/* * Copyright (C) 2014 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. */ #ifndef _LOGD_LOG_STATISTICS_H__ #define _LOGD_LOG_STATISTICS_H__ #include #include #include #include // std::max #include #include // std::string #include #include #include #include #include "LogBufferElement.h" #include "LogUtils.h" #define log_id_for_each(i) \ for (log_id_t i = LOG_ID_MIN; (i) < LOG_ID_MAX; (i) = (log_id_t) ((i) + 1)) class LogStatistics; template class LogHashtable { std::unordered_map map; size_t bucket_size() const { size_t count = 0; for (size_t idx = 0; idx < map.bucket_count(); ++idx) { size_t bucket_size = map.bucket_size(idx); if (bucket_size == 0) bucket_size = 1; count += bucket_size; } float load_factor = map.max_load_factor(); if (load_factor < 1.0) return count; return count * load_factor; } static const size_t unordered_map_per_entry_overhead = sizeof(void*); static const size_t unordered_map_bucket_overhead = sizeof(void*); public: size_t size() const { return map.size(); } // Estimate unordered_map memory usage. size_t sizeOf() const { return sizeof(*this) + (size() * (sizeof(TEntry) + unordered_map_per_entry_overhead)) + (bucket_size() * sizeof(size_t) + unordered_map_bucket_overhead); } typedef typename std::unordered_map::iterator iterator; typedef typename std::unordered_map::const_iterator const_iterator; std::unique_ptr sort(uid_t uid, pid_t pid, size_t len) const { if (!len) { std::unique_ptr sorted(NULL); return sorted; } const TEntry **retval = new const TEntry* [len]; memset(retval, 0, sizeof(*retval) * len); for(const_iterator it = map.begin(); it != map.end(); ++it) { const TEntry &entry = it->second; if ((uid != AID_ROOT) && (uid != entry.getUid())) { continue; } if (pid && entry.getPid() && (pid != entry.getPid())) { continue; } size_t sizes = entry.getSizes(); ssize_t index = len - 1; while ((!retval[index] || (sizes > retval[index]->getSizes())) && (--index >= 0)) ; if (++index < (ssize_t)len) { size_t num = len - index - 1; if (num) { memmove(&retval[index + 1], &retval[index], num * sizeof(retval[0])); } retval[index] = &entry; } } std::unique_ptr sorted(retval); return sorted; } inline iterator add(TKey key, LogBufferElement *element) { iterator it = map.find(key); if (it == map.end()) { it = map.insert(std::make_pair(key, TEntry(element))).first; } else { it->second.add(element); } return it; } inline iterator add(TKey key) { iterator it = map.find(key); if (it == map.end()) { it = map.insert(std::make_pair(key, TEntry(key))).first; } else { it->second.add(key); } return it; } void subtract(TKey key, LogBufferElement *element) { iterator it = map.find(key); if ((it != map.end()) && it->second.subtract(element)) { map.erase(it); } } inline void drop(TKey key, LogBufferElement *element) { iterator it = map.find(key); if (it != map.end()) { it->second.drop(element); } } inline iterator begin() { return map.begin(); } inline const_iterator begin() const { return map.begin(); } inline iterator end() { return map.end(); } inline const_iterator end() const { return map.end(); } std::string format( const LogStatistics &stat, uid_t uid, pid_t pid, const std::string &name = std::string(""), log_id_t id = LOG_ID_MAX) const { static const size_t maximum_sorted_entries = 32; std::string output; std::unique_ptr sorted = sort(uid, pid, maximum_sorted_entries); if (!sorted.get()) { return output; } bool headerPrinted = false; for (size_t index = 0; index < maximum_sorted_entries; ++index) { const TEntry *entry = sorted[index]; if (!entry) { break; } if (entry->getSizes() <= (sorted[0]->getSizes() / 100)) { break; } if (!headerPrinted) { output += "\n\n"; output += entry->formatHeader(name, id); headerPrinted = true; } output += entry->format(stat, id); } return output; } }; namespace EntryBaseConstants { static constexpr size_t pruned_len = 14; static constexpr size_t total_len = 80; } struct EntryBase { size_t size; EntryBase():size(0) { } explicit EntryBase(LogBufferElement *element):size(element->getMsgLen()) { } size_t getSizes() const { return size; } inline void add(LogBufferElement *element) { size += element->getMsgLen(); } inline bool subtract(LogBufferElement *element) { size -= element->getMsgLen(); return !size; } static std::string formatLine( const std::string &name, const std::string &size, const std::string &pruned) { ssize_t drop_len = std::max(pruned.length() + 1, EntryBaseConstants::pruned_len); ssize_t size_len = std::max(size.length() + 