/** * FreeRDP: A Remote Desktop Protocol Implementation * * Copyright 2011-2014 Marc-Andre Moreau * Copyright 2017 Armin Novak * Copyright 2017 Thincast Technologies GmbH * * 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include "x11_shadow.h" #define TAG SERVER_TAG("shadow.x11") static UINT32 x11_shadow_enum_monitors(MONITOR_DEF* monitors, UINT32 maxMonitors); #ifdef WITH_PAM #include struct _SHADOW_PAM_AUTH_DATA { const char* user; const char* domain; const char* password; }; typedef struct _SHADOW_PAM_AUTH_DATA SHADOW_PAM_AUTH_DATA; struct _SHADOW_PAM_AUTH_INFO { char* service_name; pam_handle_t* handle; struct pam_conv pamc; SHADOW_PAM_AUTH_DATA appdata; }; typedef struct _SHADOW_PAM_AUTH_INFO SHADOW_PAM_AUTH_INFO; static int x11_shadow_pam_conv(int num_msg, const struct pam_message** msg, struct pam_response** resp, void* appdata_ptr) { int index; int pam_status = PAM_CONV_ERR; SHADOW_PAM_AUTH_DATA* appdata; struct pam_response* response; appdata = (SHADOW_PAM_AUTH_DATA*)appdata_ptr; if (!(response = (struct pam_response*)calloc(num_msg, sizeof(struct pam_response)))) return PAM_BUF_ERR; for (index = 0; index < num_msg; index++) { switch (msg[index]->msg_style) { case PAM_PROMPT_ECHO_ON: response[index].resp = _strdup(appdata->user); if (!response[index].resp) goto out_fail; response[index].resp_retcode = PAM_SUCCESS; break; case PAM_PROMPT_ECHO_OFF: response[index].resp = _strdup(appdata->password); if (!response[index].resp) goto out_fail; response[index].resp_retcode = PAM_SUCCESS; break; default: pam_status = PAM_CONV_ERR; goto out_fail; } } *resp = response; return PAM_SUCCESS; out_fail: for (index = 0; index < num_msg; ++index) { if (response[index].resp) { memset(response[index].resp, 0, strlen(response[index].resp)); free(response[index].resp); } } memset(response, 0, sizeof(struct pam_response) * num_msg); free(response); *resp = NULL; return pam_status; } static int x11_shadow_pam_get_service_name(SHADOW_PAM_AUTH_INFO* info) { if (PathFileExistsA("/etc/pam.d/lightdm")) { info->service_name = _strdup("lightdm"); } else if (PathFileExistsA("/etc/pam.d/gdm")) { info->service_name = _strdup("gdm"); } else if (PathFileExistsA("/etc/pam.d/xdm")) { info->service_name = _strdup("xdm"); } else if (PathFileExistsA("/etc/pam.d/login")) { info->service_name = _strdup("login"); } else if (PathFileExistsA("/etc/pam.d/sshd")) { info->service_name = _strdup("sshd"); } else { return -1; } if (!info->service_name) return -1; return 1; } static int x11_shadow_pam_authenticate(rdpShadowSubsystem* subsystem, rdpShadowClient* client, const char* user, const char* domain, const char* password) { int pam_status; SHADOW_PAM_AUTH_INFO* info; WINPR_UNUSED(subsystem); WINPR_UNUSED(client); info = calloc(1, sizeof(SHADOW_PAM_AUTH_INFO)); if (!info) return PAM_CONV_ERR; if (x11_shadow_pam_get_service_name(info) < 0) { free(info); return -1; } info->appdata.user = user; info->appdata.domain = domain; info->appdata.password = password; info->pamc.conv = &x11_shadow_pam_conv; info->pamc.appdata_ptr = &(info->appdata); pam_status = pam_start(info->service_name, 0, &(info->pamc), &(info->handle)); if (pam_status != PAM_SUCCESS) { WLog_ERR(TAG, "pam_start failure: %s", pam_strerror(info->handle, pam_status)); free(info); return -1; } pam_status = pam_authenticate(info->handle, 0); if (pam_status != PAM_SUCCESS) { WLog_ERR(TAG, "pam_authenticate failure: %s", pam_strerror(info->handle, pam_status)); free(info); return -1; } pam_status = pam_acct_mgmt(info->handle, 0); if (pam_status != PAM_SUCCESS) { WLog_ERR(TAG, "pam_acct_mgmt failure: %s", pam_strerror(info->handle, pam_status)); free(info); return -1; } free(info); return 1; } #endif static BOOL x11_shadow_input_synchronize_event(rdpShadowSubsystem* subsystem, rdpShadowClient* client, UINT32 flags) { /* TODO: Implement */ WLog_WARN(TAG, "%s not implemented", __FUNCTION__); return TRUE; } static BOOL x11_shadow_input_keyboard_event(rdpShadowSubsystem* subsystem, rdpShadowClient* client, UINT16 