/** * @file llviewerstats.cpp * @brief LLViewerStats class implementation * * $LicenseInfo:firstyear=2002&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ #include "llviewerprecompiledheaders.h" #include "llviewerstats.h" #include "llviewerthrottle.h" #include "message.h" #include "llfloaterreg.h" #include "llmemory.h" #include "lltimer.h" #include "llvfile.h" #include "llappviewer.h" #include "pipeline.h" #include "lltexturefetch.h" #include "llviewerobjectlist.h" #include "llviewertexturelist.h" #include "lltexlayer.h" #include "lltexlayerparams.h" #include "llsurface.h" #include "llvlmanager.h" #include "llagent.h" #include "llagentcamera.h" #include "llviewercontrol.h" #include "llversioninfo.h" #include "llfloatertools.h" #include "lldebugview.h" #include "llfasttimerview.h" #include "llviewerregion.h" #include "llvoavatar.h" #include "llvoavatarself.h" #include "llviewerwindow.h" // *TODO: remove, only used for width/height #include "llworld.h" #include "llfeaturemanager.h" #include "llviewernetwork.h" #include "llmeshrepository.h" //for LLMeshRepository::sBytesReceived namespace LLStatViewer { LLTrace::CountStatHandle<> FPS("framesrendered"), PACKETS_IN("packetsinstat"), PACKETS_LOST("packetsloststat"), PACKETS_OUT("packetsoutstat"), TEXTURE_PACKETS("texturepacketsstat"), TRIANGLES_DRAWN("trianglesdrawnstat"), CHAT_COUNT("chatcount", "Chat messages sent"), IM_COUNT("imcount", "IMs sent"), OBJECT_CREATE("objectcreate"), OBJECT_REZ("objectrez", "Object rez count"), LOGIN_TIMEOUTS("logintimeouts", "Number of login attempts that timed out"), LSL_SAVES("lslsaves", "Number of times user has saved a script"), ANIMATION_UPLOADS("animationuploads", "Animations uploaded"), FLY("fly", "Fly count"), TELEPORT("teleport", "Teleport count"), DELETE_OBJECT("deleteobject", "Objects deleted"), SNAPSHOT("snapshot", "Snapshots taken"), UPLOAD_SOUND("uploadsound", "Sounds uploaded"), UPLOAD_TEXTURE("uploadtexture", "Textures uploaded"), EDIT_TEXTURE("edittexture", "Changes to textures on objects"), KILLED("killed", "Number of times killed"), FRAMETIME_DOUBLED("frametimedoubled", "Ratio of frames 2x longer than previous"), TEX_BAKES("texbakes"), TEX_REBAKES("texrebakes"), NUM_NEW_OBJECTS("numnewobjectsstat"); LLTrace::CountStatHandle > KBIT("kbitstat"), LAYERS_KBIT("layerskbitstat"), OBJECT_KBIT("objectkbitstat"), ASSET_KBIT("assetkbitstat"), TEXTURE_KBIT("texturekbitstat"), ACTUAL_IN_KBIT("actualinkbitstat"), ACTUAL_OUT_KBIT("actualoutkbitstat"); LLTrace::CountStatHandle > SIM_20_FPS_TIME("sim20fpstime", "Seconds with sim FPS below 20"), SIM_PHYSICS_20_FPS_TIME("simphysics20fpstime", "Seconds with physics FPS below 20"), LOSS_5_PERCENT_TIME("loss5percenttime", "Seconds with packet loss > 