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gerrit-public.fairphone.software / platform / frameworks / base / 99ef04f7173677ac52bf952979085e97e25f858c / . / cmds / incidentd / src / Section.cpp
blob: 64eae3acd34c1ae69827377c127c2ae45b7f890e [file] [log] [blame]
/*
* Copyright (C) 2016 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 DEBUG false
#include "Log.h"
#include "Section.h"
#include <errno.h>
#include <sys/prctl.h>
#include <unistd.h>
#include <wait.h>
#include <memory>
#include <mutex>
#include <android-base/file.h>
#include <android/util/protobuf.h>
#include <binder/IServiceManager.h>
#include <log/log_event_list.h>
#include <log/log_read.h>
#include <log/logprint.h>
#include <private/android_logger.h>
#include "FdBuffer.h"
#include "Privacy.h"
#include "PrivacyBuffer.h"
#include "frameworks/base/core/proto/android/util/log.proto.h"
#include "incidentd_util.h"
using namespace android::base;
using namespace android::util;
using namespace std;
// special section ids
const int FIELD_ID_INCIDENT_HEADER = 1;
const int FIELD_ID_INCIDENT_METADATA = 2;
// incident section parameters
const int WAIT_MAX = 5;
const struct timespec WAIT_INTERVAL_NS = {0, 200 * 1000 * 1000};
const char INCIDENT_HELPER[] = "/system/bin/incident_helper";
static pid_t fork_execute_incident_helper(const int id, const char* name, Fpipe& p2cPipe,
Fpipe& c2pPipe) {
const char* ihArgs[]{INCIDENT_HELPER, "-s", String8::format("%d", id).string(), NULL};
// fork used in multithreaded environment, avoid adding unnecessary code in child process
pid_t pid = fork();
if (pid == 0) {
if (TEMP_FAILURE_RETRY(dup2(p2cPipe.readFd(), STDIN_FILENO)) != 0 || !p2cPipe.close() ||
TEMP_FAILURE_RETRY(dup2(c2pPipe.writeFd(), STDOUT_FILENO)) != 1 || !c2pPipe.close()) {
ALOGW("%s can't setup stdin and stdout for incident helper", name);
_exit(EXIT_FAILURE);
}
/* make sure the child dies when incidentd dies */
prctl(PR_SET_PDEATHSIG, SIGKILL);
execv(INCIDENT_HELPER, const_cast<char**>(ihArgs));
ALOGW("%s failed in incident helper process: %s", name, strerror(errno));
_exit(EXIT_FAILURE); // always exits with failure if any
}
// close the fds used in incident helper
close(p2cPipe.readFd());
close(c2pPipe.writeFd());
return pid;
}
// ================================================================================
static status_t statusCode(int status) {
if (WIFSIGNALED(status)) {
VLOG("return by signal: %s", strerror(WTERMSIG(status)));
return -WTERMSIG(status);
} else if (WIFEXITED(status) && WEXITSTATUS(status) > 0) {
VLOG("return by exit: %s", strerror(WEXITSTATUS(status)));
return -WEXITSTATUS(status);
}
return NO_ERROR;
}
static status_t kill_child(pid_t pid) {
int status;
VLOG("try to kill child process %d", pid);
kill(pid, SIGKILL);
if (waitpid(pid, &status, 0) == -1) return -1;
return statusCode(status);
}
static status_t wait_child(pid_t pid) {
int status;
bool died = false;
// wait for child to report status up to 1 seconds
for (int loop = 0; !died && loop < WAIT_MAX; loop++) {
if (waitpid(pid, &status, WNOHANG) == pid) died = true;
// sleep for 0.2 second
nanosleep(&WAIT_INTERVAL_NS, NULL);
}
if (!died) return kill_child(pid);
return statusCode(status);
}
// ================================================================================
static status_t write_section_header(int fd, int sectionId, size_t size) {
uint8_t buf[20];
uint8_t* p = write_length_delimited_tag_header(buf, sectionId, size);
return WriteFully(fd, buf, p - buf) ? NO_ERROR : -errno;
}
static status_t write_report_requests(const int id, const FdBuffer& buffer,
ReportRequestSet* requests) {
status_t err = -EBADF;
EncodedBuffer::iterator data = buffer.data();
PrivacyBuffer privacyBuffer(get_privacy_of_section(id), data);
int writeable = 0;
auto stats = requests->sectionStats(id);
stats->set_dump_size_bytes(data.size());
stats->set_dump_duration_ms(buffer.durationMs());
stats->set_timed_out(buffer.timedOut());
stats->set_is_truncated(buffer.truncated());
// The streaming ones, group requests by spec in order to save unnecessary strip operations
map<PrivacySpec, vector<sp<ReportRequest>>> requestsBySpec;
for (auto it = requests->begin(); it != requests->end(); it++) {
sp<ReportRequest> request = *it;
if (!request->ok() || !request->args.containsSection(id)) {
continue; // skip invalid request
}
PrivacySpec spec = PrivacySpec::new_spec(request->args.dest());
requestsBySpec[spec].push_back(request);
}
for (auto mit = requestsBySpec.begin(); mit != requestsBySpec.end(); mit++) {
PrivacySpec spec = mit->first;
err = privacyBuffer.strip(spec);
if (err != NO_ERROR) return err; // it means the privacyBuffer data is corrupted.
