/* * Copyright 2016 Hans Leidekker for CodeWeavers * * 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 #include "windef.h" #include "winbase.h" #include "winuser.h" #include "webservices.h" #include "wine/debug.h" #include "wine/list.h" #include "wine/unicode.h" #include "webservices_private.h" #include "sock.h" WINE_DEFAULT_DEBUG_CHANNEL(webservices); static const struct prop_desc channel_props[] = { { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_BUFFERED_MESSAGE_SIZE */ { sizeof(UINT64), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_STREAMED_MESSAGE_SIZE */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_STREAMED_START_SIZE */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_STREAMED_FLUSH_SIZE */ { sizeof(WS_ENCODING), FALSE }, /* WS_CHANNEL_PROPERTY_ENCODING */ { sizeof(WS_ENVELOPE_VERSION), FALSE }, /* WS_CHANNEL_PROPERTY_ENVELOPE_VERSION */ { sizeof(WS_ADDRESSING_VERSION), FALSE }, /* WS_CHANNEL_PROPERTY_ADDRESSING_VERSION */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_SESSION_DICTIONARY_SIZE */ { sizeof(WS_CHANNEL_STATE), TRUE }, /* WS_CHANNEL_PROPERTY_STATE */ { sizeof(WS_CALLBACK_MODEL), FALSE }, /* WS_CHANNEL_PROPERTY_ASYNC_CALLBACK_MODEL */ { sizeof(WS_IP_VERSION), FALSE }, /* WS_CHANNEL_PROPERTY_IP_VERSION */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_RESOLVE_TIMEOUT */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_CONNECT_TIMEOUT */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_SEND_TIMEOUT */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_RECEIVE_RESPONSE_TIMEOUT */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_RECEIVE_TIMEOUT */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_CLOSE_TIMEOUT */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_ENABLE_TIMEOUTS */ { sizeof(WS_TRANSFER_MODE), FALSE }, /* WS_CHANNEL_PROPERTY_TRANSFER_MODE */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MULTICAST_INTERFACE */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MULTICAST_HOPS */ { sizeof(WS_ENDPOINT_ADDRESS), TRUE }, /* WS_CHANNEL_PROPERTY_REMOTE_ADDRESS */ { sizeof(SOCKADDR_STORAGE), TRUE }, /* WS_CHANNEL_PROPERTY_REMOTE_IP_ADDRESS */ { sizeof(ULONGLONG), TRUE }, /* WS_CHANNEL_PROPERTY_HTTP_CONNECTION_ID */ { sizeof(WS_CUSTOM_CHANNEL_CALLBACKS), FALSE }, /* WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_CALLBACKS */ { 0, FALSE }, /* WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_PARAMETERS */ { sizeof(void *), FALSE }, /* WS_CHANNEL_PROPERTY_CUSTOM_CHANNEL_INSTANCE */ { sizeof(WS_STRING), TRUE }, /* WS_CHANNEL_PROPERTY_TRANSPORT_URL */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_NO_DELAY */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_SEND_KEEP_ALIVES */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_KEEP_ALIVE_TIME */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_KEEP_ALIVE_INTERVAL */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_MAX_HTTP_SERVER_CONNECTIONS */ { sizeof(BOOL), TRUE }, /* WS_CHANNEL_PROPERTY_IS_SESSION_SHUT_DOWN */ { sizeof(WS_CHANNEL_TYPE), TRUE }, /* WS_CHANNEL_PROPERTY_CHANNEL_TYPE */ { sizeof(ULONG), FALSE }, /* WS_CHANNEL_PROPERTY_TRIM_BUFFERED_MESSAGE_SIZE */ { sizeof(WS_CHANNEL_ENCODER), FALSE }, /* WS_CHANNEL_PROPERTY_ENCODER */ { sizeof(WS_CHANNEL_DECODER), FALSE }, /* WS_CHANNEL_PROPERTY_DECODER */ { sizeof(WS_PROTECTION_LEVEL), TRUE }, /* WS_CHANNEL_PROPERTY_PROTECTION_LEVEL */ { sizeof(WS_COOKIE_MODE), FALSE }, /* WS_CHANNEL_PROPERTY_COOKIE_MODE */ { sizeof(WS_HTTP_PROXY_SETTING_MODE), FALSE }, /* WS_CHANNEL_PROPERTY_HTTP_PROXY_SETTING_MODE */ { sizeof(WS_CUSTOM_HTTP_PROXY), FALSE }, /* WS_CHANNEL_PROPERTY_CUSTOM_HTTP_PROXY */ { sizeof(WS_HTTP_MESSAGE_MAPPING), FALSE }, /* WS_CHANNEL_PROPERTY_HTTP_MESSAGE_MAPPING */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_ENABLE_HTTP_REDIRECT */ { sizeof(WS_HTTP_REDIRECT_CALLBACK_CONTEXT), FALSE }, /* WS_CHANNEL_PROPERTY_HTTP_REDIRECT_CALLBACK_CONTEXT */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_FAULTS_AS_ERRORS */ { sizeof(BOOL), FALSE }, /* WS_CHANNEL_PROPERTY_ALLOW_UNSECURED_FAULTS */ { sizeof(WCHAR *), TRUE }, /* WS_CHANNEL_PROPERTY_HTTP_SERVER_SPN */ { sizeof(WCHAR *), TRUE }, /* WS_CHANNEL_PROPERTY_HTTP_PROXY_SPN */ { sizeof(ULONG), FALSE } /* WS_CHANNEL_PROPERTY_MAX_HTTP_REQUEST_HEADERS_BUFFER_SIZE */ }; struct channel { ULONG magic; CRITICAL_SECTION cs; WS_CHANNEL_TYPE type; WS_CHANNEL_BINDING binding; WS_CHANNEL_STATE state; WS_ENDPOINT_ADDRESS addr; WS_XML_WRITER *writer; WS_XML_READER *reader; WS_MESSAGE *msg; union { struct { HINTERNET session; HINTERNET connect; HINTERNET request; } http; struct { SOCKET socket; } tcp; struct { SOCKET socket; } udp; } u; char *read_buf; ULONG read_buflen; ULONG read_size; ULONG prop_count; struct prop prop[sizeof(channel_props)/sizeof(channel_props[0])]; }; #define CHANNEL_MAGIC (('C' << 24) | ('H' << 16) | ('A' << 8) | 'N') static struct channel *alloc_channel(void) { static const ULONG count = sizeof(channel_props)/sizeof(channel_props[0]); struct channel *ret; ULONG size = sizeof(*ret) + prop_size( channel_props, count ); if (!(ret = heap_alloc_zero( size ))) return NULL; ret->magic = CHANNEL_MAGIC; InitializeCriticalSection( &ret->cs ); ret->cs.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": channel.cs"); prop_init( channel_props, count, ret->prop, &ret[1] ); ret->prop_count = count; return ret; } static void reset_channel( struct channel *channel ) { channel->state = WS_CHANNEL_STATE_CREATED; heap_free( channel->addr.url.chars ); channel->addr.url.chars = NULL; channel->addr.url.length = 0; channel->msg = NULL; channel->read_size = 0; switch (channel->binding) { case WS_HTTP_CHANNEL_BINDING: WinHttpCloseHandle( channel->u.http.request ); channel->u.http.request = NULL; WinHttpCloseHandle( channel->u.http.connect ); channel->u.http.connect = NULL; WinHttpCloseHandle( channel->u.http.session ); channel->u.http.session = NULL; break; case WS_TCP_CHANNEL_BINDING: closesocket( channel->u.tcp.socket ); channel->u.tcp.socket = -1; break; case WS_UDP_CHANNEL_BINDING: closesocket( channel->u.udp.socket ); channel->u.udp.socket = -1; break; default: break; } } static void free_channel( struct channel *channel ) { reset_channel( channel ); WsFreeWriter( channel->writer ); WsFreeReader( channel->reader ); heap_free( channel->read_buf ); channel->cs.DebugInfo->Spare[0] = 0; DeleteCriticalSection( &channel->cs ); heap_free( channel ); } static HRESULT create_channel( WS_CHANNEL_TYPE type, WS_CHANNEL_BINDING binding, const WS_CHANNEL_PROPERTY *properties, ULONG count, struct channel **ret ) { struct channel *channel; ULONG i, msg_size = 65536; HRESULT hr; if (!(channel = alloc_channel())) return E_OUTOFMEMORY; prop_set( channel->prop, channel->prop_count, WS_CHANNEL_PROPERTY_MAX_BUFFERED_MESSAGE_SIZE, &msg_size, sizeof(msg_size) ); for (i = 0; i < count; i++) { hr = prop_set( channel->prop, channel->prop_count, properties[i].id, properties[i].value, properties[i].valueSize ); if (hr != S_OK) { free_channel( channel ); return hr; } } channel->type = type; channel->binding = binding; switch (channel->binding) { case WS_TCP_CHANNEL_BINDING: channel->u.tcp.socket = -1; break; case WS_UDP_CHANNEL_BINDING: channel->u.udp.socket = -1; break; default: break; } *ret = channel; return S_OK; } /************************************************************************** * WsCreateChannel [webservices.