/*
* Copyright (C) 2018 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 "ACameraManagerVendor"
#include <memory>
#include "ndk_vendor/impl/ACameraManager.h"
#include "ACameraMetadata.h"
#include "ndk_vendor/impl/ACameraDevice.h"
#include "utils.h"
#include <CameraMetadata.h>
#include <camera_metadata_hidden.h>
#include <utils/Vector.h>
#include <cutils/properties.h>
#include <stdlib.h>
#include <VendorTagDescriptor.h>
using namespace android::acam;
namespace android {
namespace acam {
using frameworks::cameraservice::service::V2_0::CameraStatusAndId;
using frameworks::cameraservice::common::V2_0::ProviderIdAndVendorTagSections;
using android::hardware::camera::common::V1_0::helper::VendorTagDescriptor;
using android::hardware::camera::common::V1_0::helper::VendorTagDescriptorCache;
// Static member definitions
const char* CameraManagerGlobal::kCameraIdKey = "CameraId";
const char* CameraManagerGlobal::kCallbackFpKey = "CallbackFp";
const char* CameraManagerGlobal::kContextKey = "CallbackContext";
Mutex CameraManagerGlobal::sLock;
CameraManagerGlobal* CameraManagerGlobal::sInstance = nullptr;
/**
* The vendor tag descriptor class that takes HIDL vendor tag information as
* input. Not part of vendor available VendorTagDescriptor class because that class is used by
* default HAL implementation code as well.
*/
class HidlVendorTagDescriptor : public VendorTagDescriptor {
public:
/**
* Create a VendorTagDescriptor object from the HIDL VendorTagSection
* vector.
*
* Returns OK on success, or a negative error code.
*/
static status_t createDescriptorFromHidl(const hidl_vec<VendorTagSection>& vts,
/*out*/ sp<VendorTagDescriptor> *descriptor);
};
status_t HidlVendorTagDescriptor::createDescriptorFromHidl(const hidl_vec<VendorTagSection> &vts,
sp<VendorTagDescriptor> *descriptor) {
int tagCount = 0;
for (size_t s = 0; s < vts.size(); s++) {
tagCount += vts[s].tags.size();
}
if (tagCount < 0 || tagCount > INT32_MAX) {
ALOGE("%s: tag count %d from vendor tag sections is invalid.", __FUNCTION__, tagCount);
return BAD_VALUE;
}
Vector<uint32_t> tagArray;
LOG_ALWAYS_FATAL_IF(tagArray.resize(tagCount) != tagCount,
"%s: too many (%u) vendor tags defined.", __FUNCTION__, tagCount);
sp<HidlVendorTagDescriptor> desc = new HidlVendorTagDescriptor();
desc->mTagCount = tagCount;
KeyedVector<uint32_t, String8> tagToSectionMap;
int idx = 0;
for (size_t s = 0; s < vts.size(); s++) {
const VendorTagSection& section = vts[s];
const char *sectionName = section.sectionName.c_str();
if (sectionName == NULL) {
ALOGE("%s: no section name defined for vendor tag section %zu.", __FUNCTION__, s);
return BAD_VALUE;
}
String8 sectionString(sectionName);
desc->mSections.add(sectionString);
for (size_t j = 0; j < section.tags.size(); j++) {
uint32_t tag = section.tags[j].tagId;
if (tag < CAMERA_METADATA_VENDOR_TAG_BOUNDARY) {
ALOGE("%s: vendor tag %d not in vendor tag section.", __FUNCTION__, tag);
return BAD_VALUE;
}
tagArray.editItemAt(idx++) = section.tags[j].tagId;
const char *tagName = section.tags[j].tagName.c_str();
if (tagName == NULL) {
ALOGE("%s: no tag name defined for vendor tag %d.", __FUNCTION__, tag);
return BAD_VALUE;
}
desc->mTagToNameMap.add(tag, String8(tagName));
tagToSectionMap.add(tag, sectionString);
int tagType = (int) section.tags[j].tagType;
if (tagType < 0 || tagType >= NUM_TYPES) {
ALOGE("%s: tag type %d from vendor ops does not exist.", __FUNCTION__, tagType);
return BAD_VALUE;
}
desc->mTagToTypeMap.emplace(tag, tagType);
}
}
for (size_t i = 0; i < tagArray.size(); ++i) {
uint32_t tag = tagArray[i];
