/* * Wininet * * Copyright 1999 Corel Corporation * Copyright 2002 CodeWeavers Inc. * Copyright 2002 Jaco Greeff * Copyright 2002 TransGaming Technologies Inc. * Copyright 2004 Mike McCormack for CodeWeavers * * Ulrich Czekalla * Aric Stewart * 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 "ws2tcpip.h" #include #include #include #include #include #include #ifdef HAVE_CORESERVICES_CORESERVICES_H #define GetCurrentThread MacGetCurrentThread #define LoadResource MacLoadResource #include #undef GetCurrentThread #undef LoadResource #undef DPRINTF #endif #include "windef.h" #include "winbase.h" #include "winreg.h" #include "winuser.h" #include "wininet.h" #include "winnls.h" #include "wine/debug.h" #include "winerror.h" #define NO_SHLWAPI_STREAM #include "shlwapi.h" #include "wine/exception.h" #include "internet.h" #include "resource.h" #include "wine/unicode.h" WINE_DEFAULT_DEBUG_CHANNEL(wininet); typedef struct { DWORD dwError; CHAR response[MAX_REPLY_LEN]; } WITHREADERROR, *LPWITHREADERROR; static DWORD g_dwTlsErrIndex = TLS_OUT_OF_INDEXES; HMODULE WININET_hModule; static CRITICAL_SECTION WININET_cs; static CRITICAL_SECTION_DEBUG WININET_cs_debug = { 0, 0, &WININET_cs, { &WININET_cs_debug.ProcessLocksList, &WININET_cs_debug.ProcessLocksList }, 0, 0, { (DWORD_PTR)(__FILE__ ": WININET_cs") } }; static CRITICAL_SECTION WININET_cs = { &WININET_cs_debug, -1, 0, 0, 0, 0 }; static object_header_t **handle_table; static UINT_PTR next_handle; static UINT_PTR handle_table_size; typedef struct { DWORD proxyEnabled; LPWSTR proxy; LPWSTR proxyBypass; LPWSTR proxyUsername; LPWSTR proxyPassword; } proxyinfo_t; static ULONG max_conns = 2, max_1_0_conns = 4; static ULONG connect_timeout = 60000; static const WCHAR szInternetSettings[] = { 'S','o','f','t','w','a','r','e','\\','M','i','c','r','o','s','o','f','t','\\', 'W','i','n','d','o','w','s','\\','C','u','r','r','e','n','t','V','e','r','s','i','o','n','\\', 'I','n','t','e','r','n','e','t',' ','S','e','t','t','i','n','g','s',0 }; static const WCHAR szProxyServer[] = { 'P','r','o','x','y','S','e','r','v','e','r', 0 }; static const WCHAR szProxyEnable[] = { 'P','r','o','x','y','E','n','a','b','l','e', 0 }; static const WCHAR szProxyOverride[] = { 'P','r','o','x','y','O','v','e','r','r','i','d','e', 0 }; void *alloc_object(object_header_t *parent, const object_vtbl_t *vtbl, size_t size) { UINT_PTR handle = 0, num; object_header_t *ret; object_header_t **p; BOOL res = TRUE; ret = heap_alloc_zero(size); if(!ret) return NULL; list_init(&ret->children); EnterCriticalSection( &WININET_cs ); if(!handle_table_size) { num = 16; p = heap_alloc_zero(sizeof(handle_table[0]) * num); if(p) { handle_table = p; handle_table_size = num; next_handle = 1; }else { res = FALSE; } }else if(next_handle == handle_table_size) { num = handle_table_size * 2; p = heap_realloc_zero(handle_table, sizeof(handle_table[0]) * num); if(p) { handle_table = p; handle_table_size = num; }else { res = FALSE; } } if(res) { handle = next_handle; if(handle_table[handle]) ERR("handle isn't free but should be\n"); handle_table[handle] = ret; ret->valid_handle = TRUE; while(handle_table[next_handle] && next_handle < handle_table_size) next_handle++; } LeaveCriticalSection( &WININET_cs ); if(!res) { heap_free(ret); return NULL; } ret->vtbl = vtbl; ret->refs = 1; ret->hInternet = (HINTERNET)handle; if(parent) { ret->lpfnStatusCB = parent->lpfnStatusCB; ret->dwInternalFlags = parent->dwInternalFlags & INET_CALLBACKW; } return ret; } object_header_t *WININET_AddRef( object_header_t *info ) { ULONG refs = InterlockedIncrement(&info->refs); TRACE("%p -> refcount = %d\n", info, refs ); return info; } object_header_t *get_handle_object( HINTERNET hinternet ) { object_header_t *info = NULL; UINT_PTR handle = (UINT_PTR) hinternet; EnterCriticalSection( &WININET_cs ); if(handle > 0 && handle < handle_table_size && handle_table[handle] && handle_table[handle]->valid_handle) info = WININET_AddRef(handle_table[handle]); LeaveCriticalSection( &WININET_cs ); TRACE("handle %ld -> %p\n", handle, info); return info; } static void invalidate_handle(object_header_t *info) { object_header_t *child, *next; if(!info->valid_handle) return; info->valid_handle = FALSE; /* Free all children as native does */ LIST_FOR_EACH_ENTRY_SAFE( child, next, &info->children, object_header_t, entry ) { TRACE("invalidating child handle %p for parent %p\n", child->hInternet, info); invalidate_handle( child ); } WININET_Release(info); } BOOL WININET_Release( object_header_t *info ) { ULONG refs = InterlockedDecrement(&info->refs); TRACE( "object %p refcount = %d\n", info, refs ); if( !refs ) { invalidate_handle(info); if ( info->vtbl->CloseConnection ) { TRACE( "closing connection %p\n", info); info->vtbl->CloseConnection( info ); } /* Don't send a callback if this is a session handle created with InternetOpenUrl */ if ((info->htype != WH_HHTTPSESSION && info->htype != WH_HFTPSESSION) || !(info->dwInternalFlags & INET_OPENURL)) { INTERNET_SendCallback(info, info->dwContext, INTERNET_STATUS_HANDLE_CLOSING, &info->hInternet, sizeof(HINTERNET)); } TRACE( "destroying object %p\n", info); if ( info->htype != WH_HINIT ) list_remove( &info->entry ); info->vtbl->Destroy( info ); if(info->hInternet) { UINT_PTR handle = (UINT_PTR)info->hInternet; EnterCriticalSection( &WININET_cs ); handle_table[handle] = NULL; if(next_handle > handle) next_handle = handle; LeaveCriticalSection( &WININET_cs ); } heap_free(info); } return TRUE; } /*********************************************************************** * DllMain [Internal] Initializes the internal 'WININET.DLL'. * * PARAMS * hinstDLL [I] handle to the DLL's instance * fdwReason [I] * lpvReserved [I] reserved, must be NULL * * RETURNS * Success: TRUE * Failure: FALSE */ BOOL WINAPI DllMain (HINSTANCE hinstDLL, DWORD fdwReason, LPVOID lpvReserved) { TRACE("%p,%x,%p\n", hinstDLL, fdwReason, lpvReserved); switch (fdwReason) { case DLL_PROCESS_ATTACH: g_dwTlsErrIndex = TlsAlloc(); if (g_dwTlsErrIndex == TLS_OUT_OF_INDEXES) return FALSE; if(!init_urlcache()) { TlsFree(g_dwTlsErrIndex); return FALSE; } WININET_hModule = hinstDLL; break; case DLL_THREAD_ATTACH: break; case DLL_THREAD_DETACH: if (g_dwTlsErrIndex != TLS_OUT_OF_INDEXES) { heap_free(TlsGetValue(g_dwTlsErrIndex)); } break; case DLL_PROCESS_DETACH: if (lpvReserved) break; collect_connections(COLLECT_CLEANUP); NETCON_unload(); free_urlcache(); free_cookie(); if (g_dwTlsErrIndex != TLS_OUT_OF_INDEXES) { heap_free(TlsGetValue(g_dwTlsErrIndex)); TlsFree(g_dwTlsErrIndex); } break; } return TRUE; } /*********************************************************************** * DllInstall (WININET.@) */ HRESULT WINAPI DllInstall(BOOL bInstall, LPCWSTR cmdline) { FIXME("(%x %s): stub\n", bInstall, debugstr_w(cmdline)); return S_OK; } /*********************************************************************** * INTERNET_SaveProxySettings * * Stores the proxy settings given by lpwai into the registry * * RETURNS * ERROR_SUCCESS if no error, or error code on fail */ static LONG INTERNET_SaveProxySettings( proxyinfo_t *lpwpi ) { HKEY key; LONG ret; if ((ret = RegOpenKeyW( HKEY_CURRENT_USER, szInternetSettings, &key ))) return ret; if ((ret = RegSetValueExW( key, szProxyEnable, 0, REG_DWORD, (BYTE*)&lpwpi->proxyEnabled, sizeof(DWORD)))) { RegCloseKey( key ); return ret; } if (lpwpi->proxy) { if ((ret = RegSetValueExW( key, szProxyServer, 0, REG_SZ, (BYTE*)lpwpi->proxy, sizeof(WCHAR) * (lstrlenW(lpwpi->proxy) + 1)))) { RegCloseKey( key ); return ret; } } else { if ((ret = RegDeleteValueW( key, szProxyServer )) && ret != ERROR_FILE_NOT_FOUND) { RegCloseKey( key ); return ret; } } RegCloseKey(key); return ERROR_SUCCESS; } /*********************************************************************** * INTERNET_FindProxyForProtocol * * Searches the proxy string for a proxy of the given protocol. * Returns the found proxy, or the default proxy if none of the given * protocol is found. * * PARAMETERS * szProxy [In] proxy string to search * proto [In] protocol to search for, e.g. "http" * foundProxy [Out] found proxy * foundProxyLen [In/Out] length of foundProxy buffer, in WCHARs * * RETURNS * TRUE if a proxy is found, FALSE if not. If foundProxy is too short, * *foundProxyLen is set to the required size in WCHARs, including the * NULL terminator, and the last error is set to ERROR_INSUFFICIENT_BUFFER. */ BOOL INTERNET_FindProxyForProtocol(LPCWSTR szProxy, LPCWSTR proto, WCHAR *foundProxy, DWORD *foundProxyLen) { LPCWSTR ptr; BOOL ret = FALSE; TRACE("(%s, %s)\n", debugstr_w(szProxy), debugstr_w(proto)); /* First, look for the specified protocol (proto=scheme://host:port) */ for (ptr = szProxy; !ret && ptr && *ptr; ) { LPCWSTR end, equal; if (!(end = strchrW(ptr, ' '))) end = ptr + strlenW(ptr); if ((equal = strchrW(ptr, '=')) && equal < end && equal - ptr == strlenW(proto) && !strncmpiW(proto, ptr, strlenW(proto))) { if (end - equal > *foundProxyLen) { WARN("buffer too short for %s\n", debugstr_wn(equal + 1, end - equal - 1)); *foundProxyLen = end - equal; SetLastError(ERROR_INSUFFICIENT_BUFFER); } else { memcpy(foundProxy, equal + 1, (end - equal) * sizeof(WCHAR)); foundProxy[end - equal] = 0; ret = TRUE; } } if (*end == ' ') ptr = end + 1; else ptr = end; } if (!ret) { /* It wasn't found: look for no protocol */ for (ptr = szProxy; !ret && ptr && *ptr; ) { LPCWSTR end; if (!(end = strchrW(ptr, ' '))) end = ptr + strlenW(ptr); if (!strchrW(ptr, '=')) { if (end - ptr + 1 > *foundProxyLen) { WARN("buffer too short for %s\n", debugstr_wn(ptr, end - ptr)); *foundProxyLen = end - ptr + 1; SetLastError(ERROR_INSUFFICIENT_BUFFER); } else { memcpy(foundProxy, ptr, (end - ptr) * sizeof(WCHAR)); foundProxy[end - ptr] = 0; ret = TRUE; } } if (*end == ' ') ptr = end + 1; else ptr = end; } } if (ret) TRACE("found proxy for %s: %s\n", debugstr_w(proto), debugstr_w(foundProxy)); return ret; } /*********************************************************************** * InternetInitializeAutoProxyDll (WININET.@) * * Setup the internal proxy * * PARAMETERS * dwReserved * * RETURNS * FALSE on failure * */ BOOL WINAPI InternetInitializeAutoProxyDll(DWORD dwReserved) { FIXME("STUB\n"); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } /*********************************************************************** * DetectAutoProxyUrl (WININET.@) * * Auto detect the proxy url * * RETURNS * FALSE on failure * */ BOOL WINAPI DetectAutoProxyUrl(LPSTR lpszAutoProxyUrl, DWORD dwAutoProxyUrlLength, DWORD dwDetectFlags) { FIXME("STUB\n"); SetLastError(ERROR_CALL_NOT_IMPLEMENTED); return FALSE; } static void FreeProxyInfo( proxyinfo_t *lpwpi ) { heap_free(lpwpi->proxy); heap_free(lpwpi->proxyBypass); heap_free(lpwpi->proxyUsername); heap_free(lpwpi->proxyPassword); } static proxyinfo_t *global_proxy; static void free_global_proxy( void ) { EnterCriticalSection( &WININET_cs ); if (global_proxy) { FreeProxyInfo( global_proxy ); heap_free( global_proxy ); } LeaveCriticalSection( &WININET_cs ); } static BOOL parse_proxy_url( proxyinfo_t *info, const WCHAR *url ) { static const WCHAR fmt[] = {'%','.','*','s',':','%','u',0}; URL_COMPONENTSW uc = {sizeof(uc)}; uc.dwHostNameLength = 1; uc.dwUserNameLength = 1; uc.dwPasswordLength = 1; if (!InternetCrackUrlW( url, 0, 0, &uc )) return FALSE; if (!uc.dwHostNameLength) { if (!(info->proxy = heap_strdupW( url ))) return FALSE; info->proxyUsername = NULL; info->proxyPassword = NULL; return TRUE; } if (!(info->proxy = heap_alloc( (uc.dwHostNameLength + 12) * sizeof(WCHAR) ))) return FALSE; sprintfW( info->proxy, fmt, uc.dwHostNameLength, uc.lpszHostName, uc.nPort ); if (!uc.dwUserNameLength) info->proxyUsername = NULL; else if (!(info->proxyUsername = heap_strndupW( uc.lpszUserName, uc.dwUserNameLength ))) { heap_free( info->proxy ); return FALSE; } if (!uc.dwPasswordLength) info->proxyPassword = NULL; else if (!(info->proxyPassword = heap_strndupW( uc.lpszPassword, uc.dwPasswordLength ))) { heap_free( info->proxyUsername ); heap_free( info->proxy ); return FALSE; } return TRUE; } /*********************************************************************** * INTERNET_LoadProxySettings * * Loads proxy information from process-wide global settings, the registry, * or the environment into lpwpi. * * The caller should call FreeProxyInfo when done with lpwpi. * * FIXME: * The proxy may be specified in the form 'http=proxy.my.org' * Presumably that means there can be ftp=ftpproxy.my.org too. */ static LONG INTERNET_LoadProxySettings( proxyinfo_t *lpwpi ) { HKEY key; DWORD type, len; LPCSTR envproxy; LONG ret; memset( lpwpi, 0, sizeof(*lpwpi) ); EnterCriticalSection( &WININET_cs ); if (global_proxy) { lpwpi->proxyEnabled = global_proxy->proxyEnabled; lpwpi->proxy = heap_strdupW( global_proxy->proxy ); lpwpi->proxyBypass = heap_strdupW( global_proxy->proxyBypass ); } LeaveCriticalSection( &WININET_cs ); if ((ret = RegOpenKeyW( HKEY_CURRENT_USER, szInternetSettings, &key ))) { FreeProxyInfo( lpwpi ); return ret; } len = sizeof(DWORD); if (RegQueryValueExW( key, szProxyEnable, NULL, &type, (BYTE *)&lpwpi->proxyEnabled, &len ) || type != REG_DWORD) { lpwpi->proxyEnabled = 0; if((ret = RegSetValueExW( key, szProxyEnable, 0, REG_DWORD, (BYTE *)&lpwpi->proxyEnabled, sizeof(DWORD) ))) { FreeProxyInfo( lpwpi ); RegCloseKey( key ); return ret; } } if (!(envproxy = getenv( "http_proxy" )) || lpwpi->proxyEnabled) { /* figure out how much memory the proxy setting takes */ if (!RegQueryValueExW( key, szProxyServer, NULL, &type, NULL, &len ) && len && (type == REG_SZ)) { LPWSTR szProxy, p; static const WCHAR szHttp[] = {'h','t','t','p','=',0}; if (!(szProxy = heap_alloc(len))) { RegCloseKey( key ); FreeProxyInfo( lpwpi ); return ERROR_OUTOFMEMORY; } RegQueryValueExW( key, szProxyServer, NULL, &type, (BYTE*)szProxy, &len ); /* find the http proxy, and strip away everything else */ p = strstrW( szProxy, szHttp ); if (p) { p += lstrlenW( szHttp ); lstrcpyW( szProxy, p ); } p = strchrW( szProxy, ';' ); if (p) *p = 0; FreeProxyInfo( lpwpi ); lpwpi->proxy = szProxy; lpwpi->proxyBypass = NULL; TRACE("http proxy (from registry) = %s\n", debugstr_w(lpwpi->proxy)); } else { TRACE("No proxy server settings in registry.