@] */ HRESULT WINAPI WsCreateChannel( WS_CHANNEL_TYPE type, WS_CHANNEL_BINDING binding, const WS_CHANNEL_PROPERTY *properties, ULONG count, const WS_SECURITY_DESCRIPTION *desc, WS_CHANNEL **handle, WS_ERROR *error ) { struct channel *channel; HRESULT hr; TRACE( "%u %u %p %u %p %p %p\n", type, binding, properties, count, desc, handle, error ); if (error) FIXME( "ignoring error parameter\n" ); if (desc) FIXME( "ignoring security description\n" ); if (!handle) return E_INVALIDARG; if (type != WS_CHANNEL_TYPE_REQUEST && type != WS_CHANNEL_TYPE_DUPLEX && type != WS_CHANNEL_TYPE_DUPLEX_SESSION) { FIXME( "channel type %u not implemented\n", type ); return E_NOTIMPL; } if (binding != WS_HTTP_CHANNEL_BINDING && binding != WS_TCP_CHANNEL_BINDING && binding != WS_UDP_CHANNEL_BINDING) { FIXME( "channel binding %u not implemented\n", binding ); return E_NOTIMPL; } if ((hr = create_channel( type, binding, properties, count, &channel )) != S_OK) return hr; *handle = (WS_CHANNEL *)channel; return S_OK; } /************************************************************************** * WsCreateChannelForListener [webservices.@] */ HRESULT WINAPI WsCreateChannelForListener( WS_LISTENER *listener_handle, const WS_CHANNEL_PROPERTY *properties, ULONG count, WS_CHANNEL **handle, WS_ERROR *error ) { struct channel *channel; WS_CHANNEL_TYPE type; WS_CHANNEL_BINDING binding; HRESULT hr; TRACE( "%p %p %u %p %p\n", listener_handle, properties, count, handle, error ); if (error) FIXME( "ignoring error parameter\n" ); if (!listener_handle || !handle) return E_INVALIDARG; if ((hr = WsGetListenerProperty( listener_handle, WS_LISTENER_PROPERTY_CHANNEL_TYPE, &type, sizeof(type), NULL )) != S_OK) return hr; if ((hr = WsGetListenerProperty( listener_handle, WS_LISTENER_PROPERTY_CHANNEL_BINDING, &binding, sizeof(binding), NULL )) != S_OK) return hr; if ((hr = create_channel( type, binding, properties, count, &channel )) != S_OK) return hr; *handle = (WS_CHANNEL *)channel; return S_OK; } /************************************************************************** * WsFreeChannel [webservices.@] */ void WINAPI WsFreeChannel( WS_CHANNEL *handle ) { struct channel *channel = (struct channel *)handle; TRACE( "%p\n", handle ); if (!channel) return; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return; } channel->magic = 0; LeaveCriticalSection( &channel->cs ); free_channel( channel ); } /************************************************************************** * WsResetChannel [webservices.@] */ HRESULT WINAPI WsResetChannel( WS_CHANNEL *handle, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; TRACE( "%p %p\n", handle, error ); if (error) FIXME( "ignoring error parameter\n" ); if (!channel) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if (channel->state != WS_CHANNEL_STATE_CREATED && channel->state != WS_CHANNEL_STATE_CLOSED) { LeaveCriticalSection( &channel->cs ); return WS_E_INVALID_OPERATION; } reset_channel( channel ); LeaveCriticalSection( &channel->cs ); return S_OK; } /************************************************************************** * WsGetChannelProperty [webservices.@] */ HRESULT WINAPI WsGetChannelProperty( WS_CHANNEL *handle, WS_CHANNEL_PROPERTY_ID id, void *buf, ULONG size, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr = S_OK; TRACE( "%p %u %p %u %p\n", handle, id, buf, size, error ); if (error) FIXME( "ignoring error parameter\n" ); if (!channel) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } switch (id) { case WS_CHANNEL_PROPERTY_CHANNEL_TYPE: if (!buf || size != sizeof(channel->type)) hr = E_INVALIDARG; else *(WS_CHANNEL_TYPE *)buf = channel->type; break; default: hr = prop_get( channel->prop, channel->prop_count, id, buf, size ); } LeaveCriticalSection( &channel->cs ); return hr; } /************************************************************************** * WsSetChannelProperty [webservices.@] */ HRESULT WINAPI WsSetChannelProperty( WS_CHANNEL *handle, WS_CHANNEL_PROPERTY_ID id, const void *value, ULONG size, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %u %p %u\n", handle, id, value, size ); if (error) FIXME( "ignoring error parameter\n" ); if (!channel) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } hr = prop_set( channel->prop, channel->prop_count, id, value, size ); LeaveCriticalSection( &channel->cs ); return hr; } static HRESULT open_channel( struct channel *channel, const WS_ENDPOINT_ADDRESS *endpoint ) { if (endpoint->headers || endpoint->extensions || endpoint->identity) { FIXME( "headers, extensions or identity not supported\n" ); return E_NOTIMPL; } if (!