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      1 /*
      2  * Copyright (C) 2015 The Android Open Source Project
      3  *
      4  * Licensed under the Apache License, Version 2.0 (the "License");
      5  * you may not use this file except in compliance with the License.
      6  * You may obtain a copy of the License at
      7  *
      8  *      http://www.apache.org/licenses/LICENSE-2.0
      9  *
     10  * Unless required by applicable law or agreed to in writing, software
     11  * distributed under the License is distributed on an "AS IS" BASIS,
     12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     13  * See the License for the specific language governing permissions and
     14  * limitations under the License.
     15  */
     16 
     17 #define LOG_TAG "hwc-vsync-worker"
     18 
     19 #include "drmresources.h"
     20 #include "vsyncworker.h"
     21 #include "worker.h"
     22 
     23 #include <map>
     24 #include <stdlib.h>
     25 #include <time.h>
     26 #include <xf86drm.h>
     27 #include <xf86drmMode.h>
     28 
     29 #include <cutils/log.h>
     30 #include <hardware/hardware.h>
     31 
     32 namespace android {
     33 
     34 VSyncWorker::VSyncWorker()
     35     : Worker("vsync", HAL_PRIORITY_URGENT_DISPLAY),
     36       drm_(NULL),
     37       procs_(NULL),
     38       display_(-1),
     39       last_timestamp_(-1) {
     40 }
     41 
     42 VSyncWorker::~VSyncWorker() {
     43 }
     44 
     45 int VSyncWorker::Init(DrmResources *drm, int display) {
     46   drm_ = drm;
     47   display_ = display;
     48 
     49   return InitWorker();
     50 }
     51 
     52 void VSyncWorker::SetProcs(hwc_procs_t const *procs) {
     53   Lock();
     54   procs_ = procs;
     55   Unlock();
     56 }
     57 
     58 void VSyncWorker::VSyncControl(bool enabled) {
     59   Lock();
     60   enabled_ = enabled;
     61   last_timestamp_ = -1;
     62   Unlock();
     63 
     64   Signal();
     65 }
     66 
     67 /*
     68  * Returns the timestamp of the next vsync in phase with last_timestamp_.
     69  * For example:
     70  *  last_timestamp_ = 137
     71  *  frame_ns = 50
     72  *  current = 683
     73  *
     74  *  ret = (50 * ((683 - 137)/50 + 1)) + 137
     75  *  ret = 687
     76  *
     77  *  Thus, we must sleep until timestamp 687 to maintain phase with the last
     78  *  timestamp.
     79  */
     80 int64_t VSyncWorker::GetPhasedVSync(int64_t frame_ns, int64_t current) {
     81   if (last_timestamp_ < 0)
     82     return current + frame_ns;
     83 
     84   return frame_ns * ((current - last_timestamp_) / frame_ns + 1) +
     85          last_timestamp_;
     86 }
     87 
     88 static const int64_t kOneSecondNs = 1 * 1000 * 1000 * 1000;
     89 
     90 int VSyncWorker::SyntheticWaitVBlank(int64_t *timestamp) {
     91   struct timespec vsync;
     92   int ret = clock_gettime(CLOCK_MONOTONIC, &vsync);
     93 
     94   float refresh = 60.0f;  // Default to 60Hz refresh rate
     95   DrmConnector *conn = drm_->GetConnectorForDisplay(display_);
     96   if (conn && conn->active_mode().v_refresh() != 0.0f)
     97     refresh = conn->active_mode().v_refresh();
     98   else
     99     ALOGW("Vsync worker active with conn=%p refresh=%f\n", conn,
    100           conn ? conn->active_mode().v_refresh() : 0.0f);
    101 
    102   int64_t phased_timestamp = GetPhasedVSync(
    103       kOneSecondNs / refresh, vsync.tv_sec * kOneSecondNs + vsync.tv_nsec);
    104   vsync.tv_sec = phased_timestamp / kOneSecondNs;
    105   vsync.tv_nsec = phased_timestamp - (vsync.tv_sec * kOneSecondNs);
    106   do {
    107     ret = clock_nanosleep(CLOCK_MONOTONIC, TIMER_ABSTIME, &vsync, NULL);
    108   } while (ret == -1 && errno == EINTR);
    109   if (ret)
    110     return ret;
    111 
    112   *timestamp = (int64_t)vsync.tv_sec * kOneSecondNs + (int64_t)vsync.tv_nsec;
    113   return 0;
    114 }
    115 
    116 void VSyncWorker::Routine() {
    117   int ret;
    118 
    119   Lock();
    120   if (!enabled_) {
    121     ret = WaitForSignalOrExitLocked();
    122     if (ret == -EINTR) {
    123       return;
    124     }
    125   }
    126 
    127   bool enabled = enabled_;
    128   int display = display_;
    129   hwc_procs_t const *procs = procs_;
    130   Unlock();
    131 
    132   if (!enabled)
    133     return;
    134 
    135   DrmCrtc *crtc = drm_->GetCrtcForDisplay(display);
    136   if (!crtc) {
    137     ALOGE("Failed to get crtc for display");
    138     return;
    139   }
    140   uint32_t high_crtc = (crtc->pipe() << DRM_VBLANK_HIGH_CRTC_SHIFT);
    141 
    142   drmVBlank vblank;
    143   memset(&vblank, 0, sizeof(vblank));
    144   vblank.request.type = (drmVBlankSeqType)(
    145       DRM_VBLANK_RELATIVE | (high_crtc & DRM_VBLANK_HIGH_CRTC_MASK));
    146   vblank.request.sequence = 1;
    147 
    148   int64_t timestamp;
    149   ret = drmWaitVBlank(drm_->fd(), &vblank);
    150   if (ret == -EINTR) {
    151     return;
    152   } else if (ret) {
    153     ret = SyntheticWaitVBlank(&timestamp);
    154     if (ret)
    155       return;
    156   } else {
    157     timestamp = (int64_t)vblank.reply.tval_sec * kOneSecondNs +
    158                 (int64_t)vblank.reply.tval_usec * 1000;
    159   }
    160 
    161   /*
    162    * There's a race here where a change in procs_ will not take effect until
    163    * the next subsequent requested vsync. This is unavoidable since we can't
    164    * call the vsync hook while holding the thread lock.
    165    *
    166    * We could shorten the race window by caching procs_ right before calling
    167    * the hook. However, in practice, procs_ is only updated once, so it's not
    168    * worth the overhead.
    169    */
    170   if (procs && procs->vsync)
    171     procs->vsync(procs, display, timestamp);
    172   last_timestamp_ = timestamp;
    173 }
    174 }
    175