\n"); FreeProxyInfo( lpwpi ); lpwpi->proxy = NULL; lpwpi->proxyBypass = NULL; } } else if (envproxy) { WCHAR *envproxyW; len = MultiByteToWideChar( CP_UNIXCP, 0, envproxy, -1, NULL, 0 ); if (!(envproxyW = heap_alloc(len * sizeof(WCHAR)))) { RegCloseKey( key ); return ERROR_OUTOFMEMORY; } MultiByteToWideChar( CP_UNIXCP, 0, envproxy, -1, envproxyW, len ); FreeProxyInfo( lpwpi ); if (parse_proxy_url( lpwpi, envproxyW )) { TRACE("http proxy (from environment) = %s\n", debugstr_w(lpwpi->proxy)); lpwpi->proxyEnabled = 1; lpwpi->proxyBypass = NULL; } else { WARN("failed to parse http_proxy value %s\n", debugstr_w(envproxyW)); lpwpi->proxyEnabled = 0; lpwpi->proxy = NULL; lpwpi->proxyBypass = NULL; } heap_free( envproxyW ); } if (lpwpi->proxyEnabled) { TRACE("Proxy is enabled.\n"); if (!(envproxy = getenv( "no_proxy" ))) { /* figure out how much memory the proxy setting takes */ if (!RegQueryValueExW( key, szProxyOverride, NULL, &type, NULL, &len ) && len && (type == REG_SZ)) { LPWSTR szProxy; if (!(szProxy = heap_alloc(len))) { RegCloseKey( key ); return ERROR_OUTOFMEMORY; } RegQueryValueExW( key, szProxyOverride, NULL, &type, (BYTE*)szProxy, &len ); heap_free( lpwpi->proxyBypass ); lpwpi->proxyBypass = szProxy; TRACE("http proxy bypass (from registry) = %s\n", debugstr_w(lpwpi->proxyBypass)); } else { heap_free( lpwpi->proxyBypass ); lpwpi->proxyBypass = NULL; TRACE("No proxy bypass server settings in registry.\n"); } } else { WCHAR *envproxyW; len = MultiByteToWideChar( CP_UNIXCP, 0, envproxy, -1, NULL, 0 ); if (!(envproxyW = heap_alloc(len * sizeof(WCHAR)))) { RegCloseKey( key ); return ERROR_OUTOFMEMORY; } MultiByteToWideChar( CP_UNIXCP, 0, envproxy, -1, envproxyW, len ); heap_free( lpwpi->proxyBypass ); lpwpi->proxyBypass = envproxyW; TRACE("http proxy bypass (from environment) = %s\n", debugstr_w(lpwpi->proxyBypass)); } } else TRACE("Proxy is disabled.\n"); RegCloseKey( key ); return ERROR_SUCCESS; } /*********************************************************************** * INTERNET_ConfigureProxy */ static BOOL INTERNET_ConfigureProxy( appinfo_t *lpwai ) { proxyinfo_t wpi; if (INTERNET_LoadProxySettings( &wpi )) return FALSE; if (wpi.proxyEnabled) { TRACE("http proxy = %s bypass = %s\n", debugstr_w(wpi.proxy), debugstr_w(wpi.proxyBypass)); lpwai->accessType = INTERNET_OPEN_TYPE_PROXY; lpwai->proxy = wpi.proxy; lpwai->proxyBypass = wpi.proxyBypass; lpwai->proxyUsername = wpi.proxyUsername; lpwai->proxyPassword = wpi.proxyPassword; return TRUE; } lpwai->accessType = INTERNET_OPEN_TYPE_DIRECT; FreeProxyInfo(&wpi); return FALSE; } /*********************************************************************** * dump_INTERNET_FLAGS * * Helper function to TRACE the internet flags. * * RETURNS * None * */ static void dump_INTERNET_FLAGS(DWORD dwFlags) { #define FE(x) { x, #x } static const wininet_flag_info flag[] = { FE(INTERNET_FLAG_RELOAD), FE(INTERNET_FLAG_RAW_DATA), FE(INTERNET_FLAG_EXISTING_CONNECT), FE(INTERNET_FLAG_ASYNC), FE(INTERNET_FLAG_PASSIVE), FE(INTERNET_FLAG_NO_CACHE_WRITE), FE(INTERNET_FLAG_MAKE_PERSISTENT), FE(INTERNET_FLAG_FROM_CACHE), FE(INTERNET_FLAG_SECURE), FE(INTERNET_FLAG_KEEP_CONNECTION), FE(INTERNET_FLAG_NO_AUTO_REDIRECT), FE(INTERNET_FLAG_READ_PREFETCH), FE(INTERNET_FLAG_NO_COOKIES), FE(INTERNET_FLAG_NO_AUTH), FE(INTERNET_FLAG_CACHE_IF_NET_FAIL), FE(INTERNET_FLAG_IGNORE_REDIRECT_TO_HTTP), FE(INTERNET_FLAG_IGNORE_REDIRECT_TO_HTTPS), FE(INTERNET_FLAG_IGNORE_CERT_DATE_INVALID), FE(INTERNET_FLAG_IGNORE_CERT_CN_INVALID), FE(INTERNET_FLAG_RESYNCHRONIZE), FE(INTERNET_FLAG_HYPERLINK), FE(INTERNET_FLAG_NO_UI), FE(INTERNET_FLAG_PRAGMA_NOCACHE), FE(INTERNET_FLAG_CACHE_ASYNC), FE(INTERNET_FLAG_FORMS_SUBMIT), FE(INTERNET_FLAG_NEED_FILE), FE(INTERNET_FLAG_TRANSFER_ASCII), FE(INTERNET_FLAG_TRANSFER_BINARY) }; #undef FE unsigned int i; for (i = 0; i < (sizeof(flag) / sizeof(flag[0])); i++) { if (flag[i].val & dwFlags) { TRACE(" %s", flag[i].name); dwFlags &= ~flag[i].val; } } if (dwFlags) TRACE(" Unknown flags (%08x)\n", dwFlags); else TRACE("\n"); } /*********************************************************************** * INTERNET_CloseHandle (internal) * * Close internet handle * */ static VOID APPINFO_Destroy(object_header_t *hdr) { appinfo_t *lpwai = (appinfo_t*)hdr; TRACE("%p\n",lpwai); heap_free(lpwai->agent); heap_free(lpwai->proxy); heap_free(lpwai->proxyBypass); heap_free(lpwai->proxyUsername); heap_free(lpwai->proxyPassword); } static DWORD APPINFO_QueryOption(object_header_t *hdr, DWORD option, void *buffer, DWORD *size, BOOL unicode) { appinfo_t *ai = (appinfo_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_INTERNET; return ERROR_SUCCESS; case INTERNET_OPTION_USER_AGENT: { DWORD bufsize; TRACE("INTERNET_OPTION_USER_AGENT\n"); bufsize = *size; if (unicode) { DWORD len = ai->agent ? strlenW(ai->agent) : 0; *size = (len + 1) * sizeof(WCHAR); if(!buffer || bufsize < *size) return ERROR_INSUFFICIENT_BUFFER; if (ai->agent) strcpyW(buffer, ai->agent); else *(WCHAR *)buffer = 0; /* If the buffer is copied, the returned length doesn't include * the NULL terminator. */ *size = len; }else { if (ai->agent) *size = WideCharToMultiByte(CP_ACP, 0, ai->agent, -1, NULL, 0, NULL, NULL); else *size = 1; if(!buffer || bufsize < *size) return ERROR_INSUFFICIENT_BUFFER; if (ai->agent) WideCharToMultiByte(CP_ACP, 0, ai->agent, -1, buffer, *size, NULL, NULL); else *(char *)buffer = 0; /* If the buffer is copied, the returned length doesn't include * the NULL terminator. */ *size -= 1; } return ERROR_SUCCESS; } case INTERNET_OPTION_PROXY: if(!size) return ERROR_INVALID_PARAMETER; if (unicode) { INTERNET_PROXY_INFOW *pi = (INTERNET_PROXY_INFOW *)buffer; DWORD proxyBytesRequired = 0, proxyBypassBytesRequired = 0; LPWSTR proxy, proxy_bypass; if (ai->proxy) proxyBytesRequired = (lstrlenW(ai->proxy) + 1) * sizeof(WCHAR); if (ai->proxyBypass) proxyBypassBytesRequired = (lstrlenW(ai->proxyBypass) + 1) * sizeof(WCHAR); if (!pi || *size < sizeof(INTERNET_PROXY_INFOW) + proxyBytesRequired + proxyBypassBytesRequired) { *size = sizeof(INTERNET_PROXY_INFOW) + proxyBytesRequired + proxyBypassBytesRequired; return ERROR_INSUFFICIENT_BUFFER; } proxy = (LPWSTR)((LPBYTE)buffer + sizeof(INTERNET_PROXY_INFOW)); proxy_bypass = (LPWSTR)((LPBYTE)buffer + sizeof(INTERNET_PROXY_INFOW) + proxyBytesRequired); pi->dwAccessType = ai->accessType; pi->lpszProxy = NULL; pi->lpszProxyBypass = NULL; if (ai->proxy) { lstrcpyW(proxy, ai->proxy); pi->lpszProxy = proxy; } if (ai->proxyBypass) { lstrcpyW(proxy_bypass, ai->proxyBypass); pi->lpszProxyBypass = proxy_bypass; } *size = sizeof(INTERNET_PROXY_INFOW) + proxyBytesRequired + proxyBypassBytesRequired; return ERROR_SUCCESS; }else { INTERNET_PROXY_INFOA *pi = (INTERNET_PROXY_INFOA *)buffer; DWORD proxyBytesRequired = 0, proxyBypassBytesRequired = 0; LPSTR proxy, proxy_bypass; if (ai->proxy) proxyBytesRequired = WideCharToMultiByte(CP_ACP, 0, ai->proxy, -1, NULL, 0, NULL, NULL); if (ai->proxyBypass) proxyBypassBytesRequired = WideCharToMultiByte(CP_ACP, 0, ai->proxyBypass, -1, NULL, 0, NULL, NULL); if (!pi || *size < sizeof(INTERNET_PROXY_INFOA) + proxyBytesRequired + proxyBypassBytesRequired) { *size = sizeof(INTERNET_PROXY_INFOA) + proxyBytesRequired + proxyBypassBytesRequired; return ERROR_INSUFFICIENT_BUFFER; } proxy = (LPSTR)((LPBYTE)buffer + sizeof(INTERNET_PROXY_INFOA)); proxy_bypass = (LPSTR)((LPBYTE)buffer + sizeof(INTERNET_PROXY_INFOA) + proxyBytesRequired); pi->dwAccessType = ai->accessType; pi->lpszProxy = NULL; pi->lpszProxyBypass = NULL; if (ai->proxy) { WideCharToMultiByte(CP_ACP, 0, ai->proxy, -1, proxy, proxyBytesRequired, NULL, NULL); pi->lpszProxy = proxy; } if (ai->proxyBypass) { WideCharToMultiByte(CP_ACP, 0, ai->proxyBypass, -1, proxy_bypass, proxyBypassBytesRequired, NULL, NULL); pi->lpszProxyBypass = proxy_bypass; } *size = sizeof(INTERNET_PROXY_INFOA) + proxyBytesRequired + proxyBypassBytesRequired; return ERROR_SUCCESS; } case INTERNET_OPTION_CONNECT_TIMEOUT: TRACE("INTERNET_OPTION_CONNECT_TIMEOUT\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *(ULONG*)buffer = ai->connect_timeout; *size = sizeof(ULONG); return ERROR_SUCCESS; } return INET_QueryOption(hdr, option, buffer, size, unicode); } static DWORD APPINFO_SetOption(object_header_t *hdr, DWORD option, void *buf, DWORD size) { appinfo_t *ai = (appinfo_t*)hdr; switch(option) { case INTERNET_OPTION_CONNECT_TIMEOUT: TRACE("INTERNET_OPTION_CONNECT_TIMEOUT\n"); if(size != sizeof(connect_timeout)) return ERROR_INTERNET_BAD_OPTION_LENGTH; if(!*(ULONG*)buf) return ERROR_BAD_ARGUMENTS; ai->connect_timeout = *(ULONG*)buf; return ERROR_SUCCESS; case INTERNET_OPTION_USER_AGENT: heap_free(ai->agent); if (!(ai->agent = heap_strdupW(buf))) return ERROR_OUTOFMEMORY; return ERROR_SUCCESS; } return INET_SetOption(hdr, option, buf, size); } static const object_vtbl_t APPINFOVtbl = { APPINFO_Destroy, NULL, APPINFO_QueryOption, APPINFO_SetOption, NULL, NULL, NULL, NULL }; /*********************************************************************** * InternetOpenW (WININET.@) * * Per-application initialization of wininet * * RETURNS * HINTERNET on success * NULL on failure * */ HINTERNET WINAPI InternetOpenW(LPCWSTR lpszAgent, DWORD dwAccessType, LPCWSTR lpszProxy, LPCWSTR lpszProxyBypass, DWORD dwFlags) { appinfo_t *lpwai = NULL; if (TRACE_ON(wininet)) { #define FE(x) { x, #x } static const wininet_flag_info access_type[] = { FE(INTERNET_OPEN_TYPE_PRECONFIG), FE(INTERNET_OPEN_TYPE_DIRECT), FE(INTERNET_OPEN_TYPE_PROXY), FE(INTERNET_OPEN_TYPE_PRECONFIG_WITH_NO_AUTOPROXY) }; #undef FE DWORD i; const char *access_type_str = "Unknown"; TRACE("(%s, %i, %s, %s, %i)\n", debugstr_w(lpszAgent), dwAccessType, debugstr_w(lpszProxy), debugstr_w(lpszProxyBypass), dwFlags); for (i = 0; i < (sizeof(access_type) / sizeof(access_type[0])); i++) { if (access_type[i].val == dwAccessType) { access_type_str = access_type[i].name; break; } } TRACE(" access type : %s\n", access_type_str); TRACE(" flags :"); dump_INTERNET_FLAGS(dwFlags); } /* Clear any error information */ INTERNET_SetLastError(0); if((dwAccessType == INTERNET_OPEN_TYPE_PROXY) && !lpszProxy) { SetLastError(ERROR_INVALID_PARAMETER); return NULL; } lpwai = alloc_object(NULL, &APPINFOVtbl, sizeof(appinfo_t)); if (!lpwai) { SetLastError(ERROR_OUTOFMEMORY); return NULL; } lpwai->hdr.htype = WH_HINIT; lpwai->hdr.dwFlags = dwFlags; lpwai->accessType = dwAccessType; lpwai->proxyUsername = NULL; lpwai->proxyPassword = NULL; lpwai->connect_timeout = connect_timeout; lpwai->agent = heap_strdupW(lpszAgent); if(dwAccessType == INTERNET_OPEN_TYPE_PRECONFIG) INTERNET_ConfigureProxy( lpwai ); else if(dwAccessType == INTERNET_OPEN_TYPE_PROXY) { lpwai->proxy = heap_strdupW(lpszProxy); lpwai->proxyBypass = heap_strdupW(lpszProxyBypass); } TRACE("returning %p\n", lpwai); return lpwai->hdr.hInternet; } /*********************************************************************** * InternetOpenA (WININET.@) * * Per-application initialization of wininet * * RETURNS * HINTERNET on success * NULL on failure * */ HINTERNET WINAPI InternetOpenA(LPCSTR lpszAgent, DWORD dwAccessType, LPCSTR lpszProxy, LPCSTR lpszProxyBypass, DWORD dwFlags) { WCHAR *szAgent, *szProxy, *szBypass; HINTERNET rc; TRACE("(%s, 0x%08x, %s, %s, 0x%08x)\n", debugstr_a(lpszAgent), dwAccessType, debugstr_a(lpszProxy), debugstr_a(lpszProxyBypass), dwFlags); szAgent = heap_strdupAtoW(lpszAgent); szProxy = heap_strdupAtoW(lpszProxy); szBypass = heap_strdupAtoW(lpszProxyBypass); rc = InternetOpenW(szAgent, dwAccessType, szProxy, szBypass, dwFlags); heap_free(szAgent); heap_free(szProxy); heap_free(szBypass); return rc; } /*********************************************************************** * InternetGetLastResponseInfoA (WININET.@) * * Return last wininet error description on the calling thread * * RETURNS * TRUE on success of writing to buffer * FALSE on failure * */ BOOL WINAPI InternetGetLastResponseInfoA(LPDWORD lpdwError, LPSTR lpszBuffer, LPDWORD lpdwBufferLength) { LPWITHREADERROR lpwite = TlsGetValue(g_dwTlsErrIndex); TRACE("\n"); if (lpwite) { *lpdwError = lpwite->dwError; if (lpwite->dwError) { memcpy(lpszBuffer, lpwite->response, *lpdwBufferLength); *lpdwBufferLength = strlen(lpszBuffer); } else *lpdwBufferLength = 0; } else { *lpdwError = 0; *lpdwBufferLength = 0; } return TRUE; } /*********************************************************************** * InternetGetLastResponseInfoW (WININET.@) * * Return last wininet error description on the calling thread * * RETURNS * TRUE on success of writing to buffer * FALSE on failure * */ BOOL WINAPI InternetGetLastResponseInfoW(LPDWORD lpdwError, LPWSTR lpszBuffer, LPDWORD lpdwBufferLength) { LPWITHREADERROR lpwite = TlsGetValue(g_dwTlsErrIndex); TRACE("\n"); if (lpwite) { *lpdwError = lpwite->dwError; if (lpwite->dwError) { memcpy(lpszBuffer, lpwite->response, *lpdwBufferLength); *lpdwBufferLength = lstrlenW(lpszBuffer); } else *lpdwBufferLength = 0; } else { *lpdwError = 0; *lpdwBufferLength = 0; } return TRUE; } /*********************************************************************** * InternetGetConnectedState (WININET.@) * * Return connected state * * RETURNS * TRUE if connected * if lpdwStatus is not null, return the status (off line, * modem, lan...) in it. * FALSE if not connected */ BOOL WINAPI InternetGetConnectedState(LPDWORD lpdwStatus, DWORD dwReserved) { TRACE("(%p, 0x%08x)\n", lpdwStatus, dwReserved); if (lpdwStatus) { WARN("always returning LAN connection.\n"); *lpdwStatus = INTERNET_CONNECTION_LAN; } return TRUE; } /*********************************************************************** * InternetGetConnectedStateExW (WININET.