(channel->addr.url.chars = heap_alloc( endpoint->url.length * sizeof(WCHAR) ))) return E_OUTOFMEMORY; memcpy( channel->addr.url.chars, endpoint->url.chars, endpoint->url.length * sizeof(WCHAR) ); channel->addr.url.length = endpoint->url.length; channel->state = WS_CHANNEL_STATE_OPEN; return S_OK; } /************************************************************************** * WsOpenChannel [webservices.@] */ HRESULT WINAPI WsOpenChannel( WS_CHANNEL *handle, const WS_ENDPOINT_ADDRESS *endpoint, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %p\n", handle, endpoint, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !endpoint) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if (channel->state != WS_CHANNEL_STATE_CREATED) { LeaveCriticalSection( &channel->cs ); return WS_E_INVALID_OPERATION; } hr = open_channel( channel, endpoint ); LeaveCriticalSection( &channel->cs ); return hr; } static void close_channel( struct channel *channel ) { reset_channel( channel ); channel->state = WS_CHANNEL_STATE_CLOSED; } /************************************************************************** * WsCloseChannel [webservices.@] */ HRESULT WINAPI WsCloseChannel( WS_CHANNEL *handle, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; TRACE( "%p %p %p\n", handle, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } close_channel( channel ); LeaveCriticalSection( &channel->cs ); return S_OK; } static HRESULT parse_http_url( const WCHAR *url, ULONG len, URL_COMPONENTS *uc ) { HRESULT hr = E_OUTOFMEMORY; WCHAR *tmp; DWORD err; memset( uc, 0, sizeof(*uc) ); uc->dwStructSize = sizeof(*uc); uc->dwHostNameLength = 128; uc->lpszHostName = heap_alloc( uc->dwHostNameLength * sizeof(WCHAR) ); uc->dwUrlPathLength = 128; uc->lpszUrlPath = heap_alloc( uc->dwUrlPathLength * sizeof(WCHAR) ); uc->dwExtraInfoLength = 128; uc->lpszExtraInfo = heap_alloc( uc->dwExtraInfoLength * sizeof(WCHAR) ); if (!uc->lpszHostName || !uc->lpszUrlPath || !uc->lpszExtraInfo) goto error; if (!WinHttpCrackUrl( url, len, ICU_DECODE, uc )) { if ((err = GetLastError()) != ERROR_INSUFFICIENT_BUFFER) { hr = HRESULT_FROM_WIN32( err ); goto error; } if (!(tmp = heap_realloc( uc->lpszHostName, uc->dwHostNameLength * sizeof(WCHAR) ))) goto error; uc->lpszHostName = tmp; if (!(tmp = heap_realloc( uc->lpszUrlPath, uc->dwUrlPathLength * sizeof(WCHAR) ))) goto error; uc->lpszUrlPath = tmp; if (!(tmp = heap_realloc( uc->lpszExtraInfo, uc->dwExtraInfoLength * sizeof(WCHAR) ))) goto error; uc->lpszExtraInfo = tmp; WinHttpCrackUrl( url, len, ICU_DECODE, uc ); } return S_OK; error: heap_free( uc->lpszHostName ); heap_free( uc->lpszUrlPath ); heap_free( uc->lpszExtraInfo ); return hr; } static HRESULT connect_channel_http( struct channel *channel ) { static const WCHAR agentW[] = {'M','S','-','W','e','b','S','e','r','v','i','c','e','s','/','1','.','0',0}; static const WCHAR postW[] = {'P','O','S','T',0}; HINTERNET ses = NULL, con = NULL, req = NULL; WCHAR *path; URL_COMPONENTS uc; DWORD flags = 0; HRESULT hr; if (channel->u.http.request) return S_OK; if ((hr = parse_http_url( channel->addr.url.chars, channel->addr.url.length, &uc )) != S_OK) return hr; if (!uc.dwExtraInfoLength) path = uc.lpszUrlPath; else if (!(path = heap_alloc( (uc.dwUrlPathLength + uc.dwExtraInfoLength + 1) * sizeof(WCHAR) ))) { hr = E_OUTOFMEMORY; goto done; } else { strcpyW( path, uc.lpszUrlPath ); strcatW( path, uc.lpszExtraInfo ); } switch (uc.nScheme) { case INTERNET_SCHEME_HTTP: break; case INTERNET_SCHEME_HTTPS: flags |= WINHTTP_FLAG_SECURE; break; default: hr = WS_E_INVALID_ENDPOINT_URL; goto done; } if (!(ses = WinHttpOpen( agentW, 0, NULL, NULL, 0 ))) { hr = HRESULT_FROM_WIN32( GetLastError() ); goto done; } if (!