/** * FreeRDP: A Remote Desktop Protocol Implementation * FreeRDP Test Server * * Copyright 2011 Marc-Andre Moreau * Copyright 2011 Vic Lee * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include #include #include #include #include #include #include #include #include "sf_audin.h" #include "sf_rdpsnd.h" #include "sfreerdp.h" static char* test_pcap_file = NULL; static BOOL test_dump_rfx_realtime = TRUE; /* HL1, LH1, HH1, HL2, LH2, HH2, HL3, LH3, HH3, LL3 */ static const unsigned int test_quantization_values[] = { 6, 6, 6, 6, 7, 7, 8, 8, 8, 9 }; void test_peer_context_new(freerdp_peer* client, testPeerContext* context) { context->rfx_context = rfx_context_new(); context->rfx_context->mode = RLGR3; context->rfx_context->width = client->settings->width; context->rfx_context->height = client->settings->height; rfx_context_set_pixel_format(context->rfx_context, RDP_PIXEL_FORMAT_R8G8B8); context->nsc_context = nsc_context_new(); nsc_context_set_pixel_format(context->nsc_context, RDP_PIXEL_FORMAT_R8G8B8); context->s = stream_new(65536); context->icon_x = -1; context->icon_y = -1; context->vcm = WTSCreateVirtualChannelManager(client); } void test_peer_context_free(freerdp_peer* client, testPeerContext* context) { if (context) { if (context->debug_channel_thread) { freerdp_thread_stop(context->debug_channel_thread); freerdp_thread_free(context->debug_channel_thread); } stream_free(context->s); free(context->icon_data); free(context->bg_data); rfx_context_free(context->rfx_context); nsc_context_free(context->nsc_context); if (context->debug_channel) WTSVirtualChannelClose(context->debug_channel); if (context->audin) audin_server_context_free(context->audin); if (context->rdpsnd) rdpsnd_server_context_free(context->rdpsnd); WTSDestroyVirtualChannelManager(context->vcm); } } static void test_peer_init(freerdp_peer* client) { client->context_size = sizeof(testPeerContext); client->ContextNew = (psPeerContextNew) test_peer_context_new; client->ContextFree = (psPeerContextFree) test_peer_context_free; freerdp_peer_context_new(client); } static STREAM* test_peer_stream_init(testPeerContext* context) { stream_clear(context->s); stream_set_pos(context->s, 0); return context->s; } static void test_peer_begin_frame(freerdp_peer* client) { rdpUpdate* update = client->update; SURFACE_FRAME_MARKER* fm = &update->surface_frame_marker; testPeerContext* context = (testPeerContext*) client->context; fm->frameAction = SURFACECMD_FRAMEACTION_BEGIN; fm->frameId = context->frame_id; update->SurfaceFrameMarker(update->context, fm); } static void test_peer_end_frame(freerdp_peer* client) { rdpUpdate* update = client->update; SURFACE_FRAME_MARKER* fm = &update->surface_frame_marker; testPeerContext* context = (testPeerContext*) client->context; fm->frameAction = SURFACECMD_FRAMEACTION_END; fm->frameId = context->frame_id; update->SurfaceFrameMarker(update->context, fm); context->frame_id++; } static void test_peer_draw_background(freerdp_peer* client) { int size; STREAM* s; RFX_RECT rect; BYTE* rgb_data; rdpUpdate* update = client->update; SURFACE_BITS_COMMAND* cmd = &update->surface_bits_command; testPeerContext* context = (testPeerContext*) client->context; if (!client->settings->RemoteFxCodec && !client->settings->NSCodec) return; test_peer_begin_frame(client); s = test_peer_stream_init(context); rect.x = 0; rect.y = 0; rect.width = client->settings->width; rect.height = client->settings->height; size = rect.width * rect.height * 3; rgb_data = malloc(size); memset(rgb_data, 0xA0, size); if (client->settings->RemoteFxCodec) { rfx_compose_message(context->rfx_context, s, &rect, 1, rgb_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->RemoteFxCodecId; } else { nsc_compose_message(context->nsc_context, s, rgb_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->NSCodecId; } cmd->destLeft = 0; cmd->destTop = 0; cmd->destRight = rect.width; cmd->destBottom = rect.height; cmd->bpp = 32; cmd->width = rect.width; cmd->height = rect.height; cmd->bitmapDataLength = stream_get_length(s); cmd->bitmapData = stream_get_head(s); update->SurfaceBits(update->context, cmd); free(rgb_data); test_peer_end_frame(client); } static void test_peer_load_icon(freerdp_peer* client) { testPeerContext* context = (testPeerContext*) client->context; FILE* fp; int i; char line[50]; BYTE* rgb_data; int c; if (!client->settings->RemoteFxCodec && !client->settings->NSCodec) return; if ((fp = fopen("test_icon.ppm", "r")) == NULL) return; /* P3 */ fgets(line, sizeof(line), fp); /* Creater comment */ fgets(line, sizeof(line), fp); /* width height */ fgets(line, sizeof(line), fp); sscanf(line, "%d %d", &context->icon_width, &context->icon_height); /* Max */ fgets(line, sizeof(line), fp); rgb_data = malloc(context->icon_width * context->icon_height * 3); for (i = 0; i < context->icon_width * context->icon_height * 3; i++) { if (fgets(line, sizeof(line), fp)) { sscanf(line, "%d", &c); rgb_data[i] = (BYTE)c; } } context->icon_data = rgb_data; /* background with same size, which will be used to erase the icon from old position */ context->bg_data = malloc(context->icon_width * context->icon_height * 3); memset(context->bg_data, 0xA0, context->icon_width * context->icon_height * 3); } static void test_peer_draw_icon(freerdp_peer* client, int x, int y) { STREAM* s; RFX_RECT rect; rdpUpdate* update = client->update; SURFACE_BITS_COMMAND* cmd = &update->surface_bits_command; testPeerContext* context = (testPeerContext*) client->context; if (client->update->dump_rfx) return; if (!context) return; if (context->icon_width < 1 || !context->activated) return; test_peer_begin_frame(client); rect.x = 0; rect.y = 0; rect.width = context->icon_width; rect.height = context->icon_height; if (context->icon_x >= 0) { s = test_peer_stream_init(context); if (client->settings->RemoteFxCodec) { rfx_compose_message(context->rfx_context, s, &rect, 1, context->bg_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->RemoteFxCodecId; } else { nsc_compose_message(context->nsc_context, s, context->bg_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->NSCodecId; } cmd->destLeft = context->icon_x; cmd->destTop = context->icon_y; cmd->destRight = context->icon_x + context->icon_width; cmd->destBottom = context->icon_y + context->icon_height; cmd->bpp = 32; cmd->width = context->icon_width; cmd->height = context->icon_height; cmd->bitmapDataLength = stream_get_length(s); cmd->bitmapData = stream_get_head(s); update->SurfaceBits(update->context, cmd); } s = test_peer_stream_init(context); if (client->settings->RemoteFxCodec) { rfx_compose_message(context->rfx_context, s, &rect, 1, context->icon_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->RemoteFxCodecId; } else { nsc_compose_message(context->nsc_context, s, context->icon_data, rect.width, rect.height, rect.width * 3); cmd->codecID = client->settings->NSCodecId; } cmd->destLeft = x; cmd->destTop = y; cmd->destRight = x + context->icon_width; cmd->destBottom = y + context->icon_height; cmd->bpp = 32; cmd->width = context->icon_width; cmd->height = context->icon_height; cmd->bitmapDataLength = stream_get_length(s); cmd->bitmapData = stream_get_head(s); update->SurfaceBits(update->context, cmd); context->icon_x = x; context->icon_y = y; test_peer_end_frame(client); } static BOOL test_sleep_tsdiff(UINT32 *old_sec, UINT32 *old_usec, UINT32 new_sec, UINT32 new_usec) { INT32 sec, usec; if (*old_sec==0 && *old_usec==0) { *old_sec = new_sec; *old_usec = new_usec; return TRUE; } sec = new_sec - *old_sec; usec = new_usec - *old_usec; if (sec<0 || (sec==0 && usec<0)) { printf("Invalid time stamp detected.