OpenHarmony-v5.1.0-Release/s

/*
 * Copyright (c) 2024 Huawei Device Co., Ltd.
 * 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 "boot_compile_progress.h"

#include <chrono>
#include "event_handler.h"
#include "parameter.h"
#include "parameters.h"
#include "platform/common/rs_system_properties.h"
#include "recording/recording_canvas.h"
#include "animation/rs_animation_common.h"
#include "animation/rs_cubic_bezier_interpolator.h"
#include "animation/rs_interpolator.h"
#include "transaction/rs_interfaces.h"
#include "transaction/rs_render_service_client.h"
#include "transaction/rs_transaction.h"
#include "ui/rs_ui_context_manager.h"
#include "util.h"

namespace OHOS {
namespace {
    constexpr const char* OTA_COMPILE_TIME_LIMIT = "persist.bms.optimizing_apps.timing";
    constexpr int32_t OTA_COMPILE_TIME_LIMIT_DEFAULT = 4 * 60;
    constexpr const char* OTA_COMPILE_DISPLAY_INFO = "const.bms.optimizing_apps.display_info";
    const std::string OTA_COMPILE_DISPLAY_INFO_DEFAULT = "正在优化应用";
    constexpr const int32_t ONE_HUNDRED_PERCENT = 100;
    constexpr const int32_t SEC_MS = 1000;
    constexpr const int32_t CIRCLE_NUM = 3;
    constexpr const float RADIUS = 10.0f;
    constexpr const float OFFSET_Y_PERCENT = 0.85f;
    constexpr const float HEIGHT_PERCENT = 0.05f;
    constexpr const int TEXT_BLOB_OFFSET = 5;
    constexpr const int FONT_SIZE_VP = 12;
    constexpr const int32_t MAX_RETRY_TIMES = 5;
    constexpr const int32_t WAIT_MS = 500;
    constexpr const int32_t WAITING_BMS_TIMEOUT = 30;
    constexpr const int32_t LOADING_FPS = 30;
    constexpr const int32_t PERIOD_FPS = 10;
    constexpr const int32_t CHANGE_FREQ = 4;
    constexpr const float TEN_FRAME_TIMES = 10.0f;
    constexpr const float SHARP_CURVE_CTLX1 = 0.33f;
    constexpr const float SHARP_CURVE_CTLY1 = 0.0f;
    constexpr const float SHARP_CURVE_CTLX2 = 0.67f;
    constexpr const float SHARP_CURVE_CTLY2 = 1.0f;
    constexpr const float OPACITY_ARR[3][3][2] = {
        { { 0.2f, 1.0f }, { 1.0f, 0.5f }, { 0.5f, 0.2f } },
        { { 0.5f, 0.2f }, { 0.2f, 1.0f }, { 1.0f, 0.5f } },
        { { 1.0f, 0.5f }, { 0.5f, 0.2f }, { 0.2f, 1.0f } },
    };
    constexpr const char* BUNDLE_SCAN_PARAM_NAME = "bms.scanning_apps.status";
    constexpr const int BUNDLE_SCAN_WAITING_TIMEOUT = 3;
}

void BootCompileProgress::Init(const BootAnimationConfig& config, bool needOtaCompile, bool needBundleScan)
{
    LOGI("ota compile, screenId: " BPUBU64 "", config.screenId);
    needOtaCompile_ = needOtaCompile;
    needBundleScan_ = needBundleScan;
    paramNeeded_.clear();
    if (needOtaCompile_) {
        paramNeeded_.insert(BMS_COMPILE_STATUS);
    }
    if (needBundleScan_) {
        paramNeeded_.insert(BUNDLE_SCAN_PARAM_NAME);
    }
    screenId_ = config.screenId;
    rotateDegree_ = config.rotateDegree;
    Rosen::RSInterfaces& interface = Rosen::RSInterfaces::GetInstance();
    Rosen::RSScreenModeInfo modeInfo = interface.GetScreenActiveMode(config.screenId);
    windowWidth_ = modeInfo.GetScreenWidth();
    windowHeight_ = modeInfo.GetScreenHeight();
    fontSize_ = TransalteVp2Pixel(std::min(windowWidth_, windowHeight_), FONT_SIZE_VP);

