpW, server->name, server->port); server->scheme_host_port = buf; server->host_port = server->scheme_host_port + 7 /* strlen("http://") */; if(server->is_https) server->host_port++; default_port = server->port == (server->is_https ? INTERNET_DEFAULT_HTTPS_PORT : INTERNET_DEFAULT_HTTP_PORT); server->canon_host_port = default_port ? server->name : server->host_port; return TRUE; } server_t *get_server(const WCHAR *name, INTERNET_PORT port, BOOL is_https, BOOL do_create) { server_t *iter, *server = NULL; if(port == INTERNET_INVALID_PORT_NUMBER) port = INTERNET_DEFAULT_HTTP_PORT; EnterCriticalSection(&connection_pool_cs); LIST_FOR_EACH_ENTRY(iter, &connection_pool, server_t, entry) { if(iter->port == port && !strcmpW(iter->name, name) && iter->is_https == is_https) { server = iter; server_addref(server); break; } } if(!server && do_create) { server = heap_alloc_zero(sizeof(*server)); if(server) { server->ref = 2; /* list reference and return */ server->port = port; server->is_https = is_https; list_init(&server->conn_pool); server->name = heap_strdupW(name); if(server->name && process_host_port(server)) { list_add_head(&connection_pool, &server->entry); }else { heap_free(server); server = NULL; } } } LeaveCriticalSection(&connection_pool_cs); return server; } BOOL collect_connections(collect_type_t collect_type) { netconn_t *netconn, *netconn_safe; server_t *server, *server_safe; BOOL remaining = FALSE; DWORD64 now; now = GetTickCount64(); LIST_FOR_EACH_ENTRY_SAFE(server, server_safe, &connection_pool, server_t, entry) { LIST_FOR_EACH_ENTRY_SAFE(netconn, netconn_safe, &server->conn_pool, netconn_t, pool_entry) { if(collect_type > COLLECT_TIMEOUT || netconn->keep_until < now) { TRACE("freeing %p\n", netconn); list_remove(&netconn->pool_entry); free_netconn(netconn); }else { remaining = TRUE; } } if(collect_type == COLLECT_CLEANUP) { list_remove(&server->entry); list_init(&server->entry); server_release(server); } } return remaining; } static DWORD WINAPI collect_connections_proc(void *arg) { BOOL remaining_conns; do { /* FIXME: Use more sophisticated method */ Sleep(5000); EnterCriticalSection(&connection_pool_cs); remaining_conns = collect_connections(COLLECT_TIMEOUT); if(!remaining_conns) collector_running = FALSE; LeaveCriticalSection(&connection_pool_cs); }while(remaining_conns); FreeLibraryAndExitThread(WININET_hModule, 0); } /*********************************************************************** * HTTP_GetHeader (internal) * * Headers section must be held */ static LPHTTPHEADERW HTTP_GetHeader(http_request_t *req, LPCWSTR head) { int HeaderIndex = 0; HeaderIndex = HTTP_GetCustomHeaderIndex(req, head, 0, TRUE); if (HeaderIndex == -1) return NULL; else return &req->custHeaders[HeaderIndex]; } static WCHAR *get_host_header( http_request_t *req ) { HTTPHEADERW *header; WCHAR *ret = NULL; EnterCriticalSection( &req->headers_section ); if ((header = HTTP_GetHeader( req, hostW ))) ret = heap_strdupW( header->lpszValue ); else ret = heap_strdupW( req->server->canon_host_port ); LeaveCriticalSection( &req->headers_section ); return ret; } typedef enum { BLOCKING_ALLOW, BLOCKING_DISALLOW, BLOCKING_WAITALL } blocking_mode_t; struct data_stream_vtbl_t { DWORD (*get_avail_data)(data_stream_t*,http_request_t*); BOOL (*end_of_data)(data_stream_t*,http_request_t*); DWORD (*read)(data_stream_t*,http_request_t*,BYTE*,DWORD,DWORD*,blocking_mode_t); BOOL (*drain_content)(data_stream_t*,http_request_t*); void (*destroy)(data_stream_t*); }; typedef struct { data_stream_t data_stream; BYTE buf[READ_BUFFER_SIZE]; DWORD buf_size; DWORD buf_pos; DWORD chunk_size; BOOL end_of_data; } chunked_stream_t; static inline void destroy_data_stream(data_stream_t *stream) { stream->vtbl->destroy(stream); } static void reset_data_stream(http_request_t *req) { destroy_data_stream(req->data_stream); req->data_stream = &req->netconn_stream.data_stream; req->read_pos = req->read_size = req->netconn_stream.content_read = 0; req->read_gzip = FALSE; } static void remove_header( http_request_t *request, const WCHAR *str, BOOL from_request ) { int index; EnterCriticalSection( &request->headers_section ); index = HTTP_GetCustomHeaderIndex( request, str, 0, from_request ); if (index != -1) HTTP_DeleteCustomHeader( request, index ); LeaveCriticalSection( &request->headers_section ); } #ifdef HAVE_ZLIB typedef struct { data_stream_t stream; data_stream_t *parent_stream; z_stream zstream; BYTE buf[READ_BUFFER_SIZE]; DWORD buf_size; DWORD buf_pos; BOOL end_of_data; } gzip_stream_t; static DWORD gzip_get_avail_data(data_stream_t *stream, http_request_t *req) { /* Allow reading only from read buffer */ return 0; } static BOOL gzip_end_of_data(data_stream_t *stream, http_request_t *req) { gzip_stream_t *gzip_stream = (gzip_stream_t*)stream; return gzip_stream->end_of_data || (!gzip_stream->buf_size && gzip_stream->parent_stream->vtbl->end_of_data(gzip_stream->parent_stream, req)); } static DWORD gzip_read(data_stream_t *stream, http_request_t *req, BYTE *buf, DWORD size, DWORD *read, blocking_mode_t blocking_mode) { gzip_stream_t *gzip_stream = (gzip_stream_t*)stream; z_stream *zstream = &gzip_stream->zstream; DWORD current_read, ret_read = 0; int zres; DWORD res = ERROR_SUCCESS; TRACE("(%d %d)\n", size, blocking_mode); while(size && !gzip_stream->end_of_data) { if(!gzip_stream->buf_size) { if(gzip_stream->buf_pos) { if(gzip_stream->buf_size) memmove(gzip_stream->buf, gzip_stream->buf+gzip_stream->buf_pos, gzip_stream->buf_size); gzip_stream->buf_pos = 0; } res = gzip_stream->parent_stream->vtbl->read(gzip_stream->parent_stream, req, gzip_stream->buf+gzip_stream->buf_size, sizeof(gzip_stream->buf)-gzip_stream->buf_size, ¤t_read, blocking_mode); gzip_stream->buf_size += current_read; if(res != ERROR_SUCCESS) break; if(!current_read) { if(blocking_mode != BLOCKING_DISALLOW) { WARN("unexpected end of data\n"); gzip_stream->end_of_data = TRUE; } break; } } zstream->next_in = gzip_stream->buf+gzip_stream->buf_pos; zstream->avail_in = gzip_stream->buf_size; zstream->next_out = buf+ret_read; zstream->avail_out = size; zres = inflate(&gzip_stream->zstream, 0); current_read = size - zstream->avail_out; size -= current_read; ret_read += current_read; gzip_stream->buf_size -= zstream->next_in - (gzip_stream->buf+gzip_stream->buf_pos); gzip_stream->buf_pos = zstream->next_in-gzip_stream->buf; if(zres == Z_STREAM_END) { TRACE("end of data\n"); gzip_stream->end_of_data = TRUE; inflateEnd(zstream); }else if(zres != Z_OK) { WARN("inflate failed %d: %s\n", zres, debugstr_a(zstream->msg)); if(!ret_read) res = ERROR_INTERNET_DECODING_FAILED; break; } if(ret_read && blocking_mode == BLOCKING_ALLOW) blocking_mode = BLOCKING_DISALLOW; } TRACE("read %u bytes\n", ret_read); *read = ret_read; return res; } static BOOL gzip_drain_content(data_stream_t *stream, http_request_t *req) { gzip_stream_t *gzip_stream = (gzip_stream_t*)stream; return gzip_stream->parent_stream->vtbl->drain_content(gzip_stream->parent_stream, req); } static void gzip_destroy(data_stream_t *stream) { gzip_stream_t *gzip_stream = (gzip_stream_t*)stream; destroy_data_stream(gzip_stream->parent_stream); if(!gzip_stream->end_of_data) inflateEnd(&gzip_stream->zstream); heap_free(gzip_stream); } static const data_stream_vtbl_t gzip_stream_vtbl = { gzip_get_avail_data, gzip_end_of_data, gzip_read, gzip_drain_content, gzip_destroy }; static voidpf wininet_zalloc(voidpf opaque, uInt items, uInt size) { return heap_alloc(items*size); } static void wininet_zfree(voidpf opaque, voidpf address) { heap_free(address); } static DWORD init_gzip_stream(http_request_t *req, BOOL is_gzip) { gzip_stream_t *gzip_stream; int zres; gzip_stream = heap_alloc_zero(sizeof(gzip_stream_t)); if(!gzip_stream) return ERROR_OUTOFMEMORY; gzip_stream->stream.vtbl = &gzip_stream_vtbl; gzip_stream->zstream.zalloc = wininet_zalloc; gzip_stream->zstream.zfree = wininet_zfree; zres = inflateInit2(&gzip_stream->zstream, is_gzip ? 0x1f : -15); if(zres != Z_OK) { ERR("inflateInit failed: %d\n", zres); heap_free(gzip_stream); return ERROR_OUTOFMEMORY; } remove_header(req, szContent_Length, FALSE); if(req->read_size) { memcpy(gzip_stream->buf, req->read_buf+req->read_pos, req->read_size); gzip_stream->buf_size = req->read_size; req->read_pos = req->read_size = 0; } req->read_gzip = TRUE; gzip_stream->parent_stream = req->data_stream; req->data_stream = &gzip_stream->stream; return ERROR_SUCCESS; } #else static DWORD init_gzip_stream(http_request_t *req, BOOL is_gzip) { ERR("gzip stream not supported, missing zlib.\n"); return ERROR_SUCCESS; } #endif /*********************************************************************** * HTTP_FreeTokens (internal) * * Frees table of pointers. */ static void HTTP_FreeTokens(LPWSTR * token_array) { int i; for (i = 0; token_array[i]; i++) heap_free(token_array[i]); heap_free(token_array); } static void HTTP_FixURL(http_request_t *request) { static const WCHAR szSlash[] = { '/',0 }; static const WCHAR szHttp[] = { 'h','t','t','p',':','/','/', 0 }; /* If we don't have a path we set it to root */ if (NULL == request->path) request->path = heap_strdupW(szSlash); else /* remove \r and \n*/ { int nLen = strlenW(request->path); while ((nLen >0 ) && ((request->path[nLen-1] == '\r')||(request->path[nLen-1] == '\n'))) { nLen--; request->path[nLen]='\0'; } /* Replace '\' with '/' */ while (nLen>0) { nLen--; if (request->path[nLen] == '\\') request->path[nLen]='/'; } } if(CSTR_EQUAL != CompareStringW( LOCALE_INVARIANT, NORM_IGNORECASE, request->path, strlenW(request->path), szHttp, strlenW(szHttp) ) && request->path[0] != '/') /* not an absolute path ?? --> fix it !! */ { WCHAR *fixurl = heap_alloc((strlenW(request->path) + 2)*sizeof(WCHAR)); *fixurl = '/'; strcpyW(fixurl + 1, request->path); heap_free( request->path ); request->path = fixurl; } } static WCHAR* build_request_header(http_request_t *request, const WCHAR *verb, const WCHAR *path, const WCHAR *version, BOOL use_cr) { static const WCHAR szSpace[] = {' ',0}; static const WCHAR szColon[] = {':',' ',0}; static const WCHAR szCr[] = {'\r',0}; static const WCHAR szLf[] = {'\n',0}; LPWSTR requestString; DWORD len, n; LPCWSTR *req; UINT i; EnterCriticalSection( &request->headers_section ); /* allocate space for an array of all the string pointers to be added */ len = request->nCustHeaders * 5 + 10; if (!(req = heap_alloc( len * sizeof(const WCHAR *) ))) { LeaveCriticalSection( &request->headers_section ); return NULL; } /* add the verb, path and HTTP version string */ n = 0; req[n++] = verb; req[n++] = szSpace; req[n++] = path; req[n++] = szSpace; req[n++] = version; if (use_cr) req[n++] = szCr; req[n++] = szLf; /* Append custom request headers */ for (i = 0; i < request->nCustHeaders; i++) { if (request->custHeaders[i].wFlags & HDR_ISREQUEST) { req[n++] = request->custHeaders[i].lpszField; req[n++] = szColon; req[n++] = request->custHeaders[i].lpszValue; if (use_cr) req[n++] = szCr; req[n++] = szLf; TRACE("Adding custom header %s (%s)\n", debugstr_w(request->custHeaders[i].lpszField), debugstr_w(request->custHeaders[i].lpszValue)); } } if (use_cr) req[n++] = szCr; req[n++] = szLf; req[n] = NULL; requestString = HTTP_build_req( req, 4 ); heap_free( req ); LeaveCriticalSection( &request->headers_section ); return requestString; } static WCHAR* build_response_header(http_request_t *request, BOOL use_cr) { static const WCHAR colonW[] = { ':',' ',0 }; static const WCHAR crW[] = { '\r',0 }; static const WCHAR lfW[] = { '\n',0 }; static const WCHAR status_fmt[] = { ' ','%','u',' ',0 }; const WCHAR **req; WCHAR *ret, buf[14]; DWORD i, n = 0; EnterCriticalSection( &request->headers_section ); if (!(req = heap_alloc( (request->nCustHeaders * 5 + 8) * sizeof(WCHAR *) ))) { LeaveCriticalSection( &request->headers_section ); return NULL; } if (request->status_code) { req[n++] = request->version; sprintfW(buf, status_fmt, request->status_code); req[n++] = buf; req[n++] = request->statusText; if (use_cr) req[n++] = crW; req[n++] = lfW; } for(i = 0; i < request->nCustHeaders; i++) { if(!(request->custHeaders[i].wFlags & HDR_ISREQUEST) && strcmpW(request->custHeaders[i].lpszField, szStatus)) { req[n++] = request->custHeaders[i].lpszField; req[n++] = colonW; req[n++] = request->custHeaders[i].lpszValue; if(use_cr) req[n++] = crW; req[n++] = lfW; TRACE("Adding custom header %s (%s)\n", debugstr_w(request->custHeaders[i].lpszField), debugstr_w(request->custHeaders[i].lpszValue)); } } if(use_cr) req[n++] = crW; req[n++] = lfW; req[n] = NULL; ret = HTTP_build_req(req, 0); heap_free(req); LeaveCriticalSection( &request->headers_section ); return ret; } static void HTTP_ProcessCookies( http_request_t *request ) { int HeaderIndex; int numCookies = 0; LPHTTPHEADERW setCookieHeader; if(request->hdr.dwFlags & INTERNET_FLAG_NO_COOKIES) return; EnterCriticalSection( &request->headers_section ); while((HeaderIndex = HTTP_GetCustomHeaderIndex(request, szSet_Cookie, numCookies++, FALSE)) != -1) { const WCHAR *data; substr_t name; setCookieHeader = &request->custHeaders[HeaderIndex]; if (!setCookieHeader->lpszValue) continue; data = strchrW(setCookieHeader->lpszValue, '='); if(!data) continue; name = substr(setCookieHeader->lpszValue, data - setCookieHeader->lpszValue); data++; set_cookie(substrz(request->server->name), substrz(request->path), name, substrz(data), INTERNET_COOKIE_HTTPONLY); } LeaveCriticalSection( &request->headers_section ); } static void strip_spaces(LPWSTR start) { LPWSTR str = start; LPWSTR end; while (*str == ' ') str++; if (str != start) memmove(start, str, sizeof(WCHAR) * (strlenW(str) + 1)); end = start + strlenW(start) - 1; while (end >= start && *end == ' ') { *end = '\0'; end--; } } static inline BOOL is_basic_auth_value( LPCWSTR pszAuthValue, LPWSTR *pszRealm ) { static const WCHAR szBasic[] = {'B','a','s','i','c'}; /* Note: not nul-terminated */ static const WCHAR szRealm[] = {'r','e','a','l','m'}; /* Note: not nul-terminated */ BOOL is_basic; is_basic = !strncmpiW(pszAuthValue, szBasic, ARRAYSIZE(szBasic)) && ((pszAuthValue[ARRAYSIZE(szBasic)] == ' ') || !pszAuthValue[ARRAYSIZE(szBasic)]); if (is_basic && pszRealm) { LPCWSTR token; LPCWSTR ptr = &pszAuthValue[ARRAYSIZE(szBasic)]; LPCWSTR realm; ptr++; *pszRealm=NULL; token = strchrW(ptr,'='); if (!token) return TRUE; realm = ptr; while (*realm == ' ') realm++; if(!strncmpiW(realm, szRealm, ARRAYSIZE(szRealm)) && (realm[ARRAYSIZE(szRealm)] == ' ' || realm[ARRAYSIZE(szRealm)] == '=')) { token++; while (*token == ' ') token++; if (*token == '\0') return TRUE; *pszRealm = heap_strdupW(token); strip_spaces(*pszRealm); } } return is_basic; } static void destroy_authinfo( struct HttpAuthInfo *authinfo ) { if (!authinfo) return; if (SecIsValidHandle(&authinfo->ctx)) DeleteSecurityContext(&authinfo->ctx); if (SecIsValidHandle(&authinfo->cred)) FreeCredentialsHandle(&authinfo->cred); heap_free(authinfo->auth_data); heap_free(authinfo->scheme); heap_free(authinfo); } static UINT retrieve_cached_basic_authorization(const WCHAR *host, const WCHAR *realm, char **auth_data) { basicAuthorizationData *ad; UINT rc = 0; TRACE("Looking for authorization for %s:%s\n",debugstr_w(host),debugstr_w(realm)); EnterCriticalSection(&authcache_cs); LIST_FOR_EACH_ENTRY(ad, &basicAuthorizationCache, basicAuthorizationData, entry) { if (!strcmpiW(host, ad->host) && (!realm || !strcmpW(realm, ad->realm))) { TRACE("Authorization found in cache\n"); *auth_data = heap_alloc(ad->authorizationLen); memcpy(*auth_data,ad->authorization,ad->authorizationLen); rc = ad->authorizationLen; break; } } LeaveCriticalSection(&authcache_cs); return rc; } static void cache_basic_authorization(LPWSTR host, LPWSTR realm, LPSTR auth_data, UINT auth_data_len) { struct list *cursor; basicAuthorizationData* ad = NULL; TRACE("caching authorization for %s:%s = %s\n",debugstr_w(host),debugstr_w(realm),debugstr_an(auth_data,auth_data_len)); EnterCriticalSection(&authcache_cs); LIST_FOR_EACH(cursor, &basicAuthorizationCache) { basicAuthorizationData *check = LIST_ENTRY(cursor,basicAuthorizationData,entry); if (!strcmpiW(host,check->host) && !strcmpW(realm,check->realm)) { ad = check; break; } } if (ad) { TRACE("Found match in cache, replacing\n"); heap_free(ad->authorization); ad->authorization = heap_alloc(auth_data_len); memcpy(ad->authorization, auth_data, auth_data_len); ad->authorizationLen = auth_data_len; } else { ad = heap_alloc(sizeof(basicAuthorizationData)); ad->host = heap_strdupW(host); ad->realm = heap_strdupW(realm); ad->authorization = heap_alloc(auth_data_len); memcpy(ad->authorization, auth_data, auth_data_len); ad->authorizationLen = auth_data_len; list_add_head(&basicAuthorizationCache,&ad->entry); TRACE("authorization cached\n"); } LeaveCriticalSection(&authcache_cs); } static BOOL retrieve_cached_authorization(LPWSTR host, LPWSTR scheme, SEC_WINNT_AUTH_IDENTITY_W *nt_auth_identity) { authorizationData *ad; TRACE("Looking for authorization for %s:%s\n", debugstr_w(host), debugstr_w(scheme)); EnterCriticalSection(&authcache_cs); LIST_FOR_EACH_ENTRY(ad, &authorizationCache, authorizationData, entry) { if(!strcmpiW(host, ad->host) && !strcmpiW(scheme, ad->scheme)) { TRACE("Authorization found in cache\n"); nt_auth_identity->User = heap_strdupW(ad->user); nt_auth_identity->Password = heap_strdupW(ad->password); nt_auth_identity->Domain = heap_alloc(sizeof(WCHAR)*ad->domain_len); if(!nt_auth_identity->User || !nt_auth_identity->Password || (!nt_auth_identity->Domain && ad->domain_len)) { heap_free(nt_auth_identity->User); heap_free(nt_auth_identity->Password); heap_free(nt_auth_identity->Domain); break; } nt_auth_identity->Flags = SEC_WINNT_AUTH_IDENTITY_UNICODE; nt_auth_identity->UserLength = ad->user_len; nt_auth_identity->PasswordLength = ad->password_len; memcpy(nt_auth_identity->Domain, ad->domain, sizeof(WCHAR)*ad->domain_len); nt_auth_identity->DomainLength = ad->domain_len; LeaveCriticalSection(&authcache_cs); return TRUE; } } LeaveCriticalSection(&authcache_cs); return FALSE; } static void cache_authorization(LPWSTR host, LPWSTR scheme, SEC_WINNT_AUTH_IDENTITY_W *nt_auth_identity) { authorizationData *ad; BOOL found = FALSE; TRACE("Caching authorization for %s:%s\n", debugstr_w(host), debugstr_w(scheme)); EnterCriticalSection(&authcache_cs); LIST_FOR_EACH_ENTRY(ad, &authorizationCache, authorizationData, entry) if(!strcmpiW(host, ad->host) && !strcmpiW(scheme, ad->scheme)) { found = TRUE; break; } if(found) { heap_free(ad->user); heap_free(ad->password); heap_free(ad->domain); } else { ad = heap_alloc(sizeof(authorizationData)); if(!ad) { LeaveCriticalSection(&authcache_cs); return; } ad->host = heap_strdupW(host); ad->scheme = heap_strdupW(scheme); list_add_head(&authorizationCache, &ad->entry); } ad->user = heap_strndupW(nt_auth_identity->User, nt_auth_identity->UserLength); ad->password = heap_strndupW(nt_auth_identity->Password, nt_auth_identity->PasswordLength); ad->domain = heap_strndupW(nt_auth_identity->Domain, nt_auth_identity->DomainLength); ad->user_len = nt_auth_identity->UserLength; ad->password_len = nt_auth_identity->PasswordLength; ad->domain_len = nt_auth_identity->DomainLength; if(!ad->host || !ad->scheme || !ad->user || !ad->password || (nt_auth_identity->Domain && !ad->domain)) { heap_free(ad->host); heap_free(ad->scheme); heap_free(ad->user); heap_free(ad->password); heap_free(ad->domain); list_remove(&ad->entry); heap_free(ad); } LeaveCriticalSection(&authcache_cs); } static BOOL HTTP_DoAuthorization( http_request_t *request, LPCWSTR pszAuthValue, struct HttpAuthInfo **ppAuthInfo, LPWSTR domain_and_username, LPWSTR password, LPWSTR host ) { SECURITY_STATUS sec_status; struct HttpAuthInfo *pAuthInfo = *ppAuthInfo; BOOL first = FALSE; LPWSTR szRealm = NULL; TRACE("%s\n", debugstr_w(pszAuthValue)); if (!pAuthInfo) { TimeStamp exp; first = TRUE; pAuthInfo = heap_alloc(sizeof(*pAuthInfo)); if (!pAuthInfo) return FALSE; SecInvalidateHandle(&pAuthInfo->cred); SecInvalidateHandle(&pAuthInfo->ctx); memset(&pAuthInfo->exp, 0, sizeof(pAuthInfo->exp)); pAuthInfo->attr = 0; pAuthInfo->auth_data = NULL; pAuthInfo->auth_data_len = 0; pAuthInfo->finished = FALSE; if (is_basic_auth_value(pszAuthValue,NULL)) { static const WCHAR szBasic[] = {'B','a','s','i','c',0}; pAuthInfo->scheme = heap_strdupW(szBasic); if (!pAuthInfo->scheme) { heap_free(pAuthInfo); return FALSE; } } else { PVOID pAuthData; SEC_WINNT_AUTH_IDENTITY_W nt_auth_identity; pAuthInfo->scheme = heap_strdupW(pszAuthValue); if (!pAuthInfo->scheme) { heap_free(pAuthInfo); return FALSE; } if (domain_and_username) { WCHAR *user = strchrW(domain_and_username, '\\'); WCHAR *domain = domain_and_username; /* FIXME: make sure scheme accepts SEC_WINNT_AUTH_IDENTITY before calling AcquireCredentialsHandle */ pAuthData = &nt_auth_identity; if (user) user++; else { user = domain_and_username; domain = NULL; } nt_auth_identity.Flags = SEC_WINNT_AUTH_IDENTITY_UNICODE; nt_auth_identity.User = user; nt_auth_identity.UserLength = strlenW(nt_auth_identity.User); nt_auth_identity.Domain = domain; nt_auth_identity.DomainLength = domain ? user - domain - 1 : 0; nt_auth_identity.Password = password; nt_auth_identity.PasswordLength = strlenW(nt_auth_identity.Password); cache_authorization(host, pAuthInfo->scheme, &nt_auth_identity); } else if(retrieve_cached_authorization(host, pAuthInfo->scheme, &nt_auth_identity)) pAuthData = &nt_auth_identity; else /* use default credentials */ pAuthData = NULL; sec_status = AcquireCredentialsHandleW(NULL, pAuthInfo->scheme, SECPKG_CRED_OUTBOUND, NULL, pAuthData, NULL, NULL, &pAuthInfo->cred, &exp); if(pAuthData && !domain_and_username) { heap_free(nt_auth_identity.User); heap_free(nt_auth_identity.Domain); heap_free(nt_auth_identity.Password); } if (sec_status == SEC_E_OK) { PSecPkgInfoW sec_pkg_info; sec_status = QuerySecurityPackageInfoW(pAuthInfo->scheme, &sec_pkg_info); if (sec_status == SEC_E_OK) { pAuthInfo->max_token = sec_pkg_info->cbMaxToken; FreeContextBuffer(sec_pkg_info); } } if (sec_status != SEC_E_OK) { WARN("AcquireCredentialsHandleW for scheme %s failed with error 0x%08x\n", debugstr_w(pAuthInfo->scheme), sec_status); heap_free(pAuthInfo->scheme); heap_free(pAuthInfo); return FALSE; } } *ppAuthInfo = pAuthInfo; } else if (pAuthInfo->finished) return FALSE; if ((strlenW(pszAuthValue) < strlenW(pAuthInfo->scheme)) || strncmpiW(pszAuthValue, pAuthInfo->scheme, strlenW(pAuthInfo->scheme))) { ERR("authentication scheme changed from %s to %s\n", debugstr_w(pAuthInfo->scheme), debugstr_w(pszAuthValue)); return FALSE; } if (is_basic_auth_value(pszAuthValue,&szRealm)) { int userlen; int passlen; char *auth_data = NULL; UINT auth_data_len = 0; TRACE("basic authentication realm %s\n",debugstr_w(szRealm)); if (!domain_and_username) { if (host && szRealm) auth_data_len = retrieve_cached_basic_authorization(host, szRealm,&auth_data); if (auth_data_len == 0) { heap_free(szRealm); return FALSE; } } else { userlen = WideCharToMultiByte(CP_UTF8, 0, domain_and_username, lstrlenW(domain_and_username), NULL, 0, NULL, NULL); passlen = WideCharToMultiByte(CP_UTF8, 0, password, lstrlenW(password), NULL, 0, NULL, NULL); /* length includes a nul terminator, which will be re-used for the ':' */ auth_data = heap_alloc(userlen + 1 + passlen); if (!auth_data) { heap_free(szRealm); return FALSE; } WideCharToMultiByte(CP_UTF8, 0, domain_and_username, -1, auth_data, userlen, NULL, NULL); auth_data[userlen] = ':'; WideCharToMultiByte(CP_UTF8, 0, password, -1, &auth_data[userlen+1], passlen, NULL, NULL); auth_data_len = userlen + 1 + passlen; if (host && szRealm) cache_basic_authorization(host, szRealm, auth_data, auth_data_len); } pAuthInfo->auth_data = auth_data; pAuthInfo->auth_data_len = auth_data_len; pAuthInfo->finished = TRUE; heap_free(szRealm); return TRUE; } else { LPCWSTR pszAuthData; SecBufferDesc out_desc, in_desc; SecBuffer out, in; unsigned char *buffer; ULONG context_req = ISC_REQ_CONNECTION | ISC_REQ_USE_DCE_STYLE | ISC_REQ_MUTUAL_AUTH | ISC_REQ_DELEGATE; in.BufferType = SECBUFFER_TOKEN; in.cbBuffer = 0; in.pvBuffer = NULL; in_desc.ulVersion = 0; in_desc.cBuffers = 1; in_desc.pBuffers = ∈ pszAuthData = pszAuthValue + strlenW(pAuthInfo->scheme); if (*pszAuthData == ' ') { pszAuthData++; in.cbBuffer = HTTP_DecodeBase64(pszAuthData, NULL); in.pvBuffer = heap_alloc(in.cbBuffer); HTTP_DecodeBase64(pszAuthData, in.pvBuffer); } buffer = heap_alloc(pAuthInfo->max_token); out.BufferType = SECBUFFER_TOKEN; out.cbBuffer = pAuthInfo->max_token; out.pvBuffer = buffer; out_desc.ulVersion = 0; out_desc.cBuffers = 1; out_desc.pBuffers = &out; sec_status = InitializeSecurityContextW(first ? &pAuthInfo->cred : NULL, first ? NULL : &pAuthInfo->ctx, first ? request->server->name : NULL, context_req, 0, SECURITY_NETWORK_DREP, in.pvBuffer ? &in_desc : NULL, 0, &pAuthInfo->ctx, &out_desc, &pAuthInfo->attr, &pAuthInfo->exp); if (sec_status == SEC_E_OK) { pAuthInfo->finished = TRUE; pAuthInfo->auth_data = out.pvBuffer; pAuthInfo->auth_data_len = out.cbBuffer; TRACE("sending last auth packet\n"); } else if (sec_status == SEC_I_CONTINUE_NEEDED) { pAuthInfo->auth_data = out.pvBuffer; pAuthInfo->auth_data_len = out.cbBuffer; TRACE("sending next auth packet\n"); } else { ERR("InitializeSecurityContextW returned error 0x%08x\n", sec_status); heap_free(out.pvBuffer); destroy_authinfo(pAuthInfo); *ppAuthInfo = NULL; return FALSE; } } return TRUE; } /*********************************************************************** * HTTP_HttpAddRequestHeadersW (internal) */ static DWORD HTTP_HttpAddRequestHeadersW(http_request_t *request, LPCWSTR lpszHeader, DWORD dwHeaderLength, DWORD dwModifier) { LPWSTR lpszStart; LPWSTR lpszEnd; LPWSTR buffer; DWORD len, res = ERROR_HTTP_INVALID_HEADER; TRACE("copying header: %s\n", debugstr_wn(lpszHeader, dwHeaderLength)); if( dwHeaderLength == ~0U ) len = strlenW(lpszHeader); else len = dwHeaderLength; buffer = heap_alloc(sizeof(WCHAR)*(len+1)); lstrcpynW( buffer, lpszHeader, len + 1); lpszStart = buffer; do { LPWSTR * pFieldAndValue; lpszEnd = lpszStart; while (*lpszEnd != '\0') { if (*lpszEnd == '\r' || *lpszEnd == '\n') break; lpszEnd++; } if (*lpszStart == '\0') break; if (*lpszEnd == '\r' || *lpszEnd == '\n') { *lpszEnd = '\0'; lpszEnd++; /* Jump over newline */ } TRACE("interpreting header %s\n", debugstr_w(lpszStart)); if (*lpszStart == '\0') { /* Skip 0-length headers */ lpszStart = lpszEnd; res = ERROR_SUCCESS; continue; } pFieldAndValue = HTTP_InterpretHttpHeader(lpszStart); if (pFieldAndValue) { res = HTTP_ProcessHeader(request, pFieldAndValue[0], pFieldAndValue[1], dwModifier | HTTP_ADDHDR_FLAG_REQ); HTTP_FreeTokens(pFieldAndValue); } lpszStart = lpszEnd; } while (res == ERROR_SUCCESS); heap_free(buffer); return res; } /*********************************************************************** * HttpAddRequestHeadersW (WININET.@) * * Adds one or more HTTP header to the request handler * * NOTE * On Windows if dwHeaderLength includes the trailing '\0', then * HttpAddRequestHeadersW() adds it too. However this results in an * invalid HTTP header which is rejected by some servers so we probably * don't need to match Windows on that point. * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpAddRequestHeadersW(HINTERNET hHttpRequest, LPCWSTR lpszHeader, DWORD dwHeaderLength, DWORD dwModifier) { http_request_t *request; DWORD res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; TRACE("%p, %s, %i, %i\n", hHttpRequest, debugstr_wn(lpszHeader, dwHeaderLength), dwHeaderLength, dwModifier); if (!lpszHeader) return TRUE; request = (http_request_t*) get_handle_object( hHttpRequest ); if (request && request->hdr.htype == WH_HHTTPREQ) res = HTTP_HttpAddRequestHeadersW( request, lpszHeader, dwHeaderLength, dwModifier ); if( request ) WININET_Release( &request->hdr ); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * HttpAddRequestHeadersA (WININET.@) * * Adds one or more HTTP header to the request handler * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpAddRequestHeadersA(HINTERNET hHttpRequest, LPCSTR lpszHeader, DWORD dwHeaderLength, DWORD dwModifier) { WCHAR *headers = NULL; BOOL r; TRACE("%p, %s, %i, %i\n", hHttpRequest, debugstr_an(lpszHeader, dwHeaderLength), dwHeaderLength, dwModifier); if(lpszHeader) headers = heap_strndupAtoW(lpszHeader, dwHeaderLength, &dwHeaderLength); r = HttpAddRequestHeadersW(hHttpRequest, headers, dwHeaderLength, dwModifier); heap_free(headers); return r; } static void free_accept_types( WCHAR **accept_types ) { WCHAR *ptr, **types = accept_types; if (!types) return; while ((ptr = *types)) { heap_free( ptr ); types++; } heap_free( accept_types ); } static WCHAR **convert_accept_types( const char **accept_types ) { unsigned int count; const char **types = accept_types; WCHAR **typesW; BOOL invalid_pointer = FALSE; if (!types) return NULL; count = 0; while (*types) { __TRY { /* find out how many there are */ if (*types && **types) { TRACE("accept type: %s\n", debugstr_a(*types)); count++; } } __EXCEPT_PAGE_FAULT { WARN("invalid accept type pointer\n"); invalid_pointer = TRUE; } __ENDTRY; types++; } if (invalid_pointer) return NULL; if (!(typesW = heap_alloc( sizeof(WCHAR *) * (count + 1) ))) return NULL; count = 0; types = accept_types; while (*types) { if (*types && **types) typesW[count++] = heap_strdupAtoW( *types ); types++; } typesW[count] = NULL; return typesW; } /*********************************************************************** * HttpOpenRequestA (WININET.@) * * Open a HTTP request handle * * RETURNS * HINTERNET a HTTP request handle on success * NULL on failure * */ HINTERNET WINAPI HttpOpenRequestA(HINTERNET hHttpSession, LPCSTR lpszVerb, LPCSTR lpszObjectName, LPCSTR lpszVersion, LPCSTR lpszReferrer , LPCSTR *lpszAcceptTypes, DWORD dwFlags, DWORD_PTR dwContext) { LPWSTR szVerb = NULL, szObjectName = NULL; LPWSTR szVersion = NULL, szReferrer = NULL, *szAcceptTypes = NULL; HINTERNET rc = NULL; TRACE("(%p, %s, %s, %s, %s, %p, %08x, %08lx)\n", hHttpSession, debugstr_a(lpszVerb), debugstr_a(lpszObjectName), debugstr_a(lpszVersion), debugstr_a(lpszReferrer), lpszAcceptTypes, dwFlags, dwContext); if (lpszVerb) { szVerb = heap_strdupAtoW(lpszVerb); if ( !szVerb ) goto end; } if (lpszObjectName) { szObjectName = heap_strdupAtoW(lpszObjectName); if ( !szObjectName ) goto end; } if (lpszVersion) { szVersion = heap_strdupAtoW(lpszVersion); if ( !szVersion ) goto end; } if (lpszReferrer) { szReferrer = heap_strdupAtoW(lpszReferrer); if ( !szReferrer ) goto end; } szAcceptTypes = convert_accept_types( lpszAcceptTypes ); rc = HttpOpenRequestW(hHttpSession, szVerb, szObjectName, szVersion, szReferrer, (const WCHAR **)szAcceptTypes, dwFlags, dwContext); end: free_accept_types(szAcceptTypes); heap_free(szReferrer); heap_free(szVersion); heap_free(szObjectName); heap_free(szVerb); return rc; } /*********************************************************************** * HTTP_EncodeBase64 */ static UINT HTTP_EncodeBase64( LPCSTR bin, unsigned int len, LPWSTR base64 ) { UINT n = 0, x; static const CHAR HTTP_Base64Enc[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; while( len > 0 ) { /* first 6 bits, all from bin[0] */ base64[n++] = HTTP_Base64Enc[(bin[0] & 0xfc) >> 2]; x = (bin[0] & 3) << 4; /* next 6 bits, 2 from bin[0] and 4 from bin[1] */ if( len == 1 ) { base64[n++] = HTTP_Base64Enc[x]; base64[n++] = '='; base64[n++] = '='; break; } base64[n++] = HTTP_Base64Enc[ x | ( (bin[1]&0xf0) >> 4 ) ]; x = ( bin[1] & 0x0f ) << 2; /* next 6 bits 4 from bin[1] and 2 from bin[2] */ if( len == 2 ) { base64[n++] = HTTP_Base64Enc[x]; base64[n++] = '='; break; } base64[n++] = HTTP_Base64Enc[ x | ( (bin[2]&0xc0 ) >> 6 ) ]; /* last 6 bits, all from bin [2] */ base64[n++] = HTTP_Base64Enc[ bin[2] & 0x3f ]; bin += 3; len -= 3; } base64[n] = 0; return n; } static const signed char HTTP_Base64Dec[] = { -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 0x00 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 0x10 */ -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, 62, -1, -1, -1, 63, /* 0x20 */ 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, -1, -1, -1, -1, -1, -1, /* 0x30 */ -1, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, /* 0x40 */ 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, -1, -1, -1, -1, -1, /* 0x50 */ -1, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, /* 0x60 */ 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, -1, -1, -1, -1, -1 /* 0x70 */ }; /*********************************************************************** * HTTP_DecodeBase64 */ static UINT HTTP_DecodeBase64( LPCWSTR base64, LPSTR bin ) { unsigned int n = 0; while(*base64) { signed char in[4]; if (base64[0] >= ARRAYSIZE(HTTP_Base64Dec) || ((in[0] = HTTP_Base64Dec[base64[0]]) == -1) || base64[1] >= ARRAYSIZE(HTTP_Base64Dec) || ((in[1] = HTTP_Base64Dec[base64[1]]) == -1)) { WARN("invalid base64: %s\n", debugstr_w(base64)); return 0; } if (bin) bin[n] = (unsigned char) (in[0] << 2 | in[1] >> 4); n++; if ((base64[2] == '=') && (base64[3] == '=')) break; if (base64[2] > ARRAYSIZE(HTTP_Base64Dec) || ((in[2] = HTTP_Base64Dec[base64[2]]) == -1)) { WARN("invalid base64: %s\n", debugstr_w(&base64[2])); return 0; } if (bin) bin[n] = (unsigned char) (in[1] << 4 | in[2] >> 2); n++; if (base64[3] == '=') break; if (base64[3] > ARRAYSIZE(HTTP_Base64Dec) || ((in[3] = HTTP_Base64Dec[base64[3]]) == -1)) { WARN("invalid base64: %s\n", debugstr_w(&base64[3])); return 0; } if (bin) bin[n] = (unsigned char) (((in[2] << 6) & 0xc0) | in[3]); n++; base64 += 4; } return n; } static WCHAR *encode_auth_data( const WCHAR *scheme, const char *data, UINT data_len ) { WCHAR *ret; UINT len, scheme_len = strlenW( scheme ); /* scheme + space + base64 encoded data (3/2/1 bytes data -> 4 bytes of characters) */ len = scheme_len + 1 + ((data_len + 2) * 4) / 3; if (!(ret = heap_alloc( (len + 1) * sizeof(WCHAR) ))) return NULL; memcpy( ret, scheme, scheme_len * sizeof(WCHAR) ); ret[scheme_len] = ' '; HTTP_EncodeBase64( data, data_len, ret + scheme_len + 1 ); return ret; } /*********************************************************************** * HTTP_InsertAuthorization * * Insert or delete the authorization field in the request header. */ static BOOL HTTP_InsertAuthorization( http_request_t *request, struct HttpAuthInfo *pAuthInfo, LPCWSTR header ) { static const WCHAR wszBasic[] = {'B','a','s','i','c',0}; WCHAR *host, *authorization = NULL; if (pAuthInfo) { if (pAuthInfo->auth_data_len) { if (!(authorization = encode_auth_data(pAuthInfo->scheme, pAuthInfo->auth_data, pAuthInfo->auth_data_len))) return FALSE; /* clear the data as it isn't valid now that it has been sent to the * server, unless it's Basic authentication which doesn't do * connection tracking */ if (strcmpiW(pAuthInfo->scheme, wszBasic)) { heap_free(pAuthInfo->auth_data); pAuthInfo->auth_data = NULL; pAuthInfo->auth_data_len = 0; } } TRACE("Inserting authorization: %s\n", debugstr_w(authorization)); HTTP_ProcessHeader(request, header, authorization, HTTP_ADDHDR_FLAG_REQ | HTTP_ADDHDR_FLAG_REPLACE | HTTP_ADDREQ_FLAG_ADD); heap_free(authorization); } else if (!strcmpW(header, szAuthorization) && (host = get_host_header(request))) { UINT data_len; char *data; if ((data_len = retrieve_cached_basic_authorization(host, NULL, &data))) { TRACE("Found cached basic authorization for %s\n", debugstr_w(host)); if (!(authorization = encode_auth_data(wszBasic, data, data_len))) { heap_free(data); heap_free(host); return FALSE; } TRACE("Inserting authorization: %s\n", debugstr_w(authorization)); HTTP_ProcessHeader(request, header, authorization, HTTP_ADDHDR_FLAG_REQ | HTTP_ADDHDR_FLAG_REPLACE | HTTP_ADDHDR_FLAG_ADD); heap_free(data); heap_free(authorization); } heap_free(host); } return TRUE; } static WCHAR *build_proxy_path_url(http_request_t *req) { DWORD size, len; WCHAR *url; len = strlenW(req->server->scheme_host_port); size = len + strlenW(req->path) + 1; if(*req->path != '/') size++; url = heap_alloc(size * sizeof(WCHAR)); if(!url) return NULL; memcpy(url, req->server->scheme_host_port, len*sizeof(WCHAR)); if(*req->path != '/') url[len++] = '/'; strcpyW(url+len, req->path); TRACE("url=%s\n", debugstr_w(url)); return url; } static BOOL HTTP_DomainMatches(LPCWSTR server, substr_t domain) { static const WCHAR localW[] = { '<','l','o','c','a','l','>',0 }; const WCHAR *dot, *ptr; int len; if(domain.len == sizeof(localW)/sizeof(WCHAR)-1 && !strncmpiW(domain.str, localW, domain.len) && !strchrW(server, '.' )) return TRUE; if(domain.len && *domain.str != '*') return domain.len == strlenW(server) && !strncmpiW(server, domain.str, domain.len); if(domain.len < 2 || domain.str[1] != '.') return FALSE; /* For a hostname to match a wildcard, the last domain must match * the wildcard exactly. E.g. if the wildcard is *.a.b, and the * hostname is www.foo.a.b, it matches, but a.b does not. */ dot = strchrW(server, '.'); if(!dot) return FALSE; len = strlenW(dot + 1); if(len <= domain.len - 2) return FALSE; /* The server's domain is longer than the wildcard, so it * could be a subdomain. Compare the last portion of the * server's domain. */ ptr = dot + 1 + len - domain.len + 2; if(!strncmpiW(ptr, domain.str+2, domain.len-2)) /* This is only a match if the preceding character is * a '.', i.e. that it is a matching domain. E.g. * if domain is '*.b.c' and server is 'www.ab.c' they * do not match. */ return *(ptr - 1) == '.'; return len == domain.len-2 && !strncmpiW(dot + 1, domain.str + 2, len); } static BOOL HTTP_ShouldBypassProxy(appinfo_t *lpwai, LPCWSTR server) { LPCWSTR ptr; BOOL ret = FALSE; if (!lpwai->proxyBypass) return FALSE; ptr = lpwai->proxyBypass; while(1) { LPCWSTR tmp = ptr; ptr = strchrW( ptr, ';' ); if (!ptr) ptr = strchrW( tmp, ' ' ); if (!ptr) ptr = tmp + strlenW(ptr); ret = HTTP_DomainMatches( server, substr(tmp, ptr-tmp) ); if (ret || !