LookingGlass/client/src/app.c

1077 lines
24 KiB
C

/**
* Looking Glass
* Copyright © 2017-2022 The Looking Glass Authors
* https://looking-glass.io
*
* 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 "app.h"
#include "main.h"
#include "core.h"
#include "util.h"
#include "clipboard.h"
#include "render_queue.h"
#include "kb.h"
#include "common/debug.h"
#include "common/stringutils.h"
#include "interface/overlay.h"
#include "overlays.h"
#include "cimgui.h"
#include <stdarg.h>
#include <math.h>
#include <string.h>
bool app_isRunning(void)
{
return
g_state.state == APP_STATE_RUNNING ||
g_state.state == APP_STATE_RESTART;
}
bool app_isCaptureMode(void)
{
return g_cursor.grab;
}
bool app_isCaptureOnlyMode(void)
{
return g_params.captureInputOnly;
}
bool app_isFormatValid(void)
{
return g_state.formatValid;
}
bool app_isOverlayMode(void)
{
if (g_state.overlayInput)
return true;
bool result = false;
struct Overlay * overlay;
ll_lock(g_state.overlays);
ll_forEachNL(g_state.overlays, item, overlay)
{
if (overlay->ops->needs_overlay && overlay->ops->needs_overlay(overlay))
{
result = true;
break;
}
}
ll_unlock(g_state.overlays);
return result;
}
void app_updateCursorPos(double x, double y)
{
g_cursor.pos.x = x;
g_cursor.pos.y = y;
g_cursor.valid = true;
if (app_isOverlayMode())
g_state.io->MousePos = (ImVec2) { x, y };
}
void app_handleFocusEvent(bool focused)
{
g_state.focused = focused;
// release any imgui buttons/keys if we lost focus
if (!focused && app_isOverlayMode())
core_resetOverlayInputState();
if (!core_inputEnabled())
{
if (!focused && g_params.minimizeOnFocusLoss && app_getFullscreen())
g_state.ds->minimize();
return;
}
if (!focused)
{
core_setGrabQuiet(false);
core_setCursorInView(false);
if (g_params.releaseKeysOnFocusLoss)
for (int key = 0; key < KEY_MAX; key++)
if (g_state.keyDown[key])
app_handleKeyRelease(key);
g_state.escapeActive = false;
if (!g_params.showCursorDot)
g_state.ds->setPointer(LG_POINTER_NONE);
if (g_params.minimizeOnFocusLoss)
g_state.ds->minimize();
}
g_cursor.realign = true;
g_state.ds->realignPointer();
}
void app_handleEnterEvent(bool entered)
{
if (entered)
{
g_cursor.inWindow = true;
if (!core_inputEnabled())
return;
g_cursor.realign = true;
}
else
{
g_cursor.inWindow = false;
core_setCursorInView(false);
// stop the user being able to drag windows off the screen and work around
// the mouse button release being missed due to not being in capture mode.
if (app_isOverlayMode())
{
g_state.io->MouseDown[ImGuiMouseButton_Left ] = false;
g_state.io->MouseDown[ImGuiMouseButton_Right ] = false;
g_state.io->MouseDown[ImGuiMouseButton_Middle] = false;
}
if (!core_inputEnabled())
return;
if (!g_params.alwaysShowCursor)
g_cursor.draw = false;
g_cursor.redraw = true;
}
}
void app_clipboardRelease(void)
{
if (!g_params.clipboardToVM)
return;
purespice_clipboardRelease();
}
void app_clipboardNotifyTypes(const LG_ClipboardData types[], int count)
{
if (!g_params.clipboardToVM)
return;
if (count == 0)
{
purespice_clipboardRelease();
return;
}
PSDataType conv[count];
for(int i = 0; i < count; ++i)
conv[i] = cb_lgTypeToSpiceType(types[i]);
purespice_clipboardGrab(conv, count);
}
void app_clipboardNotifySize(const LG_ClipboardData type, size_t size)
{
if (!g_params.clipboardToVM)
return;
if (type == LG_CLIPBOARD_DATA_NONE)
{
purespice_clipboardRelease();
return;
}
g_state.cbType = cb_lgTypeToSpiceType(type);
g_state.cbChunked = size > 0;
g_state.cbXfer = size;
purespice_clipboardDataStart(g_state.cbType, size);
}