5%"); SimMeasurement<> SIM_TIME_DILATION("simtimedilation", "", LL_SIM_STAT_TIME_DILATION), SIM_FPS("simfps", "", LL_SIM_STAT_FPS), SIM_PHYSICS_FPS("simphysicsfps", "", LL_SIM_STAT_PHYSFPS), SIM_AGENT_UPS("simagentups", "", LL_SIM_STAT_AGENTUPS), SIM_SCRIPT_EPS("simscripteps", "", LL_SIM_STAT_SCRIPT_EPS), SIM_SKIPPED_SILHOUETTE("simsimskippedsilhouettesteps", "", LL_SIM_STAT_SKIPPEDAISILSTEPS_PS), SIM_SKIPPED_CHARACTERS_PERCENTAGE("simsimpctsteppedcharacters", "", LL_SIM_STAT_PCTSTEPPEDCHARACTERS), SIM_MAIN_AGENTS("simmainagents", "", LL_SIM_STAT_NUMAGENTMAIN), SIM_CHILD_AGENTS("simchildagents", "", LL_SIM_STAT_NUMAGENTCHILD), SIM_OBJECTS("simobjects", "", LL_SIM_STAT_NUMTASKS), SIM_ACTIVE_OBJECTS("simactiveobjects", "", LL_SIM_STAT_NUMTASKSACTIVE), SIM_ACTIVE_SCRIPTS("simactivescripts", "", LL_SIM_STAT_NUMSCRIPTSACTIVE), SIM_PERCENTAGE_SCRIPTS_RUN("simpctscriptsrun", "", LL_SIM_STAT_PCTSCRIPTSRUN), SIM_IN_PACKETS_PER_SEC("siminpps", "", LL_SIM_STAT_INPPS), SIM_OUT_PACKETS_PER_SEC("simoutpps", "", LL_SIM_STAT_OUTPPS), SIM_PENDING_DOWNLOADS("simpendingdownloads", "", LL_SIM_STAT_PENDING_DOWNLOADS), SIM_PENDING_UPLOADS("simpendinguploads", "", LL_SIM_STAT_PENDING_UPLOADS), SIM_PENDING_LOCAL_UPLOADS("simpendinglocaluploads", "", LL_SIM_STAT_PENDING_LOCAL_UPLOADS), SIM_PHYSICS_PINNED_TASKS("physicspinnedtasks", "", LL_SIM_STAT_PHYSICS_PINNED_TASKS), SIM_PHYSICS_LOD_TASKS("physicslodtasks", "", LL_SIM_STAT_PHYSICS_LOD_TASKS); LLTrace::SampleStatHandle<> FPS_SAMPLE("fpssample"), NUM_IMAGES("numimagesstat"), NUM_RAW_IMAGES("numrawimagesstat"), NUM_OBJECTS("numobjectsstat"), NUM_ACTIVE_OBJECTS("numactiveobjectsstat"), NUM_SIZE_CULLED("numsizeculledstat"), NUM_VIS_CULLED("numvisculledstat"), ENABLE_VBO("enablevbo", "Vertex Buffers Enabled"), LIGHTING_DETAIL("lightingdetail", "Lighting Detail"), VISIBLE_AVATARS("visibleavatars", "Visible Avatars"), SHADER_OBJECTS("shaderobjects", "Object Shaders"), DRAW_DISTANCE("drawdistance", "Draw Distance"), PENDING_VFS_OPERATIONS("vfspendingoperations"), PACKETS_LOST_PERCENT("packetslostpercentstat"), WINDOW_WIDTH("windowwidth", "Window width"), WINDOW_HEIGHT("windowheight", "Window height"); static LLTrace::SampleStatHandle CHAT_BUBBLES("chatbubbles", "Chat Bubbles Enabled"); LLTrace::SampleStatHandle > GL_TEX_MEM("gltexmemstat"), GL_BOUND_MEM("glboundmemstat"), RAW_MEM("rawmemstat"), FORMATTED_MEM("formattedmemstat"); LLTrace::SampleStatHandle > DELTA_BANDWIDTH("deltabandwidth", "Increase/Decrease in bandwidth based on packet loss"), MAX_BANDWIDTH("maxbandwidth", "Max bandwidth setting"); SimMeasurement > SIM_FRAME_TIME("simframemsec", "", LL_SIM_STAT_FRAMEMS), SIM_NET_TIME("simnetmsec", "", LL_SIM_STAT_NETMS), SIM_OTHER_TIME("simsimothermsec", "", LL_SIM_STAT_SIMOTHERMS), SIM_PHYSICS_TIME("simsimphysicsmsec", "", LL_SIM_STAT_SIMPHYSICSMS), SIM_PHYSICS_STEP_TIME("simsimphysicsstepmsec", "", LL_SIM_STAT_SIMPHYSICSSTEPMS), SIM_PHYSICS_SHAPE_UPDATE_TIME("simsimphysicsshapeupdatemsec", "", LL_SIM_STAT_SIMPHYSICSSHAPEMS), SIM_PHYSICS_OTHER_TIME("simsimphysicsothermsec", "", LL_SIM_STAT_SIMPHYSICSOTHERMS), SIM_AI_TIME("simsimaistepmsec", "", LL_SIM_STAT_SIMAISTEPTIMEMS), SIM_AGENTS_TIME("simagentmsec", "", LL_SIM_STAT_AGENTMS), SIM_IMAGES_TIME("simimagesmsec", "", LL_SIM_STAT_IMAGESMS), SIM_SCRIPTS_TIME("simscriptmsec", "", LL_SIM_STAT_SCRIPTMS), SIM_SPARE_TIME("simsparemsec", "", LL_SIM_STAT_SIMSPARETIME), SIM_SLEEP_TIME("simsleepmsec", "", LL_SIM_STAT_SIMSLEEPTIME), SIM_PUMP_IO_TIME("simpumpiomsec", "", LL_SIM_STAT_IOPUMPTIME); SimMeasurement > SIM_UNACKED_BYTES("simtotalunackedbytes", "", LL_SIM_STAT_TOTAL_UNACKED_BYTES), SIM_PHYSICS_MEM("physicsmemoryallocated", "", LL_SIM_STAT_SIMPHYSICSMEMORY); LLTrace::SampleStatHandle > FRAMETIME_JITTER("frametimejitter", "Average delta between successive frame times"), FRAMETIME_SLEW("frametimeslew", "Average delta between frame time and mean"), SIM_PING("simpingstat"); LLTrace::EventStatHandle > AGENT_POSITION_SNAP("agentpositionsnap", "agent position corrections"); LLTrace::EventStatHandle<> LOADING_WEARABLES_LONG_DELAY("loadingwearableslongdelay", "Wearables took too long to load"); LLTrace::EventStatHandle > REGION_CROSSING_TIME("regioncrossingtime", "CROSSING_AVG"), FRAME_STACKTIME("framestacktime", "FRAME_SECS"), UPDATE_STACKTIME("updatestacktime", "UPDATE_SECS"), NETWORK_STACKTIME("networkstacktime", "NETWORK_SECS"), IMAGE_STACKTIME("imagestacktime", "IMAGE_SECS"), REBUILD_STACKTIME("rebuildstacktime", "REBUILD_SECS"), RENDER_STACKTIME("renderstacktime", "RENDER_SECS"); LLTrace::EventStatHandle > AVATAR_EDIT_TIME("avataredittime", "Seconds in Edit Appearance"), TOOLBOX_TIME("toolboxtime", "Seconds using Toolbox"), MOUSELOOK_TIME("mouselooktime", "Seconds in Mouselook"), FPS_10_TIME("fps10time", "Seconds below 10 FPS"), FPS_8_TIME("fps8time", "Seconds below 8 FPS"), FPS_2_TIME("fps2time", "Seconds below 2 FPS"); } LLViewerStats::LLViewerStats() : mLastTimeDiff(0.0) { mRecording.start(); LLTrace::get_frame_recording().start(); } LLViewerStats::~LLViewerStats() { } void LLViewerStats::resetStats() { LLViewerStats::instance().mRecording.reset(); } void LLViewerStats::updateFrameStats(const F64 time_diff) { LLUnit time_diff_seconds(time_diff); if (getRecording().getLastValue(LLStatViewer::PACKETS_LOST_PERCENT) > 5.0) { add(LLStatViewer::LOSS_5_PERCENT_TIME, time_diff_seconds); } F32 sim_fps = getRecording().getLastValue(LLStatViewer::SIM_FPS); if (0.f < sim_fps && sim_fps < 20.f) { add(LLStatViewer::SIM_20_FPS_TIME, time_diff_seconds); } F32 sim_physics_fps = getRecording().getLastValue(LLStatViewer::SIM_PHYSICS_FPS); if (0.f < sim_physics_fps && sim_physics_fps < 20.f) { add(LLStatViewer::SIM_PHYSICS_20_FPS_TIME, time_diff_seconds); } if (time_diff >= 0.5) { record(LLStatViewer::FPS_2_TIME, time_diff_seconds); } if (time_diff >= 0.125) { record(LLStatViewer::FPS_8_TIME, time_diff_seconds); } if (time_diff >= 0.1) { record(LLStatViewer::FPS_10_TIME, time_diff_seconds); } if (gFrameCount && mLastTimeDiff > 0.0) { // new "stutter" meter add(LLStatViewer::FRAMETIME_DOUBLED, time_diff >= 2.0 * mLastTimeDiff ? 