if (privacyBuffer.size() == 0) continue;
for (auto it = mit->second.begin(); it != mit->second.end(); it++) {
sp<ReportRequest> request = *it;
err = write_section_header(request->fd, id, privacyBuffer.size());
if (err != NO_ERROR) {
request->err = err;
continue;
}
err = privacyBuffer.flush(request->fd);
if (err != NO_ERROR) {
request->err = err;
continue;
}
writeable++;
VLOG("Section %d flushed %zu bytes to fd %d with spec %d", id, privacyBuffer.size(),
request->fd, spec.dest);
}
privacyBuffer.clear();
}
// The dropbox file
if (requests->mainFd() >= 0) {
PrivacySpec spec = PrivacySpec::new_spec(requests->mainDest());
err = privacyBuffer.strip(spec);
if (err != NO_ERROR) return err; // the buffer data is corrupted.
if (privacyBuffer.size() == 0) goto DONE;
err = write_section_header(requests->mainFd(), id, privacyBuffer.size());
if (err != NO_ERROR) {
requests->setMainFd(-1);
goto DONE;
}
err = privacyBuffer.flush(requests->mainFd());
if (err != NO_ERROR) {
requests->setMainFd(-1);
goto DONE;
}
writeable++;
VLOG("Section %d flushed %zu bytes to dropbox %d with spec %d", id, privacyBuffer.size(),
requests->mainFd(), spec.dest);
stats->set_report_size_bytes(privacyBuffer.size());
}
DONE:
// only returns error if there is no fd to write to.
return writeable > 0 ? NO_ERROR : err;
}
// ================================================================================
Section::Section(int i, const int64_t timeoutMs) : id(i), timeoutMs(timeoutMs) {}
Section::~Section() {}
// ================================================================================
HeaderSection::HeaderSection() : Section(FIELD_ID_INCIDENT_HEADER, 0) {}
HeaderSection::~HeaderSection() {}
status_t HeaderSection::Execute(ReportRequestSet* requests) const {
for (ReportRequestSet::iterator it = requests->begin(); it != requests->end(); it++) {
const sp<ReportRequest> request = *it;
const vector<vector<uint8_t>>& headers = request->args.headers();
for (vector<vector<uint8_t>>::const_iterator buf = headers.begin(); buf != headers.end();
buf++) {
if (buf->empty()) continue;
// So the idea is only requests with negative fd are written to dropbox file.
int fd = request->fd >= 0 ? request->fd : requests->mainFd();
write_section_header(fd, id, buf->size());
WriteFully(fd, (uint8_t const*)buf->data(), buf->size());
// If there was an error now, there will be an error later and we will remove
// it from the list then.
}
}
return NO_ERROR;
}
// ================================================================================
MetadataSection::MetadataSection() : Section(FIELD_ID_INCIDENT_METADATA, 0) {}
MetadataSection::~MetadataSection() {}
status_t MetadataSection::Execute(ReportRequestSet* requests) const {
std::string metadataBuf;
requests->metadata().SerializeToString(&metadataBuf);
for (ReportRequestSet::iterator it = requests->begin(); it != requests->end(); it++) {
const sp<ReportRequest> request = *it;
if (metadataBuf.empty() || request->fd < 0 || request->err != NO_ERROR) {
continue;
}
write_section_header(request->fd, id, metadataBuf.size());
if (!WriteFully(request->fd, (uint8_t const*)metadataBuf.data(), metadataBuf.size())) {
ALOGW("Failed to write metadata to fd %d", request->fd);
// we don't fail if we can't write to a single request's fd.
