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#include "Screencopy.hpp"
#include "../Compositor.hpp"
#include "../managers/eventLoop/EventLoopManager.hpp"
#include "../managers/PointerManager.hpp"
#include "core/Output.hpp"
#include "types/WLBuffer.hpp"
#include "types/Buffer.hpp"
#include "../helpers/Format.hpp"
#include <algorithm>
CScreencopyFrame::~CScreencopyFrame() {
if (buffer && buffer->locked())
buffer->unlock();
}
CScreencopyFrame::CScreencopyFrame(SP<CZwlrScreencopyFrameV1> resource_, int32_t overlay_cursor, wl_resource* output, CBox box_) : resource(resource_) {
if (!good())
return;
overlayCursor = !!overlay_cursor;
pMonitor = CWLOutputResource::fromResource(output)->monitor.get();
if (!pMonitor) {
LOGM(ERR, "Client requested sharing of a monitor that doesnt exist");
resource->sendFailed();
PROTO::screencopy->destroyResource(this);
return;
}
resource->setOnDestroy([this](CZwlrScreencopyFrameV1* pMgr) { PROTO::screencopy->destroyResource(this); });
resource->setDestroy([this](CZwlrScreencopyFrameV1* pFrame) { PROTO::screencopy->destroyResource(this); });
resource->setCopy([this](CZwlrScreencopyFrameV1* pFrame, wl_resource* res) { this->copy(pFrame, res); });
resource->setCopyWithDamage([this](CZwlrScreencopyFrameV1* pFrame, wl_resource* res) {
withDamage = true;
this->copy(pFrame, res);
});
g_pHyprRenderer->makeEGLCurrent();
if (g_pHyprOpenGL->m_mMonitorRenderResources.contains(pMonitor)) {
const auto& RDATA = g_pHyprOpenGL->m_mMonitorRenderResources.at(pMonitor);
// bind the fb for its format. Suppress gl errors.
#ifndef GLES2
glBindFramebuffer(GL_READ_FRAMEBUFFER, RDATA.offloadFB.m_iFb);
#else
glBindFramebuffer(GL_FRAMEBUFFER, RDATA.offloadFB.m_iFb);
#endif
} else
LOGM(ERR, "No RDATA in screencopy???");
shmFormat = g_pHyprOpenGL->getPreferredReadFormat(pMonitor);
if (shmFormat == DRM_FORMAT_INVALID) {
LOGM(ERR, "No format supported by renderer in capture output");
resource->sendFailed();
PROTO::screencopy->destroyResource(this);
return;
}
const auto PSHMINFO = FormatUtils::getPixelFormatFromDRM(shmFormat);
if (!PSHMINFO) {
LOGM(ERR, "No pixel format supported by renderer in capture output");
resource->sendFailed();
PROTO::screencopy->destroyResource(this);
return;
}
dmabufFormat = pMonitor->output->state->state().drmFormat;
if (box_.width == 0 && box_.height == 0)
box = {0, 0, (int)(pMonitor->vecSize.x), (int)(pMonitor->vecSize.y)};
else {
box = box_;
}
box.transform(wlTransformToHyprutils(pMonitor->transform), pMonitor->vecTransformedSize.x, pMonitor->vecTransformedSize.y).scale(pMonitor->scale).round();
shmStride = FormatUtils::minStride(PSHMINFO, box.w);
resource->sendBuffer(FormatUtils::drmToShm(shmFormat), box.width, box.height, shmStride);
if (resource->version() >= 3) {
if (dmabufFormat != DRM_FORMAT_INVALID) {
resource->sendLinuxDmabuf(dmabufFormat, box.width, box.height);
}
resource->sendBufferDone();
}
}
void CScreencopyFrame::copy(CZwlrScreencopyFrameV1* pFrame, wl_resource* buffer_) {
if (!good()) {
LOGM(ERR, "No frame in copyFrame??");
return;
}
if (!g_pCompositor->monitorExists(pMonitor)) {
LOGM(ERR, "Client requested sharing of a monitor that is gone");
resource->sendFailed();
PROTO::screencopy->destroyResource(this);
return;
}
const auto PBUFFER = CWLBufferResource::fromResource(buffer_);
if (!PBUFFER) {
LOGM(ERR, "Invalid buffer in {:x}", (uintptr_t)this);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer");