@) * * Return connected state * * PARAMS * * lpdwStatus [O] Flags specifying the status of the internet connection. * lpszConnectionName [O] Pointer to buffer to receive the friendly name of the internet connection. * dwNameLen [I] Size of the buffer, in characters. * dwReserved [I] Reserved. Must be set to 0. * * RETURNS * TRUE if connected * if lpdwStatus is not null, return the status (off line, * modem, lan...) in it. * FALSE if not connected * * NOTES * If the system has no available network connections, an empty string is * stored in lpszConnectionName. If there is a LAN connection, a localized * "LAN Connection" string is stored. Presumably, if only a dial-up * connection is available then the name of the dial-up connection is * returned. Why any application, other than the "Internet Settings" CPL, * would want to use this function instead of the simpler InternetGetConnectedStateW * function is beyond me. */ BOOL WINAPI InternetGetConnectedStateExW(LPDWORD lpdwStatus, LPWSTR lpszConnectionName, DWORD dwNameLen, DWORD dwReserved) { TRACE("(%p, %p, %d, 0x%08x)\n", lpdwStatus, lpszConnectionName, dwNameLen, dwReserved); /* Must be zero */ if(dwReserved) return FALSE; if (lpdwStatus) { WARN("always returning LAN connection.\n"); *lpdwStatus = INTERNET_CONNECTION_LAN; } /* When the buffer size is zero LoadStringW fills the buffer with a pointer to * the resource, avoid it as we must not change the buffer in this case */ if(lpszConnectionName && dwNameLen) { *lpszConnectionName = '\0'; LoadStringW(WININET_hModule, IDS_LANCONNECTION, lpszConnectionName, dwNameLen); } return TRUE; } /*********************************************************************** * InternetGetConnectedStateExA (WININET.@) */ BOOL WINAPI InternetGetConnectedStateExA(LPDWORD lpdwStatus, LPSTR lpszConnectionName, DWORD dwNameLen, DWORD dwReserved) { LPWSTR lpwszConnectionName = NULL; BOOL rc; TRACE("(%p, %p, %d, 0x%08x)\n", lpdwStatus, lpszConnectionName, dwNameLen, dwReserved); if (lpszConnectionName && dwNameLen > 0) lpwszConnectionName = heap_alloc(dwNameLen * sizeof(WCHAR)); rc = InternetGetConnectedStateExW(lpdwStatus,lpwszConnectionName, dwNameLen, dwReserved); if (rc && lpwszConnectionName) WideCharToMultiByte(CP_ACP,0,lpwszConnectionName,-1,lpszConnectionName, dwNameLen, NULL, NULL); heap_free(lpwszConnectionName); return rc; } /*********************************************************************** * InternetConnectW (WININET.@) * * Open a ftp, gopher or http session * * RETURNS * HINTERNET a session handle on success * NULL on failure * */ HINTERNET WINAPI InternetConnectW(HINTERNET hInternet, LPCWSTR lpszServerName, INTERNET_PORT nServerPort, LPCWSTR lpszUserName, LPCWSTR lpszPassword, DWORD dwService, DWORD dwFlags, DWORD_PTR dwContext) { appinfo_t *hIC; HINTERNET rc = NULL; DWORD res = ERROR_SUCCESS; TRACE("(%p, %s, %u, %s, %p, %u, %x, %lx)\n", hInternet, debugstr_w(lpszServerName), nServerPort, debugstr_w(lpszUserName), lpszPassword, dwService, dwFlags, dwContext); if (!lpszServerName) { SetLastError(ERROR_INVALID_PARAMETER); return NULL; } hIC = (appinfo_t*)get_handle_object( hInternet ); if ( (hIC == NULL) || (hIC->hdr.htype != WH_HINIT) ) { res = ERROR_INVALID_HANDLE; goto lend; } switch (dwService) { case INTERNET_SERVICE_FTP: rc = FTP_Connect(hIC, lpszServerName, nServerPort, lpszUserName, lpszPassword, dwFlags, dwContext, 0); if(!rc) res = INTERNET_GetLastError(); break; case INTERNET_SERVICE_HTTP: res = HTTP_Connect(hIC, lpszServerName, nServerPort, lpszUserName, lpszPassword, dwFlags, dwContext, 0, &rc); break; case INTERNET_SERVICE_GOPHER: default: break; } lend: if( hIC ) WININET_Release( &hIC->hdr ); TRACE("returning %p\n", rc); SetLastError(res); return rc; } /*********************************************************************** * InternetConnectA (WININET.@) * * Open a ftp, gopher or http session * * RETURNS * HINTERNET a session handle on success * NULL on failure * */ HINTERNET WINAPI InternetConnectA(HINTERNET hInternet, LPCSTR lpszServerName, INTERNET_PORT nServerPort, LPCSTR lpszUserName, LPCSTR lpszPassword, DWORD dwService, DWORD dwFlags, DWORD_PTR dwContext) { HINTERNET rc = NULL; LPWSTR szServerName; LPWSTR szUserName; LPWSTR szPassword; szServerName = heap_strdupAtoW(lpszServerName); szUserName = heap_strdupAtoW(lpszUserName); szPassword = heap_strdupAtoW(lpszPassword); rc = InternetConnectW(hInternet, szServerName, nServerPort, szUserName, szPassword, dwService, dwFlags, dwContext); heap_free(szServerName); heap_free(szUserName); heap_free(szPassword); return rc; } /*********************************************************************** * InternetFindNextFileA (WININET.@) * * Continues a file search from a previous call to FindFirstFile * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetFindNextFileA(HINTERNET hFind, LPVOID lpvFindData) { BOOL ret; WIN32_FIND_DATAW fd; ret = InternetFindNextFileW(hFind, lpvFindData?&fd:NULL); if(lpvFindData) WININET_find_data_WtoA(&fd, (LPWIN32_FIND_DATAA)lpvFindData); return ret; } /*********************************************************************** * InternetFindNextFileW (WININET.@) * * Continues a file search from a previous call to FindFirstFile * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetFindNextFileW(HINTERNET hFind, LPVOID lpvFindData) { object_header_t *hdr; DWORD res; TRACE("\n"); hdr = get_handle_object(hFind); if(!hdr) { WARN("Invalid handle\n"); SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->FindNextFileW) { res = hdr->vtbl->FindNextFileW(hdr, lpvFindData); }else { WARN("Handle doesn't support NextFile\n"); res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; } WININET_Release(hdr); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * InternetCloseHandle (WININET.@) * * Generic close handle function * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCloseHandle(HINTERNET hInternet) { object_header_t *obj; TRACE("%p\n", hInternet); obj = get_handle_object( hInternet ); if (!obj) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } invalidate_handle(obj); WININET_Release(obj); return TRUE; } static BOOL set_url_component(WCHAR **component, DWORD *component_length, const WCHAR *value, DWORD len) { TRACE("%s (%d)\n", debugstr_wn(value, len), len); if (!*component_length) return TRUE; if (!*component) { *(const WCHAR**)component = value; *component_length = len; return TRUE; } if (*component_length < len+1) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } *component_length = len; if(len) memcpy(*component, value, len*sizeof(WCHAR)); (*component)[len] = 0; return TRUE; } static BOOL set_url_component_WtoA(const WCHAR *comp_w, DWORD length, const WCHAR *url_w, char **comp, DWORD *ret_length, const char *url_a) { size_t size, ret_size = *ret_length; if (!*ret_length) return TRUE; size = WideCharToMultiByte(CP_ACP, 0, comp_w, length, NULL, 0, NULL, NULL); if (!*comp) { *comp = comp_w ? (char*)url_a + WideCharToMultiByte(CP_ACP, 0, url_w, comp_w-url_w, NULL, 0, NULL, NULL) : NULL; *ret_length = size; return TRUE; } if (size+1 > ret_size) { SetLastError(ERROR_INSUFFICIENT_BUFFER); *ret_length = size+1; return FALSE; } *ret_length = size; WideCharToMultiByte(CP_ACP, 0, comp_w, length, *comp, ret_size-1, NULL, NULL); (*comp)[size] = 0; return TRUE; } static BOOL set_url_component_AtoW(const char *comp_a, DWORD len_a, WCHAR **comp_w, DWORD *len_w, WCHAR **buf) { *len_w = len_a; if(!comp_a) { *comp_w = NULL; return TRUE; } if(!(*comp_w = *buf = heap_alloc(len_a*sizeof(WCHAR)))) { SetLastError(ERROR_OUTOFMEMORY); return FALSE; } return TRUE; } /*********************************************************************** * InternetCrackUrlA (WININET.@) * * See InternetCrackUrlW. */ BOOL WINAPI InternetCrackUrlA(const char *url, DWORD url_length, DWORD flags, URL_COMPONENTSA *ret_comp) { WCHAR *host = NULL, *user = NULL, *pass = NULL, *path = NULL, *scheme = NULL, *extra = NULL; URL_COMPONENTSW comp; WCHAR *url_w; BOOL ret; TRACE("(%s %u %x %p)\n", url_length ? debugstr_an(url, url_length) : debugstr_a(url), url_length, flags, ret_comp); if (!url || !*url || !ret_comp || ret_comp->dwStructSize != sizeof(URL_COMPONENTSA)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } comp.dwStructSize = sizeof(comp); ret = set_url_component_AtoW(ret_comp->lpszHostName, ret_comp->dwHostNameLength, &comp.lpszHostName, &comp.dwHostNameLength, &host) && set_url_component_AtoW(ret_comp->lpszUserName, ret_comp->dwUserNameLength, &comp.lpszUserName, &comp.dwUserNameLength, &user) && set_url_component_AtoW(ret_comp->lpszPassword, ret_comp->dwPasswordLength, &comp.lpszPassword, &comp.dwPasswordLength, &pass) && set_url_component_AtoW(ret_comp->lpszUrlPath, ret_comp->dwUrlPathLength, &comp.lpszUrlPath, &comp.dwUrlPathLength, &path) && set_url_component_AtoW(ret_comp->lpszScheme, ret_comp->dwSchemeLength, &comp.lpszScheme, &comp.dwSchemeLength, &scheme) && set_url_component_AtoW(ret_comp->lpszExtraInfo, ret_comp->dwExtraInfoLength, &comp.lpszExtraInfo, &comp.dwExtraInfoLength, &extra); if(ret && !(url_w = heap_strndupAtoW(url, url_length ? url_length : -1, &url_length))) { SetLastError(ERROR_OUTOFMEMORY); ret = FALSE; } if (ret && (ret = InternetCrackUrlW(url_w, url_length, flags, &comp))) { ret_comp->nScheme = comp.nScheme; ret_comp->nPort = comp.nPort; ret = set_url_component_WtoA(comp.lpszHostName, comp.dwHostNameLength, url_w, &ret_comp->lpszHostName, &ret_comp->dwHostNameLength, url) && set_url_component_WtoA(comp.lpszUserName, comp.dwUserNameLength, url_w, &ret_comp->lpszUserName, &ret_comp->dwUserNameLength, url) && set_url_component_WtoA(comp.lpszPassword, comp.dwPasswordLength, url_w, &ret_comp->lpszPassword, &ret_comp->dwPasswordLength, url) && set_url_component_WtoA(comp.lpszUrlPath, comp.dwUrlPathLength, url_w, &ret_comp->lpszUrlPath, &ret_comp->dwUrlPathLength, url) && set_url_component_WtoA(comp.lpszScheme, comp.dwSchemeLength, url_w, &ret_comp->lpszScheme, &ret_comp->dwSchemeLength, url) && set_url_component_WtoA(comp.lpszExtraInfo, comp.dwExtraInfoLength, url_w, &ret_comp->lpszExtraInfo, &ret_comp->dwExtraInfoLength, url); if(ret) TRACE("%s: scheme(%s) host(%s) path(%s) extra(%s)\n", debugstr_a(url), debugstr_an(ret_comp->lpszScheme, ret_comp->dwSchemeLength), debugstr_an(ret_comp->lpszHostName, ret_comp->dwHostNameLength), debugstr_an(ret_comp->lpszUrlPath, ret_comp->dwUrlPathLength), debugstr_an(ret_comp->lpszExtraInfo, ret_comp->dwExtraInfoLength)); } heap_free(host); heap_free(user); heap_free(pass); heap_free(path); heap_free(scheme); heap_free(extra); heap_free(url_w); return ret; } static const WCHAR url_schemes[][7] = { {'f','t','p',0}, {'g','o','p','h','e','r',0}, {'h','t','t','p',0}, {'h','t','t','p','s',0}, {'f','i','l','e',0}, {'n','e','w','s',0}, {'m','a','i','l','t','o',0}, {'r','e','s',0}, }; /*********************************************************************** * GetInternetSchemeW (internal) * * Get scheme of url * * RETURNS * scheme on success * INTERNET_SCHEME_UNKNOWN on failure * */ static INTERNET_SCHEME GetInternetSchemeW(LPCWSTR lpszScheme, DWORD nMaxCmp) { int i; TRACE("%s %d\n",debugstr_wn(lpszScheme, nMaxCmp), nMaxCmp); if(lpszScheme==NULL) return INTERNET_SCHEME_UNKNOWN; for (i = 0; i < sizeof(url_schemes)/sizeof(url_schemes[0]); i++) if (!strncmpiW(lpszScheme, url_schemes[i], nMaxCmp)) return INTERNET_SCHEME_FIRST + i; return INTERNET_SCHEME_UNKNOWN; } /*********************************************************************** * InternetCrackUrlW (WININET.@) * * Break up URL into its components * * RETURNS * TRUE on success * FALSE on failure */ BOOL WINAPI InternetCrackUrlW(const WCHAR *lpszUrl, DWORD dwUrlLength, DWORD dwFlags, URL_COMPONENTSW *lpUC) { /* * RFC 1808 * :[//][/path][;][?][#] * */ LPCWSTR lpszParam = NULL; BOOL found_colon = FALSE; LPCWSTR lpszap; LPCWSTR lpszcp = NULL, lpszNetLoc; TRACE("(%s %u %x %p)\n", lpszUrl ? debugstr_wn(lpszUrl, dwUrlLength ? dwUrlLength : strlenW(lpszUrl)) : "(null)", dwUrlLength, dwFlags, lpUC); if (!lpszUrl || !*lpszUrl || !lpUC) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } if (!dwUrlLength) dwUrlLength = strlenW(lpszUrl); if (dwFlags & ICU_DECODE) { WCHAR *url_tmp; DWORD len = dwUrlLength + 1; BOOL ret; if (!