/* * Copyright (C) 2017 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 "MediaMetricsService" #include #include "MediaMetricsService.h" #include "ValidateId.h" #include "iface_statsd.h" #include //getpwuid #include #include // package info #include // clock conversions #include // get calling uid #include // checkCallingPermission #include // for property_get #include #include #include // UID #include #include namespace android { using base::StringPrintf; using mediametrics::Item; using mediametrics::startsWith; // individual records kept in memory: age or count // age: <= 28 hours (1 1/6 days) // count: hard limit of # records // (0 for either of these disables that threshold) // static constexpr nsecs_t kMaxRecordAgeNs = 28 * 3600 * NANOS_PER_SECOND; // 2019/6: average daily per device is currently 375-ish; // setting this to 2000 is large enough to catch most devices // we'll lose some data on very very media-active devices, but only for // the gms collection; statsd will have already covered those for us. // This also retains enough information to help with bugreports static constexpr size_t kMaxRecords = 2000; // max we expire in a single call, to constrain how long we hold the // mutex, which also constrains how long a client might wait. static constexpr size_t kMaxExpiredAtOnce = 50; // TODO: need to look at tuning kMaxRecords and friends for low-memory devices /* static */ nsecs_t MediaMetricsService::roundTime(nsecs_t timeNs) { return (timeNs + NANOS_PER_SECOND / 2) / NANOS_PER_SECOND * NANOS_PER_SECOND; } /* static */ bool MediaMetricsService::useUidForPackage( const std::string& package, const std::string& installer) { // NOLINTBEGIN(bugprone-branch-clone) if (strchr(package.c_str(), '.') == nullptr) { return false; // not of form 'com.whatever...'; assume internal and ok } else if (strncmp(package.c_str(), "android.", 8) == 0) { return false; // android.* packages are assumed fine } else if (strncmp(installer.c_str(), "com.android.", 12) == 0) { return false; // from play store } else if (strncmp(installer.c_str(), "com.google.", 11) == 0) { return false; // some google source } else if (strcmp(installer.c_str(), "preload") == 0) { return false; // preloads } else { return true; // we're not sure where it came from, use uid only. } // NOLINTEND(bugprone-branch-clone) } /* static */ std::pair MediaMetricsService::getSanitizedPackageNameAndVersionCode(uid_t uid) { // Meyer's singleton, initialized on first access. // mUidInfo is locked internally. static mediautils::UidInfo uidInfo; // get info. mediautils::UidInfo::Info info = uidInfo.getInfo(uid); if (useUidForPackage(info.package, info.installer)) { return { std::to_string(uid), /* versionCode */ 0 }; } else { return { info.package, info.versionCode }; } } MediaMetricsService::MediaMetricsService() : mMaxRecords(kMaxRecords), mMaxRecordAgeNs(kMaxRecordAgeNs), mMaxRecordsExpiredAtOnce(kMaxExpiredAtOnce) { ALOGD("%s", __func__); } MediaMetricsService::~MediaMetricsService() { ALOGD("%s", __func__); // the class destructor clears anyhow, but we enforce clearing items first. mItemsDiscarded += (int64_t)mItems.size(); mItems.clear(); } status_t MediaMetricsService::submitInternal(mediametrics::Item *item, bool release) { // calling PID is 0 for one-way calls. const pid_t pid = IPCThreadState::self()->getCallingPid(); const pid_t pid_given = item->getPid(); const uid_t uid = IPCThreadState::self()->getCallingUid(); const uid_t uid_given = item->getUid(); //ALOGD("%s: caller pid=%d uid=%d, item pid=%d uid=%d", __func__, // (int)pid, (int)uid, (int) pid_given, (int)uid_given); bool isTrusted; switch (uid) { case AID_AUDIOSERVER: case AID_BLUETOOTH: case AID_CAMERA: case AID_DRM: case AID_MEDIA: case AID_MEDIA_CODEC: case AID_MEDIA_EX: case AID_MEDIA_DRM: // case AID_SHELL: // DEBUG ONLY - used for mediametrics_tests to add new keys case AID_SYSTEM: // trusted source, only override default values isTrusted = true; if (uid_given == (uid_t)-1) { item->setUid(uid); } if (pid_given == (pid_t)-1) { item->setPid(pid); // if one-way then this is 0. } break; default: isTrusted = false; item->setPid(pid); // always use