*ptr) break; ptr++; } return ret; } /*********************************************************************** * HTTP_DealWithProxy */ static BOOL HTTP_DealWithProxy(appinfo_t *hIC, http_session_t *session, http_request_t *request) { static const WCHAR protoHttp[] = { 'h','t','t','p',0 }; static const WCHAR szHttp[] = { 'h','t','t','p',':','/','/',0 }; static const WCHAR szFormat[] = { 'h','t','t','p',':','/','/','%','s',0 }; WCHAR buf[INTERNET_MAX_HOST_NAME_LENGTH]; WCHAR protoProxy[INTERNET_MAX_URL_LENGTH]; DWORD protoProxyLen = INTERNET_MAX_URL_LENGTH; WCHAR proxy[INTERNET_MAX_URL_LENGTH]; static WCHAR szNul[] = { 0 }; URL_COMPONENTSW UrlComponents; server_t *new_server; BOOL is_https; memset( &UrlComponents, 0, sizeof UrlComponents ); UrlComponents.dwStructSize = sizeof UrlComponents; UrlComponents.lpszHostName = buf; UrlComponents.dwHostNameLength = INTERNET_MAX_HOST_NAME_LENGTH; if (!INTERNET_FindProxyForProtocol(hIC->proxy, protoHttp, protoProxy, &protoProxyLen)) return FALSE; if( CSTR_EQUAL != CompareStringW(LOCALE_SYSTEM_DEFAULT, NORM_IGNORECASE, protoProxy,strlenW(szHttp),szHttp,strlenW(szHttp)) ) sprintfW(proxy, szFormat, protoProxy); else strcpyW(proxy, protoProxy); if( !InternetCrackUrlW(proxy, 0, 0, &UrlComponents) ) return FALSE; if( UrlComponents.dwHostNameLength == 0 ) return FALSE; if( !request->path ) request->path = szNul; is_https = (UrlComponents.nScheme == INTERNET_SCHEME_HTTPS); if (is_https && UrlComponents.nPort == INTERNET_INVALID_PORT_NUMBER) UrlComponents.nPort = INTERNET_DEFAULT_HTTPS_PORT; new_server = get_server(UrlComponents.lpszHostName, UrlComponents.nPort, is_https, TRUE); if(!new_server) return FALSE; request->proxy = new_server; TRACE("proxy server=%s port=%d\n", debugstr_w(new_server->name), new_server->port); return TRUE; } static DWORD HTTP_ResolveName(http_request_t *request) { server_t *server = request->proxy ? request->proxy : request->server; int addr_len; if(server->addr_len) return ERROR_SUCCESS; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_RESOLVING_NAME, server->name, (strlenW(server->name)+1) * sizeof(WCHAR)); addr_len = sizeof(server->addr); if (!GetAddress(server->name, server->port, (SOCKADDR*)&server->addr, &addr_len, server->addr_str)) return ERROR_INTERNET_NAME_NOT_RESOLVED; server->addr_len = addr_len; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_NAME_RESOLVED, server->addr_str, strlen(server->addr_str)+1); TRACE("resolved %s to %s\n", debugstr_w(server->name), server->addr_str); return ERROR_SUCCESS; } static WCHAR *compose_request_url(http_request_t *req) { static const WCHAR http[] = { 'h','t','t','p',':','/','/',0 }; static const WCHAR https[] = { 'h','t','t','p','s',':','/','/',0 }; LPHTTPHEADERW host_header; const WCHAR *host, *scheme; WCHAR *buf, *ptr; size_t len; EnterCriticalSection( &req->headers_section ); host_header = HTTP_GetHeader(req, hostW); if (host_header) host = host_header->lpszValue; else host = req->server->canon_host_port; if (req->server->is_https) scheme = https; else scheme = http; len = strlenW(scheme) + strlenW(host) + (req->path[0] != '/' ? 1 : 0) + strlenW(req->path); ptr = buf = heap_alloc((len+1) * sizeof(WCHAR)); if(buf) { strcpyW(ptr, scheme); ptr += strlenW(ptr); strcpyW(ptr, host); ptr += strlenW(ptr); if(req->path[0] != '/') *ptr++ = '/'; strcpyW(ptr, req->path); ptr += strlenW(ptr); *ptr = 0; } LeaveCriticalSection( &req->headers_section ); return buf; } /*********************************************************************** * HTTPREQ_Destroy (internal) * * Deallocate request handle * */ static void HTTPREQ_Destroy(object_header_t *hdr) { http_request_t *request = (http_request_t*) hdr; DWORD i; TRACE("\n"); if(request->hCacheFile) CloseHandle(request->hCacheFile); if(request->req_file) req_file_release(request->req_file); request->headers_section.DebugInfo->Spare[0] = 0; DeleteCriticalSection( &request->headers_section ); request->read_section.DebugInfo->Spare[0] = 0; DeleteCriticalSection( &request->read_section ); WININET_Release(&request->session->hdr); destroy_authinfo(request->authInfo); destroy_authinfo(request->proxyAuthInfo); if(request->server) server_release(request->server); if(request->proxy) server_release(request->proxy); heap_free(request->path); heap_free(request->verb); heap_free(request->version); heap_free(request->statusText); for (i = 0; i < request->nCustHeaders; i++) { heap_free(request->custHeaders[i].lpszField); heap_free(request->custHeaders[i].lpszValue); } destroy_data_stream(request->data_stream); heap_free(request->custHeaders); } static void http_release_netconn(http_request_t *req, BOOL reuse) { TRACE("%p %p %x\n",req, req->netconn, reuse); if(!is_valid_netconn(req->netconn)) return; if(reuse && req->netconn->keep_alive) { BOOL run_collector; EnterCriticalSection(&connection_pool_cs); list_add_head(&req->netconn->server->conn_pool, &req->netconn->pool_entry); req->netconn->keep_until = GetTickCount64() + COLLECT_TIME; req->netconn = NULL; run_collector = !collector_running; collector_running = TRUE; LeaveCriticalSection(&connection_pool_cs); if(run_collector) { HANDLE thread = NULL; HMODULE module; GetModuleHandleExW(GET_MODULE_HANDLE_EX_FLAG_FROM_ADDRESS, (const WCHAR*)WININET_hModule, &module); if(module) thread = CreateThread(NULL, 0, collect_connections_proc, NULL, 0, NULL); if(!thread) { EnterCriticalSection(&connection_pool_cs); collector_running = FALSE; LeaveCriticalSection(&connection_pool_cs); if(module) FreeLibrary(module); } else CloseHandle(thread); } return; } INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_CLOSING_CONNECTION, 0, 0); close_netconn(req->netconn); INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_CONNECTION_CLOSED, 0, 0); } static BOOL HTTP_KeepAlive(http_request_t *request) { WCHAR szVersion[10]; WCHAR szConnectionResponse[20]; DWORD dwBufferSize = sizeof(szVersion); BOOL keepalive = FALSE; /* as per RFC 2068, S8.1.2.1, if the client is HTTP/1.1 then assume that * the connection is keep-alive by default */ if (HTTP_HttpQueryInfoW(request, HTTP_QUERY_VERSION, szVersion, &dwBufferSize, NULL) == ERROR_SUCCESS && !strcmpiW(szVersion, g_szHttp1_1)) { keepalive = TRUE; } dwBufferSize = sizeof(szConnectionResponse); if (HTTP_HttpQueryInfoW(request, HTTP_QUERY_PROXY_CONNECTION, szConnectionResponse, &dwBufferSize, NULL) == ERROR_SUCCESS || HTTP_HttpQueryInfoW(request, HTTP_QUERY_CONNECTION, szConnectionResponse, &dwBufferSize, NULL) == ERROR_SUCCESS) { keepalive = !strcmpiW(szConnectionResponse, szKeepAlive); } return keepalive; } static void HTTPREQ_CloseConnection(object_header_t *hdr) { http_request_t *req = (http_request_t*)hdr; http_release_netconn(req, drain_content(req, FALSE)); } static DWORD str_to_buffer(const WCHAR *str, void *buffer, DWORD *size, BOOL unicode) { int len; if (unicode) { WCHAR *buf = buffer; if (str) len = strlenW(str); else len = 0; if (*size < (len + 1) * sizeof(WCHAR)) { *size = (len + 1) * sizeof(WCHAR); return ERROR_INSUFFICIENT_BUFFER; } if (str) strcpyW(buf, str); else buf[0] = 0; *size = len; return ERROR_SUCCESS; } else { char *buf = buffer; if (str) len = WideCharToMultiByte(CP_ACP, 0, str, -1, NULL, 0, NULL, NULL); else len = 1; if (*size < len) { *size = len; return ERROR_INSUFFICIENT_BUFFER; } if (str) WideCharToMultiByte(CP_ACP, 0, str, -1, buf, *size, NULL, NULL); else buf[0] = 0; *size = len - 1; return ERROR_SUCCESS; } } static DWORD HTTPREQ_QueryOption(object_header_t *hdr, DWORD option, void *buffer, DWORD *size, BOOL unicode) { http_request_t *req = (http_request_t*)hdr; switch(option) { case INTERNET_OPTION_DIAGNOSTIC_SOCKET_INFO: { INTERNET_DIAGNOSTIC_SOCKET_INFO *info = buffer; FIXME("INTERNET_DIAGNOSTIC_SOCKET_INFO stub\n"); if (*size < sizeof(INTERNET_DIAGNOSTIC_SOCKET_INFO)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(INTERNET_DIAGNOSTIC_SOCKET_INFO); /* FIXME: can't get a SOCKET from our connection since we don't use * winsock */ info->Socket = 0; /* FIXME: get source port from req->netConnection */ info->SourcePort = 0; info->DestPort = req->server->port; info->Flags = 0; if (HTTP_KeepAlive(req)) info->Flags |= IDSI_FLAG_KEEP_ALIVE; if (req->proxy) info->Flags |= IDSI_FLAG_PROXY; if (is_valid_netconn(req->netconn) && req->netconn->secure) info->Flags |= IDSI_FLAG_SECURE; return ERROR_SUCCESS; } case 98: TRACE("Queried undocumented option 98, forwarding to INTERNET_OPTION_SECURITY_FLAGS\n"); /* fall through */ case INTERNET_OPTION_SECURITY_FLAGS: { DWORD flags; if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); flags = is_valid_netconn(req->netconn) ? req->netconn->security_flags : req->security_flags | req->server->security_flags; *(DWORD *)buffer = flags; TRACE("INTERNET_OPTION_SECURITY_FLAGS %x\n", flags); return ERROR_SUCCESS; } case INTERNET_OPTION_HANDLE_TYPE: TRACE("INTERNET_OPTION_HANDLE_TYPE\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD*)buffer = INTERNET_HANDLE_TYPE_HTTP_REQUEST; return ERROR_SUCCESS; case INTERNET_OPTION_URL: { static const WCHAR httpW[] = {'h','t','t','p',':','/','/',0}; WCHAR url[INTERNET_MAX_URL_LENGTH]; TRACE("INTERNET_OPTION_URL\n"); strcpyW(url, httpW); strcatW(url, req->server->canon_host_port); strcatW(url, req->path); TRACE("INTERNET_OPTION_URL: %s\n",debugstr_w(url)); return str_to_buffer(url, buffer, size, unicode); } case INTERNET_OPTION_USER_AGENT: return str_to_buffer(req->session->appInfo->agent, buffer, size, unicode); case INTERNET_OPTION_USERNAME: return str_to_buffer(req->session->userName, buffer, size, unicode); case INTERNET_OPTION_PASSWORD: return str_to_buffer(req->session->password, buffer, size, unicode); case INTERNET_OPTION_PROXY_USERNAME: return str_to_buffer(req->session->appInfo->proxyUsername, buffer, size, unicode); case INTERNET_OPTION_PROXY_PASSWORD: return str_to_buffer(req->session->appInfo->proxyPassword, buffer, size, unicode); case INTERNET_OPTION_CACHE_TIMESTAMPS: { INTERNET_CACHE_ENTRY_INFOW *info; INTERNET_CACHE_TIMESTAMPS *ts = buffer; DWORD nbytes, error; BOOL ret; TRACE("INTERNET_OPTION_CACHE_TIMESTAMPS\n"); if(!req->req_file) return ERROR_FILE_NOT_FOUND; if (*size < sizeof(*ts)) { *size = sizeof(*ts); return ERROR_INSUFFICIENT_BUFFER; } nbytes = 0; ret = GetUrlCacheEntryInfoW(req->req_file->url, NULL, &nbytes); error = GetLastError(); if (!ret && error == ERROR_INSUFFICIENT_BUFFER) { if (!(info = heap_alloc(nbytes))) return ERROR_OUTOFMEMORY; GetUrlCacheEntryInfoW(req->req_file->url, info, &nbytes); ts->ftExpires = info->ExpireTime; ts->ftLastModified = info->LastModifiedTime; heap_free(info); *size = sizeof(*ts); return ERROR_SUCCESS; } return error; } case INTERNET_OPTION_DATAFILE_NAME: { DWORD req_size; TRACE("INTERNET_OPTION_DATAFILE_NAME\n"); if(!req->req_file) { *size = 0; return ERROR_INTERNET_ITEM_NOT_FOUND; } if(unicode) { req_size = (lstrlenW(req->req_file->file_name)+1) * sizeof(WCHAR); if(*size < req_size) return ERROR_INSUFFICIENT_BUFFER; *size = req_size; memcpy(buffer, req->req_file->file_name, *size); return ERROR_SUCCESS; }else { req_size = WideCharToMultiByte(CP_ACP, 0, req->req_file->file_name, -1, NULL, 0, NULL, NULL); if (req_size > *size) return ERROR_INSUFFICIENT_BUFFER; *size = WideCharToMultiByte(CP_ACP, 0, req->req_file->file_name, -1, buffer, *size, NULL, NULL); return ERROR_SUCCESS; } } case INTERNET_OPTION_SECURITY_CERTIFICATE_STRUCT: { PCCERT_CONTEXT context; if(!req->netconn) return ERROR_INTERNET_INVALID_OPERATION; if(*size < sizeof(INTERNET_CERTIFICATE_INFOA)) { *size = sizeof(INTERNET_CERTIFICATE_INFOA); return ERROR_INSUFFICIENT_BUFFER; } context = (PCCERT_CONTEXT)NETCON_GetCert(req->netconn); if(context) { INTERNET_CERTIFICATE_INFOA *info = (INTERNET_CERTIFICATE_INFOA*)buffer; DWORD len; memset(info, 0, sizeof(*info)); info->ftExpiry = context->pCertInfo->NotAfter; info->ftStart = context->pCertInfo->NotBefore; len = CertNameToStrA(context->dwCertEncodingType, &context->pCertInfo->Subject, CERT_SIMPLE_NAME_STR|CERT_NAME_STR_CRLF_FLAG, NULL, 0); info->lpszSubjectInfo = LocalAlloc(0, len); if(info->lpszSubjectInfo) CertNameToStrA(context->dwCertEncodingType, &context->pCertInfo->Subject, CERT_SIMPLE_NAME_STR|CERT_NAME_STR_CRLF_FLAG, info->lpszSubjectInfo, len); len = CertNameToStrA(context->dwCertEncodingType, &context->pCertInfo->Issuer, CERT_SIMPLE_NAME_STR|CERT_NAME_STR_CRLF_FLAG, NULL, 0); info->lpszIssuerInfo = LocalAlloc(0, len); if(info->lpszIssuerInfo) CertNameToStrA(context->dwCertEncodingType, &context->pCertInfo->Issuer, CERT_SIMPLE_NAME_STR|CERT_NAME_STR_CRLF_FLAG, info->lpszIssuerInfo, len); info->dwKeySize = NETCON_GetCipherStrength(req->netconn); CertFreeCertificateContext(context); return ERROR_SUCCESS; } return ERROR_NOT_SUPPORTED; } case INTERNET_OPTION_CONNECT_TIMEOUT: if (*size < sizeof(DWORD)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD *)buffer = req->connect_timeout; return ERROR_SUCCESS; case INTERNET_OPTION_REQUEST_FLAGS: { DWORD flags = 0; if (*size < sizeof(DWORD)) return ERROR_INSUFFICIENT_BUFFER; /* FIXME: Add support for: * INTERNET_REQFLAG_FROM_CACHE * INTERNET_REQFLAG_CACHE_WRITE_DISABLED */ if(req->proxy) flags |= INTERNET_REQFLAG_VIA_PROXY; if(!req->status_code) flags |= INTERNET_REQFLAG_NO_HEADERS; TRACE("INTERNET_OPTION_REQUEST_FLAGS returning %x\n", flags); *size = sizeof(DWORD); *(DWORD*)buffer = flags; return ERROR_SUCCESS; } } return INET_QueryOption(hdr, option, buffer, size, unicode); } static DWORD HTTPREQ_SetOption(object_header_t *hdr, DWORD option, void *buffer, DWORD size) { http_request_t *req = (http_request_t*)hdr; switch(option) { case 99: /* Undocumented, seems to be INTERNET_OPTION_SECURITY_FLAGS with argument validation */ TRACE("Undocumented option 99\n"); if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; if(*(DWORD*)buffer & ~SECURITY_SET_MASK) return ERROR_INTERNET_OPTION_NOT_SETTABLE; /* fall through */ case INTERNET_OPTION_SECURITY_FLAGS: { DWORD flags; if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; flags = *(DWORD *)buffer; TRACE("INTERNET_OPTION_SECURITY_FLAGS %08x\n", flags); flags &= SECURITY_SET_MASK; req->security_flags |= flags; if(is_valid_netconn(req->netconn)) req->netconn->security_flags |= flags; return ERROR_SUCCESS; } case INTERNET_OPTION_CONNECT_TIMEOUT: if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; req->connect_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; case INTERNET_OPTION_SEND_TIMEOUT: if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; req->send_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; case INTERNET_OPTION_RECEIVE_TIMEOUT: if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; req->receive_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; case INTERNET_OPTION_USERNAME: heap_free(req->session->userName); if (!(req->session->userName = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; case INTERNET_OPTION_PASSWORD: heap_free(req->session->password); if (!(req->session->password = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; case INTERNET_OPTION_PROXY_USERNAME: heap_free(req->session->appInfo->proxyUsername); if (!(req->session->appInfo->proxyUsername = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; case INTERNET_OPTION_PROXY_PASSWORD: heap_free(req->session->appInfo->proxyPassword); if (!(req->session->appInfo->proxyPassword = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; case INTERNET_OPTION_HTTP_DECODING: if(size != sizeof(BOOL)) return ERROR_INVALID_PARAMETER; req->decoding = *(BOOL*)buffer; return ERROR_SUCCESS; } return INET_SetOption(hdr, option, buffer, size); } static void commit_cache_entry(http_request_t *req) { WCHAR *header; DWORD header_len; BOOL res; TRACE("%p\n", req); CloseHandle(req->hCacheFile); req->hCacheFile = NULL; header = build_response_header(req, TRUE); header_len = (header ? strlenW(header) : 0); res = CommitUrlCacheEntryW(req->req_file->url, req->req_file->file_name, req->expires, req->last_modified, NORMAL_CACHE_ENTRY, header, header_len, NULL, 0); if(res) req->req_file->is_committed = TRUE; else WARN("CommitUrlCacheEntry failed: %u\n", GetLastError()); heap_free(header); } static void create_cache_entry(http_request_t *req) { static const WCHAR no_cacheW[] = {'n','o','-','c','a','c','h','e',0}; static const WCHAR no_storeW[] = {'n','o','-','s','t','o','r','e',0}; WCHAR file_name[MAX_PATH+1]; WCHAR *url; BOOL b = TRUE; /* FIXME: We should free previous cache file earlier */ if(req->req_file) { req_file_release(req->req_file); req->req_file = NULL; } if(req->hCacheFile) { CloseHandle(req->hCacheFile); req->hCacheFile = NULL; } if(req->hdr.dwFlags & INTERNET_FLAG_NO_CACHE_WRITE) b = FALSE; if(b) { int header_idx; EnterCriticalSection( &req->headers_section ); header_idx = HTTP_GetCustomHeaderIndex(req, szCache_Control, 0, FALSE); if(header_idx != -1) { WCHAR *ptr; for(ptr=req->custHeaders[header_idx].lpszValue; *ptr; ) { WCHAR *end; while(*ptr==' ' || *ptr=='\t') ptr++; end = strchrW(ptr, ','); if(!end) end = ptr + strlenW(ptr); if(!strncmpiW(ptr, no_cacheW, sizeof(no_cacheW)/sizeof(*no_cacheW)-1) || !strncmpiW(ptr, no_storeW, sizeof(no_storeW)/sizeof(*no_storeW)-1)) { b = FALSE; break; } ptr = end; if(*ptr == ',') ptr++; } } LeaveCriticalSection( &req->headers_section ); } if(!b) { if(!(req->hdr.dwFlags & INTERNET_FLAG_NEED_FILE)) return; FIXME("INTERNET_FLAG_NEED_FILE is not supported correctly\n"); } url = compose_request_url(req); if(!url) { WARN("Could not get URL\n"); return; } b = CreateUrlCacheEntryW(url, req->contentLength == ~0u ? 0 : req->contentLength, NULL, file_name, 0); if(!b) { WARN("Could not create cache entry: %08x\n", GetLastError()); return; } create_req_file(file_name, &req->req_file); req->req_file->url = url; req->hCacheFile = CreateFileW(file_name, GENERIC_WRITE, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL); if(req->hCacheFile == INVALID_HANDLE_VALUE) { WARN("Could not create file: %u\n", GetLastError()); req->hCacheFile = NULL; return; } if(req->read_size) { DWORD written; b = WriteFile(req->hCacheFile, req->read_buf+req->read_pos, req->read_size, &written, NULL); if(!b) FIXME("WriteFile failed: %u\n", GetLastError()); if(req->data_stream->vtbl->end_of_data(req->data_stream, req)) commit_cache_entry(req); } } /* read some more data into the read buffer (the read section must be held) */ static DWORD read_more_data( http_request_t *req, int maxlen ) { DWORD res; int len; if (req->read_pos) { /* move existing data to the start of the buffer */ if(req->read_size) memmove( req->read_buf, req->read_buf + req->read_pos, req->read_size ); req->read_pos = 0; } if (maxlen == -1) maxlen = sizeof(req->read_buf); res = NETCON_recv( req->netconn, req->read_buf + req->read_size, maxlen - req->read_size, TRUE, &len ); if(res == ERROR_SUCCESS) req->read_size += len; return res; } /* remove some amount of data from the read buffer (the read section must be held) */ static void remove_data( http_request_t *req, int count ) { if (!