String8 sectionString = tagToSectionMap.valueFor(tag);
// Set up tag to section index map
ssize_t index = desc->mSections.indexOf(sectionString);
LOG_ALWAYS_FATAL_IF(index < 0, "index %zd must be non-negative", index);
desc->mTagToSectionMap.add(tag, static_cast<uint32_t>(index));
// Set up reverse mapping
ssize_t reverseIndex = -1;
if ((reverseIndex = desc->mReverseMapping.indexOfKey(sectionString)) < 0) {
KeyedVector<String8, uint32_t>* nameMapper = new KeyedVector<String8, uint32_t>();
reverseIndex = desc->mReverseMapping.add(sectionString, nameMapper);
}
desc->mReverseMapping[reverseIndex]->add(desc->mTagToNameMap.valueFor(tag), tag);
}
*descriptor = std::move(desc);
return OK;
}
CameraManagerGlobal&
CameraManagerGlobal::getInstance() {
Mutex::Autolock _l(sLock);
CameraManagerGlobal* instance = sInstance;
if (instance == nullptr) {
instance = new CameraManagerGlobal();
sInstance = instance;
}
return *instance;
}
CameraManagerGlobal::~CameraManagerGlobal() {
// clear sInstance so next getInstance call knows to create a new one
Mutex::Autolock _sl(sLock);
sInstance = nullptr;
Mutex::Autolock _l(mLock);
if (mCameraService != nullptr) {
mCameraService->unlinkToDeath(mDeathNotifier);
mCameraService->removeListener(mCameraServiceListener);
}
mDeathNotifier.clear();
if (mCbLooper != nullptr) {
mCbLooper->unregisterHandler(mHandler->id());
mCbLooper->stop();
}
mCbLooper.clear();
mHandler.clear();
mCameraServiceListener.clear();
mCameraService.clear();
}
static bool isCameraServiceDisabled() {
char value[PROPERTY_VALUE_MAX];
property_get("config.disable_cameraservice", value, "0");
return (strncmp(value, "0", 2) != 0 && strncasecmp(value, "false", 6) != 0);
}
bool CameraManagerGlobal::setupVendorTags() {
sp<VendorTagDescriptorCache> tagCache = new VendorTagDescriptorCache();
Status status = Status::NO_ERROR;
std::vector<ProviderIdAndVendorTagSections> providerIdsAndVts;
auto remoteRet = mCameraService->getCameraVendorTagSections([&status, &providerIdsAndVts]
(Status s,
auto &IdsAndVts) {
status = s;
providerIdsAndVts = IdsAndVts; });
if (!remoteRet.isOk() || status != Status::NO_ERROR) {
ALOGE("Failed to retrieve VendorTagSections %s", remoteRet.description().c_str());
return false;
}
// Convert each providers VendorTagSections into a VendorTagDescriptor and
// add it to the cache
for (auto &providerIdAndVts : providerIdsAndVts) {
sp<VendorTagDescriptor> vendorTagDescriptor;
if (HidlVendorTagDescriptor::createDescriptorFromHidl(providerIdAndVts.vendorTagSections,
&vendorTagDescriptor) != OK) {
ALOGE("Failed to convert from Hidl: VendorTagDescriptor");
return false;
}
tagCache->addVendorDescriptor(providerIdAndVts.providerId, vendorTagDescriptor);
}
VendorTagDescriptorCache::setAsGlobalVendorTagCache(tagCache);
return true;
}
sp<ICameraService> CameraManagerGlobal::getCameraService() {
Mutex::Autolock _l(mLock);
if (mCameraService.get() == nullptr) {
if (isCameraServiceDisabled()) {
return mCameraService;
}
sp<ICameraService> cameraServiceBinder;
do {
cameraServiceBinder = ICameraService::getService();
if (cameraServiceBinder != nullptr) {
break;
}
ALOGW("CameraService not published, waiting...");
usleep(kCameraServicePollDelay);
} while(true);
if (mDeathNotifier == nullptr) {
mDeathNotifier = new DeathNotifier(this);
}
cameraServiceBinder->linkToDeath(mDeathNotifier, 0);
mCameraService = cameraServiceBinder;
// Setup looper thread to perfrom availiability callbacks
if (mCbLooper == nullptr) {
mCbLooper = new ALooper;
mCbLooper->setName("C2N-mgr-looper");
status_t err = mCbLooper->start(
/*runOnCallingThread*/false,
/*canCallJava*/ true,