}
}
if (requests->mainFd() >= 0 && !metadataBuf.empty()) {
write_section_header(requests->mainFd(), id, metadataBuf.size());
if (!WriteFully(requests->mainFd(), (uint8_t const*)metadataBuf.data(),
metadataBuf.size())) {
ALOGW("Failed to write metadata to dropbox fd %d", requests->mainFd());
return -1;
}
}
return NO_ERROR;
}
// ================================================================================
FileSection::FileSection(int id, const char* filename, const int64_t timeoutMs)
: Section(id, timeoutMs), mFilename(filename) {
name = filename;
mIsSysfs = strncmp(filename, "/sys/", 5) == 0;
}
FileSection::~FileSection() {}
status_t FileSection::Execute(ReportRequestSet* requests) const {
// read from mFilename first, make sure the file is available
// add O_CLOEXEC to make sure it is closed when exec incident helper
int fd = open(mFilename, O_RDONLY | O_CLOEXEC);
if (fd == -1) {
ALOGW("FileSection '%s' failed to open file", this->name.string());
return -errno;
}
FdBuffer buffer;
Fpipe p2cPipe;
Fpipe c2pPipe;
// initiate pipes to pass data to/from incident_helper
if (!p2cPipe.init() || !c2pPipe.init()) {
ALOGW("FileSection '%s' failed to setup pipes", this->name.string());
return -errno;
}
pid_t pid = fork_execute_incident_helper(this->id, this->name.string(), p2cPipe, c2pPipe);
if (pid == -1) {
ALOGW("FileSection '%s' failed to fork", this->name.string());
return -errno;
}
// parent process
status_t readStatus = buffer.readProcessedDataInStream(fd, p2cPipe.writeFd(), c2pPipe.readFd(),
this->timeoutMs, mIsSysfs);
if (readStatus != NO_ERROR || buffer.timedOut()) {
ALOGW("FileSection '%s' failed to read data from incident helper: %s, timedout: %s",
this->name.string(), strerror(-readStatus), buffer.timedOut() ? "true" : "false");
kill_child(pid);
return readStatus;
}
status_t ihStatus = wait_child(pid);
if (ihStatus != NO_ERROR) {
ALOGW("FileSection '%s' abnormal child process: %s", this->name.string(),
strerror(-ihStatus));
return ihStatus;
}
VLOG("FileSection '%s' wrote %zd bytes in %d ms", this->name.string(), buffer.size(),
(int)buffer.durationMs());
status_t err = write_report_requests(this->id, buffer, requests);
if (err != NO_ERROR) {
ALOGW("FileSection '%s' failed writing: %s", this->name.string(), strerror(-err));
return err;
}
return NO_ERROR;
}
// ================================================================================
struct WorkerThreadData : public virtual RefBase {
const WorkerThreadSection* section;
int fds[2];
// Lock protects these fields
mutex lock;
bool workerDone;
status_t workerError;
WorkerThreadData(const WorkerThreadSection* section);
virtual ~WorkerThreadData();
int readFd() { return fds[0]; }
int writeFd() { return fds[1]; }
};
WorkerThreadData::WorkerThreadData(const WorkerThreadSection* sec)
: section(sec), workerDone(false), workerError(NO_ERROR) {
fds[0] = -1;
fds[1] = -1;
}
WorkerThreadData::~WorkerThreadData() {}
// ================================================================================
WorkerThreadSection::WorkerThreadSection(int id) : Section(id) {}
WorkerThreadSection::~WorkerThreadSection() {}
static void* worker_thread_func(void* cookie) {
WorkerThreadData* data = (WorkerThreadData*)cookie;
status_t err = data->section->BlockingCall(data->writeFd());
{
unique_lock<mutex> lock(data->lock);
data->workerDone = true;
data->workerError = err;
}
close(data->writeFd());
data->decStrong(data->section);
// data might be gone now. don't use it after this point in this thread.
return NULL;
}
status_t WorkerThreadSection::Execute(ReportRequestSet* requests) const {
status_t err = NO_ERROR;
pthread_t thread;
pthread_attr_t attr;
bool timedOut = false;
FdBuffer buffer;
// Data shared between this thread and the worker thread.
sp<WorkerThreadData> data = new WorkerThreadData(this);
// Create the pipe
err = pipe(data->fds);
if (err != 0) {
return -errno;
}
// The worker thread needs a reference and we can't let the count go to zero
// if that thread is slow to start.
data->incStrong(this);
// Create the thread
err = pthread_attr_init(&attr);
if (err != 0) {
return -err;
}
// TODO: Do we need to tweak thread priority?
err = pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
if (err != 0) {
pthread_attr_destroy(&attr);
return -err;
}
err = pthread_create(&thread, &attr, worker_thread_func, (void*)data.get());
if (err != 0) {
pthread_attr_destroy(&attr);
return -err;
}
pthread_attr_destroy(&attr);
// Loop reading until either the timeout or the worker side is done (i.e. eof).
err = buffer.read(data->readFd(), this->timeoutMs);
if (err != NO_ERROR) {
// TODO: Log this error into the incident report.
