Update CameraStreamBuffering test and correct instance name am: 912b16f8c5
am: b89bbf5625
Original change: https://android-review.googlesource.com/c/platform/hardware/interfaces/+/2794200 Change-Id: I20151d7286ade770a63e748e15b95f5b3e88d7f3 Signed-off-by: Automerger Merge Worker <android-build-automerger-merge-worker@system.gserviceaccount.com>
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commit
6f86a4b2fd
2 changed files with 39 additions and 14 deletions
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@ -66,8 +66,8 @@ public:
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ASSERT_NE(pEnumerator.get(), nullptr);
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// "default" is reserved for EVS manager.
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constexpr static char kEvsManagerName[] = "default";
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// "legacy_sw/0" is reserved for EVS manager v1.0 implementation.
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constexpr static char kEvsManagerName[] = "legacy_sw/0";
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mIsHwModule = service_name.compare(kEvsManagerName);
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}
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@ -364,8 +364,14 @@ TEST_P(EvsHidlTest, CameraStreamPerformance) {
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TEST_P(EvsHidlTest, CameraStreamBuffering) {
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ALOGI("Starting CameraStreamBuffering test");
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// Arbitrary constant (should be > 1 and not too big)
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static const unsigned int kBuffersToHold = 2;
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// Maximum number of frames in flight this test case will attempt. This test
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// case chooses an arbitrary number that is large enough to run a camera
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// pipeline for a single client.
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constexpr unsigned int kMaxBuffersToHold = 20;
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// Initial value for setMaxFramesInFlight() call. This number should be
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// greater than 1.
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unsigned int buffersToHold = 2;
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// Get the camera list
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loadCameraList();
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@ -381,9 +387,16 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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EXPECT_EQ(EvsResult::BUFFER_NOT_AVAILABLE, badResult);
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// Now ask for exactly two buffers in flight as we'll test behavior in that case
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Return<EvsResult> goodResult = pCam->setMaxFramesInFlight(kBuffersToHold);
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EXPECT_EQ(EvsResult::OK, goodResult);
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// Find the minimum number of buffers to run a target camera.
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while (buffersToHold < kMaxBuffersToHold) {
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Return<EvsResult> goodResult = pCam->setMaxFramesInFlight(buffersToHold);
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if (goodResult == EvsResult::OK) {
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break;
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}
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++buffersToHold;
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}
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EXPECT_LE(buffersToHold, kMaxBuffersToHold);
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// Set up a frame receiver object which will fire up its own thread.
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sp<FrameHandler> frameHandler = new FrameHandler(pCam, cam,
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@ -399,7 +412,7 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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sleep(2); // 1 second should be enough for at least 5 frames to be delivered worst case
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unsigned framesReceived = 0;
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frameHandler->getFramesCounters(&framesReceived, nullptr);
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ASSERT_EQ(kBuffersToHold, framesReceived) << "Stream didn't stall at expected buffer limit";
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ASSERT_EQ(buffersToHold, framesReceived) << "Stream didn't stall at expected buffer limit";
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// Give back one buffer
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@ -410,7 +423,7 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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// filled since we require 10fps minimum -- but give a 10% allowance just in case.
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usleep(110 * kMillisecondsToMicroseconds);
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frameHandler->getFramesCounters(&framesReceived, nullptr);
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EXPECT_EQ(kBuffersToHold+1, framesReceived) << "Stream should've resumed";
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EXPECT_EQ(buffersToHold+1, framesReceived) << "Stream should've resumed";
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// Even when the camera pointer goes out of scope, the FrameHandler object will
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// keep the stream alive unless we tell it to shutdown.
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@ -534,8 +534,14 @@ TEST_P(EvsHidlTest, CameraStreamPerformance) {
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TEST_P(EvsHidlTest, CameraStreamBuffering) {
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LOG(INFO) << "Starting CameraStreamBuffering test";
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// Arbitrary constant (should be > 1 and not too big)
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static const unsigned int kBuffersToHold = 2;
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// Maximum number of frames in flight this test case will attempt. This test
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// case chooses an arbitrary number that is large enough to run a camera
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// pipeline for a single client.
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constexpr unsigned int kMaxBuffersToHold = 20;
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// Initial value for setMaxFramesInFlight() call. This number should be
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// greater than 1.
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unsigned int buffersToHold = 2;
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// Get the camera list
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loadCameraList();
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@ -567,9 +573,15 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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EXPECT_EQ(EvsResult::BUFFER_NOT_AVAILABLE, badResult);
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// Now ask for exactly two buffers in flight as we'll test behavior in that case
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Return<EvsResult> goodResult = pCam->setMaxFramesInFlight(kBuffersToHold);
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EXPECT_EQ(EvsResult::OK, goodResult);
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while (buffersToHold < kMaxBuffersToHold) {
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Return<EvsResult> goodResult = pCam->setMaxFramesInFlight(buffersToHold);
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if (goodResult == EvsResult::OK) {
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break;
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}
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++buffersToHold;
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}
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EXPECT_LE(buffersToHold, kMaxBuffersToHold);
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// Set up a frame receiver object which will fire up its own thread.
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sp<FrameHandler> frameHandler = new FrameHandler(pCam, cam,
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@ -585,7 +597,7 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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sleep(1); // 1 second should be enough for at least 5 frames to be delivered worst case
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unsigned framesReceived = 0;
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frameHandler->getFramesCounters(&framesReceived, nullptr);
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ASSERT_EQ(kBuffersToHold, framesReceived) << "Stream didn't stall at expected buffer limit";
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ASSERT_EQ(buffersToHold, framesReceived) << "Stream didn't stall at expected buffer limit";
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// Give back one buffer
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@ -596,7 +608,7 @@ TEST_P(EvsHidlTest, CameraStreamBuffering) {
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// filled since we require 10fps minimum -- but give a 10% allowance just in case.
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usleep(110 * kMillisecondsToMicroseconds);
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frameHandler->getFramesCounters(&framesReceived, nullptr);
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EXPECT_EQ(kBuffersToHold+1, framesReceived) << "Stream should've resumed";
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EXPECT_EQ(buffersToHold+1, framesReceived) << "Stream should've resumed";
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// Even when the camera pointer goes out of scope, the FrameHandler object will
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// keep the stream alive unless we tell it to shutdown.
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