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|
/*
* Copyright 2013 The Android Open Source Project
*
* 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 <assert.h>
#include <ctype.h>
#include <fcntl.h>
#include <inttypes.h>
#include <getopt.h>
#include <signal.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/wait.h>
#include <termios.h>
#include <unistd.h>
#define LOG_TAG "ScreenRecord"
#define ATRACE_TAG ATRACE_TAG_GRAPHICS
//#define LOG_NDEBUG 0
#include <utils/Log.h>
#include <binder/IPCThreadState.h>
#include <utils/Errors.h>
#include <utils/Timers.h>
#include <utils/Trace.h>
#include <gui/Surface.h>
#include <gui/SurfaceComposerClient.h>
#include <gui/ISurfaceComposer.h>
#include <ui/DisplayInfo.h>
#include <media/openmax/OMX_IVCommon.h>
#include <media/stagefright/foundation/ABuffer.h>
#include <media/stagefright/foundation/AMessage.h>
#include <media/stagefright/MediaCodec.h>
#include <media/stagefright/MediaErrors.h>
#include <media/stagefright/MediaMuxer.h>
#include <media/ICrypto.h>
#include "screenrecord.h"
#include "Overlay.h"
#include "FrameOutput.h"
using namespace android;
static const uint32_t kMinBitRate = 100000; // 0.1Mbps
static const uint32_t kMaxBitRate = 200 * 1000000; // 200Mbps
static const uint32_t kMaxTimeLimitSec = 180; // 3 minutes
static const uint32_t kFallbackWidth = 1280; // 720p
static const uint32_t kFallbackHeight = 720;
static const char* kMimeTypeAvc = "video/avc";
// Command-line parameters.
static bool gVerbose = false; // chatty on stdout
static bool gRotate = false; // rotate 90 degrees
static enum {
FORMAT_MP4, FORMAT_H264, FORMAT_FRAMES, FORMAT_RAW_FRAMES
} gOutputFormat = FORMAT_MP4; // data format for output
static bool gSizeSpecified = false; // was size explicitly requested?
static bool gWantInfoScreen = false; // do we want initial info screen?
static bool gWantFrameTime = false; // do we want times on each frame?
static uint32_t gVideoWidth = 0; // default width+height
static uint32_t gVideoHeight = 0;
static uint32_t gBitRate = 4000000; // 4Mbps
static uint32_t gTimeLimitSec = kMaxTimeLimitSec;
// Set by signal handler to stop recording.
static volatile bool gStopRequested;
// Previous signal handler state, restored after first hit.
static struct sigaction gOrigSigactionINT;
static struct sigaction gOrigSigactionHUP;
/*
* Catch keyboard interrupt signals. On receipt, the "stop requested"
* flag is raised, and the original handler is restored (so that, if
* we get stuck finishing, a second Ctrl-C will kill the process).
*/
static void signalCatcher(int signum)
{
gStopRequested = true;
switch (signum) {
case SIGINT:
case SIGHUP:
sigaction(SIGINT, &gOrigSigactionINT, NULL);
sigaction(SIGHUP, &gOrigSigactionHUP, NULL);
break;
default:
abort();
break;
}
}
/*
* Configures signal handlers. The previous handlers are saved.
*
* If the command is run from an interactive adb shell, we get SIGINT
* when Ctrl-C is hit. If we're run from the host, the local adb process
* gets the signal, and we get a SIGHUP when the terminal disconnects.
*/
static status_t configureSignals() {
struct sigaction act;
memset(&act, 0, sizeof(act));
act.sa_handler = signalCatcher;
if (sigaction(SIGINT, &act, &gOrigSigactionINT) != 0) {
status_t err = -errno;
fprintf(stderr, "Unable to configure SIGINT handler: %s\n",
strerror(errno));
return err;
}
if (sigaction(SIGHUP, &act, &gOrigSigactionHUP) != 0) {
status_t err = -errno;
fprintf(stderr, "Unable to configure SIGHUP handler: %s\n",
strerror(errno));
return err;
}
return NO_ERROR;
}
/*
* Returns "true" if the device is rotated 90 degrees.