flags, UINT16 code) { #ifdef WITH_XTEST x11ShadowSubsystem* x11 = (x11ShadowSubsystem*)subsystem; DWORD vkcode; DWORD keycode; BOOL extended = FALSE; if (!client || !subsystem) return FALSE; if (flags & KBD_FLAGS_EXTENDED) extended = TRUE; if (extended) code |= KBDEXT; vkcode = GetVirtualKeyCodeFromVirtualScanCode(code, 4); if (extended) vkcode |= KBDEXT; keycode = GetKeycodeFromVirtualKeyCode(vkcode, KEYCODE_TYPE_EVDEV); if (keycode != 0) { XLockDisplay(x11->display); XTestGrabControl(x11->display, True); if (flags & KBD_FLAGS_DOWN) XTestFakeKeyEvent(x11->display, keycode, True, CurrentTime); else if (flags & KBD_FLAGS_RELEASE) XTestFakeKeyEvent(x11->display, keycode, False, CurrentTime); XTestGrabControl(x11->display, False); XFlush(x11->display); XUnlockDisplay(x11->display); } #endif return TRUE; } static BOOL x11_shadow_input_unicode_keyboard_event(rdpShadowSubsystem* subsystem, rdpShadowClient* client, UINT16 flags, UINT16 code) { /* TODO: Implement */ WLog_WARN(TAG, "%s not implemented", __FUNCTION__); return TRUE; } static BOOL x11_shadow_input_mouse_event(rdpShadowSubsystem* subsystem, rdpShadowClient* client, UINT16 flags, UINT16 x, UINT16 y) { #ifdef WITH_XTEST x11ShadowSubsystem* x11 = (x11ShadowSubsystem*)subsystem; int button = 0; BOOL down = FALSE; rdpShadowServer* server; rdpShadowSurface* surface; if (!subsystem || !client) return FALSE; server = subsystem->server; if (!server) return FALSE; surface = server->surface; if (!surface) return FALSE; x11->lastMouseClient = client; x += surface->x; y += surface->y; XLockDisplay(x11->display); XTestGrabControl(x11->display, True); if (flags & PTR_FLAGS_WHEEL) { BOOL negative = FALSE; if (flags & PTR_FLAGS_WHEEL_NEGATIVE) negative = TRUE; button = (negative) ? 5 : 4; XTestFakeButtonEvent(x11->display, button, True, CurrentTime); XTestFakeButtonEvent(x11->display, button, False, CurrentTime); } else { if (flags & PTR_FLAGS_MOVE) XTestFakeMotionEvent(x11->display, 0, x, y, CurrentTime); if (flags & PTR_FLAGS_BUTTON1) button = 1; else if (flags & PTR_FLAGS_BUTTON2) button = 3; else if (flags & PTR_FLAGS_BUTTON3) button = 2; if (flags & PTR_FLAGS_DOWN) down = TRUE; if (button) XTestFakeButtonEvent(x11->display, button, down, CurrentTime); } XTestGrabControl(x11->display, False); XFlush(x11->display); XUnlockDisplay(x11->display); #endif return TRUE; } static BOOL x11_shadow_input_extended_mouse_event(rdpShadowSubsystem* subsystem, rdpShadowClient* client, UINT16 flags, UINT16 x, UINT16 y) { #ifdef WITH_XTEST x11ShadowSubsystem* x11 = (x11ShadowSubsystem*)subsystem; int button = 0; BOOL down = FALSE; rdpShadowServer* server; rdpShadowSurface* surface; if (!subsystem || !client) return FALSE; server = subsystem->server; if (!server) return FALSE; surface = server->surface; if (!surface) return FALSE; x11->lastMouseClient = client; x += surface->x; y += surface->y; XLockDisplay(x11->display); XTestGrabControl(x11->display, True); XTestFakeMotionEvent(x11->display, 0, x, y, CurrentTime); if (flags & PTR_XFLAGS_BUTTON1) button = 8; else if (flags & PTR_XFLAGS_BUTTON2) button = 9; if (flags & PTR_XFLAGS_DOWN) down = TRUE; if (button) XTestFakeButtonEvent(x11->display, button, down, CurrentTime); XTestGrabControl(x11->display, False); XFlush(x11->display); XUnlockDisplay(x11->display); #endif return TRUE; } static void x11_shadow_message_free(UINT32 id, SHADOW_MSG_OUT* msg) { switch (id) { case SHADOW_MSG_OUT_POINTER_POSITION_UPDATE_ID: free(msg); break; case SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE_ID: free(((SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE*)msg)->xorMaskData); free(((SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE*)msg)->andMaskData); free(msg); break; default: WLog_ERR(TAG, "Unknown message id: %" PRIu32 "", id); free(msg); break; } } static int x11_shadow_pointer_position_update(x11ShadowSubsystem* subsystem) { UINT32 msgId = SHADOW_MSG_OUT_POINTER_POSITION_UPDATE_ID; rdpShadowServer* server; SHADOW_MSG_OUT_POINTER_POSITION_UPDATE templateMsg; int count = 0; int index = 0; if (!subsystem || !subsystem->common.server || !subsystem->common.server->clients) return -1; templateMsg.xPos = subsystem->common.pointerX; templateMsg.yPos = subsystem->common.pointerY; templateMsg.common.Free = x11_shadow_message_free; server = subsystem->common.server; ArrayList_Lock(server->clients); for (index = 0; index < ArrayList_Count(server->clients); index++) { SHADOW_MSG_OUT_POINTER_POSITION_UPDATE* msg; rdpShadowClient* client = (rdpShadowClient*)ArrayList_GetItem(server->clients, index); /* Skip the client which send us the latest mouse event */ if (client == subsystem->lastMouseClient) continue; msg = malloc(sizeof(templateMsg)); if (!msg) { count = -1; break; } memcpy(msg, &templateMsg, sizeof(templateMsg)); if (shadow_client_post_msg(client, NULL, msgId, (SHADOW_MSG_OUT*)msg, NULL)) count++; } ArrayList_Unlock(server->clients); return count; } static int x11_shadow_pointer_alpha_update(x11ShadowSubsystem* subsystem) { SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE* msg; UINT32 msgId = SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE_ID; msg = (SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE*)calloc(1, sizeof(SHADOW_MSG_OUT_POINTER_ALPHA_UPDATE)); if (!msg) return -1; msg->xHot = subsystem->cursorHotX; msg->yHot = subsystem->cursorHotY; msg->width = subsystem->cursorWidth; msg->height = subsystem->cursorHeight; if (shadow_subsystem_pointer_convert_alpha_pointer_data(subsystem->cursorPixels, TRUE, msg->width, msg->height, msg) < 0) { free(msg); return -1; } msg->common.Free = x11_shadow_message_free; return shadow_client_boardcast_msg(subsystem->common.server, NULL, msgId, (SHADOW_MSG_OUT*)msg, NULL) ? 1 : -1; } static int x11_shadow_query_cursor(x11ShadowSubsystem* subsystem, BOOL getImage) { int x = 0, y = 0, n, k; rdpShadowServer* server; rdpShadowSurface* surface; server = subsystem->common.server; surface = server->surface; if (getImage) { #ifdef WITH_XFIXES UINT32* pDstPixel; XFixesCursorImage* ci; XLockDisplay(subsystem->display); ci = XFixesGetCursorImage(subsystem->display); XUnlockDisplay(subsystem->display); if (!ci) return -1; x = ci->x; y = ci->y; if (ci->width > subsystem->cursorMaxWidth) return -1; if (ci->height > subsystem->cursorMaxHeight) return -1; subsystem->cursorHotX = ci->xhot; subsystem->cursorHotY = ci->yhot; subsystem->cursorWidth = ci->width; subsystem->cursorHeight = ci->height; subsystem->cursorId = ci->cursor_serial; n = ci->width * ci->height; pDstPixel = (UINT32*)subsystem->cursorPixels; for (k = 0; k < n; k++) { /* XFixesCursorImage.pixels is in *unsigned long*, which may be 8 bytes */ *pDstPixel++ = (UINT32)ci->pixels[k]; } XFree(ci); x11_shadow_pointer_alpha_update(subsystem); #endif } else { UINT32 mask; int win_x, win_y; int root_x, root_y; Window root, child; XLockDisplay(subsystem->display); if (!XQueryPointer(subsystem->display, subsystem->root_window, &root, &child, &root_x, &root_y, &win_x, &win_y, &mask)) { XUnlockDisplay(subsystem->display); return -1; } XUnlockDisplay(subsystem->display); x = root_x; y = root_y; } /* Convert to offset based on current surface */ if (surface) { x -= surface->x; y -= surface->y; } if ((x != (INT64)subsystem->common.pointerX) || (y != (INT64)subsystem->common.pointerY)) { subsystem->common.pointerX = x; subsystem->common.pointerY = y; x11_shadow_pointer_position_update(subsystem); } return 1; } static int x11_shadow_handle_xevent(x11ShadowSubsystem* subsystem, XEvent* xevent) { if (xevent->type == MotionNotify) { } #ifdef WITH_XFIXES else if (xevent->type == subsystem->xfixes_cursor_notify_event) { x11_shadow_query_cursor(subsystem, TRUE); } #endif else { } return 1; } static void x11_shadow_validate_region(x11ShadowSubsystem* subsystem, int x, int y, int width, int height) { XRectangle region; if (!subsystem->use_xfixes || !subsystem->use_xdamage) return; region.x = x; region.y = y; region.width = width; region.height = height; #ifdef WITH_XFIXES XLockDisplay(subsystem->display); XFixesSetRegion(subsystem->display, subsystem->xdamage_region, ®ion, 1); XDamageSubtract(subsystem->display, subsystem->xdamage, subsystem->xdamage_region, None); XUnlockDisplay(subsystem->display); #endif } static int x11_shadow_blend_cursor(x11ShadowSubsystem* subsystem) { int x, y; int nXSrc; int nYSrc; int nXDst; int nYDst; int nWidth; int nHeight; int nSrcStep; int nDstStep; BYTE* pSrcData; BYTE* pDstData; BYTE A, R, G, B; rdpShadowSurface* surface; if (!subsystem) return -1; surface = subsystem->common.server->surface; nXSrc = 0; nYSrc = 0; nWidth = subsystem->cursorWidth; nHeight = subsystem->cursorHeight; nXDst = subsystem->common.pointerX - subsystem->cursorHotX; nYDst = subsystem->common.pointerY - subsystem->cursorHotY; if (nXDst >= surface->width) return 1; if (nXDst < 0) { nXDst *= -1; if (nXDst >= nWidth) return 1; nXSrc = nXDst; nWidth -= nXDst; nXDst = 0; } if (nYDst >= surface->height) return 1; if (nYDst < 0) { nYDst *= -1; if (nYDst >= nHeight) return 1; nYSrc = nYDst; nHeight -= nYDst; nYDst = 0; } if ((nXDst + nWidth) > surface->width) nWidth = surface->width - nXDst; if ((nYDst + nHeight) > surface->height) nHeight = surface->height - nYDst; pSrcData = subsystem->cursorPixels; nSrcStep = subsystem->cursorWidth * 4; pDstData = surface->data; nDstStep = surface->scanline; for (y = 0; y < nHeight; y++) { const BYTE* pSrcPixel = &pSrcData[((nYSrc + y) * nSrcStep) + (nXSrc * 4)]; BYTE* pDstPixel = &pDstData[((nYDst + y) * nDstStep) + (nXDst * 4)]; for (x = 0; x < nWidth; x++) { B = *pSrcPixel++; G = *pSrcPixel++; R = *pSrcPixel++; A = *pSrcPixel++; if (A == 0xFF) { pDstPixel[0] = B; pDstPixel[1] = G; pDstPixel[2] = R; } else { pDstPixel[0] = B + (pDstPixel[0] * (0xFF - A) + (0xFF / 2)) / 0xFF; pDstPixel[1] = G + (pDstPixel[1] * (0xFF - A) + (0xFF / 2)) / 0xFF; pDstPixel[2] = R + (pDstPixel[2] * (0xFF - A) + (0xFF / 2)) / 0xFF; } pDstPixel[3] = 0xFF; pDstPixel += 4; } } return 1; } static BOOL x11_shadow_check_resize(x11ShadowSubsystem* subsystem) { MONITOR_DEF* virtualScreen; XWindowAttributes attr; XLockDisplay(subsystem->display); XGetWindowAttributes(subsystem->display, subsystem->root_window, &attr); XUnlockDisplay(subsystem->display); if (attr.width != (INT64)subsystem->width || attr.height != (INT64)subsystem->height) { /* Screen size changed. Refresh monitor definitions and trigger screen resize */ subsystem->common.numMonitors = x11_shadow_enum_monitors(subsystem->common.monitors, 16); shadow_screen_resize(subsystem->common.server->screen); subsystem->width = attr.width; subsystem->height = attr.height; virtualScreen = &(subsystem->common.virtualScreen); virtualScreen->left = 0; virtualScreen->top = 0; virtualScreen->right = subsystem->width; virtualScreen->bottom = subsystem->height; virtualScreen->flags = 1; return TRUE; } return FALSE; } static int x11_shadow_error_handler_for_capture(Display* display, XErrorEvent* event) { char msg[256]; XGetErrorText(display, event->error_code, (char*)&msg, sizeof(msg)); WLog_ERR(TAG, "X11 error: %s Error code: %x, request code: %x, minor code: %x", msg, event->error_code, event->request_code, event->minor_code); /* Ignore BAD MATCH error during image capture. Abort in other case */ if (event->error_code != BadMatch) { abort(); } return 0; } static int x11_shadow_screen_grab(x11ShadowSubsystem* subsystem) { int count; int status; int x, y; int width, height; XImage* image; rdpShadowServer* server; rdpShadowSurface* surface; RECTANGLE_16 invalidRect; RECTANGLE_16 surfaceRect; const RECTANGLE_16* extents; server = subsystem->common.server; surface = server->surface; count = ArrayList_Count(server->clients); if (count < 1) return 1; surfaceRect.left = 0; surfaceRect.top = 0; surfaceRect.right = surface->width; surfaceRect.bottom = surface->height; XLockDisplay(subsystem->display); /* * Ignore BadMatch error during image capture. The