PROTO::screencopy->destroyResource(this);
return;
}
PBUFFER->buffer->lock();
if (PBUFFER->buffer->size != box.size()) {
LOGM(ERR, "Invalid dimensions in {:x}", (uintptr_t)this);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer dimensions");
PROTO::screencopy->destroyResource(this);
return;
}
if (buffer) {
LOGM(ERR, "Buffer used in {:x}", (uintptr_t)this);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_ALREADY_USED, "frame already used");
PROTO::screencopy->destroyResource(this);
return;
}
if (auto attrs = PBUFFER->buffer->dmabuf(); attrs.success) {
bufferDMA = true;
if (attrs.format != dmabufFormat) {
LOGM(ERR, "Invalid buffer dma format in {:x}", (uintptr_t)pFrame);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer format");
PROTO::screencopy->destroyResource(this);
return;
}
} else if (auto attrs = PBUFFER->buffer->shm(); attrs.success) {
if (attrs.format != shmFormat) {
LOGM(ERR, "Invalid buffer shm format in {:x}", (uintptr_t)pFrame);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer format");
PROTO::screencopy->destroyResource(this);
return;
} else if ((int)attrs.stride != shmStride) {
LOGM(ERR, "Invalid buffer shm stride in {:x}", (uintptr_t)pFrame);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer stride");
PROTO::screencopy->destroyResource(this);
return;
}
} else {
LOGM(ERR, "Invalid buffer type in {:x}", (uintptr_t)pFrame);
resource->error(ZWLR_SCREENCOPY_FRAME_V1_ERROR_INVALID_BUFFER, "invalid buffer type");
PROTO::screencopy->destroyResource(this);
return;
}
buffer = PBUFFER->buffer;
PROTO::screencopy->m_vFramesAwaitingWrite.emplace_back(self);
g_pHyprRenderer->m_bDirectScanoutBlocked = true;
if (overlayCursor && !lockedSWCursors) {
lockedSWCursors = true;
// TODO: make it per-monitor
if (!PROTO::screencopy->m_bTimerArmed) {
for (auto& m : g_pCompositor->m_vMonitors) {
g_pPointerManager->lockSoftwareForMonitor(m);
}
PROTO::screencopy->m_bTimerArmed = true;
LOGM(LOG, "Locking sw cursors due to screensharing");
}
PROTO::screencopy->m_pSoftwareCursorTimer->updateTimeout(std::chrono::seconds(1));
}
if (!withDamage)
g_pHyprRenderer->damageMonitor(pMonitor);
}
void CScreencopyFrame::share() {
if (!buffer || !pMonitor)
return;
timespec now;
clock_gettime(CLOCK_MONOTONIC, &now);
if (bufferDMA) {
if (!copyDmabuf()) {
LOGM(ERR, "Dmabuf copy failed in {:x}", (uintptr_t)this);
resource->sendFailed();
return;
}
} else {
if (!copyShm()) {
LOGM(ERR, "Shm copy failed in {:x}", (uintptr_t)this);
resource->sendFailed();
return;
}
}
resource->sendFlags((zwlrScreencopyFrameV1Flags)0);
if (withDamage) {
// TODO: add a damage ring for this.
resource->sendDamage(0, 0, buffer->size.x, buffer->size.y);
}
uint32_t tvSecHi = (sizeof(now.tv_sec) > 4) ? now.tv_sec >> 32 : 0;
uint32_t tvSecLo = now.tv_sec & 0xFFFFFFFF;
resource->sendReady(tvSecHi, tvSecLo, now.tv_nsec);
}
bool CScreencopyFrame::copyDmabuf() {
auto TEXTURE = makeShared<CTexture>(pMonitor->output->state->state().buffer);
CRegion fakeDamage = {0, 0, INT16_MAX, INT16_MAX};
if (!g_pHyprRenderer->beginRender(pMonitor, fakeDamage, RENDER_MODE_TO_BUFFER, buffer.lock(), nullptr, true)) {
LOGM(ERR, "Can't copy: failed to begin rendering to dma frame");
return false;
}
CBox monbox = CBox{0, 0, pMonitor->vecPixelSize.x, pMonitor->vecPixelSize.y}
.translate({-box.x, -box.y}) // vvvv kinda ass-backwards but that's how I designed the renderer... sigh.