\n"); return FALSE; } *old_sec = new_sec; *old_usec = new_usec; while (usec < 0) { usec += 1000000; sec--; } if (sec > 0) freerdp_sleep(sec); if (usec > 0) freerdp_usleep(usec); return TRUE; } void tf_peer_dump_rfx(freerdp_peer* client) { STREAM* s; UINT32 prev_seconds; UINT32 prev_useconds; rdpUpdate* update; rdpPcap* pcap_rfx; pcap_record record; s = stream_new(512); update = client->update; client->update->pcap_rfx = pcap_open(test_pcap_file, FALSE); pcap_rfx = client->update->pcap_rfx; if (pcap_rfx == NULL) return; prev_seconds = prev_useconds = 0; while (pcap_has_next_record(pcap_rfx)) { pcap_get_next_record_header(pcap_rfx, &record); s->data = realloc(s->data, record.length); record.data = s->data; s->size = record.length; pcap_get_next_record_content(pcap_rfx, &record); s->p = s->data + s->size; if (test_dump_rfx_realtime && test_sleep_tsdiff(&prev_seconds, &prev_useconds, record.header.ts_sec, record.header.ts_usec) == FALSE) break; update->SurfaceCommand(update->context, s); } } static void* tf_debug_channel_thread_func(void* arg) { void* fd; STREAM* s; void* buffer; UINT32 bytes_returned = 0; testPeerContext* context = (testPeerContext*) arg; freerdp_thread* thread = context->debug_channel_thread; if (WTSVirtualChannelQuery(context->debug_channel, WTSVirtualFileHandle, &buffer, &bytes_returned) == TRUE) { fd = *((void**)buffer); WTSFreeMemory(buffer); thread->signals[thread->num_signals++] = wait_obj_new_with_fd(fd); } s = stream_new(4096); WTSVirtualChannelWrite(context->debug_channel, (BYTE*) "test1", 5, NULL); while (1) { freerdp_thread_wait(thread); if (freerdp_thread_is_stopped(thread)) break; stream_set_pos(s, 0); if (WTSVirtualChannelRead(context->debug_channel, 0, stream_get_head(s), stream_get_size(s), &bytes_returned) == FALSE) { if (bytes_returned == 0) break; stream_check_size(s, bytes_returned); if (WTSVirtualChannelRead(context->debug_channel, 0, stream_get_head(s), stream_get_size(s), &bytes_returned) == FALSE) { /* should not happen */ break; } } stream_set_pos(s, bytes_returned); printf("got %d bytes\n", bytes_returned); } stream_free(s); freerdp_thread_quit(thread); return 0; } BOOL tf_peer_post_connect(freerdp_peer* client) { int i; testPeerContext* context = (testPeerContext*) client->context; /** * This callback is called when the entire connection sequence is done, i.e. we've received the * Font List PDU from the client and sent out the Font Map PDU. * The server may start sending graphics output and receiving keyboard/mouse input after this * callback returns. */ printf("Client %s is activated (osMajorType %d osMinorType %d)", client->local ? "(local)" : client->hostname, client->settings->OsMajorType, client->settings->OsMinorType); if (client->settings->AutoLogonEnabled) { printf(" and wants to login automatically as %s\\%s", client->settings->Domain ? client->settings->Domain : "", client->settings->Username); /* A real server may perform OS login here if NLA is not executed previously. */ } printf("\n"); printf("Client requested desktop: %dx%dx%d\n", client->settings->width, client->settings->height, client->settings->color_depth); /* A real server should tag the peer as activated here and start sending updates in mainloop. */ test_peer_load_icon(client); /* Iterate all channel names requested by the client and activate those supported by the server */ for (i = 0; i < client->settings->ChannelCount; i++) { if (client->settings->ChannelDefArray[i].joined) { if (strncmp(client->settings->ChannelDefArray[i].Name, "rdpdbg", 6) == 0) { context->debug_channel = WTSVirtualChannelOpenEx(context->vcm, "rdpdbg", 0); if (context->debug_channel != NULL) { printf("Open channel rdpdbg.