ALOGW("WorkerThreadSection '%s' reader failed with error '%s'", this->name.string(),
strerror(-err));
}
// Done with the read fd. The worker thread closes the write one so
// we never race and get here first.
close(data->readFd());
// If the worker side is finished, then return its error (which may overwrite
// our possible error -- but it's more interesting anyway). If not, then we timed out.
{
unique_lock<mutex> lock(data->lock);
if (!data->workerDone) {
// We timed out
timedOut = true;
} else {
if (data->workerError != NO_ERROR) {
err = data->workerError;
// TODO: Log this error into the incident report.
ALOGW("WorkerThreadSection '%s' worker failed with error '%s'", this->name.string(),
strerror(-err));
}
}
}
if (timedOut || buffer.timedOut()) {
ALOGW("WorkerThreadSection '%s' timed out", this->name.string());
return NO_ERROR;
}
if (buffer.truncated()) {
// TODO: Log this into the incident report.
}
// TODO: There was an error with the command or buffering. Report that. For now
// just exit with a log messasge.
if (err != NO_ERROR) {
ALOGW("WorkerThreadSection '%s' failed with error '%s'", this->name.string(),
strerror(-err));
return NO_ERROR;
}
// Write the data that was collected
VLOG("WorkerThreadSection '%s' wrote %zd bytes in %d ms", name.string(), buffer.size(),
(int)buffer.durationMs());
err = write_report_requests(this->id, buffer, requests);
if (err != NO_ERROR) {
ALOGW("WorkerThreadSection '%s' failed writing: '%s'", this->name.string(), strerror(-err));
return err;
}
return NO_ERROR;
}
// ================================================================================
void CommandSection::init(const char* command, va_list args) {
va_list copied_args;
int numOfArgs = 0;
va_copy(copied_args, args);
while (va_arg(copied_args, const char*) != NULL) {
numOfArgs++;
}
va_end(copied_args);
// allocate extra 1 for command and 1 for NULL terminator
mCommand = (const char**)malloc(sizeof(const char*) * (numOfArgs + 2));
mCommand[0] = command;
name = command;
for (int i = 0; i < numOfArgs; i++) {
const char* arg = va_arg(args, const char*);
mCommand[i + 1] = arg;
name += " ";
name += arg;
}
mCommand[numOfArgs + 1] = NULL;
}
CommandSection::CommandSection(int id, const int64_t timeoutMs, const char* command, ...)
: Section(id, timeoutMs) {
va_list args;
va_start(args, command);
init(command, args);
va_end(args);
}
CommandSection::CommandSection(int id, const char* command, ...) : Section(id) {
va_list args;
va_start(args, command);
init(command, args);
va_end(args);
}
CommandSection::~CommandSection() { free(mCommand); }
status_t CommandSection::Execute(ReportRequestSet* requests) const {
FdBuffer buffer;
Fpipe cmdPipe;
Fpipe ihPipe;
if (!cmdPipe.init() || !ihPipe.init()) {
ALOGW("CommandSection '%s' failed to setup pipes", this->name.string());
return -errno;
}
pid_t cmdPid = fork();
if (cmdPid == -1) {
ALOGW("CommandSection '%s' failed to fork", this->name.string());
return -errno;
}
// child process to execute the command as root
if (cmdPid == 0) {
// replace command's stdout with ihPipe's write Fd
if (dup2(cmdPipe.writeFd(), STDOUT_FILENO) != 1 || !ihPipe.close() || !cmdPipe.close()) {
ALOGW("CommandSection '%s' failed to set up stdout: %s", this->name.string(),
strerror(errno));
_exit(EXIT_FAILURE);
}
execvp(this->mCommand[0], (char* const*)this->mCommand);
int err = errno; // record command error code
ALOGW("CommandSection '%s' failed in executing command: %s", this->name.string(),
strerror(errno));
_exit(err); // exit with command error code
}
pid_t ihPid = fork_execute_incident_helper(this->id, this->name.string(), cmdPipe, ihPipe);
if (ihPid == -1) {
ALOGW("CommandSection '%s' failed to fork", this->name.string());
return -errno;
}
close(cmdPipe.writeFd());
status_t readStatus = buffer.read(ihPipe.readFd(), this->timeoutMs);
if (readStatus != NO_ERROR || buffer.timedOut()) {
ALOGW("CommandSection '%s' failed to read data from incident helper: %s, timedout: %s",
this->name.string(), strerror(-readStatus), buffer.timedOut() ? "true" : "false");
kill_child(cmdPid);
kill_child(ihPid);
return readStatus;
}
// TODO: wait for command here has one trade-off: the failed status of command won't be detected
// until
// buffer timeout, but it has advatage on starting the data stream earlier.