(req->read_size -= count)) req->read_pos = 0; else req->read_pos += count; } static DWORD read_line( http_request_t *req, LPSTR buffer, DWORD *len ) { int count, bytes_read, pos = 0; DWORD res; EnterCriticalSection( &req->read_section ); for (;;) { BYTE *eol = memchr( req->read_buf + req->read_pos, '\n', req->read_size ); if (eol) { count = eol - (req->read_buf + req->read_pos); bytes_read = count + 1; } else count = bytes_read = req->read_size; count = min( count, *len - pos ); memcpy( buffer + pos, req->read_buf + req->read_pos, count ); pos += count; remove_data( req, bytes_read ); if (eol) break; if ((res = read_more_data( req, -1 ))) { WARN( "read failed %u\n", res ); LeaveCriticalSection( &req->read_section ); return res; } if (!req->read_size) { *len = 0; TRACE( "returning empty string\n" ); LeaveCriticalSection( &req->read_section ); return ERROR_SUCCESS; } } LeaveCriticalSection( &req->read_section ); if (pos < *len) { if (pos && buffer[pos - 1] == '\r') pos--; *len = pos + 1; } buffer[*len - 1] = 0; TRACE( "returning %s\n", debugstr_a(buffer)); return ERROR_SUCCESS; } /* check if we have reached the end of the data to read (the read section must be held) */ static BOOL end_of_read_data( http_request_t *req ) { return !req->read_size && req->data_stream->vtbl->end_of_data(req->data_stream, req); } static DWORD read_http_stream(http_request_t *req, BYTE *buf, DWORD size, DWORD *read, blocking_mode_t blocking_mode) { DWORD res; res = req->data_stream->vtbl->read(req->data_stream, req, buf, size, read, blocking_mode); assert(*read <= size); if(req->hCacheFile) { if(*read) { BOOL bres; DWORD written; bres = WriteFile(req->hCacheFile, buf, *read, &written, NULL); if(!bres) FIXME("WriteFile failed: %u\n", GetLastError()); } if(req->data_stream->vtbl->end_of_data(req->data_stream, req)) commit_cache_entry(req); } return res; } /* fetch some more data into the read buffer (the read section must be held) */ static DWORD refill_read_buffer(http_request_t *req, blocking_mode_t blocking_mode, DWORD *read_bytes) { DWORD res, read=0; if(req->read_size == sizeof(req->read_buf)) return ERROR_SUCCESS; if(req->read_pos) { if(req->read_size) memmove(req->read_buf, req->read_buf+req->read_pos, req->read_size); req->read_pos = 0; } res = read_http_stream(req, req->read_buf+req->read_size, sizeof(req->read_buf) - req->read_size, &read, blocking_mode); req->read_size += read; TRACE("read %u bytes, read_size %u\n", read, req->read_size); if(read_bytes) *read_bytes = read; return res; } /* return the size of data available to be read immediately (the read section must be held) */ static DWORD get_avail_data( http_request_t *req ) { return req->read_size + req->data_stream->vtbl->get_avail_data(req->data_stream, req); } static DWORD netconn_get_avail_data(data_stream_t *stream, http_request_t *req) { netconn_stream_t *netconn_stream = (netconn_stream_t*)stream; DWORD avail = 0; if(is_valid_netconn(req->netconn)) NETCON_query_data_available(req->netconn, &avail); return netconn_stream->content_length == ~0u ? avail : min(avail, netconn_stream->content_length-netconn_stream->content_read); } static BOOL netconn_end_of_data(data_stream_t *stream, http_request_t *req) { netconn_stream_t *netconn_stream = (netconn_stream_t*)stream; return netconn_stream->content_read == netconn_stream->content_length || !is_valid_netconn(req->netconn); } static DWORD netconn_read(data_stream_t *stream, http_request_t *req, BYTE *buf, DWORD size, DWORD *read, blocking_mode_t blocking_mode) { netconn_stream_t *netconn_stream = (netconn_stream_t*)stream; DWORD res = ERROR_SUCCESS; int len = 0, ret = 0; size = min(size, netconn_stream->content_length-netconn_stream->content_read); if(size && is_valid_netconn(req->netconn)) { while((res = NETCON_recv(req->netconn, buf+ret, size-ret, blocking_mode != BLOCKING_DISALLOW, &len)) == ERROR_SUCCESS) { if(!len) { netconn_stream->content_length = netconn_stream->content_read; break; } ret += len; netconn_stream->content_read += len; if(blocking_mode != BLOCKING_WAITALL || size == ret) break; } if(ret || (blocking_mode == BLOCKING_DISALLOW && res == WSAEWOULDBLOCK)) res = ERROR_SUCCESS; } TRACE("read %u bytes\n", ret); *read = ret; return res; } static BOOL netconn_drain_content(data_stream_t *stream, http_request_t *req) { netconn_stream_t *netconn_stream = (netconn_stream_t*)stream; BYTE buf[1024]; int len; if(netconn_end_of_data(stream, req)) return TRUE; do { if(NETCON_recv(req->netconn, buf, sizeof(buf), FALSE, &len) != ERROR_SUCCESS) return FALSE; netconn_stream->content_read += len; }while(netconn_stream->content_read < netconn_stream->content_length); return TRUE; } static void netconn_destroy(data_stream_t *stream) { } static const data_stream_vtbl_t netconn_stream_vtbl = { netconn_get_avail_data, netconn_end_of_data, netconn_read, netconn_drain_content, netconn_destroy }; /* read some more data into the read buffer (the read section must be held) */ static DWORD read_more_chunked_data(chunked_stream_t *stream, http_request_t *req, int maxlen) { DWORD res; int len; assert(!stream->end_of_data); if (stream->buf_pos) { /* move existing data to the start of the buffer */ if(stream->buf_size) memmove(stream->buf, stream->buf + stream->buf_pos, stream->buf_size); stream->buf_pos = 0; } if (maxlen == -1) maxlen = sizeof(stream->buf); res = NETCON_recv( req->netconn, stream->buf + stream->buf_size, maxlen - stream->buf_size, TRUE, &len ); if(res == ERROR_SUCCESS) stream->buf_size += len; return res; } /* remove some amount of data from the read buffer (the read section must be held) */ static void remove_chunked_data(chunked_stream_t *stream, int count) { if (!(stream->buf_size -= count)) stream->buf_pos = 0; else stream->buf_pos += count; } /* discard data contents until we reach end of line (the read section must be held) */ static DWORD discard_chunked_eol(chunked_stream_t *stream, http_request_t *req) { DWORD res; do { BYTE *eol = memchr(stream->buf + stream->buf_pos, '\n', stream->buf_size); if (eol) { remove_chunked_data(stream, (eol + 1) - (stream->buf + stream->buf_pos)); break; } stream->buf_pos = stream->buf_size = 0; /* discard everything */ if ((res = read_more_chunked_data(stream, req, -1)) != ERROR_SUCCESS) return res; } while (stream->buf_size); return ERROR_SUCCESS; } /* read the size of the next chunk (the read section must be held) */ static DWORD start_next_chunk(chunked_stream_t *stream, http_request_t *req) { DWORD chunk_size = 0, res; assert(!stream->chunk_size || stream->chunk_size == ~0u); if (stream->end_of_data) return ERROR_SUCCESS; /* read terminator for the previous chunk */ if(!stream->chunk_size && (res = discard_chunked_eol(stream, req)) != ERROR_SUCCESS) return res; for (;;) { while (stream->buf_size) { char ch = stream->buf[stream->buf_pos]; if (ch >= '0' && ch <= '9') chunk_size = chunk_size * 16 + ch - '0'; else if (ch >= 'a' && ch <= 'f') chunk_size = chunk_size * 16 + ch - 'a' + 10; else if (ch >= 'A' && ch <= 'F') chunk_size = chunk_size * 16 + ch - 'A' + 10; else if (ch == ';' || ch == '\r' || ch == '\n') { TRACE( "reading %u byte chunk\n", chunk_size ); stream->chunk_size = chunk_size; if (req->contentLength == ~0u) req->contentLength = chunk_size; else req->contentLength += chunk_size; /* eat the rest of this line */ if ((res = discard_chunked_eol(stream, req)) != ERROR_SUCCESS) return res; /* if there's chunk data, return now */ if (chunk_size) return ERROR_SUCCESS; /* otherwise, eat the terminator for this chunk */ if ((res = discard_chunked_eol(stream, req)) != ERROR_SUCCESS) return res; stream->end_of_data = TRUE; return ERROR_SUCCESS; } remove_chunked_data(stream, 1); } if ((res = read_more_chunked_data(stream, req, -1)) != ERROR_SUCCESS) return res; if (!stream->buf_size) { stream->chunk_size = 0; return ERROR_SUCCESS; } } } static DWORD chunked_get_avail_data(data_stream_t *stream, http_request_t *req) { /* Allow reading only from read buffer */ return 0; } static BOOL chunked_end_of_data(data_stream_t *stream, http_request_t *req) { chunked_stream_t *chunked_stream = (chunked_stream_t*)stream; return chunked_stream->end_of_data; } static DWORD chunked_read(data_stream_t *stream, http_request_t *req, BYTE *buf, DWORD size, DWORD *read, blocking_mode_t blocking_mode) { chunked_stream_t *chunked_stream = (chunked_stream_t*)stream; DWORD read_bytes = 0, ret_read = 0, res = ERROR_SUCCESS; if(!chunked_stream->chunk_size || chunked_stream->chunk_size == ~0u) { res = start_next_chunk(chunked_stream, req); if(res != ERROR_SUCCESS) return res; } while(size && chunked_stream->chunk_size && !chunked_stream->end_of_data) { if(chunked_stream->buf_size) { read_bytes = min(size, min(chunked_stream->buf_size, chunked_stream->chunk_size)); /* this could block */ if(blocking_mode == BLOCKING_DISALLOW && read_bytes == chunked_stream->chunk_size) break; memcpy(buf+ret_read, chunked_stream->buf+chunked_stream->buf_pos, read_bytes); remove_chunked_data(chunked_stream, read_bytes); }else { read_bytes = min(size, chunked_stream->chunk_size); if(blocking_mode == BLOCKING_DISALLOW) { DWORD avail; if(!is_valid_netconn(req->netconn) || !NETCON_query_data_available(req->netconn, &avail) || !avail) break; if(read_bytes > avail) read_bytes = avail; /* this could block */ if(read_bytes == chunked_stream->chunk_size) break; } res = NETCON_recv(req->netconn, (char *)buf+ret_read, read_bytes, TRUE, (int*)&read_bytes); if(res != ERROR_SUCCESS) break; } chunked_stream->chunk_size -= read_bytes; size -= read_bytes; ret_read += read_bytes; if(size && !chunked_stream->chunk_size) { assert(blocking_mode != BLOCKING_DISALLOW); res = start_next_chunk(chunked_stream, req); if(res != ERROR_SUCCESS) break; } if(blocking_mode == BLOCKING_ALLOW) blocking_mode = BLOCKING_DISALLOW; } TRACE("read %u bytes\n", ret_read); *read = ret_read; return res; } static BOOL chunked_drain_content(data_stream_t *stream, http_request_t *req) { chunked_stream_t *chunked_stream = (chunked_stream_t*)stream; remove_chunked_data(chunked_stream, chunked_stream->buf_size); return chunked_stream->end_of_data; } static void chunked_destroy(data_stream_t *stream) { chunked_stream_t *chunked_stream = (chunked_stream_t*)stream; heap_free(chunked_stream); } static const data_stream_vtbl_t chunked_stream_vtbl = { chunked_get_avail_data, chunked_end_of_data, chunked_read, chunked_drain_content, chunked_destroy }; /* set the request content length based on the headers */ static DWORD set_content_length(http_request_t *request) { static const WCHAR szChunked[] = {'c','h','u','n','k','e','d',0}; static const WCHAR headW[] = {'H','E','A','D',0}; WCHAR encoding[20]; DWORD size; if(request->status_code == HTTP_STATUS_NO_CONTENT || !strcmpW(request->verb, headW)) { request->contentLength = request->netconn_stream.content_length = 0; return ERROR_SUCCESS; } size = sizeof(request->contentLength); if (HTTP_HttpQueryInfoW(request, HTTP_QUERY_FLAG_NUMBER|HTTP_QUERY_CONTENT_LENGTH, &request->contentLength, &size, NULL) != ERROR_SUCCESS) request->contentLength = ~0u; request->netconn_stream.content_length = request->contentLength; request->netconn_stream.content_read = request->read_size; size = sizeof(encoding); if (HTTP_HttpQueryInfoW(request, HTTP_QUERY_TRANSFER_ENCODING, encoding, &size, NULL) == ERROR_SUCCESS && !strcmpiW(encoding, szChunked)) { chunked_stream_t *chunked_stream; chunked_stream = heap_alloc(sizeof(*chunked_stream)); if(!chunked_stream) return ERROR_OUTOFMEMORY; chunked_stream->data_stream.vtbl = &chunked_stream_vtbl; chunked_stream->buf_size = chunked_stream->buf_pos = 0; chunked_stream->chunk_size = ~0u; chunked_stream->end_of_data = FALSE; if(request->read_size) { memcpy(chunked_stream->buf, request->read_buf+request->read_pos, request->read_size); chunked_stream->buf_size = request->read_size; request->read_size = request->read_pos = 0; } request->data_stream = &chunked_stream->data_stream; request->contentLength = ~0u; } if(request->decoding) { int encoding_idx; static const WCHAR deflateW[] = {'d','e','f','l','a','t','e',0}; static const WCHAR gzipW[] = {'g','z','i','p',0}; EnterCriticalSection( &request->headers_section ); encoding_idx = HTTP_GetCustomHeaderIndex(request, szContent_Encoding, 0, FALSE); if(encoding_idx != -1) { if(!strcmpiW(request->custHeaders[encoding_idx].lpszValue, gzipW)) { HTTP_DeleteCustomHeader(request, encoding_idx); LeaveCriticalSection( &request->headers_section ); return init_gzip_stream(request, TRUE); } if(!strcmpiW(request->custHeaders[encoding_idx].lpszValue, deflateW)) { HTTP_DeleteCustomHeader(request, encoding_idx); LeaveCriticalSection( &request->headers_section ); return init_gzip_stream(request, FALSE); } } LeaveCriticalSection( &request->headers_section ); } return ERROR_SUCCESS; } static void send_request_complete(http_request_t *req, DWORD_PTR result, DWORD error) { INTERNET_ASYNC_RESULT iar; iar.dwResult = result; iar.dwError = error; INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_REQUEST_COMPLETE, &iar, sizeof(INTERNET_ASYNC_RESULT)); } static void HTTP_ReceiveRequestData(http_request_t *req, BOOL first_notif, DWORD *ret_size) { DWORD res, read = 0, avail = 0; blocking_mode_t mode; TRACE("%p\n", req); EnterCriticalSection( &req->read_section ); mode = first_notif && req->read_size ? BLOCKING_DISALLOW : BLOCKING_ALLOW; res = refill_read_buffer(req, mode, &read); if(res == ERROR_SUCCESS) avail = get_avail_data(req); LeaveCriticalSection( &req->read_section ); if(res != ERROR_SUCCESS || (mode != BLOCKING_DISALLOW && !read)) { WARN("res %u read %u, closing connection\n", res, read); http_release_netconn(req, FALSE); } if(res != ERROR_SUCCESS) { send_request_complete(req, 0, res); return; } if(ret_size) *ret_size = avail; if(first_notif) avail = 0; send_request_complete(req, req->session->hdr.dwInternalFlags & INET_OPENURL ? (DWORD_PTR)req->hdr.hInternet : 1, avail); } /* read data from the http connection (the read section must be held) */ static DWORD HTTPREQ_Read(http_request_t *req, void *buffer, DWORD size, DWORD *read) { DWORD current_read = 0, ret_read = 0; blocking_mode_t blocking_mode; DWORD res = ERROR_SUCCESS; blocking_mode = req->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC ? BLOCKING_ALLOW : BLOCKING_WAITALL; EnterCriticalSection( &req->read_section ); if(req->read_size) { ret_read = min(size, req->read_size); memcpy(buffer, req->read_buf+req->read_pos, ret_read); req->read_size -= ret_read; req->read_pos += ret_read; if(blocking_mode == BLOCKING_ALLOW) blocking_mode = BLOCKING_DISALLOW; } if(ret_read < size) { res = read_http_stream(req, (BYTE*)buffer+ret_read, size-ret_read, ¤t_read, blocking_mode); ret_read += current_read; } LeaveCriticalSection( &req->read_section ); *read = ret_read; TRACE( "retrieved %u bytes (%u)\n", ret_read, req->contentLength ); if(size && !ret_read) http_release_netconn(req, res == ERROR_SUCCESS); return res; } static BOOL drain_content(http_request_t *req, BOOL blocking) { BOOL ret; if(!is_valid_netconn(req->netconn) || req->contentLength == -1) return FALSE; if(!strcmpW(req->verb, szHEAD)) return TRUE; if(!blocking) return req->data_stream->vtbl->drain_content(req->data_stream, req); EnterCriticalSection( &req->read_section ); while(1) { DWORD bytes_read, res; BYTE buf[4096]; res = HTTPREQ_Read(req, buf, sizeof(buf), &bytes_read); if(res != ERROR_SUCCESS) { ret = FALSE; break; } if(!bytes_read) { ret = TRUE; break; } } LeaveCriticalSection( &req->read_section ); return ret; } typedef struct { task_header_t hdr; void *buf; DWORD size; DWORD *ret_read; } read_file_ex_task_t; static void AsyncReadFileExProc(task_header_t *hdr) { read_file_ex_task_t *task = (read_file_ex_task_t*)hdr; http_request_t *req = (http_request_t*)task->hdr.hdr; DWORD res = ERROR_SUCCESS, read = 0, buffered = 0; TRACE("%p\n", req); if(task->ret_read) res = HTTPREQ_Read(req, task->buf, task->size, &read); if(res == ERROR_SUCCESS) res = refill_read_buffer(req, task->ret_read ? BLOCKING_DISALLOW : BLOCKING_ALLOW, &buffered); if (res == ERROR_SUCCESS) { if(task->ret_read) *task->ret_read = read; read += buffered; INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_RESPONSE_RECEIVED, &read, sizeof(read)); } send_request_complete(req, res == ERROR_SUCCESS, res); } static DWORD HTTPREQ_ReadFileEx(object_header_t *hdr, void *buf, DWORD size, DWORD *ret_read, DWORD flags, DWORD_PTR context) { http_request_t *req = (http_request_t*)hdr; DWORD res, read, cread, error = ERROR_SUCCESS; TRACE("(%p %p %u %x)\n", req, buf, size, flags); if (flags & ~(IRF_ASYNC|IRF_NO_WAIT)) FIXME("these dwFlags aren't implemented: 0x%x\n", flags & ~(IRF_ASYNC|IRF_NO_WAIT)); INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_RECEIVING_RESPONSE, NULL, 0); if (req->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC) { read_file_ex_task_t *task; if (TryEnterCriticalSection( &req->read_section )) { if (get_avail_data(req) || end_of_read_data(req)) { res = HTTPREQ_Read(req, buf, size, &read); LeaveCriticalSection( &req->read_section ); goto done; } LeaveCriticalSection( &req->read_section ); } task = alloc_async_task(&req->hdr, AsyncReadFileExProc, sizeof(*task)); task->buf = buf; task->size = size; task->ret_read = (flags & IRF_NO_WAIT) ? NULL : ret_read; INTERNET_AsyncCall(&task->hdr); return ERROR_IO_PENDING; } read = 0; EnterCriticalSection( &req->read_section ); if(hdr->dwError == ERROR_SUCCESS) hdr->dwError = INTERNET_HANDLE_IN_USE; else if(hdr->dwError == INTERNET_HANDLE_IN_USE) hdr->dwError = ERROR_INTERNET_INTERNAL_ERROR; while(1) { res = HTTPREQ_Read(req, (char*)buf+read, size-read, &cread); if(res != ERROR_SUCCESS) break; read += cread; if(read == size || end_of_read_data(req)) break; LeaveCriticalSection( &req->read_section ); INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_RESPONSE_RECEIVED, &cread, sizeof(cread)); INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_RECEIVING_RESPONSE, NULL, 0); EnterCriticalSection( &req->read_section ); } if(hdr->dwError == INTERNET_HANDLE_IN_USE) hdr->dwError = ERROR_SUCCESS; else error = hdr->dwError; LeaveCriticalSection( &req->read_section ); done: *ret_read = read; if (res == ERROR_SUCCESS) { INTERNET_SendCallback(&req->hdr, req->hdr.dwContext, INTERNET_STATUS_RESPONSE_RECEIVED, &read, sizeof(read)); } return res==ERROR_SUCCESS ? error : res; } static DWORD HTTPREQ_WriteFile(object_header_t *hdr, const void *buffer, DWORD size, DWORD *written) { DWORD res; http_request_t *request = (http_request_t*)hdr; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_SENDING_REQUEST, NULL, 0); *written = 0; res = NETCON_send(request->netconn, buffer, size, 0, (LPINT)written); if (res == ERROR_SUCCESS) request->bytesWritten += *written; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_REQUEST_SENT, written, sizeof(DWORD)); return res; } static DWORD HTTPREQ_ReadFile(object_header_t *hdr, void *buffer, DWORD size, DWORD *read) { http_request_t *req = (http_request_t*)hdr; DWORD res; if (req->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC) { read_file_ex_task_t *task; if (TryEnterCriticalSection( &req->read_section )) { if (get_avail_data(req) || end_of_read_data(req)) { res = HTTPREQ_Read(req, buffer, size, read); LeaveCriticalSection( &req->read_section ); return res; } LeaveCriticalSection( &req->read_section ); } task = alloc_async_task(&req->hdr, AsyncReadFileExProc, sizeof(*task)); task->buf = buffer; task->size = size; task->ret_read = read; *read = 0; INTERNET_AsyncCall(&task->hdr); return ERROR_IO_PENDING; } EnterCriticalSection( &req->read_section ); if(hdr->dwError == INTERNET_HANDLE_IN_USE) hdr->dwError = ERROR_INTERNET_INTERNAL_ERROR; res = HTTPREQ_Read(req, buffer, size, read); if(res == ERROR_SUCCESS) res = hdr->dwError; LeaveCriticalSection( &req->read_section ); return res; } typedef struct { task_header_t hdr; DWORD *ret_size; } http_data_available_task_t; static void AsyncQueryDataAvailableProc(task_header_t *hdr) { http_data_available_task_t *task = (http_data_available_task_t*)hdr; HTTP_ReceiveRequestData((http_request_t*)task->hdr.hdr, FALSE, task->ret_size); } static DWORD HTTPREQ_QueryDataAvailable(object_header_t *hdr, DWORD *available, DWORD flags, DWORD_PTR ctx) { http_request_t *req = (http_request_t*)hdr; TRACE("(%p %p %x %lx)\n", req, available, flags, ctx); if (req->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC) { http_data_available_task_t *task; /* never wait, if we can't enter the section we queue an async request right away */ if (TryEnterCriticalSection( &req->read_section )) { refill_read_buffer(req, BLOCKING_DISALLOW, NULL); if ((*available = get_avail_data( req ))) goto done; if (end_of_read_data( req )) goto done; LeaveCriticalSection( &req->read_section ); } task = alloc_async_task(&req->hdr, AsyncQueryDataAvailableProc, sizeof(*task)); task->ret_size = available; INTERNET_AsyncCall(&task->hdr); return ERROR_IO_PENDING; } EnterCriticalSection( &req->read_section ); if (!