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|
// @file dur_journal.cpp writing to the writeahead logging journal
/**
* Copyright (C) 2010 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "pch.h"
#include "client.h"
#include "namespace.h"
#include "dur_journal.h"
#include "dur_journalformat.h"
#include "dur_stats.h"
#include "../util/logfile.h"
#include "../util/timer.h"
#include "../util/alignedbuilder.h"
#include "../util/net/listen.h" // getelapsedtimemillis
#include <boost/static_assert.hpp>
#include <boost/filesystem.hpp>
#include "../util/mongoutils/str.h"
#include "dur_journalimpl.h"
#include "../util/file.h"
#include "../util/checksum.h"
#include "../util/concurrency/race.h"
#include "../util/compress.h"
#include "../util/progress_meter.h"
#include "../server.h"
#include "../util/mmap.h"
using namespace mongoutils;
#include <boost/filesystem/operations.hpp>
namespace mongo {
class AlignedBuilder;
unsigned goodRandomNumberSlow();
namespace dur {
// Rotate after reaching this data size in a journal (j._<n>) file
// We use a smaller size for 32 bit as the journal is mmapped during recovery (only)
// Note if you take a set of datafiles, including journal files, from 32->64 or vice-versa, it must
// work. (and should as-is)
// --smallfiles makes the limit small.
#if defined(_DEBUG)
unsigned long long DataLimitPerJournalFile = 128 * 1024 * 1024;
#elif defined(__APPLE__)
// assuming a developer box if OS X
unsigned long long DataLimitPerJournalFile = 256 * 1024 * 1024;
#else
unsigned long long DataLimitPerJournalFile = (sizeof(void*)==4) ? 256 * 1024 * 1024 : 1 * 1024 * 1024 * 1024;
#endif
BOOST_STATIC_ASSERT( sizeof(Checksum) == 16 );
BOOST_STATIC_ASSERT( sizeof(JHeader) == 8192 );
BOOST_STATIC_ASSERT( sizeof(JSectHeader) == 20 );
BOOST_STATIC_ASSERT( sizeof(JSectFooter) == 32 );
BOOST_STATIC_ASSERT( sizeof(JEntry) == 12 );
BOOST_STATIC_ASSERT( sizeof(LSNFile) == 88 );
bool usingPreallocate = false;
void removeOldJournalFile(boost::filesystem::path p);
boost::filesystem::path getJournalDir() {
boost::filesystem::path p(dbpath);
p /= "journal";
return p;
}
boost::filesystem::path lsnPath() {
return getJournalDir()/"lsn";
}
/** this should be called when something really bad happens so that we can flag appropriately
*/
void journalingFailure(const char *msg) {
/** todo:
(1) don't log too much
(2) make an indicator in the journal dir that something bad happened.
(2b) refuse to do a recovery startup if that is there without manual override.
*/
log() << "journaling failure/error: " << msg << endl;
verify(false);
}
JSectFooter::JSectFooter() {
memset(this, 0, sizeof(*this));
sentinel = JEntry::OpCode_Footer;
}
JSectFooter::JSectFooter(const void* begin, int len) { // needs buffer to compute hash
sentinel = JEntry::OpCode_Footer;
reserved = 0;
magic[0] = magic[1] = magic[2] = magic[3] = '\n';
Checksum c;
c.gen(begin, (unsigned) len);
memcpy(hash, c.bytes, sizeof(hash));
}
bool JSectFooter::checkHash(const void* begin, int len) const {
if( !magicOk() ) {
log() << "journal footer not valid" << endl;
return false;
}
Checksum c;
c.gen(begin, len);
DEV log() << "checkHash len:" << len << " hash:" << toHex(hash, 16) << " current:" << toHex(c.bytes, 16) << endl;
if( memcmp(hash, c.bytes, sizeof(hash)) == 0 )
return true;
log() << "journal checkHash mismatch, got: " << toHex(c.bytes, 16) << " expected: " << toHex(hash,16) << endl;
return false;
}
JHeader::JHeader(string fname) {
magic[0] = 'j'; magic[1] = '\n';
_version = CurrentVersion;
memset(ts, 0, sizeof(ts));
time_t t = time(0);
strncpy(ts, time_t_to_String_short(t).c_str(), sizeof(ts)-1);
memset(dbpath, 0, sizeof(dbpath));
strncpy(dbpath, fname.c_str(), sizeof(dbpath)-1);
{
fileId = t&0xffffffff;
fileId |= ((unsigned long long)goodRandomNumberSlow()) << 32;
}
memset(reserved3, 0, sizeof(reserved3));
txt2[0] = txt2[1] = '\n';
