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android / platform / system / core / c724fb670f3a57d123cda7ba8bbea9d38eb069db / . / libstats / push_compat / StatsEventCompat.cpp
blob: e1a86ae1a842b17c55332787b80b95c4de46283b [file] [log] [blame]
/*
* Copyright (C) 2019 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 "include/StatsEventCompat.h"
#include <chrono>
#include <android-base/chrono_utils.h>
#include <android-base/properties.h>
#include <android/api-level.h>
#include <android/log.h>
#include <dlfcn.h>
using android::base::boot_clock;
using android::base::GetProperty;
const static int kStatsEventTag = 1937006964;
/* Checking ro.build.version.release is fragile, as the release field is
* an opaque string without structural guarantees. However, testing confirms
* that on Q devices, the property is "10," and on R, it is "R." Until
* android_get_device_api_level() is updated, this is the only solution.
*
* TODO(b/146019024): migrate to android_get_device_api_level()
*/
const bool StatsEventCompat::mPlatformAtLeastR =
GetProperty("ro.build.version.codename", "") == "R" ||
android_get_device_api_level() > __ANDROID_API_Q__;
// initializations of static class variables
bool StatsEventCompat::mAttemptedLoad = false;
std::mutex StatsEventCompat::mLoadLock;
AStatsEventApi StatsEventCompat::mAStatsEventApi;
static int64_t elapsedRealtimeNano() {
return std::chrono::time_point_cast<std::chrono::nanoseconds>(boot_clock::now())
.time_since_epoch()
.count();
}
StatsEventCompat::StatsEventCompat() : mEventQ(kStatsEventTag) {
// guard loading because StatsEventCompat might be called from multithreaded
// environment
{
std::lock_guard<std::mutex> lg(mLoadLock);
if (!mAttemptedLoad && mPlatformAtLeastR) {
void* handle = dlopen("libstatssocket.so", RTLD_NOW);
if (handle) {
initializeApiTableLocked(handle);
} else {
ALOGE("dlopen failed: %s\n", dlerror());
}
}
mAttemptedLoad = true;
}
if (useRSchema()) {
mEventR = mAStatsEventApi.obtain();
} else if (useQSchema()) {
mEventQ << elapsedRealtimeNano();
}
}
StatsEventCompat::~StatsEventCompat() {
if (useRSchema()) mAStatsEventApi.release(mEventR);
}
// Populates the AStatsEventApi struct by calling dlsym to find the address of
// each API function.
void StatsEventCompat::initializeApiTableLocked(void* handle) {
mAStatsEventApi.obtain = (AStatsEvent* (*)())dlsym(handle, "AStatsEvent_obtain");
mAStatsEventApi.build = (void (*)(AStatsEvent*))dlsym(handle, "AStatsEvent_build");
mAStatsEventApi.write = (int (*)(AStatsEvent*))dlsym(handle, "AStatsEvent_write");
mAStatsEventApi.release = (void (*)(AStatsEvent*))dlsym(handle, "AStatsEvent_release");
mAStatsEventApi.setAtomId =
(void (*)(AStatsEvent*, uint32_t))dlsym(handle, "AStatsEvent_setAtomId");
mAStatsEventApi.writeInt32 =
(void (*)(AStatsEvent*, int32_t))dlsym(handle, "AStatsEvent_writeInt32");
mAStatsEventApi.writeInt64 =
(void (*)(AStatsEvent*, int64_t))dlsym(handle, "AStatsEvent_writeInt64");
mAStatsEventApi.writeFloat =
(void (*)(AStatsEvent*, float))dlsym(handle, "AStatsEvent_writeFloat");
mAStatsEventApi.writeBool =
(void (*)(AStatsEvent*, bool))dlsym(handle, "AStatsEvent_writeBool");
mAStatsEventApi.writeByteArray = (void (*)(AStatsEvent*, const uint8_t*, size_t))dlsym(
handle, "AStatsEvent_writeByteArray");
mAStatsEventApi.writeString =
(void (*)(AStatsEvent*, const char*))dlsym(handle, "AStatsEvent_writeString");
mAStatsEventApi.writeAttributionChain =
(void (*)(AStatsEvent*, const uint32_t*, const char* const*, uint8_t))dlsym(
handle, "AStatsEvent_writeAttributionChain");
mAStatsEventApi.addBoolAnnotation =
(void (*)(AStatsEvent*, uint8_t, bool))dlsym(handle, "AStatsEvent_addBoolAnnotation");
mAStatsEventApi.addInt32Annotation = (void (*)(AStatsEvent*, uint8_t, int32_t))dlsym(