void app_clipboardData(const LG_ClipboardData type, uint8_t * data, size_t size)
{
if (!g_params.clipboardToVM)
return;
if (g_state.cbChunked && size > g_state.cbXfer)
{
DEBUG_ERROR("refusing to send more then cbXfer bytes for chunked xfer");
size = g_state.cbXfer;
}
if (!g_state.cbChunked)
purespice_clipboardDataStart(g_state.cbType, size);
purespice_clipboardData(g_state.cbType, data, (uint32_t)size);
g_state.cbXfer -= size;
}
void app_clipboardRequest(const LG_ClipboardReplyFn replyFn, void * opaque)
{
if (!g_params.clipboardToLocal)
return;
struct CBRequest * cbr = malloc(sizeof(*cbr));
if (!cbr)
{
DEBUG_ERROR("out of memory");
return;
}
cbr->type = g_state.cbType;
cbr->replyFn = replyFn;
cbr->opaque = opaque;
ll_push(g_state.cbRequestList, cbr);
purespice_clipboardRequest(g_state.cbType);
}
static int mapSpiceToImGuiButton(uint32_t button)
{
switch (button)
{
case 1: // SPICE_MOUSE_BUTTON_LEFT
return ImGuiMouseButton_Left;
case 2: // SPICE_MOUSE_BUTTON_MIDDLE
return ImGuiMouseButton_Middle;
case 3: // SPICE_MOUSE_BUTTON_RIGHT
return ImGuiMouseButton_Right;
}
return -1;
}
void app_handleButtonPress(int button)
{
g_cursor.buttons |= (1U << button);
if (app_isOverlayMode())
{
int igButton = mapSpiceToImGuiButton(button);
if (igButton != -1)
g_state.io->MouseDown[igButton] = true;
return;
}
if (!core_inputEnabled() || !g_cursor.inView)
return;
if (!purespice_mousePress(button))
DEBUG_ERROR("app_handleButtonPress: failed to send message");
}
void app_handleButtonRelease(int button)
{
g_cursor.buttons &= ~(1U << button);
if (app_isOverlayMode())
{
int igButton = mapSpiceToImGuiButton(button);
if (igButton != -1)
g_state.io->MouseDown[igButton] = false;
return;
}
if (!core_inputEnabled())
return;
if (!purespice_mouseRelease(button))
DEBUG_ERROR("app_handleButtonRelease: failed to send message");
}
void app_handleWheelMotion(double motion)
{
if (app_isOverlayMode())
g_state.io->MouseWheel -= motion;
}
void app_handleKeyPress(int sc)
{
if (!app_isOverlayMode() || !g_state.io->WantCaptureKeyboard)
{
if (sc == g_params.escapeKey && !g_state.escapeActive)
{
g_state.escapeActive = true;
g_state.escapeTime = microtime();
g_state.escapeAction = -1;
return;
}
if (g_state.escapeActive)
{
g_state.escapeAction = sc;
KeybindHandle handle = g_state.bindings[sc];
if (handle)
handle->callback(sc, handle->opaque);
return;
}
}
if (app_isOverlayMode())
{
if (sc == KEY_ESC)
app_setOverlay(false);
else
g_state.io->KeysDown[sc] = true;
return;
}
if (!core_inputEnabled())
return;
if (g_params.ignoreWindowsKeys && (sc == KEY_LEFTMETA || sc == KEY_RIGHTMETA))
return;
if (!g_state.keyDown[sc])
{
uint32_t ps2 = linux_to_ps2[sc];
if (!ps2)
return;
if (purespice_keyDown(ps2))
g_state.keyDown[sc] = true;
else
{
DEBUG_ERROR("app_handleKeyPress: failed to send message");
return;
}
}
}
void app_handleKeyRelease(int sc)
{
if (g_state.escapeActive)
{
if (g_state.escapeAction == -1)
{
if (!g_state.escapeHelp && g_params.useSpiceInput &&
!app_isOverlayMode())
core_setGrab(!g_cursor.grab);
}
if (sc == g_params.escapeKey)
g_state.escapeActive = false;
}
if (app_isOverlayMode())
{
g_state.io->KeysDown[sc] = false;
return;
}
if (!core_inputEnabled())
return;
// avoid sending key up events when we didn't send a down
if (!g_state.keyDown[sc])
return;
if (g_params.ignoreWindowsKeys && (sc == KEY_LEFTMETA || sc == KEY_RIGHTMETA))
return;
uint32_t ps2 = linux_to_ps2[sc];
if (!ps2)
return;
if (purespice_keyUp(ps2))
g_state.keyDown[sc] = false;
else
{
