/* Looking Glass - KVM FrameRelay (KVMFR) Client Copyright (C) 2017 Geoffrey McRae This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include #include #include #include #include #include #include #include #include #define GL_GLEXT_PROTOTYPES #include #include #include "debug.h" #include "memcpySSE.h" #include "KVMFR.h" #include "ivshmem/ivshmem.h" #include "spice/spice.h" #include "kb.h" #include "lg-renderers.h" struct AppState { bool running; bool started; TTF_Font *font; SDL_Rect srcRect; LG_RendererRect dstRect; float scaleX, scaleY; SDL_Window * window; SDL_Renderer * renderer; struct KVMFRHeader * shm; unsigned int shmSize; }; struct AppParams { bool vsync; bool autoResize; bool allowResize; bool keepAspect; bool borderless; bool center; int x, y; unsigned int w, h; const char * ivshmemSocket; bool useMipmap; bool showFPS; bool useSpice; const char * spiceHost; unsigned int spicePort; bool scaleMouseInput; bool hideMouse; }; struct AppState state; struct AppParams params = { .vsync = true, .autoResize = false, .allowResize = true, .keepAspect = true, .borderless = false, .center = true, .x = 0, .y = 0, .w = 1024, .h = 768, .ivshmemSocket = "/tmp/ivshmem_socket", .useMipmap = true, .showFPS = false, .useSpice = true, .spiceHost = "127.0.0.1", .spicePort = 5900, .scaleMouseInput = true, .hideMouse = true }; inline void updatePositionInfo() { int w, h; SDL_GetRendererOutputSize(state.renderer, &w, &h); if (params.keepAspect) { const float srcAspect = (float)state.srcRect.h / (float)state.srcRect.w; const float wndAspect = (float)h / (float)w; if (wndAspect < srcAspect) { state.dstRect.w = (float)h / srcAspect; state.dstRect.h = h; state.dstRect.x = (w >> 1) - (state.dstRect.w >> 1); state.dstRect.y = 0; } else { state.dstRect.w = w; state.dstRect.h = (float)w * srcAspect; state.dstRect.x = 0; state.dstRect.y = (h >> 1) - (state.dstRect.h >> 1); } } else { state.dstRect.x = 0; state.dstRect.y = 0; state.dstRect.w = w; state.dstRect.h = h; } state.scaleX = (float)state.srcRect.h / (float)state.dstRect.h; state.scaleY = (float)state.srcRect.w / (float)state.dstRect.w; } inline bool areFormatsSame(const struct KVMFRHeader s1, const struct KVMFRHeader s2) { return (s1.frameType != FRAME_TYPE_INVALID) && (s2.frameType != FRAME_TYPE_INVALID) && (s1.version == s2.version ) && (s1.frameType == s2.frameType) && (s1.width == s2.width ) && (s1.height == s2.height ); } inline uint64_t microtime() { struct timeval time; gettimeofday(&time, NULL); return ((uint64_t)time.tv_sec * 1000000) + time.tv_usec; } uint64_t detectPresentTime() { // warm up first as the GPU driver may have multiple buffers for(int i = 0; i < 10; ++i) SDL_RenderPresent(state.renderer); // time 10 iterations and compute the average const uint64_t start = microtime(); for(int i = 0; i < 10; ++i) SDL_RenderPresent(state.renderer); const uint64_t t = (microtime() - start) / 10; // ensure all buffers are flushed glFinish(); DEBUG_INFO("detected: %lu (%f Hz)", t, 1000000.0f / t); return t; } int renderThread(void * unused) { bool error = false; struct KVMFRHeader header; const LG_Renderer * lgr = NULL; void * lgrData; unsigned int frameCount = 0; SDL_Texture * textTexture = NULL; SDL_Rect textRect; const uint64_t presentTime = detectPresentTime(); uint64_t pollDelay = 0; uint64_t drawStart = 0; uint64_t drawTime = 0; uint64_t fpsStart = 0; uint64_t fpsTime = 0; #define SYNC_WINDOW 2000 while(state.running) { // wait for a frame if (pollDelay > SYNC_WINDOW) usleep(pollDelay - SYNC_WINDOW); else usleep(pollDelay); // we shouldn't have a frame yet, retard the timing a bit if (header.dataPos != state.shm->dataPos) { if (pollDelay >= SYNC_WINDOW / 2) pollDelay -= SYNC_WINDOW / 2; else pollDelay = 0; } else { const uint64_t loopStart = microtime(); while(header.dataPos == state.shm->dataPos && state.running) { // if we timed out, wait for an interrupt or a timeout if (microtime() - loopStart > SYNC_WINDOW) { ivshmem_wait_irq(0, 1000000/30); break; } } pollDelay += microtime() - loopStart; pollDelay -= SYNC_WINDOW / 2; if (pollDelay > (1000000/30)) pollDelay = presentTime; } if (!state.running) break; // sleep for the remainder of the presentation time if (frameCount > 0) { drawTime = microtime() - drawStart; if (drawTime < presentTime) { uint64_t delta = presentTime - drawTime; if (delta > 1000) usleep(delta - 1000); } // ensure buffers are flushed glFinish(); } drawStart = microtime(); // we must take a copy of the header, both to let the guest advance and to // prevent the contained arguments being abused to overflow buffers memcpy(&header, state.shm, sizeof(struct KVMFRHeader)); ivshmem_kick_irq(header.guestID, 0); // check the header's magic and version are valid if ( memcmp(header.magic, KVMFR_HEADER_MAGIC, sizeof(KVMFR_HEADER_MAGIC)) != 0 || header.version != KVMFR_HEADER_VERSION ) { usleep(1000); continue; } // setup the renderer format with the frame format details LG_RendererFormat lgrFormat; lgrFormat.width = header.width; lgrFormat.height = header.height; lgrFormat.stride = header.stride; switch(header.frameType) { case FRAME_TYPE_ARGB: lgrFormat.pitch = header.stride * 4; lgrFormat.bpp = 32; break; case FRAME_TYPE_RGB: lgrFormat.pitch = header.stride * 3; lgrFormat.bpp = 24; break; default: DEBUG_ERROR("Unsupported frameType"); error = true; break; } if (error) break; // check the header's dataPos is sane const size_t dataSize = lgrFormat.height * lgrFormat.pitch; if (header.dataPos + dataSize > state.shmSize) { DEBUG_ERROR("The guest sent an invalid dataPos"); break; } // check if we have a compatible renderer if (!lgr || !lgr->is_compatible(lgrData, lgrFormat)) { LG_RendererParams lgrParams; lgrParams.window = state.window; lgrParams.renderer = state.renderer; DEBUG_INFO("Data Format: w=%u, h=%u, s=%u, p=%u, bpp=%u", lgrFormat.width, lgrFormat.height, lgrFormat.stride, lgrFormat.pitch, lgrFormat.bpp); // first try to reinitialize any existing renderer if (lgr) { lgr->deinitialize(lgrData); if (lgr->initialize(&lgrData, lgrParams, lgrFormat)) { DEBUG_INFO("Reinitialized %s", lgr->get_name()); } else { DEBUG_ERROR("Failed to reinitialize %s, trying other renderers", lgr->get_name()); lgr->deinitialize(lgrData); lgr = NULL; } } if (!lgr) { // probe for a a suitable renderer for(const LG_Renderer **r = &LG_Renderers[0]; *r; ++r) { if (!IS_LG_RENDERER_VALID(*r)) { DEBUG_ERROR("FIXME: Renderer %d is invalid, skpping", (int)(r - &LG_Renderers[0])); continue; } lgrData = NULL; if (!(*r)->initialize(&lgrData, lgrParams, lgrFormat)) { (*r)->deinitialize(lgrData); continue; } lgr = *r; DEBUG_INFO("Initialized %s", (*r)->get_name()); break; } if (!lgr) { DEBUG_INFO("Unable to find a suitable renderer"); return -1; } } state.srcRect.x = 0; state.srcRect.y = 0; state.srcRect.w = header.width; state.srcRect.h = header.height; updatePositionInfo(); } if (!lgr->render( lgrData, state.dstRect, (uint8_t *)state.shm + header.dataPos, params.useMipmap )) { DEBUG_ERROR("Failed to render the frame"); break; } if (params.showFPS) { // for now render the frame counter here, we really should // move this into the renderers though. if (fpsTime > 1000000) { SDL_Surface *textSurface = NULL; if (textTexture) { SDL_DestroyTexture(textTexture); textTexture = NULL; } char str[32]; const float avgFPS = 1000.0f / (((float)fpsTime / frameCount) / 1000.0f); snprintf(str, sizeof(str), "FPS: %8.4f, Sync: %5lu", avgFPS, pollDelay); SDL_Color color = {0xff, 0xff, 0xff}; if (!