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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
#include "Log.h"
#include <errno.h>
#include <syslog.h>
#include <iostream>
#include <sstream>
#include "common/errno.h"
#include "common/safe_io.h"
#include "common/Clock.h"
#include "include/assert.h"
#define DEFAULT_MAX_NEW 100
#define DEFAULT_MAX_RECENT 10000
#define PREALLOC 1000000
namespace ceph {
namespace log {
static void log_on_exit(int r, void *p)
{
Log *l = *(Log **)p;
if (l)
l->flush();
}
Log::Log(SubsystemMap *s)
: m_indirect_this(NULL),
m_subs(s),
m_new(), m_recent(),
m_fd(-1),
m_syslog_log(-2), m_syslog_crash(-2),
m_stderr_log(1), m_stderr_crash(-1),
m_stop(false),
m_max_new(DEFAULT_MAX_NEW),
m_max_recent(DEFAULT_MAX_RECENT)
{
int ret;
ret = pthread_spin_init(&m_lock, PTHREAD_PROCESS_SHARED);
assert(ret == 0);
ret = pthread_mutex_init(&m_flush_mutex, NULL);
assert(ret == 0);
ret = pthread_mutex_init(&m_queue_mutex, NULL);
assert(ret == 0);
ret = pthread_cond_init(&m_cond, NULL);
assert(ret == 0);
// kludge for prealloc testing
if (false)
for (int i=0; i < PREALLOC; i++)
m_recent.enqueue(new Entry);
}
Log::~Log()
{
if (m_indirect_this) {
*m_indirect_this = NULL;
}
assert(!is_started());
if (m_fd >= 0)
TEMP_FAILURE_RETRY(::close(m_fd));
pthread_spin_destroy(&m_lock);
pthread_mutex_destroy(&m_queue_mutex);
pthread_mutex_destroy(&m_flush_mutex);
pthread_cond_destroy(&m_cond);
}
///
void Log::set_flush_on_exit()
{
// Make sure we flush on shutdown. We do this by deliberately
// leaking an indirect pointer to ourselves (on_exit() can't
// unregister a callback). This is not racy only becuase we
// assume that exit() won't race with ~Log().
if (m_indirect_this == NULL) {
m_indirect_this = new (Log*)(this);
on_exit(log_on_exit, m_indirect_this);
}
}
void Log::set_max_new(int n)
{
m_max_new = n;
}
void Log::set_max_recent(int n)
{
m_max_recent = n;
}
void Log::set_log_file(string fn)
{
m_log_file = fn;
}
void Log::reopen_log_file()
{
if (m_fd >= 0)
TEMP_FAILURE_RETRY(::close(m_fd));
if (m_log_file.length()) {
m_fd = ::open(m_log_file.c_str(), O_CREAT|O_WRONLY|O_APPEND, 0644);
} else {
m_fd = -1;
}
}
void Log::set_syslog_level(int log, int crash)
{
pthread_mutex_lock(&m_flush_mutex);
m_syslog_log = log;
m_syslog_crash = crash;
pthread_mutex_unlock(&m_flush_mutex);
}
void Log::set_stderr_level(int log, int crash)
{
pthread_mutex_lock(&m_flush_mutex);
m_stderr_log = log;
m_stderr_crash = crash;
pthread_mutex_unlock(&m_flush_mutex);
}
void Log::submit_entry(Entry *e)
{
pthread_mutex_lock(&m_queue_mutex);
// wait for flush to catch up
while (m_new.m_len > m_max_new)
pthread_cond_wait(&m_cond, &m_queue_mutex);
m_new.enqueue(e);
pthread_cond_signal(&m_cond);
pthread_mutex_unlock(&m_queue_mutex);
}
Entry *Log::create_entry(int level, int subsys)
{
if (true) {
return new Entry(ceph_clock_now(NULL),
pthread_self(),
level, subsys);
} else {
// kludge for perf testing
Entry *e = m_recent.dequeue();
e->m_stamp = ceph_clock_now(NULL);
e->m_thread = pthread_self();
e->m_prio = level;
e->m_subsys = subsys;
return e;
}
}
void Log::flush()
{
pthread_mutex_lock(&m_flush_mutex);
pthread_mutex_lock(&m_queue_mutex);
EntryQueue t;
t.swap(m_new);
pthread_cond_signal(&m_cond);
pthread_mutex_unlock(&m_queue_mutex);
_flush(&t, &m_recent, false);
// trim
while (m_recent.m_len > m_max_recent) {
delete m_recent.dequeue();