\n"); context->debug_channel_thread = freerdp_thread_new(); freerdp_thread_start(context->debug_channel_thread, tf_debug_channel_thread_func, context); } } else if (strncmp(client->settings->ChannelDefArray[i].Name, "rdpsnd", 6) == 0) { sf_peer_rdpsnd_init(context); /* Audio Output */ } } } /* Dynamic Virtual Channels */ sf_peer_audin_init(context); /* Audio Input */ /* Return FALSE here would stop the execution of the peer mainloop. */ return TRUE; } BOOL tf_peer_activate(freerdp_peer* client) { testPeerContext* context = (testPeerContext*) client->context; rfx_context_reset(context->rfx_context); context->activated = TRUE; if (test_pcap_file != NULL) { client->update->dump_rfx = TRUE; tf_peer_dump_rfx(client); } else { test_peer_draw_background(client); } return TRUE; } void tf_peer_synchronize_event(rdpInput* input, UINT32 flags) { printf("Client sent a synchronize event (flags:0x%X)\n", flags); } void tf_peer_keyboard_event(rdpInput* input, UINT16 flags, UINT16 code) { freerdp_peer* client = input->context->peer; rdpUpdate* update = client->update; testPeerContext* context = (testPeerContext*) input->context; printf("Client sent a keyboard event (flags:0x%X code:0x%X)\n", flags, code); if ((flags & 0x4000) && code == 0x22) /* 'g' key */ { if (client->settings->width != 800) { client->settings->width = 800; client->settings->height = 600; } else { client->settings->width = 640; client->settings->height = 480; } update->DesktopResize(update->context); context->activated = FALSE; } else if ((flags & 0x4000) && code == 0x2E) /* 'c' key */ { if (context->debug_channel) { WTSVirtualChannelWrite(context->debug_channel, (BYTE*) "test2", 5, NULL); } } else if ((flags & 0x4000) && code == 0x2D) /* 'x' key */ { client->Close(client); } else if ((flags & 0x4000) && code == 0x13) /* 'r' key */ { if (!context->audin_open) { context->audin->Open(context->audin); context->audin_open = TRUE; } else { context->audin->Close(context->audin); context->audin_open = FALSE; } } else if ((flags & 0x4000) && code == 0x1F) /* 's' key */ { } } void tf_peer_unicode_keyboard_event(rdpInput* input, UINT16 flags, UINT16 code) { printf("Client sent a unicode keyboard event (flags:0x%X code:0x%X)\n", flags, code); } void tf_peer_mouse_event(rdpInput* input, UINT16 flags, UINT16 x, UINT16 y) { //printf("Client sent a mouse event (flags:0x%X pos:%d,%d)\n", flags, x, y); test_peer_draw_icon(input->context->peer, x + 10, y); } void tf_peer_extended_mouse_event(rdpInput* input, UINT16 flags, UINT16 x, UINT16 y) { //printf("Client sent an extended mouse event (flags:0x%X pos:%d,%d)\n", flags, x, y); } static void tf_peer_refresh_rect(rdpContext* context, BYTE count, RECTANGLE_16* areas) { BYTE i; printf("Client requested to refresh:\n"); for (i = 0; i < count; i++) { printf(" (%d, %d) (%d, %d)\n", areas[i].left, areas[i].top, areas[i].right, areas[i].bottom); } } static void tf_peer_suppress_output(rdpContext* context, BYTE allow, RECTANGLE_16* area) { if (allow > 0) { printf("Client restore output (%d, %d) (%d, %d).\n", area->left, area->top, area->right, area->bottom); } else { printf("Client minimized and suppress output.