491 lines
18 KiB
C++
491 lines
18 KiB
C++
/*
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* Copyright (C) 2020 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <inttypes.h>
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#include <chrono>
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#include <map>
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#include <android-base/file.h>
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#include <android-base/mapped_file.h>
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#include <android-base/parseint.h>
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#include <android-base/strings.h>
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#include <android-base/unique_fd.h>
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#include <android/log.h>
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#include <log/log_time.h>
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#include <log/logprint.h>
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#include "ChattyLogBuffer.h"
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#include "LogBuffer.h"
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#include "LogStatistics.h"
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#include "RecordedLogMessage.h"
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#include "SerializedLogBuffer.h"
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#include "SimpleLogBuffer.h"
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using android::base::MappedFile;
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using android::base::ParseInt;
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using android::base::ParseUint;
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using android::base::Split;
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char* android::uidToName(uid_t) {
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return nullptr;
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}
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static size_t GetPrivateDirty() {
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// Allocate once and hope that we don't need to reallocate >40000, to prevent heap fragmentation
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static std::string smaps(40000, '\0');
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android::base::ReadFileToString("/proc/self/smaps", &smaps);
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size_t result = 0;
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size_t base = 0;
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size_t found;
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while (true) {
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found = smaps.find("Private_Dirty:", base);
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if (found == smaps.npos) break;
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found += sizeof("Private_Dirty:");
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result += atoi(&smaps[found]);
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base = found + 1;
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}
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return result;
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}
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static AndroidLogFormat* GetLogFormat() {
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static AndroidLogFormat* format = [] {
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auto* format = android_log_format_new();
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android_log_setPrintFormat(format, android_log_formatFromString("threadtime"));
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android_log_setPrintFormat(format, android_log_formatFromString("uid"));
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return format;
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}();
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return format;
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}
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static void PrintMessage(struct log_msg* buf) {
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bool is_binary =
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buf->id() == LOG_ID_EVENTS || buf->id() == LOG_ID_STATS || buf->id() == LOG_ID_SECURITY;
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AndroidLogEntry entry;
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int err;
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if (is_binary) {
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char binaryMsgBuf[1024];
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err = android_log_processBinaryLogBuffer(&buf->entry, &entry, nullptr, binaryMsgBuf,
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sizeof(binaryMsgBuf));
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} else {
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err = android_log_processLogBuffer(&buf->entry, &entry);
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}
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if (err < 0) {
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fprintf(stderr, "Error parsing log message\n");
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}
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android_log_printLogLine(GetLogFormat(), STDOUT_FILENO, &entry);
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}
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static log_time GetFirstTimeStamp(const MappedFile& recorded_messages) {
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if (sizeof(RecordedLogMessage) >= recorded_messages.size()) {
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fprintf(stderr, "At least one log message must be present in the input\n");
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exit(1);
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}
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auto* meta = reinterpret_cast<RecordedLogMessage*>(recorded_messages.data());
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return meta->realtime;
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}
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static LogMask BuffersToLogMask(const char* buffers) {
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if (buffers == nullptr || !strcmp(buffers, "all")) {
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return kLogMaskAll;
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}
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auto string_ids = Split(buffers, ",");
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LogMask log_mask = 0;
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for (const auto& string_id : string_ids) {
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int buffer_id;
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if (!ParseInt(string_id, &buffer_id, 0, 7)) {
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fprintf(stderr, "Could not parse buffer_id '%s'\n", string_id.c_str());
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exit(1);
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}
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log_mask |= 1 << buffer_id;
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}
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return log_mask;
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}
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class StdoutWriter : public LogWriter {
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public:
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StdoutWriter() : LogWriter(0, true) {}
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bool Write(const logger_entry& entry, const char* message) override {
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struct log_msg log_msg;
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log_msg.entry = entry;
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if (log_msg.entry.len > LOGGER_ENTRY_MAX_PAYLOAD) {
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fprintf(stderr, "payload too large %" PRIu16, log_msg.entry.len);
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exit(1);
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}
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memcpy(log_msg.msg(), message, log_msg.entry.len);
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PrintMessage(&log_msg);
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return true;
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}
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void Shutdown() override {
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fprintf(stderr, "LogWriter::Shutdown() called\n");
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exit(1);
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}
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std::string name() const override { return "stdout writer"; }
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};
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class Operation {
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public:
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virtual ~Operation() {}
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virtual void Begin() {}
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virtual void Log(const RecordedLogMessage& meta, const char* msg) = 0;
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virtual void End() {}
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};
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class PrintInteresting : public Operation {
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public:
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PrintInteresting(log_time first_log_timestamp)
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: stats_simple_{false, false, first_log_timestamp},
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stats_chatty_{false, false, first_log_timestamp},
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stats_serialized_{false, true, first_log_timestamp} {}
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void Begin() override {
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printf("message_count,simple_main_lines,simple_radio_lines,simple_events_lines,simple_"
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"system_lines,simple_crash_lines,simple_stats_lines,simple_security_lines,simple_"
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"kernel_lines,simple_main_size,simple_radio_size,simple_events_size,simple_system_"
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"size,simple_crash_size,simple_stats_size,simple_security_size,simple_kernel_size,"
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"simple_main_overhead,simple_radio_overhead,simple_events_overhead,simple_system_"
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"overhead,simple_crash_overhead,simple_stats_overhead,simple_security_overhead,"
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"simple_kernel_overhead,simple_main_range,simple_radio_range,simple_events_range,"
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"simple_system_range,simple_crash_range,simple_stats_range,simple_security_range,"
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"simple_kernel_range,chatty_main_lines,chatty_radio_lines,chatty_events_lines,"
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"chatty_system_lines,chatty_crash_lines,chatty_stats_lines,chatty_security_lines,"
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"chatty_"
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"kernel_lines,chatty_main_size,chatty_radio_size,chatty_events_size,chatty_system_"
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"size,chatty_crash_size,chatty_stats_size,chatty_security_size,chatty_kernel_size,"
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"chatty_main_overhead,chatty_radio_overhead,chatty_events_overhead,chatty_system_"
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"overhead,chatty_crash_overhead,chatty_stats_overhead,chatty_security_overhead,"
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"chatty_kernel_overhead,chatty_main_range,chatty_radio_range,chatty_events_range,"
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"chatty_system_range,chatty_crash_range,chatty_stats_range,chatty_security_range,"
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"chatty_kernel_range,serialized_main_lines,serialized_radio_lines,serialized_events_"
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"lines,serialized_"
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"system_lines,serialized_crash_lines,serialized_stats_lines,serialized_security_"
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"lines,serialized_"
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"kernel_lines,serialized_main_size,serialized_radio_size,serialized_events_size,"
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"serialized_system_"
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"size,serialized_crash_size,serialized_stats_size,serialized_security_size,"
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"serialized_kernel_size,"
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"serialized_main_overhead,serialized_radio_overhead,serialized_events_overhead,"
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"serialized_system_"
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"overhead,serialized_crash_overhead,serialized_stats_overhead,serialized_security_"
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"overhead,"
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"serialized_kernel_overhead,serialized_main_range,serialized_radio_range,serialized_"
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"events_range,"
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"serialized_system_range,serialized_crash_range,serialized_stats_range,serialized_"
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"security_range,"
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"serialized_kernel_range\n");
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}
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void Log(const RecordedLogMessage& meta, const char* msg) override {
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simple_log_buffer_.Log(static_cast<log_id_t>(meta.log_id), meta.realtime, meta.uid,
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meta.pid, meta.tid, msg, meta.msg_len);
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chatty_log_buffer_.Log(static_cast<log_id_t>(meta.log_id), meta.realtime, meta.uid,
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meta.pid, meta.tid, msg, meta.msg_len);
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serialized_log_buffer_.Log(static_cast<log_id_t>(meta.log_id), meta.realtime, meta.uid,
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meta.pid, meta.tid, msg, meta.msg_len);
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if (num_message_ % 10000 == 0) {
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printf("%" PRIu64 ",%s,%s,%s\n", num_message_,
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stats_simple_.ReportInteresting().c_str(),
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stats_chatty_.ReportInteresting().c_str(),
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stats_serialized_.ReportInteresting().c_str());
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}
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num_message_++;
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}
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private:
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uint64_t num_message_ = 1;
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LogReaderList reader_list_;
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LogTags tags_;
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PruneList prune_list_;
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LogStatistics stats_simple_;
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SimpleLogBuffer simple_log_buffer_{&reader_list_, &tags_, &stats_simple_};
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LogStatistics stats_chatty_;
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ChattyLogBuffer chatty_log_buffer_{&reader_list_, &tags_, &prune_list_, &stats_chatty_};
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LogStatistics stats_serialized_;
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SerializedLogBuffer serialized_log_buffer_{&reader_list_, &tags_, &stats_serialized_};
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};
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class SingleBufferOperation : public Operation {
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public:
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SingleBufferOperation(log_time first_log_timestamp, const char* buffer) {
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if (!strcmp(buffer, "simple")) {
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stats_.reset(new LogStatistics{false, false, first_log_timestamp});
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log_buffer_.reset(new SimpleLogBuffer(&reader_list_, &tags_, stats_.get()));
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} else if (!strcmp(buffer, "chatty")) {
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stats_.reset(new LogStatistics{false, false, first_log_timestamp});
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log_buffer_.reset(
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new ChattyLogBuffer(&reader_list_, &tags_, &prune_list_, stats_.get()));
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} else if (!strcmp(buffer, "serialized")) {
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stats_.reset(new LogStatistics{false, true, first_log_timestamp});
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log_buffer_.reset(new SerializedLogBuffer(&reader_list_, &tags_, stats_.get()));
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} else {
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fprintf(stderr, "invalid log buffer type '%s'\n", buffer);
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abort();
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}