(*available = get_avail_data( req )) && !end_of_read_data( req )) { refill_read_buffer( req, BLOCKING_ALLOW, NULL ); *available = get_avail_data( req ); } done: LeaveCriticalSection( &req->read_section ); TRACE( "returning %u\n", *available ); return ERROR_SUCCESS; } static DWORD HTTPREQ_LockRequestFile(object_header_t *hdr, req_file_t **ret) { http_request_t *req = (http_request_t*)hdr; TRACE("(%p)\n", req); if(!req->req_file) { WARN("No cache file name available\n"); return ERROR_FILE_NOT_FOUND; } *ret = req_file_addref(req->req_file); return ERROR_SUCCESS; } static const object_vtbl_t HTTPREQVtbl = { HTTPREQ_Destroy, HTTPREQ_CloseConnection, HTTPREQ_QueryOption, HTTPREQ_SetOption, HTTPREQ_ReadFile, HTTPREQ_ReadFileEx, HTTPREQ_WriteFile, HTTPREQ_QueryDataAvailable, NULL, HTTPREQ_LockRequestFile }; /*********************************************************************** * HTTP_HttpOpenRequestW (internal) * * Open a HTTP request handle * * RETURNS * HINTERNET a HTTP request handle on success * NULL on failure * */ static DWORD HTTP_HttpOpenRequestW(http_session_t *session, LPCWSTR lpszVerb, LPCWSTR lpszObjectName, LPCWSTR lpszVersion, LPCWSTR lpszReferrer , LPCWSTR *lpszAcceptTypes, DWORD dwFlags, DWORD_PTR dwContext, HINTERNET *ret) { appinfo_t *hIC = session->appInfo; http_request_t *request; DWORD len; TRACE("-->\n"); request = alloc_object(&session->hdr, &HTTPREQVtbl, sizeof(http_request_t)); if(!request) return ERROR_OUTOFMEMORY; request->hdr.htype = WH_HHTTPREQ; request->hdr.dwFlags = dwFlags; request->hdr.dwContext = dwContext; request->contentLength = ~0u; request->netconn_stream.data_stream.vtbl = &netconn_stream_vtbl; request->data_stream = &request->netconn_stream.data_stream; request->connect_timeout = session->connect_timeout; request->send_timeout = session->send_timeout; request->receive_timeout = session->receive_timeout; InitializeCriticalSection( &request->headers_section ); request->headers_section.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": http_request_t.headers_section"); InitializeCriticalSection( &request->read_section ); request->read_section.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": http_request_t.read_section"); WININET_AddRef( &session->hdr ); request->session = session; list_add_head( &session->hdr.children, &request->hdr.entry ); request->server = get_server(session->hostName, session->hostPort, (dwFlags & INTERNET_FLAG_SECURE) != 0, TRUE); if(!request->server) { WININET_Release(&request->hdr); return ERROR_OUTOFMEMORY; } if (dwFlags & INTERNET_FLAG_IGNORE_CERT_CN_INVALID) request->security_flags |= SECURITY_FLAG_IGNORE_CERT_CN_INVALID; if (dwFlags & INTERNET_FLAG_IGNORE_CERT_DATE_INVALID) request->security_flags |= SECURITY_FLAG_IGNORE_CERT_DATE_INVALID; if (lpszObjectName && *lpszObjectName) { HRESULT rc; len = 0; rc = UrlEscapeW(lpszObjectName, NULL, &len, URL_ESCAPE_SPACES_ONLY); if (rc != E_POINTER) len = strlenW(lpszObjectName)+1; request->path = heap_alloc(len*sizeof(WCHAR)); rc = UrlEscapeW(lpszObjectName, request->path, &len, URL_ESCAPE_SPACES_ONLY); if (rc != S_OK) { ERR("Unable to escape string!(%s) (%d)\n",debugstr_w(lpszObjectName),rc); strcpyW(request->path,lpszObjectName); } }else { static const WCHAR slashW[] = {'/',0}; request->path = heap_strdupW(slashW); } if (lpszReferrer && *lpszReferrer) HTTP_ProcessHeader(request, HTTP_REFERER, lpszReferrer, HTTP_ADDREQ_FLAG_ADD | HTTP_ADDHDR_FLAG_REQ); if (lpszAcceptTypes) { int i; for (i = 0; lpszAcceptTypes[i]; i++) { if (!*lpszAcceptTypes[i]) continue; HTTP_ProcessHeader(request, HTTP_ACCEPT, lpszAcceptTypes[i], HTTP_ADDHDR_FLAG_COALESCE_WITH_COMMA | HTTP_ADDHDR_FLAG_REQ | (i == 0 ? (HTTP_ADDHDR_FLAG_REPLACE | HTTP_ADDHDR_FLAG_ADD) : 0)); } } request->verb = heap_strdupW(lpszVerb && *lpszVerb ? lpszVerb : szGET); request->version = heap_strdupW(lpszVersion && *lpszVersion ? lpszVersion : g_szHttp1_1); if (hIC->proxy && hIC->proxy[0] && !HTTP_ShouldBypassProxy(hIC, session->hostName)) HTTP_DealWithProxy( hIC, session, request ); INTERNET_SendCallback(&session->hdr, dwContext, INTERNET_STATUS_HANDLE_CREATED, &request->hdr.hInternet, sizeof(HINTERNET)); TRACE("<-- (%p)\n", request); *ret = request->hdr.hInternet; return ERROR_SUCCESS; } /*********************************************************************** * HttpOpenRequestW (WININET.@) * * Open a HTTP request handle * * RETURNS * HINTERNET a HTTP request handle on success * NULL on failure * */ HINTERNET WINAPI HttpOpenRequestW(HINTERNET hHttpSession, LPCWSTR lpszVerb, LPCWSTR lpszObjectName, LPCWSTR lpszVersion, LPCWSTR lpszReferrer , LPCWSTR *lpszAcceptTypes, DWORD dwFlags, DWORD_PTR dwContext) { http_session_t *session; HINTERNET handle = NULL; DWORD res; TRACE("(%p, %s, %s, %s, %s, %p, %08x, %08lx)\n", hHttpSession, debugstr_w(lpszVerb), debugstr_w(lpszObjectName), debugstr_w(lpszVersion), debugstr_w(lpszReferrer), lpszAcceptTypes, dwFlags, dwContext); if(lpszAcceptTypes!=NULL) { int i; for(i=0;lpszAcceptTypes[i]!=NULL;i++) TRACE("\taccept type: %s\n",debugstr_w(lpszAcceptTypes[i])); } session = (http_session_t*) get_handle_object( hHttpSession ); if (NULL == session || session->hdr.htype != WH_HHTTPSESSION) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } /* * My tests seem to show that the windows version does not * become asynchronous until after this point. And anyhow * if this call was asynchronous then how would you get the * necessary HINTERNET pointer returned by this function. * */ res = HTTP_HttpOpenRequestW(session, lpszVerb, lpszObjectName, lpszVersion, lpszReferrer, lpszAcceptTypes, dwFlags, dwContext, &handle); lend: if( session ) WININET_Release( &session->hdr ); TRACE("returning %p\n", handle); if(res != ERROR_SUCCESS) SetLastError(res); return handle; } static const LPCWSTR header_lookup[] = { szMime_Version, /* HTTP_QUERY_MIME_VERSION = 0 */ szContent_Type, /* HTTP_QUERY_CONTENT_TYPE = 1 */ szContent_Transfer_Encoding,/* HTTP_QUERY_CONTENT_TRANSFER_ENCODING = 2 */ szContent_ID, /* HTTP_QUERY_CONTENT_ID = 3 */ NULL, /* HTTP_QUERY_CONTENT_DESCRIPTION = 4 */ szContent_Length, /* HTTP_QUERY_CONTENT_LENGTH = 5 */ szContent_Language, /* HTTP_QUERY_CONTENT_LANGUAGE = 6 */ szAllow, /* HTTP_QUERY_ALLOW = 7 */ szPublic, /* HTTP_QUERY_PUBLIC = 8 */ szDate, /* HTTP_QUERY_DATE = 9 */ szExpires, /* HTTP_QUERY_EXPIRES = 10 */ szLast_Modified, /* HTTP_QUERY_LAST_MODIFIED = 11 */ NULL, /* HTTP_QUERY_MESSAGE_ID = 12 */ szURI, /* HTTP_QUERY_URI = 13 */ szFrom, /* HTTP_QUERY_DERIVED_FROM = 14 */ NULL, /* HTTP_QUERY_COST = 15 */ NULL, /* HTTP_QUERY_LINK = 16 */ szPragma, /* HTTP_QUERY_PRAGMA = 17 */ NULL, /* HTTP_QUERY_VERSION = 18 */ szStatus, /* HTTP_QUERY_STATUS_CODE = 19 */ NULL, /* HTTP_QUERY_STATUS_TEXT = 20 */ NULL, /* HTTP_QUERY_RAW_HEADERS = 21 */ NULL, /* HTTP_QUERY_RAW_HEADERS_CRLF = 22 */ szConnection, /* HTTP_QUERY_CONNECTION = 23 */ szAccept, /* HTTP_QUERY_ACCEPT = 24 */ szAccept_Charset, /* HTTP_QUERY_ACCEPT_CHARSET = 25 */ szAccept_Encoding, /* HTTP_QUERY_ACCEPT_ENCODING = 26 */ szAccept_Language, /* HTTP_QUERY_ACCEPT_LANGUAGE = 27 */ szAuthorization, /* HTTP_QUERY_AUTHORIZATION = 28 */ szContent_Encoding, /* HTTP_QUERY_CONTENT_ENCODING = 29 */ NULL, /* HTTP_QUERY_FORWARDED = 30 */ NULL, /* HTTP_QUERY_FROM = 31 */ szIf_Modified_Since, /* HTTP_QUERY_IF_MODIFIED_SINCE = 32 */ szLocation, /* HTTP_QUERY_LOCATION = 33 */ NULL, /* HTTP_QUERY_ORIG_URI = 34 */ szReferer, /* HTTP_QUERY_REFERER = 35 */ szRetry_After, /* HTTP_QUERY_RETRY_AFTER = 36 */ szServer, /* HTTP_QUERY_SERVER = 37 */ NULL, /* HTTP_TITLE = 38 */ szUser_Agent, /* HTTP_QUERY_USER_AGENT = 39 */ szWWW_Authenticate, /* HTTP_QUERY_WWW_AUTHENTICATE = 40 */ szProxy_Authenticate, /* HTTP_QUERY_PROXY_AUTHENTICATE = 41 */ szAccept_Ranges, /* HTTP_QUERY_ACCEPT_RANGES = 42 */ szSet_Cookie, /* HTTP_QUERY_SET_COOKIE = 43 */ szCookie, /* HTTP_QUERY_COOKIE = 44 */ NULL, /* HTTP_QUERY_REQUEST_METHOD = 45 */ NULL, /* HTTP_QUERY_REFRESH = 46 */ szContent_Disposition, /* HTTP_QUERY_CONTENT_DISPOSITION = 47 */ szAge, /* HTTP_QUERY_AGE = 48 */ szCache_Control, /* HTTP_QUERY_CACHE_CONTROL = 49 */ szContent_Base, /* HTTP_QUERY_CONTENT_BASE = 50 */ szContent_Location, /* HTTP_QUERY_CONTENT_LOCATION = 51 */ szContent_MD5, /* HTTP_QUERY_CONTENT_MD5 = 52 */ szContent_Range, /* HTTP_QUERY_CONTENT_RANGE = 53 */ szETag, /* HTTP_QUERY_ETAG = 54 */ hostW, /* HTTP_QUERY_HOST = 55 */ szIf_Match, /* HTTP_QUERY_IF_MATCH = 56 */ szIf_None_Match, /* HTTP_QUERY_IF_NONE_MATCH = 57 */ szIf_Range, /* HTTP_QUERY_IF_RANGE = 58 */ szIf_Unmodified_Since, /* HTTP_QUERY_IF_UNMODIFIED_SINCE = 59 */ szMax_Forwards, /* HTTP_QUERY_MAX_FORWARDS = 60 */ szProxy_Authorization, /* HTTP_QUERY_PROXY_AUTHORIZATION = 61 */ szRange, /* HTTP_QUERY_RANGE = 62 */ szTransfer_Encoding, /* HTTP_QUERY_TRANSFER_ENCODING = 63 */ szUpgrade, /* HTTP_QUERY_UPGRADE = 64 */ szVary, /* HTTP_QUERY_VARY = 65 */ szVia, /* HTTP_QUERY_VIA = 66 */ szWarning, /* HTTP_QUERY_WARNING = 67 */ szExpect, /* HTTP_QUERY_EXPECT = 68 */ szProxy_Connection, /* HTTP_QUERY_PROXY_CONNECTION = 69 */ szUnless_Modified_Since, /* HTTP_QUERY_UNLESS_MODIFIED_SINCE = 70 */ }; #define LAST_TABLE_HEADER (sizeof(header_lookup)/sizeof(header_lookup[0])) /*********************************************************************** * HTTP_HttpQueryInfoW (internal) */ static DWORD HTTP_HttpQueryInfoW(http_request_t *request, DWORD dwInfoLevel, LPVOID lpBuffer, LPDWORD lpdwBufferLength, LPDWORD lpdwIndex) { LPHTTPHEADERW lphttpHdr = NULL; BOOL request_only = !!(dwInfoLevel & HTTP_QUERY_FLAG_REQUEST_HEADERS); INT requested_index = lpdwIndex ? *lpdwIndex : 0; DWORD level = (dwInfoLevel & ~HTTP_QUERY_MODIFIER_FLAGS_MASK); INT index = -1; EnterCriticalSection( &request->headers_section ); /* Find requested header structure */ switch (level) { case HTTP_QUERY_CUSTOM: if (!lpBuffer) { LeaveCriticalSection( &request->headers_section ); return ERROR_INVALID_PARAMETER; } index = HTTP_GetCustomHeaderIndex(request, lpBuffer, requested_index, request_only); break; case HTTP_QUERY_RAW_HEADERS_CRLF: { LPWSTR headers; DWORD len = 0; DWORD res = ERROR_INVALID_PARAMETER; if (request_only) headers = build_request_header(request, request->verb, request->path, request->version, TRUE); else headers = build_response_header(request, TRUE); if (!headers) { LeaveCriticalSection( &request->headers_section ); return ERROR_OUTOFMEMORY; } len = strlenW(headers) * sizeof(WCHAR); if (len + sizeof(WCHAR) > *lpdwBufferLength) { len += sizeof(WCHAR); res = ERROR_INSUFFICIENT_BUFFER; } else if (lpBuffer) { memcpy(lpBuffer, headers, len + sizeof(WCHAR)); TRACE("returning data: %s\n", debugstr_wn(lpBuffer, len / sizeof(WCHAR))); res = ERROR_SUCCESS; } *lpdwBufferLength = len; heap_free(headers); LeaveCriticalSection( &request->headers_section ); return res; } case HTTP_QUERY_RAW_HEADERS: { LPWSTR headers; DWORD len; if (request_only) headers = build_request_header(request, request->verb, request->path, request->version, FALSE); else headers = build_response_header(request, FALSE); if (!headers) { LeaveCriticalSection( &request->headers_section ); return ERROR_OUTOFMEMORY; } len = strlenW(headers) * sizeof(WCHAR); if (len > *lpdwBufferLength) { *lpdwBufferLength = len; heap_free(headers); LeaveCriticalSection( &request->headers_section ); return ERROR_INSUFFICIENT_BUFFER; } if (lpBuffer) { DWORD i; TRACE("returning data: %s\n", debugstr_wn(headers, len / sizeof(WCHAR))); for (i = 0; i < len / sizeof(WCHAR); i++) { if (headers[i] == '\n') headers[i] = 0; } memcpy(lpBuffer, headers, len); } *lpdwBufferLength = len - sizeof(WCHAR); heap_free(headers); LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } case HTTP_QUERY_STATUS_TEXT: if (request->statusText) { DWORD len = strlenW(request->statusText); if (len + 1 > *lpdwBufferLength/sizeof(WCHAR)) { *lpdwBufferLength = (len + 1) * sizeof(WCHAR); LeaveCriticalSection( &request->headers_section ); return ERROR_INSUFFICIENT_BUFFER; } if (lpBuffer) { memcpy(lpBuffer, request->statusText, (len + 1) * sizeof(WCHAR)); TRACE("returning data: %s\n", debugstr_wn(lpBuffer, len)); } *lpdwBufferLength = len * sizeof(WCHAR); LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } break; case HTTP_QUERY_VERSION: if (request->version) { DWORD len = strlenW(request->version); if (len + 1 > *lpdwBufferLength/sizeof(WCHAR)) { *lpdwBufferLength = (len + 1) * sizeof(WCHAR); LeaveCriticalSection( &request->headers_section ); return ERROR_INSUFFICIENT_BUFFER; } if (lpBuffer) { memcpy(lpBuffer, request->version, (len + 1) * sizeof(WCHAR)); TRACE("returning data: %s\n", debugstr_wn(lpBuffer, len)); } *lpdwBufferLength = len * sizeof(WCHAR); LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } break; case HTTP_QUERY_CONTENT_ENCODING: index = HTTP_GetCustomHeaderIndex(request, header_lookup[request->read_gzip ? HTTP_QUERY_CONTENT_TYPE : level], requested_index,request_only); break; case HTTP_QUERY_STATUS_CODE: { DWORD res = ERROR_SUCCESS; if(request_only) { LeaveCriticalSection( &request->headers_section ); return ERROR_HTTP_INVALID_QUERY_REQUEST; } if(requested_index) break; if(dwInfoLevel & HTTP_QUERY_FLAG_NUMBER) { if(*lpdwBufferLength >= sizeof(DWORD)) *(DWORD*)lpBuffer = request->status_code; else res = ERROR_INSUFFICIENT_BUFFER; *lpdwBufferLength = sizeof(DWORD); }else { WCHAR buf[12]; DWORD size; static const WCHAR formatW[] = {'%','u',0}; size = sprintfW(buf, formatW, request->status_code) * sizeof(WCHAR); if(size <= *lpdwBufferLength) { memcpy(lpBuffer, buf, size+sizeof(WCHAR)); }else { size += sizeof(WCHAR); res = ERROR_INSUFFICIENT_BUFFER; } *lpdwBufferLength = size; } LeaveCriticalSection( &request->headers_section ); return res; } default: assert (LAST_TABLE_HEADER == (HTTP_QUERY_UNLESS_MODIFIED_SINCE + 1)); if (level < LAST_TABLE_HEADER && header_lookup[level]) index = HTTP_GetCustomHeaderIndex(request, header_lookup[level], requested_index,request_only); } if (index >= 0) lphttpHdr = &request->custHeaders[index]; /* Ensure header satisfies requested attributes */ if (!lphttpHdr || ((dwInfoLevel & HTTP_QUERY_FLAG_REQUEST_HEADERS) && (~lphttpHdr->wFlags & HDR_ISREQUEST))) { LeaveCriticalSection( &request->headers_section ); return ERROR_HTTP_HEADER_NOT_FOUND; } /* coalesce value to requested type */ if (dwInfoLevel & HTTP_QUERY_FLAG_NUMBER && lpBuffer) { *(int *)lpBuffer = atoiW(lphttpHdr->lpszValue); TRACE(" returning number: %d\n", *(int *)lpBuffer); } else if (dwInfoLevel & HTTP_QUERY_FLAG_SYSTEMTIME && lpBuffer) { time_t tmpTime; struct tm tmpTM; SYSTEMTIME *STHook; tmpTime = ConvertTimeString(lphttpHdr->lpszValue); tmpTM = *gmtime(&tmpTime); STHook = (SYSTEMTIME *)lpBuffer; STHook->wDay = tmpTM.tm_mday; STHook->wHour = tmpTM.tm_hour; STHook->wMilliseconds = 0; STHook->wMinute = tmpTM.tm_min; STHook->wDayOfWeek = tmpTM.tm_wday; STHook->wMonth = tmpTM.tm_mon + 1; STHook->wSecond = tmpTM.tm_sec; STHook->wYear = 1900+tmpTM.tm_year; TRACE(" returning time: %04d/%02d/%02d - %d - %02d:%02d:%02d.%02d\n", STHook->wYear, STHook->wMonth, STHook->wDay, STHook->wDayOfWeek, STHook->wHour, STHook->wMinute, STHook->wSecond, STHook->wMilliseconds); } else if (lphttpHdr->lpszValue) { DWORD len = (strlenW(lphttpHdr->lpszValue) + 1) * sizeof(WCHAR); if (len > *lpdwBufferLength) { *lpdwBufferLength = len; LeaveCriticalSection( &request->headers_section ); return ERROR_INSUFFICIENT_BUFFER; } if (lpBuffer) { memcpy(lpBuffer, lphttpHdr->lpszValue, len); TRACE("! returning string: %s\n", debugstr_w(lpBuffer)); } *lpdwBufferLength = len - sizeof(WCHAR); } if (lpdwIndex) (*lpdwIndex)++; LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } /*********************************************************************** * HttpQueryInfoW (WININET.@) * * Queries for information about an HTTP request * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpQueryInfoW(HINTERNET hHttpRequest, DWORD dwInfoLevel, LPVOID lpBuffer, LPDWORD lpdwBufferLength, LPDWORD lpdwIndex) { http_request_t *request; DWORD res; if (TRACE_ON(wininet)) { #define FE(x) { x, #x } static const wininet_flag_info query_flags[] = { FE(HTTP_QUERY_MIME_VERSION), FE(HTTP_QUERY_CONTENT_TYPE), FE(HTTP_QUERY_CONTENT_TRANSFER_ENCODING), FE(HTTP_QUERY_CONTENT_ID), FE(HTTP_QUERY_CONTENT_DESCRIPTION), FE(HTTP_QUERY_CONTENT_LENGTH), FE(HTTP_QUERY_CONTENT_LANGUAGE), FE(HTTP_QUERY_ALLOW), FE(HTTP_QUERY_PUBLIC), FE(HTTP_QUERY_DATE), FE(HTTP_QUERY_EXPIRES), FE(HTTP_QUERY_LAST_MODIFIED), FE(HTTP_QUERY_MESSAGE_ID), FE(HTTP_QUERY_URI), FE(HTTP_QUERY_DERIVED_FROM), FE(HTTP_QUERY_COST), FE(HTTP_QUERY_LINK), FE(HTTP_QUERY_PRAGMA), FE(HTTP_QUERY_VERSION), FE(HTTP_QUERY_STATUS_CODE), FE(HTTP_QUERY_STATUS_TEXT), FE(HTTP_QUERY_RAW_HEADERS), FE(HTTP_QUERY_RAW_HEADERS_CRLF), FE(HTTP_QUERY_CONNECTION), FE(HTTP_QUERY_ACCEPT), FE(HTTP_QUERY_ACCEPT_CHARSET), FE(HTTP_QUERY_ACCEPT_ENCODING), FE(HTTP_QUERY_ACCEPT_LANGUAGE), FE(HTTP_QUERY_AUTHORIZATION), FE(HTTP_QUERY_CONTENT_ENCODING), FE(HTTP_QUERY_FORWARDED), FE(HTTP_QUERY_FROM), FE(HTTP_QUERY_IF_MODIFIED_SINCE), FE(HTTP_QUERY_LOCATION), FE(HTTP_QUERY_ORIG_URI), FE(HTTP_QUERY_REFERER), FE(HTTP_QUERY_RETRY_AFTER), FE(HTTP_QUERY_SERVER), FE(HTTP_QUERY_TITLE), FE(HTTP_QUERY_USER_AGENT), FE(HTTP_QUERY_WWW_AUTHENTICATE), FE(HTTP_QUERY_PROXY_AUTHENTICATE), FE(HTTP_QUERY_ACCEPT_RANGES), FE(HTTP_QUERY_SET_COOKIE), FE(HTTP_QUERY_COOKIE), FE(HTTP_QUERY_REQUEST_METHOD), FE(HTTP_QUERY_REFRESH), FE(HTTP_QUERY_CONTENT_DISPOSITION), FE(HTTP_QUERY_AGE), FE(HTTP_QUERY_CACHE_CONTROL), FE(HTTP_QUERY_CONTENT_BASE), FE(HTTP_QUERY_CONTENT_LOCATION), FE(HTTP_QUERY_CONTENT_MD5), FE(HTTP_QUERY_CONTENT_RANGE), FE(HTTP_QUERY_ETAG), FE(HTTP_QUERY_HOST), FE(HTTP_QUERY_IF_MATCH), FE(HTTP_QUERY_IF_NONE_MATCH), FE(HTTP_QUERY_IF_RANGE), FE(HTTP_QUERY_IF_UNMODIFIED_SINCE), FE(HTTP_QUERY_MAX_FORWARDS), FE(HTTP_QUERY_PROXY_AUTHORIZATION), FE(HTTP_QUERY_RANGE), FE(HTTP_QUERY_TRANSFER_ENCODING), FE(HTTP_QUERY_UPGRADE), FE(HTTP_QUERY_VARY), FE(HTTP_QUERY_VIA), FE(HTTP_QUERY_WARNING), FE(HTTP_QUERY_CUSTOM) }; static const wininet_flag_info modifier_flags[] = { FE(HTTP_QUERY_FLAG_REQUEST_HEADERS), FE(HTTP_QUERY_FLAG_SYSTEMTIME), FE(HTTP_QUERY_FLAG_NUMBER), FE(HTTP_QUERY_FLAG_COALESCE) }; #undef FE DWORD info_mod = dwInfoLevel & HTTP_QUERY_MODIFIER_FLAGS_MASK; DWORD info = dwInfoLevel & HTTP_QUERY_HEADER_MASK; DWORD i; TRACE("(%p, 0x%08x)--> %d\n", hHttpRequest, dwInfoLevel, info); TRACE(" Attribute:"); for (i = 0; i < (sizeof(query_flags) / sizeof(query_flags[0])); i++) { if (query_flags[i].val == info) { TRACE(" %s", query_flags[i].name); break; } } if (i == (sizeof(query_flags) / sizeof(query_flags[0]))) { TRACE(" Unknown (%08x)", info); } TRACE(" Modifier:"); for (i = 0; i < (sizeof(modifier_flags) / sizeof(modifier_flags[0])); i++) { if (modifier_flags[i].val & info_mod) { TRACE(" %s", modifier_flags[i].name); info_mod &= ~ modifier_flags[i].val; } } if (info_mod) { TRACE(" Unknown (%08x)", info_mod); } TRACE("\n"); } request = (http_request_t*) get_handle_object( hHttpRequest ); if (NULL == request || request->hdr.htype != WH_HHTTPREQ) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } if (lpBuffer == NULL) *lpdwBufferLength = 0; res = HTTP_HttpQueryInfoW( request, dwInfoLevel, lpBuffer, lpdwBufferLength, lpdwIndex); lend: if( request ) WININET_Release( &request->hdr ); TRACE("%u <--\n", res); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * HttpQueryInfoA (WININET.