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android_frameworks_base/media/jni/audioeffect/Visualizer.cpp
Svet Ganov 2eebf92965 Switch media fw permissions checks to AttributionSource 
Attribution source is the abstraction to capture the data
flows for private data across apps. Checking permissions
for an attribution source does this for all apps in the
chain that would receive the data as well as the relevant
app ops are checked/noted/started as needed.

Teach speech recognition service about attribution
chains. If an implementation does nothing the OS
would enforce permisisons and do blame as always.
This apporach leads to double blaming and doesn't
support attribition chains where app calls into
the default recognizer which calls into the on
device recognizer (this nests recursively). If the
implementer takes advantage of the attribution chain
mechanims the permissions for the entire chain are
checked at mic access time and all apps are blamed
only once.

Fixed a few bugs around finishing ops for attribution
chains. Also ensured that any app death in a started
attribution chain would lead to finishing the op for
this app

bug: 158792096

Test: (added tests for speech reco)
      atest CtsMediaTestCases
      atest CtsPermissionTestCases
      atest CtsPermission2TestCases
      atest CtsPermission3TestCases
      atest CtsPermission4TestCases
      atest CtsPermission5TestCases
      atest CtsAppOpsTestCases
      atest CtsAppOps2TestCases

Merged-In: Ic92c7adc14bd2d135ac13b96f17a1b393dd562e4

Change-Id: Ic92c7adc14bd2d135ac13b96f17a1b393dd562e4
2021-06-01 23:43:29 +00:00

456 lines
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/*
**
** Copyright 2010, 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.
*/
//#define LOG_NDEBUG 0
#define LOG_TAG "Visualizer"
#include <utils/Log.h>
#include <stdint.h>
#include <sys/types.h>
#include <limits.h>
#include <audio_utils/fixedfft.h>
#include <cutils/bitops.h>
#include <utils/Thread.h>
#include <android/content/AttributionSourceState.h>
#include "Visualizer.h"
namespace android {
// ---------------------------------------------------------------------------
Visualizer::Visualizer (const android::content::AttributionSourceState& attributionSource)
: AudioEffect(attributionSource)
{
}
Visualizer::~Visualizer()
{
ALOGV("Visualizer::~Visualizer()");
setEnabled(false);
setCaptureCallBack(NULL, NULL, 0, 0);
}
status_t Visualizer::set(int32_t priority,
effect_callback_t cbf,
void* user,
audio_session_t sessionId,
audio_io_handle_t io,
const AudioDeviceTypeAddr& device,
bool probe)
{
status_t status = AudioEffect::set(
SL_IID_VISUALIZATION, nullptr, priority, cbf, user, sessionId, io, device, probe);
if (status == NO_ERROR || status == ALREADY_EXISTS) {
initCaptureSize();
}
return status;
}
void Visualizer::release()
{
ALOGV("Visualizer::release()");
setEnabled(false);
Mutex::Autolock _l(mCaptureLock);
mCaptureThread.clear();
mCaptureCallBack = NULL;
mCaptureCbkUser = NULL;
mCaptureFlags = 0;
mCaptureRate = 0;
}
status_t Visualizer::setEnabled(bool enabled)
{
Mutex::Autolock _l(mCaptureLock);
sp<CaptureThread> t = mCaptureThread;
if (t != 0) {
if (enabled) {
if (t->exitPending()) {
mCaptureLock.unlock();
if (t->requestExitAndWait() == WOULD_BLOCK) {
mCaptureLock.lock();
ALOGE("Visualizer::enable() called from thread");
return INVALID_OPERATION;
}
mCaptureLock.lock();
}
}
t->mLock.lock();
}
status_t status = AudioEffect::setEnabled(enabled);
if (t != 0) {
if (enabled && status == NO_ERROR) {
t->run("Visualizer");
} else {
t->requestExit();
}
}
if (t != 0) {
t->mLock.unlock();
}
return status;
}
status_t Visualizer::setCaptureCallBack(capture_cbk_t cbk, void* user, uint32_t flags,
uint32_t rate)
{
if (rate > CAPTURE_RATE_MAX) {
return BAD_VALUE;
}
Mutex::Autolock _l(mCaptureLock);
if (mEnabled) {
return INVALID_OPERATION;
}
if (mCaptureThread != 0) {
sp<CaptureThread> t = mCaptureThread;
mCaptureLock.unlock();
