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#include "androidretracer.h"
#include "androiddevicedialog.h"
#include "thumbnail.h"
#include "image/image.hpp"
#include "trace_profiler.hpp"
#include <QHostAddress>
#include <QSettings>
#include <QTime>
#include <QBuffer>
#include "qubjson.h"
typedef QLatin1String _;
static QLatin1String packageName("apitrace.github.io.eglretrace");
static QLatin1String activityName("/.RetraceActivity");
AndroidRetracer::AndroidRetracer(QObject *parent)
: Retracer(parent),
m_stdoutPort(52341),
m_stderrPort(52342)
{
connect(&m_androidUtils, SIGNAL(statusMessage(QString)),
SIGNAL(statusMessage(QString)));
}
void AndroidRetracer::setAndroidFileName(const QString &fileName)
{
m_androdiFileName = fileName;
}
static int extractPidFromChunk(const QByteArray &chunk, int from)
{
int pos1 = chunk.indexOf(' ', from);
if (pos1 == -1)
return -1;
while (chunk[pos1] == ' ')
++pos1;
int pos3 = chunk.indexOf(' ', pos1);
int pid = chunk.mid(pos1, pos3 - pos1).toInt();
return pid;
}
static int extractPid(const QByteArray &psOutput)
{
static const QByteArray needle("apitrace.github.io.eglretrace\r");
const int to = psOutput.indexOf(needle);
if (to == -1)
return -1;
const int from = psOutput.lastIndexOf('\n', to);
if (from == -1)
return -1;
return extractPidFromChunk(psOutput, from);
}
static QByteArray readLine(QTcpSocket &sock)
{
while (!sock.canReadLine() && sock.waitForReadyRead());
if (sock.state() != QAbstractSocket::ConnectedState)
return QByteArray();
return sock.readLine();
}
static bool read(QTcpSocket &sock, char *ptr, qint64 sz)
{
do {
qint64 readBytes = sock.read(ptr, sz);
ptr += readBytes;
sz -= readBytes;
} while(sz && sock.waitForReadyRead());
return sz == 0;
}
void AndroidRetracer::run()
{
m_androidUtils.reloadAdb();
QString errorStr;
bool setupRet;
QMetaObject::invokeMethod(this, "setup", Qt::BlockingQueuedConnection,
Q_RETURN_ARG(bool, setupRet),
Q_ARG(QString *, &errorStr));
if (!setupRet) {
emit finished(errorStr);
return;
}
if (!m_androidUtils.runAdb(QStringList() << _("shell") << _("am") << _("start") << _("-n") << packageName + activityName)) {
emit finished(tr("Can't start apitrace application"));
return;
}
QByteArray which;
if (!m_androidUtils.runAdb(QStringList() << _("shell") << _("readlink") << _("$(which ps)") , &which)) {
emit finished(tr("Can't start adb"));
return;
}
bool isBusyBox = which.startsWith("busybox");
QStringList psArgs;
psArgs << _("shell") << _("ps");
if (isBusyBox)
psArgs << _("-w");
qint64 processPID;
bool wasStarted = false;
QTime startTime;
startTime.start();
QTcpSocket stdoutSocket;
QTcpSocket stderrSocket;
ImageHash thumbnails;
QVariantMap parsedJson;
trace::Profile* profile = isProfiling() ? new trace::Profile() : NULL;
QList<ApiTraceError> errors;
QRegExp regexp("(^\\d+): +(\\b\\w+\\b): ([^\\r\\n]+)[\\r\\n]*$");
QString msg = QLatin1String("Replay finished!");
QByteArray ubjsonBuffer;
QByteArray outputBuffer;
bool keepGoing = true;
while(keepGoing) {
if (!wasStarted || startTime.elapsed() > 1000) {
QByteArray psOut;
m_androidUtils.runAdb(psArgs, &psOut);
processPID = extractPid(psOut);
if (wasStarted)
startTime.restart();
}
if (processPID == -1) {
if (wasStarted) {
break;
} else {
if (startTime.elapsed() > 3000) { // wait 3 seconds to start
emit finished(tr("Unable to start retrace on device."));
return;
}
}
msleep(100);
continue;
}
// we have a valid pid, it means the application started
if (!wasStarted) {
// connect the sockets
int tries = 0;
do {
stdoutSocket.connectToHost(QHostAddress::LocalHost, m_stdoutPort);
} while (!stdoutSocket.waitForConnected(100) && ++tries < 10);
if (stdoutSocket.state() != QAbstractSocket::ConnectedState) {
emit finished(tr("Can't connect to stdout socket."));
return;
}
// Android doesn't suport GPU and PPD profiling (at leats not on my devices)
//setProfiling(false, isProfilingCpu(), false);
QString args = (retraceArguments() << m_androdiFileName).join(" ") + _("\n");
stdoutSocket.write(args.toUtf8());
if (!stdoutSocket.waitForBytesWritten()) {
emit finished(tr("Can't send params."));
return;
}
stderrSocket.connectToHost(QHostAddress::LocalHost, m_stderrPort);
stderrSocket.waitForConnected(100);
if (stderrSocket.state() != QAbstractSocket::ConnectedState) {
emit finished(tr("Can't connect to stderr socket."));
return;
}
wasStarted = true;
}
// We are going to read both channels at the same time
// read stdout channel
if (stdoutSocket.waitForReadyRead(100)) {
if (captureState())
ubjsonBuffer.append(stdoutSocket.readAll());
else if (captureThumbnails()) {
// read one image
image::PNMInfo info;
QByteArray header;
int headerLines = 3; // assume no optional comment line
for (int headerLine = 0; headerLine < headerLines; ++headerLine) {
QByteArray line = readLine(stdoutSocket);
if (line.isEmpty()) {
keepGoing = false;
break;
}
header += line;
// if header actually contains optional comment line, ...