\n"); } } static void* test_peer_mainloop(void* arg) { int i; int fds; int max_fds; int rcount; void* rfds[32]; fd_set rfds_set; testPeerContext* context; freerdp_peer* client = (freerdp_peer*) arg; memset(rfds, 0, sizeof(rfds)); test_peer_init(client); /* Initialize the real server settings here */ client->settings->CertificateFile = _strdup("server.crt"); client->settings->PrivateKeyFile = _strdup("server.key"); client->settings->NlaSecurity = FALSE; client->settings->RemoteFxCodec = TRUE; client->settings->SuppressOutput = TRUE; client->settings->RefreshRect = TRUE; client->PostConnect = tf_peer_post_connect; client->Activate = tf_peer_activate; client->input->SynchronizeEvent = tf_peer_synchronize_event; client->input->KeyboardEvent = tf_peer_keyboard_event; client->input->UnicodeKeyboardEvent = tf_peer_unicode_keyboard_event; client->input->MouseEvent = tf_peer_mouse_event; client->input->ExtendedMouseEvent = tf_peer_extended_mouse_event; client->update->RefreshRect = tf_peer_refresh_rect; client->update->SuppressOutput = tf_peer_suppress_output; client->Initialize(client); context = (testPeerContext*) client->context; printf("We've got a client %s\n", client->local ? "(local)" : client->hostname); while (1) { rcount = 0; if (client->GetFileDescriptor(client, rfds, &rcount) != TRUE) { printf("Failed to get FreeRDP file descriptor\n"); break; } WTSVirtualChannelManagerGetFileDescriptor(context->vcm, rfds, &rcount); max_fds = 0; FD_ZERO(&rfds_set); for (i = 0; i < rcount; i++) { fds = (int)(long)(rfds[i]); if (fds > max_fds) max_fds = fds; FD_SET(fds, &rfds_set); } if (max_fds == 0) break; if (select(max_fds + 1, &rfds_set, NULL, NULL, NULL) == -1) { /* these are not really errors */ if (!((errno == EAGAIN) || (errno == EWOULDBLOCK) || (errno == EINPROGRESS) || (errno == EINTR))) /* signal occurred */ { printf("select failed\n"); break; } } if (client->CheckFileDescriptor(client) != TRUE) break; if (WTSVirtualChannelManagerCheckFileDescriptor(context->vcm) != TRUE) break; } printf("Client %s disconnected.\n", client->local ? "(local)" : client->hostname); client->Disconnect(client); freerdp_peer_context_free(client); freerdp_peer_free(client); return NULL; } static void test_peer_accepted(freerdp_listener* instance, freerdp_peer* client) { pthread_t th; pthread_create(&th, 0, test_peer_mainloop, client); pthread_detach(th); } static void test_server_mainloop(freerdp_listener* instance) { int i; int fds; int max_fds; int rcount; void* rfds[32]; fd_set rfds_set; memset(rfds, 0, sizeof(rfds)); while (1) { rcount = 0; if (instance->GetFileDescriptor(instance, rfds, &rcount) != TRUE) { printf("Failed to get FreeRDP file descriptor\n"); break; } max_fds = 0; FD_ZERO(&rfds_set); for (i = 0; i < rcount; i++) { fds = (int)(long)(rfds[i]); if (fds > max_fds) max_fds = fds; FD_SET(fds, &rfds_set); } if (max_fds == 0) break; if (select(max_fds + 1, &rfds_set, NULL, NULL, NULL) == -1) { /* these are not really errors */ if (!((errno == EAGAIN) || (errno == EWOULDBLOCK) || (errno == EINPROGRESS) || (errno == EINTR))) /* signal occurred */ { printf("select failed\n"); break; } } if (instance->CheckFileDescriptor(instance) != TRUE) { printf("Failed to check FreeRDP file descriptor\n"); break; } } instance->Close(instance); } int main(int argc, char* argv[]) { freerdp_listener* instance; /* Ignore SIGPIPE, otherwise an SSL_write failure could crash your server */ signal(SIGPIPE, SIG_IGN); instance = freerdp_listener_new(); instance->PeerAccepted = test_peer_accepted; if (argc > 1) test_pcap_file = argv[1]; if (argc > 2 && !strcmp(argv[2], "--fast")) test_dump_rfx_realtime = FALSE; /* Open the server socket and start listening. */ if (instance->Open(instance, NULL, 3389) && instance->OpenLocal(instance, "/tmp/tfreerdp-server.0")) { /* Entering the server main loop. In a real server the listener can be run in its own thread. */ test_server_mainloop(instance); } freerdp_listener_free(instance); return 0; }