@) * * Queries for information about an HTTP request * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpQueryInfoA(HINTERNET hHttpRequest, DWORD dwInfoLevel, LPVOID lpBuffer, LPDWORD lpdwBufferLength, LPDWORD lpdwIndex) { BOOL result; DWORD len; WCHAR* bufferW; TRACE("%p %x\n", hHttpRequest, dwInfoLevel); if((dwInfoLevel & HTTP_QUERY_FLAG_NUMBER) || (dwInfoLevel & HTTP_QUERY_FLAG_SYSTEMTIME)) { return HttpQueryInfoW( hHttpRequest, dwInfoLevel, lpBuffer, lpdwBufferLength, lpdwIndex ); } if (lpBuffer) { DWORD alloclen; len = (*lpdwBufferLength)*sizeof(WCHAR); if ((dwInfoLevel & HTTP_QUERY_HEADER_MASK) == HTTP_QUERY_CUSTOM) { alloclen = MultiByteToWideChar( CP_ACP, 0, lpBuffer, -1, NULL, 0 ) * sizeof(WCHAR); if (alloclen < len) alloclen = len; } else alloclen = len; bufferW = heap_alloc(alloclen); /* buffer is in/out because of HTTP_QUERY_CUSTOM */ if ((dwInfoLevel & HTTP_QUERY_HEADER_MASK) == HTTP_QUERY_CUSTOM) MultiByteToWideChar( CP_ACP, 0, lpBuffer, -1, bufferW, alloclen / sizeof(WCHAR) ); } else { bufferW = NULL; len = 0; } result = HttpQueryInfoW( hHttpRequest, dwInfoLevel, bufferW, &len, lpdwIndex ); if( result ) { len = WideCharToMultiByte( CP_ACP,0, bufferW, len / sizeof(WCHAR) + 1, lpBuffer, *lpdwBufferLength, NULL, NULL ); *lpdwBufferLength = len - 1; TRACE("lpBuffer: %s\n", debugstr_a(lpBuffer)); } else /* since the strings being returned from HttpQueryInfoW should be * only ASCII characters, it is reasonable to assume that all of * the Unicode characters can be reduced to a single byte */ *lpdwBufferLength = len / sizeof(WCHAR); heap_free( bufferW ); return result; } /*********************************************************************** * HTTP_GetRedirectURL (internal) */ static LPWSTR HTTP_GetRedirectURL(http_request_t *request, LPCWSTR lpszUrl) { static WCHAR szHttp[] = {'h','t','t','p',0}; static WCHAR szHttps[] = {'h','t','t','p','s',0}; http_session_t *session = request->session; URL_COMPONENTSW urlComponents; DWORD url_length = 0; LPWSTR orig_url; LPWSTR combined_url; urlComponents.dwStructSize = sizeof(URL_COMPONENTSW); urlComponents.lpszScheme = (request->hdr.dwFlags & INTERNET_FLAG_SECURE) ? szHttps : szHttp; urlComponents.dwSchemeLength = 0; urlComponents.lpszHostName = request->server->name; urlComponents.dwHostNameLength = 0; urlComponents.nPort = request->server->port; urlComponents.lpszUserName = session->userName; urlComponents.dwUserNameLength = 0; urlComponents.lpszPassword = NULL; urlComponents.dwPasswordLength = 0; urlComponents.lpszUrlPath = request->path; urlComponents.dwUrlPathLength = 0; urlComponents.lpszExtraInfo = NULL; urlComponents.dwExtraInfoLength = 0; if (!InternetCreateUrlW(&urlComponents, 0, NULL, &url_length) && (GetLastError() != ERROR_INSUFFICIENT_BUFFER)) return NULL; orig_url = heap_alloc(url_length); /* convert from bytes to characters */ url_length = url_length / sizeof(WCHAR) - 1; if (!InternetCreateUrlW(&urlComponents, 0, orig_url, &url_length)) { heap_free(orig_url); return NULL; } url_length = 0; if (!InternetCombineUrlW(orig_url, lpszUrl, NULL, &url_length, ICU_ENCODE_SPACES_ONLY) && (GetLastError() != ERROR_INSUFFICIENT_BUFFER)) { heap_free(orig_url); return NULL; } combined_url = heap_alloc(url_length * sizeof(WCHAR)); if (!InternetCombineUrlW(orig_url, lpszUrl, combined_url, &url_length, ICU_ENCODE_SPACES_ONLY)) { heap_free(orig_url); heap_free(combined_url); return NULL; } heap_free(orig_url); return combined_url; } /*********************************************************************** * HTTP_HandleRedirect (internal) */ static DWORD HTTP_HandleRedirect(http_request_t *request, LPCWSTR lpszUrl) { http_session_t *session = request->session; WCHAR path[INTERNET_MAX_PATH_LENGTH]; if(lpszUrl[0]=='/') { /* if it's an absolute path, keep the same session info */ lstrcpynW(path, lpszUrl, INTERNET_MAX_URL_LENGTH); } else { URL_COMPONENTSW urlComponents; WCHAR protocol[INTERNET_MAX_SCHEME_LENGTH]; WCHAR hostName[INTERNET_MAX_HOST_NAME_LENGTH]; WCHAR userName[INTERNET_MAX_USER_NAME_LENGTH]; BOOL custom_port = FALSE; static const WCHAR httpW[] = {'h','t','t','p',0}; static const WCHAR httpsW[] = {'h','t','t','p','s',0}; userName[0] = 0; hostName[0] = 0; protocol[0] = 0; urlComponents.dwStructSize = sizeof(URL_COMPONENTSW); urlComponents.lpszScheme = protocol; urlComponents.dwSchemeLength = INTERNET_MAX_SCHEME_LENGTH; urlComponents.lpszHostName = hostName; urlComponents.dwHostNameLength = INTERNET_MAX_HOST_NAME_LENGTH; urlComponents.lpszUserName = userName; urlComponents.dwUserNameLength = INTERNET_MAX_USER_NAME_LENGTH; urlComponents.lpszPassword = NULL; urlComponents.dwPasswordLength = 0; urlComponents.lpszUrlPath = path; urlComponents.dwUrlPathLength = INTERNET_MAX_PATH_LENGTH; urlComponents.lpszExtraInfo = NULL; urlComponents.dwExtraInfoLength = 0; if(!InternetCrackUrlW(lpszUrl, strlenW(lpszUrl), 0, &urlComponents)) return INTERNET_GetLastError(); if(!strcmpiW(protocol, httpW)) { if(request->hdr.dwFlags & INTERNET_FLAG_SECURE) { TRACE("redirect from secure page to non-secure page\n"); /* FIXME: warn about from secure redirect to non-secure page */ request->hdr.dwFlags &= ~INTERNET_FLAG_SECURE; } if(urlComponents.nPort == INTERNET_INVALID_PORT_NUMBER) urlComponents.nPort = INTERNET_DEFAULT_HTTP_PORT; else if(urlComponents.nPort != INTERNET_DEFAULT_HTTP_PORT) custom_port = TRUE; }else if(!strcmpiW(protocol, httpsW)) { if(!(request->hdr.dwFlags & INTERNET_FLAG_SECURE)) { TRACE("redirect from non-secure page to secure page\n"); /* FIXME: notify about redirect to secure page */ request->hdr.dwFlags |= INTERNET_FLAG_SECURE; } if(urlComponents.nPort == INTERNET_INVALID_PORT_NUMBER) urlComponents.nPort = INTERNET_DEFAULT_HTTPS_PORT; else if(urlComponents.nPort != INTERNET_DEFAULT_HTTPS_PORT) custom_port = TRUE; } heap_free(session->hostName); session->hostName = heap_strdupW(hostName); session->hostPort = urlComponents.nPort; heap_free(session->userName); session->userName = NULL; if (userName[0]) session->userName = heap_strdupW(userName); reset_data_stream(request); if(strcmpiW(request->server->name, hostName) || request->server->port != urlComponents.nPort) { server_t *new_server; new_server = get_server(hostName, urlComponents.nPort, urlComponents.nScheme == INTERNET_SCHEME_HTTPS, TRUE); server_release(request->server); request->server = new_server; } if (custom_port) HTTP_ProcessHeader(request, hostW, request->server->host_port, HTTP_ADDREQ_FLAG_ADD | HTTP_ADDREQ_FLAG_REPLACE | HTTP_ADDHDR_FLAG_REQ); else HTTP_ProcessHeader(request, hostW, request->server->name, HTTP_ADDREQ_FLAG_ADD | HTTP_ADDREQ_FLAG_REPLACE | HTTP_ADDHDR_FLAG_REQ); } heap_free(request->path); request->path=NULL; if (*path) { DWORD needed = 0; HRESULT rc; rc = UrlEscapeW(path, NULL, &needed, URL_ESCAPE_SPACES_ONLY); if (rc != E_POINTER) needed = strlenW(path)+1; request->path = heap_alloc(needed*sizeof(WCHAR)); rc = UrlEscapeW(path, request->path, &needed, URL_ESCAPE_SPACES_ONLY); if (rc != S_OK) { ERR("Unable to escape string!(%s) (%d)\n",debugstr_w(path),rc); strcpyW(request->path,path); } } /* Remove custom content-type/length headers on redirects. */ remove_header(request, szContent_Type, TRUE); remove_header(request, szContent_Length, TRUE); return ERROR_SUCCESS; } /*********************************************************************** * HTTP_build_req (internal) * * concatenate all the strings in the request together */ static LPWSTR HTTP_build_req( LPCWSTR *list, int len ) { LPCWSTR *t; LPWSTR str; for( t = list; *t ; t++ ) len += strlenW( *t ); len++; str = heap_alloc(len*sizeof(WCHAR)); *str = 0; for( t = list; *t ; t++ ) strcatW( str, *t ); return str; } static void HTTP_InsertCookies(http_request_t *request) { WCHAR *cookies; DWORD res; res = get_cookie_header(request->server->name, request->path, &cookies); if(res != ERROR_SUCCESS || !cookies) return; HTTP_HttpAddRequestHeadersW(request, cookies, strlenW(cookies), HTTP_ADDREQ_FLAG_REPLACE | HTTP_ADDREQ_FLAG_ADD); heap_free(cookies); } static WORD HTTP_ParseWkday(LPCWSTR day) { static const WCHAR days[7][4] = {{ 's','u','n',0 }, { 'm','o','n',0 }, { 't','u','e',0 }, { 'w','e','d',0 }, { 't','h','u',0 }, { 'f','r','i',0 }, { 's','a','t',0 }}; unsigned int i; for (i = 0; i < sizeof(days)/sizeof(*days); i++) if (!strcmpiW(day, days[i])) return i; /* Invalid */ return 7; } static WORD HTTP_ParseMonth(LPCWSTR month) { static const WCHAR jan[] = { 'j','a','n',0 }; static const WCHAR feb[] = { 'f','e','b',0 }; static const WCHAR mar[] = { 'm','a','r',0 }; static const WCHAR apr[] = { 'a','p','r',0 }; static const WCHAR may[] = { 'm','a','y',0 }; static const WCHAR jun[] = { 'j','u','n',0 }; static const WCHAR jul[] = { 'j','u','l',0 }; static const WCHAR aug[] = { 'a','u','g',0 }; static const WCHAR sep[] = { 's','e','p',0 }; static const WCHAR oct[] = { 'o','c','t',0 }; static const WCHAR nov[] = { 'n','o','v',0 }; static const WCHAR dec[] = { 'd','e','c',0 }; if (!strcmpiW(month, jan)) return 1; if (!strcmpiW(month, feb)) return 2; if (!strcmpiW(month, mar)) return 3; if (!strcmpiW(month, apr)) return 4; if (!strcmpiW(month, may)) return 5; if (!strcmpiW(month, jun)) return 6; if (!strcmpiW(month, jul)) return 7; if (!strcmpiW(month, aug)) return 8; if (!strcmpiW(month, sep)) return 9; if (!strcmpiW(month, oct)) return 10; if (!strcmpiW(month, nov)) return 11; if (!strcmpiW(month, dec)) return 12; /* Invalid */ return 0; } /* Parses the string pointed to by *str, assumed to be a 24-hour time HH:MM:SS, * optionally preceded by whitespace. * Upon success, returns TRUE, sets the wHour, wMinute, and wSecond fields of * st, and sets *str to the first character after the time format. */ static BOOL HTTP_ParseTime(SYSTEMTIME *st, LPCWSTR *str) { LPCWSTR ptr = *str; WCHAR *nextPtr; unsigned long num; while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || *nextPtr != ':') { ERR("unexpected time format %s\n", debugstr_w(ptr)); return FALSE; } if (num > 23) { ERR("unexpected hour in time format %s\n", debugstr_w(ptr)); return FALSE; } ptr = nextPtr + 1; st->wHour = (WORD)num; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || *nextPtr != ':') { ERR("unexpected time format %s\n", debugstr_w(ptr)); return FALSE; } if (num > 59) { ERR("unexpected minute in time format %s\n", debugstr_w(ptr)); return FALSE; } ptr = nextPtr + 1; st->wMinute = (WORD)num; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr) { ERR("unexpected time format %s\n", debugstr_w(ptr)); return FALSE; } if (num > 59) { ERR("unexpected second in time format %s\n", debugstr_w(ptr)); return FALSE; } ptr = nextPtr + 1; *str = ptr; st->wSecond = (WORD)num; return TRUE; } static BOOL HTTP_ParseDateAsAsctime(LPCWSTR value, FILETIME *ft) { static const WCHAR gmt[]= { 'G','M','T',0 }; WCHAR day[4], *dayPtr, month[4], *monthPtr, *nextPtr; LPCWSTR ptr; SYSTEMTIME st = { 0 }; unsigned long num; for (ptr = value, dayPtr = day; *ptr && !isspaceW(*ptr) && dayPtr - day < sizeof(day) / sizeof(day[0]) - 1; ptr++, dayPtr++) *dayPtr = *ptr; *dayPtr = 0; st.wDayOfWeek = HTTP_ParseWkday(day); if (st.wDayOfWeek >= 7) { ERR("unexpected weekday %s\n", debugstr_w(day)); return FALSE; } while (isspaceW(*ptr)) ptr++; for (monthPtr = month; !isspace(*ptr) && monthPtr - month < sizeof(month) / sizeof(month[0]) - 1; monthPtr++, ptr++) *monthPtr = *ptr; *monthPtr = 0; st.wMonth = HTTP_ParseMonth(month); if (!st.wMonth || st.wMonth > 12) { ERR("unexpected month %s\n", debugstr_w(month)); return FALSE; } while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || !num || num > 31) { ERR("unexpected day %s\n", debugstr_w(ptr)); return FALSE; } ptr = nextPtr; st.wDay = (WORD)num; while (isspaceW(*ptr)) ptr++; if (!HTTP_ParseTime(&st, &ptr)) return FALSE; while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || num < 1601 || num > 30827) { ERR("unexpected year %s\n", debugstr_w(ptr)); return FALSE; } ptr = nextPtr; st.wYear = (WORD)num; while (isspaceW(*ptr)) ptr++; /* asctime() doesn't report a timezone, but some web servers do, so accept * with or without GMT. */ if (*ptr && strcmpW(ptr, gmt)) { ERR("unexpected timezone %s\n", debugstr_w(ptr)); return FALSE; } return SystemTimeToFileTime(&st, ft); } static BOOL HTTP_ParseRfc1123Date(LPCWSTR value, FILETIME *ft) { static const WCHAR gmt[]= { 'G','M','T',0 }; WCHAR *nextPtr, day[4], month[4], *monthPtr; LPCWSTR ptr; unsigned long num; SYSTEMTIME st = { 0 }; ptr = strchrW(value, ','); if (!ptr) return FALSE; if (ptr - value != 3) { WARN("unexpected weekday %s\n", debugstr_wn(value, ptr - value)); return FALSE; } memcpy(day, value, (ptr - value) * sizeof(WCHAR)); day[3] = 0; st.wDayOfWeek = HTTP_ParseWkday(day); if (st.wDayOfWeek > 6) { WARN("unexpected weekday %s\n", debugstr_wn(value, ptr - value)); return FALSE; } ptr++; while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || !num || num > 31) { WARN("unexpected day %s\n", debugstr_w(value)); return FALSE; } ptr = nextPtr; st.wDay = (WORD)num; while (isspaceW(*ptr)) ptr++; for (monthPtr = month; !isspace(*ptr) && monthPtr - month < sizeof(month) / sizeof(month[0]) - 1; monthPtr++, ptr++) *monthPtr = *ptr; *monthPtr = 0; st.wMonth = HTTP_ParseMonth(month); if (!st.wMonth || st.wMonth > 12) { WARN("unexpected month %s\n", debugstr_w(month)); return FALSE; } while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || num < 1601 || num > 30827) { ERR("unexpected year %s\n", debugstr_w(value)); return FALSE; } ptr = nextPtr; st.wYear = (WORD)num; if (!HTTP_ParseTime(&st, &ptr)) return FALSE; while (isspaceW(*ptr)) ptr++; if (strcmpW(ptr, gmt)) { ERR("unexpected time zone %s\n", debugstr_w(ptr)); return FALSE; } return SystemTimeToFileTime(&st, ft); } static WORD HTTP_ParseWeekday(LPCWSTR day) { static const WCHAR days[7][10] = {{ 's','u','n','d','a','y',0 }, { 'm','o','n','d','a','y',0 }, { 't','u','e','s','d','a','y',0 }, { 'w','e','d','n','e','s','d','a','y',0 }, { 't','h','u','r','s','d','a','y',0 }, { 'f','r','i','d','a','y',0 }, { 's','a','t','u','r','d','a','y',0 }}; unsigned int i; for (i = 0; i < sizeof(days)/sizeof(*days); i++) if (!strcmpiW(day, days[i])) return i; /* Invalid */ return 7; } static BOOL HTTP_ParseRfc850Date(LPCWSTR value, FILETIME *ft) { static const WCHAR gmt[]= { 'G','M','T',0 }; WCHAR *nextPtr, day[10], month[4], *monthPtr; LPCWSTR ptr; unsigned long num; SYSTEMTIME st = { 0 }; ptr = strchrW(value, ','); if (!ptr) return FALSE; if (ptr - value == 3) { memcpy(day, value, (ptr - value) * sizeof(WCHAR)); day[3] = 0; st.wDayOfWeek = HTTP_ParseWkday(day); if (st.wDayOfWeek > 6) { ERR("unexpected weekday %s\n", debugstr_wn(value, ptr - value)); return FALSE; } } else if (ptr - value < sizeof(day) / sizeof(day[0])) { memcpy(day, value, (ptr - value) * sizeof(WCHAR)); day[ptr - value + 1] = 0; st.wDayOfWeek = HTTP_ParseWeekday(day); if (st.wDayOfWeek > 6) { ERR("unexpected weekday %s\n", debugstr_wn(value, ptr - value)); return FALSE; } } else { ERR("unexpected weekday %s\n", debugstr_wn(value, ptr - value)); return FALSE; } ptr++; while (isspaceW(*ptr)) ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || !num || num > 31) { ERR("unexpected day %s\n", debugstr_w(value)); return FALSE; } ptr = nextPtr; st.wDay = (WORD)num; if (*ptr != '-') { ERR("unexpected month format %s\n", debugstr_w(ptr)); return FALSE; } ptr++; for (monthPtr = month; *ptr != '-' && monthPtr - month < sizeof(month) / sizeof(month[0]) - 1; monthPtr++, ptr++) *monthPtr = *ptr; *monthPtr = 0; st.wMonth = HTTP_ParseMonth(month); if (!st.wMonth || st.wMonth > 12) { ERR("unexpected month %s\n", debugstr_w(month)); return FALSE; } if (*ptr != '-') { ERR("unexpected year format %s\n", debugstr_w(ptr)); return FALSE; } ptr++; num = strtoulW(ptr, &nextPtr, 10); if (!nextPtr || nextPtr <= ptr || num < 1601 || num > 30827) { ERR("unexpected year %s\n", debugstr_w(value)); return FALSE; } ptr = nextPtr; st.wYear = (WORD)num; if (!HTTP_ParseTime(&st, &ptr)) return FALSE; while (isspaceW(*ptr)) ptr++; if (strcmpW(ptr, gmt)) { ERR("unexpected time zone %s\n", debugstr_w(ptr)); return FALSE; } return SystemTimeToFileTime(&st, ft); } static BOOL HTTP_ParseDate(LPCWSTR value, FILETIME *ft) { static const WCHAR zero[] = { '0',0 }; BOOL ret; if (!strcmpW(value, zero)) { ft->dwLowDateTime = ft->dwHighDateTime = 0; ret = TRUE; } else if (strchrW(value, ',')) { ret = HTTP_ParseRfc1123Date(value, ft); if (!ret) { ret = HTTP_ParseRfc850Date(value, ft); if (!ret) ERR("unexpected date format %s\n", debugstr_w(value)); } } else { ret = HTTP_ParseDateAsAsctime(value, ft); if (!ret) ERR("unexpected date format %s\n", debugstr_w(value)); } return ret; } static void HTTP_ProcessExpires(http_request_t *request) { BOOL expirationFound = FALSE; int headerIndex; EnterCriticalSection( &request->headers_section ); /* Look for a Cache-Control header with a max-age directive, as it takes * precedence over the Expires header. */ headerIndex = HTTP_GetCustomHeaderIndex(request, szCache_Control, 0, FALSE); if (headerIndex != -1) { LPHTTPHEADERW ccHeader = &request->custHeaders[headerIndex]; LPWSTR ptr; for (ptr = ccHeader->lpszValue; ptr && *ptr; ) { LPWSTR comma = strchrW(ptr, ','), end, equal; if (comma) end = comma; else end = ptr + strlenW(ptr); for (equal = end - 1; equal > ptr && *equal != '='; equal--) ; if (*equal == '=') { static const WCHAR max_age[] = { 'm','a','x','-','a','g','e',0 }; if (!strncmpiW(ptr, max_age, equal - ptr - 1)) { LPWSTR nextPtr; unsigned long age; age = strtoulW(equal + 1, &nextPtr, 10); if (nextPtr > equal + 1) { LARGE_INTEGER ft; NtQuerySystemTime( &ft ); /* Age is in seconds, FILETIME resolution is in * 100 nanosecond intervals. */ ft.QuadPart += age * (ULONGLONG)1000000; request->expires.dwLowDateTime = ft.u.LowPart; request->expires.dwHighDateTime = ft.u.HighPart; expirationFound = TRUE; } } } if (comma) { ptr = comma + 1; while (isspaceW(*ptr)) ptr++; } else ptr = NULL; } } if (!expirationFound) { headerIndex = HTTP_GetCustomHeaderIndex(request, szExpires, 0, FALSE); if (headerIndex != -1) { LPHTTPHEADERW expiresHeader = &request->custHeaders[headerIndex]; FILETIME ft; if (HTTP_ParseDate(expiresHeader->lpszValue, &ft)) { expirationFound = TRUE; request->expires = ft; } } } if (!expirationFound) { LARGE_INTEGER t; /* With no known age, default to 10 minutes until expiration. */ NtQuerySystemTime( &t ); t.QuadPart += 10 * 60 * (ULONGLONG)10000000; request->expires.dwLowDateTime = t.u.LowPart; request->expires.dwHighDateTime = t.u.HighPart; } LeaveCriticalSection( &request->headers_section ); } static void HTTP_ProcessLastModified(http_request_t *request) { int headerIndex; EnterCriticalSection( &request->headers_section ); headerIndex = HTTP_GetCustomHeaderIndex(request, szLast_Modified, 0, FALSE); if (headerIndex != -1) { LPHTTPHEADERW expiresHeader = &request->custHeaders[headerIndex]; FILETIME ft; if (HTTP_ParseDate(expiresHeader->lpszValue, &ft)) request->last_modified = ft; } LeaveCriticalSection( &request->headers_section ); } static void http_process_keep_alive(http_request_t *req) { int index; EnterCriticalSection( &req->headers_section ); if ((index = HTTP_GetCustomHeaderIndex(req, szConnection, 0, FALSE)) != -1) req->netconn->keep_alive = !strcmpiW(req->custHeaders[index].lpszValue, szKeepAlive); else if ((index = HTTP_GetCustomHeaderIndex(req, szProxy_Connection, 0, FALSE)) != -1) req->netconn->keep_alive = !strcmpiW(req->custHeaders[index].lpszValue, szKeepAlive); else req->netconn->keep_alive = !strcmpiW(req->version, g_szHttp1_1); LeaveCriticalSection( &req->headers_section ); } static DWORD open_http_connection(http_request_t *request, BOOL *reusing) { const BOOL is_https = (request->hdr.dwFlags & INTERNET_FLAG_SECURE) != 0; netconn_t *netconn = NULL; DWORD res; reset_data_stream(request); if (request->netconn) { if (is_valid_netconn(request->netconn) && NETCON_is_alive(request->netconn)) { *reusing = TRUE; return ERROR_SUCCESS; } else { free_netconn(request->netconn); request->netconn = NULL; } } res = HTTP_ResolveName(request); if(res != ERROR_SUCCESS) return res; EnterCriticalSection(&connection_pool_cs); while(!list_empty(&request->server->conn_pool)) { netconn = LIST_ENTRY(list_head(&request->server->conn_pool), netconn_t, pool_entry); list_remove(&netconn->pool_entry); if(is_valid_netconn(netconn) && NETCON_is_alive(netconn)) break; TRACE("connection %p closed during idle\n", netconn); free_netconn(netconn); netconn = NULL; } LeaveCriticalSection(&connection_pool_cs); if(netconn) { TRACE("<-- reusing %p netconn\n", netconn); request->netconn = netconn; *reusing = TRUE; return ERROR_SUCCESS; } TRACE("connecting to %s, proxy %s\n", debugstr_w(request->server->name), request->proxy ? debugstr_w(request->proxy->name) : "(null)"); INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_CONNECTING_TO_SERVER, request->server->addr_str, strlen(request->server->addr_str)+1); res = create_netconn(is_https, request->proxy ? request->proxy : request->server, request->security_flags, (request->hdr.ErrorMask & INTERNET_ERROR_MASK_COMBINED_SEC_CERT) != 0, request->connect_timeout, &netconn); if(res != ERROR_SUCCESS) { ERR("create_netconn failed: %u\n", res); return res; } request->netconn = netconn; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_CONNECTED_TO_SERVER, request->server->addr_str, strlen(request->server->addr_str)+1); *reusing = FALSE; TRACE("Created connection to %s: %p\n", debugstr_w(request->server->name), netconn); return ERROR_SUCCESS; } static char *build_ascii_request( const WCHAR *str, void *data, DWORD data_len, DWORD *out_len ) { int len = WideCharToMultiByte( CP_ACP, 0, str, -1, NULL, 0, NULL, NULL ); char *ret; if (!