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// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
//
#include <syslog.h>
#include <boost/algorithm/string/predicate.hpp>
#include "LogEntry.h"
#include "Formatter.h"
#include "include/stringify.h"
// ----
// LogEntryKey
void LogEntryKey::dump(Formatter *f) const
{
f->dump_stream("rank") << rank;
f->dump_stream("stamp") << stamp;
f->dump_unsigned("seq", seq);
}
void LogEntryKey::generate_test_instances(list<LogEntryKey*>& o)
{
o.push_back(new LogEntryKey);
o.push_back(new LogEntryKey(entity_name_t::CLIENT(1234), utime_t(1,2), 34));
}
clog_type LogEntry::str_to_level(std::string const &str)
{
std::string level_str = str;
std::transform(level_str.begin(), level_str.end(), level_str.begin(),
[](char c) {return std::tolower(c);});
if (level_str == "debug") {
return CLOG_DEBUG;
} else if (level_str == "info") {
return CLOG_INFO;
} else if (level_str == "sec") {
return CLOG_SEC;
} else if (level_str == "warn" || level_str == "warning") {
return CLOG_WARN;
} else if (level_str == "error" || level_str == "err") {
return CLOG_ERROR;
} else {
return CLOG_UNKNOWN;
}
}
// ----
int clog_type_to_syslog_level(clog_type t)
{
switch (t) {
case CLOG_DEBUG:
return LOG_DEBUG;
case CLOG_INFO:
return LOG_INFO;
case CLOG_WARN:
return LOG_WARNING;
case CLOG_ERROR:
return LOG_ERR;
case CLOG_SEC:
return LOG_CRIT;
default:
ceph_abort();
return 0;
}
}
clog_type string_to_clog_type(const string& s)
{
if (boost::iequals(s, "debug") ||
boost::iequals(s, "dbg"))
return CLOG_DEBUG;
if (boost::iequals(s, "info") ||
boost::iequals(s, "inf"))
return CLOG_INFO;
if (boost::iequals(s, "warning") ||
boost::iequals(s, "warn") ||
boost::iequals(s, "wrn"))
return CLOG_WARN;
if (boost::iequals(s, "error") ||
boost::iequals(s, "err"))
return CLOG_ERROR;
if (boost::iequals(s, "security") ||
boost::iequals(s, "sec"))
return CLOG_SEC;
return CLOG_UNKNOWN;
}
int string_to_syslog_level(string s)
{
if (boost::iequals(s, "debug"))
return LOG_DEBUG;
if (boost::iequals(s, "info") ||
boost::iequals(s, "notice"))
return LOG_INFO;
if (boost::iequals(s, "warning") ||
boost::iequals(s, "warn"))
return LOG_WARNING;
if (boost::iequals(s, "error") ||
boost::iequals(s, "err"))
return LOG_ERR;
if (boost::iequals(s, "crit") ||
boost::iequals(s, "critical") ||
boost::iequals(s, "emerg"))
return LOG_CRIT;
// err on the side of noise!
return LOG_DEBUG;
}
int string_to_syslog_facility(string s)
{
if (boost::iequals(s, "auth"))
return LOG_AUTH;
if (boost::iequals(s, "authpriv"))
return LOG_AUTHPRIV;
if (boost::iequals(s, "cron"))
return LOG_CRON;
if (boost::iequals(s, "daemon"))
return LOG_DAEMON;
if (boost::iequals(s, "ftp"))
return LOG_FTP;
if (boost::iequals(s, "kern"))
return LOG_KERN;
if (boost::iequals(s, "local0"))
return LOG_LOCAL0;
if (boost::iequals(s, "local1"))
return LOG_LOCAL1;
if (boost::iequals(s, "local2"))
return LOG_LOCAL2;
if (boost::iequals(s, "local3"))
return LOG_LOCAL3;
if (boost::iequals(s, "local4"))
return LOG_LOCAL4;
if (boost::iequals(s, "local5"))
return LOG_LOCAL5;
if (boost::iequals(s, "local6"))
return LOG_LOCAL6;
if (boost::iequals(s, "local7"))
return LOG_LOCAL7;
if (boost::iequals(s, "lpr"))
return LOG_LPR;
if (boost::iequals(s, "mail"))
return LOG_MAIL;
if (boost::iequals(s, "news"))
return LOG_NEWS;
if (boost::iequals(s, "syslog"))
return LOG_SYSLOG;
if (boost::iequals(s, "user"))
return LOG_USER;
if (boost::iequals(s, "uucp"))
return LOG_UUCP;
// default to USER
return LOG_USER;
}
string clog_type_to_string(clog_type t)
{
switch (t) {
case CLOG_DEBUG:
return "debug";
case CLOG_INFO:
return "info";
case CLOG_WARN:
return "warn";
case CLOG_ERROR:
return "err";
case CLOG_SEC:
return "crit";
default:
ceph_abort();
return 0;
}
}
void LogEntry::log_to_syslog(string level, string facility)
{
int min = string_to_syslog_level(level);
int l = clog_type_to_syslog_level(prio);
if (l <= min) {
int f = string_to_syslog_facility(facility);