handle, "AStatsEvent_addInt32Annotation");
mAStatsEventApi.initialized = true;
}
void StatsEventCompat::setAtomId(int32_t atomId) {
if (useRSchema()) {
mAStatsEventApi.setAtomId(mEventR, (uint32_t)atomId);
} else if (useQSchema()) {
mEventQ << atomId;
}
}
void StatsEventCompat::writeInt32(int32_t value) {
if (useRSchema()) {
mAStatsEventApi.writeInt32(mEventR, value);
} else if (useQSchema()) {
mEventQ << value;
}
}
void StatsEventCompat::writeInt64(int64_t value) {
if (useRSchema()) {
mAStatsEventApi.writeInt64(mEventR, value);
} else if (useQSchema()) {
mEventQ << value;
}
}
void StatsEventCompat::writeFloat(float value) {
if (useRSchema()) {
mAStatsEventApi.writeFloat(mEventR, value);
} else if (useQSchema()) {
mEventQ << value;
}
}
void StatsEventCompat::writeBool(bool value) {
if (useRSchema()) {
mAStatsEventApi.writeBool(mEventR, value);
} else if (useQSchema()) {
mEventQ << value;
}
}
void StatsEventCompat::writeByteArray(const char* buffer, size_t length) {
if (useRSchema()) {
mAStatsEventApi.writeByteArray(mEventR, reinterpret_cast<const uint8_t*>(buffer), length);
} else if (useQSchema()) {
mEventQ.AppendCharArray(buffer, length);
}
}
void StatsEventCompat::writeString(const char* value) {
if (value == nullptr) value = "";
if (useRSchema()) {
mAStatsEventApi.writeString(mEventR, value);
} else if (useQSchema()) {
mEventQ << value;
}
}
void StatsEventCompat::writeAttributionChain(const int32_t* uids, size_t numUids,
const vector<const char*>& tags) {
if (useRSchema()) {
mAStatsEventApi.writeAttributionChain(mEventR, (const uint32_t*)uids, tags.data(),
(uint8_t)numUids);
} else if (useQSchema()) {
mEventQ.begin();
for (size_t i = 0; i < numUids; i++) {
mEventQ.begin();
mEventQ << uids[i];
const char* tag = tags[i] ? tags[i] : "";
mEventQ << tag;
mEventQ.end();
}
mEventQ.end();
}
}
void StatsEventCompat::writeKeyValuePairs(const map<int, int32_t>& int32Map,
const map<int, int64_t>& int64Map,
const map<int, const char*>& stringMap,
const map<int, float>& floatMap) {
// AStatsEvent does not support key value pairs.
if (useQSchema()) {
mEventQ.begin();
writeKeyValuePairMap(int32Map);
writeKeyValuePairMap(int64Map);
writeKeyValuePairMap(stringMap);
writeKeyValuePairMap(floatMap);
mEventQ.end();
}
}
template <class T>
void StatsEventCompat::writeKeyValuePairMap(const map<int, T>& keyValuePairMap) {
for (const auto& it : keyValuePairMap) {
mEventQ.begin();
mEventQ << it.first;
mEventQ << it.second;
mEventQ.end();
}
}
// explicitly specify which types we're going to use
template void StatsEventCompat::writeKeyValuePairMap<int32_t>(const map<int, int32_t>&);
template void StatsEventCompat::writeKeyValuePairMap<int64_t>(const map<int, int64_t>&);
template void StatsEventCompat::writeKeyValuePairMap<float>(const map<int, float>&);
template void StatsEventCompat::writeKeyValuePairMap<const char*>(const map<int, const char*>&);
void StatsEventCompat::addBoolAnnotation(uint8_t annotationId, bool value) {
if (useRSchema()) {
mAStatsEventApi.addBoolAnnotation(mEventR, annotationId, value);
}
// Don't do anything if on Q.
}
void StatsEventCompat::addInt32Annotation(uint8_t annotationId, int32_t value) {
if (useRSchema()) {
mAStatsEventApi.addInt32Annotation(mEventR, annotationId, value);
}
// Don't do anything if on Q.
}
int StatsEventCompat::writeToSocket() {
if (useRSchema()) {
mAStatsEventApi.build(mEventR);
return mAStatsEventApi.write(mEventR);
}
if (useQSchema()) return mEventQ.write(LOG_ID_STATS);
// We reach here only if we're on R, but libstatssocket was unable to
// be loaded using dlopen.
return -ENOLINK;
}
bool StatsEventCompat::useRSchema() {
return mPlatformAtLeastR && mAStatsEventApi.initialized;
}
bool StatsEventCompat::useQSchema() {
return !mPlatformAtLeastR;
}