(con = WinHttpConnect( ses, uc.lpszHostName, uc.nPort, 0 ))) { hr = HRESULT_FROM_WIN32( GetLastError() ); goto done; } if (!(req = WinHttpOpenRequest( con, postW, path, NULL, NULL, NULL, flags ))) { hr = HRESULT_FROM_WIN32( GetLastError() ); goto done; } if ((hr = message_insert_http_headers( channel->msg, req )) != S_OK) goto done; channel->u.http.session = ses; channel->u.http.connect = con; channel->u.http.request = req; done: if (hr != S_OK) { WinHttpCloseHandle( req ); WinHttpCloseHandle( con ); WinHttpCloseHandle( ses ); } heap_free( uc.lpszHostName ); heap_free( uc.lpszUrlPath ); heap_free( uc.lpszExtraInfo ); if (path != uc.lpszUrlPath) heap_free( path ); return hr; } static HRESULT connect_channel_tcp( struct channel *channel ) { struct sockaddr_storage storage; struct sockaddr *addr = (struct sockaddr *)&storage; int addr_len; WS_URL_SCHEME_TYPE scheme; WCHAR *host; USHORT port; HRESULT hr; if (channel->u.tcp.socket != -1) return S_OK; if ((hr = parse_url( &channel->addr.url, &scheme, &host, &port )) != S_OK) return hr; if (scheme != WS_URL_NETTCP_SCHEME_TYPE) { heap_free( host ); return WS_E_INVALID_ENDPOINT_URL; } winsock_init(); hr = resolve_hostname( host, port, addr, &addr_len ); heap_free( host ); if (hr != S_OK) return hr; if ((channel->u.tcp.socket = socket( addr->sa_family, SOCK_STREAM, 0 )) == -1) return HRESULT_FROM_WIN32( WSAGetLastError() ); if (connect( channel->u.tcp.socket, addr, addr_len ) < 0) { closesocket( channel->u.tcp.socket ); channel->u.tcp.socket = -1; return HRESULT_FROM_WIN32( WSAGetLastError() ); } return S_OK; } static HRESULT connect_channel_udp( struct channel *channel ) { struct sockaddr_storage storage; struct sockaddr *addr = (struct sockaddr *)&storage; int addr_len; WS_URL_SCHEME_TYPE scheme; WCHAR *host; USHORT port; HRESULT hr; if (channel->u.udp.socket != -1) return S_OK; if ((hr = parse_url( &channel->addr.url, &scheme, &host, &port )) != S_OK) return hr; if (scheme != WS_URL_SOAPUDP_SCHEME_TYPE) { heap_free( host ); return WS_E_INVALID_ENDPOINT_URL; } winsock_init(); hr = resolve_hostname( host, port, addr, &addr_len ); heap_free( host ); if (hr != S_OK) return hr; if ((channel->u.udp.socket = socket( addr->sa_family, SOCK_DGRAM, 0 )) == -1) return HRESULT_FROM_WIN32( WSAGetLastError() ); if (connect( channel->u.udp.socket, addr, addr_len ) < 0) { closesocket( channel->u.udp.socket ); channel->u.udp.socket = -1; return HRESULT_FROM_WIN32( WSAGetLastError() ); } return S_OK; } static HRESULT connect_channel( struct channel *channel ) { switch (channel->binding) { case WS_HTTP_CHANNEL_BINDING: return connect_channel_http( channel ); case WS_TCP_CHANNEL_BINDING: return connect_channel_tcp( channel ); case WS_UDP_CHANNEL_BINDING: return connect_channel_udp( channel ); default: ERR( "unhandled binding %u\n", channel->binding ); return E_NOTIMPL; } } static HRESULT write_message( WS_MESSAGE *handle, WS_XML_WRITER *writer, const WS_ELEMENT_DESCRIPTION *desc, WS_WRITE_OPTION option, const void *body, ULONG size ) { HRESULT hr; if ((hr = WsWriteEnvelopeStart( handle, writer, NULL, NULL, NULL )) != S_OK) return hr; if ((hr = WsWriteBody( handle, desc, option, body, size, NULL )) != S_OK) return hr; return WsWriteEnvelopeEnd( handle, NULL ); } static HRESULT send_message_http( HANDLE request, BYTE *data, ULONG len ) { if (!WinHttpSendRequest( request, NULL, 0, data, len, len, 0 )) return HRESULT_FROM_WIN32( GetLastError() ); if (!WinHttpReceiveResponse( request, NULL )) return HRESULT_FROM_WIN32( GetLastError() ); return S_OK; } static HRESULT send_message_sock( SOCKET socket, BYTE *data, ULONG len ) { if (send( socket, (const char *)data, len, 0 ) < 0) return HRESULT_FROM_WIN32( WSAGetLastError() ); return S_OK; } static HRESULT send_message( struct channel *channel, WS_MESSAGE *msg ) { WS_XML_WRITER *writer; WS_BYTES buf; HRESULT hr; channel->msg = msg; if ((hr = connect_channel( channel )) != S_OK) return hr; WsGetMessageProperty( channel->msg, WS_MESSAGE_PROPERTY_BODY_WRITER, &writer, sizeof(writer), NULL ); WsGetWriterProperty( writer, WS_XML_WRITER_PROPERTY_BYTES, &buf, sizeof(buf), NULL ); switch (channel->binding) { case WS_HTTP_CHANNEL_BINDING: return send_message_http( channel->u.http.request, buf.bytes, buf.length ); case WS_TCP_CHANNEL_BINDING: return send_message_sock( channel->u.tcp.socket, buf.bytes, buf.length ); case WS_UDP_CHANNEL_BINDING: return send_message_sock( channel->u.udp.socket, buf.bytes, buf.length ); default: ERR( "unhandled binding %u\n", channel->binding ); return E_NOTIMPL; } } HRESULT channel_send_message( WS_CHANNEL *handle, WS_MESSAGE *msg ) { struct channel *channel = (struct channel *)handle; HRESULT hr; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } hr = send_message( channel, msg ); LeaveCriticalSection( &channel->cs ); return hr; } HRESULT set_output( WS_XML_WRITER *writer ) { WS_XML_WRITER_TEXT_ENCODING text = { {WS_XML_WRITER_ENCODING_TYPE_TEXT}, WS_CHARSET_UTF8 }; WS_XML_WRITER_BUFFER_OUTPUT buf = { {WS_XML_WRITER_OUTPUT_TYPE_BUFFER} }; return WsSetOutput( writer, &text.encoding, &buf.output, NULL, 0, NULL ); } static HRESULT init_writer( struct channel *channel ) { HRESULT hr; if (!channel->writer && (hr = WsCreateWriter( NULL, 0, &channel->writer, NULL )) != S_OK) return hr; return set_output( channel->writer ); } /************************************************************************** * WsSendMessage [webservices.@] */ HRESULT WINAPI WsSendMessage( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_MESSAGE_DESCRIPTION *desc, WS_WRITE_OPTION option, const void *body, ULONG size, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %08x %p %u %p %p\n", handle, msg, desc, option, body, size, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !msg || !desc) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = WsInitializeMessage( msg, WS_REQUEST_MESSAGE, NULL, NULL )) != S_OK) goto done; if ((hr = WsAddressMessage( msg, &channel->addr, NULL )) != S_OK) goto done; if ((hr = message_set_action( msg, desc->action )) != S_OK) goto done; if ((hr = init_writer( channel )) != S_OK) goto done; if ((hr = write_message( msg, channel->writer, desc->bodyElementDescription, option, body, size )) != S_OK) goto done; hr = send_message( channel, msg ); done: LeaveCriticalSection( &channel->cs ); return hr; } static HRESULT resize_read_buffer( struct channel *channel, ULONG size ) { if (!channel->read_buf) { if (!(channel->read_buf = heap_alloc( size ))) return E_OUTOFMEMORY; channel->read_buflen = size; return S_OK; } if (channel->read_buflen < size) { char *tmp; ULONG new_size = max( size, channel->read_buflen * 2 ); if (!(tmp = heap_realloc( channel->read_buf, new_size ))) return E_OUTOFMEMORY; channel->read_buf = tmp; channel->read_buflen = new_size; } return S_OK; } static HRESULT set_input( WS_XML_READER *reader, char *data, ULONG size ) { WS_XML_READER_TEXT_ENCODING text = {{WS_XML_READER_ENCODING_TYPE_TEXT}, WS_CHARSET_UTF8}; WS_XML_READER_BUFFER_INPUT buf; buf.input.inputType = WS_XML_READER_INPUT_TYPE_BUFFER; buf.encodedData = data; buf.encodedDataSize = size; return WsSetInput( reader, &text.encoding, &buf.input, NULL, 0, NULL ); } static HRESULT init_reader( struct channel *channel ) { HRESULT hr; if (!channel->reader && (hr = WsCreateReader( NULL, 0, &channel->reader, NULL )) != S_OK) return hr; return set_input( channel->reader, channel->read_buf, channel->read_size ); } #define INITIAL_READ_BUFFER_SIZE 4096 static HRESULT receive_message_http( struct channel *channel ) { DWORD len, bytes_read, offset = 0, size = INITIAL_READ_BUFFER_SIZE; ULONG max_len; HRESULT hr; prop_get( channel->prop, channel->prop_count, WS_CHANNEL_PROPERTY_MAX_BUFFERED_MESSAGE_SIZE, &max_len, sizeof(max_len) ); if ((hr = resize_read_buffer( channel, size )) != S_OK) return