.transform(wlTransformToHyprutils(invertTransform(pMonitor->transform)), pMonitor->vecPixelSize.x, pMonitor->vecPixelSize.y);
g_pHyprOpenGL->setMonitorTransformEnabled(true);
g_pHyprOpenGL->setRenderModifEnabled(false);
g_pHyprOpenGL->renderTexture(TEXTURE, &monbox, 1);
g_pHyprOpenGL->setRenderModifEnabled(true);
g_pHyprOpenGL->setMonitorTransformEnabled(false);
g_pHyprOpenGL->m_RenderData.blockScreenShader = true;
g_pHyprRenderer->endRender();
LOGM(TRACE, "Copied frame via dma");
return true;
}
bool CScreencopyFrame::copyShm() {
auto TEXTURE = makeShared<CTexture>(pMonitor->output->state->state().buffer);
auto shm = buffer->shm();
auto [pixelData, fmt, bufLen] = buffer->beginDataPtr(0); // no need for end, cuz it's shm
CRegion fakeDamage = {0, 0, INT16_MAX, INT16_MAX};
g_pHyprRenderer->makeEGLCurrent();
CFramebuffer fb;
fb.alloc(box.w, box.h, g_pHyprRenderer->isNvidia() ? DRM_FORMAT_XBGR8888 : pMonitor->output->state->state().drmFormat);
if (!g_pHyprRenderer->beginRender(pMonitor, fakeDamage, RENDER_MODE_FULL_FAKE, nullptr, &fb, true)) {
LOGM(ERR, "Can't copy: failed to begin rendering");
return false;
}
CBox monbox = CBox{0, 0, pMonitor->vecTransformedSize.x, pMonitor->vecTransformedSize.y}.translate({-box.x, -box.y});
g_pHyprOpenGL->setMonitorTransformEnabled(true);
g_pHyprOpenGL->setRenderModifEnabled(false);
g_pHyprOpenGL->renderTexture(TEXTURE, &monbox, 1);
g_pHyprOpenGL->setRenderModifEnabled(true);
g_pHyprOpenGL->setMonitorTransformEnabled(false);
#ifndef GLES2
glBindFramebuffer(GL_READ_FRAMEBUFFER, fb.m_iFb);
#else
glBindFramebuffer(GL_FRAMEBUFFER, fb.m_iFb);
#endif
const auto PFORMAT = FormatUtils::getPixelFormatFromDRM(shm.format);
if (!PFORMAT) {
LOGM(ERR, "Can't copy: failed to find a pixel format");
g_pHyprRenderer->endRender();
return false;
}
auto glFormat = PFORMAT->flipRB ? GL_BGRA_EXT : GL_RGBA;
g_pHyprOpenGL->m_RenderData.blockScreenShader = true;
g_pHyprRenderer->endRender();
g_pHyprRenderer->makeEGLCurrent();
g_pHyprOpenGL->m_RenderData.pMonitor = pMonitor;
fb.bind();
glPixelStorei(GL_PACK_ALIGNMENT, 1);
const auto drmFmt = FormatUtils::getPixelFormatFromDRM(shm.format);
uint32_t packStride = FormatUtils::minStride(drmFmt, box.w);
if (packStride == (uint32_t)shm.stride) {
glReadPixels(0, 0, box.w, box.h, glFormat, PFORMAT->glType, pixelData);
} else {
for (size_t i = 0; i < box.h; ++i) {
uint32_t y = i;
glReadPixels(0, y, box.w, 1, glFormat, PFORMAT->glType, ((unsigned char*)pixelData) + i * shm.stride);
}
}
g_pHyprOpenGL->m_RenderData.pMonitor = nullptr;
LOGM(TRACE, "Copied frame via shm");
return true;
}
bool CScreencopyFrame::good() {
return resource->resource();
}
CScreencopyClient::~CScreencopyClient() {
g_pHookSystem->unhook(tickCallback);
}
CScreencopyClient::CScreencopyClient(SP<CZwlrScreencopyManagerV1> resource_) : resource(resource_) {
if (!good())
return;
resource->setDestroy([this](CZwlrScreencopyManagerV1* pMgr) { PROTO::screencopy->destroyResource(this); });
resource->setOnDestroy([this](CZwlrScreencopyManagerV1* pMgr) { PROTO::screencopy->destroyResource(this); });
resource->setCaptureOutput(
[this](CZwlrScreencopyManagerV1* pMgr, uint32_t frame, int32_t overlayCursor, wl_resource* output) { this->captureOutput(frame, overlayCursor, output, {}); });
resource->setCaptureOutputRegion([this](CZwlrScreencopyManagerV1* pMgr, uint32_t frame, int32_t overlayCursor, wl_resource* output, int32_t x, int32_t y, int32_t w,
int32_t h) { this->captureOutput(frame, overlayCursor, output, {x, y, w, h}); });
lastMeasure.reset();
lastFrame.reset();
tickCallback = g_pHookSystem->hookDynamic("tick", [&](void* self, SCallbackInfo& info, std::any data) { onTick(); });
}
void CScreencopyClient::captureOutput(uint32_t frame, int32_t overlayCursor_, wl_resource* output, CBox box) {
