/** * FreeRDP: A Remote Desktop Protocol Client * FreeRDP Windows Server * * Copyright 2012 Corey Clayton * * 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. */ #include #include #include #include #include #include "wf_info.h" #include "wf_update.h" #include "wf_mirage.h" #include "wf_dxgi.h" #include #define TAG SERVER_TAG("windows") #define SERVER_KEY "Software\\" FREERDP_VENDOR_STRING "\\" FREERDP_PRODUCT_STRING "\\Server" static wfInfo* wfInfoInstance = NULL; static int _IDcount = 0; BOOL wf_info_lock(wfInfo* wfi) { DWORD dRes; dRes = WaitForSingleObject(wfi->mutex, INFINITE); switch (dRes) { case WAIT_ABANDONED: case WAIT_OBJECT_0: return TRUE; case WAIT_TIMEOUT: return FALSE; case WAIT_FAILED: WLog_ERR(TAG, "wf_info_lock failed with 0x%08lX", GetLastError()); return FALSE; } return FALSE; } BOOL wf_info_try_lock(wfInfo* wfi, DWORD dwMilliseconds) { DWORD dRes; dRes = WaitForSingleObject(wfi->mutex, dwMilliseconds); switch (dRes) { case WAIT_ABANDONED: case WAIT_OBJECT_0: return TRUE; case WAIT_TIMEOUT: return FALSE; case WAIT_FAILED: WLog_ERR(TAG, "wf_info_try_lock failed with 0x%08lX", GetLastError()); return FALSE; } return FALSE; } BOOL wf_info_unlock(wfInfo* wfi) { if (!ReleaseMutex(wfi->mutex)) { WLog_ERR(TAG, "wf_info_unlock failed with 0x%08lX", GetLastError()); return FALSE; } return TRUE; } wfInfo* wf_info_init() { wfInfo* wfi; wfi = (wfInfo*)calloc(1, sizeof(wfInfo)); if (wfi != NULL) { HKEY hKey; LONG status; DWORD dwType; DWORD dwSize; DWORD dwValue; wfi->mutex = CreateMutex(NULL, FALSE, NULL); if (wfi->mutex == NULL) { WLog_ERR(TAG, "CreateMutex error: %lu", GetLastError()); free(wfi); return NULL; } wfi->updateSemaphore = CreateSemaphore(NULL, 0, 32, NULL); if (!wfi->updateSemaphore) { WLog_ERR(TAG, "CreateSemaphore error: %lu", GetLastError()); (void)CloseHandle(wfi->mutex); free(wfi); return NULL; } wfi->updateThread = CreateThread(NULL, 0, wf_update_thread, wfi, CREATE_SUSPENDED, NULL); if (!wfi->updateThread) { WLog_ERR(TAG, "Failed to create update thread"); (void)CloseHandle(wfi->mutex); (void)CloseHandle(wfi->updateSemaphore); free(wfi); return NULL; } wfi->peers = (freerdp_peer**)calloc(FREERDP_SERVER_WIN_INFO_MAXPEERS, sizeof(freerdp_peer*)); if (!wfi->peers) { WLog_ERR(TAG, "Failed to allocate memory for peer"); (void)CloseHandle(wfi->mutex); (void)CloseHandle(wfi->updateSemaphore); (void)CloseHandle(wfi->updateThread); free(wfi); return NULL; } // Set FPS wfi->framesPerSecond = FREERDP_SERVER_WIN_INFO_DEFAULT_FPS; status = RegOpenKeyExA(HKEY_LOCAL_MACHINE, SERVER_KEY, 0, KEY_READ | KEY_WOW64_64KEY, &hKey); if (status == ERROR_SUCCESS) { if (RegQueryValueEx(hKey, _T("FramesPerSecond"), NULL, &dwType, (BYTE*)&dwValue, &dwSize) == ERROR_SUCCESS) wfi->framesPerSecond = dwValue; } RegCloseKey(hKey); // Set input toggle wfi->input_disabled = FALSE; status = RegOpenKeyExA(HKEY_LOCAL_MACHINE, SERVER_KEY, 0, KEY_READ | KEY_WOW64_64KEY, &hKey); if (status == ERROR_SUCCESS) { if (RegQueryValueEx(hKey, _T("DisableInput"), NULL, &dwType, (BYTE*)&dwValue, &dwSize) == ERROR_SUCCESS) { if (dwValue != 0) wfi->input_disabled = TRUE; } } RegCloseKey(hKey); } return wfi; } wfInfo* wf_info_get_instance() { if (wfInfoInstance == NULL) wfInfoInstance = wf_info_init(); return wfInfoInstance; } BOOL wf_info_peer_register(wfInfo* wfi, wfPeerContext* context) { int peerId = 0; if (!wfi || !context) return FALSE; if (!wf_info_lock(wfi)) return FALSE; if (wfi->peerCount == FREERDP_SERVER_WIN_INFO_MAXPEERS) goto fail_peer_count; context->info = wfi; if (!