(ret = heap_alloc( len + data_len ))) return NULL; WideCharToMultiByte( CP_ACP, 0, str, -1, ret, len, NULL, NULL ); if (data_len) memcpy( ret + len - 1, data, data_len ); *out_len = len + data_len - 1; ret[*out_len] = 0; return ret; } static void set_content_length_header( http_request_t *request, DWORD len, DWORD flags ) { static const WCHAR fmtW[] = {'C','o','n','t','e','n','t','-','L','e','n','g','t','h',':',' ','%','u','\r','\n',0}; WCHAR buf[sizeof(fmtW)/sizeof(fmtW[0]) + 10]; sprintfW( buf, fmtW, len ); HTTP_HttpAddRequestHeadersW( request, buf, ~0u, flags ); } /*********************************************************************** * HTTP_HttpSendRequestW (internal) * * Sends the specified request to the HTTP server * * RETURNS * ERROR_SUCCESS on success * win32 error code on failure * */ static DWORD HTTP_HttpSendRequestW(http_request_t *request, LPCWSTR lpszHeaders, DWORD dwHeaderLength, LPVOID lpOptional, DWORD dwOptionalLength, DWORD dwContentLength, BOOL bEndRequest) { BOOL redirected = FALSE, secure_proxy_connect = FALSE, loop_next; LPWSTR requestString = NULL; INT responseLen, cnt; DWORD res; TRACE("--> %p\n", request); assert(request->hdr.htype == WH_HHTTPREQ); /* if the verb is NULL default to GET */ if (!request->verb) request->verb = heap_strdupW(szGET); HTTP_ProcessHeader(request, hostW, request->server->canon_host_port, HTTP_ADDREQ_FLAG_ADD_IF_NEW | HTTP_ADDHDR_FLAG_REQ); if (dwContentLength || strcmpW(request->verb, szGET)) { set_content_length_header(request, dwContentLength, HTTP_ADDREQ_FLAG_ADD_IF_NEW); request->bytesToWrite = dwContentLength; } if (request->session->appInfo->agent) { WCHAR *agent_header; static const WCHAR user_agent[] = {'U','s','e','r','-','A','g','e','n','t',':',' ','%','s','\r','\n',0}; int len; len = strlenW(request->session->appInfo->agent) + strlenW(user_agent); agent_header = heap_alloc(len * sizeof(WCHAR)); sprintfW(agent_header, user_agent, request->session->appInfo->agent); HTTP_HttpAddRequestHeadersW(request, agent_header, strlenW(agent_header), HTTP_ADDREQ_FLAG_ADD_IF_NEW); heap_free(agent_header); } if (request->hdr.dwFlags & INTERNET_FLAG_PRAGMA_NOCACHE) { static const WCHAR pragma_nocache[] = {'P','r','a','g','m','a',':',' ','n','o','-','c','a','c','h','e','\r','\n',0}; HTTP_HttpAddRequestHeadersW(request, pragma_nocache, strlenW(pragma_nocache), HTTP_ADDREQ_FLAG_ADD_IF_NEW); } if ((request->hdr.dwFlags & INTERNET_FLAG_NO_CACHE_WRITE) && strcmpW(request->verb, szGET)) { static const WCHAR cache_control[] = {'C','a','c','h','e','-','C','o','n','t','r','o','l',':', ' ','n','o','-','c','a','c','h','e','\r','\n',0}; HTTP_HttpAddRequestHeadersW(request, cache_control, strlenW(cache_control), HTTP_ADDREQ_FLAG_ADD_IF_NEW); } /* add the headers the caller supplied */ if( lpszHeaders && dwHeaderLength ) HTTP_HttpAddRequestHeadersW(request, lpszHeaders, dwHeaderLength, HTTP_ADDREQ_FLAG_ADD | HTTP_ADDHDR_FLAG_REPLACE); do { DWORD len, data_len = dwOptionalLength; BOOL reusing_connection; char *ascii_req; loop_next = FALSE; if(redirected) { request->contentLength = ~0u; request->bytesToWrite = 0; } if (TRACE_ON(wininet)) { HTTPHEADERW *host; EnterCriticalSection( &request->headers_section ); host = HTTP_GetHeader( request, hostW ); TRACE("Going to url %s %s\n", debugstr_w(host->lpszValue), debugstr_w(request->path)); LeaveCriticalSection( &request->headers_section ); } HTTP_FixURL(request); if (request->hdr.dwFlags & INTERNET_FLAG_KEEP_CONNECTION) { HTTP_ProcessHeader(request, szConnection, szKeepAlive, HTTP_ADDHDR_FLAG_REQ | HTTP_ADDHDR_FLAG_REPLACE | HTTP_ADDHDR_FLAG_ADD); } HTTP_InsertAuthorization(request, request->authInfo, szAuthorization); HTTP_InsertAuthorization(request, request->proxyAuthInfo, szProxy_Authorization); if (!(request->hdr.dwFlags & INTERNET_FLAG_NO_COOKIES)) HTTP_InsertCookies(request); res = open_http_connection(request, &reusing_connection); if (res != ERROR_SUCCESS) break; if (!reusing_connection && (request->hdr.dwFlags & INTERNET_FLAG_SECURE)) { if (request->proxy) secure_proxy_connect = TRUE; else { res = NETCON_secure_connect(request->netconn, request->server); if (res != ERROR_SUCCESS) { WARN("failed to upgrade to secure connection\n"); http_release_netconn(request, FALSE); break; } } } if (secure_proxy_connect) { static const WCHAR connectW[] = {'C','O','N','N','E','C','T',0}; const WCHAR *target = request->server->host_port; if (HTTP_GetCustomHeaderIndex(request, szContent_Length, 0, TRUE) >= 0) set_content_length_header(request, 0, HTTP_ADDREQ_FLAG_REPLACE); requestString = build_request_header(request, connectW, target, g_szHttp1_1, TRUE); } else if (request->proxy && !(request->hdr.dwFlags & INTERNET_FLAG_SECURE)) { WCHAR *url = build_proxy_path_url(request); requestString = build_request_header(request, request->verb, url, request->version, TRUE); heap_free(url); } else { if (request->proxy && HTTP_GetCustomHeaderIndex(request, szContent_Length, 0, TRUE) >= 0) set_content_length_header(request, dwContentLength, HTTP_ADDREQ_FLAG_REPLACE); requestString = build_request_header(request, request->verb, request->path, request->version, TRUE); } TRACE("Request header -> %s\n", debugstr_w(requestString) ); /* send the request as ASCII, tack on the optional data */ if (!lpOptional || redirected || secure_proxy_connect) data_len = 0; ascii_req = build_ascii_request( requestString, lpOptional, data_len, &len ); TRACE("full request -> %s\n", debugstr_a(ascii_req) ); INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_SENDING_REQUEST, NULL, 0); NETCON_set_timeout( request->netconn, TRUE, request->send_timeout ); res = NETCON_send(request->netconn, ascii_req, len, 0, &cnt); heap_free( ascii_req ); if(res != ERROR_SUCCESS) { TRACE("send failed: %u\n", res); if(!reusing_connection) break; http_release_netconn(request, FALSE); loop_next = TRUE; continue; } request->bytesWritten = data_len; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_REQUEST_SENT, &len, sizeof(DWORD)); if (bEndRequest) { DWORD dwBufferSize; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_RECEIVING_RESPONSE, NULL, 0); if (HTTP_GetResponseHeaders(request, &responseLen)) { http_release_netconn(request, FALSE); res = ERROR_INTERNET_CONNECTION_ABORTED; goto lend; } /* FIXME: We should know that connection is closed before sending * headers. Otherwise wrong callbacks are executed */ if(!responseLen && reusing_connection) { TRACE("Connection closed by server, reconnecting\n"); http_release_netconn(request, FALSE); loop_next = TRUE; continue; } INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_RESPONSE_RECEIVED, &responseLen, sizeof(DWORD)); http_process_keep_alive(request); HTTP_ProcessCookies(request); HTTP_ProcessExpires(request); HTTP_ProcessLastModified(request); res = set_content_length(request); if(res != ERROR_SUCCESS) goto lend; if(!request->contentLength) http_release_netconn(request, TRUE); if (!(request->hdr.dwFlags & INTERNET_FLAG_NO_AUTO_REDIRECT) && responseLen) { WCHAR *new_url, szNewLocation[INTERNET_MAX_URL_LENGTH]; dwBufferSize=sizeof(szNewLocation); switch(request->status_code) { case HTTP_STATUS_REDIRECT: case HTTP_STATUS_MOVED: case HTTP_STATUS_REDIRECT_KEEP_VERB: case HTTP_STATUS_REDIRECT_METHOD: if(HTTP_HttpQueryInfoW(request,HTTP_QUERY_LOCATION,szNewLocation,&dwBufferSize,NULL) != ERROR_SUCCESS) break; if (strcmpW(request->verb, szGET) && strcmpW(request->verb, szHEAD) && request->status_code != HTTP_STATUS_REDIRECT_KEEP_VERB) { heap_free(request->verb); request->verb = heap_strdupW(szGET); } http_release_netconn(request, drain_content(request, FALSE)); if ((new_url = HTTP_GetRedirectURL( request, szNewLocation ))) { INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_REDIRECT, new_url, (strlenW(new_url) + 1) * sizeof(WCHAR)); res = HTTP_HandleRedirect(request, new_url); if (res == ERROR_SUCCESS) { heap_free(requestString); loop_next = TRUE; } heap_free( new_url ); } redirected = TRUE; } } if (!(request->hdr.dwFlags & INTERNET_FLAG_NO_AUTH) && res == ERROR_SUCCESS) { WCHAR szAuthValue[2048]; dwBufferSize=2048; if (request->status_code == HTTP_STATUS_DENIED) { WCHAR *host = heap_strdupW( request->server->canon_host_port ); DWORD dwIndex = 0; while (HTTP_HttpQueryInfoW(request,HTTP_QUERY_WWW_AUTHENTICATE,szAuthValue,&dwBufferSize,&dwIndex) == ERROR_SUCCESS) { if (HTTP_DoAuthorization(request, szAuthValue, &request->authInfo, request->session->userName, request->session->password, host)) { heap_free(requestString); if(!drain_content(request, TRUE)) { FIXME("Could not drain content\n"); http_release_netconn(request, FALSE); } loop_next = TRUE; break; } } heap_free( host ); if(!loop_next) { TRACE("Cleaning wrong authorization data\n"); destroy_authinfo(request->authInfo); request->authInfo = NULL; } } if (request->status_code == HTTP_STATUS_PROXY_AUTH_REQ) { DWORD dwIndex = 0; while (HTTP_HttpQueryInfoW(request,HTTP_QUERY_PROXY_AUTHENTICATE,szAuthValue,&dwBufferSize,&dwIndex) == ERROR_SUCCESS) { if (HTTP_DoAuthorization(request, szAuthValue, &request->proxyAuthInfo, request->session->appInfo->proxyUsername, request->session->appInfo->proxyPassword, NULL)) { heap_free(requestString); if(!drain_content(request, TRUE)) { FIXME("Could not drain content\n"); http_release_netconn(request, FALSE); } loop_next = TRUE; break; } } if(!loop_next) { TRACE("Cleaning wrong proxy authorization data\n"); destroy_authinfo(request->proxyAuthInfo); request->proxyAuthInfo = NULL; } } } if (secure_proxy_connect && request->status_code == HTTP_STATUS_OK) { res = NETCON_secure_connect(request->netconn, request->server); if (res != ERROR_SUCCESS) { WARN("failed to upgrade to secure proxy connection\n"); http_release_netconn( request, FALSE ); break; } remove_header(request, szProxy_Authorization, TRUE); destroy_authinfo(request->proxyAuthInfo); request->proxyAuthInfo = NULL; secure_proxy_connect = FALSE; loop_next = TRUE; } } else res = ERROR_SUCCESS; } while (loop_next); lend: heap_free(requestString); /* TODO: send notification for P3P header */ if(res == ERROR_SUCCESS) create_cache_entry(request); if (request->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC) { if (res == ERROR_SUCCESS) { if(bEndRequest && request->contentLength && request->bytesWritten == request->bytesToWrite) HTTP_ReceiveRequestData(request, TRUE, NULL); else send_request_complete(request, request->session->hdr.dwInternalFlags & INET_OPENURL ? (DWORD_PTR)request->hdr.hInternet : 1, 0); }else { send_request_complete(request, 0, res); } } TRACE("<--\n"); return res; } typedef struct { task_header_t hdr; WCHAR *headers; DWORD headers_len; void *optional; DWORD optional_len; DWORD content_len; BOOL end_request; } send_request_task_t; /*********************************************************************** * * Helper functions for the HttpSendRequest(Ex) functions * */ static void AsyncHttpSendRequestProc(task_header_t *hdr) { send_request_task_t *task = (send_request_task_t*)hdr; http_request_t *request = (http_request_t*)task->hdr.hdr; TRACE("%p\n", request); HTTP_HttpSendRequestW(request, task->headers, task->headers_len, task->optional, task->optional_len, task->content_len, task->end_request); heap_free(task->headers); } static DWORD HTTP_HttpEndRequestW(http_request_t *request, DWORD dwFlags, DWORD_PTR dwContext) { DWORD dwBufferSize; INT responseLen; DWORD res = ERROR_SUCCESS; if(!is_valid_netconn(request->netconn)) { WARN("Not connected\n"); send_request_complete(request, 0, ERROR_INTERNET_OPERATION_CANCELLED); return ERROR_INTERNET_OPERATION_CANCELLED; } INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_RECEIVING_RESPONSE, NULL, 0); if (HTTP_GetResponseHeaders(request, &responseLen) || !responseLen) res = ERROR_HTTP_HEADER_NOT_FOUND; INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_RESPONSE_RECEIVED, &responseLen, sizeof(DWORD)); /* process cookies here. Is this right? */ http_process_keep_alive(request); HTTP_ProcessCookies(request); HTTP_ProcessExpires(request); HTTP_ProcessLastModified(request); if ((res = set_content_length(request)) == ERROR_SUCCESS) { if(!request->contentLength) http_release_netconn(request, TRUE); } if (res == ERROR_SUCCESS && !(request->hdr.dwFlags & INTERNET_FLAG_NO_AUTO_REDIRECT)) { switch(request->status_code) { case HTTP_STATUS_REDIRECT: case HTTP_STATUS_MOVED: case HTTP_STATUS_REDIRECT_METHOD: case HTTP_STATUS_REDIRECT_KEEP_VERB: { WCHAR *new_url, szNewLocation[INTERNET_MAX_URL_LENGTH]; dwBufferSize=sizeof(szNewLocation); if (HTTP_HttpQueryInfoW(request, HTTP_QUERY_LOCATION, szNewLocation, &dwBufferSize, NULL) != ERROR_SUCCESS) break; if (strcmpW(request->verb, szGET) && strcmpW(request->verb, szHEAD) && request->status_code != HTTP_STATUS_REDIRECT_KEEP_VERB) { heap_free(request->verb); request->verb = heap_strdupW(szGET); } http_release_netconn(request, drain_content(request, FALSE)); if ((new_url = HTTP_GetRedirectURL( request, szNewLocation ))) { INTERNET_SendCallback(&request->hdr, request->hdr.dwContext, INTERNET_STATUS_REDIRECT, new_url, (strlenW(new_url) + 1) * sizeof(WCHAR)); res = HTTP_HandleRedirect(request, new_url); if (res == ERROR_SUCCESS) res = HTTP_HttpSendRequestW(request, NULL, 0, NULL, 0, 0, TRUE); heap_free( new_url ); } } } } if(res == ERROR_SUCCESS) create_cache_entry(request); if (res == ERROR_SUCCESS && request->contentLength) HTTP_ReceiveRequestData(request, TRUE, NULL); else send_request_complete(request, res == ERROR_SUCCESS, res); return res; } /*********************************************************************** * HttpEndRequestA (WININET.@) * * Ends an HTTP request that was started by HttpSendRequestEx * * RETURNS * TRUE if successful * FALSE on failure * */ BOOL WINAPI HttpEndRequestA(HINTERNET hRequest, LPINTERNET_BUFFERSA lpBuffersOut, DWORD dwFlags, DWORD_PTR dwContext) { TRACE("(%p, %p, %08x, %08lx)\n", hRequest, lpBuffersOut, dwFlags, dwContext); if (lpBuffersOut) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } return HttpEndRequestW(hRequest, NULL, dwFlags, dwContext); } typedef struct { task_header_t hdr; DWORD flags; DWORD context; } end_request_task_t; static void AsyncHttpEndRequestProc(task_header_t *hdr) { end_request_task_t *task = (end_request_task_t*)hdr; http_request_t *req = (http_request_t*)task->hdr.hdr; TRACE("%p\n", req); HTTP_HttpEndRequestW(req, task->flags, task->context); } /*********************************************************************** * HttpEndRequestW (WININET.@) * * Ends an HTTP request that was started by HttpSendRequestEx * * RETURNS * TRUE if successful * FALSE on failure * */ BOOL WINAPI HttpEndRequestW(HINTERNET hRequest, LPINTERNET_BUFFERSW lpBuffersOut, DWORD dwFlags, DWORD_PTR dwContext) { http_request_t *request; DWORD res; TRACE("%p %p %x %lx -->\n", hRequest, lpBuffersOut, dwFlags, dwContext); if (lpBuffersOut) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } request = (http_request_t*) get_handle_object( hRequest ); if (NULL == request || request->hdr.htype != WH_HHTTPREQ) { SetLastError(ERROR_INTERNET_INCORRECT_HANDLE_TYPE); if (request) WININET_Release( &request->hdr ); return FALSE; } request->hdr.dwFlags |= dwFlags; if (request->session->appInfo->hdr.dwFlags & INTERNET_FLAG_ASYNC) { end_request_task_t *task; task = alloc_async_task(&request->hdr, AsyncHttpEndRequestProc, sizeof(*task)); task->flags = dwFlags; task->context = dwContext; INTERNET_AsyncCall(&task->hdr); res = ERROR_IO_PENDING; } else res = HTTP_HttpEndRequestW(request, dwFlags, dwContext); WININET_Release( &request->hdr ); TRACE("%u <--\n", res); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * HttpSendRequestExA (WININET.@) * * Sends the specified request to the HTTP server and allows chunked * transfers. * * RETURNS * Success: TRUE * Failure: FALSE, call GetLastError() for more information. */ BOOL WINAPI HttpSendRequestExA(HINTERNET hRequest, LPINTERNET_BUFFERSA lpBuffersIn, LPINTERNET_BUFFERSA lpBuffersOut, DWORD dwFlags, DWORD_PTR dwContext) { INTERNET_BUFFERSW BuffersInW; BOOL rc = FALSE; DWORD headerlen; LPWSTR header = NULL; TRACE("(%p, %p, %p, %08x, %08lx)\n", hRequest, lpBuffersIn, lpBuffersOut, dwFlags, dwContext); if (lpBuffersIn) { BuffersInW.dwStructSize = sizeof(LPINTERNET_BUFFERSW); if (lpBuffersIn->lpcszHeader) { headerlen = MultiByteToWideChar(CP_ACP,0,lpBuffersIn->lpcszHeader, lpBuffersIn->dwHeadersLength,0,0); header = heap_alloc(headerlen*sizeof(WCHAR)); if (!(BuffersInW.lpcszHeader = header)) { SetLastError(ERROR_OUTOFMEMORY); return FALSE; } BuffersInW.dwHeadersLength = MultiByteToWideChar(CP_ACP, 0, lpBuffersIn->lpcszHeader, lpBuffersIn->dwHeadersLength, header, headerlen); } else BuffersInW.lpcszHeader = NULL; BuffersInW.dwHeadersTotal = lpBuffersIn->dwHeadersTotal; BuffersInW.lpvBuffer = lpBuffersIn->lpvBuffer; BuffersInW.dwBufferLength = lpBuffersIn->dwBufferLength; BuffersInW.dwBufferTotal = lpBuffersIn->dwBufferTotal; BuffersInW.Next = NULL; } rc = HttpSendRequestExW(hRequest, lpBuffersIn ? &BuffersInW : NULL, NULL, dwFlags, dwContext); heap_free(header); return rc; } /*********************************************************************** * HttpSendRequestExW (WININET.