(url_tmp = heap_strndupW(lpszUrl, dwUrlLength))) { SetLastError(ERROR_OUTOFMEMORY); return FALSE; } ret = InternetCanonicalizeUrlW(url_tmp, url_tmp, &len, ICU_DECODE | ICU_NO_ENCODE); if (ret) ret = InternetCrackUrlW(url_tmp, len, dwFlags & ~ICU_DECODE, lpUC); heap_free(url_tmp); return ret; } lpszap = lpszUrl; /* Determine if the URI is absolute. */ while (lpszap - lpszUrl < dwUrlLength) { if (isalnumW(*lpszap) || *lpszap == '+' || *lpszap == '.' || *lpszap == '-') { lpszap++; continue; } if (*lpszap == ':') { found_colon = TRUE; lpszcp = lpszap; } else { lpszcp = lpszUrl; /* Relative url */ } break; } if(!found_colon){ SetLastError(ERROR_INTERNET_UNRECOGNIZED_SCHEME); return FALSE; } lpUC->nScheme = INTERNET_SCHEME_UNKNOWN; lpUC->nPort = INTERNET_INVALID_PORT_NUMBER; /* Parse */ lpszParam = memchrW(lpszap, '?', dwUrlLength - (lpszap - lpszUrl)); if(!lpszParam) lpszParam = memchrW(lpszap, '#', dwUrlLength - (lpszap - lpszUrl)); if(!set_url_component(&lpUC->lpszExtraInfo, &lpUC->dwExtraInfoLength, lpszParam, lpszParam ? dwUrlLength-(lpszParam-lpszUrl) : 0)) return FALSE; /* Get scheme first. */ lpUC->nScheme = GetInternetSchemeW(lpszUrl, lpszcp - lpszUrl); if(!set_url_component(&lpUC->lpszScheme, &lpUC->dwSchemeLength, lpszUrl, lpszcp - lpszUrl)) return FALSE; /* Eat ':' in protocol. */ lpszcp++; /* double slash indicates the net_loc portion is present */ if ((lpszcp[0] == '/') && (lpszcp[1] == '/')) { lpszcp += 2; lpszNetLoc = memchrW(lpszcp, '/', dwUrlLength - (lpszcp - lpszUrl)); if (lpszParam) { if (lpszNetLoc) lpszNetLoc = min(lpszNetLoc, lpszParam); else lpszNetLoc = lpszParam; } else if (!lpszNetLoc) lpszNetLoc = lpszcp + dwUrlLength-(lpszcp-lpszUrl); /* Parse net-loc */ if (lpszNetLoc) { LPCWSTR lpszHost; LPCWSTR lpszPort; /* [[<:password>]@][:] */ /* First find the user and password if they exist */ lpszHost = memchrW(lpszcp, '@', dwUrlLength - (lpszcp - lpszUrl)); if (lpszHost == NULL || lpszHost > lpszNetLoc) { /* username and password not specified. */ set_url_component(&lpUC->lpszUserName, &lpUC->dwUserNameLength, NULL, 0); set_url_component(&lpUC->lpszPassword, &lpUC->dwPasswordLength, NULL, 0); } else /* Parse out username and password */ { LPCWSTR lpszUser = lpszcp; LPCWSTR lpszPasswd = lpszHost; while (lpszcp < lpszHost) { if (*lpszcp == ':') lpszPasswd = lpszcp; lpszcp++; } if(!set_url_component(&lpUC->lpszUserName, &lpUC->dwUserNameLength, lpszUser, lpszPasswd - lpszUser)) return FALSE; if (lpszPasswd != lpszHost) lpszPasswd++; if(!set_url_component(&lpUC->lpszPassword, &lpUC->dwPasswordLength, lpszPasswd == lpszHost ? NULL : lpszPasswd, lpszHost - lpszPasswd)) return FALSE; lpszcp++; /* Advance to beginning of host */ } /* Parse <:port> */ lpszHost = lpszcp; lpszPort = lpszNetLoc; /* special case for res:// URLs: there is no port here, so the host is the entire string up to the first '/' */ if(lpUC->nScheme==INTERNET_SCHEME_RES) { if(!set_url_component(&lpUC->lpszHostName, &lpUC->dwHostNameLength, lpszHost, lpszPort - lpszHost)) return FALSE; lpszcp=lpszNetLoc; } else { while (lpszcp < lpszNetLoc) { if (*lpszcp == ':') lpszPort = lpszcp; lpszcp++; } /* If the scheme is "file" and the host is just one letter, it's not a host */ if(lpUC->nScheme==INTERNET_SCHEME_FILE && lpszPort <= lpszHost+1) { lpszcp=lpszHost; set_url_component(&lpUC->lpszHostName, &lpUC->dwHostNameLength, NULL, 0); } else { if(!set_url_component(&lpUC->lpszHostName, &lpUC->dwHostNameLength, lpszHost, lpszPort - lpszHost)) return FALSE; if (lpszPort != lpszNetLoc) lpUC->nPort = atoiW(++lpszPort); else switch (lpUC->nScheme) { case INTERNET_SCHEME_HTTP: lpUC->nPort = INTERNET_DEFAULT_HTTP_PORT; break; case INTERNET_SCHEME_HTTPS: lpUC->nPort = INTERNET_DEFAULT_HTTPS_PORT; break; case INTERNET_SCHEME_FTP: lpUC->nPort = INTERNET_DEFAULT_FTP_PORT; break; case INTERNET_SCHEME_GOPHER: lpUC->nPort = INTERNET_DEFAULT_GOPHER_PORT; break; default: break; } } } } } else { set_url_component(&lpUC->lpszUserName, &lpUC->dwUserNameLength, NULL, 0); set_url_component(&lpUC->lpszPassword, &lpUC->dwPasswordLength, NULL, 0); set_url_component(&lpUC->lpszHostName, &lpUC->dwHostNameLength, NULL, 0); } /* Here lpszcp points to: * * :[//][/path][;][?][#] * ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ */ if (lpszcp != 0 && lpszcp - lpszUrl < dwUrlLength && (!lpszParam || lpszcp <= lpszParam)) { DWORD len; /* Only truncate the parameter list if it's already been saved * in lpUC->lpszExtraInfo. */ if (lpszParam && lpUC->dwExtraInfoLength && lpUC->lpszExtraInfo) len = lpszParam - lpszcp; else { /* Leave the parameter list in lpszUrlPath. Strip off any trailing * newlines if necessary. */ LPWSTR lpsznewline = memchrW(lpszcp, '\n', dwUrlLength - (lpszcp - lpszUrl)); if (lpsznewline != NULL) len = lpsznewline - lpszcp; else len = dwUrlLength-(lpszcp-lpszUrl); } if (lpUC->dwUrlPathLength && lpUC->lpszUrlPath && lpUC->nScheme == INTERNET_SCHEME_FILE) { WCHAR tmppath[MAX_PATH]; if (*lpszcp == '/') { len = MAX_PATH; PathCreateFromUrlW(lpszUrl, tmppath, &len, 0); } else { WCHAR *iter; memcpy(tmppath, lpszcp, len * sizeof(WCHAR)); tmppath[len] = '\0'; iter = tmppath; while (*iter) { if (*iter == '/') *iter = '\\'; ++iter; } } /* if ends in \. or \.. append a backslash */ if (tmppath[len - 1] == '.' && (tmppath[len - 2] == '\\' || (tmppath[len - 2] == '.' && tmppath[len - 3] == '\\'))) { if (len < MAX_PATH - 1) { tmppath[len] = '\\'; tmppath[len+1] = '\0'; ++len; } } if(!set_url_component(&lpUC->lpszUrlPath, &lpUC->dwUrlPathLength, tmppath, len)) return FALSE; } else if(!set_url_component(&lpUC->lpszUrlPath, &lpUC->dwUrlPathLength, lpszcp, len)) return FALSE; } else { if (lpUC->lpszUrlPath && (lpUC->dwUrlPathLength > 0)) lpUC->lpszUrlPath[0] = 0; lpUC->dwUrlPathLength = 0; } TRACE("%s: scheme(%s) host(%s) path(%s) extra(%s)\n", debugstr_wn(lpszUrl,dwUrlLength), debugstr_wn(lpUC->lpszScheme,lpUC->dwSchemeLength), debugstr_wn(lpUC->lpszHostName,lpUC->dwHostNameLength), debugstr_wn(lpUC->lpszUrlPath,lpUC->dwUrlPathLength), debugstr_wn(lpUC->lpszExtraInfo,lpUC->dwExtraInfoLength)); return TRUE; } /*********************************************************************** * InternetAttemptConnect (WININET.@) * * Attempt to make a connection to the internet * * RETURNS * ERROR_SUCCESS on success * Error value on failure * */ DWORD WINAPI InternetAttemptConnect(DWORD dwReserved) { FIXME("Stub\n"); return ERROR_SUCCESS; } /*********************************************************************** * convert_url_canonicalization_flags * * Helper for InternetCanonicalizeUrl * * PARAMS * dwFlags [I] Flags suitable for InternetCanonicalizeUrl * * RETURNS * Flags suitable for UrlCanonicalize */ static DWORD convert_url_canonicalization_flags(DWORD dwFlags) { DWORD dwUrlFlags = URL_WININET_COMPATIBILITY | URL_ESCAPE_UNSAFE; if (dwFlags & ICU_BROWSER_MODE) dwUrlFlags |= URL_BROWSER_MODE; if (dwFlags & ICU_DECODE) dwUrlFlags |= URL_UNESCAPE; if (dwFlags & ICU_ENCODE_PERCENT) dwUrlFlags |= URL_ESCAPE_PERCENT; if (dwFlags & ICU_ENCODE_SPACES_ONLY) dwUrlFlags |= URL_ESCAPE_SPACES_ONLY; /* Flip this bit to correspond to URL_ESCAPE_UNSAFE */ if (dwFlags & ICU_NO_ENCODE) dwUrlFlags ^= URL_ESCAPE_UNSAFE; if (dwFlags & ICU_NO_META) dwUrlFlags |= URL_NO_META; return dwUrlFlags; } /*********************************************************************** * InternetCanonicalizeUrlA (WININET.@) * * Escape unsafe characters and spaces * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCanonicalizeUrlA(LPCSTR lpszUrl, LPSTR lpszBuffer, LPDWORD lpdwBufferLength, DWORD dwFlags) { HRESULT hr; TRACE("(%s, %p, %p, 0x%08x) buffer length: %d\n", debugstr_a(lpszUrl), lpszBuffer, lpdwBufferLength, dwFlags, lpdwBufferLength ? *lpdwBufferLength : -1); dwFlags = convert_url_canonicalization_flags(dwFlags); hr = UrlCanonicalizeA(lpszUrl, lpszBuffer, lpdwBufferLength, dwFlags); if (hr == E_POINTER) SetLastError(ERROR_INSUFFICIENT_BUFFER); if (hr == E_INVALIDARG) SetLastError(ERROR_INVALID_PARAMETER); return hr == S_OK; } /*********************************************************************** * InternetCanonicalizeUrlW (WININET.@) * * Escape unsafe characters and spaces * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCanonicalizeUrlW(LPCWSTR lpszUrl, LPWSTR lpszBuffer, LPDWORD lpdwBufferLength, DWORD dwFlags) { HRESULT hr; TRACE("(%s, %p, %p, 0x%08x) buffer length: %d\n", debugstr_w(lpszUrl), lpszBuffer, lpdwBufferLength, dwFlags, lpdwBufferLength ? *lpdwBufferLength : -1); dwFlags = convert_url_canonicalization_flags(dwFlags); hr = UrlCanonicalizeW(lpszUrl, lpszBuffer, lpdwBufferLength, dwFlags); if (hr == E_POINTER) SetLastError(ERROR_INSUFFICIENT_BUFFER); if (hr == E_INVALIDARG) SetLastError(ERROR_INVALID_PARAMETER); return hr == S_OK; } /* #################################################### */ static INTERNET_STATUS_CALLBACK set_status_callback( object_header_t *lpwh, INTERNET_STATUS_CALLBACK callback, BOOL unicode) { INTERNET_STATUS_CALLBACK ret; if (unicode) lpwh->dwInternalFlags |= INET_CALLBACKW; else lpwh->dwInternalFlags &= ~INET_CALLBACKW; ret = lpwh->lpfnStatusCB; lpwh->lpfnStatusCB = callback; return ret; } /*********************************************************************** * InternetSetStatusCallbackA (WININET.@) * * Sets up a callback function which is called as progress is made * during an operation. * * RETURNS * Previous callback or NULL on success * INTERNET_INVALID_STATUS_CALLBACK on failure * */ INTERNET_STATUS_CALLBACK WINAPI InternetSetStatusCallbackA( HINTERNET hInternet ,INTERNET_STATUS_CALLBACK lpfnIntCB) { INTERNET_STATUS_CALLBACK retVal; object_header_t *lpwh; TRACE("%p\n", hInternet); if (!(lpwh = get_handle_object(hInternet))) return INTERNET_INVALID_STATUS_CALLBACK; retVal = set_status_callback(lpwh, lpfnIntCB, FALSE); WININET_Release( lpwh ); return retVal; } /*********************************************************************** * InternetSetStatusCallbackW (WININET.@) * * Sets up a callback function which is called as progress is made * during an operation. * * RETURNS * Previous callback or NULL on success * INTERNET_INVALID_STATUS_CALLBACK on failure * */ INTERNET_STATUS_CALLBACK WINAPI InternetSetStatusCallbackW( HINTERNET hInternet ,INTERNET_STATUS_CALLBACK lpfnIntCB) { INTERNET_STATUS_CALLBACK retVal; object_header_t *lpwh; TRACE("%p\n", hInternet); if (!(lpwh = get_handle_object(hInternet))) return INTERNET_INVALID_STATUS_CALLBACK; retVal = set_status_callback(lpwh, lpfnIntCB, TRUE); WININET_Release( lpwh ); return retVal; } /*********************************************************************** * InternetSetFilePointer (WININET.@) */ DWORD WINAPI InternetSetFilePointer(HINTERNET hFile, LONG lDistanceToMove, PVOID pReserved, DWORD dwMoveContext, DWORD_PTR dwContext) { FIXME("(%p %d %p %d %lx): stub\n", hFile, lDistanceToMove, pReserved, dwMoveContext, dwContext); return FALSE; } /*********************************************************************** * InternetWriteFile (WININET.@) * * Write data to an open internet file * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetWriteFile(HINTERNET hFile, LPCVOID lpBuffer, DWORD dwNumOfBytesToWrite, LPDWORD lpdwNumOfBytesWritten) { object_header_t *lpwh; BOOL res; TRACE("(%p %p %d %p)\n", hFile, lpBuffer, dwNumOfBytesToWrite, lpdwNumOfBytesWritten); lpwh = get_handle_object( hFile ); if (!lpwh) { WARN("Invalid handle\n"); SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(lpwh->vtbl->WriteFile) { res = lpwh->vtbl->WriteFile(lpwh, lpBuffer, dwNumOfBytesToWrite, lpdwNumOfBytesWritten); }else { WARN("No Writefile method.\n"); res = ERROR_INVALID_HANDLE; } WININET_Release( lpwh ); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * InternetReadFile (WININET.@) * * Read data from an open internet file * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetReadFile(HINTERNET hFile, LPVOID lpBuffer, DWORD dwNumOfBytesToRead, LPDWORD pdwNumOfBytesRead) { object_header_t *hdr; DWORD res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; TRACE("%p %p %d %p\n", hFile, lpBuffer, dwNumOfBytesToRead, pdwNumOfBytesRead); hdr = get_handle_object(hFile); if (!hdr) { INTERNET_SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->ReadFile) res = hdr->vtbl->ReadFile(hdr, lpBuffer, dwNumOfBytesToRead, pdwNumOfBytesRead); WININET_Release(hdr); TRACE("-- %s (%u) (bytes read: %d)\n", res == ERROR_SUCCESS ? "TRUE": "FALSE", res, pdwNumOfBytesRead ? *pdwNumOfBytesRead : -1); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * InternetReadFileExA (WININET.@) * * Read data from an open internet file * * PARAMS * hFile [I] Handle returned by InternetOpenUrl or HttpOpenRequest. * lpBuffersOut [I/O] Buffer. * dwFlags [I] Flags. See notes. * dwContext [I] Context for callbacks. * * RETURNS * TRUE on success * FALSE on failure * * NOTES * The parameter dwFlags include zero or more of the following flags: *|IRF_ASYNC - Makes the call asynchronous. *|IRF_SYNC - Makes the call synchronous. *|IRF_USE_CONTEXT - Forces dwContext to be used. *|IRF_NO_WAIT - Don't block if the data is not available, just return what is available. * * However, in testing IRF_USE_CONTEXT seems to have no effect - dwContext isn't used. * * SEE * InternetOpenUrlA(), HttpOpenRequestA() */ BOOL WINAPI InternetReadFileExA(HINTERNET hFile, LPINTERNET_BUFFERSA lpBuffersOut, DWORD dwFlags, DWORD_PTR dwContext) { object_header_t *hdr; DWORD res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; TRACE("(%p %p 0x%x 0x%lx)\n", hFile, lpBuffersOut, dwFlags, dwContext); if (lpBuffersOut->dwStructSize != sizeof(*lpBuffersOut)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } hdr = get_handle_object(hFile); if (!hdr) { INTERNET_SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->ReadFileEx) res = hdr->vtbl->ReadFileEx(hdr, lpBuffersOut->lpvBuffer, lpBuffersOut->dwBufferLength, &lpBuffersOut->dwBufferLength, dwFlags, dwContext); WININET_Release(hdr); TRACE("-- %s (%u, bytes read: %d)\n", res == ERROR_SUCCESS ? "TRUE": "FALSE", res, lpBuffersOut->dwBufferLength); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * InternetReadFileExW (WININET.@) * SEE * InternetReadFileExA() */ BOOL WINAPI InternetReadFileExW(HINTERNET hFile, LPINTERNET_BUFFERSW lpBuffer, DWORD dwFlags, DWORD_PTR dwContext) { object_header_t *hdr; DWORD res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; TRACE("(%p %p 0x%x 0x%lx)\n", hFile, lpBuffer, dwFlags, dwContext); if (lpBuffer->dwStructSize != sizeof(*lpBuffer)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } hdr = get_handle_object(hFile); if (!hdr) { INTERNET_SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->ReadFileEx) res = hdr->vtbl->ReadFileEx(hdr, lpBuffer->lpvBuffer, lpBuffer->dwBufferLength, &lpBuffer->dwBufferLength, dwFlags, dwContext); WININET_Release(hdr); TRACE("-- %s (%u, bytes read: %d)\n", res == ERROR_SUCCESS ? "TRUE": "FALSE", res, lpBuffer->dwBufferLength); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } static BOOL get_proxy_autoconfig_url( char *buf, DWORD buflen ) { #if defined(MAC_OS_X_VERSION_10_6) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_6 CFDictionaryRef settings = CFNetworkCopySystemProxySettings(); const void *ref; BOOL ret = FALSE; if (!settings) return FALSE; if (!