    timeLimitSec_ = system::GetIntParameter<int32_t>(OTA_COMPILE_TIME_LIMIT, OTA_COMPILE_TIME_LIMIT_DEFAULT);
    tf_ = Rosen::Drawing::Typeface::MakeFromName("HarmonyOS Sans SC", Rosen::Drawing::FontStyle());

    displayInfo_ = system::GetParameter(OTA_COMPILE_DISPLAY_INFO, OTA_COMPILE_DISPLAY_INFO_DEFAULT);
    sharpCurve_ = std::make_shared<Rosen::RSCubicBezierInterpolator>(
        SHARP_CURVE_CTLX1, SHARP_CURVE_CTLY1, SHARP_CURVE_CTLX2, SHARP_CURVE_CTLY2);
    compileRunner_ = AppExecFwk::EventRunner::Create(false);
    compileHandler_ = std::make_shared<AppExecFwk::EventHandler>(compileRunner_);
    compileHandler_->PostTask([this] { this->CreateCanvasNode(); });
    compileHandler_->PostTask([this] { this->RegisterVsyncCallback(); });
    compileRunner_->Run();
}

bool BootCompileProgress::CreateCanvasNode()
{
    struct Rosen::RSSurfaceNodeConfig surfaceNodeConfig;
    surfaceNodeConfig.SurfaceNodeName = "BootCompileProgressNode";
    surfaceNodeConfig.isSync = true;
    Rosen::RSSurfaceNodeType surfaceNodeType = Rosen::RSSurfaceNodeType::SELF_DRAWING_WINDOW_NODE;
    rsUIDirector_ = OHOS::Rosen::RSUIDirector::Create();
    rsUIDirector_->Init(false, false);
    auto rsUIContext = rsUIDirector_->GetRSUIContext();
    rsSurfaceNode_ = Rosen::RSSurfaceNode::Create(surfaceNodeConfig, surfaceNodeType, true, false, rsUIContext);
    if (!rsSurfaceNode_) {
        LOGE("ota compile, SFNode create failed");
        compileRunner_->Stop();
        return false;
    }
    float positionZ = MAX_ZORDER + 1;
    rsSurfaceNode_->SetRotation(rotateDegree_);
    rsSurfaceNode_->SetPositionZ(positionZ);
    rsSurfaceNode_->SetBounds(0, 0, windowWidth_, windowHeight_);
    rsSurfaceNode_->SetBackgroundColor(SK_ColorTRANSPARENT);
    rsSurfaceNode_->SetFrameGravity(Rosen::Gravity::RESIZE_ASPECT);
    rsSurfaceNode_->SetBootAnimation(true);
    Rosen::RSTransaction::FlushImplicitTransaction();
    rsSurfaceNode_->AttachToDisplay(screenId_);
    Rosen::RSTransaction::FlushImplicitTransaction();

    rsCanvasNode_ = Rosen::RSCanvasNode::Create(true, false, rsUIContext);
    rsCanvasNode_->SetBounds(0, 0, windowWidth_, windowHeight_);
    rsCanvasNode_->SetFrame(0, windowHeight_ * OFFSET_Y_PERCENT, windowWidth_, windowHeight_ * HEIGHT_PERCENT);
    rsCanvasNode_->SetBackgroundColor(Rosen::Drawing::Color::COLOR_TRANSPARENT);
    rsCanvasNode_->SetPositionZ(positionZ);
    rsSurfaceNode_->AddChild(rsCanvasNode_, 0);