DEBUG_ERROR("app_handleKeyRelease: failed to send message");
return;
}
}
void app_handleKeyboardTyped(const char * typed)
{
ImGuiIO_AddInputCharactersUTF8(g_state.io, typed);
}
void app_handleKeyboardModifiers(bool ctrl, bool shift, bool alt, bool super)
{
g_state.modCtrl = ctrl;
g_state.modShift = shift;
g_state.modAlt = alt;
g_state.modSuper = super;
}
void app_handleKeyboardLEDs(bool numLock, bool capsLock, bool scrollLock)
{
if (!core_inputEnabled())
return;
uint32_t modifiers =
(scrollLock ? 1 /* SPICE_SCROLL_LOCK_MODIFIER */ : 0) |
(numLock ? 2 /* SPICE_NUM_LOCK_MODIFIER */ : 0) |
(capsLock ? 4 /* SPICE_CAPS_LOCK_MODIFIER */ : 0);
if (!purespice_keyModifiers(modifiers))
DEBUG_ERROR("app_handleKeyboardLEDs: failed to send message");
}
void app_handleMouseRelative(double normx, double normy,
double rawx, double rawy)
{
if (app_isOverlayMode())
return;
if (g_cursor.grab)
{
if (g_params.rawMouse)
core_handleMouseGrabbed(rawx, rawy);
else
core_handleMouseGrabbed(normx, normy);
}
else
if (g_cursor.inWindow)
core_handleMouseNormal(normx, normy);
}
// On some display servers normal cursor logic does not work due to the lack of
// cursor warp support. Instead, we attempt a best-effort emulation which works
// with a 1:1 mouse movement patch applied in the guest. For anything fancy, use
// capture mode.
void app_handleMouseBasic()
{
/* do not pass mouse events to the guest if we do not have focus */
if (!g_cursor.guest.valid || !g_state.haveSrcSize || !g_state.focused ||
app_isOverlayMode())
return;
if (!core_inputEnabled())
return;
const bool inView =
g_cursor.pos.x >= g_state.dstRect.x &&
g_cursor.pos.x < g_state.dstRect.x + g_state.dstRect.w &&
g_cursor.pos.y >= g_state.dstRect.y &&
g_cursor.pos.y < g_state.dstRect.y + g_state.dstRect.h;
core_setCursorInView(inView);
/* translate the current position to guest coordinate space */
struct DoublePoint guest;
util_localCurToGuest(&guest);
int x = (int) round(util_clamp(guest.x, 0, g_state.srcSize.x) -
g_cursor.projected.x);
int y = (int) round(util_clamp(guest.y, 0, g_state.srcSize.y) -
g_cursor.projected.y);
if (!x && !y)
return;
g_cursor.projected.x += x;
g_cursor.projected.y += y;
if (!purespice_mouseMotion(x, y))
DEBUG_ERROR("failed to send mouse motion message");
}
void app_resyncMouseBasic()
{
if (!g_cursor.guest.valid)
return;
g_cursor.projected.x = g_cursor.guest.x + g_cursor.guest.hx;
g_cursor.projected.y = g_cursor.guest.y + g_cursor.guest.hy;
}
void app_updateWindowPos(int x, int y)
{
g_state.windowPos.x = x;
g_state.windowPos.y = y;
}
void app_handleResizeEvent(int w, int h, double scale, const struct Border border)
{
memcpy(&g_state.border, &border, sizeof(border));
/* don't do anything else if the window dimensions have not changed */
if (g_state.windowW == w && g_state.windowH == h && g_state.windowScale == scale)
return;
g_state.windowW = w;
g_state.windowH = h;
g_state.windowCX = w / 2;
g_state.windowCY = h / 2;
g_state.windowScale = scale;
core_updatePositionInfo();
if (core_inputEnabled())
{
/* if the window is moved/resized causing a loss of focus while grabbed, it
* makes it impossible to re-focus the window, so we quietly re-enter
* capture if we were already in it */
if (g_cursor.grab)
{
core_setGrabQuiet(false);
core_setGrabQuiet(true);
}
core_alignToGuest();
}
}
void app_invalidateWindow(bool full)
{
if (full)
atomic_store(&g_state.invalidateWindow, true);
if (g_state.jitRender && g_state.ds->stopWaitFrame)
g_state.ds->stopWaitFrame();
lgSignalEvent(g_state.frameEvent);
}
void app_handleCloseEvent(void)