hr; channel->read_size = 0; for (;;) { if (!WinHttpQueryDataAvailable( channel->u.http.request, &len )) { return HRESULT_FROM_WIN32( GetLastError() ); } if (!len) break; if (channel->read_size + len > max_len) return WS_E_QUOTA_EXCEEDED; if ((hr = resize_read_buffer( channel, channel->read_size + len )) != S_OK) return hr; if (!WinHttpReadData( channel->u.http.request, channel->read_buf + offset, len, &bytes_read )) { return HRESULT_FROM_WIN32( GetLastError() ); } if (!bytes_read) break; channel->read_size += bytes_read; offset += bytes_read; } return init_reader( channel ); } static HRESULT receive_message_sock( struct channel *channel, SOCKET socket ) { int bytes_read; ULONG max_len; HRESULT hr; prop_get( channel->prop, channel->prop_count, WS_CHANNEL_PROPERTY_MAX_BUFFERED_MESSAGE_SIZE, &max_len, sizeof(max_len) ); if ((hr = resize_read_buffer( channel, max_len )) != S_OK) return hr; channel->read_size = 0; if ((bytes_read = recv( socket, channel->read_buf, max_len, 0 )) < 0) { return HRESULT_FROM_WIN32( WSAGetLastError() ); } channel->read_size = bytes_read; return init_reader( channel ); } static HRESULT receive_message( struct channel *channel ) { HRESULT hr; if ((hr = connect_channel( channel )) != S_OK) return hr; switch (channel->binding) { case WS_HTTP_CHANNEL_BINDING: return receive_message_http( channel ); case WS_TCP_CHANNEL_BINDING: return receive_message_sock( channel, channel->u.tcp.socket ); case WS_UDP_CHANNEL_BINDING: return receive_message_sock( channel, channel->u.udp.socket ); default: ERR( "unhandled binding %u\n", channel->binding ); return E_NOTIMPL; } } HRESULT channel_receive_message( WS_CHANNEL *handle ) { struct channel *channel = (struct channel *)handle; HRESULT hr; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } hr = receive_message( channel ); LeaveCriticalSection( &channel->cs ); return hr; } HRESULT channel_get_reader( WS_CHANNEL *handle, WS_XML_READER **reader ) { struct channel *channel = (struct channel *)handle; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } *reader = channel->reader; LeaveCriticalSection( &channel->cs ); return S_OK; } static HRESULT read_message( WS_MESSAGE *handle, WS_XML_READER *reader, const WS_ELEMENT_DESCRIPTION *desc, WS_READ_OPTION option, WS_HEAP *heap, void *body, ULONG size ) { HRESULT hr; if ((hr = WsReadEnvelopeStart( handle, reader, NULL, NULL, NULL )) != S_OK) return hr; if ((hr = WsReadBody( handle, desc, option, heap, body, size, NULL )) != S_OK) return hr; return WsReadEnvelopeEnd( handle, NULL ); } /************************************************************************** * WsReceiveMessage [webservices.@] */ HRESULT WINAPI WsReceiveMessage( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_MESSAGE_DESCRIPTION **desc, ULONG count, WS_RECEIVE_OPTION option, WS_READ_OPTION read_option, WS_HEAP *heap, void *value, ULONG size, ULONG *index, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %u %08x %08x %p %p %u %p %p %p\n", handle, msg, desc, count, option, read_option, heap, value, size, index, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (index) { FIXME( "index parameter not supported\n" ); return E_NOTIMPL; } if (count != 1) { FIXME( "no support for multiple descriptions\n" ); return E_NOTIMPL; } if (option != WS_RECEIVE_REQUIRED_MESSAGE) { FIXME( "receive option %08x not supported\n", option ); return E_NOTIMPL; } if (!channel || !msg || !desc || !count) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = receive_message( channel )) != S_OK) goto done; hr = read_message( msg, channel->reader, desc[0]->bodyElementDescription, read_option, heap, value, size ); done: LeaveCriticalSection( &channel->cs ); return hr; } /************************************************************************** * WsReadMessageStart [webservices.