status_t cmdStatus = wait_child(cmdPid);
status_t ihStatus = wait_child(ihPid);
if (cmdStatus != NO_ERROR || ihStatus != NO_ERROR) {
ALOGW("CommandSection '%s' abnormal child processes, return status: command: %s, incident "
"helper: %s",
this->name.string(), strerror(-cmdStatus), strerror(-ihStatus));
return cmdStatus != NO_ERROR ? cmdStatus : ihStatus;
}
VLOG("CommandSection '%s' wrote %zd bytes in %d ms", this->name.string(), buffer.size(),
(int)buffer.durationMs());
status_t err = write_report_requests(this->id, buffer, requests);
if (err != NO_ERROR) {
ALOGW("CommandSection '%s' failed writing: %s", this->name.string(), strerror(-err));
return err;
}
return NO_ERROR;
}
// ================================================================================
DumpsysSection::DumpsysSection(int id, const char* service, ...)
: WorkerThreadSection(id), mService(service) {
name = "dumpsys ";
name += service;
va_list args;
va_start(args, service);
while (true) {
const char* arg = va_arg(args, const char*);
if (arg == NULL) {
break;
}
mArgs.add(String16(arg));
name += " ";
name += arg;
}
va_end(args);
}
DumpsysSection::~DumpsysSection() {}
status_t DumpsysSection::BlockingCall(int pipeWriteFd) const {
// checkService won't wait for the service to show up like getService will.
sp<IBinder> service = defaultServiceManager()->checkService(mService);
if (service == NULL) {
// Returning an error interrupts the entire incident report, so just
// log the failure.
// TODO: have a meta record inside the report that would log this
// failure inside the report, because the fact that we can't find
// the service is good data in and of itself. This is running in
// another thread so lock that carefully...
ALOGW("DumpsysSection: Can't lookup service: %s", String8(mService).string());
return NO_ERROR;
}
service->dump(pipeWriteFd, mArgs);
return NO_ERROR;
}
// ================================================================================
// initialization only once in Section.cpp.
map<log_id_t, log_time> LogSection::gLastLogsRetrieved;
LogSection::LogSection(int id, log_id_t logID) : WorkerThreadSection(id), mLogID(logID) {
name += "logcat ";
name += android_log_id_to_name(logID);
switch (logID) {
case LOG_ID_EVENTS:
case LOG_ID_STATS:
case LOG_ID_SECURITY:
mBinary = true;
break;
default:
mBinary = false;
}
}
LogSection::~LogSection() {}
static size_t trimTail(char const* buf, size_t len) {
while (len > 0) {
char c = buf[len - 1];
if (c == '\0' || c == ' ' || c == '\n' || c == '\r' || c == ':') {
len--;
} else {
break;
}
}
return len;
}
static inline int32_t get4LE(uint8_t const* src) {
return src[0] | (src[1] << 8) | (src[2] << 16) | (src[3] << 24);
}
status_t LogSection::BlockingCall(int pipeWriteFd) const {
status_t err = NO_ERROR;
// Open log buffer and getting logs since last retrieved time if any.
unique_ptr<logger_list, void (*)(logger_list*)> loggers(
gLastLogsRetrieved.find(mLogID) == gLastLogsRetrieved.end()
? android_logger_list_alloc(ANDROID_LOG_RDONLY | ANDROID_LOG_NONBLOCK, 0, 0)
: android_logger_list_alloc_time(ANDROID_LOG_RDONLY | ANDROID_LOG_NONBLOCK,
gLastLogsRetrieved[mLogID], 0),
android_logger_list_free);
if (android_logger_open(loggers.get(), mLogID) == NULL) {
ALOGW("LogSection %s: Can't get logger.", this->name.string());
return err;
}
log_msg msg;
log_time lastTimestamp(0);
ProtoOutputStream proto;
while (true) { // keeps reading until logd buffer is fully read.
status_t err = android_logger_list_read(loggers.get(), &msg);
// err = 0 - no content, unexpected connection drop or EOF.