(ref = CFDictionaryGetValue( settings, kCFNetworkProxiesProxyAutoConfigURLString ))) { CFRelease( settings ); return FALSE; } if (CFStringGetCString( ref, buf, buflen, kCFStringEncodingASCII )) { TRACE( "returning %s\n", debugstr_a(buf) ); ret = TRUE; } CFRelease( settings ); return ret; #else FIXME( "no support on this platform\n" ); return FALSE; #endif } static DWORD query_global_option(DWORD option, void *buffer, DWORD *size, BOOL unicode) { /* FIXME: This function currently handles more options than it should. Options requiring * proper handles should be moved to proper functions */ switch(option) { case INTERNET_OPTION_HTTP_VERSION: if (*size < sizeof(HTTP_VERSION_INFO)) return ERROR_INSUFFICIENT_BUFFER; /* * Presently hardcoded to 1.1 */ ((HTTP_VERSION_INFO*)buffer)->dwMajorVersion = 1; ((HTTP_VERSION_INFO*)buffer)->dwMinorVersion = 1; *size = sizeof(HTTP_VERSION_INFO); return ERROR_SUCCESS; case INTERNET_OPTION_CONNECTED_STATE: FIXME("INTERNET_OPTION_CONNECTED_STATE: semi-stub\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *(ULONG*)buffer = INTERNET_STATE_CONNECTED; *size = sizeof(ULONG); return ERROR_SUCCESS; case INTERNET_OPTION_PROXY: { appinfo_t ai; BOOL ret; TRACE("Getting global proxy info\n"); memset(&ai, 0, sizeof(appinfo_t)); INTERNET_ConfigureProxy(&ai); ret = APPINFO_QueryOption(&ai.hdr, INTERNET_OPTION_PROXY, buffer, size, unicode); /* FIXME */ APPINFO_Destroy(&ai.hdr); return ret; } case INTERNET_OPTION_MAX_CONNS_PER_SERVER: TRACE("INTERNET_OPTION_MAX_CONNS_PER_SERVER\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *(ULONG*)buffer = max_conns; *size = sizeof(ULONG); return ERROR_SUCCESS; case INTERNET_OPTION_MAX_CONNS_PER_1_0_SERVER: TRACE("INTERNET_OPTION_MAX_CONNS_1_0_SERVER\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *(ULONG*)buffer = max_1_0_conns; *size = sizeof(ULONG); return ERROR_SUCCESS; case INTERNET_OPTION_SECURITY_FLAGS: FIXME("INTERNET_OPTION_SECURITY_FLAGS: Stub\n"); return ERROR_SUCCESS; case INTERNET_OPTION_VERSION: { static const INTERNET_VERSION_INFO info = { 1, 2 }; TRACE("INTERNET_OPTION_VERSION\n"); if (*size < sizeof(INTERNET_VERSION_INFO)) return ERROR_INSUFFICIENT_BUFFER; memcpy(buffer, &info, sizeof(info)); *size = sizeof(info); return ERROR_SUCCESS; } case INTERNET_OPTION_PER_CONNECTION_OPTION: { char url[INTERNET_MAX_URL_LENGTH + 1]; INTERNET_PER_CONN_OPTION_LISTW *con = buffer; INTERNET_PER_CONN_OPTION_LISTA *conA = buffer; DWORD res = ERROR_SUCCESS, i; proxyinfo_t pi; BOOL have_url; LONG ret; TRACE("Getting global proxy info\n"); if((ret = INTERNET_LoadProxySettings(&pi))) return ret; have_url = get_proxy_autoconfig_url(url, sizeof(url)); FIXME("INTERNET_OPTION_PER_CONNECTION_OPTION stub\n"); if (*size < sizeof(INTERNET_PER_CONN_OPTION_LISTW)) { FreeProxyInfo(&pi); return ERROR_INSUFFICIENT_BUFFER; } for (i = 0; i < con->dwOptionCount; i++) { INTERNET_PER_CONN_OPTIONW *optionW = con->pOptions + i; INTERNET_PER_CONN_OPTIONA *optionA = conA->pOptions + i; switch (optionW->dwOption) { case INTERNET_PER_CONN_FLAGS: if(pi.proxyEnabled) optionW->Value.dwValue = PROXY_TYPE_PROXY; else optionW->Value.dwValue = PROXY_TYPE_DIRECT; if (have_url) /* native includes PROXY_TYPE_DIRECT even if PROXY_TYPE_PROXY is set */ optionW->Value.dwValue |= PROXY_TYPE_DIRECT|PROXY_TYPE_AUTO_PROXY_URL; break; case INTERNET_PER_CONN_PROXY_SERVER: if (unicode) optionW->Value.pszValue = heap_strdupW(pi.proxy); else optionA->Value.pszValue = heap_strdupWtoA(pi.proxy); break; case INTERNET_PER_CONN_PROXY_BYPASS: if (unicode) optionW->Value.pszValue = heap_strdupW(pi.proxyBypass); else optionA->Value.pszValue = heap_strdupWtoA(pi.proxyBypass); break; case INTERNET_PER_CONN_AUTOCONFIG_URL: if (!have_url) optionW->Value.pszValue = NULL; else if (unicode) optionW->Value.pszValue = heap_strdupAtoW(url); else optionA->Value.pszValue = heap_strdupA(url); break; case INTERNET_PER_CONN_AUTODISCOVERY_FLAGS: optionW->Value.dwValue = AUTO_PROXY_FLAG_ALWAYS_DETECT; break; case INTERNET_PER_CONN_AUTOCONFIG_SECONDARY_URL: case INTERNET_PER_CONN_AUTOCONFIG_RELOAD_DELAY_MINS: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_TIME: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_URL: FIXME("Unhandled dwOption %d\n", optionW->dwOption); memset(&optionW->Value, 0, sizeof(optionW->Value)); break; default: FIXME("Unknown dwOption %d\n", optionW->dwOption); res = ERROR_INVALID_PARAMETER; break; } } FreeProxyInfo(&pi); return res; } case INTERNET_OPTION_REQUEST_FLAGS: case INTERNET_OPTION_USER_AGENT: *size = 0; return ERROR_INTERNET_INCORRECT_HANDLE_TYPE; case INTERNET_OPTION_POLICY: return ERROR_INVALID_PARAMETER; case INTERNET_OPTION_CONNECT_TIMEOUT: TRACE("INTERNET_OPTION_CONNECT_TIMEOUT\n"); if (*size < sizeof(ULONG)) return ERROR_INSUFFICIENT_BUFFER; *(ULONG*)buffer = connect_timeout; *size = sizeof(ULONG); return ERROR_SUCCESS; } FIXME("Stub for %d\n", option); return ERROR_INTERNET_INCORRECT_HANDLE_TYPE; } DWORD INET_QueryOption(object_header_t *hdr, DWORD option, void *buffer, DWORD *size, BOOL unicode) { switch(option) { case INTERNET_OPTION_CONTEXT_VALUE: if (!size) return ERROR_INVALID_PARAMETER; if (*size < sizeof(DWORD_PTR)) { *size = sizeof(DWORD_PTR); return ERROR_INSUFFICIENT_BUFFER; } if (!buffer) return ERROR_INVALID_PARAMETER; *(DWORD_PTR *)buffer = hdr->dwContext; *size = sizeof(DWORD_PTR); return ERROR_SUCCESS; case INTERNET_OPTION_REQUEST_FLAGS: WARN("INTERNET_OPTION_REQUEST_FLAGS\n"); *size = sizeof(DWORD); return ERROR_INTERNET_INCORRECT_HANDLE_TYPE; case INTERNET_OPTION_MAX_CONNS_PER_SERVER: case INTERNET_OPTION_MAX_CONNS_PER_1_0_SERVER: WARN("Called on global option %u\n", option); return ERROR_INTERNET_INVALID_OPERATION; } /* FIXME: we shouldn't call it here */ return query_global_option(option, buffer, size, unicode); } /*********************************************************************** * InternetQueryOptionW (WININET.@) * * Queries an options on the specified handle * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetQueryOptionW(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, LPDWORD lpdwBufferLength) { object_header_t *hdr; DWORD res = ERROR_INVALID_HANDLE; TRACE("%p %d %p %p\n", hInternet, dwOption, lpBuffer, lpdwBufferLength); if(hInternet) { hdr = get_handle_object(hInternet); if (hdr) { res = hdr->vtbl->QueryOption(hdr, dwOption, lpBuffer, lpdwBufferLength, TRUE); WININET_Release(hdr); } }else { res = query_global_option(dwOption, lpBuffer, lpdwBufferLength, TRUE); } if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } /*********************************************************************** * InternetQueryOptionA (WININET.@) * * Queries an options on the specified handle * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetQueryOptionA(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, LPDWORD lpdwBufferLength) { object_header_t *hdr; DWORD res = ERROR_INVALID_HANDLE; TRACE("%p %d %p %p\n", hInternet, dwOption, lpBuffer, lpdwBufferLength); if(hInternet) { hdr = get_handle_object(hInternet); if (hdr) { res = hdr->vtbl->QueryOption(hdr, dwOption, lpBuffer, lpdwBufferLength, FALSE); WININET_Release(hdr); } }else { res = query_global_option(dwOption, lpBuffer, lpdwBufferLength, FALSE); } if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } DWORD INET_SetOption(object_header_t *hdr, DWORD option, void *buf, DWORD size) { switch(option) { case INTERNET_OPTION_CALLBACK: WARN("Not settable option %u\n", option); return ERROR_INTERNET_OPTION_NOT_SETTABLE; case INTERNET_OPTION_MAX_CONNS_PER_SERVER: case INTERNET_OPTION_MAX_CONNS_PER_1_0_SERVER: WARN("Called on global option %u\n", option); return ERROR_INTERNET_INVALID_OPERATION; } return ERROR_INTERNET_INVALID_OPTION; } static DWORD set_global_option(DWORD option, void *buf, DWORD size) { switch(option) { case INTERNET_OPTION_CALLBACK: WARN("Not global option %u\n", option); return ERROR_INTERNET_INCORRECT_HANDLE_TYPE; case INTERNET_OPTION_MAX_CONNS_PER_SERVER: TRACE("INTERNET_OPTION_MAX_CONNS_PER_SERVER\n"); if(size != sizeof(max_conns)) return ERROR_INTERNET_BAD_OPTION_LENGTH; if(!*(ULONG*)buf) return ERROR_BAD_ARGUMENTS; max_conns = *(ULONG*)buf; return ERROR_SUCCESS; case INTERNET_OPTION_MAX_CONNS_PER_1_0_SERVER: TRACE("INTERNET_OPTION_MAX_CONNS_PER_1_0_SERVER\n"); if(size != sizeof(max_1_0_conns)) return ERROR_INTERNET_BAD_OPTION_LENGTH; if(!*(ULONG*)buf) return ERROR_BAD_ARGUMENTS; max_1_0_conns = *(ULONG*)buf; return ERROR_SUCCESS; case INTERNET_OPTION_CONNECT_TIMEOUT: TRACE("INTERNET_OPTION_CONNECT_TIMEOUT\n"); if(size != sizeof(connect_timeout)) return ERROR_INTERNET_BAD_OPTION_LENGTH; if(!*(ULONG*)buf) return ERROR_BAD_ARGUMENTS; connect_timeout = *(ULONG*)buf; return ERROR_SUCCESS; case INTERNET_OPTION_SETTINGS_CHANGED: FIXME("INTERNETOPTION_SETTINGS_CHANGED semi-stub\n"); collect_connections(COLLECT_CONNECTIONS); return ERROR_SUCCESS; case INTERNET_OPTION_SUPPRESS_BEHAVIOR: FIXME("INTERNET_OPTION_SUPPRESS_BEHAVIOR stub\n"); if(size != sizeof(ULONG)) return ERROR_INTERNET_BAD_OPTION_LENGTH; FIXME("%08x\n", *(ULONG*)buf); return ERROR_SUCCESS; } return ERROR_INTERNET_INVALID_OPTION; } /*********************************************************************** * InternetSetOptionW (WININET.@) * * Sets an options on the specified handle * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetSetOptionW(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, DWORD dwBufferLength) { object_header_t *lpwhh; BOOL ret = TRUE; DWORD res; TRACE("(%p %d %p %d)\n", hInternet, dwOption, lpBuffer, dwBufferLength); lpwhh = (object_header_t*) get_handle_object( hInternet ); if(lpwhh) res = lpwhh->vtbl->SetOption(lpwhh, dwOption, lpBuffer, dwBufferLength); else res = set_global_option(dwOption, lpBuffer, dwBufferLength); if(res != ERROR_INTERNET_INVALID_OPTION) { if(lpwhh) WININET_Release(lpwhh); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } switch (dwOption) { case INTERNET_OPTION_HTTP_VERSION: { HTTP_VERSION_INFO* pVersion=(HTTP_VERSION_INFO*)lpBuffer; FIXME("Option INTERNET_OPTION_HTTP_VERSION(%d,%d): STUB\n",pVersion->dwMajorVersion,pVersion->dwMinorVersion); } break; case INTERNET_OPTION_ERROR_MASK: { if(!lpwhh) { SetLastError(ERROR_INTERNET_INCORRECT_HANDLE_TYPE); return FALSE; } else if(*(ULONG*)lpBuffer & (~(INTERNET_ERROR_MASK_INSERT_CDROM| INTERNET_ERROR_MASK_COMBINED_SEC_CERT| INTERNET_ERROR_MASK_LOGIN_FAILURE_DISPLAY_ENTITY_BODY))) { SetLastError(ERROR_INVALID_PARAMETER); ret = FALSE; } else if(dwBufferLength != sizeof(ULONG)) { SetLastError(ERROR_INTERNET_BAD_OPTION_LENGTH); ret = FALSE; } else TRACE("INTERNET_OPTION_ERROR_MASK: %x\n", *(ULONG*)lpBuffer); lpwhh->ErrorMask = *(ULONG*)lpBuffer; } break; case INTERNET_OPTION_PROXY: { INTERNET_PROXY_INFOW *info = lpBuffer; if (!lpBuffer || dwBufferLength < sizeof(INTERNET_PROXY_INFOW)) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } if (!hInternet) { EnterCriticalSection( &WININET_cs ); free_global_proxy(); global_proxy = heap_alloc( sizeof(proxyinfo_t) ); if (global_proxy) { if (info->dwAccessType == INTERNET_OPEN_TYPE_PROXY) { global_proxy->proxyEnabled = 1; global_proxy->proxy = heap_strdupW( info->lpszProxy ); global_proxy->proxyBypass = heap_strdupW( info->lpszProxyBypass ); } else { global_proxy->proxyEnabled = 0; global_proxy->proxy = global_proxy->proxyBypass = NULL; } } LeaveCriticalSection( &WININET_cs ); } else { /* In general, each type of object should handle * INTERNET_OPTION_PROXY directly. This FIXME ensures it doesn't * get silently dropped. */ FIXME("INTERNET_OPTION_PROXY unimplemented\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; } break; } case INTERNET_OPTION_CODEPAGE: { ULONG codepage = *(ULONG *)lpBuffer; FIXME("Option INTERNET_OPTION_CODEPAGE (%d): STUB\n", codepage); } break; case INTERNET_OPTION_REQUEST_PRIORITY: { ULONG priority = *(ULONG *)lpBuffer; FIXME("Option INTERNET_OPTION_REQUEST_PRIORITY (%d): STUB\n", priority); } break; case INTERNET_OPTION_CONNECT_TIMEOUT: { ULONG connecttimeout = *(ULONG *)lpBuffer; FIXME("Option INTERNET_OPTION_CONNECT_TIMEOUT (%d): STUB\n", connecttimeout); } break; case INTERNET_OPTION_DATA_RECEIVE_TIMEOUT: { ULONG receivetimeout = *(ULONG *)lpBuffer; FIXME("Option INTERNET_OPTION_DATA_RECEIVE_TIMEOUT (%d): STUB\n", receivetimeout); } break; case INTERNET_OPTION_RESET_URLCACHE_SESSION: FIXME("Option INTERNET_OPTION_RESET_URLCACHE_SESSION: STUB\n"); break; case INTERNET_OPTION_END_BROWSER_SESSION: FIXME("Option INTERNET_OPTION_END_BROWSER_SESSION: STUB\n"); break; case INTERNET_OPTION_CONNECTED_STATE: FIXME("Option INTERNET_OPTION_CONNECTED_STATE: STUB\n"); break; case INTERNET_OPTION_DISABLE_PASSPORT_AUTH: TRACE("Option INTERNET_OPTION_DISABLE_PASSPORT_AUTH: harmless stub, since not enabled\n"); break; case INTERNET_OPTION_SEND_TIMEOUT: case INTERNET_OPTION_RECEIVE_TIMEOUT: case INTERNET_OPTION_DATA_SEND_TIMEOUT: { ULONG timeout = *(ULONG *)lpBuffer; FIXME("INTERNET_OPTION_SEND/RECEIVE_TIMEOUT/DATA_SEND_TIMEOUT %d\n", timeout); break; } case INTERNET_OPTION_CONNECT_RETRIES: { ULONG retries = *(ULONG *)lpBuffer; FIXME("INTERNET_OPTION_CONNECT_RETRIES %d\n", retries); break; } case INTERNET_OPTION_CONTEXT_VALUE: { if (!lpwhh) { SetLastError(ERROR_INTERNET_INCORRECT_HANDLE_TYPE); return FALSE; } if (!lpBuffer || dwBufferLength != sizeof(DWORD_PTR)) { SetLastError(ERROR_INVALID_PARAMETER); ret = FALSE; } else lpwhh->dwContext = *(DWORD_PTR *)lpBuffer; break; } case INTERNET_OPTION_SECURITY_FLAGS: FIXME("Option INTERNET_OPTION_SECURITY_FLAGS; STUB\n"); break; case INTERNET_OPTION_DISABLE_AUTODIAL: FIXME("Option INTERNET_OPTION_DISABLE_AUTODIAL; STUB\n"); break; case INTERNET_OPTION_HTTP_DECODING: FIXME("INTERNET_OPTION_HTTP_DECODING; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_COOKIES_3RD_PARTY: FIXME("INTERNET_OPTION_COOKIES_3RD_PARTY; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_SEND_UTF8_SERVERNAME_TO_PROXY: FIXME("INTERNET_OPTION_SEND_UTF8_SERVERNAME_TO_PROXY; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_CODEPAGE_PATH: FIXME("INTERNET_OPTION_CODEPAGE_PATH; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_CODEPAGE_EXTRA: FIXME("INTERNET_OPTION_CODEPAGE_EXTRA; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_IDN: FIXME("INTERNET_OPTION_IDN; STUB\n"); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; case INTERNET_OPTION_POLICY: SetLastError(ERROR_INVALID_PARAMETER); ret = FALSE; break; case INTERNET_OPTION_PER_CONNECTION_OPTION: { INTERNET_PER_CONN_OPTION_LISTW *con = lpBuffer; LONG res; unsigned int i; proxyinfo_t pi; if (INTERNET_LoadProxySettings(&pi)) return FALSE; for (i = 0; i < con->dwOptionCount; i++) { INTERNET_PER_CONN_OPTIONW *option = con->pOptions + i; switch (option->dwOption) { case INTERNET_PER_CONN_PROXY_SERVER: heap_free(pi.proxy); pi.proxy = heap_strdupW(option->Value.pszValue); break; case INTERNET_PER_CONN_FLAGS: if(option->Value.dwValue & PROXY_TYPE_PROXY) pi.proxyEnabled = 1; else { if(option->Value.dwValue != PROXY_TYPE_DIRECT) FIXME("Unhandled flags: 0x%x\n", option->Value.dwValue); pi.proxyEnabled = 0; } break; case INTERNET_PER_CONN_PROXY_BYPASS: heap_free(pi.proxyBypass); pi.proxyBypass = heap_strdupW(option->Value.pszValue); break; case INTERNET_PER_CONN_AUTOCONFIG_URL: case INTERNET_PER_CONN_AUTODISCOVERY_FLAGS: case INTERNET_PER_CONN_AUTOCONFIG_SECONDARY_URL: case INTERNET_PER_CONN_AUTOCONFIG_RELOAD_DELAY_MINS: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_TIME: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_URL: FIXME("Unhandled dwOption %d\n", option->dwOption); break; default: FIXME("Unknown dwOption %d\n", option->dwOption); SetLastError(ERROR_INVALID_PARAMETER); break; } } if ((res = INTERNET_SaveProxySettings(&pi))) SetLastError(res); FreeProxyInfo(&pi); ret = (res == ERROR_SUCCESS); break; } default: FIXME("Option %d STUB\n",dwOption); SetLastError(ERROR_INTERNET_INVALID_OPTION); ret = FALSE; break; } if(lpwhh) WININET_Release( lpwhh ); return ret; } /*********************************************************************** * InternetSetOptionA (WININET.