1, EntryBaseConstants::total_len - name.length() - drop_len - 1); std::string ret = android::base::StringPrintf("%s%*s%*s", name.c_str(), (int)size_len, size.c_str(), (int)drop_len, pruned.c_str()); // remove any trailing spaces size_t pos = ret.size(); size_t len = 0; while (pos && isspace(ret[--pos])) ++len; if (len) ret.erase(pos + 1, len); return ret + "\n"; } }; struct EntryBaseDropped : public EntryBase { size_t dropped; EntryBaseDropped():dropped(0) { } explicit EntryBaseDropped(LogBufferElement *element): EntryBase(element), dropped(element->getDropped()) { } size_t getDropped() const { return dropped; } inline void add(LogBufferElement *element) { dropped += element->getDropped(); EntryBase::add(element); } inline bool subtract(LogBufferElement *element) { dropped -= element->getDropped(); return EntryBase::subtract(element) && !dropped; } inline void drop(LogBufferElement *element) { dropped += 1; EntryBase::subtract(element); } }; struct UidEntry : public EntryBaseDropped { const uid_t uid; pid_t pid; explicit UidEntry(LogBufferElement *element): EntryBaseDropped(element), uid(element->getUid()), pid(element->getPid()) { } inline const uid_t&getKey() const { return uid; } inline const uid_t&getUid() const { return getKey(); } inline const pid_t&getPid() const { return pid; } inline void add(LogBufferElement *element) { if (pid != element->getPid()) { pid = -1; } EntryBaseDropped::add(element); } std::string formatHeader(const std::string &name, log_id_t id) const; std::string format(const LogStatistics &stat, log_id_t id) const; }; namespace android { uid_t pidToUid(pid_t pid); } struct PidEntry : public EntryBaseDropped { const pid_t pid; uid_t uid; char *name; explicit PidEntry(pid_t pid): EntryBaseDropped(), pid(pid), uid(android::pidToUid(pid)), name(android::pidToName(pid)) { } explicit PidEntry(LogBufferElement *element): EntryBaseDropped(element), pid(element->getPid()), uid(element->getUid()), name(android::pidToName(pid)) { } PidEntry(const PidEntry &element): EntryBaseDropped(element), pid(element.pid), uid(element.uid), name(element.name ? strdup(element.name) : NULL) { } ~PidEntry() { free(name); } const pid_t&getKey() const { return pid; } const pid_t&getPid() const { return getKey(); } const uid_t&getUid() const { return uid; } const char*getName() const { return name; } inline void add(pid_t newPid) { if (name && !fastcmp(name, "zygote", 6)) { free(name); name = NULL; } if (!name) { name = android::pidToName(newPid); } } inline void add(LogBufferElement *element) { uid_t incomingUid = element->getUid(); if (getUid() != incomingUid) { uid = incomingUid; free(name); name = android::pidToName(element->getPid()); } else { add(element->getPid()); } EntryBaseDropped::add(element); } std::string formatHeader(const std::string &name, log_id_t id) const; std::string format(const LogStatistics &stat, log_id_t id) const; }; struct TidEntry : public EntryBaseDropped { const pid_t tid; pid_t pid; uid_t uid; char *name; TidEntry(pid_t tid, pid_t pid): EntryBaseDropped(), tid(tid), pid(pid), uid(android::pidToUid(tid)), name(android::tidToName(tid)) { } explicit TidEntry(LogBufferElement *element): EntryBaseDropped(element), tid(element->getTid()), pid(element->getPid()), uid(element->getUid()), name(android::tidToName(tid)) { } TidEntry(const TidEntry &element): EntryBaseDropped(element), tid(element.tid), pid(element.pid), uid(element.uid), name(element.name ? strdup(element.name) : NULL) { } ~TidEntry() { free(name); } const pid_t&getKey() const { return tid; } const pid_t&getTid() const { return getKey(); } const pid_t&getPid() const { return pid; } const uid_t&getUid() const { return uid; } const char*getName() const { return name; } inline void add(pid_t incomingTid) { if (name && !fastcmp(name, "zygote", 6)) { free(name); name = NULL; } if (!name) { name = android::tidToName(incomingTid); } } inline void add(LogBufferElement *element) { uid_t incomingUid = element->getUid(); pid_t incomingPid = element->getPid(); if ((getUid() != incomingUid) || (getPid() != incomingPid)) { uid = incomingUid; pid = incomingPid; free(name); name = android::tidToName(element->getTid()); } else { add(element->getTid()); } EntryBaseDropped::add(element); } std::string formatHeader(const std::string &name, log_id_t id) const; std::string format(const LogStatistics &stat, log_id_t id) const; }; struct TagEntry : public EntryBaseDropped { const uint32_t tag; pid_t pid; uid_t