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}
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void Log(const RecordedLogMessage& meta, const char* msg) override {
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PreOperation();
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log_buffer_->Log(static_cast<log_id_t>(meta.log_id), meta.realtime, meta.uid, meta.pid,
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meta.tid, msg, meta.msg_len);
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Operation();
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num_message_++;
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}
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virtual void PreOperation() {}
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virtual void Operation() {}
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protected:
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uint64_t num_message_ = 1;
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LogReaderList reader_list_;
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LogTags tags_;
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PruneList prune_list_;
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std::unique_ptr<LogStatistics> stats_;
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std::unique_ptr<LogBuffer> log_buffer_;
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};
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class PrintMemory : public SingleBufferOperation {
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public:
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PrintMemory(log_time first_log_timestamp, const char* buffer)
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: SingleBufferOperation(first_log_timestamp, buffer) {}
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void Operation() override {
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if (num_message_ % 100000 == 0) {
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printf("%" PRIu64 ",%s\n", num_message_,
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std::to_string(GetPrivateDirty() - baseline_memory_).c_str());
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}
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}
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private:
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size_t baseline_memory_ = GetPrivateDirty();
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};
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class PrintLogs : public SingleBufferOperation {
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public:
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PrintLogs(log_time first_log_timestamp, const char* buffer, const char* buffers,
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const char* print_point)
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: SingleBufferOperation(first_log_timestamp, buffer) {
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mask_ = BuffersToLogMask(buffers);
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if (print_point != nullptr) {
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uint64_t result = 0;
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if (!ParseUint(print_point, &result)) {
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fprintf(stderr, "Could not parse print point '%s'\n", print_point);
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exit(1);
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}
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print_point_ = result;
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}
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}
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void Operation() override {
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if (print_point_ && num_message_ >= *print_point_) {
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End();
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exit(0);
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}
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}
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void End() override {
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auto lock = std::lock_guard{logd_lock};
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std::unique_ptr<LogWriter> test_writer(new StdoutWriter());
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std::unique_ptr<FlushToState> flush_to_state = log_buffer_->CreateFlushToState(1, mask_);
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log_buffer_->FlushTo(test_writer.get(), *flush_to_state, nullptr);
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auto stats_string = stats_->Format(0, 0, mask_);
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printf("%s\n", stats_string.c_str());
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}
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private:
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LogMask mask_ = kLogMaskAll;
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std::optional<uint64_t> print_point_;
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};
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class PrintLatency : public SingleBufferOperation {
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public:
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PrintLatency(log_time first_log_timestamp, const char* buffer)
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: SingleBufferOperation(first_log_timestamp, buffer) {}
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void PreOperation() override { operation_start_ = std::chrono::steady_clock::now(); }
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void Operation() override {
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auto end = std::chrono::steady_clock::now();
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auto duration = (end - operation_start_).count();
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durations_.emplace_back(duration);
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}
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void End() override {
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std::sort(durations_.begin(), durations_.end());
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auto q1 = durations_.size() / 4;
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auto q2 = durations_.size() / 2;
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auto q3 = 3 * durations_.size() / 4;
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auto p95 = 95 * durations_.size() / 100;
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auto p99 = 99 * durations_.size() / 100;
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auto p9999 = 9999 * durations_.size() / 10000;
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printf("q1: %lld q2: %lld q3: %lld p95: %lld p99: %lld p99.99: %lld max: %lld\n",
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durations_[q1], durations_[q2], durations_[q3], durations_[p95], durations_[p99],
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durations_[p9999], durations_.back());
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}
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private:
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std::chrono::steady_clock::time_point operation_start_;
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std::vector<long long> durations_;
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};
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class PrintAllLogs : public SingleBufferOperation {
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public:
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PrintAllLogs(log_time first_log_timestamp, const char* buffer, const char* buffers)
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: SingleBufferOperation(first_log_timestamp, buffer) {
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LogMask mask = BuffersToLogMask(buffers);
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auto lock = std::unique_lock{logd_lock};
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std::unique_ptr<LogWriter> stdout_writer(new StdoutWriter());
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std::unique_ptr<LogReaderThread> log_reader(
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new LogReaderThread(log_buffer_.get(), &reader_list_, std::move(stdout_writer),
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false, 0, mask, 0, {}, 1, {}));
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reader_list_.reader_threads().emplace_back(std::move(log_reader));
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}
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void Operation() override {
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// If the rate of reading logs is slower than the rate of incoming logs, then the reader
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// thread is disconnected to not overflow log buffers, therefore we artificially slow down
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// the incoming log rate.