@) * * Sets an options on the specified handle. * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetSetOptionA(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, DWORD dwBufferLength) { LPVOID wbuffer; DWORD wlen; BOOL r; switch( dwOption ) { case INTERNET_OPTION_PROXY: { LPINTERNET_PROXY_INFOA pi = (LPINTERNET_PROXY_INFOA) lpBuffer; LPINTERNET_PROXY_INFOW piw; DWORD proxlen, prbylen; LPWSTR prox, prby; proxlen = MultiByteToWideChar( CP_ACP, 0, pi->lpszProxy, -1, NULL, 0); prbylen= MultiByteToWideChar( CP_ACP, 0, pi->lpszProxyBypass, -1, NULL, 0); wlen = sizeof(*piw) + proxlen + prbylen; wbuffer = heap_alloc(wlen*sizeof(WCHAR) ); piw = (LPINTERNET_PROXY_INFOW) wbuffer; piw->dwAccessType = pi->dwAccessType; prox = (LPWSTR) &piw[1]; prby = &prox[proxlen+1]; MultiByteToWideChar( CP_ACP, 0, pi->lpszProxy, -1, prox, proxlen); MultiByteToWideChar( CP_ACP, 0, pi->lpszProxyBypass, -1, prby, prbylen); piw->lpszProxy = prox; piw->lpszProxyBypass = prby; } break; case INTERNET_OPTION_USER_AGENT: case INTERNET_OPTION_USERNAME: case INTERNET_OPTION_PASSWORD: case INTERNET_OPTION_PROXY_USERNAME: case INTERNET_OPTION_PROXY_PASSWORD: wlen = MultiByteToWideChar( CP_ACP, 0, lpBuffer, -1, NULL, 0 ); if (!(wbuffer = heap_alloc( wlen * sizeof(WCHAR) ))) return ERROR_OUTOFMEMORY; MultiByteToWideChar( CP_ACP, 0, lpBuffer, -1, wbuffer, wlen ); break; case INTERNET_OPTION_PER_CONNECTION_OPTION: { unsigned int i; INTERNET_PER_CONN_OPTION_LISTW *listW; INTERNET_PER_CONN_OPTION_LISTA *listA = lpBuffer; wlen = sizeof(INTERNET_PER_CONN_OPTION_LISTW); wbuffer = heap_alloc(wlen); listW = wbuffer; listW->dwSize = sizeof(INTERNET_PER_CONN_OPTION_LISTW); if (listA->pszConnection) { wlen = MultiByteToWideChar( CP_ACP, 0, listA->pszConnection, -1, NULL, 0 ); listW->pszConnection = heap_alloc(wlen*sizeof(WCHAR)); MultiByteToWideChar( CP_ACP, 0, listA->pszConnection, -1, listW->pszConnection, wlen ); } else listW->pszConnection = NULL; listW->dwOptionCount = listA->dwOptionCount; listW->dwOptionError = listA->dwOptionError; listW->pOptions = heap_alloc(sizeof(INTERNET_PER_CONN_OPTIONW) * listA->dwOptionCount); for (i = 0; i < listA->dwOptionCount; ++i) { INTERNET_PER_CONN_OPTIONA *optA = listA->pOptions + i; INTERNET_PER_CONN_OPTIONW *optW = listW->pOptions + i; optW->dwOption = optA->dwOption; switch (optA->dwOption) { case INTERNET_PER_CONN_AUTOCONFIG_URL: case INTERNET_PER_CONN_PROXY_BYPASS: case INTERNET_PER_CONN_PROXY_SERVER: case INTERNET_PER_CONN_AUTOCONFIG_SECONDARY_URL: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_URL: if (optA->Value.pszValue) { wlen = MultiByteToWideChar( CP_ACP, 0, optA->Value.pszValue, -1, NULL, 0 ); optW->Value.pszValue = heap_alloc(wlen*sizeof(WCHAR)); MultiByteToWideChar( CP_ACP, 0, optA->Value.pszValue, -1, optW->Value.pszValue, wlen ); } else optW->Value.pszValue = NULL; break; case INTERNET_PER_CONN_AUTODISCOVERY_FLAGS: case INTERNET_PER_CONN_FLAGS: case INTERNET_PER_CONN_AUTOCONFIG_RELOAD_DELAY_MINS: optW->Value.dwValue = optA->Value.dwValue; break; case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_TIME: optW->Value.ftValue = optA->Value.ftValue; break; default: WARN("Unknown PER_CONN dwOption: %d, guessing at conversion to Wide\n", optA->dwOption); optW->Value.dwValue = optA->Value.dwValue; break; } } } break; default: wbuffer = lpBuffer; wlen = dwBufferLength; } r = InternetSetOptionW(hInternet,dwOption, wbuffer, wlen); if( lpBuffer != wbuffer ) { if (dwOption == INTERNET_OPTION_PER_CONNECTION_OPTION) { INTERNET_PER_CONN_OPTION_LISTW *list = wbuffer; unsigned int i; for (i = 0; i < list->dwOptionCount; ++i) { INTERNET_PER_CONN_OPTIONW *opt = list->pOptions + i; switch (opt->dwOption) { case INTERNET_PER_CONN_AUTOCONFIG_URL: case INTERNET_PER_CONN_PROXY_BYPASS: case INTERNET_PER_CONN_PROXY_SERVER: case INTERNET_PER_CONN_AUTOCONFIG_SECONDARY_URL: case INTERNET_PER_CONN_AUTOCONFIG_LAST_DETECT_URL: heap_free( opt->Value.pszValue ); break; default: break; } } heap_free( list->pOptions ); } heap_free( wbuffer ); } return r; } /*********************************************************************** * InternetSetOptionExA (WININET.@) */ BOOL WINAPI InternetSetOptionExA(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, DWORD dwBufferLength, DWORD dwFlags) { FIXME("Flags %08x ignored\n", dwFlags); return InternetSetOptionA( hInternet, dwOption, lpBuffer, dwBufferLength ); } /*********************************************************************** * InternetSetOptionExW (WININET.@) */ BOOL WINAPI InternetSetOptionExW(HINTERNET hInternet, DWORD dwOption, LPVOID lpBuffer, DWORD dwBufferLength, DWORD dwFlags) { FIXME("Flags %08x ignored\n", dwFlags); if( dwFlags & ~ISO_VALID_FLAGS ) { SetLastError( ERROR_INVALID_PARAMETER ); return FALSE; } return InternetSetOptionW( hInternet, dwOption, lpBuffer, dwBufferLength ); } static const WCHAR WININET_wkday[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 } }; static const WCHAR WININET_month[12][4] = { { 'J','a','n', 0 }, { 'F','e','b', 0 }, { 'M','a','r', 0 }, { 'A','p','r', 0 }, { 'M','a','y', 0 }, { 'J','u','n', 0 }, { 'J','u','l', 0 }, { 'A','u','g', 0 }, { 'S','e','p', 0 }, { 'O','c','t', 0 }, { 'N','o','v', 0 }, { 'D','e','c', 0 } }; /*********************************************************************** * InternetTimeFromSystemTimeA (WININET.@) */ BOOL WINAPI InternetTimeFromSystemTimeA( const SYSTEMTIME* time, DWORD format, LPSTR string, DWORD size ) { BOOL ret; WCHAR stringW[INTERNET_RFC1123_BUFSIZE]; TRACE( "%p 0x%08x %p 0x%08x\n", time, format, string, size ); if (!time || !string || format != INTERNET_RFC1123_FORMAT) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } if (size < INTERNET_RFC1123_BUFSIZE * sizeof(*string)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } ret = InternetTimeFromSystemTimeW( time, format, stringW, sizeof(stringW) ); if (ret) WideCharToMultiByte( CP_ACP, 0, stringW, -1, string, size, NULL, NULL ); return ret; } /*********************************************************************** * InternetTimeFromSystemTimeW (WININET.@) */ BOOL WINAPI InternetTimeFromSystemTimeW( const SYSTEMTIME* time, DWORD format, LPWSTR string, DWORD size ) { static const WCHAR date[] = { '%','s',',',' ','%','0','2','d',' ','%','s',' ','%','4','d',' ','%','0', '2','d',':','%','0','2','d',':','%','0','2','d',' ','G','M','T', 0 }; TRACE( "%p 0x%08x %p 0x%08x\n", time, format, string, size ); if (!time || !string || format != INTERNET_RFC1123_FORMAT) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } if (size < INTERNET_RFC1123_BUFSIZE * sizeof(*string)) { SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } sprintfW( string, date, WININET_wkday[time->wDayOfWeek], time->wDay, WININET_month[time->wMonth - 1], time->wYear, time->wHour, time->wMinute, time->wSecond ); return TRUE; } /*********************************************************************** * InternetTimeToSystemTimeA (WININET.@) */ BOOL WINAPI InternetTimeToSystemTimeA( LPCSTR string, SYSTEMTIME* time, DWORD reserved ) { BOOL ret = FALSE; WCHAR *stringW; TRACE( "%s %p 0x%08x\n", debugstr_a(string), time, reserved ); stringW = heap_strdupAtoW(string); if (stringW) { ret = InternetTimeToSystemTimeW( stringW, time, reserved ); heap_free( stringW ); } return ret; } /*********************************************************************** * InternetTimeToSystemTimeW (WININET.@) */ BOOL WINAPI InternetTimeToSystemTimeW( LPCWSTR string, SYSTEMTIME* time, DWORD reserved ) { unsigned int i; const WCHAR *s = string; WCHAR *end; TRACE( "%s %p 0x%08x\n", debugstr_w(string), time, reserved ); if (!string || !time) return FALSE; /* Windows does this too */ GetSystemTime( time ); /* Convert an RFC1123 time such as 'Fri, 07 Jan 2005 12:06:35 GMT' into * a SYSTEMTIME structure. */ while (*s && !isalphaW( *s )) s++; if (s[0] == '\0' || s[1] == '\0' || s[2] == '\0') return TRUE; time->wDayOfWeek = 7; for (i = 0; i < 7; i++) { if (toupperW( WININET_wkday[i][0] ) == toupperW( s[0] ) && toupperW( WININET_wkday[i][1] ) == toupperW( s[1] ) && toupperW( WININET_wkday[i][2] ) == toupperW( s[2] ) ) { time->wDayOfWeek = i; break; } } if (time->wDayOfWeek > 6) return TRUE; while (*s && !isdigitW( *s )) s++; time->wDay = strtolW( s, &end, 10 ); s = end; while (*s && !isalphaW( *s )) s++; if (s[0] == '\0' || s[1] == '\0' || s[2] == '\0') return TRUE; time->wMonth = 0; for (i = 0; i < 12; i++) { if (toupperW( WININET_month[i][0]) == toupperW( s[0] ) && toupperW( WININET_month[i][1]) == toupperW( s[1] ) && toupperW( WININET_month[i][2]) == toupperW( s[2] ) ) { time->wMonth = i + 1; break; } } if (time->wMonth == 0) return TRUE; while (*s && !isdigitW( *s )) s++; if (*s == '\0') return TRUE; time->wYear = strtolW( s, &end, 10 ); s = end; while (*s && !isdigitW( *s )) s++; if (*s == '\0') return TRUE; time->wHour = strtolW( s, &end, 10 ); s = end; while (*s && !isdigitW( *s )) s++; if (*s == '\0') return TRUE; time->wMinute = strtolW( s, &end, 10 ); s = end; while (*s && !isdigitW( *s )) s++; if (*s == '\0') return TRUE; time->wSecond = strtolW( s, &end, 10 ); s = end; time->wMilliseconds = 0; return TRUE; } /*********************************************************************** * InternetCheckConnectionW (WININET.@) * * Pings a requested host to check internet connection * * RETURNS * TRUE on success and FALSE on failure. If a failure then * ERROR_NOT_CONNECTED is placed into GetLastError * */ BOOL WINAPI InternetCheckConnectionW( LPCWSTR lpszUrl, DWORD dwFlags, DWORD dwReserved ) { /* * this is a kludge which runs the resident ping program and reads the output. * * Anyone have a better idea? */ BOOL rc = FALSE; static const CHAR ping[] = "ping -c 1 "; static const CHAR redirect[] = " >/dev/null 2>/dev/null"; WCHAR *host; DWORD len, host_len; INTERNET_PORT port; int status = -1; FIXME("(%s %x %x)\n", debugstr_w(lpszUrl), dwFlags, dwReserved); /* * Crack or set the Address */ if (lpszUrl == NULL) { /* * According to the doc we are supposed to use the ip for the next * server in the WnInet internal server database. I have * no idea what that is or how to get it. * * So someone needs to implement this. */ FIXME("Unimplemented with URL of NULL\n"); return TRUE; } else { URL_COMPONENTSW components = {sizeof(components)}; components.dwHostNameLength = 1; if (!InternetCrackUrlW(lpszUrl,0,0,&components)) goto End; host = components.lpszHostName; host_len = components.dwHostNameLength; port = components.nPort; TRACE("host name: %s port: %d\n",debugstr_wn(host, host_len), port); } if (dwFlags & FLAG_ICC_FORCE_CONNECTION) { struct sockaddr_storage saddr; socklen_t sa_len = sizeof(saddr); WCHAR *host_z; int fd; BOOL b; host_z = heap_strndupW(host, host_len); if (!host_z) return FALSE; b = GetAddress(host_z, port, (struct sockaddr *)&saddr, &sa_len, NULL); heap_free(host_z); if(!b) goto End; init_winsock(); fd = socket(saddr.ss_family, SOCK_STREAM, 0); if (fd != -1) { if (connect(fd, (struct sockaddr *)&saddr, sa_len) == 0) rc = TRUE; closesocket(fd); } } else { /* * Build our ping command */ char *command; len = WideCharToMultiByte(CP_UNIXCP, 0, host, host_len, NULL, 0, NULL, NULL); command = heap_alloc(strlen(ping)+len+strlen(redirect)+1); strcpy(command, ping); WideCharToMultiByte(CP_UNIXCP, 0, host, host_len, command+sizeof(ping)-1, len, NULL, NULL); strcpy(command+sizeof(ping)-1+len, redirect); TRACE("Ping command is : %s\n",command); status = system(command); heap_free( command ); TRACE("Ping returned a code of %i\n",status); /* Ping return code of 0 indicates success */ if (status == 0) rc = TRUE; } End: if (rc == FALSE) INTERNET_SetLastError(ERROR_NOT_CONNECTED); return rc; } /*********************************************************************** * InternetCheckConnectionA (WININET.