*/
static bool isDeviceRotated(int orientation) {
return orientation != DISPLAY_ORIENTATION_0 &&
orientation != DISPLAY_ORIENTATION_180;
}
/*
* Configures and starts the MediaCodec encoder. Obtains an input surface
* from the codec.
*/
static status_t prepareEncoder(float displayFps, sp<MediaCodec>* pCodec,
sp<IGraphicBufferProducer>* pBufferProducer) {
status_t err;
if (gVerbose) {
printf("Configuring recorder for %dx%d %s at %.2fMbps\n",
gVideoWidth, gVideoHeight, kMimeTypeAvc, gBitRate / 1000000.0);
}
sp<AMessage> format = new AMessage;
format->setInt32("width", gVideoWidth);
format->setInt32("height", gVideoHeight);
format->setString("mime", kMimeTypeAvc);
format->setInt32("color-format", OMX_COLOR_FormatAndroidOpaque);
format->setInt32("bitrate", gBitRate);
format->setFloat("frame-rate", displayFps);
format->setInt32("i-frame-interval", 10);
sp<ALooper> looper = new ALooper;
looper->setName("screenrecord_looper");
looper->start();
ALOGV("Creating codec");
sp<MediaCodec> codec = MediaCodec::CreateByType(looper, kMimeTypeAvc, true);
if (codec == NULL) {
fprintf(stderr, "ERROR: unable to create %s codec instance\n",
kMimeTypeAvc);
return UNKNOWN_ERROR;
}
err = codec->configure(format, NULL, NULL,
MediaCodec::CONFIGURE_FLAG_ENCODE);
if (err != NO_ERROR) {
fprintf(stderr, "ERROR: unable to configure %s codec at %dx%d (err=%d)\n",
kMimeTypeAvc, gVideoWidth, gVideoHeight, err);
codec->release();
return err;
}
ALOGV("Creating encoder input surface");
sp<IGraphicBufferProducer> bufferProducer;
err = codec->createInputSurface(&bufferProducer);
if (err != NO_ERROR) {
fprintf(stderr,
"ERROR: unable to create encoder input surface (err=%d)\n", err);
codec->release();
return err;
}
ALOGV("Starting codec");
err = codec->start();
if (err != NO_ERROR) {
fprintf(stderr, "ERROR: unable to start codec (err=%d)\n", err);
codec->release();
return err;
}
ALOGV("Codec prepared");
*pCodec = codec;
*pBufferProducer = bufferProducer;
return 0;
}
/*
* Sets the display projection, based on the display dimensions, video size,
* and device orientation.
*/
static status_t setDisplayProjection(const sp<IBinder>& dpy,
const DisplayInfo& mainDpyInfo) {
status_t err;
// Set the region of the layer stack we're interested in, which in our
// case is "all of it". If the app is rotated (so that the width of the
// app is based on the height of the display), reverse width/height.
bool deviceRotated = isDeviceRotated(mainDpyInfo.orientation);
uint32_t sourceWidth, sourceHeight;
if (!deviceRotated) {
sourceWidth = mainDpyInfo.w;
sourceHeight = mainDpyInfo.h;
} else {
ALOGV("using rotated width/height");
sourceHeight = mainDpyInfo.w;
sourceWidth = mainDpyInfo.h;
}
Rect layerStackRect(sourceWidth, sourceHeight);
// We need to preserve the aspect ratio of the display.
float displayAspect = (float) sourceHeight / (float) sourceWidth;
// Set the way we map the output onto the display surface (which will
// be e.g. 1280x720 for a 720p video). The rect is interpreted
// post-rotation, so if the display is rotated 90 degrees we need to
// "pre-rotate" it by flipping width/height, so that the orientation
// adjustment changes it back.
//
// We might want to encode a portrait display as landscape to use more
// of the screen real estate. (If players respect a 90-degree rotation
// hint, we can essentially get a 720x1280 video instead of 1280x720.)