t->requestExitAndWait();
mCaptureLock.lock();
}
mCaptureThread.clear();
mCaptureCallBack = cbk;
mCaptureCbkUser = user;
mCaptureFlags = flags;
mCaptureRate = rate;
if (cbk != NULL) {
mCaptureThread = new CaptureThread(this, rate, ((flags & CAPTURE_CALL_JAVA) != 0));
}
ALOGV("setCaptureCallBack() rate: %d thread %p flags 0x%08x",
rate, mCaptureThread.get(), mCaptureFlags);
return NO_ERROR;
}
status_t Visualizer::setCaptureSize(uint32_t size)
{
if (size > VISUALIZER_CAPTURE_SIZE_MAX ||
size < VISUALIZER_CAPTURE_SIZE_MIN ||
popcount(size) != 1) {
return BAD_VALUE;
}
Mutex::Autolock _l(mCaptureLock);
if (mEnabled) {
return INVALID_OPERATION;
}
uint32_t buf32[sizeof(effect_param_t) / sizeof(uint32_t) + 2];
effect_param_t *p = (effect_param_t *)buf32;
p->psize = sizeof(uint32_t);
p->vsize = sizeof(uint32_t);
*(int32_t *)p->data = VISUALIZER_PARAM_CAPTURE_SIZE;
*((int32_t *)p->data + 1)= size;
status_t status = setParameter(p);
ALOGV("setCaptureSize size %d status %d p->status %d", size, status, p->status);
if (status == NO_ERROR) {
status = p->status;
if (status == NO_ERROR) {
mCaptureSize = size;
}
}
return status;
}
status_t Visualizer::setScalingMode(uint32_t mode) {
if ((mode != VISUALIZER_SCALING_MODE_NORMALIZED)
&& (mode != VISUALIZER_SCALING_MODE_AS_PLAYED)) {
return BAD_VALUE;
}
Mutex::Autolock _l(mCaptureLock);
uint32_t buf32[sizeof(effect_param_t) / sizeof(uint32_t) + 2];
effect_param_t *p = (effect_param_t *)buf32;
p->psize = sizeof(uint32_t);
p->vsize = sizeof(uint32_t);
*(int32_t *)p->data = VISUALIZER_PARAM_SCALING_MODE;
*((int32_t *)p->data + 1)= mode;
status_t status = setParameter(p);
ALOGV("setScalingMode mode %d status %d p->status %d", mode, status, p->status);
if (status == NO_ERROR) {
status = p->status;
if (status == NO_ERROR) {
mScalingMode = mode;
}
}
return status;
}
status_t Visualizer::setMeasurementMode(uint32_t mode) {
if ((mode != MEASUREMENT_MODE_NONE)
//Note: needs to be handled as a mask when more measurement modes are added
&& ((mode & MEASUREMENT_MODE_PEAK_RMS) != mode)) {
return BAD_VALUE;
}
Mutex::Autolock _l(mCaptureLock);
uint32_t buf32[sizeof(effect_param_t) / sizeof(uint32_t) + 2];
effect_param_t *p = (effect_param_t *)buf32;
p->psize = sizeof(uint32_t);
p->vsize = sizeof(uint32_t);
*(int32_t *)p->data = VISUALIZER_PARAM_MEASUREMENT_MODE;
*((int32_t *)p->data + 1)= mode;
status_t status = setParameter(p);
ALOGV("setMeasurementMode mode %d status %d p->status %d", mode, status, p->status);
if (status == NO_ERROR) {
status = p->status;
if (status == NO_ERROR) {
mMeasurementMode = mode;
}
}
return status;
}
status_t Visualizer::getIntMeasurements(uint32_t type, uint32_t number, int32_t *measurements) {
if (mMeasurementMode == MEASUREMENT_MODE_NONE) {
ALOGE("Cannot retrieve int measurements, no measurement mode set");
return INVALID_OPERATION;
}
if (!(mMeasurementMode & type)) {
// measurement type has not been set on this Visualizer
ALOGE("Cannot retrieve int measurements, requested measurement mode 0x%x not set(0x%x)",
type, mMeasurementMode);
return INVALID_OPERATION;
}
// only peak+RMS measurement supported
if ((type != MEASUREMENT_MODE_PEAK_RMS)
// for peak+RMS measurement, the results are 2 int32_t values
|| (number != 2)) {
ALOGE("Cannot retrieve int measurements, MEASUREMENT_MODE_PEAK_RMS returns 2 ints, not %d",
number);
return BAD_VALUE;
}
status_t status = NO_ERROR;
if (mEnabled) {
uint32_t replySize = number * sizeof(int32_t);
status = command(VISUALIZER_CMD_MEASURE,
sizeof(uint32_t) /*cmdSize*/,
&type /*cmdData*/,
&replySize, measurements);
ALOGV("getMeasurements() command returned %d", status);
if ((status == NO_ERROR) && (replySize == 0)) {
status = NOT_ENOUGH_DATA;
}
} else {
ALOGV("getMeasurements() disabled");
return INVALID_OPERATION;
}
return status;
}
status_t Visualizer::getWaveForm(uint8_t *waveform)
{
if (waveform == NULL) {
return BAD_VALUE;
}
if (mCaptureSize == 0) {
return NO_INIT;
}
status_t status = NO_ERROR;