@) * * Pings a requested host to check internet connection * * RETURNS * TRUE on success and FALSE on failure. If a failure then * ERROR_NOT_CONNECTED is placed into GetLastError * */ BOOL WINAPI InternetCheckConnectionA(LPCSTR lpszUrl, DWORD dwFlags, DWORD dwReserved) { WCHAR *url = NULL; BOOL rc; if(lpszUrl) { url = heap_strdupAtoW(lpszUrl); if(!url) return FALSE; } rc = InternetCheckConnectionW(url, dwFlags, dwReserved); heap_free(url); return rc; } /********************************************************** * INTERNET_InternetOpenUrlW (internal) * * Opens an URL * * RETURNS * handle of connection or NULL on failure */ static HINTERNET INTERNET_InternetOpenUrlW(appinfo_t *hIC, LPCWSTR lpszUrl, LPCWSTR lpszHeaders, DWORD dwHeadersLength, DWORD dwFlags, DWORD_PTR dwContext) { URL_COMPONENTSW urlComponents; WCHAR protocol[INTERNET_MAX_SCHEME_LENGTH]; WCHAR hostName[INTERNET_MAX_HOST_NAME_LENGTH]; WCHAR userName[INTERNET_MAX_USER_NAME_LENGTH]; WCHAR password[INTERNET_MAX_PASSWORD_LENGTH]; WCHAR path[INTERNET_MAX_PATH_LENGTH]; WCHAR extra[1024]; HINTERNET client = NULL, client1 = NULL; DWORD res; TRACE("(%p, %s, %s, %08x, %08x, %08lx)\n", hIC, debugstr_w(lpszUrl), debugstr_w(lpszHeaders), dwHeadersLength, dwFlags, dwContext); 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 = password; urlComponents.dwPasswordLength = INTERNET_MAX_PASSWORD_LENGTH; urlComponents.lpszUrlPath = path; urlComponents.dwUrlPathLength = INTERNET_MAX_PATH_LENGTH; urlComponents.lpszExtraInfo = extra; urlComponents.dwExtraInfoLength = 1024; if(!InternetCrackUrlW(lpszUrl, strlenW(lpszUrl), 0, &urlComponents)) return NULL; switch(urlComponents.nScheme) { case INTERNET_SCHEME_FTP: if(urlComponents.nPort == 0) urlComponents.nPort = INTERNET_DEFAULT_FTP_PORT; client = FTP_Connect(hIC, hostName, urlComponents.nPort, userName, password, dwFlags, dwContext, INET_OPENURL); if(client == NULL) break; client1 = FtpOpenFileW(client, path, GENERIC_READ, dwFlags, dwContext); if(client1 == NULL) { InternetCloseHandle(client); break; } break; case INTERNET_SCHEME_HTTP: case INTERNET_SCHEME_HTTPS: { static const WCHAR szStars[] = { '*','/','*', 0 }; LPCWSTR accept[2] = { szStars, NULL }; if(urlComponents.nPort == 0) { if(urlComponents.nScheme == INTERNET_SCHEME_HTTP) urlComponents.nPort = INTERNET_DEFAULT_HTTP_PORT; else urlComponents.nPort = INTERNET_DEFAULT_HTTPS_PORT; } if (urlComponents.nScheme == INTERNET_SCHEME_HTTPS) dwFlags |= INTERNET_FLAG_SECURE; /* FIXME: should use pointers, not handles, as handles are not thread-safe */ res = HTTP_Connect(hIC, hostName, urlComponents.nPort, userName, password, dwFlags, dwContext, INET_OPENURL, &client); if(res != ERROR_SUCCESS) { INTERNET_SetLastError(res); break; } if (urlComponents.dwExtraInfoLength) { WCHAR *path_extra; DWORD len = urlComponents.dwUrlPathLength + urlComponents.dwExtraInfoLength + 1; if (!(path_extra = heap_alloc(len * sizeof(WCHAR)))) { InternetCloseHandle(client); break; } strcpyW(path_extra, urlComponents.lpszUrlPath); strcatW(path_extra, urlComponents.lpszExtraInfo); client1 = HttpOpenRequestW(client, NULL, path_extra, NULL, NULL, accept, dwFlags, dwContext); heap_free(path_extra); } else client1 = HttpOpenRequestW(client, NULL, path, NULL, NULL, accept, dwFlags, dwContext); if(client1 == NULL) { InternetCloseHandle(client); break; } HttpAddRequestHeadersW(client1, lpszHeaders, dwHeadersLength, HTTP_ADDREQ_FLAG_ADD); if (!HttpSendRequestW(client1, NULL, 0, NULL, 0) && GetLastError() != ERROR_IO_PENDING) { InternetCloseHandle(client1); client1 = NULL; break; } } case INTERNET_SCHEME_GOPHER: /* gopher doesn't seem to be implemented in wine, but it's supposed * to be supported by InternetOpenUrlA. */ default: SetLastError(ERROR_INTERNET_UNRECOGNIZED_SCHEME); break; } TRACE(" %p <--\n", client1); return client1; } /********************************************************** * InternetOpenUrlW (WININET.@) * * Opens an URL * * RETURNS * handle of connection or NULL on failure */ typedef struct { task_header_t hdr; WCHAR *url; WCHAR *headers; DWORD headers_len; DWORD flags; DWORD_PTR context; } open_url_task_t; static void AsyncInternetOpenUrlProc(task_header_t *hdr) { open_url_task_t *task = (open_url_task_t*)hdr; TRACE("%p\n", task->hdr.hdr); INTERNET_InternetOpenUrlW((appinfo_t*)task->hdr.hdr, task->url, task->headers, task->headers_len, task->flags, task->context); heap_free(task->url); heap_free(task->headers); } HINTERNET WINAPI InternetOpenUrlW(HINTERNET hInternet, LPCWSTR lpszUrl, LPCWSTR lpszHeaders, DWORD dwHeadersLength, DWORD dwFlags, DWORD_PTR dwContext) { HINTERNET ret = NULL; appinfo_t *hIC = NULL; if (TRACE_ON(wininet)) { TRACE("(%p, %s, %s, %08x, %08x, %08lx)\n", hInternet, debugstr_w(lpszUrl), debugstr_w(lpszHeaders), dwHeadersLength, dwFlags, dwContext); TRACE(" flags :"); dump_INTERNET_FLAGS(dwFlags); } if (!lpszUrl) { SetLastError(ERROR_INVALID_PARAMETER); goto lend; } hIC = (appinfo_t*)get_handle_object( hInternet ); if (NULL == hIC || hIC->hdr.htype != WH_HINIT) { SetLastError(ERROR_INTERNET_INCORRECT_HANDLE_TYPE); goto lend; } if (hIC->hdr.dwFlags & INTERNET_FLAG_ASYNC) { open_url_task_t *task; task = alloc_async_task(&hIC->hdr, AsyncInternetOpenUrlProc, sizeof(*task)); task->url = heap_strdupW(lpszUrl); task->headers = heap_strdupW(lpszHeaders); task->headers_len = dwHeadersLength; task->flags = dwFlags; task->context = dwContext; INTERNET_AsyncCall(&task->hdr); SetLastError(ERROR_IO_PENDING); } else { ret = INTERNET_InternetOpenUrlW(hIC, lpszUrl, lpszHeaders, dwHeadersLength, dwFlags, dwContext); } lend: if( hIC ) WININET_Release( &hIC->hdr ); TRACE(" %p <--\n", ret); return ret; } /********************************************************** * InternetOpenUrlA (WININET.@) * * Opens an URL * * RETURNS * handle of connection or NULL on failure */ HINTERNET WINAPI InternetOpenUrlA(HINTERNET hInternet, LPCSTR lpszUrl, LPCSTR lpszHeaders, DWORD dwHeadersLength, DWORD dwFlags, DWORD_PTR dwContext) { HINTERNET rc = NULL; LPWSTR szUrl = NULL; WCHAR *headers = NULL; TRACE("\n"); if(lpszUrl) { szUrl = heap_strdupAtoW(lpszUrl); if(!szUrl) return NULL; } if(lpszHeaders) { headers = heap_strndupAtoW(lpszHeaders, dwHeadersLength, &dwHeadersLength); if(!headers) { heap_free(szUrl); return NULL; } } rc = InternetOpenUrlW(hInternet, szUrl, headers, dwHeadersLength, dwFlags, dwContext); heap_free(szUrl); heap_free(headers); return rc; } static LPWITHREADERROR INTERNET_AllocThreadError(void) { LPWITHREADERROR lpwite = heap_alloc(sizeof(*lpwite)); if (lpwite) { lpwite->dwError = 0; lpwite->response[0] = '\0'; } if (!TlsSetValue(g_dwTlsErrIndex, lpwite)) { heap_free(lpwite); return NULL; } return lpwite; } /*********************************************************************** * INTERNET_SetLastError (internal) * * Set last thread specific error * * RETURNS * */ void INTERNET_SetLastError(DWORD dwError) { LPWITHREADERROR lpwite = TlsGetValue(g_dwTlsErrIndex); if (!lpwite) lpwite = INTERNET_AllocThreadError(); SetLastError(dwError); if(lpwite) lpwite->dwError = dwError; } /*********************************************************************** * INTERNET_GetLastError (internal) * * Get last thread specific error * * RETURNS * */ DWORD INTERNET_GetLastError(void) { LPWITHREADERROR lpwite = TlsGetValue(g_dwTlsErrIndex); if (!lpwite) return 0; /* TlsGetValue clears last error, so set it again here */ SetLastError(lpwite->dwError); return lpwite->dwError; } /*********************************************************************** * INTERNET_WorkerThreadFunc (internal) * * Worker thread execution function * * RETURNS * */ static DWORD CALLBACK INTERNET_WorkerThreadFunc(LPVOID lpvParam) { task_header_t *task = lpvParam; TRACE("\n"); task->proc(task); WININET_Release(task->hdr); heap_free(task); if (g_dwTlsErrIndex != TLS_OUT_OF_INDEXES) { heap_free(TlsGetValue(g_dwTlsErrIndex)); TlsSetValue(g_dwTlsErrIndex, NULL); } return TRUE; } void *alloc_async_task(object_header_t *hdr, async_task_proc_t proc, size_t size) { task_header_t *task; task = heap_alloc(size); if(!task) return NULL; task->hdr = WININET_AddRef(hdr); task->proc = proc; return task; } /*********************************************************************** * INTERNET_AsyncCall (internal) * * Retrieves work request from queue * * RETURNS * */ DWORD INTERNET_AsyncCall(task_header_t *task) { BOOL bSuccess; TRACE("\n"); bSuccess = QueueUserWorkItem(INTERNET_WorkerThreadFunc, task, WT_EXECUTELONGFUNCTION); if (!bSuccess) { heap_free(task); return ERROR_INTERNET_ASYNC_THREAD_FAILED; } return ERROR_SUCCESS; } /*********************************************************************** * INTERNET_GetResponseBuffer (internal) * * RETURNS * */ LPSTR INTERNET_GetResponseBuffer(void) { LPWITHREADERROR lpwite = TlsGetValue(g_dwTlsErrIndex); if (!lpwite) lpwite = INTERNET_AllocThreadError(); TRACE("\n"); return lpwite->response; } /********************************************************** * InternetQueryDataAvailable (WININET.@) * * Determines how much data is available to be read. * * RETURNS * TRUE on success, FALSE if an error occurred. If * INTERNET_FLAG_ASYNC was specified in InternetOpen, and * no data is presently available, FALSE is returned with * the last error ERROR_IO_PENDING; a callback with status * INTERNET_STATUS_REQUEST_COMPLETE will be sent when more * data is available. */ BOOL WINAPI InternetQueryDataAvailable( HINTERNET hFile, LPDWORD lpdwNumberOfBytesAvailable, DWORD dwFlags, DWORD_PTR dwContext) { object_header_t *hdr; DWORD res; TRACE("(%p %p %x %lx)\n", hFile, lpdwNumberOfBytesAvailable, dwFlags, dwContext); hdr = get_handle_object( hFile ); if (!hdr) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->QueryDataAvailable) { res = hdr->vtbl->QueryDataAvailable(hdr, lpdwNumberOfBytesAvailable, dwFlags, dwContext); }else { WARN("wrong handle\n"); res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; } WININET_Release(hdr); if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } DWORD create_req_file(const WCHAR *file_name, req_file_t **ret) { req_file_t *req_file; req_file = heap_alloc_zero(sizeof(*req_file)); if(!req_file) return ERROR_NOT_ENOUGH_MEMORY; req_file->ref = 1; req_file->file_name = heap_strdupW(file_name); if(!req_file->file_name) { heap_free(req_file); return ERROR_NOT_ENOUGH_MEMORY; } req_file->file_handle = CreateFileW(req_file->file_name, GENERIC_READ, FILE_SHARE_READ|FILE_SHARE_WRITE, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if(req_file->file_handle == INVALID_HANDLE_VALUE) { req_file_release(req_file); return GetLastError(); } *ret = req_file; return ERROR_SUCCESS; } void req_file_release(req_file_t *req_file) { if(InterlockedDecrement(&req_file->ref)) return; if(!req_file->is_committed) DeleteFileW(req_file->file_name); if(req_file->file_handle && req_file->file_handle != INVALID_HANDLE_VALUE) CloseHandle(req_file->file_handle); heap_free(req_file->file_name); heap_free(req_file); } /*********************************************************************** * InternetLockRequestFile (WININET.@) */ BOOL WINAPI InternetLockRequestFile(HINTERNET hInternet, HANDLE *lphLockReqHandle) { req_file_t *req_file = NULL; object_header_t *hdr; DWORD res; TRACE("(%p %p)\n", hInternet, lphLockReqHandle); hdr = get_handle_object(hInternet); if (!hdr) { SetLastError(ERROR_INVALID_HANDLE); return FALSE; } if(hdr->vtbl->LockRequestFile) { res = hdr->vtbl->LockRequestFile(hdr, &req_file); }else { WARN("wrong handle\n"); res = ERROR_INTERNET_INCORRECT_HANDLE_TYPE; } WININET_Release(hdr); *lphLockReqHandle = req_file; if(res != ERROR_SUCCESS) SetLastError(res); return res == ERROR_SUCCESS; } BOOL WINAPI InternetUnlockRequestFile(HANDLE hLockHandle) { TRACE("(%p)\n", hLockHandle); req_file_release(hLockHandle); return TRUE; } /*********************************************************************** * InternetAutodial (WININET.@) * * On windows this function is supposed to dial the default internet * connection. We don't want to have Wine dial out to the internet so * we return TRUE by default. It might be nice to check if we are connected. * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetAutodial(DWORD dwFlags, HWND hwndParent) { FIXME("STUB\n"); /* Tell that we are connected to the internet. */ return TRUE; } /*********************************************************************** * InternetAutodialHangup (WININET.@) * * Hangs up a connection made with InternetAutodial * * PARAM * dwReserved * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetAutodialHangup(DWORD dwReserved) { FIXME("STUB\n"); /* we didn't dial, we don't disconnect */ return TRUE; } /*********************************************************************** * InternetCombineUrlA (WININET.@) * * Combine a base URL with a relative URL * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCombineUrlA(LPCSTR lpszBaseUrl, LPCSTR lpszRelativeUrl, LPSTR lpszBuffer, LPDWORD lpdwBufferLength, DWORD dwFlags) { HRESULT hr=S_OK; TRACE("(%s, %s, %p, %p, 0x%08x)\n", debugstr_a(lpszBaseUrl), debugstr_a(lpszRelativeUrl), lpszBuffer, lpdwBufferLength, dwFlags); /* Flip this bit to correspond to URL_ESCAPE_UNSAFE */ dwFlags ^= ICU_NO_ENCODE; hr=UrlCombineA(lpszBaseUrl,lpszRelativeUrl,lpszBuffer,lpdwBufferLength,dwFlags); return (hr==S_OK); } /*********************************************************************** * InternetCombineUrlW (WININET.