@) * * Sends the specified request to the HTTP server and allows chunked * transfers * * RETURNS * Success: TRUE * Failure: FALSE, call GetLastError() for more information. */ BOOL WINAPI HttpSendRequestExW(HINTERNET hRequest, LPINTERNET_BUFFERSW lpBuffersIn, LPINTERNET_BUFFERSW lpBuffersOut, DWORD dwFlags, DWORD_PTR dwContext) { http_request_t *request; http_session_t *session; appinfo_t *hIC; DWORD res; TRACE("(%p, %p, %p, %08x, %08lx)\n", hRequest, lpBuffersIn, lpBuffersOut, dwFlags, dwContext); request = (http_request_t*) get_handle_object( hRequest ); if (NULL == request || request->hdr.htype != WH_HHTTPREQ) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } session = request->session; assert(session->hdr.htype == WH_HHTTPSESSION); hIC = session->appInfo; assert(hIC->hdr.htype == WH_HINIT); if (hIC->hdr.dwFlags & INTERNET_FLAG_ASYNC) { send_request_task_t *task; task = alloc_async_task(&request->hdr, AsyncHttpSendRequestProc, sizeof(*task)); if (lpBuffersIn) { DWORD size = 0; if (lpBuffersIn->lpcszHeader) { if (lpBuffersIn->dwHeadersLength == ~0u) size = (strlenW( lpBuffersIn->lpcszHeader ) + 1) * sizeof(WCHAR); else size = lpBuffersIn->dwHeadersLength * sizeof(WCHAR); task->headers = heap_alloc(size); memcpy(task->headers, lpBuffersIn->lpcszHeader, size); } else task->headers = NULL; task->headers_len = size / sizeof(WCHAR); task->optional = lpBuffersIn->lpvBuffer; task->optional_len = lpBuffersIn->dwBufferLength; task->content_len = lpBuffersIn->dwBufferTotal; } else { task->headers = NULL; task->headers_len = 0; task->optional = NULL; task->optional_len = 0; task->content_len = 0; } task->end_request = FALSE; INTERNET_AsyncCall(&task->hdr); res = ERROR_IO_PENDING; } else { if (lpBuffersIn) res = HTTP_HttpSendRequestW(request, lpBuffersIn->lpcszHeader, lpBuffersIn->dwHeadersLength, lpBuffersIn->lpvBuffer, lpBuffersIn->dwBufferLength, lpBuffersIn->dwBufferTotal, FALSE); else res = HTTP_HttpSendRequestW(request, NULL, 0, NULL, 0, 0, FALSE); } lend: if ( request ) WININET_Release( &request->hdr ); TRACE("<---\n"); SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * HttpSendRequestW (WININET.@) * * Sends the specified request to the HTTP server * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpSendRequestW(HINTERNET hHttpRequest, LPCWSTR lpszHeaders, DWORD dwHeaderLength, LPVOID lpOptional ,DWORD dwOptionalLength) { http_request_t *request; http_session_t *session = NULL; appinfo_t *hIC = NULL; DWORD res = ERROR_SUCCESS; TRACE("%p, %s, %i, %p, %i)\n", hHttpRequest, debugstr_wn(lpszHeaders, dwHeaderLength), dwHeaderLength, lpOptional, dwOptionalLength); request = (http_request_t*) get_handle_object( hHttpRequest ); if (NULL == request || request->hdr.htype != WH_HHTTPREQ) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } session = request->session; if (NULL == session || session->hdr.htype != WH_HHTTPSESSION) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } hIC = session->appInfo; if (NULL == hIC || hIC->hdr.htype != WH_HINIT) { res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; goto lend; } if (hIC->hdr.dwFlags & INTERNET_FLAG_ASYNC) { send_request_task_t *task; task = alloc_async_task(&request->hdr, AsyncHttpSendRequestProc, sizeof(*task)); if (lpszHeaders) { DWORD size; if (dwHeaderLength == ~0u) size = (strlenW(lpszHeaders) + 1) * sizeof(WCHAR); else size = dwHeaderLength * sizeof(WCHAR); task->headers = heap_alloc(size); memcpy(task->headers, lpszHeaders, size); } else task->headers = NULL; task->headers_len = dwHeaderLength; task->optional = lpOptional; task->optional_len = dwOptionalLength; task->content_len = dwOptionalLength; task->end_request = TRUE; INTERNET_AsyncCall(&task->hdr); res = ERROR_IO_PENDING; } else { res = HTTP_HttpSendRequestW(request, lpszHeaders, dwHeaderLength, lpOptional, dwOptionalLength, dwOptionalLength, TRUE); } lend: if( request ) WININET_Release( &request->hdr ); SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * HttpSendRequestA (WININET.@) * * Sends the specified request to the HTTP server * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI HttpSendRequestA(HINTERNET hHttpRequest, LPCSTR lpszHeaders, DWORD dwHeaderLength, LPVOID lpOptional ,DWORD dwOptionalLength) { BOOL result; LPWSTR szHeaders=NULL; DWORD nLen=dwHeaderLength; if(lpszHeaders!=NULL) { nLen=MultiByteToWideChar(CP_ACP,0,lpszHeaders,dwHeaderLength,NULL,0); szHeaders = heap_alloc(nLen*sizeof(WCHAR)); MultiByteToWideChar(CP_ACP,0,lpszHeaders,dwHeaderLength,szHeaders,nLen); } result = HttpSendRequestW(hHttpRequest, szHeaders, nLen, lpOptional, dwOptionalLength); heap_free(szHeaders); return result; } /*********************************************************************** * HTTPSESSION_Destroy (internal) * * Deallocate session handle * */ static void HTTPSESSION_Destroy(object_header_t *hdr) { http_session_t *session = (http_session_t*) hdr; TRACE("%p\n", session); WININET_Release(&session->appInfo->hdr); heap_free(session->hostName); heap_free(session->password); heap_free(session->userName); } static DWORD HTTPSESSION_QueryOption(object_header_t *hdr, DWORD option, void *buffer, DWORD *size, BOOL unicode) { http_session_t *ses = (http_session_t *)hdr; switch(option) { case INTERNET_OPTION_HANDLE_TYPE: TRACE("INTERNET_OPTION_HANDLE_TYPE\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD*)buffer = INTERNET_HANDLE_TYPE_CONNECT_HTTP; return ERROR_SUCCESS; case INTERNET_OPTION_CONNECT_TIMEOUT: TRACE("INTERNET_OPTION_CONNECT_TIMEOUT\n"); if (*size < sizeof(DWORD)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD *)buffer = ses->connect_timeout; return ERROR_SUCCESS; case INTERNET_OPTION_SEND_TIMEOUT: TRACE("INTERNET_OPTION_SEND_TIMEOUT\n"); if (*size < sizeof(DWORD)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD *)buffer = ses->send_timeout; return ERROR_SUCCESS; case INTERNET_OPTION_RECEIVE_TIMEOUT: TRACE("INTERNET_OPTION_RECEIVE_TIMEOUT\n"); if (*size < sizeof(DWORD)) return ERROR_INSUFFICIENT_BUFFER; *size = sizeof(DWORD); *(DWORD *)buffer = ses->receive_timeout; return ERROR_SUCCESS; } return INET_QueryOption(hdr, option, buffer, size, unicode); } static DWORD HTTPSESSION_SetOption(object_header_t *hdr, DWORD option, void *buffer, DWORD size) { http_session_t *ses = (http_session_t*)hdr; switch(option) { case INTERNET_OPTION_USERNAME: { heap_free(ses->userName); if (!(ses->userName = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; } case INTERNET_OPTION_PASSWORD: { heap_free(ses->password); if (!(ses->password = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; } case INTERNET_OPTION_PROXY_USERNAME: { heap_free(ses->appInfo->proxyUsername); if (!(ses->appInfo->proxyUsername = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; } case INTERNET_OPTION_PROXY_PASSWORD: { heap_free(ses->appInfo->proxyPassword); if (!(ses->appInfo->proxyPassword = heap_strdupW(buffer))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; } case INTERNET_OPTION_CONNECT_TIMEOUT: { if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; ses->connect_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; } case INTERNET_OPTION_SEND_TIMEOUT: { if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; ses->send_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; } case INTERNET_OPTION_RECEIVE_TIMEOUT: { if (!buffer || size != sizeof(DWORD)) return ERROR_INVALID_PARAMETER; ses->receive_timeout = *(DWORD *)buffer; return ERROR_SUCCESS; } default: break; } return INET_SetOption(hdr, option, buffer, size); } static const object_vtbl_t HTTPSESSIONVtbl = { HTTPSESSION_Destroy, NULL, HTTPSESSION_QueryOption, HTTPSESSION_SetOption, NULL, NULL, NULL, NULL, NULL }; /*********************************************************************** * HTTP_Connect (internal) * * Create http session handle * * RETURNS * HINTERNET a session handle on success * NULL on failure * */ DWORD HTTP_Connect(appinfo_t *hIC, LPCWSTR lpszServerName, INTERNET_PORT serverPort, LPCWSTR lpszUserName, LPCWSTR lpszPassword, DWORD dwFlags, DWORD_PTR dwContext, DWORD dwInternalFlags, HINTERNET *ret) { http_session_t *session = NULL; TRACE("-->\n"); if (!lpszServerName || !lpszServerName[0]) return ERROR_INVALID_PARAMETER; assert( hIC->hdr.htype == WH_HINIT ); session = alloc_object(&hIC->hdr, &HTTPSESSIONVtbl, sizeof(http_session_t)); if (!session) return ERROR_OUTOFMEMORY; /* * According to my tests. The name is not resolved until a request is sent */ session->hdr.htype = WH_HHTTPSESSION; session->hdr.dwFlags = dwFlags; session->hdr.dwContext = dwContext; session->hdr.dwInternalFlags |= dwInternalFlags; WININET_AddRef( &hIC->hdr ); session->appInfo = hIC; list_add_head( &hIC->hdr.children, &session->hdr.entry ); session->hostName = heap_strdupW(lpszServerName); if (lpszUserName && lpszUserName[0]) session->userName = heap_strdupW(lpszUserName); if (lpszPassword && lpszPassword[0]) session->password = heap_strdupW(lpszPassword); session->hostPort = serverPort; session->connect_timeout = hIC->connect_timeout; session->send_timeout = 0; session->receive_timeout = 0; /* Don't send a handle created callback if this handle was created with InternetOpenUrl */ if (!(session->hdr.dwInternalFlags & INET_OPENURL)) { INTERNET_SendCallback(&hIC->hdr, dwContext, INTERNET_STATUS_HANDLE_CREATED, &session->hdr.hInternet, sizeof(HINTERNET)); } /* * an INTERNET_STATUS_REQUEST_COMPLETE is NOT sent here as per my tests on * windows */ TRACE("%p --> %p\n", hIC, session); *ret = session->hdr.hInternet; return ERROR_SUCCESS; } /*********************************************************************** * HTTP_clear_response_headers (internal) * * clear out any old response headers */ static void HTTP_clear_response_headers( http_request_t *request ) { DWORD i; EnterCriticalSection( &request->headers_section ); for( i=0; inCustHeaders; i++) { if( !request->custHeaders[i].lpszField ) continue; if( !request->custHeaders[i].lpszValue ) continue; if ( request->custHeaders[i].wFlags & HDR_ISREQUEST ) continue; HTTP_DeleteCustomHeader( request, i ); i--; } LeaveCriticalSection( &request->headers_section ); } /*********************************************************************** * HTTP_GetResponseHeaders (internal) * * Read server response * * RETURNS * * TRUE on success * FALSE on error */ static DWORD HTTP_GetResponseHeaders(http_request_t *request, INT *len) { INT cbreaks = 0; WCHAR buffer[MAX_REPLY_LEN]; DWORD buflen = MAX_REPLY_LEN; INT rc = 0; char bufferA[MAX_REPLY_LEN]; LPWSTR status_code = NULL, status_text = NULL; DWORD res = ERROR_HTTP_INVALID_SERVER_RESPONSE; BOOL codeHundred = FALSE; TRACE("-->\n"); if(!is_valid_netconn(request->netconn)) goto lend; /* clear old response headers (eg. from a redirect response) */ HTTP_clear_response_headers( request ); NETCON_set_timeout( request->netconn, FALSE, request->receive_timeout ); do { /* * We should first receive 'HTTP/1.x nnn OK' where nnn is the status code. */ buflen = MAX_REPLY_LEN; if ((res = read_line(request, bufferA, &buflen))) goto lend; if (!buflen) goto lend; rc += buflen; MultiByteToWideChar( CP_ACP, 0, bufferA, buflen, buffer, MAX_REPLY_LEN ); /* check is this a status code line? */ if (!strncmpW(buffer, g_szHttp1_0, 4)) { /* split the version from the status code */ status_code = strchrW( buffer, ' ' ); if( !status_code ) goto lend; *status_code++=0; /* split the status code from the status text */ status_text = strchrW( status_code, ' ' ); if( status_text ) *status_text++=0; request->status_code = atoiW(status_code); TRACE("version [%s] status code [%s] status text [%s]\n", debugstr_w(buffer), debugstr_w(status_code), debugstr_w(status_text) ); codeHundred = request->status_code == HTTP_STATUS_CONTINUE; } else if (!codeHundred) { WARN("No status line at head of response (%s)\n", debugstr_w(buffer)); heap_free(request->version); heap_free(request->statusText); request->status_code = HTTP_STATUS_OK; request->version = heap_strdupW(g_szHttp1_0); request->statusText = heap_strdupW(szOK); goto lend; } } while (codeHundred); /* Add status code */ HTTP_ProcessHeader(request, szStatus, status_code, HTTP_ADDHDR_FLAG_REPLACE | HTTP_ADDHDR_FLAG_ADD); heap_free(request->version); heap_free(request->statusText); request->version = heap_strdupW(buffer); request->statusText = heap_strdupW(status_text ? status_text : emptyW); /* Restore the spaces */ *(status_code-1) = ' '; if (status_text) *(status_text-1) = ' '; /* Parse each response line */ do { buflen = MAX_REPLY_LEN; if (!read_line(request, bufferA, &buflen) && buflen) { LPWSTR * pFieldAndValue; TRACE("got line %s, now interpreting\n", debugstr_a(bufferA)); if (!bufferA[0]) break; MultiByteToWideChar( CP_ACP, 0, bufferA, buflen, buffer, MAX_REPLY_LEN ); pFieldAndValue = HTTP_InterpretHttpHeader(buffer); if (pFieldAndValue) { HTTP_ProcessHeader(request, pFieldAndValue[0], pFieldAndValue[1], HTTP_ADDREQ_FLAG_ADD ); HTTP_FreeTokens(pFieldAndValue); } } else { cbreaks++; if (cbreaks >= 2) break; } }while(1); res = ERROR_SUCCESS; lend: *len = rc; TRACE("<--\n"); return res; } /*********************************************************************** * HTTP_InterpretHttpHeader (internal) * * Parse server response * * RETURNS * * Pointer to array of field, value, NULL on success. * NULL on error. */ static LPWSTR * HTTP_InterpretHttpHeader(LPCWSTR buffer) { LPWSTR * pTokenPair; LPWSTR pszColon; INT len; pTokenPair = heap_alloc_zero(sizeof(*pTokenPair)*3); pszColon = strchrW(buffer, ':'); /* must have two tokens */ if (!pszColon) { HTTP_FreeTokens(pTokenPair); if (buffer[0]) TRACE("No ':' in line: %s\n", debugstr_w(buffer)); return NULL; } pTokenPair[0] = heap_alloc((pszColon - buffer + 1) * sizeof(WCHAR)); if (!pTokenPair[0]) { HTTP_FreeTokens(pTokenPair); return NULL; } memcpy(pTokenPair[0], buffer, (pszColon - buffer) * sizeof(WCHAR)); pTokenPair[0][pszColon - buffer] = '\0'; /* skip colon */ pszColon++; len = strlenW(pszColon); pTokenPair[1] = heap_alloc((len + 1) * sizeof(WCHAR)); if (!pTokenPair[1]) { HTTP_FreeTokens(pTokenPair); return NULL; } memcpy(pTokenPair[1], pszColon, (len + 1) * sizeof(WCHAR)); strip_spaces(pTokenPair[0]); strip_spaces(pTokenPair[1]); TRACE("field(%s) Value(%s)\n", debugstr_w(pTokenPair[0]), debugstr_w(pTokenPair[1])); return pTokenPair; } /*********************************************************************** * HTTP_ProcessHeader (internal) * * Stuff header into header tables according to * */ #define COALESCEFLAGS (HTTP_ADDHDR_FLAG_COALESCE|HTTP_ADDHDR_FLAG_COALESCE_WITH_COMMA|HTTP_ADDHDR_FLAG_COALESCE_WITH_SEMICOLON) static DWORD HTTP_ProcessHeader(http_request_t *request, LPCWSTR field, LPCWSTR value, DWORD dwModifier) { LPHTTPHEADERW lphttpHdr = NULL; INT index; BOOL request_only = !!(dwModifier & HTTP_ADDHDR_FLAG_REQ); DWORD res = ERROR_HTTP_INVALID_HEADER; TRACE("--> %s: %s - 0x%08x\n", debugstr_w(field), debugstr_w(value), dwModifier); EnterCriticalSection( &request->headers_section ); /* REPLACE wins out over ADD */ if (dwModifier & HTTP_ADDHDR_FLAG_REPLACE) dwModifier &= ~HTTP_ADDHDR_FLAG_ADD; if (dwModifier & HTTP_ADDHDR_FLAG_ADD) index = -1; else index = HTTP_GetCustomHeaderIndex(request, field, 0, request_only); if (index >= 0) { if (dwModifier & HTTP_ADDHDR_FLAG_ADD_IF_NEW) { LeaveCriticalSection( &request->headers_section ); return ERROR_HTTP_INVALID_HEADER; } lphttpHdr = &request->custHeaders[index]; } else if (value) { HTTPHEADERW hdr; hdr.lpszField = (LPWSTR)field; hdr.lpszValue = (LPWSTR)value; hdr.wFlags = hdr.wCount = 0; if (dwModifier & HTTP_ADDHDR_FLAG_REQ) hdr.wFlags |= HDR_ISREQUEST; res = HTTP_InsertCustomHeader(request, &hdr); LeaveCriticalSection( &request->headers_section ); return res; } /* no value to delete */ else { LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } if (dwModifier & HTTP_ADDHDR_FLAG_REQ) lphttpHdr->wFlags |= HDR_ISREQUEST; else lphttpHdr->wFlags &= ~HDR_ISREQUEST; if (dwModifier & HTTP_ADDHDR_FLAG_REPLACE) { HTTP_DeleteCustomHeader( request, index ); if (value && value[0]) { HTTPHEADERW hdr; hdr.lpszField = (LPWSTR)field; hdr.lpszValue = (LPWSTR)value; hdr.wFlags = hdr.wCount = 0; if (dwModifier & HTTP_ADDHDR_FLAG_REQ) hdr.wFlags |= HDR_ISREQUEST; res = HTTP_InsertCustomHeader(request, &hdr); LeaveCriticalSection( &request->headers_section ); return res; } LeaveCriticalSection( &request->headers_section ); return ERROR_SUCCESS; } else if (dwModifier & COALESCEFLAGS) { LPWSTR lpsztmp; WCHAR ch = 0; INT len = 0; INT origlen = strlenW(lphttpHdr->lpszValue); INT valuelen = strlenW(value); if (dwModifier & HTTP_ADDHDR_FLAG_COALESCE_WITH_COMMA) { ch = ','; lphttpHdr->wFlags |= HDR_COMMADELIMITED; } else if (dwModifier & HTTP_ADDHDR_FLAG_COALESCE_WITH_SEMICOLON) { ch = ';'; lphttpHdr->wFlags |= HDR_COMMADELIMITED; } len = origlen + valuelen + ((ch > 0) ? 2 : 0); lpsztmp = heap_realloc(lphttpHdr->lpszValue, (len+1)*sizeof(WCHAR)); if (lpsztmp) { lphttpHdr->lpszValue = lpsztmp; /* FIXME: Increment lphttpHdr->wCount. Perhaps lpszValue should be an array */ if (ch > 0) { lphttpHdr->lpszValue[origlen] = ch; origlen++; lphttpHdr->lpszValue[origlen] = ' '; origlen++; } memcpy(&lphttpHdr->lpszValue[origlen], value, valuelen*sizeof(WCHAR)); lphttpHdr->lpszValue[len] = '\0'; res = ERROR_SUCCESS; } else { WARN("heap_realloc (%d bytes) failed\n",len+1); res = ERROR_OUTOFMEMORY; } } TRACE("<-- %d\n", res); LeaveCriticalSection( &request->headers_section ); return res; } /*********************************************************************** * HTTP_GetCustomHeaderIndex (internal) * * Return index of custom header from header array * Headers section must be held */ static INT HTTP_GetCustomHeaderIndex(http_request_t *request, LPCWSTR lpszField, int requested_index, BOOL request_only) { DWORD index; TRACE("%s, %d, %d\n", debugstr_w(lpszField), requested_index, request_only); for (index = 0; index < request->nCustHeaders; index++) { if (strcmpiW(request->custHeaders[index].lpszField, lpszField)) continue; if (request_only && !(request->custHeaders[index].wFlags & HDR_ISREQUEST)) continue; if (!request_only && (request->custHeaders[index].wFlags & HDR_ISREQUEST)) continue; if (requested_index == 0) break; requested_index --; } if (index >= request->nCustHeaders) index = -1; TRACE("Return: %d\n", index); return index; } /*********************************************************************** * HTTP_InsertCustomHeader (internal) * * Insert header into array * Headers section must be held */ static DWORD HTTP_InsertCustomHeader(http_request_t *request, LPHTTPHEADERW lpHdr) { INT count; LPHTTPHEADERW lph = NULL; TRACE("--> %s: %s\n", debugstr_w(lpHdr->lpszField), debugstr_w(lpHdr->lpszValue)); count = request->nCustHeaders + 1; if (count > 1) lph = heap_realloc_zero(request->custHeaders, sizeof(HTTPHEADERW) * count); else lph = heap_alloc_zero(sizeof(HTTPHEADERW) * count); if (!lph) return ERROR_OUTOFMEMORY; request->custHeaders = lph; request->custHeaders[count-1].lpszField = heap_strdupW(lpHdr->lpszField); request->custHeaders[count-1].lpszValue = heap_strdupW(lpHdr->lpszValue); request->custHeaders[count-1].wFlags = lpHdr->wFlags; request->custHeaders[count-1].wCount= lpHdr->wCount; request->nCustHeaders++; return ERROR_SUCCESS; } /*********************************************************************** * HTTP_DeleteCustomHeader (internal) * * Delete header from array * If this function is called, the index may change. * Headers section must be held */ static BOOL HTTP_DeleteCustomHeader(http_request_t *request, DWORD index) { if( request->nCustHeaders <= 0 ) return FALSE; if( index >= request->nCustHeaders ) return FALSE; request->nCustHeaders--; heap_free(request->custHeaders[index].lpszField); heap_free(request->custHeaders[index].lpszValue); memmove( &request->custHeaders[index], &request->custHeaders[index+1], (request->nCustHeaders - index)* sizeof(HTTPHEADERW) ); memset( &request->custHeaders[request->nCustHeaders], 0, sizeof(HTTPHEADERW) ); return TRUE; } /*********************************************************************** * IsHostInProxyBypassList (@) * * Undocumented * */ BOOL WINAPI IsHostInProxyBypassList(DWORD flags, LPCSTR szHost, DWORD length) { FIXME("STUB: flags=%d host=%s length=%d\n",flags,szHost,length); return FALSE; }