{
if (!g_params.ignoreQuit || !g_cursor.inView)
g_state.state = APP_STATE_SHUTDOWN;
}
void app_handleRenderEvent(const uint64_t timeUs)
{
bool invalidate = false;
if (!g_state.escapeActive)
{
if (g_state.escapeHelp)
{
g_state.escapeHelp = false;
invalidate = true;
}
}
else
{
if (!g_state.escapeHelp && timeUs - g_state.escapeTime > g_params.helpMenuDelayUs)
{
g_state.escapeHelp = true;
invalidate = true;
}
}
if (invalidate)
app_invalidateWindow(false);
}
void app_setFullscreen(bool fs)
{
g_state.ds->setFullscreen(fs);
}
bool app_getFullscreen(void)
{
return g_state.ds->getFullscreen();
}
bool app_getProp(LG_DSProperty prop, void * ret)
{
return g_state.ds->getProp(prop, ret);
}
#ifdef ENABLE_EGL
EGLDisplay app_getEGLDisplay(void)
{
return g_state.ds->getEGLDisplay();
}
EGLNativeWindowType app_getEGLNativeWindow(void)
{
return g_state.ds->getEGLNativeWindow();
}
void app_eglSwapBuffers(EGLDisplay display, EGLSurface surface, const struct Rect * damage, int count)
{
g_state.ds->eglSwapBuffers(display, surface, damage, count);
}
#endif
#ifdef ENABLE_OPENGL
LG_DSGLContext app_glCreateContext(void)
{
return g_state.ds->glCreateContext();
}
void app_glDeleteContext(LG_DSGLContext context)
{
g_state.ds->glDeleteContext(context);
}
void app_glMakeCurrent(LG_DSGLContext context)
{
g_state.ds->glMakeCurrent(context);
}
void app_glSetSwapInterval(int interval)
{
g_state.ds->glSetSwapInterval(interval);
}
void app_glSwapBuffers(void)
{
g_state.ds->glSwapBuffers();
}
#endif
void app_alert(LG_MsgAlert type, const char * fmt, ...)
{
if (!g_state.lgr || !g_params.showAlerts)
return;
va_list args;
va_start(args, fmt);
overlayAlert_show(type, fmt, args);
va_end(args);
}
MsgBoxHandle app_msgBox(const char * caption, const char * fmt, ...)
{
va_list args;
va_start(args, fmt);
MsgBoxHandle handle = overlayMsg_show(caption, NULL, NULL, fmt, args);
va_end(args);
core_updateOverlayState();
return handle;
}
MsgBoxHandle app_confirmMsgBox(const char * caption,
MsgBoxConfirmCallback callback, void * opaque, const char * fmt, ...)
{
va_list args;
va_start(args, fmt);
MsgBoxHandle handle = overlayMsg_show(caption, callback, opaque, fmt, args);
va_end(args);
core_updateOverlayState();
return handle;
}
void app_msgBoxClose(MsgBoxHandle handle)
{
if (!handle)
return;
overlayMsg_close(handle);
}
void app_showRecord(bool show)
{
overlayStatus_set(LG_USER_STATUS_RECORDING, show);
}
KeybindHandle app_registerKeybind(int sc, KeybindFn callback, void * opaque, const char * description)
{
// don't allow duplicate binds
if (g_state.bindings[sc])
{
DEBUG_INFO("Key already bound");
return NULL;
}
KeybindHandle handle = malloc(sizeof(*handle));
if (!handle)
{
DEBUG_ERROR("out of memory");
return NULL;
}
handle->sc = sc;
handle->callback = callback;
handle->opaque = opaque;
g_state.bindings[sc] = handle;
g_state.keyDescription[sc] = description;
return handle;
}
void app_releaseKeybind(KeybindHandle * handle)
{
if (!*handle)
return;
g_state.bindings[(*handle)->sc] = NULL;
free(*handle);
*handle = NULL;
}
void app_releaseAllKeybinds(void)
{
for(int i = 0; i < KEY_MAX; ++i)
if (g_state.bindings[i])
{
free(g_state.bindings[i]);
g_state.bindings[i] = NULL;
}
}
GraphHandle app_registerGraph(const char * name, RingBuffer buffer,
float min, float max, GraphFormatFn formatFn)
{
return overlayGraph_register(name, buffer, min, max, formatFn);
}
void app_unregisterGraph(GraphHandle handle)
{
overlayGraph_unregister(handle);
}
void app_invalidateGraph(GraphHandle handle)
{