n1 = n2 = n3 = n4 = '\n';
}
Journal j;
const unsigned long long LsnShutdownSentinel = ~((unsigned long long)0);
Journal::Journal() :
_curLogFileMutex("JournalLfMutex") {
_ageOut = true;
_written = 0;
_nextFileNumber = 0;
_curLogFile = 0;
_curFileId = 0;
_preFlushTime = 0;
_lastFlushTime = 0;
_writeToLSNNeeded = false;
}
boost::filesystem::path Journal::getFilePathFor(int filenumber) const {
boost::filesystem::path p(dir);
p /= string(str::stream() << "j._" << filenumber);
return p;
}
/** never throws
@param anyFiles by default we only look at j._* files. If anyFiles is true, return true
if there are any files in the journal directory. acquirePathLock() uses this to
make sure that the journal directory is mounted.
@return true if journal dir is not empty
*/
bool haveJournalFiles(bool anyFiles) {
try {
for ( boost::filesystem::directory_iterator i( getJournalDir() );
i != boost::filesystem::directory_iterator();
++i ) {
string fileName = boost::filesystem::path(*i).leaf().string();
if( anyFiles || str::startsWith(fileName, "j._") )
return true;
}
}
catch(const std::exception& e) {
log() << "Unable to check for journal files due to: " << e.what() << endl;
}
return false;
}
/** throws */
void removeJournalFiles() {
log() << "removeJournalFiles" << endl;
try {
for ( boost::filesystem::directory_iterator i( getJournalDir() );
i != boost::filesystem::directory_iterator();
++i ) {
string fileName = boost::filesystem::path(*i).leaf().string();
if( str::startsWith(fileName, "j._") ) {
try {
removeOldJournalFile(*i);
}
catch(std::exception& e) {
log() << "couldn't remove " << fileName << ' ' << e.what() << endl;
throw;
}
}
}
try {
boost::filesystem::remove(lsnPath());
}
catch(...) {
// std::exception details logged in catch below
log() << "couldn't remove " << lsnPath().string() << endl;
throw;
}
}
catch( std::exception& e ) {
log() << "error removing journal files " << e.what() << endl;
throw;
}
verify(!haveJournalFiles());
flushMyDirectory(getJournalDir() / "file"); // flushes parent of argument (in this case journal dir)
LOG(1) << "removeJournalFiles end" << endl;
}
/** at clean shutdown */
bool okToCleanUp = false; // successful recovery would set this to true
void Journal::cleanup(bool _log) {
if( !okToCleanUp )
return;
if( _log )
log() << "journalCleanup..." << endl;
try {
SimpleMutex::scoped_lock lk(_curLogFileMutex);
closeCurrentJournalFile();
removeJournalFiles();
}
catch(std::exception& e) {
log() << "error couldn't remove journal file during shutdown " << e.what() << endl;
throw;
}
}
void journalCleanup(bool log) { j.cleanup(log); }
bool _preallocateIsFaster() {
bool faster = false;
boost::filesystem::path p = getJournalDir() / "tempLatencyTest";
if (boost::filesystem::exists(p)) {
try {
remove(p);
}
catch(const std::exception& e) {
log() << "Unable to remove temporary file due to: " << e.what() << endl;
}
}
try {
AlignedBuilder b(8192);
int millis[2];
const int N = 50;
for( int pass = 0; pass < 2; pass++ ) {
LogFile f(p.string());
Timer t;
for( int i = 0 ; i < N; i++ ) {
f.synchronousAppend(b.buf(), 8192);
}
millis[pass] = t.millis();
// second time through, file exists and is prealloc case
}
int diff = millis[0] - millis[1];
if( diff > 2 * N ) {
// at least 2ms faster for prealloc case?
faster = true;
log() << "preallocateIsFaster=true " << diff / (1.0*N) << endl;
}
}
catch (const std::exception& e) {
log() << "info preallocateIsFaster couldn't run due to: " << e.what()
<< "; returning false" << endl;
}
if (boost::filesystem::exists(p)) {
try {
remove(p);
}
catch(const std::exception& e) {
log() << "Unable to remove temporary file due to: " << e.what() << endl;
}
}
return faster;
}
bool preallocateIsFaster() {
Timer t;
bool res = false;
if( _preallocateIsFaster() && _preallocateIsFaster() ) {
// maybe system is just super busy at the moment? sleep a second to let it calm down.