screen size may be * changed outside. We will resize to correct resolution at next frame */ XSetErrorHandler(x11_shadow_error_handler_for_capture); if (subsystem->use_xshm) { image = subsystem->fb_image; XCopyArea(subsystem->display, subsystem->root_window, subsystem->fb_pixmap, subsystem->xshm_gc, 0, 0, subsystem->width, subsystem->height, 0, 0); status = shadow_capture_compare(surface->data, surface->scanline, surface->width, surface->height, (BYTE*)&(image->data[surface->width * 4]), image->bytes_per_line, &invalidRect); } else { image = XGetImage(subsystem->display, subsystem->root_window, surface->x, surface->y, surface->width, surface->height, AllPlanes, ZPixmap); if (!image) { /* * BadMatch error happened. The size may have been changed again. * Give up this frame and we will resize again in next frame */ goto fail_capture; } status = shadow_capture_compare(surface->data, surface->scanline, surface->width, surface->height, (BYTE*)image->data, image->bytes_per_line, &invalidRect); } /* Restore the default error handler */ XSetErrorHandler(NULL); XSync(subsystem->display, False); XUnlockDisplay(subsystem->display); if (status) { region16_union_rect(&(surface->invalidRegion), &(surface->invalidRegion), &invalidRect); region16_intersect_rect(&(surface->invalidRegion), &(surface->invalidRegion), &surfaceRect); if (!region16_is_empty(&(surface->invalidRegion))) { extents = region16_extents(&(surface->invalidRegion)); x = extents->left; y = extents->top; width = extents->right - extents->left; height = extents->bottom - extents->top; if (!freerdp_image_copy(surface->data, surface->format, surface->scanline, x, y, width, height, (BYTE*)image->data, PIXEL_FORMAT_BGRX32, image->bytes_per_line, x, y, NULL, FREERDP_FLIP_NONE)) goto fail_capture; // x11_shadow_blend_cursor(subsystem); count = ArrayList_Count(server->clients); shadow_subsystem_frame_update((rdpShadowSubsystem*)subsystem); if (count == 1) { rdpShadowClient* client; client = (rdpShadowClient*)ArrayList_GetItem(server->clients, 0); if (client) subsystem->common.captureFrameRate = shadow_encoder_preferred_fps(client->encoder); } region16_clear(&(surface->invalidRegion)); } } if (!subsystem->use_xshm) XDestroyImage(image); return 1; fail_capture: if (!subsystem->use_xshm && image) XDestroyImage(image); XSetErrorHandler(NULL); XSync(subsystem->display, False); XUnlockDisplay(subsystem->display); return 0; } static int x11_shadow_subsystem_process_message(x11ShadowSubsystem* subsystem, wMessage* message) { switch (message->id) { case SHADOW_MSG_IN_REFRESH_REQUEST_ID: shadow_subsystem_frame_update((rdpShadowSubsystem*)subsystem); break; default: WLog_ERR(TAG, "Unknown message id: %" PRIu32 "", message->id); break; } if (message->Free) message->Free(message); return 1; } static DWORD WINAPI x11_shadow_subsystem_thread(LPVOID arg) { x11ShadowSubsystem* subsystem = (x11ShadowSubsystem*)arg; XEvent xevent; DWORD status; DWORD nCount; UINT64 cTime; DWORD dwTimeout; DWORD dwInterval; UINT64 frameTime; HANDLE events[32]; wMessage message; wMessagePipe* MsgPipe; MsgPipe = subsystem->common.MsgPipe; nCount = 0; events[nCount++] = subsystem->common.event; events[nCount++] = MessageQueue_Event(MsgPipe->In); subsystem->common.captureFrameRate = 16; dwInterval = 1000 / subsystem->common.captureFrameRate; frameTime = GetTickCount64() + dwInterval; while (1) { cTime = GetTickCount64(); dwTimeout = (cTime > frameTime) ? 