uid; explicit TagEntry(LogBufferElement *element): EntryBaseDropped(element), tag(element->getTag()), pid(element->getPid()), uid(element->getUid()) { } const uint32_t&getKey() const { return tag; } const pid_t&getPid() const { return pid; } const uid_t&getUid() const { return uid; } const char*getName() const { return android::tagToName(tag); } inline void add(LogBufferElement *element) { if (uid != element->getUid()) { uid = -1; } if (pid != element->getPid()) { pid = -1; } EntryBaseDropped::add(element); } std::string formatHeader(const std::string &name, log_id_t id) const; std::string format(const LogStatistics &stat, log_id_t id) const; }; template class LogFindWorst { std::unique_ptr sorted; public: explicit LogFindWorst(std::unique_ptr &&sorted) : sorted(std::move(sorted)) { } void findWorst(int &worst, size_t &worst_sizes, size_t &second_worst_sizes, size_t threshold) { if (sorted.get() && sorted[0] && sorted[1]) { worst_sizes = sorted[0]->getSizes(); if ((worst_sizes > threshold) // Allow time horizon to extend roughly tenfold, assume // average entry length is 100 characters. && (worst_sizes > (10 * sorted[0]->getDropped()))) { worst = sorted[0]->getKey(); second_worst_sizes = sorted[1]->getSizes(); if (second_worst_sizes < threshold) { second_worst_sizes = threshold; } } } } void findWorst(int &worst, size_t worst_sizes, size_t &second_worst_sizes) { if (sorted.get() && sorted[0] && sorted[1]) { worst = sorted[0]->getKey(); second_worst_sizes = worst_sizes - sorted[0]->getSizes() + sorted[1]->getSizes(); } } }; // Log Statistics class LogStatistics { friend UidEntry; size_t mSizes[LOG_ID_MAX]; size_t mElements[LOG_ID_MAX]; size_t mDroppedElements[LOG_ID_MAX]; size_t mSizesTotal[LOG_ID_MAX]; size_t mElementsTotal[LOG_ID_MAX]; static size_t SizesTotal; bool enable; // uid to size list typedef LogHashtable uidTable_t; uidTable_t uidTable[LOG_ID_MAX]; // pid of system to size list typedef LogHashtable pidSystemTable_t; pidSystemTable_t pidSystemTable[LOG_ID_MAX]; // pid to uid list typedef LogHashtable pidTable_t; pidTable_t pidTable; // tid to uid list typedef LogHashtable tidTable_t; tidTable_t tidTable; // tag list typedef LogHashtable tagTable_t; tagTable_t tagTable; // security tag list tagTable_t securityTagTable; size_t sizeOf() const { size_t size = sizeof(*this) + pidTable.sizeOf() + tidTable.sizeOf() + tagTable.sizeOf() + securityTagTable.sizeOf() + (pidTable.size() * sizeof(pidTable_t::iterator)) + (tagTable.size() * sizeof(tagTable_t::iterator)); for(auto it : pidTable) { const char* name = it.second.getName(); if (name) size += strlen(name) + 1; } for(auto it : tidTable) { const char* name = it.second.getName(); if (name) size += strlen(name) + 1; } log_id_for_each(id) { size += uidTable[id].sizeOf(); size += uidTable[id].size() * sizeof(uidTable_t::iterator); size += pidSystemTable[id].sizeOf(); size += pidSystemTable[id].size() * sizeof(pidSystemTable_t::iterator); } return size; } public: LogStatistics(); void enableStatistics() { enable = true; } void add(LogBufferElement *entry); void subtract(LogBufferElement *entry); // entry->setDropped(1) must follow this call void drop(LogBufferElement *entry); // Correct for coalescing two entries referencing dropped content void erase(LogBufferElement *element) { log_id_t log_id = element->getLogId(); --mElements[log_id]; --mDroppedElements[log_id]; } LogFindWorst sort(uid_t uid, pid_t pid, size_t len, log_id id) { return LogFindWorst(uidTable[id].sort(uid, pid, len)); } LogFindWorst sortPids(uid_t uid, pid_t pid, size_t len, log_id id) { return LogFindWorst(pidSystemTable[id].sort(uid, pid, len)); } LogFindWorst sortTags(uid_t uid, pid_t pid, size_t len, log_id) { return LogFindWorst(tagTable.sort(uid, pid, len)); } // fast track current value by id only size_t sizes(log_id_t id) const { return mSizes[id]; } size_t elements(log_id_t id) const { return mElements[id]; } size_t realElements(log_id_t id) const { return mElements[id] - mDroppedElements[id]; } size_t sizesTotal(log_id_t id) const { return mSizesTotal[id]; } size_t elementsTotal(log_id_t id) const { return mElementsTotal[id]; } static size_t sizesTotal() { return SizesTotal; } std::string format(uid_t uid, pid_t pid, unsigned int logMask) const; // helper (must be locked directly or implicitly by mLogElementsLock) const char *pidToName(pid_t pid) const; uid_t pidToUid(pid_t pid); const char *uidToName(uid_t uid) const; }; #endif // _LOGD_LOG_STATISTICS_H__