// In that case, we swap the configured video width/height and then
// supply a rotation value to the display projection.
uint32_t videoWidth, videoHeight;
uint32_t outWidth, outHeight;
if (!gRotate) {
videoWidth = gVideoWidth;
videoHeight = gVideoHeight;
} else {
videoWidth = gVideoHeight;
videoHeight = gVideoWidth;
}
if (videoHeight > (uint32_t)(videoWidth * displayAspect)) {
// limited by narrow width; reduce height
outWidth = videoWidth;
outHeight = (uint32_t)(videoWidth * displayAspect);
} else {
// limited by short height; restrict width
outHeight = videoHeight;
outWidth = (uint32_t)(videoHeight / displayAspect);
}
uint32_t offX, offY;
offX = (videoWidth - outWidth) / 2;
offY = (videoHeight - outHeight) / 2;
Rect displayRect(offX, offY, offX + outWidth, offY + outHeight);
if (gVerbose) {
if (gRotate) {
printf("Rotated content area is %ux%u at offset x=%d y=%d\n",
outHeight, outWidth, offY, offX);
} else {
printf("Content area is %ux%u at offset x=%d y=%d\n",
outWidth, outHeight, offX, offY);
}
}
SurfaceComposerClient::setDisplayProjection(dpy,
gRotate ? DISPLAY_ORIENTATION_90 : DISPLAY_ORIENTATION_0,
layerStackRect, displayRect);
return NO_ERROR;
}
/*
* Configures the virtual display. When this completes, virtual display
* frames will start arriving from the buffer producer.
*/
static status_t prepareVirtualDisplay(const DisplayInfo& mainDpyInfo,
const sp<IGraphicBufferProducer>& bufferProducer,
sp<IBinder>* pDisplayHandle) {
sp<IBinder> dpy = SurfaceComposerClient::createDisplay(
String8("ScreenRecorder"), false /*secure*/);
SurfaceComposerClient::openGlobalTransaction();
SurfaceComposerClient::setDisplaySurface(dpy, bufferProducer);
setDisplayProjection(dpy, mainDpyInfo);
SurfaceComposerClient::setDisplayLayerStack(dpy, 0); // default stack
SurfaceComposerClient::closeGlobalTransaction();
*pDisplayHandle = dpy;
return NO_ERROR;
}
/*
* Runs the MediaCodec encoder, sending the output to the MediaMuxer. The
* input frames are coming from the virtual display as fast as SurfaceFlinger
* wants to send them.
*
* Exactly one of muxer or rawFp must be non-null.
*
* The muxer must *not* have been started before calling.
*/
static status_t runEncoder(const sp<MediaCodec>& encoder,
const sp<MediaMuxer>& muxer, FILE* rawFp, const sp<IBinder>& mainDpy,
const sp<IBinder>& virtualDpy, uint8_t orientation) {
static int kTimeout = 250000; // be responsive on signal
status_t err;
ssize_t trackIdx = -1;
uint32_t debugNumFrames = 0;
int64_t startWhenNsec = systemTime(CLOCK_MONOTONIC);
int64_t endWhenNsec = startWhenNsec + seconds_to_nanoseconds(gTimeLimitSec);
DisplayInfo mainDpyInfo;
assert((rawFp == NULL && muxer != NULL) || (rawFp != NULL && muxer == NULL));
Vector<sp<ABuffer> > buffers;
err = encoder->getOutputBuffers(&buffers);
if (err != NO_ERROR) {
fprintf(stderr, "Unable to get output buffers (err=%d)\n", err);
return err;
}
// This is set by the signal handler.
gStopRequested = false;
// Run until we're signaled.
while (!gStopRequested) {
size_t bufIndex, offset, size;
int64_t ptsUsec;
uint32_t flags;
if (systemTime(CLOCK_MONOTONIC) > endWhenNsec) {
if (gVerbose) {
printf("Time limit reached\n");
}
break;
}
ALOGV("Calling dequeueOutputBuffer");
err = encoder->dequeueOutputBuffer(&bufIndex, &offset, &size, &ptsUsec,
&flags, kTimeout);
ALOGV("dequeueOutputBuffer returned %d", err);
switch (err) {
case NO_ERROR:
// got a buffer
if ((flags & MediaCodec::BUFFER_FLAG_CODECCONFIG) != 0) {
ALOGV("Got codec config buffer (%zu bytes)", size);
if (muxer != NULL) {
// ignore this -- we passed the CSD into MediaMuxer when
// we got the format change notification
size = 0;
}
}
if (size != 0) {
ALOGV("Got data in buffer %zu, size=%zu, pts=%" PRId64,
bufIndex, size, ptsUsec);
{ // scope
ATRACE_NAME("orientation");
// Check orientation, update if it has changed.