1 : 0); // old stats that were never really used sample(LLStatViewer::FRAMETIME_JITTER, LLUnit (mLastTimeDiff - time_diff)); F32 average_frametime = gRenderStartTime.getElapsedTimeF32() / (F32)gFrameCount; sample(LLStatViewer::FRAMETIME_SLEW, LLUnit (average_frametime - time_diff)); F32 max_bandwidth = gViewerThrottle.getMaxBandwidth(); F32 delta_bandwidth = gViewerThrottle.getCurrentBandwidth() - max_bandwidth; sample(LLStatViewer::DELTA_BANDWIDTH, LLUnit(delta_bandwidth)); sample(LLStatViewer::MAX_BANDWIDTH, LLUnit(max_bandwidth)); } mLastTimeDiff = time_diff; } void LLViewerStats::addToMessage(LLSD &body) { LLSD &misc = body["misc"]; misc["Version"] = TRUE; //TODO RN: get last value, not mean misc["Vertex Buffers Enabled"] = getRecording().getMean(LLStatViewer::ENABLE_VBO); body["AgentPositionSnaps"] = getRecording().getSum(LLStatViewer::AGENT_POSITION_SNAP).value(); //mAgentPositionSnaps.asLLSD(); llinfos << "STAT: AgentPositionSnaps: Mean = " << getRecording().getMean(LLStatViewer::AGENT_POSITION_SNAP).value() << "; StdDev = " << getRecording().getStandardDeviation(LLStatViewer::AGENT_POSITION_SNAP).value() << "; Count = " << getRecording().getSampleCount(LLStatViewer::AGENT_POSITION_SNAP) << llendl; } // *NOTE:Mani The following methods used to exist in viewer.cpp // Moving them here, but not merging them into LLViewerStats yet. U32 gTotalLandIn = 0, gTotalLandOut = 0, gTotalWaterIn = 0, gTotalWaterOut = 0; F32 gAveLandCompression = 0.f, gAveWaterCompression = 0.f, gBestLandCompression = 1.f, gBestWaterCompression = 1.f, gWorstLandCompression = 0.f, gWorstWaterCompression = 0.f; LLUnit gTotalWorldData = 0, gTotalObjectData = 0, gTotalTextureData = 0; U32 gSimPingCount = 0; LLUnit gObjectData = 0; F32 gAvgSimPing = 0.f; LLUnit gTotalTextureBytesPerBoostLevel[LLViewerTexture::MAX_GL_IMAGE_CATEGORY] = {0}; extern U32 gVisCompared; extern U32 gVisTested; LLFrameTimer gTextureTimer; void update_statistics() { gTotalWorldData += gVLManager.getTotalBytes(); gTotalObjectData += gObjectData; // make sure we have a valid time delta for this frame if (gFrameIntervalSeconds > 0.f) { if (gAgentCamera.getCameraMode() == CAMERA_MODE_MOUSELOOK) { record(LLStatViewer::MOUSELOOK_TIME, gFrameIntervalSeconds); } else if (gAgentCamera.getCameraMode() == CAMERA_MODE_CUSTOMIZE_AVATAR) { record(LLStatViewer::AVATAR_EDIT_TIME, gFrameIntervalSeconds); } else if (LLFloaterReg::instanceVisible("build")) { record(LLStatViewer::TOOLBOX_TIME, gFrameIntervalSeconds); } } LLTrace::Recording& last_frame_recording = LLTrace::get_frame_recording().getLastRecording(); sample(LLStatViewer::ENABLE_VBO, (F64)gSavedSettings.getBOOL("RenderVBOEnable")); sample(LLStatViewer::LIGHTING_DETAIL, (F64)gPipeline.getLightingDetail()); sample(LLStatViewer::DRAW_DISTANCE, (F64)gSavedSettings.getF32("RenderFarClip")); sample(LLStatViewer::CHAT_BUBBLES, gSavedSettings.getBOOL("UseChatBubbles")); typedef LLInstanceTracker, std::string> trace_type_t; LLUnit idle_secs = last_frame_recording.getSum(*trace_type_t::getInstance("Idle")); LLUnit network_secs = last_frame_recording.getSum(*trace_type_t::getInstance("Network")); record(LLStatViewer::FRAME_STACKTIME, last_frame_recording.getSum(*trace_type_t::getInstance("Frame"))); record(LLStatViewer::UPDATE_STACKTIME, idle_secs - network_secs); record(LLStatViewer::NETWORK_STACKTIME, network_secs); record(LLStatViewer::IMAGE_STACKTIME, last_frame_recording.getSum(*trace_type_t::getInstance("Update Images"))); record(LLStatViewer::REBUILD_STACKTIME, last_frame_recording.getSum(*trace_type_t::getInstance("Sort Draw State"))); record(LLStatViewer::RENDER_STACKTIME, last_frame_recording.getSum(*trace_type_t::getInstance("Render Geometry"))); LLCircuitData *cdp = gMessageSystem->mCircuitInfo.findCircuit(gAgent.getRegion()->getHost()); if (cdp) { sample(LLStatViewer::SIM_PING, LLUnit (cdp->getPingDelay())); gAvgSimPing = ((gAvgSimPing * (F32)gSimPingCount) + (F32)(cdp->getPingDelay())) / ((F32)gSimPingCount + 1); gSimPingCount++; } else { sample(LLStatViewer::SIM_PING, LLUnits::Seconds::fromValue(10)); } if (LLViewerStats::instance().getRecording().getSum(LLStatViewer::FPS)) { sample(LLStatViewer::FPS_SAMPLE, LLTrace::get_frame_recording().getPeriodMeanPerSec(LLStatViewer::FPS)); } add(LLStatViewer::FPS, 1); F32 layer_bits = (F32)(gVLManager.getLandBits() + gVLManager.getWindBits() + gVLManager.getCloudBits()); add(LLStatViewer::LAYERS_KBIT, LLUnit(layer_bits)); add(LLStatViewer::OBJECT_KBIT, gObjectData); sample(LLStatViewer::PENDING_VFS_OPERATIONS, LLVFile::getVFSThread()->getPending()); add(LLStatViewer::ASSET_KBIT, LLUnit(gTransferManager.getTransferBitsIn(LLTCT_ASSET))); gTransferManager.resetTransferBitsIn(LLTCT_ASSET); if (LLAppViewer::getTextureFetch()->getNumRequests() == 0) { gTextureTimer.pause(); } else { gTextureTimer.unpause(); } { static F32 visible_avatar_frames = 0.f; static F32 avg_visible_avatars = 0; F32 visible_avatars = (F32)LLVOAvatar::sNumVisibleAvatars; if (visible_avatars > 0.f) { visible_avatar_frames = 1.f; avg_visible_avatars = (avg_visible_avatars * (F32)(visible_avatar_frames - 1.f) + visible_avatars) / visible_avatar_frames; } sample(LLStatViewer::VISIBLE_AVATARS, (F64)avg_visible_avatars); } LLWorld::getInstance()->updateNetStats(); LLWorld::getInstance()->requestCacheMisses(); // Reset all of these values. gVLManager.resetBitCounts(); gObjectData = 0; // gDecodedBits = 0; // Only update texture stats periodically so that they are less noisy { static const F32 texture_stats_freq = 10.f; static LLFrameTimer texture_stats_timer; if (texture_stats_timer.getElapsedTimeF32() >= texture_stats_freq) { gTotalTextureData = LLViewerStats::instance().getRecording().getSum(LLStatViewer::TEXTURE_KBIT); texture_stats_timer.reset(); } } } class ViewerStatsResponder : public LLHTTPClient::Responder { public: ViewerStatsResponder() { } void error(U32 statusNum, const std::string& reason) { llinfos << "ViewerStatsResponder::error " << statusNum << " " << reason << llendl; } void result(const LLSD& content) { llinfos << "ViewerStatsResponder::result" << llendl; } }; /* * The sim-side LLSD is in newsim/llagentinfo.cpp:forwardViewerStats. * * There's also a compatibility