(context->updateEvent = CreateEvent(NULL, TRUE, FALSE, NULL))) goto fail_update_event; // get the offset of the top left corner of selected screen EnumDisplayMonitors(NULL, NULL, wf_info_monEnumCB, 0); _IDcount = 0; #ifdef WITH_DXGI_1_2 if (wfi->peerCount == 0) if (wf_dxgi_init(wfi) != 0) goto fail_driver_init; #else if (!wf_mirror_driver_activate(wfi)) goto fail_driver_init; #endif // look through the array of peers until an empty slot for (int i = 0; i < FREERDP_SERVER_WIN_INFO_MAXPEERS; ++i) { // empty index will be our peer id if (wfi->peers[i] == NULL) { peerId = i; break; } } wfi->peers[peerId] = ((rdpContext*)context)->peer; wfi->peers[peerId]->pId = peerId; wfi->peerCount++; WLog_INFO(TAG, "Registering Peer: id=%d #=%d", peerId, wfi->peerCount); wf_info_unlock(wfi); wfreerdp_server_peer_callback_event(peerId, FREERDP_SERVER_WIN_SRV_CALLBACK_EVENT_CONNECT); return TRUE; fail_driver_init: (void)CloseHandle(context->updateEvent); context->updateEvent = NULL; fail_update_event: fail_peer_count: context->socketClose = TRUE; wf_info_unlock(wfi); return FALSE; } void wf_info_peer_unregister(wfInfo* wfi, wfPeerContext* context) { if (wf_info_lock(wfi)) { int peerId; peerId = ((rdpContext*)context)->peer->pId; wfi->peers[peerId] = NULL; wfi->peerCount--; (void)CloseHandle(context->updateEvent); WLog_INFO(TAG, "Unregistering Peer: id=%d, #=%d", peerId, wfi->peerCount); #ifdef WITH_DXGI_1_2 if (wfi->peerCount == 0) wf_dxgi_cleanup(wfi); #endif wf_info_unlock(wfi); wfreerdp_server_peer_callback_event(peerId, FREERDP_SERVER_WIN_SRV_CALLBACK_EVENT_DISCONNECT); } } BOOL wf_info_have_updates(wfInfo* wfi) { #ifdef WITH_DXGI_1_2 if (wfi->framesWaiting == 0) return FALSE; #else if (wfi->nextUpdate == wfi->lastUpdate) return FALSE; #endif return TRUE; } void wf_info_update_changes(wfInfo* wfi) { #ifdef WITH_DXGI_1_2 wf_dxgi_nextFrame(wfi, wfi->framesPerSecond * 1000); #else GETCHANGESBUF* buf; buf = (GETCHANGESBUF*)wfi->changeBuffer; wfi->nextUpdate = buf->buffer->counter; #endif } void wf_info_find_invalid_region(wfInfo* wfi) { #ifdef WITH_DXGI_1_2 wf_dxgi_getInvalidRegion(&wfi->invalid); #else GETCHANGESBUF* buf; buf = (GETCHANGESBUF*)wfi->changeBuffer; for (ULONG i = wfi->lastUpdate; i != wfi->nextUpdate; i = (i + 1) % MAXCHANGES_BUF) { LPRECT lpR = &buf->buffer->pointrect[i].rect; // need to make sure we only get updates from the selected screen if ((lpR->left >= wfi->servscreen_xoffset) && (lpR->right <= (wfi->servscreen_xoffset + wfi->servscreen_width)) && (lpR->top >= wfi->servscreen_yoffset) && (lpR->bottom <= (wfi->servscreen_yoffset + wfi->servscreen_height))) { UnionRect(&wfi->invalid, &wfi->invalid, lpR); } else { continue; } } #endif if (wfi->invalid.left < 0) wfi->invalid.left = 0; if (wfi->invalid.top < 0) wfi->invalid.top = 0; if (wfi->invalid.right >= wfi->servscreen_width) wfi->invalid.right = wfi->servscreen_width - 1; if (wfi->invalid.bottom >= wfi->servscreen_height) wfi->invalid.bottom = wfi->servscreen_height - 1; // WLog_DBG(TAG, "invalid region: (%"PRId32", %"PRId32"), (%"PRId32", %"PRId32")", // wfi->invalid.left, wfi->invalid.top, wfi->invalid.right, wfi->invalid.bottom); } void wf_info_clear_invalid_region(wfInfo* wfi) { wfi->lastUpdate = wfi->nextUpdate; SetRectEmpty(&wfi->invalid); } void wf_info_invalidate_full_screen(wfInfo* wfi) { SetRect(&wfi->invalid, 0, 0, wfi->servscreen_width, wfi->servscreen_height); } BOOL wf_info_have_invalid_region(wfInfo* wfi) { return IsRectEmpty(&wfi->invalid); } void wf_info_getScreenData(wfInfo* wfi, long* width, long* height, BYTE** pBits, int* pitch) { *width = (wfi->invalid.right - wfi->invalid.left); *height = (wfi->invalid.bottom - wfi->invalid.top); #ifdef WITH_DXGI_1_2 wf_dxgi_getPixelData(wfi, pBits, pitch, &wfi->invalid); #else { long offset; GETCHANGESBUF* changes; changes = (GETCHANGESBUF*)wfi->changeBuffer; *width += 1; *height += 1; offset = (4 * wfi->invalid.left) + (wfi->invalid.top * wfi->virtscreen_width * 4); *pBits = ((BYTE*)(changes->Userbuffer)) + offset; *pitch = wfi->virtscreen_width * 4; } #endif } BOOL CALLBACK wf_info_monEnumCB(HMONITOR hMonitor, HDC hdcMonitor, LPRECT lprcMonitor, LPARAM dwData) { wfInfo* wfi; wfi = wf_info_get_instance(); if (!wfi) return FALSE; if (_IDcount == wfi->screenID) { wfi->servscreen_xoffset = lprcMonitor->left; wfi->servscreen_yoffset = lprcMonitor->top; } _IDcount++; return TRUE; }