//
// Polling for changes is inefficient and wrong, but the
// useful stuff is hard to get at without a Dalvik VM.
err = SurfaceComposerClient::getDisplayInfo(mainDpy,
&mainDpyInfo);
if (err != NO_ERROR) {
ALOGW("getDisplayInfo(main) failed: %d", err);
} else if (orientation != mainDpyInfo.orientation) {
ALOGD("orientation changed, now %d", mainDpyInfo.orientation);
SurfaceComposerClient::openGlobalTransaction();
setDisplayProjection(virtualDpy, mainDpyInfo);
SurfaceComposerClient::closeGlobalTransaction();
orientation = mainDpyInfo.orientation;
}
}
// If the virtual display isn't providing us with timestamps,
// use the current time. This isn't great -- we could get
// decoded data in clusters -- but we're not expecting
// to hit this anyway.
if (ptsUsec == 0) {
ptsUsec = systemTime(SYSTEM_TIME_MONOTONIC) / 1000;
}
if (muxer == NULL) {
fwrite(buffers[bufIndex]->data(), 1, size, rawFp);
// Flush the data immediately in case we're streaming.
// We don't want to do this if all we've written is
// the SPS/PPS data because mplayer gets confused.
if ((flags & MediaCodec::BUFFER_FLAG_CODECCONFIG) == 0) {
fflush(rawFp);
}
} else {
// The MediaMuxer docs are unclear, but it appears that we
// need to pass either the full set of BufferInfo flags, or
// (flags & BUFFER_FLAG_SYNCFRAME).
//
// If this blocks for too long we could drop frames. We may
// want to queue these up and do them on a different thread.
ATRACE_NAME("write sample");
assert(trackIdx != -1);
err = muxer->writeSampleData(buffers[bufIndex], trackIdx,
ptsUsec, flags);
if (err != NO_ERROR) {
fprintf(stderr,
"Failed writing data to muxer (err=%d)\n", err);
return err;
}
}
debugNumFrames++;
}
err = encoder->releaseOutputBuffer(bufIndex);
if (err != NO_ERROR) {
fprintf(stderr, "Unable to release output buffer (err=%d)\n",
err);
return err;
}
if ((flags & MediaCodec::BUFFER_FLAG_EOS) != 0) {
// Not expecting EOS from SurfaceFlinger. Go with it.
ALOGI("Received end-of-stream");
gStopRequested = true;
}
break;
case -EAGAIN: // INFO_TRY_AGAIN_LATER
ALOGV("Got -EAGAIN, looping");
break;
case INFO_FORMAT_CHANGED: // INFO_OUTPUT_FORMAT_CHANGED
{
// Format includes CSD, which we must provide to muxer.
ALOGV("Encoder format changed");
sp<AMessage> newFormat;
encoder->getOutputFormat(&newFormat);
if (muxer != NULL) {
trackIdx = muxer->addTrack(newFormat);
ALOGV("Starting muxer");
err = muxer->start();
if (err != NO_ERROR) {
fprintf(stderr, "Unable to start muxer (err=%d)\n", err);
return err;
}
}
}
break;
case INFO_OUTPUT_BUFFERS_CHANGED: // INFO_OUTPUT_BUFFERS_CHANGED
// Not expected for an encoder; handle it anyway.
ALOGV("Encoder buffers changed");
err = encoder->getOutputBuffers(&buffers);
if (err != NO_ERROR) {
fprintf(stderr,
"Unable to get new output buffers (err=%d)\n", err);
return err;
}
break;
case INVALID_OPERATION:
ALOGW("dequeueOutputBuffer returned INVALID_OPERATION");
return err;
default:
fprintf(stderr,
"Got weird result %d from dequeueOutputBuffer\n", err);
return err;
}
}
ALOGV("Encoder stopping (req=%d)", gStopRequested);
if (gVerbose) {
printf("Encoder stopping; recorded %u frames in %" PRId64 " seconds\n",
debugNumFrames, nanoseconds_to_seconds(
systemTime(CLOCK_MONOTONIC) - startWhenNsec));
}
return NO_ERROR;
}
/*
* Raw H.264 byte stream output requested. Send the output to stdout
* if desired. If the output is a tty, reconfigure it to avoid the
* CRLF line termination that we see with "adb shell" commands.