// deciding to to prealloc is a medium big decision:
sleepsecs(1);
res = _preallocateIsFaster();
}
if( t.millis() > 3000 )
log() << "preallocateIsFaster check took " << t.millis()/1000.0 << " secs" << endl;
return res;
}
// throws
void preallocateFile(boost::filesystem::path p, unsigned long long len) {
if( exists(p) )
return;
log() << "preallocating a journal file " << p.string() << endl;
const unsigned BLKSZ = 1024 * 1024;
verify( len % BLKSZ == 0 );
AlignedBuilder b(BLKSZ);
memset((void*)b.buf(), 0, BLKSZ);
ProgressMeter m(len, 3/*secs*/, 10/*hits between time check (once every 6.4MB)*/);
File f;
f.open( p.string().c_str() , /*read-only*/false , /*direct-io*/false );
verify( f.is_open() );
fileofs loc = 0;
while ( loc < len ) {
f.write( loc , b.buf() , BLKSZ );
loc += BLKSZ;
m.hit(BLKSZ);
}
verify( loc == len );
f.fsync();
}
const int NUM_PREALLOC_FILES = 3;
inline boost::filesystem::path preallocPath(int n) {
verify(n >= 0);
verify(n < NUM_PREALLOC_FILES);
string fn = str::stream() << "prealloc." << n;
return getJournalDir() / fn;
}
// throws
void _preallocateFiles() {
for( int i = 0; i < NUM_PREALLOC_FILES; i++ ) {
boost::filesystem::path filepath = preallocPath(i);
unsigned long long limit = DataLimitPerJournalFile;
if( debug && i == 1 ) {
// moving 32->64, the prealloc files would be short. that is "ok", but we want to exercise that
// case, so we force exercising here when _DEBUG is set by arbitrarily stopping prealloc at a low
// limit for a file. also we want to be able to change in the future the constant without a lot of
// work anyway.
limit = 16 * 1024 * 1024;
}
preallocateFile(filepath, limit);
}
}
void checkFreeSpace() {
unsigned long long spaceNeeded = static_cast<unsigned long long>(3 * DataLimitPerJournalFile * 1.1); // add 10% for headroom
unsigned long long freeSpace = File::freeSpace(getJournalDir().string());
unsigned long long prealloced = 0;
for( int i = 0; i < NUM_PREALLOC_FILES; i++ ) {
boost::filesystem::path filepath = preallocPath(i);
if (exists(filepath))
prealloced += file_size(filepath);
}
if (freeSpace + prealloced < spaceNeeded) {
log() << endl;
error() << "Insufficient free space for journal files" << endl;
log() << "Please make at least " << spaceNeeded/(1024*1024) << "MB available in " << getJournalDir().string() << " or use --smallfiles" << endl;
log() << endl;
throw UserException(15926, "Insufficient free space for journals");
}
}
void preallocateFiles() {
if (! (cmdLine.durOptions & CmdLine::DurNoCheckSpace))
checkFreeSpace();
if( exists(preallocPath(0)) || // if enabled previously, keep using
exists(preallocPath(1)) ||
( cmdLine.preallocj && preallocateIsFaster() ) ) {
usingPreallocate = true;
try {
_preallocateFiles();
}
catch (const std::exception& e) {
log() << "warning caught exception (" << e.what()
<< ") in preallocateFiles, continuing" << endl;
}
}
j.open();
}
void removeOldJournalFile(boost::filesystem::path p) {
if( usingPreallocate ) {
try {
for( int i = 0; i < NUM_PREALLOC_FILES; i++ ) {
boost::filesystem::path filepath = preallocPath(i);
if( !boost::filesystem::exists(filepath) ) {
// we can recycle this file into this prealloc file location
boost::filesystem::path temppath = filepath.string() + ".temp";
boost::filesystem::rename(p, temppath);
{
// zero the header
File f;
f.open(temppath.string().c_str(), false, false);
char buf[8192];
memset(buf, 0, 8192);