@] */ HRESULT WINAPI WsReadMessageStart( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %p\n", handle, msg, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !msg) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = receive_message( channel )) == S_OK) { hr = WsReadEnvelopeStart( msg, channel->reader, NULL, NULL, NULL ); } LeaveCriticalSection( &channel->cs ); return hr; } /************************************************************************** * WsReadMessageEnd [webservices.@] */ HRESULT WINAPI WsReadMessageEnd( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %p\n", handle, msg, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !msg) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } hr = WsReadEnvelopeEnd( msg, NULL ); LeaveCriticalSection( &channel->cs ); return hr; } /************************************************************************** * WsWriteMessageStart [webservices.@] */ HRESULT WINAPI WsWriteMessageStart( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %p\n", handle, msg, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !msg) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = init_writer( channel )) != S_OK) goto done; if ((hr = WsAddressMessage( msg, &channel->addr, NULL )) != S_OK) goto done; hr = WsWriteEnvelopeStart( msg, channel->writer, NULL, NULL, NULL ); done: LeaveCriticalSection( &channel->cs ); return hr; } /************************************************************************** * WsWriteMessageEnd [webservices.@] */ HRESULT WINAPI WsWriteMessageEnd( WS_CHANNEL *handle, WS_MESSAGE *msg, const WS_ASYNC_CONTEXT *ctx, WS_ERROR *error ) { struct channel *channel = (struct channel *)handle; HRESULT hr; TRACE( "%p %p %p %p\n", handle, msg, ctx, error ); if (error) FIXME( "ignoring error parameter\n" ); if (ctx) FIXME( "ignoring ctx parameter\n" ); if (!channel || !msg) return E_INVALIDARG; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = WsWriteEnvelopeEnd( msg, NULL )) == S_OK) hr = send_message( channel, msg ); LeaveCriticalSection( &channel->cs ); return hr; } static HRESULT sock_accept( SOCKET socket, HANDLE wait, HANDLE cancel, SOCKET *ret ) { HANDLE handles[] = { wait, cancel }; ULONG nonblocking = 0; HRESULT hr = S_OK; if (WSAEventSelect( socket, handles[0], FD_ACCEPT )) return HRESULT_FROM_WIN32( WSAGetLastError() ); switch (WSAWaitForMultipleEvents( 2, handles, FALSE, WSA_INFINITE, FALSE )) { case 0: if ((*ret = accept( socket, NULL, NULL )) != -1) { WSAEventSelect( *ret, NULL, 0 ); ioctlsocket( *ret, FIONBIO, &nonblocking ); break; } hr = HRESULT_FROM_WIN32( WSAGetLastError() ); break; case 1: hr = WS_E_OPERATION_ABORTED; break; default: hr = HRESULT_FROM_WIN32( WSAGetLastError() ); break; } return hr; } HRESULT channel_accept_tcp( SOCKET socket, HANDLE wait, HANDLE cancel, WS_CHANNEL *handle ) { struct channel *channel = (struct channel *)handle; HRESULT hr; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } hr = sock_accept( socket, wait, cancel, &channel->u.tcp.socket ); LeaveCriticalSection( &channel->cs ); return hr; } static HRESULT sock_wait( SOCKET socket, HANDLE wait, HANDLE cancel ) { HANDLE handles[] = { wait, cancel }; ULONG nonblocking = 0; HRESULT hr; if (WSAEventSelect( socket, handles[0], FD_READ )) return HRESULT_FROM_WIN32( WSAGetLastError() ); switch (WSAWaitForMultipleEvents( 2, handles, FALSE, WSA_INFINITE, FALSE )) { case 0: hr = S_OK; break; case 1: hr = WS_E_OPERATION_ABORTED; break; default: hr = HRESULT_FROM_WIN32( WSAGetLastError() ); break; } WSAEventSelect( socket, NULL, 0 ); ioctlsocket( socket, FIONBIO, &nonblocking ); return hr; } HRESULT channel_accept_udp( SOCKET socket, HANDLE wait, HANDLE cancel, WS_CHANNEL *handle ) { struct channel *channel = (struct channel *)handle; HRESULT hr; EnterCriticalSection( &channel->cs ); if (channel->magic != CHANNEL_MAGIC) { LeaveCriticalSection( &channel->cs ); return E_INVALIDARG; } if ((hr = sock_wait( socket, wait, cancel )) == S_OK) channel->u.udp.socket = socket; LeaveCriticalSection( &channel->cs ); return hr; }