// err = +ive number - size of retrieved data from logger
// err = -ive number, OS supplied error _except_ for -EAGAIN
// err = -EAGAIN, graceful indication for ANDRODI_LOG_NONBLOCK that this is the end of data.
if (err <= 0) {
if (err != -EAGAIN) {
ALOGE("LogSection %s: fails to read a log_msg.\n", this->name.string());
}
break;
}
if (mBinary) {
// remove the first uint32 which is tag's index in event log tags
android_log_context context = create_android_log_parser(msg.msg() + sizeof(uint32_t),
msg.len() - sizeof(uint32_t));
;
android_log_list_element elem;
lastTimestamp.tv_sec = msg.entry_v1.sec;
lastTimestamp.tv_nsec = msg.entry_v1.nsec;
// format a BinaryLogEntry
long long token = proto.start(LogProto::BINARY_LOGS);
proto.write(BinaryLogEntry::SEC, msg.entry_v1.sec);
proto.write(BinaryLogEntry::NANOSEC, msg.entry_v1.nsec);
proto.write(BinaryLogEntry::UID, (int)msg.entry_v4.uid);
proto.write(BinaryLogEntry::PID, msg.entry_v1.pid);
proto.write(BinaryLogEntry::TID, msg.entry_v1.tid);
proto.write(BinaryLogEntry::TAG_INDEX,
get4LE(reinterpret_cast<uint8_t const*>(msg.msg())));
do {
elem = android_log_read_next(context);
long long elemToken = proto.start(BinaryLogEntry::ELEMS);
switch (elem.type) {
case EVENT_TYPE_INT:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_INT);
proto.write(BinaryLogEntry::Elem::VAL_INT32, (int)elem.data.int32);
break;
case EVENT_TYPE_LONG:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_LONG);
proto.write(BinaryLogEntry::Elem::VAL_INT64, (long long)elem.data.int64);
break;
case EVENT_TYPE_STRING:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_STRING);
proto.write(BinaryLogEntry::Elem::VAL_STRING, elem.data.string, elem.len);
break;
case EVENT_TYPE_FLOAT:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_FLOAT);
proto.write(BinaryLogEntry::Elem::VAL_FLOAT, elem.data.float32);
break;
case EVENT_TYPE_LIST:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_LIST);
break;
case EVENT_TYPE_LIST_STOP:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_LIST_STOP);
break;
case EVENT_TYPE_UNKNOWN:
proto.write(BinaryLogEntry::Elem::TYPE,
BinaryLogEntry::Elem::EVENT_TYPE_UNKNOWN);
break;
}
proto.end(elemToken);
} while ((elem.type != EVENT_TYPE_UNKNOWN) && !elem.complete);
proto.end(token);
if (context) {
android_log_destroy(&context);
}
} else {
AndroidLogEntry entry;
err = android_log_processLogBuffer(&msg.entry_v1, &entry);
if (err != NO_ERROR) {
ALOGE("LogSection %s: fails to process to an entry.\n", this->name.string());
break;
}
lastTimestamp.tv_sec = entry.tv_sec;
lastTimestamp.tv_nsec = entry.tv_nsec;
// format a TextLogEntry
long long token = proto.start(LogProto::TEXT_LOGS);
proto.write(TextLogEntry::SEC, (long long)entry.tv_sec);
proto.write(TextLogEntry::NANOSEC, (long long)entry.tv_nsec);
proto.write(TextLogEntry::PRIORITY, (int)entry.priority);
proto.write(TextLogEntry::UID, entry.uid);
proto.write(TextLogEntry::PID, entry.pid);
proto.write(TextLogEntry::TID, entry.tid);
proto.write(TextLogEntry::TAG, entry.tag, trimTail(entry.tag, entry.tagLen));
proto.write(TextLogEntry::LOG, entry.message,
trimTail(entry.message, entry.messageLen));
proto.end(token);
}
}
gLastLogsRetrieved[mLogID] = lastTimestamp;
proto.flush(pipeWriteFd);
return err;
}