}
pthread_mutex_unlock(&m_flush_mutex);
}
void Log::_flush(EntryQueue *t, EntryQueue *requeue, bool crash)
{
Entry *e;
char buf[80];
while ((e = t->dequeue()) != NULL) {
unsigned sub = e->m_subsys;
bool should_log = crash || m_subs->get_log_level(sub) >= e->m_prio;
bool do_fd = m_fd >= 0 && should_log;
bool do_syslog = m_syslog_crash >= e->m_prio && should_log;
bool do_stderr = m_stderr_crash >= e->m_prio && should_log;
if (do_fd || do_syslog || do_stderr) {
int buflen = 0;
if (crash)
buflen += snprintf(buf, sizeof(buf), "%6d> ", -t->m_len);
buflen += e->m_stamp.sprintf(buf + buflen, sizeof(buf)-buflen);
buflen += snprintf(buf + buflen, sizeof(buf)-buflen, " %lx %2d ",
(unsigned long)e->m_thread, e->m_prio);
// FIXME: this is slow
string s = e->get_str();
if (do_fd) {
int r = safe_write(m_fd, buf, buflen);
if (r >= 0)
r = safe_write(m_fd, s.data(), s.size());
if (r >= 0)
r = write(m_fd, "\n", 1);
if (r < 0)
cerr << "problem writing to " << m_log_file << ": " << cpp_strerror(r) << std::endl;
}
if (do_syslog) {
syslog(LOG_USER, "%s%s", buf, s.c_str());
}
if (do_stderr) {
cerr << buf << s << std::endl;
}
}
requeue->enqueue(e);
}
}
void Log::_log_message(const char *s, bool crash)
{
if (m_fd >= 0) {
int r = safe_write(m_fd, s, strlen(s));
if (r >= 0)
r = safe_write(m_fd, "\n", 1);
if (r < 0)
cerr << "problem writing to " << m_log_file << ": " << cpp_strerror(r) << std::endl;
}
if ((crash ? m_syslog_crash : m_syslog_log) >= 0) {
syslog(LOG_USER, "%s", s);
}
if ((crash ? m_stderr_crash : m_stderr_log) >= 0) {
cerr << s << std::endl;
}
}
void Log::dump_recent()
{
pthread_mutex_unlock(&m_flush_mutex);
pthread_mutex_lock(&m_queue_mutex);
EntryQueue t;
t.swap(m_new);
pthread_mutex_unlock(&m_queue_mutex);
_flush(&t, &m_recent, false);
EntryQueue old;
_log_message("--- begin dump of recent events ---", true);
_flush(&m_recent, &old, true);
char buf[4096];
_log_message("--- logging levels ---", true);
for (vector<Subsystem>::iterator p = m_subs->m_subsys.begin();
p != m_subs->m_subsys.end();
++p) {
snprintf(buf, sizeof(buf), " %2d/%2d %s", p->log_level, p->gather_level, p->name.c_str());
_log_message(buf, true);
}
sprintf(buf, " %2d/%2d (syslog threshold)", m_syslog_log, m_syslog_crash);
_log_message(buf, true);
sprintf(buf, " %2d/%2d (stderr threshold)", m_stderr_log, m_stderr_crash);
_log_message(buf, true);
sprintf(buf, " max_recent %9d", m_max_recent);
_log_message(buf, true);
sprintf(buf, " max_new %9d", m_max_new);
_log_message(buf, true);
sprintf(buf, " log_file %s", m_log_file.c_str());
_log_message(buf, true);
_log_message("--- end dump of recent events ---", true);
pthread_mutex_unlock(&m_flush_mutex);
}
void Log::start()
{
assert(!is_started());
pthread_mutex_lock(&m_queue_mutex);
m_stop = false;
pthread_mutex_unlock(&m_queue_mutex);
create();
}
void Log::stop()
{
assert(is_started());
pthread_mutex_lock(&m_queue_mutex);
m_stop = true;
pthread_cond_signal(&m_cond);
pthread_mutex_unlock(&m_queue_mutex);
join();
}
void *Log::entry()
{
pthread_mutex_lock(&m_queue_mutex);
while (!m_stop) {
if (!m_new.empty()) {
pthread_mutex_unlock(&m_queue_mutex);
flush();
pthread_mutex_lock(&m_queue_mutex);
continue;
}
pthread_cond_wait(&m_cond, &m_queue_mutex);
}
pthread_mutex_unlock(&m_queue_mutex);
flush();
return NULL;
}
} // ceph::log::
} // ceph::
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