if (headerLine == 1 && line[0] == '#') {
++headerLines;
}
}
const char *headerEnd = image::readPNMHeader(header.constData(), header.size(), info);
// if invalid PNM header was encountered, ...
if (headerEnd == NULL ||
info.channelType != image::TYPE_UNORM8) {
qDebug() << "error: invalid snapshot stream encountered";
keepGoing = false;
break;
}
unsigned channels = info.channels;
unsigned width = info.width;
unsigned height = info.height;
// qDebug() << "channels: " << channels << ", width: " << width << ", height: " << height";
QImage snapshot = QImage(width, height, channels == 1 ? QImage::Format_Mono : QImage::Format_RGB888);
int rowBytes = channels * width;
for (int y = 0; y < height; ++y) {
unsigned char *scanLine = snapshot.scanLine(y);
if (!read(stdoutSocket, (char *) scanLine, rowBytes)) {
keepGoing = false;
break;
}
}
QImage thumb = thumbnail(snapshot);
thumbnails.insert(info.commentNumber, thumb);
} else if (isProfiling()) {
QByteArray line = readLine(stdoutSocket);
if (line.isEmpty()) {
keepGoing = false;
break;
}
line.append('\0');
trace::Profiler::parseLine(line.constData(), profile);
} else {
outputBuffer.append(stdoutSocket.readAll());
}
}
// read stderr channel
if (stderrSocket.waitForReadyRead(5) && stderrSocket.canReadLine()) {
QString line = stderrSocket.readLine();
if (regexp.indexIn(line) != -1) {
ApiTraceError error;
error.callIndex = regexp.cap(1).toInt();
error.type = regexp.cap(2);
error.message = regexp.cap(3);
errors.append(error);
} else if (!errors.isEmpty()) {
// Probably a multiligne message
ApiTraceError &previous = errors.last();
if (line.endsWith("\n")) {
line.chop(1);
}
previous.message.append('\n');
previous.message.append(line);
}
}
}
if (outputBuffer.size() < 80)
msg = outputBuffer;
if (captureState()) {
QBuffer io(&ubjsonBuffer);
io.open(QIODevice::ReadOnly);
parsedJson = decodeUBJSONObject(&io).toMap();
ApiTraceState *state = new ApiTraceState(parsedJson);
emit foundState(state);
}
if (captureThumbnails() && !thumbnails.isEmpty()) {
emit foundThumbnails(thumbnails);
}
if (isProfiling() && profile) {
emit foundProfile(profile);
}
if (!errors.isEmpty()) {
emit retraceErrors(errors);
}
emit finished(msg);
}
bool AndroidRetracer::setup(QString *error)
{
m_androidUtils.reloadAdb();
if (m_androidUtils.serialNumber().isEmpty()) {
*error = tr("No device selected");
return false;
}
// forward adbPorts
QSettings s;
s.beginGroup(_("android"));
m_stdoutPort = s.value(_("stdoutPort"), m_stdoutPort).toInt();
m_stderrPort = s.value(_("stderrPort"), m_stderrPort).toInt();
s.endGroup();
if (!m_androidUtils.runAdb(QStringList(_("forward"))
<< QString::fromLatin1("tcp:%1").arg(m_stdoutPort)
<< _("localabstract:apitrace.github.io.eglretrace.stdout"))) {
*error = tr("Can't forward ports");
return false;
}
if (!m_androidUtils.runAdb(QStringList(_("forward"))
<< QString::fromLatin1("tcp:%1").arg(m_stderrPort)
<< _("localabstract:apitrace.github.io.eglretrace.stderr"))) {
*error = tr("Can't forward ports");
return false;
}
return true;
}
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