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usleep(100);
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}
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void End() override {
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// Release the reader thread.
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{
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auto lock = std::lock_guard{logd_lock};
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reader_list_.reader_threads().back()->Release();
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}
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// Wait until it has deleted itself.
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while (true) {
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usleep(500);
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auto lock = std::lock_guard{logd_lock};
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if (reader_list_.reader_threads().size() == 0) {
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break;
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}
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}
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}
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};
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int main(int argc, char** argv) {
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if (argc < 3) {
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fprintf(stderr, "Usage: %s FILE OPERATION [BUFFER] [OPTIONS]\n", argv[0]);
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return 1;
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}
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if (strcmp(argv[2], "interesting") != 0 && argc < 4) {
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fprintf(stderr, "Operations other than 'interesting' require a BUFFER argument\n");
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return 1;
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}
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int recorded_messages_fd = open(argv[1], O_RDONLY);
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if (recorded_messages_fd == -1) {
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fprintf(stderr, "Couldn't open input file\n");
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return 1;
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}
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struct stat fd_stat;
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if (fstat(recorded_messages_fd, &fd_stat) != 0) {
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fprintf(stderr, "Couldn't fstat input file\n");
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return 1;
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}
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auto recorded_messages = MappedFile::FromFd(recorded_messages_fd, 0,
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static_cast<size_t>(fd_stat.st_size), PROT_READ);
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if (recorded_messages == nullptr) {
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fprintf(stderr, "Couldn't mmap input file\n");
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return 1;
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}
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// LogStatistics typically uses 'now()' to initialize its log range state, but this doesn't work
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// when replaying older logs, so we instead give it the timestamp from the first log.
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log_time first_log_timestamp = GetFirstTimeStamp(*recorded_messages);
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std::unique_ptr<Operation> operation;
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if (!strcmp(argv[2], "interesting")) {
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operation.reset(new PrintInteresting(first_log_timestamp));
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} else if (!strcmp(argv[2], "memory_usage")) {
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operation.reset(new PrintMemory(first_log_timestamp, argv[3]));
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} else if (!strcmp(argv[2], "latency")) {
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operation.reset(new PrintLatency(first_log_timestamp, argv[3]));
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} else if (!strcmp(argv[2], "print_logs")) {
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operation.reset(new PrintLogs(first_log_timestamp, argv[3], argc > 4 ? argv[4] : nullptr,
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argc > 5 ? argv[5] : nullptr));
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} else if (!strcmp(argv[2], "print_all_logs")) {
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operation.reset(
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new PrintAllLogs(first_log_timestamp, argv[3], argc > 4 ? argv[4] : nullptr));
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} else if (!strcmp(argv[2], "nothing")) {
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operation.reset(new SingleBufferOperation(first_log_timestamp, argv[3]));
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} else {
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fprintf(stderr, "unknown operation '%s'\n", argv[2]);
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return 1;
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}
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// LogBuffer::Log() won't log without this on host.
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__android_log_set_minimum_priority(ANDROID_LOG_VERBOSE);
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// But we still want to suppress messages <= error to not interrupt the rest of the output.
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__android_log_set_logger([](const struct __android_log_message* log_message) {
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if (log_message->priority < ANDROID_LOG_ERROR) {
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return;
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}
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__android_log_stderr_logger(log_message);
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});
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operation->Begin();
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uint64_t read_position = 0;
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while (read_position + sizeof(RecordedLogMessage) < recorded_messages->size()) {
|
|
auto* meta =
|
|
reinterpret_cast<RecordedLogMessage*>(recorded_messages->data() + read_position);
|
|
if (read_position + sizeof(RecordedLogMessage) + meta->msg_len >=
|
|
recorded_messages->size()) {
|
|
break;
|
|
}
|
|
char* msg = recorded_messages->data() + read_position + sizeof(RecordedLogMessage);
|
|
read_position += sizeof(RecordedLogMessage) + meta->msg_len;
|
|
|
|
operation->Log(*meta, msg);
|
|
}
|
|
|
|
operation->End();
|
|
|
|
return 0;
|
|
}
|