*/
static FILE* prepareRawOutput(const char* fileName) {
FILE* rawFp = NULL;
if (strcmp(fileName, "-") == 0) {
if (gVerbose) {
fprintf(stderr, "ERROR: verbose output and '-' not compatible");
return NULL;
}
rawFp = stdout;
} else {
rawFp = fopen(fileName, "w");
if (rawFp == NULL) {
fprintf(stderr, "fopen raw failed: %s\n", strerror(errno));
return NULL;
}
}
int fd = fileno(rawFp);
if (isatty(fd)) {
// best effort -- reconfigure tty for "raw"
ALOGD("raw video output to tty (fd=%d)", fd);
struct termios term;
if (tcgetattr(fd, &term) == 0) {
cfmakeraw(&term);
if (tcsetattr(fd, TCSANOW, &term) == 0) {
ALOGD("tty successfully configured for raw");
}
}
}
return rawFp;
}
/*
* Main "do work" start point.
*
* Configures codec, muxer, and virtual display, then starts moving bits
* around.
*/
static status_t recordScreen(const char* fileName) {
status_t err;
// Configure signal handler.
err = configureSignals();
if (err != NO_ERROR) return err;
// Start Binder thread pool. MediaCodec needs to be able to receive
// messages from mediaserver.
sp<ProcessState> self = ProcessState::self();
self->startThreadPool();
// Get main display parameters.
sp<IBinder> mainDpy = SurfaceComposerClient::getBuiltInDisplay(
ISurfaceComposer::eDisplayIdMain);
DisplayInfo mainDpyInfo;
err = SurfaceComposerClient::getDisplayInfo(mainDpy, &mainDpyInfo);
if (err != NO_ERROR) {
fprintf(stderr, "ERROR: unable to get display characteristics\n");
return err;
}
if (gVerbose) {
printf("Main display is %dx%d @%.2ffps (orientation=%u)\n",
mainDpyInfo.w, mainDpyInfo.h, mainDpyInfo.fps,
mainDpyInfo.orientation);
}
bool rotated = isDeviceRotated(mainDpyInfo.orientation);
if (gVideoWidth == 0) {
gVideoWidth = rotated ? mainDpyInfo.h : mainDpyInfo.w;
}
if (gVideoHeight == 0) {
gVideoHeight = rotated ? mainDpyInfo.w : mainDpyInfo.h;
}
// Configure and start the encoder.
sp<MediaCodec> encoder;
sp<FrameOutput> frameOutput;
sp<IGraphicBufferProducer> encoderInputSurface;
if (gOutputFormat != FORMAT_FRAMES && gOutputFormat != FORMAT_RAW_FRAMES) {
err = prepareEncoder(mainDpyInfo.fps, &encoder, &encoderInputSurface);
if (err != NO_ERROR && !gSizeSpecified) {
// fallback is defined for landscape; swap if we're in portrait
bool needSwap = gVideoWidth < gVideoHeight;
uint32_t newWidth = needSwap ? kFallbackHeight : kFallbackWidth;
uint32_t newHeight = needSwap ? kFallbackWidth : kFallbackHeight;
if (gVideoWidth != newWidth && gVideoHeight != newHeight) {
ALOGV("Retrying with 720p");
fprintf(stderr, "WARNING: failed at %dx%d, retrying at %dx%d\n",
gVideoWidth, gVideoHeight, newWidth, newHeight);
gVideoWidth = newWidth;
gVideoHeight = newHeight;
err = prepareEncoder(mainDpyInfo.fps, &encoder,
&encoderInputSurface);
}
}
if (err != NO_ERROR) return err;
// From here on, we must explicitly release() the encoder before it goes
// out of scope, or we will get an assertion failure from stagefright
// later on in a different thread.