shim for the old fixed-format sim * stats in newsim/llagentinfo.cpp:processViewerStats. * * If you move stats around here, make the corresponding changes in * those locations, too. */ void send_stats() { // IW 9/23/02 I elected not to move this into LLViewerStats // because it depends on too many viewer.cpp globals. // Someday we may want to merge all our stats into a central place // but that day is not today. // Only send stats if the agent is connected to a region. if (!gAgent.getRegion()) { return; } LLSD body; std::string url = gAgent.getRegion()->getCapability("ViewerStats"); if (url.empty()) { llwarns << "Could not get ViewerStats capability" << llendl; return; } body["session_id"] = gAgentSessionID; LLSD &agent = body["agent"]; time_t ltime; time(<ime); F32 run_time = F32(LLFrameTimer::getElapsedSeconds()); agent["start_time"] = S32(ltime - S32(run_time)); // The first stat set must have a 0 run time if it doesn't actually // contain useful data in terms of FPS, etc. We use half the // SEND_STATS_PERIOD seconds as the point at which these statistics become // valid. Data warehouse uses a 0 value here to easily discard these // records with non-useful FPS values etc. if (run_time < (SEND_STATS_PERIOD / 2)) { agent["run_time"] = 0.0f; } else { agent["run_time"] = run_time; } // send fps only for time app spends in foreground agent["fps"] = (F32)gForegroundFrameCount / gForegroundTime.getElapsedTimeF32(); agent["version"] = LLVersionInfo::getChannelAndVersion(); std::string language = LLUI::getLanguage(); agent["language"] = language; agent["sim_fps"] = ((F32) gFrameCount - gSimFrames) / (F32) (gRenderStartTime.getElapsedTimeF32() - gSimLastTime); gSimLastTime = gRenderStartTime.getElapsedTimeF32(); gSimFrames = (F32) gFrameCount; agent["agents_in_view"] = LLVOAvatar::sNumVisibleAvatars; agent["ping"] = gAvgSimPing; agent["meters_traveled"] = gAgent.getDistanceTraveled(); agent["regions_visited"] = gAgent.getRegionsVisited(); agent["mem_use"] = LLMemory::getCurrentRSS() / 1024.0; LLSD &system = body["system"]; system["ram"] = (S32) gSysMemory.getPhysicalMemoryKB(); system["os"] = LLAppViewer::instance()->getOSInfo().getOSStringSimple(); system["cpu"] = gSysCPU.getCPUString(); unsigned char MACAddress[MAC_ADDRESS_BYTES]; LLUUID::getNodeID(MACAddress); std::string macAddressString = llformat("%02x-%02x-%02x-%02x-%02x-%02x", MACAddress[0],MACAddress[1],MACAddress[2], MACAddress[3],MACAddress[4],MACAddress[5]); system["mac_address"] = macAddressString; system["serial_number"] = LLAppViewer::instance()->getSerialNumber(); std::string gpu_desc = llformat( "%-6s Class %d ", gGLManager.mGLVendorShort.substr(0,6).c_str(), (S32)LLFeatureManager::getInstance()->getGPUClass()) + gGLManager.getRawGLString(); system["gpu"] = gpu_desc; system["gpu_class"] = (S32)LLFeatureManager::getInstance()->getGPUClass(); system["gpu_vendor"] = gGLManager.mGLVendorShort; system["gpu_version"] = gGLManager.mDriverVersionVendorString; system["opengl_version"] = gGLManager.mGLVersionString; S32 