f.write(0, buf, 8192);
f.truncate(DataLimitPerJournalFile);
f.fsync();
}
boost::filesystem::rename(temppath, filepath);
return;
}
}
} catch (const std::exception& e) {
log() << "warning exception in dur::removeOldJournalFile " << p.string()
<< ": " << e.what() << endl;
// fall through and try to delete the file
}
}
// already have 3 prealloc files, so delete this file
try {
boost::filesystem::remove(p);
}
catch (const std::exception& e) {
log() << "warning exception removing " << p.string() << ": " << e.what() << endl;
}
}
// find a prealloc.<n> file, presumably to take and use
boost::filesystem::path findPrealloced() {
try {
for( int i = 0; i < NUM_PREALLOC_FILES; i++ ) {
boost::filesystem::path filepath = preallocPath(i);
if( boost::filesystem::exists(filepath) )
return filepath;
}
} catch (const std::exception& e) {
log() << "warning exception in dur::findPrealloced(): " << e.what() << endl;
}
return boost::filesystem::path();
}
/** assure journal/ dir exists. throws. call during startup. */
void journalMakeDir() {
j.init();
boost::filesystem::path p = getJournalDir();
j.dir = p.string();
log() << "journal dir=" << j.dir << endl;
if( !boost::filesystem::exists(j.dir) ) {
try {
boost::filesystem::create_directory(j.dir);
}
catch(std::exception& e) {
log() << "error creating directory " << j.dir << ' ' << e.what() << endl;
throw;
}
}
}
void Journal::_open() {
_curFileId = 0;
verify( _curLogFile == 0 );
boost::filesystem::path fname = getFilePathFor(_nextFileNumber);
// if we have a prealloced file, use it
{
boost::filesystem::path p = findPrealloced();
if( !p.empty() ) {
try {
{
// JHeader::fileId must be updated before renaming to be race-safe
LogFile f(p.string());
JHeader h(p.string());
AlignedBuilder b(8192);
b.appendStruct(h);
f.synchronousAppend(b.buf(), b.len());
}
boost::filesystem::rename(p, fname);
}
catch (const std::exception& e) {
log() << "warning couldn't write to / rename file " << p.string()
<< ": " << e.what() << endl;
}
}
}
_curLogFile = new LogFile(fname.string());
_nextFileNumber++;
{
JHeader h(fname.string());
_curFileId = h.fileId;
verify(_curFileId);
AlignedBuilder b(8192);
b.appendStruct(h);
_curLogFile->synchronousAppend(b.buf(), b.len());
}
}
void Journal::init() {
verify( _curLogFile == 0 );
MongoFile::notifyPreFlush = preFlush;
MongoFile::notifyPostFlush = postFlush;
}
void Journal::open() {
verify( MongoFile::notifyPreFlush == preFlush );
SimpleMutex::scoped_lock lk(_curLogFileMutex);
_open();
}
void LSNFile::set(unsigned long long x) {
memset(this, 0, sizeof(*this));
lsn = x;
checkbytes = ~x;
}
/** logs details of the situation, and returns 0, if anything surprising in the LSNFile
if something highly surprising, throws to abort
*/
unsigned long long LSNFile::get() {
uassert(13614, str::stream() << "unexpected version number of lsn file in journal/ directory got: " << ver , ver == 0);
if( ~lsn != checkbytes ) {
log() << "lsnfile not valid. recovery will be from log start. lsn: " << hex << lsn << " checkbytes: " << hex << checkbytes << endl;
return 0;
}
return lsn;
}
/** called during recovery (the error message text below assumes that)
*/
unsigned long long journalReadLSN() {
if( !exists(lsnPath()) ) {
log() << "info no lsn file in journal/ directory" << endl;
return 0;
}
try {
// os can flush as it likes. if it flushes slowly, we will just do extra work on recovery.