} else {
// We're not using an encoder at all. The "encoder input surface" we hand to
// SurfaceFlinger will just feed directly to us.
frameOutput = new FrameOutput();
err = frameOutput->createInputSurface(gVideoWidth, gVideoHeight, &encoderInputSurface);
if (err != NO_ERROR) {
return err;
}
}
// Draw the "info" page by rendering a frame with GLES and sending
// it directly to the encoder.
// TODO: consider displaying this as a regular layer to avoid b/11697754
if (gWantInfoScreen) {
Overlay::drawInfoPage(encoderInputSurface);
}
// Configure optional overlay.
sp<IGraphicBufferProducer> bufferProducer;
sp<Overlay> overlay;
if (gWantFrameTime) {
// Send virtual display frames to an external texture.
overlay = new Overlay();
err = overlay->start(encoderInputSurface, &bufferProducer);
if (err != NO_ERROR) {
if (encoder != NULL) encoder->release();
return err;
}
if (gVerbose) {
printf("Bugreport overlay created\n");
}
} else {
// Use the encoder's input surface as the virtual display surface.
bufferProducer = encoderInputSurface;
}
// Configure virtual display.
sp<IBinder> dpy;
err = prepareVirtualDisplay(mainDpyInfo, bufferProducer, &dpy);
if (err != NO_ERROR) {
if (encoder != NULL) encoder->release();
return err;
}
sp<MediaMuxer> muxer = NULL;
FILE* rawFp = NULL;
switch (gOutputFormat) {
case FORMAT_MP4: {
// Configure muxer. We have to wait for the CSD blob from the encoder
// before we can start it.
muxer = new MediaMuxer(fileName, MediaMuxer::OUTPUT_FORMAT_MPEG_4);
if (gRotate) {
muxer->setOrientationHint(90); // TODO: does this do anything?
}
break;
}
case FORMAT_H264:
case FORMAT_FRAMES:
case FORMAT_RAW_FRAMES: {
rawFp = prepareRawOutput(fileName);
if (rawFp == NULL) {
if (encoder != NULL) encoder->release();
return -1;
}
break;
}
default:
fprintf(stderr, "ERROR: unknown format %d\n", gOutputFormat);
abort();
}
if (gOutputFormat == FORMAT_FRAMES || gOutputFormat == FORMAT_RAW_FRAMES) {
// TODO: if we want to make this a proper feature, we should output
// an outer header with version info. Right now we never change
// the frame size or format, so we could conceivably just send
// the current frame header once and then follow it with an
// unbroken stream of data.
// Make the EGL context current again. This gets unhooked if we're
// using "--bugreport" mode.
// TODO: figure out if we can eliminate this
frameOutput->prepareToCopy();
while (!gStopRequested) {
// Poll for frames, the same way we do for MediaCodec. We do
// all of the work on the main thread.
//
// Ideally we'd sleep indefinitely and wake when the
// stop was requested, but this will do for now. (It almost
// works because wait() wakes when a signal hits, but we
// need to handle the edge cases.)
bool rawFrames = gOutputFormat == FORMAT_RAW_FRAMES;
err = frameOutput->copyFrame(rawFp, 250000, rawFrames);
if (err == ETIMEDOUT) {
err = NO_ERROR;
} else if (err != NO_ERROR) {
ALOGE("Got error %d from copyFrame()", err);
break;
}
}
} else {
// Main encoder loop.
err = runEncoder(encoder, muxer, rawFp, mainDpy, dpy,
mainDpyInfo.orientation);
if (err != NO_ERROR) {
fprintf(stderr, "Encoder failed (err=%d)\n", err);
// fall through to cleanup
}
if (gVerbose) {
printf("Stopping encoder and muxer\n");
}
}
// Shut everything down, starting with the producer side.
encoderInputSurface = NULL;
SurfaceComposerClient::destroyDisplay(dpy);
if (overlay != NULL) overlay->stop();
if (encoder != NULL) encoder->stop();
if (muxer != NULL) {
// If we don't stop muxer explicitly, i.e. let the destructor run,
// it may hang (b/11050628).
muxer->stop();
} else if (rawFp != stdout) {
fclose(rawFp);
}
if (encoder != NULL) encoder->release();
return err;
}
/*
* Sends a broadcast to the media scanner to tell it about the new video.
*
* This is optional, but nice to have.