shader_level = 0; if (LLPipeline::sRenderDeferred) { if (LLPipeline::RenderShadowDetail > 0) { shader_level = 5; } else if (LLPipeline::RenderDeferredSSAO) { shader_level = 4; } else { shader_level = 3; } } else if (gPipeline.canUseWindLightShadersOnObjects()) { shader_level = 2; } else if (gPipeline.canUseVertexShaders()) { shader_level = 1; } system["shader_level"] = shader_level; LLSD &download = body["downloads"]; download["world_kbytes"] = LLUnit(gTotalWorldData).value(); download["object_kbytes"] = LLUnit(gTotalObjectData).value(); download["texture_kbytes"] = LLUnit(gTotalTextureData).value(); download["mesh_kbytes"] = LLMeshRepository::sBytesReceived/1024.0; LLSD &in = body["stats"]["net"]["in"]; in["kbytes"] = gMessageSystem->mTotalBytesIn / 1024.0; in["packets"] = (S32) gMessageSystem->mPacketsIn; in["compressed_packets"] = (S32) gMessageSystem->mCompressedPacketsIn; in["savings"] = (gMessageSystem->mUncompressedBytesIn - gMessageSystem->mCompressedBytesIn) / 1024.0; LLSD &out = body["stats"]["net"]["out"]; out["kbytes"] = gMessageSystem->mTotalBytesOut / 1024.0; out["packets"] = (S32) gMessageSystem->mPacketsOut; out["compressed_packets"] = (S32) gMessageSystem->mCompressedPacketsOut; out["savings"] = (gMessageSystem->mUncompressedBytesOut - gMessageSystem->mCompressedBytesOut) / 1024.0; LLSD &fail = body["stats"]["failures"]; fail["send_packet"] = (S32) gMessageSystem->mSendPacketFailureCount; fail["dropped"] = (S32) gMessageSystem->mDroppedPackets; fail["resent"] = (S32) gMessageSystem->mResentPackets; fail["failed_resends"] = (S32) gMessageSystem->mFailedResendPackets; fail["off_circuit"] = (S32) gMessageSystem->mOffCircuitPackets; fail["invalid"] = (S32) gMessageSystem->mInvalidOnCircuitPackets; // Misc stats, two strings and two ints // These are not expecticed to persist across multiple releases // Comment any changes with your name and the expected release revision // If the current revision is recent, ping the previous author before overriding LLSD &misc = body["stats"]["misc"]; // Screen size so the UI team can figure out how big the widgets // appear and use a "typical" size for end user tests. S32 window_width = gViewerWindow->getWindowWidthRaw(); S32 window_height = gViewerWindow->getWindowHeightRaw(); S32 window_size = (window_width * window_height) / 1024; misc["string_1"] = llformat("%d", window_size); misc["string_2"] = llformat("Texture Time: %.2f, Total Time: %.2f", gTextureTimer.getElapsedTimeF32(), gFrameTimeSeconds); // misc["int_1"] = LLSD::Integer(gSavedSettings.getU32("RenderQualityPerformance")); // Steve: 1.21 // misc["int_2"] = LLSD::Integer(gFrameStalls); // Steve: 1.21 F32 unbaked_time = LLVOAvatar::sUnbakedTime * 1000.f / gFrameTimeSeconds; misc["int_1"] = LLSD::Integer(unbaked_time); // Steve: 1.22 F32 grey_time = LLVOAvatar::sGreyTime * 1000.f / gFrameTimeSeconds; misc["int_2"] = LLSD::Integer(grey_time); // Steve: 1.22 llinfos << "Misc Stats: int_1: " << misc["int_1"] << " int_2: " << misc["int_2"] << llendl; llinfos << "Misc Stats: string_1: " << misc["string_1"] << " string_2: " << misc["string_2"] << llendl; body["DisplayNamesEnabled"] = gSavedSettings.getBOOL("UseDisplayNames"); body["DisplayNamesShowUsername"] = gSavedSettings.getBOOL("NameTagShowUsernames"); body["MinimalSkin"] = false; LLViewerStats::getInstance()->addToMessage(body); LLHTTPClient::post(url, body, new ViewerStatsResponder()); } LLFrameTimer& LLViewerStats::PhaseMap::getPhaseTimer(const std::string& phase_name) { phase_map_t::iterator iter = mPhaseMap.find(phase_name); if (iter == mPhaseMap.end()) { LLFrameTimer timer; mPhaseMap[phase_name] = timer; } LLFrameTimer& timer = mPhaseMap[phase_name]; return timer; } void LLViewerStats::PhaseMap::startPhase(const std::string& phase_name) { LLFrameTimer& timer = getPhaseTimer(phase_name); lldebugs << "startPhase " << phase_name << llendl; timer.unpause(); } void LLViewerStats::PhaseMap::stopAllPhases() { for (phase_map_t::iterator iter = mPhaseMap.begin(); iter != mPhaseMap.end(); ++iter) { const std::string& phase_name = iter->first; if (iter->second.getStarted()) { // Going from started to paused state - record stats. recordPhaseStat(phase_name,iter->second.getElapsedTimeF32()); } lldebugs << "stopPhase (all) " << phase_name << llendl; iter->second.pause(); } } void LLViewerStats::PhaseMap::clearPhases() { lldebugs << "clearPhases" << llendl; mPhaseMap.clear(); } LLSD LLViewerStats::PhaseMap::asLLSD() { LLSD result; for (phase_map_t::iterator iter = mPhaseMap.begin(); iter != mPhaseMap.end(); ++iter) { const std::string& phase_name = iter->first; result[phase_name]["completed"] = LLSD::Integer(!(iter->second.getStarted())); result[phase_name]["elapsed"] = iter->second.getElapsedTimeF32(); } return result; } // static initializer //static LLViewerStats::phase_stats_t LLViewerStats::PhaseMap::sStats; LLViewerStats::PhaseMap::PhaseMap() { } void LLViewerStats::PhaseMap::stopPhase(const std::string& phase_name) { phase_map_t::iterator iter = mPhaseMap.find(phase_name); if (iter != mPhaseMap.end()) { if (iter->second.getStarted()) { // Going from started to stopped state - record stats. iter->second.stop(); } } } // static LLViewerStats::StatsAccumulator& LLViewerStats::PhaseMap::getPhaseStats(const std::string& phase_name) { phase_stats_t::iterator it = sStats.find(phase_name); if (it == sStats.end()) { LLViewerStats::StatsAccumulator new_stats; sStats[phase_name] = new_stats; } return sStats[phase_name]; } // static void LLViewerStats::PhaseMap::recordPhaseStat(const std::string& phase_name, F32 value) { LLViewerStats::StatsAccumulator& stats = getPhaseStats(phase_name); stats.push(value); } bool LLViewerStats::PhaseMap::getPhaseValues(const std::string& phase_name, F32& elapsed, bool& completed) { phase_map_t::iterator iter = mPhaseMap.find(phase_name); if (iter != mPhaseMap.end()) { elapsed = iter->second.getElapsedTimeF32(); completed = !iter->second.getStarted(); return true; } else { return false; } }