overlayGraph_invalidate(handle);
}
void app_registerOverlay(const struct LG_OverlayOps * ops, const void * params)
{
ASSERT_LG_OVERLAY_VALID(ops);
struct Overlay * overlay = malloc(sizeof(*overlay));
if (!overlay)
{
DEBUG_ERROR("out of ram");
return;
}
overlay->ops = ops;
overlay->params = params;
overlay->udata = NULL;
overlay->lastRectCount = 0;
ll_push(g_state.overlays, overlay);
if (ops->earlyInit)
ops->earlyInit();
}
void app_initOverlays(void)
{
struct Overlay * overlay;
ll_lock(g_state.overlays);
ll_forEachNL(g_state.overlays, item, overlay)
{
DEBUG_ASSERT(overlay->ops);
if (!overlay->ops->init(&overlay->udata, overlay->params))
{
DEBUG_ERROR("Overlay `%s` failed to initialize", overlay->ops->name);
overlay->ops = NULL;
}
}
ll_unlock(g_state.overlays);
}
static inline void mergeRect(struct Rect * dest, const struct Rect * a, const struct Rect * b)
{
int x2 = max(a->x + a->w, b->x + b->w);
int y2 = max(a->y + a->h, b->y + b->h);
dest->x = min(a->x, b->x);
dest->y = min(a->y, b->y);
dest->w = x2 - dest->x;
dest->h = y2 - dest->y;
}
static inline LG_DSPointer mapImGuiCursor(ImGuiMouseCursor cursor)
{
switch (cursor)
{
case ImGuiMouseCursor_None:
return LG_POINTER_NONE;
case ImGuiMouseCursor_Arrow:
return LG_POINTER_ARROW;
case ImGuiMouseCursor_TextInput:
return LG_POINTER_INPUT;
case ImGuiMouseCursor_ResizeAll:
return LG_POINTER_MOVE;
case ImGuiMouseCursor_ResizeNS:
return LG_POINTER_RESIZE_NS;
case ImGuiMouseCursor_ResizeEW:
return LG_POINTER_RESIZE_EW;
case ImGuiMouseCursor_ResizeNESW:
return LG_POINTER_RESIZE_NESW;
case ImGuiMouseCursor_ResizeNWSE:
return LG_POINTER_RESIZE_NWSE;
case ImGuiMouseCursor_Hand:
return LG_POINTER_HAND;
case ImGuiMouseCursor_NotAllowed:
return LG_POINTER_NOT_ALLOWED;
default:
return LG_POINTER_ARROW;
}
}
bool app_overlayNeedsRender(void)
{
if (app_isOverlayMode())
return true;
bool result = false;
struct Overlay * overlay;
ll_lock(g_state.overlays);
ll_forEachNL(g_state.overlays, item, overlay)
{
if (!overlay->ops->needs_render)
continue;
if (overlay->ops->needs_render(overlay->udata, false))
{
result = true;
break;
}
}
ll_unlock(g_state.overlays);
return result;
}
int app_renderOverlay(struct Rect * rects, int maxRects)
{
int totalRects = 0;
bool totalDamage = false;
struct Overlay * overlay;
struct Rect buffer[MAX_OVERLAY_RECTS];
g_state.io->KeyCtrl = g_state.modCtrl;
g_state.io->KeyShift = g_state.modShift;
g_state.io->KeyAlt = g_state.modAlt;
g_state.io->KeySuper = g_state.modSuper;
uint64_t now = nanotime();
g_state.io->DeltaTime = (now - g_state.lastImGuiFrame) * 1e-9f;
g_state.lastImGuiFrame = now;
render_again:
igNewFrame();
const bool overlayMode = app_isOverlayMode();
if (overlayMode && g_params.overlayDim)
{
totalDamage = true;
ImDrawList_AddRectFilled(igGetBackgroundDrawList_Nil(), (ImVec2) { 0.0f , 0.0f },
g_state.io->DisplaySize,
igGetColorU32_Col(ImGuiCol_ModalWindowDimBg, 1.0f),
0, 0);
}
const bool msgModal = overlayMsg_modal();
// render the overlays
ll_lock(g_state.overlays);
ll_forEachNL(g_state.overlays, item, overlay)
{
if (msgModal && overlay->ops != &LGOverlayMsg)
continue;
const int written =
overlay->ops->render(overlay->udata, overlayMode,
buffer, MAX_OVERLAY_RECTS);
for (int i = 0; i < written; ++i)
{
buffer[i].x *= g_state.windowScale;
buffer[i].y *= g_state.windowScale;
buffer[i].w *= g_state.windowScale;
buffer[i].h *= g_state.windowScale;
}
// It is an error to run out of rectangles, because we will not be able to
// correctly calculate the damage of the next frame.