(textSurface = TTF_RenderText_Blended(state.font, str, color))) { DEBUG_ERROR("Failed to render text"); break; } textRect.x = 5; textRect.y = 5; textRect.w = textSurface->w; textRect.h = textSurface->h; textTexture = SDL_CreateTextureFromSurface(state.renderer, textSurface); SDL_SetTextureBlendMode(textTexture, SDL_BLENDMODE_BLEND); SDL_FreeSurface(textSurface); fpsTime = 0; frameCount = 0; } if (textTexture) { glEnable(GL_BLEND); glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); glColor4f(0.0f, 0.0f, 1.0f, 0.5f); glBegin(GL_TRIANGLE_STRIP); glVertex2i(textRect.x , textRect.y ); glVertex2i(textRect.x + textRect.w, textRect.y ); glVertex2i(textRect.x , textRect.y + textRect.h); glVertex2i(textRect.x + textRect.w, textRect.y + textRect.h); glEnd(); float tw, th; glColor4f(1.0f, 1.0f, 1.0f, 1.0f); SDL_GL_BindTexture(textTexture, &tw, &th); glBegin(GL_TRIANGLE_STRIP); glTexCoord2f(0.0f, 0.0f); glVertex2i(textRect.x , textRect.y ); glTexCoord2f(tw , 0.0f); glVertex2i(textRect.x + textRect.w, textRect.y ); glTexCoord2f(0.0f, th ); glVertex2i(textRect.x , textRect.y + textRect.h); glTexCoord2f(tw , th ); glVertex2i(textRect.x + textRect.w, textRect.y + textRect.h); glEnd(); glDisable(GL_BLEND); SDL_GL_UnbindTexture(textTexture); } } SDL_RenderPresent(state.renderer); ++frameCount; uint64_t t = microtime(); fpsTime += t - fpsStart; fpsStart = t; } if (lgr) lgr->deinitialize(lgrData); return 0; } int ivshmemThread(void * arg) { while(state.running) if (!ivshmem_process()) { if (state.running) { state.running = false; DEBUG_ERROR("failed to process ivshmem messages"); } break; } return 0; } int spiceThread(void * arg) { while(state.running) if (!spice_process()) { if (state.running) { state.running = false; DEBUG_ERROR("failed to process spice messages"); } break; } spice_disconnect(); return 0; } static inline const uint32_t mapScancode(SDL_Scancode scancode) { uint32_t ps2; if (scancode > (sizeof(usb_to_ps2) / sizeof(uint32_t)) || (ps2 = usb_to_ps2[scancode]) == 0) { DEBUG_WARN("Unable to map USB scan code: %x\n", scancode); return 0; } return ps2; } int eventThread(void * arg) { bool serverMode = false; bool realignGuest = true; bool keyDown[SDL_NUM_SCANCODES]; memset(keyDown, 0, sizeof(keyDown)); // ensure mouse acceleration is identical in server mode SDL_SetHintWithPriority(SDL_HINT_MOUSE_RELATIVE_MODE_WARP, "1", SDL_HINT_OVERRIDE); while(state.running) { SDL_Event event; if (!SDL_PollEvent(&event)) { usleep(1000); continue; } if (event.type == SDL_QUIT) { state.running = false; break; } if (!params.useSpice) continue; switch(event.type) { case SDL_KEYDOWN: { SDL_Scancode sc = event.key.keysym.scancode; if (sc == SDL_SCANCODE_SCROLLLOCK) { if (event.key.repeat) break; serverMode = !serverMode; spice_mouse_mode(serverMode); SDL_SetRelativeMouseMode(serverMode); if (!serverMode) realignGuest = true; break; } uint32_t scancode = mapScancode(sc); if (scancode == 0) break; if (spice_key_down(scancode)) keyDown[sc] = true; else { DEBUG_ERROR("SDL_KEYDOWN: failed to send message"); break; } break; } case SDL_KEYUP: { SDL_Scancode sc = event.key.keysym.scancode; if (sc == SDL_SCANCODE_SCROLLLOCK) break; // avoid sending key up events when we didn't send a down if (!keyDown[sc]) break; uint32_t scancode = mapScancode(sc); if (scancode == 0) break; if (spice_key_up(scancode)) keyDown[sc] = false; else { DEBUG_ERROR("SDL_KEYUP: failed to send message"); break; } break; } case SDL_MOUSEWHEEL: if ( !spice_mouse_press (event.wheel.y == 1 ? 4 : 5) || !spice_mouse_release(event.wheel.y == 1 ? 