*/
static status_t notifyMediaScanner(const char* fileName) {
// need to do allocations before the fork()
String8 fileUrl("file://");
fileUrl.append(fileName);
const char* kCommand = "/system/bin/am";
const char* const argv[] = {
kCommand,
"broadcast",
"-a",
"android.intent.action.MEDIA_SCANNER_SCAN_FILE",
"-d",
fileUrl.string(),
NULL
};
if (gVerbose) {
printf("Executing:");
for (int i = 0; argv[i] != NULL; i++) {
printf(" %s", argv[i]);
}
putchar('\n');
}
pid_t pid = fork();
if (pid < 0) {
int err = errno;
ALOGW("fork() failed: %s", strerror(err));
return -err;
} else if (pid > 0) {
// parent; wait for the child, mostly to make the verbose-mode output
// look right, but also to check for and log failures
int status;
pid_t actualPid = TEMP_FAILURE_RETRY(waitpid(pid, &status, 0));
if (actualPid != pid) {
ALOGW("waitpid(%d) returned %d (errno=%d)", pid, actualPid, errno);
} else if (status != 0) {
ALOGW("'am broadcast' exited with status=%d", status);
} else {
ALOGV("'am broadcast' exited successfully");
}
} else {
if (!gVerbose) {
// non-verbose, suppress 'am' output
ALOGV("closing stdout/stderr in child");
int fd = open("/dev/null", O_WRONLY);
if (fd >= 0) {
dup2(fd, STDOUT_FILENO);
dup2(fd, STDERR_FILENO);
close(fd);
}
}
execv(kCommand, const_cast<char* const*>(argv));
ALOGE("execv(%s) failed: %s\n", kCommand, strerror(errno));
exit(1);
}
return NO_ERROR;
}
/*
* Parses a string of the form "1280x720".
*
* Returns true on success.
*/
static bool parseWidthHeight(const char* widthHeight, uint32_t* pWidth,
uint32_t* pHeight) {
long width, height;
char* end;
// Must specify base 10, or "0x0" gets parsed differently.
width = strtol(widthHeight, &end, 10);
if (end == widthHeight || *end != 'x' || *(end+1) == '\0') {
// invalid chars in width, or missing 'x', or missing height
return false;
}
height = strtol(end + 1, &end, 10);
if (*end != '\0') {
// invalid chars in height
return false;
}
*pWidth = width;
*pHeight = height;
return true;
}
/*
* Accepts a string with a bare number ("4000000") or with a single-character
* unit ("4m").
*
* Returns an error if parsing fails.
*/
static status_t parseValueWithUnit(const char* str, uint32_t* pValue) {
long value;
char* endptr;
value = strtol(str, &endptr, 10);
if (*endptr == '\0') {
// bare number
*pValue = value;
return NO_ERROR;
} else if (toupper(*endptr) == 'M' && *(endptr+1) == '\0') {
*pValue = value * 1000000; // check for overflow?
return NO_ERROR;
} else {
fprintf(stderr, "Unrecognized value: %s\n", str);
return UNKNOWN_ERROR;
}
}
/*
* Dumps usage on stderr.
*/
static void usage() {
fprintf(stderr,
"Usage: screenrecord [options] <filename>\n"
"\n"
"Android screenrecord v%d.%d. Records the device's display to a .mp4 file.\n"
"\n"
"Options:\n"
"--size WIDTHxHEIGHT\n"
" Set the video size, e.g. \"1280x720\". Default is the device's main\n"
" display resolution (if supported), 1280x720 if not. For best results,\n"
" use a size supported by the AVC encoder.\n"
"--bit-rate RATE\n"
" Set the video bit rate, in bits per second. Value may be specified as\n"
" bits or megabits, e.g. '4000000' is equivalent to '4M'. Default %dMbps.\n"
"--bugreport\n"
" Add additional information, such as a timestamp overlay, that is helpful\n"
" in videos captured to illustrate bugs.\n"
"--time-limit TIME\n"
" Set the maximum recording time, in seconds. Default / maximum is %d.\n"
"--verbose\n"
" Display interesting information on stdout.\n"
"--help\n"
" Show this message.\n"
"\n"
"Recording continues until Ctrl-C is hit or the time limit is reached.\n"
"\n",
kVersionMajor, kVersionMinor, gBitRate / 1000000, gTimeLimitSec
);
}
/*
* Parses args and kicks things off.