const auto FRAME = PROTO::screencopy->m_vFrames.emplace_back(
makeShared<CScreencopyFrame>(makeShared<CZwlrScreencopyFrameV1>(resource->client(), resource->version(), frame), overlayCursor_, output, box));
if (!FRAME->good()) {
LOGM(ERR, "Couldn't alloc frame for sharing! (no memory)");
resource->noMemory();
PROTO::screencopy->destroyResource(FRAME.get());
return;
}
FRAME->self = FRAME;
FRAME->client = self;
}
void CScreencopyClient::onTick() {
if (lastMeasure.getMillis() < 500)
return;
framesInLastHalfSecond = frameCounter;
frameCounter = 0;
lastMeasure.reset();
const auto LASTFRAMEDELTA = lastFrame.getMillis() / 1000.0;
const bool FRAMEAWAITING = std::ranges::any_of(PROTO::screencopy->m_vFrames, [&](const auto& frame) { return frame->client.get() == this; });
if (framesInLastHalfSecond > 3 && !sentScreencast) {
EMIT_HOOK_EVENT("screencast", (std::vector<uint64_t>{1, (uint64_t)framesInLastHalfSecond, (uint64_t)clientOwner}));
g_pEventManager->postEvent(SHyprIPCEvent{"screencast", "1," + std::to_string(clientOwner)});
sentScreencast = true;
} else if (framesInLastHalfSecond < 4 && sentScreencast && LASTFRAMEDELTA > 1.0 && !FRAMEAWAITING) {
EMIT_HOOK_EVENT("screencast", (std::vector<uint64_t>{0, (uint64_t)framesInLastHalfSecond, (uint64_t)clientOwner}));
g_pEventManager->postEvent(SHyprIPCEvent{"screencast", "0," + std::to_string(clientOwner)});
sentScreencast = false;
}
}
bool CScreencopyClient::good() {
return resource->resource();
}
CScreencopyProtocol::CScreencopyProtocol(const wl_interface* iface, const int& ver, const std::string& name) : IWaylandProtocol(iface, ver, name) {
m_pSoftwareCursorTimer = makeShared<CEventLoopTimer>(
std::nullopt,
[this](SP<CEventLoopTimer> self, void* data) {
// TODO: make it per-monitor
for (auto& m : g_pCompositor->m_vMonitors) {
g_pPointerManager->unlockSoftwareForMonitor(m);
}
m_bTimerArmed = false;
LOGM(LOG, "Releasing software cursor lock");
},
nullptr);
g_pEventLoopManager->addTimer(m_pSoftwareCursorTimer);
}
void CScreencopyProtocol::bindManager(wl_client* client, void* data, uint32_t ver, uint32_t id) {
const auto CLIENT = m_vClients.emplace_back(makeShared<CScreencopyClient>(makeShared<CZwlrScreencopyManagerV1>(client, ver, id)));
if (!CLIENT->good()) {
LOGM(LOG, "Failed to bind client! (out of memory)");
CLIENT->resource->noMemory();
m_vClients.pop_back();
return;
}
CLIENT->self = CLIENT;
LOGM(LOG, "Bound client successfully!");
}
void CScreencopyProtocol::destroyResource(CScreencopyClient* client) {
std::erase_if(m_vClients, [&](const auto& other) { return other.get() == client; });
std::erase_if(m_vFrames, [&](const auto& other) { return other->client.get() == client; });
std::erase_if(m_vFramesAwaitingWrite, [&](const auto& other) { return other->client.get() == client; });
}
void CScreencopyProtocol::destroyResource(CScreencopyFrame* frame) {
std::erase_if(m_vFrames, [&](const auto& other) { return other.get() == frame; });
std::erase_if(m_vFramesAwaitingWrite, [&](const auto& other) { return other.get() == frame; });
}
void CScreencopyProtocol::onOutputCommit(CMonitor* pMonitor) {
if (m_vFramesAwaitingWrite.empty()) {
g_pHyprRenderer->m_bDirectScanoutBlocked = false;
return; // nothing to share
}
std::vector<WP<CScreencopyFrame>> framesToRemove;
// share frame if correct output
for (auto& f : m_vFramesAwaitingWrite) {
if (!f->pMonitor || !f->buffer) {
framesToRemove.push_back(f);
continue;
}
if (f->pMonitor != pMonitor)
continue;
f->share();
f->client->lastFrame.reset();
++f->client->frameCounter;
framesToRemove.push_back(f);
}
for (auto& f : framesToRemove) {
destroyResource(f.get());
}
}
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