4 : 5) ) { DEBUG_ERROR("SDL_MOUSEWHEEL: failed to send messages"); break; } break; case SDL_MOUSEMOTION: { if ( !serverMode && ( event.motion.x < state.dstRect.x || event.motion.x > state.dstRect.x + state.dstRect.w || event.motion.y < state.dstRect.y || event.motion.y > state.dstRect.y + state.dstRect.h ) ) { realignGuest = true; break; } int x = 0; int y = 0; if (realignGuest) { x = event.motion.x - state.dstRect.x; y = event.motion.y - state.dstRect.y; if (params.scaleMouseInput) { x = (float)x * state.scaleX; y = (float)y * state.scaleY; } x -= state.shm->mouseX; y -= state.shm->mouseY; realignGuest = false; if (!spice_mouse_motion(x, y)) DEBUG_ERROR("SDL_MOUSEMOTION: failed to send message"); break; } x = event.motion.xrel; y = event.motion.yrel; if (x != 0 || y != 0) { if (params.scaleMouseInput) { x = (float)x * state.scaleX; y = (float)y * state.scaleY; } if (!spice_mouse_motion(x, y)) { DEBUG_ERROR("SDL_MOUSEMOTION: failed to send message"); break; } } break; } case SDL_MOUSEBUTTONDOWN: if ( !spice_mouse_position(event.button.x, event.button.y) || !spice_mouse_press(event.button.button) ) { DEBUG_ERROR("SDL_MOUSEBUTTONDOWN: failed to send message"); break; } break; case SDL_MOUSEBUTTONUP: if ( !spice_mouse_position(event.button.x, event.button.y) || !spice_mouse_release(event.button.button) ) { DEBUG_ERROR("SDL_MOUSEBUTTONUP: failed to send message"); break; } break; case SDL_WINDOWEVENT: { switch(event.window.event) { case SDL_WINDOWEVENT_ENTER: realignGuest = true; break; case SDL_WINDOWEVENT_SIZE_CHANGED: updatePositionInfo(); realignGuest = true; break; } break; } default: break; } } return 0; } int run() { memset(&state, 0, sizeof(state)); state.running = true; state.scaleX = 1.0f; state.scaleY = 1.0f; if (SDL_Init(SDL_INIT_VIDEO) < 0) { DEBUG_ERROR("SDL_Init Failed"); return -1; } if (params.showFPS) { if (TTF_Init() < 0) { DEBUG_ERROR("TTL_Init Failed"); return -1; } state.font = TTF_OpenFont("/usr/share/fonts/truetype/freefont/FreeMono.ttf", 16); if (!state.font) { DEBUG_ERROR("TTL_OpenFont Failed"); return -1; } } state.window = SDL_CreateWindow( "Looking Glass (Client)", params.center ? SDL_WINDOWPOS_CENTERED : params.x, params.center ? SDL_WINDOWPOS_CENTERED : params.y, params.w, params.h, ( SDL_WINDOW_SHOWN | (params.allowResize ? SDL_WINDOW_RESIZABLE : 0) | (params.borderless ? SDL_WINDOW_BORDERLESS : 0) ) ); if (!state.window) { DEBUG_ERROR("failed to create window"); return -1; } SDL_Cursor *cursor = NULL; if (params.hideMouse) { // work around SDL_ShowCursor being non functional int32_t cursorData[2] = {0, 0}; cursor = SDL_CreateCursor((uint8_t*)cursorData, (uint8_t*)cursorData, 8, 8, 4, 4); SDL_SetCursor(cursor); SDL_ShowCursor(SDL_DISABLE); } state.renderer = SDL_CreateRenderer(state.window, -1, SDL_RENDERER_ACCELERATED | (params.vsync ? SDL_RENDERER_PRESENTVSYNC : 0) ); if (!state.renderer) { DEBUG_ERROR("failed to create renderer"); return -1; } int shm_fd = 0; SDL_Thread *t_ivshmem = NULL; SDL_Thread *t_spice = NULL; SDL_Thread *t_event = NULL; while(1) { if (!ivshmem_connect(params.ivshmemSocket)) { DEBUG_ERROR("failed to connect to the ivshmem server"); break; } if (!(t_ivshmem = SDL_CreateThread(ivshmemThread, "ivshmemThread", NULL))) { DEBUG_ERROR("ivshmem create thread failed"); break; } state.shm = (struct KVMFRHeader *)ivshmem_get_map(); if (!state.shm) { DEBUG_ERROR("Failed to map memory"); break; } state.shmSize = ivshmem_get_map_size(); state.shm->hostID = ivshmem_get_id(); if (params.useSpice) { if (!spice_connect(params.spiceHost, params.spicePort, "")) { DEBUG_ERROR("Failed to connect to spice server"); return 0; } while(state.running && !spice_ready()) if (!spice_process()) { state.running = false; DEBUG_ERROR("Failed to process spice messages"); break; } if (!(t_spice = SDL_CreateThread(spiceThread, "spiceThread", NULL))) { DEBUG_ERROR("spice create thread failed"); break; } } if (!