syslog(l | f, "%s %s %llu : %s",
name.to_cstr(),
stringify(rank).c_str(),
(long long unsigned)seq,
msg.c_str());
}
}
void LogEntry::encode(bufferlist& bl, uint64_t features) const
{
if (!HAVE_FEATURE(features, SERVER_NAUTILUS)) {
ENCODE_START(4, 2, bl);
__u16 t = prio;
entity_inst_t who;
who.name = rank;
who.addr = addrs.as_legacy_addr();
encode(who, bl, features);
encode(stamp, bl);
encode(seq, bl);
encode(t, bl);
encode(msg, bl);
encode(channel, bl);
encode(name, bl);
ENCODE_FINISH(bl);
return;
}
ENCODE_START(5, 5, bl);
__u16 t = prio;
encode(name, bl);
encode(rank, bl);
encode(addrs, bl, features);
encode(stamp, bl);
encode(seq, bl);
encode(t, bl);
encode(msg, bl);
encode(channel, bl);
ENCODE_FINISH(bl);
}
void LogEntry::decode(bufferlist::const_iterator& bl)
{
DECODE_START_LEGACY_COMPAT_LEN(5, 2, 2, bl);
if (struct_v < 5) {
__u16 t;
entity_inst_t who;
decode(who, bl);
rank = who.name;
addrs.v.clear();
addrs.v.push_back(who.addr);
decode(stamp, bl);
decode(seq, bl);
decode(t, bl);
prio = (clog_type)t;
decode(msg, bl);
if (struct_v >= 3) {
decode(channel, bl);
} else {
// prior to having logging channels we only had a cluster log.
// Ensure we keep that appearance when the other party has no
// clue of what a 'channel' is.
channel = CLOG_CHANNEL_CLUSTER;
}
if (struct_v >= 4) {
decode(name, bl);
}
} else {
__u16 t;
decode(name, bl);
decode(rank, bl);
decode(addrs, bl);
decode(stamp, bl);
decode(seq, bl);
decode(t, bl);
prio = (clog_type)t;
decode(msg, bl);
decode(channel, bl);
}
DECODE_FINISH(bl);
}
void LogEntry::dump(Formatter *f) const
{
f->dump_stream("name") << name;
f->dump_stream("rank") << rank;
f->dump_object("addrs", addrs);
f->dump_stream("stamp") << stamp;
f->dump_unsigned("seq", seq);
f->dump_string("channel", channel);
f->dump_stream("priority") << prio;
f->dump_string("message", msg);
}
void LogEntry::generate_test_instances(list<LogEntry*>& o)
{
o.push_back(new LogEntry);
}
// -----
void LogSummary::build_ordered_tail(list<LogEntry> *tail) const
{
tail->clear();
// channel -> (begin, end)
map<string,pair<list<pair<uint64_t,LogEntry>>::const_iterator,
list<pair<uint64_t,LogEntry>>::const_iterator>> pos;
for (auto& i : tail_by_channel) {
pos.emplace(i.first, make_pair(i.second.begin(), i.second.end()));
}
while (true) {
uint64_t min_seq = 0;
list<pair<uint64_t,LogEntry>>::const_iterator *minp = 0;
for (auto& i : pos) {
if (i.second.first == i.second.second) {
continue;
}
if (min_seq == 0 || i.second.first->first < min_seq) {
min_seq = i.second.first->first;
minp = &i.second.first;
}
}
if (min_seq == 0) {
break; // done
}
tail->push_back((*minp)->second);
++(*minp);
}
}
void LogSummary::encode(bufferlist& bl, uint64_t features) const
{
if (!HAVE_FEATURE(features, SERVER_MIMIC)) {
ENCODE_START(2, 2, bl);
encode(version, bl);
list<LogEntry> tail;
build_ordered_tail(&tail);
encode(tail, bl, features);
ENCODE_FINISH(bl);
return;
}
ENCODE_START(3, 3, bl);
encode(version, bl);
encode(seq, bl);
encode(tail_by_channel, bl, features);
ENCODE_FINISH(bl);
}
void LogSummary::decode(bufferlist::const_iterator& bl)
{
DECODE_START_LEGACY_COMPAT_LEN(3, 2, 2, bl);
decode(version, bl);
if (struct_v < 3) {
list<LogEntry> tail;
decode(tail, bl);
for (auto& i : tail) {
add(i);
}
} else {
decode(seq, bl);
decode(tail_by_channel, bl);
}
DECODE_FINISH(bl);
keys.clear();
for (auto& i : tail_by_channel) {
for (auto& e : i.second) {
keys.insert(e.second.key());
}
}
}
void LogSummary::dump(Formatter *f) const
{
f->dump_unsigned("version", version);
f->open_object_section("tail_by_channel");
for (auto& i : tail_by_channel) {
f->open_object_section(i.first.c_str());
for (auto& j : i.second) {
string s = stringify(j.first);
f->dump_object(s.c_str(), j.second);
}
f->close_section();
}
f->close_section();
}
void LogSummary::generate_test_instances(list<LogSummary*>& o)
{
o.push_back(new LogSummary);
// more!
}
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