PRIORITY_DEFAULT);
if (err != OK) {
ALOGE("%s: Unable to start camera service listener looper: %s (%d)",
__FUNCTION__, strerror(-err), err);
mCbLooper.clear();
return nullptr;
}
if (mHandler == nullptr) {
mHandler = new CallbackHandler();
}
mCbLooper->registerHandler(mHandler);
}
// register ICameraServiceListener
if (mCameraServiceListener == nullptr) {
mCameraServiceListener = new CameraServiceListener(this);
}
hidl_vec<CameraStatusAndId> cameraStatuses{};
Status status = Status::NO_ERROR;
auto remoteRet = mCameraService->addListener(mCameraServiceListener,
[&status, &cameraStatuses](Status s,
auto &retStatuses) {
status = s;
cameraStatuses = retStatuses;
});
if (!remoteRet.isOk() || status != Status::NO_ERROR) {
ALOGE("Failed to add listener to camera service %s", remoteRet.description().c_str());
}
// Setup vendor tags
if (!setupVendorTags()) {
ALOGE("Unable to set up vendor tags");
return nullptr;
}
for (auto& c : cameraStatuses) {
onStatusChangedLocked(c);
}
}
return mCameraService;
}
void CameraManagerGlobal::DeathNotifier::serviceDied(uint64_t cookie, const wp<IBase> &who) {
(void) cookie;
(void) who;
ALOGE("Camera service binderDied!");
sp<CameraManagerGlobal> cm = mCameraManager.promote();
if (cm != nullptr) {
AutoMutex lock(cm->mLock);
for (auto& pair : cm->mDeviceStatusMap) {
CameraStatusAndId cameraStatusAndId;
cameraStatusAndId.cameraId = pair.first;
cameraStatusAndId.deviceStatus = pair.second;
cm->onStatusChangedLocked(cameraStatusAndId);
}
cm->mCameraService.clear();
// TODO: consider adding re-connect call here?
}
}
void CameraManagerGlobal::registerAvailabilityCallback(
const ACameraManager_AvailabilityCallbacks *callback) {
Mutex::Autolock _l(mLock);
Callback cb(callback);
auto pair = mCallbacks.insert(cb);
// Send initial callbacks if callback is newly registered
if (pair.second) {
for (auto& pair : mDeviceStatusMap) {
const hidl_string& cameraId = pair.first;
CameraDeviceStatus status = pair.second;
sp<AMessage> msg = new AMessage(kWhatSendSingleCallback, mHandler);
ACameraManager_AvailabilityCallback cb = isStatusAvailable(status) ?
callback->onCameraAvailable : callback->onCameraUnavailable;
msg->setPointer(kCallbackFpKey, (void *) cb);
msg->setPointer(kContextKey, callback->context);
msg->setString(kCameraIdKey, AString(cameraId.c_str()));
msg->post();
}
}
}
void CameraManagerGlobal::unregisterAvailabilityCallback(
const ACameraManager_AvailabilityCallbacks *callback) {
Mutex::Autolock _l(mLock);
Callback cb(callback);
mCallbacks.erase(cb);
}
void CameraManagerGlobal::getCameraIdList(std::vector<hidl_string>* cameraIds) {
// Ensure that we have initialized/refreshed the list of available devices
auto cs = getCameraService();
Mutex::Autolock _l(mLock);
for(auto& deviceStatus : mDeviceStatusMap) {
if (deviceStatus.second == CameraDeviceStatus::STATUS_NOT_PRESENT ||
deviceStatus.second == CameraDeviceStatus::STATUS_ENUMERATING) {
continue;
}
cameraIds->push_back(deviceStatus.first);
}
}
bool CameraManagerGlobal::validStatus(CameraDeviceStatus status) {
switch (status) {
case CameraDeviceStatus::STATUS_NOT_PRESENT:
case CameraDeviceStatus::STATUS_PRESENT:
case CameraDeviceStatus::STATUS_ENUMERATING:
case CameraDeviceStatus::STATUS_NOT_AVAILABLE:
return true;
default:
return false;
}
}
bool CameraManagerGlobal::isStatusAvailable(CameraDeviceStatus status) {
switch (status) {
case CameraDeviceStatus::STATUS_PRESENT:
return true;
default:
return false;
}
}
void CameraManagerGlobal::CallbackHandler::onMessageReceived(
const sp<AMessage> &msg) {
switch (msg->what()) {