(t_event = SDL_CreateThread(eventThread, "eventThread", NULL))) { DEBUG_ERROR("gpu create thread failed"); break; } while(state.running) renderThread(NULL); break; } state.running = false; if (t_event) SDL_WaitThread(t_event, NULL); // this needs to happen here to abort any waiting reads // as ivshmem uses recvmsg which has no timeout ivshmem_disconnect(); if (t_ivshmem) SDL_WaitThread(t_ivshmem, NULL); if (t_spice) SDL_WaitThread(t_spice, NULL); if (state.renderer) SDL_DestroyRenderer(state.renderer); if (state.window) SDL_DestroyWindow(state.window); if (cursor) SDL_FreeCursor(cursor); if (shm_fd) close(shm_fd); TTF_Quit(); SDL_Quit(); return 0; } void doHelp(char * app) { char x[8], y[8]; snprintf(x, sizeof(x), "%d", params.x); snprintf(y, sizeof(y), "%d", params.y); fprintf(stderr, "Looking Glass Client\n" "Usage: %s [OPTION]...\n" "Example: %s -h\n" "\n" " -h Print out this help\n" "\n" " -f PATH Specify the path to the ivshmem socket [current: %s]\n" "\n" " -s Disable spice client\n" " -c HOST Specify the spice host [current: %s]\n" " -p PORT Specify the spice port [current: %d]\n" " -j Disable cursor position scaling\n" " -M Don't hide the host cursor\n" "\n" " -m Disable mipmapping\n" " -v Disable VSync\n" " -k Enable FPS display\n" "\n" " -a Auto resize the window to the guest\n" " -n Don't allow the window to be manually resized\n" " -r Don't maintain the aspect ratio\n" " -d Borderless mode\n" " -x XPOS Initial window X position [current: %s]\n" " -y YPOS Initial window Y position [current: %s]\n" " -w WIDTH Initial window width [current: %u]\n" " -b HEIGHT Initial window height [current: %u]\n" "\n" " -l License information\n" "\n", app, app, params.ivshmemSocket, params.spiceHost, params.spicePort, params.center ? "center" : x, params.center ? "center" : y, params.w, params.h ); } void doLicense() { fprintf(stderr, "\n" "Looking Glass - KVM FrameRelay (KVMFR) Client\n" "Copyright(C) 2017 Geoffrey McRae \n" "\n" "This program is free software; you can redistribute it and / or modify it under\n" "the terms of the GNU General Public License as published by the Free Software\n" "Foundation; either version 2 of the License, or (at your option) any later\n" "version.\n" "\n" "This program is distributed in the hope that it will be useful, but WITHOUT ANY\n" "WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A\n" "PARTICULAR PURPOSE.See the GNU General Public License for more details.\n" "\n" "You should have received a copy of the GNU General Public License along with\n" "this program; if not, write to the Free Software Foundation, Inc., 59 Temple\n" "Place, Suite 330, Boston, MA 02111 - 1307 USA\n" "\n" ); } int main(int argc, char * argv[]) { int c; while((c = getopt(argc, argv, "hf:sc:p:jMmvkanrdx:y:w:b:l")) != -1) switch(c) { case '?': case 'h': default : doHelp(argv[0]); return (c == 'h') ? 0 : -1; case 'f': params.ivshmemSocket = optarg; break; case 's': params.useSpice = false; break; case 'c': params.spiceHost = optarg; break; case 'p': params.spicePort = atoi(optarg); break; case 'j': params.scaleMouseInput = false; break; case 'M': params.hideMouse = false; break; case 'm': params.useMipmap = false; break; case 'v': params.vsync = false; break; case 'k': params.showFPS = true; break; case 'a': params.autoResize = true; break; case 'n': params.allowResize = false; break; case 'r': params.keepAspect = false; break; case 'd': params.borderless = true; break; case 'x': params.center = false; params.x = atoi(optarg); break; case 'y': params.center = false; params.y = atoi(optarg); break; case 'w': params.w = atoi(optarg); break; case 'b': params.h = atoi(optarg); break; case 'l': doLicense(); return 0; } return run(); }