*/
int main(int argc, char* const argv[]) {
static const struct option longOptions[] = {
{ "help", no_argument, NULL, 'h' },
{ "verbose", no_argument, NULL, 'v' },
{ "size", required_argument, NULL, 's' },
{ "bit-rate", required_argument, NULL, 'b' },
{ "time-limit", required_argument, NULL, 't' },
{ "bugreport", no_argument, NULL, 'u' },
// "unofficial" options
{ "show-device-info", no_argument, NULL, 'i' },
{ "show-frame-time", no_argument, NULL, 'f' },
{ "rotate", no_argument, NULL, 'r' },
{ "output-format", required_argument, NULL, 'o' },
{ NULL, 0, NULL, 0 }
};
while (true) {
int optionIndex = 0;
int ic = getopt_long(argc, argv, "", longOptions, &optionIndex);
if (ic == -1) {
break;
}
switch (ic) {
case 'h':
usage();
return 0;
case 'v':
gVerbose = true;
break;
case 's':
if (!parseWidthHeight(optarg, &gVideoWidth, &gVideoHeight)) {
fprintf(stderr, "Invalid size '%s', must be width x height\n",
optarg);
return 2;
}
if (gVideoWidth == 0 || gVideoHeight == 0) {
fprintf(stderr,
"Invalid size %ux%u, width and height may not be zero\n",
gVideoWidth, gVideoHeight);
return 2;
}
gSizeSpecified = true;
break;
case 'b':
if (parseValueWithUnit(optarg, &gBitRate) != NO_ERROR) {
return 2;
}
if (gBitRate < kMinBitRate || gBitRate > kMaxBitRate) {
fprintf(stderr,
"Bit rate %dbps outside acceptable range [%d,%d]\n",
gBitRate, kMinBitRate, kMaxBitRate);
return 2;
}
break;
case 't':
gTimeLimitSec = atoi(optarg);
if (gTimeLimitSec == 0 || gTimeLimitSec > kMaxTimeLimitSec) {
fprintf(stderr,
"Time limit %ds outside acceptable range [1,%d]\n",
gTimeLimitSec, kMaxTimeLimitSec);
return 2;
}
break;
case 'u':
gWantInfoScreen = true;
gWantFrameTime = true;
break;
case 'i':
gWantInfoScreen = true;
break;
case 'f':
gWantFrameTime = true;
break;
case 'r':
// experimental feature
gRotate = true;
break;
case 'o':
if (strcmp(optarg, "mp4") == 0) {
gOutputFormat = FORMAT_MP4;
} else if (strcmp(optarg, "h264") == 0) {
gOutputFormat = FORMAT_H264;
} else if (strcmp(optarg, "frames") == 0) {
gOutputFormat = FORMAT_FRAMES;
} else if (strcmp(optarg, "raw-frames") == 0) {
gOutputFormat = FORMAT_RAW_FRAMES;
} else {
fprintf(stderr, "Unknown format '%s'\n", optarg);
return 2;
}
break;
default:
if (ic != '?') {
fprintf(stderr, "getopt_long returned unexpected value 0x%x\n", ic);
}
return 2;
}
}
if (optind != argc - 1) {
fprintf(stderr, "Must specify output file (see --help).\n");
return 2;
}
const char* fileName = argv[optind];
if (gOutputFormat == FORMAT_MP4) {
// MediaMuxer tries to create the file in the constructor, but we don't
// learn about the failure until muxer.start(), which returns a generic
// error code without logging anything. We attempt to create the file
// now for better diagnostics.
int fd = open(fileName, O_CREAT | O_RDWR, 0644);
if (fd < 0) {
fprintf(stderr, "Unable to open '%s': %s\n", fileName, strerror(errno));
return 1;
}
close(fd);
}
status_t err = recordScreen(fileName);
if (err == NO_ERROR) {
// Try to notify the media scanner. Not fatal if this fails.
notifyMediaScanner(fileName);
}
ALOGD(err == NO_ERROR ? "success" : "failed");
return (int) err;
}
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