case kWhatSendSingleCallback:
{
ACameraManager_AvailabilityCallback cb;
void* context;
AString cameraId;
bool found = msg->findPointer(kCallbackFpKey, (void**) &cb);
if (!found) {
ALOGE("%s: Cannot find camera callback fp!", __FUNCTION__);
return;
}
found = msg->findPointer(kContextKey, &context);
if (!found) {
ALOGE("%s: Cannot find callback context!", __FUNCTION__);
return;
}
found = msg->findString(kCameraIdKey, &cameraId);
if (!found) {
ALOGE("%s: Cannot find camera ID!", __FUNCTION__);
return;
}
(*cb)(context, cameraId.c_str());
break;
}
default:
ALOGE("%s: unknown message type %d", __FUNCTION__, msg->what());
break;
}
}
hardware::Return<void> CameraManagerGlobal::CameraServiceListener::onStatusChanged(
const CameraStatusAndId &statusAndId) {
sp<CameraManagerGlobal> cm = mCameraManager.promote();
if (cm != nullptr) {
cm->onStatusChanged(statusAndId);
} else {
ALOGE("Cannot deliver status change. Global camera manager died");
}
return Void();
}
void CameraManagerGlobal::onStatusChanged(
const CameraStatusAndId &statusAndId) {
Mutex::Autolock _l(mLock);
onStatusChangedLocked(statusAndId);
}
void CameraManagerGlobal::onStatusChangedLocked(
const CameraStatusAndId &statusAndId) {
hidl_string cameraId = statusAndId.cameraId;
CameraDeviceStatus status = statusAndId.deviceStatus;
if (!validStatus(status)) {
ALOGE("%s: Invalid status %d", __FUNCTION__, status);
return;
}
bool firstStatus = (mDeviceStatusMap.count(cameraId) == 0);
CameraDeviceStatus oldStatus = firstStatus ?
status : // first status
mDeviceStatusMap[cameraId];
if (!firstStatus &&
isStatusAvailable(status) == isStatusAvailable(oldStatus)) {
// No status update. No need to send callback
return;
}
// Iterate through all registered callbacks
mDeviceStatusMap[cameraId] = status;
for (auto cb : mCallbacks) {
sp<AMessage> msg = new AMessage(kWhatSendSingleCallback, mHandler);
ACameraManager_AvailabilityCallback cbFp = isStatusAvailable(status) ?
cb.mAvailable : cb.mUnavailable;
msg->setPointer(kCallbackFpKey, (void *) cbFp);
msg->setPointer(kContextKey, cb.mContext);
msg->setString(kCameraIdKey, AString(cameraId.c_str()));
msg->post();
}
if (status == CameraDeviceStatus::STATUS_NOT_PRESENT) {
mDeviceStatusMap.erase(cameraId);
}
}
} // namespace acam
} // namespace android
/**
* ACameraManger Implementation
*/
camera_status_t
ACameraManager::getCameraIdList(ACameraIdList** cameraIdList) {
Mutex::Autolock _l(mLock);
std::vector<hidl_string> idList;
CameraManagerGlobal::getInstance().getCameraIdList(&idList);
int numCameras = idList.size();
ACameraIdList *out = new ACameraIdList;
if (!out) {
ALOGE("Allocate memory for ACameraIdList failed!");
return ACAMERA_ERROR_NOT_ENOUGH_MEMORY;
}
out->numCameras = numCameras;
out->cameraIds = new const char*[numCameras];
if (!out->cameraIds) {
ALOGE("Allocate memory for ACameraIdList failed!");
deleteCameraIdList(out);
return ACAMERA_ERROR_NOT_ENOUGH_MEMORY;
}
for (int i = 0; i < numCameras; i++) {
const char* src = idList[i].c_str();
size_t dstSize = strlen(src) + 1;
char* dst = new char[dstSize];
if (!dst) {
ALOGE("Allocate memory for ACameraIdList failed!");
deleteCameraIdList(out);
return ACAMERA_ERROR_NOT_ENOUGH_MEMORY;
}
strlcpy(dst, src, dstSize);
out->cameraIds[i] = dst;
}
*cameraIdList = out;
return ACAMERA_OK;
}
void
ACameraManager::deleteCameraIdList(ACameraIdList* cameraIdList) {
if (cameraIdList != nullptr) {
if (cameraIdList->cameraIds != nullptr) {
for (int i = 0; i < cameraIdList->numCameras; i ++) {
if (cameraIdList->cameraIds[i] != nullptr) {
delete[] cameraIdList->cameraIds[i];
}
}
delete[] cameraIdList->cameraIds;