if (mEnabled) {
uint32_t replySize = mCaptureSize;
status = command(VISUALIZER_CMD_CAPTURE, 0, NULL, &replySize, waveform);
ALOGV("getWaveForm() command returned %d", status);
if ((status == NO_ERROR) && (replySize == 0)) {
status = NOT_ENOUGH_DATA;
}
} else {
ALOGV("getWaveForm() disabled");
memset(waveform, 0x80, mCaptureSize);
}
return status;
}
status_t Visualizer::getFft(uint8_t *fft)
{
if (fft == NULL) {
return BAD_VALUE;
}
if (mCaptureSize == 0) {
return NO_INIT;
}
status_t status = NO_ERROR;
if (mEnabled) {
uint8_t buf[mCaptureSize];
status = getWaveForm(buf);
if (status == NO_ERROR) {
status = doFft(fft, buf);
}
} else {
memset(fft, 0, mCaptureSize);
}
return status;
}
status_t Visualizer::doFft(uint8_t *fft, uint8_t *waveform)
{
int32_t workspace[mCaptureSize >> 1];
int32_t nonzero = 0;
for (uint32_t i = 0; i < mCaptureSize; i += 2) {
workspace[i >> 1] =
((waveform[i] ^ 0x80) << 24) | ((waveform[i + 1] ^ 0x80) << 8);
nonzero |= workspace[i >> 1];
}
if (nonzero) {
fixed_fft_real(mCaptureSize >> 1, workspace);
}
for (uint32_t i = 0; i < mCaptureSize; i += 2) {
short tmp = workspace[i >> 1] >> 21;
while (tmp > 127 || tmp < -128) tmp >>= 1;
fft[i] = tmp;
tmp = workspace[i >> 1];
tmp >>= 5;
while (tmp > 127 || tmp < -128) tmp >>= 1;
fft[i + 1] = tmp;
}
return NO_ERROR;
}
void Visualizer::periodicCapture()
{
Mutex::Autolock _l(mCaptureLock);
ALOGV("periodicCapture() %p mCaptureCallBack %p mCaptureFlags 0x%08x",
this, mCaptureCallBack, mCaptureFlags);
if (mCaptureCallBack != NULL &&
(mCaptureFlags & (CAPTURE_WAVEFORM|CAPTURE_FFT)) &&
mCaptureSize != 0) {
uint8_t waveform[mCaptureSize];
status_t status = getWaveForm(waveform);
if (status != NO_ERROR) {
return;
}
uint8_t fft[mCaptureSize];
if (mCaptureFlags & CAPTURE_FFT) {
status = doFft(fft, waveform);
}
if (status != NO_ERROR) {
return;
}
uint8_t *wavePtr = NULL;
uint8_t *fftPtr = NULL;
uint32_t waveSize = 0;
uint32_t fftSize = 0;
if (mCaptureFlags & CAPTURE_WAVEFORM) {
wavePtr = waveform;
waveSize = mCaptureSize;
}
if (mCaptureFlags & CAPTURE_FFT) {
fftPtr = fft;
fftSize = mCaptureSize;
}
mCaptureCallBack(mCaptureCbkUser, waveSize, wavePtr, fftSize, fftPtr, mSampleRate);
}
}
uint32_t Visualizer::initCaptureSize()
{
uint32_t buf32[sizeof(effect_param_t) / sizeof(uint32_t) + 2];
effect_param_t *p = (effect_param_t *)buf32;
p->psize = sizeof(uint32_t);
p->vsize = sizeof(uint32_t);
*(int32_t *)p->data = VISUALIZER_PARAM_CAPTURE_SIZE;
status_t status = getParameter(p);
if (status == NO_ERROR) {
status = p->status;
}
uint32_t size = 0;
if (status == NO_ERROR) {
size = *((int32_t *)p->data + 1);
}
mCaptureSize = size;
ALOGV("initCaptureSize size %d status %d", mCaptureSize, status);
return size;
}
void Visualizer::controlStatusChanged(bool controlGranted) {
if (controlGranted) {
// this Visualizer instance regained control of the effect, reset the scaling mode
// and capture size as has been cached through it.
ALOGV("controlStatusChanged(true) causes effect parameter reset:");
ALOGV(" scaling mode reset to %d", mScalingMode);
setScalingMode(mScalingMode);
ALOGV(" capture size reset to %d", mCaptureSize);
setCaptureSize(mCaptureSize);
}
AudioEffect::controlStatusChanged(controlGranted);
}
//-------------------------------------------------------------------------
Visualizer::CaptureThread::CaptureThread(Visualizer* receiver, uint32_t captureRate,
bool bCanCallJava)
: Thread(bCanCallJava), mReceiver(receiver)
{
mSleepTimeUs = 1000000000 / captureRate;
ALOGV("CaptureThread cstor %p captureRate %d mSleepTimeUs %d", this, captureRate, mSleepTimeUs);
}
bool Visualizer::CaptureThread::threadLoop()
{
ALOGV("CaptureThread %p enter", this);
sp<Visualizer> receiver = mReceiver.promote();
if (receiver == NULL) {
return false;
}
while (!exitPending())
{
usleep(mSleepTimeUs);
receiver->periodicCapture();
}
ALOGV("CaptureThread %p exiting", this);
return false;
}
} // namespace android
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