0 : frameTime - cTime; status = WaitForMultipleObjects(nCount, events, FALSE, dwTimeout); if (WaitForSingleObject(MessageQueue_Event(MsgPipe->In), 0) == WAIT_OBJECT_0) { if (MessageQueue_Peek(MsgPipe->In, &message, TRUE)) { if (message.id == WMQ_QUIT) break; x11_shadow_subsystem_process_message(subsystem, &message); } } if (WaitForSingleObject(subsystem->common.event, 0) == WAIT_OBJECT_0) { XLockDisplay(subsystem->display); if (XEventsQueued(subsystem->display, QueuedAlready)) { XNextEvent(subsystem->display, &xevent); x11_shadow_handle_xevent(subsystem, &xevent); } XUnlockDisplay(subsystem->display); } if ((status == WAIT_TIMEOUT) || (GetTickCount64() > frameTime)) { x11_shadow_check_resize(subsystem); x11_shadow_screen_grab(subsystem); x11_shadow_query_cursor(subsystem, FALSE); dwInterval = 1000 / subsystem->common.captureFrameRate; frameTime += dwInterval; } } ExitThread(0); return 0; } static int x11_shadow_subsystem_base_init(x11ShadowSubsystem* subsystem) { if (subsystem->display) return 1; /* initialize once */ if (!getenv("DISPLAY")) setenv("DISPLAY", ":0", 1); if (!XInitThreads()) return -1; subsystem->display = XOpenDisplay(NULL); if (!subsystem->display) { WLog_ERR(TAG, "failed to open display: %s", XDisplayName(NULL)); return -1; } subsystem->xfds = ConnectionNumber(subsystem->display); subsystem->number = DefaultScreen(subsystem->display); subsystem->screen = ScreenOfDisplay(subsystem->display, subsystem->number); subsystem->depth = DefaultDepthOfScreen(subsystem->screen); subsystem->width = WidthOfScreen(subsystem->screen); subsystem->height = HeightOfScreen(subsystem->screen); subsystem->root_window = RootWindow(subsystem->display, subsystem->number); return 1; } static int x11_shadow_xfixes_init(x11ShadowSubsystem* subsystem) { #ifdef WITH_XFIXES int xfixes_event; int xfixes_error; int major, minor; if (!XFixesQueryExtension(subsystem->display, &xfixes_event, &xfixes_error)) return -1; if (!XFixesQueryVersion(subsystem->display, &major, &minor)) return -1; subsystem->xfixes_cursor_notify_event = xfixes_event + XFixesCursorNotify; XFixesSelectCursorInput(subsystem->display, subsystem->root_window, XFixesDisplayCursorNotifyMask); return 1; #else return -1; #endif } static int x11_shadow_xinerama_init(x11ShadowSubsystem* subsystem) { #ifdef WITH_XINERAMA int major, minor; int xinerama_event; int xinerama_error; x11_shadow_subsystem_base_init(subsystem); if (!XineramaQueryExtension(subsystem->display, &xinerama_event, &xinerama_error)) return -1; if (!XDamageQueryVersion(subsystem->display, &major, &minor)) return -1; if (!XineramaIsActive(subsystem->display)) return -1; return 1; #else return -1; #endif } static int x11_shadow_xdamage_init(x11ShadowSubsystem* subsystem) { #ifdef WITH_XDAMAGE int major, minor; int damage_event; int damage_error; if (!subsystem->use_xfixes) return -1; if (!XDamageQueryExtension(subsystem->display, &damage_event, &damage_error)) return -1; if (!XDamageQueryVersion(subsystem->display, &major, &minor)) return -1; if (major < 1) return -1; subsystem->xdamage_notify_event = damage_event + XDamageNotify; subsystem->xdamage = XDamageCreate(subsystem->display, subsystem->root_window, XDamageReportDeltaRectangles); if (!subsystem->xdamage) return -1; #ifdef WITH_XFIXES subsystem->xdamage_region = XFixesCreateRegion(subsystem->display, NULL, 0); if (!subsystem->xdamage_region) return -1; #endif return 1; #else return -1; #endif } static int x11_shadow_xshm_init(x11ShadowSubsystem* subsystem) { Bool pixmaps; int major, minor; XGCValues values; if (!XShmQueryExtension(subsystem->display)) return -1; if (!XShmQueryVersion(subsystem->display, &major, &minor, &pixmaps)) return -1; if (!pixmaps) return -1; subsystem->fb_shm_info.shmid = -1; subsystem->fb_shm_info.shmaddr = (char*)-1; subsystem->fb_shm_info.readOnly = False; subsystem->fb_image = XShmCreateImage(subsystem->display, subsystem->visual, subsystem->depth, ZPixmap, NULL, &(subsystem->fb_shm_info), subsystem->width, subsystem->height); if (!subsystem->fb_image) { WLog_ERR(TAG, "XShmCreateImage failed"); return -1; } subsystem->fb_shm_info.shmid = shmget(IPC_PRIVATE, subsystem->fb_image->bytes_per_line * subsystem->fb_image->height, IPC_CREAT | 0600); if (subsystem->fb_shm_info.shmid == -1) { WLog_ERR(TAG, "shmget failed"); return -1; } subsystem->fb_shm_info.shmaddr = shmat(subsystem->fb_shm_info.shmid, 0, 0); subsystem->fb_image->data = subsystem->fb_shm_info.shmaddr; if (subsystem->fb_shm_info.shmaddr == ((char*)-1)) { WLog_ERR(TAG, "shmat