    LOGI("CreateCanvasNode success");
    return true;
}

bool BootCompileProgress::RegisterVsyncCallback()
{
    if (CheckParams()) {
        LOGI("all param status are COMPLETED");
        compileRunner_->Stop();
        return false;
    }
    if (!WaitParamsIfNeeded()) {
        LOGI("no param is ready, progress bar stop");
        compileRunner_->Stop();
        return false;
    }

    auto& rsClient = Rosen::RSInterfaces::GetInstance();
    int32_t retry = 0;
    while (receiver_ == nullptr) {
        if (retry++ > MAX_RETRY_TIMES) {
            LOGE("get vsync receiver failed");
            compileRunner_->Stop();
            return false;
        }
        if (retry > 1) {
            std::this_thread::sleep_for(std::chrono::milliseconds(WAIT_MS));
        }
        receiver_ = rsClient.CreateVSyncReceiver("BootCompileProgress", compileHandler_);
    }
    VsyncError ret = receiver_->Init();
    if (ret) {
        compileRunner_->Stop();
        LOGE("init vsync receiver failed");
        return false;
    }

    Rosen::VSyncReceiver::FrameCallback fcb = {
        .userData_ = this,
        .callback_ = [this](int64_t, void*) { this->OnVsync(); },
    };
    ret = receiver_->SetVSyncRate(fcb, CHANGE_FREQ);
    if (ret) {
        compileRunner_->Stop();
        LOGE("set vsync rate failed");
    }

    startTimeMs_ = std::chrono::duration_cast<std::chrono::milliseconds>(
        std::chrono::system_clock::now().time_since_epoch()).count();
    endTimePredictMs_ = startTimeMs_ + timeLimitSec_ * SEC_MS;

    LOGI("RegisterVsyncCallback success");
    return true;
}

bool BootCompileProgress::CheckParams()
{
    bool check1 = CheckBmsStartParam();
    bool check2 = CheckBundleScanParam();
    if (check1 && check2) {
        return true;
    }
    return false;
}

bool BootCompileProgress::CheckBundleScanParam()
{
    if (!needBundleScan_) {
        return true;
    }
    if (system::GetParameter(BUNDLE_SCAN_PARAM_NAME, "-1") == "1") {
        paramNeeded_.erase(BUNDLE_SCAN_PARAM_NAME);
        return true;
    }
    return false;
}

bool BootCompileProgress::CheckBmsStartParam()
{
    if (!needOtaCompile_) {
        return true;
    }
    if (system::GetParameter(BMS_COMPILE_STATUS, "-1") == BMS_COMPILE_STATUS_END) {
        paramNeeded_.erase(BMS_COMPILE_STATUS);
        return true;
    }
    return false;
}

bool BootCompileProgress::WaitParamsIfNeeded()
{
    bool wait1 = WaitBmsStartIfNeeded();
    bool wait2 = WaitBundleScanIfNeeded();
    if (!wait1 && !wait2) {
        return false;
    }
    return true;
}

bool BootCompileProgress::WaitBundleScanIfNeeded()
{
    if (!needBundleScan_) {
        return true;
    }
    if (WaitParameter(BUNDLE_SCAN_PARAM_NAME, "0", BUNDLE_SCAN_WAITING_TIMEOUT) != 0) {
        paramNeeded_.erase(BUNDLE_SCAN_PARAM_NAME);
        LOGE("waiting bundle scan failed.");
        return false;
    }
    return true;
}

bool BootCompileProgress::WaitBmsStartIfNeeded()
{
    if (!needOtaCompile_) {
        return true;
    }
    if (WaitParameter(BMS_COMPILE_STATUS, BMS_COMPILE_STATUS_BEGIN.c_str(), WAITING_BMS_TIMEOUT) != 0) {
        paramNeeded_.erase(BMS_COMPILE_STATUS);
        LOGE("waiting bms start oat compile failed.");
        return false;
    }
    return true;
}

void BootCompileProgress::OnVsync()
{
    if (!isUpdateOptEnd_) {
        compileHandler_->PostTask([this] { this->DrawCompileProgress(); });
    } else {
        LOGI("ota compile completed");
        compileRunner_->Stop();
    }
}

void BootCompileProgress::DrawCompileProgress()
{
    UpdateCompileProgress();

    auto canvas = static_cast<Rosen::Drawing::RecordingCanvas*>(
        rsCanvasNode_->BeginRecording(windowWidth_, windowHeight_ * HEIGHT_PERCENT));
    if (canvas == nullptr) {
        LOGE("DrawCompileProgress canvas is null");
        return;
    }