DEBUG_ASSERT(written >= 0);
const int toAdd = max(written, overlay->lastRectCount);
totalDamage |= toAdd > maxRects;
if (!totalDamage && toAdd)
{
int i = 0;
for (; i < overlay->lastRectCount && i < written; ++i)
mergeRect(rects + i, buffer + i, overlay->lastRects + i);
// only one of the following memcpys will copy non-zero bytes.
memcpy(rects + i, buffer + i, (written - i) * sizeof(struct Rect));
memcpy(rects + i, overlay->lastRects + i, (overlay->lastRectCount - i) * sizeof(struct Rect));
rects += toAdd;
totalRects += toAdd;
maxRects -= toAdd;
}
memcpy(overlay->lastRects, buffer, sizeof(struct Rect) * written);
overlay->lastRectCount = written;
}
ll_unlock(g_state.overlays);
if (overlayMode)
{
ImGuiMouseCursor cursor = igGetMouseCursor();
if (cursor != g_state.cursorLast)
{
g_state.ds->setPointer(mapImGuiCursor(cursor));
g_state.cursorLast = cursor;
}
}
igRender();
/* imgui requires two passes to calculate the bounding box of auto sized
* windows, this is by design
* ref: https://github.com/ocornut/imgui/issues/2158#issuecomment-434223618
*/
if (g_state.renderImGuiTwice)
{
g_state.renderImGuiTwice = false;
goto render_again;
}
return totalDamage ? -1 : totalRects;
}
void app_freeOverlays(void)
{
struct Overlay * overlay;
while(ll_shift(g_state.overlays, (void **)&overlay))
{
overlay->ops->free(overlay->udata);
free(overlay);
}
}
void app_setOverlay(bool enable)
{
if (g_state.overlayInput == enable)
return;
g_state.overlayInput = enable;
core_updateOverlayState();
}
void app_overlayConfigRegister(const char * title,
void (*callback)(void * udata, int * id), void * udata)
{
overlayConfig_register(title, callback, udata);
}
void app_overlayConfigRegisterTab(const char * title,
void (*callback)(void * udata, int * id), void * udata)
{
overlayConfig_registerTab(title, callback, udata);
}
void app_invalidateOverlay(bool renderTwice)
{
if (g_state.state == APP_STATE_SHUTDOWN)
return;
if (renderTwice)
g_state.renderImGuiTwice = true;
app_invalidateWindow(false);
}
bool app_guestIsLinux(void)
{
return g_state.guestOS == KVMFR_OS_LINUX;
}
bool app_guestIsWindows(void)
{
return g_state.guestOS == KVMFR_OS_WINDOWS;
}
bool app_guestIsOSX(void)
{
return g_state.guestOS == KVMFR_OS_OSX;
}
bool app_guestIsBSD(void)
{
return g_state.guestOS == KVMFR_OS_BSD;
}
bool app_guestIsOther(void)
{
return g_state.guestOS == KVMFR_OS_OTHER;
}
void app_stopVideo(bool stop)
{
if (g_state.stopVideo == stop)
return;
// do not change the state if the host app is not connected
if (!g_state.lgHostConnected)
return;
g_state.stopVideo = stop;
app_alert(
LG_ALERT_INFO,
stop ? "Video Stream Disabled" : "Video Stream Enabled"
);
if (stop)
{
core_stopCursorThread();
core_stopFrameThread();
}
else
{
core_startCursorThread();
core_startFrameThread();
}
}
bool app_useSpiceDisplay(bool enable)
{
static bool lastState = false;
if (!g_params.useSpice || lastState == enable)
return g_params.useSpice && lastState;
// if spice is not yet ready, flag the state we want for when it is
if (!g_state.spiceReady)
{
g_state.initialSpiceDisplay = enable;
return false;
}
if (!purespice_hasChannel(PS_CHANNEL_DISPLAY))
return false;
// do not allow stopping of the host app if not connected
if (!enable && !g_state.lgHostConnected)
return false;
lastState = enable;
if (enable)
{
purespice_connectChannel(PS_CHANNEL_DISPLAY);
renderQueue_spiceShow(true);
overlaySplash_show(false);
}
else
{
renderQueue_spiceShow(false);
purespice_disconnectChannel(PS_CHANNEL_DISPLAY);
}
overlayStatus_set(LG_USER_STATUS_SPICE, enable);
return enable;
}