calling pid, if one-way then this is 0. item->setUid(uid); break; } // Overwrite package name and version if the caller was untrusted or empty if (!isTrusted || item->getPkgName().empty()) { const uid_t uidItem = item->getUid(); const auto [ pkgName, version ] = MediaMetricsService::getSanitizedPackageNameAndVersionCode(uidItem); item->setPkgName(pkgName); item->setPkgVersionCode(version); } ALOGV("%s: isTrusted:%d given uid %d; sanitized uid: %d sanitized pkg: %s " "sanitized pkg version: %lld", __func__, (int)isTrusted, uid_given, item->getUid(), item->getPkgName().c_str(), (long long)item->getPkgVersionCode()); mItemsSubmitted++; // validate the record; we discard if we don't like it if (isContentValid(item, isTrusted) == false) { if (release) delete item; return PERMISSION_DENIED; } // XXX: if we have a sessionid in the new record, look to make // sure it doesn't appear in the finalized list. if (item->count() == 0) { ALOGV("%s: dropping empty record...", __func__); if (release) delete item; return BAD_VALUE; } if (!isTrusted || item->getTimestamp() == 0) { // Statsd logs two times for events: ElapsedRealTimeNs (BOOTTIME) and // WallClockTimeNs (REALTIME), but currently logs REALTIME to cloud. // // For consistency and correlation with other logging mechanisms // we use REALTIME here. const int64_t now = systemTime(SYSTEM_TIME_REALTIME); item->setTimestamp(now); } // now attach either the item or its dup to a const shared pointer std::shared_ptr sitem(release ? item : item->dup()); // register log session ids with singleton. if (startsWith(item->getKey(), "metrics.manager")) { std::string logSessionId; if (item->get("logSessionId", &logSessionId) && mediametrics::stringutils::isLogSessionId(logSessionId.c_str())) { mediametrics::ValidateId::get()->registerId(logSessionId); } } (void)mAudioAnalytics.submit(sitem, isTrusted); (void)dump2Statsd(sitem, mStatsdLog); // failure should be logged in function. saveItem(sitem); return NO_ERROR; } status_t MediaMetricsService::dump(int fd, const Vector& args) { if (checkCallingPermission(String16("android.permission.DUMP")) == false) { const std::string result = StringPrintf("Permission Denial: " "can't dump MediaMetricsService from pid=%d, uid=%d\n", IPCThreadState::self()->getCallingPid(), IPCThreadState::self()->getCallingUid()); write(fd, result.c_str(), result.size()); return NO_ERROR; } static const String16 allOption("--all"); static const String16 clearOption("--clear"); static const String16 heapOption("--heap"); static const String16 helpOption("--help"); static const String16 prefixOption("--prefix"); static const String16 sinceOption("--since"); static const String16 unreachableOption("--unreachable"); bool all = false; bool clear = false; bool heap = false; bool unreachable = false; int64_t sinceNs = 0; std::string prefix; const size_t n = args.size(); for (size_t i = 0; i < n; i++) { if (args[i] == allOption) { all = true; } else if (args[i] == clearOption) { clear = true; } else if (args[i] == heapOption) { heap = true; } else if (args[i] == helpOption) { // TODO: consider function area dumping. // dumpsys media.metrics audiotrack,codec // or dumpsys media.metrics audiotrack codec static constexpr char result[] = "Recognized parameters:\n" "--all show all records\n" "--clear clear out saved records\n" "--heap show heap usage (top 100)\n" "--help display help\n" "--prefix X process records for component X\n" "--since X X < 0: records from -X seconds in the past\n" " X = 0: ignore\n" " X > 0: records from X seconds since Unix epoch\n" "--unreachable show unreachable memory (leaks)\n"; write(fd, result, std::size(result)); return NO_ERROR; } else if (args[i] == prefixOption) { ++i; if (i < n) { prefix = String8(args[i]).c_str(); } } else if (args[i] == sinceOption) { ++i; if (i < n) { String8 value(args[i]); char *endp; const char *p = value.c_str(); const auto sec = (int64_t)strtoll(p, &endp, 10); if (endp == p || *endp != '\0' || sec == 0) { sinceNs = 0; } else if (sec < 0) { sinceNs = systemTime(SYSTEM_TIME_REALTIME) + sec * NANOS_PER_SECOND; } else { sinceNs = sec * NANOS_PER_SECOND; } } } else if (args[i] == unreachableOption) { unreachable = true; } } std::stringstream result; { std::lock_guard _l(mLock); if (clear) { mItemsDiscarded += (int64_t)mItems.size(); mItems.clear(); mAudioAnalytics.clear(); } else { result << StringPrintf("Dump of the %s process:\n", kServiceName); const char *prefixptr = prefix.size() > 0 ? prefix.c_str() : nullptr; result << dumpHeaders(sinceNs, prefixptr); result << dumpQueue(sinceNs, prefixptr); // TODO: maybe consider a better way of dumping audio analytics info. const int32_t linesToDump = all ? INT32_MAX : 1000; auto [ dumpString, lines ] = mAudioAnalytics.dump(linesToDump, sinceNs, prefixptr); result << dumpString; if (lines == linesToDump) { result << "-- some lines may be truncated --\n"; } const int32_t heatLinesToDump = all ? INT32_MAX : 20; const auto [ heatDumpString, heatLines] = mAudioAnalytics.dumpHeatMap(heatLinesToDump); result << "\n" << heatDumpString; if (heatLines == heatLinesToDump) { result << "-- some lines may be truncated --\n"; } const int32_t healthLinesToDump = all ? INT32_MAX : 15; result << "\nHealth Message Log:"; const auto [ healthDumpString, healthLines ] = mAudioAnalytics.dumpHealth(healthLinesToDump); result << "\n" << healthDumpString; if (healthLines == healthLinesToDump) { result << "-- some lines may be truncated --\n"; } const int32_t spatializerLinesToDump = all ? INT32_MAX : 15; result << "\nSpatializer Message Log:"; const auto [ spatializerDumpString, spatializerLines ] = mAudioAnalytics.dumpSpatializer(spatializerLinesToDump); result << "\n" << spatializerDumpString; if (spatializerLines == spatializerLinesToDump) { result << "-- some lines may be truncated --\n"; } result << "\nLogSessionId:\n" << mediametrics::ValidateId::get()->dump(); // Dump the statsd atoms we sent out. result << "\nStatsd atoms:\n" << mStatsdLog->dumpToString(" " /* prefix */, all ? STATSD_LOG_LINES_MAX : STATSD_LOG_LINES_DUMP); } } const std::string str = result.str(); write(fd, str.c_str(), str.size()); // Check heap and unreachable memory outside of lock. if (heap) { dprintf(fd, "\nDumping heap:\n"); std::string s = dumpMemoryAddresses(100 /* limit */); write(fd, s.c_str(), s.size()); } if (unreachable) { dprintf(fd, "\nDumping unreachable memory:\n"); // TODO - should limit be an argument parameter? std::string s = GetUnreachableMemoryString(true /* contents */, 100 /* limit */); write(fd, s.c_str(), s.size()); } return NO_ERROR; } // dump headers std::string MediaMetricsService::dumpHeaders(int64_t sinceNs, const char* prefix) { std::stringstream result; if (mediametrics::Item::isEnabled()) { result << "Metrics gathering: enabled\n"; } else { result << "Metrics gathering: DISABLED via property\n"; } result << StringPrintf( "Since Boot: Submissions: %lld Accepted: %lld\n", (long long)mItemsSubmitted.load(), (long long)mItemsFinalized); result << StringPrintf( "Records Discarded: %lld (by Count: %lld by Expiration: %lld)\n", (long long)mItemsDiscarded, (long long)mItemsDiscardedCount, (long long)mItemsDiscardedExpire); if (prefix != nullptr) { result << "Restricting to prefix " << prefix << "\n"; } if (sinceNs != 0) { result << "Emitting Queue entries more recent than: " << sinceNs << "\n"; } return result.str(); } // TODO: should prefix be a set? std::string MediaMetricsService::dumpQueue(int64_t sinceNs, const char* prefix) { if (mItems.empty()) { return "empty\n"; } std::stringstream result; int slot = 0; for (const auto &item : mItems) { // TODO: consider std::lower_bound() on mItems if (item->getTimestamp() < sinceNs) { // sinceNs == 0 means all items shown continue; } if (prefix != nullptr && !startsWith(item->getKey(), prefix)) { ALOGV("%s: omit '%s', it's not '%s'", __func__, item->getKey().c_str(), prefix); continue; } result << StringPrintf("%5d: %s\n", slot, item->toString().c_str()); slot++; } return result.str(); } // // Our Cheap in-core, non-persistent records management. // if item != NULL, it's the item we just inserted // true == more items eligible to be recovered bool MediaMetricsService::expirations(const std::shared_ptr& item) { bool more = false; // check queue size size_t overlimit = 0; if (mMaxRecords > 0 && mItems.size() > mMaxRecords) { overlimit = mItems.size() - mMaxRecords; if (overlimit > mMaxRecordsExpiredAtOnce) { more = true; overlimit = mMaxRecordsExpiredAtOnce; } } // check queue times size_t expired = 0; if (!more && mMaxRecordAgeNs > 0) { const nsecs_t now = systemTime(SYSTEM_TIME_REALTIME); // we check one at a time, skip search would be more efficient. size_t i = overlimit; for (; i < mItems.size(); ++i) { auto &oitem = mItems[i]; nsecs_t when = oitem->getTimestamp(); if (oitem.get() == item.get()) { break; } if (now > when && (now - when) <= mMaxRecordAgeNs) { break; // Note SYSTEM_TIME_REALTIME may not be monotonic. } if (i >= mMaxRecordsExpiredAtOnce) { // this represents "one too many"; tell caller there are // more to be reclaimed. more = true; break; } } expired = i - overlimit; } if (const size_t toErase = overlimit + expired; toErase > 0) { mItemsDiscardedCount += (int64_t)overlimit; mItemsDiscardedExpire += (int64_t)expired; mItemsDiscarded += (int64_t)toErase; mItems.erase(mItems.begin(), mItems.begin() + (ptrdiff_t)toErase); // erase from front } return more; } void MediaMetricsService::processExpirations() { bool more; do { sleep(1); std::lock_guard _l(mLock); more = expirations(nullptr); } while (more); } void MediaMetricsService::saveItem(const std::shared_ptr& item) { std::lock_guard _l(mLock); // we assume the items are roughly in time order. mItems.emplace_back(item); if (isPullable(item->getKey())) { registerStatsdCallbacksIfNeeded(); mPullableItems[item->getKey()].emplace_back(item); } ++mItemsFinalized; if (expirations(item) && (!mExpireFuture.valid() || mExpireFuture.wait_for(std::chrono::seconds(0)) == std::future_status::ready)) { mExpireFuture = std::async(std::launch::async, [this] { processExpirations(); }); } } /* static */ bool MediaMetricsService::isContentValid(const mediametrics::Item *item, bool isTrusted) { if (isTrusted) return true; // untrusted uids can only send us a limited set of keys const std::string &key = item->getKey(); if (startsWith(key, "audio.")) return true; if (startsWith(key, "drm.vendor.")) return true; if (startsWith(key, "mediadrm.")) return true; // the list of allowedKey uses statsd_handlers // in iface_statsd.cpp as reference // drmmanager is from a trusted uid, therefore not needed here for (const char *allowedKey : { // legacy audio "audiopolicy", "audiorecord", "audiothread", "audiotrack", // other media "codec", "videofreeze", "videojudder", "extractor", "mediadrm", "mediaparser", "nuplayer", }) { if (key == allowedKey) { return true; } } ALOGD("%s: invalid key: %s", __func__, item->toString().c_str()); return false; } // are we rate limited, normally false bool MediaMetricsService::isRateLimited(mediametrics::Item *) const { return false; } void MediaMetricsService::registerStatsdCallbacksIfNeeded() { if (mStatsdRegistered.test_and_set()) { return; } auto tag = stats::media_metrics::MEDIA_DRM_ACTIVITY_INFO; auto cb = MediaMetricsService::pullAtomCallback; AStatsManager_setPullAtomCallback(tag, /* metadata */ nullptr, cb, this); } /* static */ bool MediaMetricsService::isPullable(const std::string &key) { static const std::set pullableKeys{ "mediadrm", }; return pullableKeys.count(key); } /* static */ std::string MediaMetricsService::atomTagToKey(int32_t atomTag) { switch (atomTag) { case stats::media_metrics::MEDIA_DRM_ACTIVITY_INFO: return "mediadrm"; } return {}; } /* static */ AStatsManager_PullAtomCallbackReturn MediaMetricsService::pullAtomCallback( int32_t atomTag, AStatsEventList* data, void* cookie) { MediaMetricsService* svc = reinterpret_cast(cookie); return svc->pullItems(atomTag, data); } AStatsManager_PullAtomCallbackReturn MediaMetricsService::pullItems( int32_t atomTag, AStatsEventList* data) { const std::string key(atomTagToKey(atomTag)); if (key.empty()) { return AStatsManager_PULL_SKIP; } std::lock_guard _l(mLock); bool dumped = false; for (auto &item : mPullableItems[key]) { if (const auto sitem = item.lock()) { dumped |= dump2Statsd(sitem, data, mStatsdLog); } } mPullableItems[key].clear(); return dumped ? AStatsManager_PULL_SUCCESS : AStatsManager_PULL_SKIP; } } // namespace android