    Rosen::Drawing::Font font;
    font.SetTypeface(tf_);
    font.SetSize(fontSize_);
    char info[64] = {0};
    int ret = sprintf_s(info, sizeof(info), "%s %d%%", displayInfo_.c_str(), progress_);
    if (ret == -1) {
        LOGE("set info failed");
        return;
    }
    std::shared_ptr<Rosen::Drawing::TextBlob> textBlob = Rosen::Drawing::TextBlob::MakeFromString(info, font);
    auto textBound = textBlob->Bounds();
    if (textBound == nullptr) {
        LOGE("textBound is null");
        return;
    }

    Rosen::Drawing::Brush whiteBrush;
    whiteBrush.SetColor(0xFFFFFFFF);
    whiteBrush.SetAntiAlias(true);
    canvas->AttachBrush(whiteBrush);

    auto textWidth = font.MeasureText(info, strlen(info), Rosen::Drawing::TextEncoding::UTF8, nullptr);
    float scalarX = windowWidth_ / NUMBER_TWO - textWidth / NUMBER_TWO;
    float scalarY = TEXT_BLOB_OFFSET + textBound->GetHeight() / NUMBER_TWO;
    canvas->DrawTextBlob(textBlob.get(), scalarX, scalarY);
    canvas->DetachBrush();

    Rosen::Drawing::Brush grayBrush;
    grayBrush.SetColor(0x40FFFFFF);
    grayBrush.SetAntiAlias(true);

    int32_t freqNum = times_++;
    for (int i = 0; i < CIRCLE_NUM; i++) {
        canvas->AttachBrush(DrawProgressPoint(i, freqNum));
        int pointX = windowWidth_/2.0f + 4 * RADIUS * (i - 1); // align point in center and 2RADUIS between two points
        int pointY = rsCanvasNode_->GetPaintHeight() - 2 * RADIUS;
        canvas->DrawCircle({pointX, pointY}, RADIUS);
        canvas->DetachBrush();
    }

    rsCanvasNode_->FinishRecording();
    Rosen::RSTransaction::FlushImplicitTransaction();

    if (progress_ >= ONE_HUNDRED_PERCENT) {
        isUpdateOptEnd_ = true;
    }
}

void BootCompileProgress::UpdateCompileProgress()
{
    (void)CheckParams();
    if (paramNeeded_.size() > 0) {
        int64_t now =
            std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::system_clock::now().time_since_epoch())
            .count();
        if (endTimePredictMs_ < now) {
            progress_ = ONE_HUNDRED_PERCENT;
            return;
        }
        if (!timeLimitSec_) {
            return;
        }
        progress_ = (int32_t)((now - startTimeMs_) * ONE_HUNDRED_PERCENT / (timeLimitSec_ * SEC_MS));
        progress_ = progress_ < 0 ? 0 : progress_ > ONE_HUNDRED_PERCENT ? ONE_HUNDRED_PERCENT: progress_;
    } else {
        progress_++;
    }

    LOGD("update progress: %{public}d", progress_);
}

Rosen::Drawing::Brush BootCompileProgress::DrawProgressPoint(int32_t idx, int32_t frameNum)
{
    int32_t fpsNo = frameNum % LOADING_FPS;
    int32_t fpsStage = fpsNo / PERIOD_FPS;
    float input  = fpsNo % PERIOD_FPS / TEN_FRAME_TIMES;

    float startOpaCity = OPACITY_ARR[idx][fpsStage][0];
    float endOpaCity = OPACITY_ARR[idx][fpsStage][1];

    float fraction = sharpCurve_->Interpolate(input);
    float opacity = startOpaCity + (endOpaCity - startOpaCity) * fraction;

    Rosen::Drawing::Brush brush;
    brush.SetColor(0xFFFFFFFF);
    brush.SetAntiAlias(true);
    brush.SetAlphaF(opacity);
    return brush;
}
} // namespace OHOS