@) * * Combine a base URL with a relative URL * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCombineUrlW(LPCWSTR lpszBaseUrl, LPCWSTR lpszRelativeUrl, LPWSTR lpszBuffer, LPDWORD lpdwBufferLength, DWORD dwFlags) { HRESULT hr=S_OK; TRACE("(%s, %s, %p, %p, 0x%08x)\n", debugstr_w(lpszBaseUrl), debugstr_w(lpszRelativeUrl), lpszBuffer, lpdwBufferLength, dwFlags); /* Flip this bit to correspond to URL_ESCAPE_UNSAFE */ dwFlags ^= ICU_NO_ENCODE; hr=UrlCombineW(lpszBaseUrl,lpszRelativeUrl,lpszBuffer,lpdwBufferLength,dwFlags); return (hr==S_OK); } /* max port num is 65535 => 5 digits */ #define MAX_WORD_DIGITS 5 #define URL_GET_COMP_LENGTH(url, component) ((url)->dw##component##Length ? \ (url)->dw##component##Length : strlenW((url)->lpsz##component)) #define URL_GET_COMP_LENGTHA(url, component) ((url)->dw##component##Length ? \ (url)->dw##component##Length : strlen((url)->lpsz##component)) static BOOL url_uses_default_port(INTERNET_SCHEME nScheme, INTERNET_PORT nPort) { if ((nScheme == INTERNET_SCHEME_HTTP) && (nPort == INTERNET_DEFAULT_HTTP_PORT)) return TRUE; if ((nScheme == INTERNET_SCHEME_HTTPS) && (nPort == INTERNET_DEFAULT_HTTPS_PORT)) return TRUE; if ((nScheme == INTERNET_SCHEME_FTP) && (nPort == INTERNET_DEFAULT_FTP_PORT)) return TRUE; if ((nScheme == INTERNET_SCHEME_GOPHER) && (nPort == INTERNET_DEFAULT_GOPHER_PORT)) return TRUE; if (nPort == INTERNET_INVALID_PORT_NUMBER) return TRUE; return FALSE; } /* opaque urls do not fit into the standard url hierarchy and don't have * two following slashes */ static inline BOOL scheme_is_opaque(INTERNET_SCHEME nScheme) { return (nScheme != INTERNET_SCHEME_FTP) && (nScheme != INTERNET_SCHEME_GOPHER) && (nScheme != INTERNET_SCHEME_HTTP) && (nScheme != INTERNET_SCHEME_HTTPS) && (nScheme != INTERNET_SCHEME_FILE); } static LPCWSTR INTERNET_GetSchemeString(INTERNET_SCHEME scheme) { int index; if (scheme < INTERNET_SCHEME_FIRST) return NULL; index = scheme - INTERNET_SCHEME_FIRST; if (index >= sizeof(url_schemes)/sizeof(url_schemes[0])) return NULL; return (LPCWSTR)url_schemes[index]; } /* we can calculate using ansi strings because we're just * calculating string length, not size */ static BOOL calc_url_length(LPURL_COMPONENTSW lpUrlComponents, LPDWORD lpdwUrlLength) { INTERNET_SCHEME nScheme; *lpdwUrlLength = 0; if (lpUrlComponents->lpszScheme) { DWORD dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, Scheme); *lpdwUrlLength += dwLen; nScheme = GetInternetSchemeW(lpUrlComponents->lpszScheme, dwLen); } else { LPCWSTR scheme; nScheme = lpUrlComponents->nScheme; if (nScheme == INTERNET_SCHEME_DEFAULT) nScheme = INTERNET_SCHEME_HTTP; scheme = INTERNET_GetSchemeString(nScheme); *lpdwUrlLength += strlenW(scheme); } (*lpdwUrlLength)++; /* ':' */ if (!scheme_is_opaque(nScheme) || lpUrlComponents->lpszHostName) *lpdwUrlLength += strlen("//"); if (lpUrlComponents->lpszUserName) { *lpdwUrlLength += URL_GET_COMP_LENGTH(lpUrlComponents, UserName); *lpdwUrlLength += strlen("@"); } else { if (lpUrlComponents->lpszPassword) { INTERNET_SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } } if (lpUrlComponents->lpszPassword) { *lpdwUrlLength += strlen(":"); *lpdwUrlLength += URL_GET_COMP_LENGTH(lpUrlComponents, Password); } if (lpUrlComponents->lpszHostName) { *lpdwUrlLength += URL_GET_COMP_LENGTH(lpUrlComponents, HostName); if (!url_uses_default_port(nScheme, lpUrlComponents->nPort)) { char szPort[MAX_WORD_DIGITS+1]; sprintf(szPort, "%d", lpUrlComponents->nPort); *lpdwUrlLength += strlen(szPort); *lpdwUrlLength += strlen(":"); } if (lpUrlComponents->lpszUrlPath && *lpUrlComponents->lpszUrlPath != '/') (*lpdwUrlLength)++; /* '/' */ } if (lpUrlComponents->lpszUrlPath) *lpdwUrlLength += URL_GET_COMP_LENGTH(lpUrlComponents, UrlPath); if (lpUrlComponents->lpszExtraInfo) *lpdwUrlLength += URL_GET_COMP_LENGTH(lpUrlComponents, ExtraInfo); return TRUE; } static void convert_urlcomp_atow(LPURL_COMPONENTSA lpUrlComponents, LPURL_COMPONENTSW urlCompW) { INT len; ZeroMemory(urlCompW, sizeof(URL_COMPONENTSW)); urlCompW->dwStructSize = sizeof(URL_COMPONENTSW); urlCompW->dwSchemeLength = lpUrlComponents->dwSchemeLength; urlCompW->nScheme = lpUrlComponents->nScheme; urlCompW->dwHostNameLength = lpUrlComponents->dwHostNameLength; urlCompW->nPort = lpUrlComponents->nPort; urlCompW->dwUserNameLength = lpUrlComponents->dwUserNameLength; urlCompW->dwPasswordLength = lpUrlComponents->dwPasswordLength; urlCompW->dwUrlPathLength = lpUrlComponents->dwUrlPathLength; urlCompW->dwExtraInfoLength = lpUrlComponents->dwExtraInfoLength; if (lpUrlComponents->lpszScheme) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, Scheme) + 1; urlCompW->lpszScheme = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszScheme, -1, urlCompW->lpszScheme, len); } if (lpUrlComponents->lpszHostName) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, HostName) + 1; urlCompW->lpszHostName = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszHostName, -1, urlCompW->lpszHostName, len); } if (lpUrlComponents->lpszUserName) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, UserName) + 1; urlCompW->lpszUserName = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszUserName, -1, urlCompW->lpszUserName, len); } if (lpUrlComponents->lpszPassword) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, Password) + 1; urlCompW->lpszPassword = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszPassword, -1, urlCompW->lpszPassword, len); } if (lpUrlComponents->lpszUrlPath) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, UrlPath) + 1; urlCompW->lpszUrlPath = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszUrlPath, -1, urlCompW->lpszUrlPath, len); } if (lpUrlComponents->lpszExtraInfo) { len = URL_GET_COMP_LENGTHA(lpUrlComponents, ExtraInfo) + 1; urlCompW->lpszExtraInfo = heap_alloc(len * sizeof(WCHAR)); MultiByteToWideChar(CP_ACP, 0, lpUrlComponents->lpszExtraInfo, -1, urlCompW->lpszExtraInfo, len); } } /*********************************************************************** * InternetCreateUrlA (WININET.@) * * See InternetCreateUrlW. */ BOOL WINAPI InternetCreateUrlA(LPURL_COMPONENTSA lpUrlComponents, DWORD dwFlags, LPSTR lpszUrl, LPDWORD lpdwUrlLength) { BOOL ret; LPWSTR urlW = NULL; URL_COMPONENTSW urlCompW; TRACE("(%p,%d,%p,%p)\n", lpUrlComponents, dwFlags, lpszUrl, lpdwUrlLength); if (!lpUrlComponents || lpUrlComponents->dwStructSize != sizeof(URL_COMPONENTSW) || !lpdwUrlLength) { SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } convert_urlcomp_atow(lpUrlComponents, &urlCompW); if (lpszUrl) urlW = heap_alloc(*lpdwUrlLength * sizeof(WCHAR)); ret = InternetCreateUrlW(&urlCompW, dwFlags, urlW, lpdwUrlLength); if (!ret && (GetLastError() == ERROR_INSUFFICIENT_BUFFER)) *lpdwUrlLength /= sizeof(WCHAR); /* on success, lpdwUrlLength points to the size of urlW in WCHARS * minus one, so add one to leave room for NULL terminator */ if (ret) WideCharToMultiByte(CP_ACP, 0, urlW, -1, lpszUrl, *lpdwUrlLength + 1, NULL, NULL); heap_free(urlCompW.lpszScheme); heap_free(urlCompW.lpszHostName); heap_free(urlCompW.lpszUserName); heap_free(urlCompW.lpszPassword); heap_free(urlCompW.lpszUrlPath); heap_free(urlCompW.lpszExtraInfo); heap_free(urlW); return ret; } /*********************************************************************** * InternetCreateUrlW (WININET.@) * * Creates a URL from its component parts. * * PARAMS * lpUrlComponents [I] URL Components. * dwFlags [I] Flags. See notes. * lpszUrl [I] Buffer in which to store the created URL. * lpdwUrlLength [I/O] On input, the length of the buffer pointed to by * lpszUrl in characters. On output, the number of bytes * required to store the URL including terminator. * * NOTES * * The dwFlags parameter can be zero or more of the following: *|ICU_ESCAPE - Generates escape sequences for unsafe characters in the path and extra info of the URL. * * RETURNS * TRUE on success * FALSE on failure * */ BOOL WINAPI InternetCreateUrlW(LPURL_COMPONENTSW lpUrlComponents, DWORD dwFlags, LPWSTR lpszUrl, LPDWORD lpdwUrlLength) { DWORD dwLen; INTERNET_SCHEME nScheme; static const WCHAR slashSlashW[] = {'/','/'}; static const WCHAR fmtW[] = {'%','u',0}; TRACE("(%p,%d,%p,%p)\n", lpUrlComponents, dwFlags, lpszUrl, lpdwUrlLength); if (!lpUrlComponents || lpUrlComponents->dwStructSize != sizeof(URL_COMPONENTSW) || !lpdwUrlLength) { INTERNET_SetLastError(ERROR_INVALID_PARAMETER); return FALSE; } if (!calc_url_length(lpUrlComponents, &dwLen)) return FALSE; if (!lpszUrl || *lpdwUrlLength < dwLen) { *lpdwUrlLength = (dwLen + 1) * sizeof(WCHAR); INTERNET_SetLastError(ERROR_INSUFFICIENT_BUFFER); return FALSE; } *lpdwUrlLength = dwLen; lpszUrl[0] = 0x00; dwLen = 0; if (lpUrlComponents->lpszScheme) { dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, Scheme); memcpy(lpszUrl, lpUrlComponents->lpszScheme, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; nScheme = GetInternetSchemeW(lpUrlComponents->lpszScheme, dwLen); } else { LPCWSTR scheme; nScheme = lpUrlComponents->nScheme; if (nScheme == INTERNET_SCHEME_DEFAULT) nScheme = INTERNET_SCHEME_HTTP; scheme = INTERNET_GetSchemeString(nScheme); dwLen = strlenW(scheme); memcpy(lpszUrl, scheme, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; } /* all schemes are followed by at least a colon */ *lpszUrl = ':'; lpszUrl++; if (!scheme_is_opaque(nScheme) || lpUrlComponents->lpszHostName) { memcpy(lpszUrl, slashSlashW, sizeof(slashSlashW)); lpszUrl += sizeof(slashSlashW)/sizeof(slashSlashW[0]); } if (lpUrlComponents->lpszUserName) { dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, UserName); memcpy(lpszUrl, lpUrlComponents->lpszUserName, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; if (lpUrlComponents->lpszPassword) { *lpszUrl = ':'; lpszUrl++; dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, Password); memcpy(lpszUrl, lpUrlComponents->lpszPassword, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; } *lpszUrl = '@'; lpszUrl++; } if (lpUrlComponents->lpszHostName) { dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, HostName); memcpy(lpszUrl, lpUrlComponents->lpszHostName, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; if (!url_uses_default_port(nScheme, lpUrlComponents->nPort)) { WCHAR szPort[MAX_WORD_DIGITS+1]; sprintfW(szPort, fmtW, lpUrlComponents->nPort); *lpszUrl = ':'; lpszUrl++; dwLen = strlenW(szPort); memcpy(lpszUrl, szPort, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; } /* add slash between hostname and path if necessary */ if (lpUrlComponents->lpszUrlPath && *lpUrlComponents->lpszUrlPath != '/') { *lpszUrl = '/'; lpszUrl++; } } if (lpUrlComponents->lpszUrlPath) { dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, UrlPath); memcpy(lpszUrl, lpUrlComponents->lpszUrlPath, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; } if (lpUrlComponents->lpszExtraInfo) { dwLen = URL_GET_COMP_LENGTH(lpUrlComponents, ExtraInfo); memcpy(lpszUrl, lpUrlComponents->lpszExtraInfo, dwLen * sizeof(WCHAR)); lpszUrl += dwLen; } *lpszUrl = '\0'; return TRUE; } /*********************************************************************** * InternetConfirmZoneCrossingA (WININET.@) * */ DWORD WINAPI InternetConfirmZoneCrossingA( HWND hWnd, LPSTR szUrlPrev, LPSTR szUrlNew, BOOL bPost ) { FIXME("(%p, %s, %s, %x) stub\n", hWnd, debugstr_a(szUrlPrev), debugstr_a(szUrlNew), bPost); return ERROR_SUCCESS; } /*********************************************************************** * InternetConfirmZoneCrossingW (WININET.@) * */ DWORD WINAPI InternetConfirmZoneCrossingW( HWND hWnd, LPWSTR szUrlPrev, LPWSTR szUrlNew, BOOL bPost ) { FIXME("(%p, %s, %s, %x) stub\n", hWnd, debugstr_w(szUrlPrev), debugstr_w(szUrlNew), bPost); return ERROR_SUCCESS; } static DWORD zone_preference = 3; /*********************************************************************** * PrivacySetZonePreferenceW (WININET.@) */ DWORD WINAPI PrivacySetZonePreferenceW( DWORD zone, DWORD type, DWORD template, LPCWSTR preference ) { FIXME( "%x %x %x %s: stub\n", zone, type, template, debugstr_w(preference) ); zone_preference = template; return 0; } /*********************************************************************** * PrivacyGetZonePreferenceW (WININET.@) */ DWORD WINAPI PrivacyGetZonePreferenceW( DWORD zone, DWORD type, LPDWORD template, LPWSTR preference, LPDWORD length ) { FIXME( "%x %x %p %p %p: stub\n", zone, type, template, preference, length ); if (template) *template = zone_preference; return 0; } /*********************************************************************** * InternetGetSecurityInfoByURLA (WININET.@) */ BOOL WINAPI InternetGetSecurityInfoByURLA(LPSTR lpszURL, PCCERT_CHAIN_CONTEXT *ppCertChain, DWORD *pdwSecureFlags) { WCHAR *url; BOOL res; TRACE("(%s %p %p)\n", debugstr_a(lpszURL), ppCertChain, pdwSecureFlags); url = heap_strdupAtoW(lpszURL); if(!url) return FALSE; res = InternetGetSecurityInfoByURLW(url, ppCertChain, pdwSecureFlags); heap_free(url); return res; } /*********************************************************************** * InternetGetSecurityInfoByURLW (WININET.@) */ BOOL WINAPI InternetGetSecurityInfoByURLW(LPCWSTR lpszURL, PCCERT_CHAIN_CONTEXT *ppCertChain, DWORD *pdwSecureFlags) { URL_COMPONENTSW url = {sizeof(url)}; server_t *server; WCHAR *hostname; BOOL res; TRACE("(%s %p %p)\n", debugstr_w(lpszURL), ppCertChain, pdwSecureFlags); url.dwHostNameLength = 1; res = InternetCrackUrlW(lpszURL, 0, 0, &url); if(!res || url.nScheme != INTERNET_SCHEME_HTTPS) { SetLastError(ERROR_INTERNET_ITEM_NOT_FOUND); return FALSE; } hostname = heap_strndupW(url.lpszHostName, url.dwHostNameLength); if(!hostname) { SetLastError(ERROR_OUTOFMEMORY); return FALSE; } server = get_server(hostname, url.nPort, TRUE, FALSE); heap_free(hostname); if(!server) { SetLastError(ERROR_INTERNET_ITEM_NOT_FOUND); return FALSE; } if(server->cert_chain) { const CERT_CHAIN_CONTEXT *chain_dup; chain_dup = CertDuplicateCertificateChain(server->cert_chain); if(chain_dup) { *ppCertChain = chain_dup; *pdwSecureFlags = server->security_flags & _SECURITY_ERROR_FLAGS_MASK; }else { res = FALSE; } }else { SetLastError(ERROR_INTERNET_ITEM_NOT_FOUND); res = FALSE; } server_release(server); return res; } DWORD WINAPI InternetDialA( HWND hwndParent, LPSTR lpszConnectoid, DWORD dwFlags, DWORD_PTR* lpdwConnection, DWORD dwReserved ) { FIXME("(%p, %p, 0x%08x, %p, 0x%08x) stub\n", hwndParent, lpszConnectoid, dwFlags, lpdwConnection, dwReserved); return ERROR_SUCCESS; } DWORD WINAPI InternetDialW( HWND hwndParent, LPWSTR lpszConnectoid, DWORD dwFlags, DWORD_PTR* lpdwConnection, DWORD dwReserved ) { FIXME("(%p, %p, 0x%08x, %p, 0x%08x) stub\n", hwndParent, lpszConnectoid, dwFlags, lpdwConnection, dwReserved); return ERROR_SUCCESS; } BOOL WINAPI InternetGoOnlineA( LPSTR lpszURL, HWND hwndParent, DWORD dwReserved ) { FIXME("(%s, %p, 0x%08x) stub\n", debugstr_a(lpszURL), hwndParent, dwReserved); return TRUE; } BOOL WINAPI InternetGoOnlineW( LPWSTR lpszURL, HWND hwndParent, DWORD dwReserved ) { FIXME("(%s, %p, 0x%08x) stub\n", debugstr_w(lpszURL), hwndParent, dwReserved); return TRUE; } DWORD WINAPI InternetHangUp( DWORD_PTR dwConnection, DWORD dwReserved ) { FIXME("(0x%08lx, 0x%08x) stub\n", dwConnection, dwReserved); return ERROR_SUCCESS; } BOOL WINAPI CreateMD5SSOHash( PWSTR pszChallengeInfo, PWSTR pwszRealm, PWSTR pwszTarget, PBYTE pbHexHash ) { FIXME("(%s, %s, %s, %p) stub\n", debugstr_w(pszChallengeInfo), debugstr_w(pwszRealm), debugstr_w(pwszTarget), pbHexHash); return FALSE; } BOOL WINAPI ResumeSuspendedDownload( HINTERNET hInternet, DWORD dwError ) { FIXME("(%p, 0x%08x) stub\n", hInternet, dwError); return FALSE; } BOOL WINAPI InternetQueryFortezzaStatus(DWORD *a, DWORD_PTR b) { FIXME("(%p, %08lx) stub\n", a, b); return FALSE; } DWORD WINAPI ShowClientAuthCerts(HWND parent) { FIXME("%p: stub\n", parent); return 0; }