}
delete cameraIdList;
}
}
camera_status_t ACameraManager::getCameraCharacteristics(
const char *cameraIdStr, sp<ACameraMetadata> *characteristics) {
Mutex::Autolock _l(mLock);
sp<ICameraService> cs = CameraManagerGlobal::getInstance().getCameraService();
if (cs == nullptr) {
ALOGE("%s: Cannot reach camera service!", __FUNCTION__);
return ACAMERA_ERROR_CAMERA_DISCONNECTED;
}
CameraMetadata rawMetadata;
Status status = Status::NO_ERROR;
auto serviceRet =
cs->getCameraCharacteristics(cameraIdStr,
[&status, &rawMetadata] (auto s ,
const hidl_vec<uint8_t> &metadata) {
status = s;
if (status == Status::NO_ERROR) {
utils::convertFromHidlCloned(metadata, &rawMetadata);
}
});
if (!serviceRet.isOk() || status != Status::NO_ERROR) {
ALOGE("Get camera characteristics from camera service failed");
return ACAMERA_ERROR_UNKNOWN; // should not reach here
}
*characteristics = new ACameraMetadata(
rawMetadata.release(), ACameraMetadata::ACM_CHARACTERISTICS);
return ACAMERA_OK;
}
camera_status_t
ACameraManager::openCamera(
const char* cameraId,
ACameraDevice_StateCallbacks* callback,
/*out*/ACameraDevice** outDevice) {
sp<ACameraMetadata> rawChars;
camera_status_t ret = getCameraCharacteristics(cameraId, &rawChars);
Mutex::Autolock _l(mLock);
if (ret != ACAMERA_OK) {
ALOGE("%s: cannot get camera characteristics for camera %s. err %d",
__FUNCTION__, cameraId, ret);
return ACAMERA_ERROR_INVALID_PARAMETER;
}
ACameraDevice* device = new ACameraDevice(cameraId, callback, std::move(rawChars));
sp<ICameraService> cs = CameraManagerGlobal::getInstance().getCameraService();
if (cs == nullptr) {
ALOGE("%s: Cannot reach camera service!", __FUNCTION__);
delete device;
return ACAMERA_ERROR_CAMERA_DISCONNECTED;
}
sp<ICameraDeviceCallback> callbacks = device->getServiceCallback();
sp<ICameraDeviceUser> deviceRemote;
// No way to get package name from native.
// Send a zero length package name and let camera service figure it out from UID
Status status = Status::NO_ERROR;
auto serviceRet = cs->connectDevice(
callbacks, cameraId, [&status, &deviceRemote](auto s, auto &device) {
status = s;
deviceRemote = device;
});
if (!serviceRet.isOk() || status != Status::NO_ERROR) {
ALOGE("%s: connect camera device failed", __FUNCTION__);
// TODO: Convert serviceRet to camera_status_t
delete device;
return ACAMERA_ERROR_UNKNOWN;
}
if (deviceRemote == nullptr) {
ALOGE("%s: connect camera device failed! remote device is null", __FUNCTION__);
delete device;
return ACAMERA_ERROR_CAMERA_DISCONNECTED;
}
device->setRemoteDevice(deviceRemote);
device->setDeviceMetadataQueues();
*outDevice = device;
return ACAMERA_OK;
}
camera_status_t
ACameraManager::getTagFromName(const char *cameraId, const char *name, uint32_t *tag) {
sp<ACameraMetadata> rawChars;
camera_status_t ret = getCameraCharacteristics(cameraId, &rawChars);
if (ret != ACAMERA_OK) {
ALOGE("%s, Cannot retrieve camera characteristics for camera id %s", __FUNCTION__,
cameraId);
return ACAMERA_ERROR_METADATA_NOT_FOUND;
}
const CameraMetadata& metadata = rawChars->getInternalData();
const camera_metadata_t *rawMetadata = metadata.getAndLock();
metadata_vendor_id_t vendorTagId = get_camera_metadata_vendor_id(rawMetadata);
metadata.unlock(rawMetadata);
sp<VendorTagDescriptorCache> vtCache = VendorTagDescriptorCache::getGlobalVendorTagCache();
sp<VendorTagDescriptor> vTags = nullptr;
vtCache->getVendorTagDescriptor(vendorTagId, &vTags);
status_t status= metadata.getTagFromName(name, vTags.get(), tag);
return status == OK ? ACAMERA_OK : ACAMERA_ERROR_METADATA_NOT_FOUND;
}
ACameraManager::~ACameraManager() {
}