failed"); return -1; } if (!XShmAttach(subsystem->display, &(subsystem->fb_shm_info))) return -1; XSync(subsystem->display, False); shmctl(subsystem->fb_shm_info.shmid, IPC_RMID, 0); subsystem->fb_pixmap = XShmCreatePixmap(subsystem->display, subsystem->root_window, subsystem->fb_image->data, &(subsystem->fb_shm_info), subsystem->fb_image->width, subsystem->fb_image->height, subsystem->fb_image->depth); XSync(subsystem->display, False); if (!subsystem->fb_pixmap) return -1; values.subwindow_mode = IncludeInferiors; values.graphics_exposures = False; subsystem->xshm_gc = XCreateGC(subsystem->display, subsystem->root_window, GCSubwindowMode | GCGraphicsExposures, &values); XSetFunction(subsystem->display, subsystem->xshm_gc, GXcopy); XSync(subsystem->display, False); return 1; } UINT32 x11_shadow_enum_monitors(MONITOR_DEF* monitors, UINT32 maxMonitors) { int index; Display* display; int displayWidth; int displayHeight; int numMonitors = 0; MONITOR_DEF* monitor; if (!getenv("DISPLAY")) setenv("DISPLAY", ":0", 1); display = XOpenDisplay(NULL); if (!display) { WLog_ERR(TAG, "failed to open display: %s", XDisplayName(NULL)); return -1; } displayWidth = WidthOfScreen(DefaultScreenOfDisplay(display)); displayHeight = HeightOfScreen(DefaultScreenOfDisplay(display)); #ifdef WITH_XINERAMA { int major, minor; int xinerama_event; int xinerama_error; XineramaScreenInfo* screen; XineramaScreenInfo* screens; if (XineramaQueryExtension(display, &xinerama_event, &xinerama_error) && XDamageQueryVersion(display, &major, &minor) && XineramaIsActive(display)) { screens = XineramaQueryScreens(display, &numMonitors); if (numMonitors > (INT64)maxMonitors) numMonitors = (int)maxMonitors; if (screens && (numMonitors > 0)) { for (index = 0; index < numMonitors; index++) { screen = &screens[index]; monitor = &monitors[index]; monitor->left = screen->x_org; monitor->top = screen->y_org; monitor->right = monitor->left + screen->width; monitor->bottom = monitor->top + screen->height; monitor->flags = (index == 0) ? 1 : 0; } } XFree(screens); } } #endif XCloseDisplay(display); if (numMonitors < 1) { index = 0; numMonitors = 1; monitor = &monitors[index]; monitor->left = 0; monitor->top = 0; monitor->right = displayWidth; monitor->bottom = displayHeight; monitor->flags = 1; } errno = 0; return numMonitors; } static int x11_shadow_subsystem_init(rdpShadowSubsystem* sub) { int i; int pf_count; int vi_count; int nextensions; char** extensions; XVisualInfo* vi; XVisualInfo* vis; XVisualInfo template; XPixmapFormatValues* pf; XPixmapFormatValues* pfs; MONITOR_DEF* virtualScreen; x11ShadowSubsystem* subsystem = (x11ShadowSubsystem*)sub; if (!subsystem) return -1; subsystem->common.numMonitors = x11_shadow_enum_monitors(subsystem->common.monitors, 16); x11_shadow_subsystem_base_init(subsystem); if ((subsystem->depth != 24) && (subsystem->depth != 32)) { WLog_ERR(TAG, "unsupported X11 server color depth: %d", subsystem->depth); return -1; } extensions = XListExtensions(subsystem->display, &nextensions); if (!extensions || (nextensions < 0)) return -1; for (i = 0; i < nextensions; i++) { if (strcmp(extensions[i], "Composite") == 0) subsystem->composite = TRUE; } XFreeExtensionList(extensions); if (subsystem->composite) subsystem->use_xdamage = FALSE; pfs = XListPixmapFormats(subsystem->display, &pf_count); if (!pfs) { WLog_ERR(TAG, "XListPixmapFormats failed"); return -1; } for (i = 0; i < pf_count; i++) { pf = pfs + i; if (pf->depth == (INT64)subsystem->depth) { subsystem->bpp = pf->bits_per_pixel; subsystem->scanline_pad = pf->scanline_pad; break; } } XFree(pfs); ZeroMemory(&template, sizeof(template)); template.class = TrueColor; template.screen = subsystem->number; vis = XGetVisualInfo(subsystem->display, VisualClassMask | VisualScreenMask, &template, &vi_count); if (!vis) { WLog_ERR(TAG, "XGetVisualInfo failed"); return -1; } for (i = 0; i < vi_count; i++) { vi = vis + i; if (vi->depth == (INT64)subsystem->depth) { subsystem->visual = vi->visual; break; } } XFree(vis); XSelectInput(subsystem->display, subsystem->root_window, SubstructureNotifyMask); subsystem->cursorMaxWidth = 256; subsystem->cursorMaxHeight = 256; subsystem->cursorPixels = _aligned_malloc(subsystem->cursorMaxWidth * subsystem->cursorMaxHeight * 4, 16); if (!subsystem->cursorPixels) return -1; x11_shadow_query_cursor(subsystem, TRUE); if (subsystem->use_xfixes) { if (x11_shadow_xfixes_init(subsystem) < 0) subsystem->use_xfixes = FALSE; } if (subsystem->use_xinerama) { if (x11_shadow_xinerama_init(subsystem) < 0) subsystem->use_xinerama = FALSE; } if (subsystem->use_xshm) { if (x11_shadow_xshm_init(subsystem) < 0) subsystem->use_xshm = FALSE; } if (subsystem->use_xdamage) { if (x11_shadow_xdamage_init(subsystem) < 0) subsystem->use_xdamage = FALSE; } if (!(subsystem->common.event = CreateFileDescriptorEvent(NULL, FALSE, FALSE, subsystem->xfds, WINPR_FD_READ))) return -1; virtualScreen = &(subsystem->common.virtualScreen); virtualScreen->left = 0; virtualScreen->top = 0; virtualScreen->right = subsystem->width; virtualScreen->bottom = subsystem->height; virtualScreen->flags = 1; WLog_INFO(TAG, "X11 Extensions: XFixes: %" PRId32 " Xinerama: %" PRId32 " XDamage: %" PRId32 " XShm: %" PRId32 "", subsystem->use_xfixes, subsystem->use_xinerama, subsystem->use_xdamage, subsystem->use_xshm); return 1; } static int x11_shadow_subsystem_uninit(rdpShadowSubsystem* sub) { x11ShadowSubsystem* subsystem = (x11ShadowSubsystem*)sub; if (!subsystem) return -1; if (subsystem->display) { XCloseDisplay(subsystem->display); subsystem->display = NULL; } if (subsystem->common.event) { CloseHandle(subsystem->common.event); subsystem->common.event = NULL; } if (subsystem->cursorPixels) { _aligned_free(subsystem->cursorPixels); subsystem->cursorPixels = NULL; } return 1; } static int x11_shadow_subsystem_start(rdpShadowSubsystem* sub) { x11ShadowSubsystem* subsystem = (x11ShadowSubsystem*)sub; if (!subsystem) return -1; if (!(subsystem->thread = CreateThread(NULL, 0, x11_shadow_subsystem_thread, (void*)subsystem, 0, NULL))) { WLog_ERR(TAG, "Failed to create thread"); return -1; } return 1; } static int x11_shadow_subsystem_stop(rdpShadowSubsystem* sub) { x11ShadowSubsystem* subsystem = (x11ShadowSubsystem*)sub; if (!subsystem) return -1; if (subsystem->thread) { if (MessageQueue_PostQuit(subsystem->common.MsgPipe->In, 0)) WaitForSingleObject(subsystem->thread, INFINITE); CloseHandle(subsystem->thread); subsystem->thread = NULL; } return 1; } static rdpShadowSubsystem* x11_shadow_subsystem_new(void) { x11ShadowSubsystem* subsystem; subsystem = (x11ShadowSubsystem*)calloc(1, sizeof(x11ShadowSubsystem)); if (!subsystem) return NULL; #ifdef WITH_PAM subsystem->common.Authenticate = x11_shadow_pam_authenticate; #endif subsystem->common.SynchronizeEvent = x11_shadow_input_synchronize_event; subsystem->common.KeyboardEvent = x11_shadow_input_keyboard_event; subsystem->common.UnicodeKeyboardEvent = x11_shadow_input_unicode_keyboard_event; subsystem->common.MouseEvent = x11_shadow_input_mouse_event; subsystem->common.ExtendedMouseEvent = x11_shadow_input_extended_mouse_event; subsystem->composite = FALSE; subsystem->use_xshm = FALSE; /* temporarily disabled */ subsystem->use_xfixes = TRUE; subsystem->use_xdamage = FALSE; subsystem->use_xinerama = TRUE; return (rdpShadowSubsystem*)subsystem; } static void x11_shadow_subsystem_free(rdpShadowSubsystem* subsystem) { if (!subsystem) return; x11_shadow_subsystem_uninit(subsystem); free(subsystem); } FREERDP_API int X11_ShadowSubsystemEntry(RDP_SHADOW_ENTRY_POINTS* pEntryPoints) { if (!pEntryPoints) return -1; pEntryPoints->New = x11_shadow_subsystem_new; pEntryPoints->Free = x11_shadow_subsystem_free; pEntryPoints->Init = x11_shadow_subsystem_init; pEntryPoints->Uninit = x11_shadow_subsystem_uninit; pEntryPoints->Start = x11_shadow_subsystem_start; pEntryPoints->Stop = x11_shadow_subsystem_stop; pEntryPoints->EnumMonitors = x11_shadow_enum_monitors; return 1; }