// however, given we actually close the file when writing, that seems unlikely.
LSNFile L;
File f;
f.open(lsnPath().string().c_str());
verify(f.is_open());
if( f.len() == 0 ) {
// this could be 'normal' if we crashed at the right moment
log() << "info lsn file is zero bytes long" << endl;
return 0;
}
f.read(0,(char*)&L, sizeof(L));
unsigned long long lsn = L.get();
return lsn;
}
catch(std::exception& e) {
uasserted(13611, str::stream() << "can't read lsn file in journal directory : " << e.what());
}
return 0;
}
unsigned long long getLastDataFileFlushTime() {
return j.lastFlushTime();
}
/** remember "last sequence number" to speed recoveries
concurrency: called by durThread only.
*/
void Journal::updateLSNFile() {
RACECHECK
if( !_writeToLSNNeeded )
return;
_writeToLSNNeeded = false;
try {
// os can flush as it likes. if it flushes slowly, we will just do extra work on recovery.
// however, given we actually close the file, that seems unlikely.
File f;
f.open(lsnPath().string().c_str());
if( !f.is_open() ) {
// can get 0 if an i/o error
log() << "warning: open of lsn file failed" << endl;
return;
}
LOG(1) << "lsn set " << _lastFlushTime << endl;
LSNFile lsnf;
lsnf.set(_lastFlushTime);
f.write(0, (char*)&lsnf, sizeof(lsnf));
// do we want to fsync here? if we do it probably needs to be async so the durthread
// is not delayed.
}
catch(std::exception& e) {
log() << "warning: write to lsn file failed " << e.what() << endl;
// keep running (ignore the error). recovery will be slow.
}
}
void Journal::preFlush() {
j._preFlushTime = Listener::getElapsedTimeMillis();
}
void Journal::postFlush() {
j._lastFlushTime = j._preFlushTime;
j._writeToLSNNeeded = true;
}
// call from within _curLogFileMutex
void Journal::closeCurrentJournalFile() {
if (!_curLogFile)
return;
JFile jf;
jf.filename = _curLogFile->_name;
jf.lastEventTimeMs = Listener::getElapsedTimeMillis();
_oldJournalFiles.push_back(jf);
delete _curLogFile; // close
_curLogFile = 0;
_written = 0;
}
/** remove older journal files.
be in _curLogFileMutex but not dbMutex when calling
*/
void Journal::removeUnneededJournalFiles() {
while( !_oldJournalFiles.empty() ) {
JFile f = _oldJournalFiles.front();
if( f.lastEventTimeMs < _lastFlushTime + ExtraKeepTimeMs ) {
// eligible for deletion
boost::filesystem::path p( f.filename );
log() << "old journal file will be removed: " << f.filename << endl;
removeOldJournalFile(p);
}
else {
break;
}
_oldJournalFiles.pop_front();
}
}
/*int getAgeOutJournalFiles() {
mutex::try_lock lk(j._curLogFileMutex, 4000);
if( !lk.ok )
return -1;
return j._ageOut ? 1 : 0;
}*/
void setAgeOutJournalFiles(bool a) {
SimpleMutex::scoped_lock lk(j._curLogFileMutex);
j._ageOut = a;
}
void Journal::_rotate() {
RACECHECK;
_curLogFileMutex.dassertLocked();
if ( inShutdown() || !_curLogFile )
return;
j.updateLSNFile();
if( _curLogFile && _written < DataLimitPerJournalFile )
return;
if( _curLogFile ) {
_curLogFile->truncate();
closeCurrentJournalFile();
removeUnneededJournalFiles();
}
try {
Timer t;
_open();
int ms = t.millis();
if( ms >= 200 ) {
log() << "DR101 latency warning on journal file open " << ms << "ms" << endl;
}
}
catch(std::exception& e) {
log() << "warning exception opening journal file " << e.what() << endl;
throw;
}
}
/** write (append) the buffer we have built to the journal and fsync it.
outside of dbMutex lock as this could be slow.
@param uncompressed - a buffer that will be written to the journal after compression
will not return until on disk
*/
void WRITETOJOURNAL(JSectHeader h, AlignedBuilder& uncompressed) {
Timer t;
j.journal(h, uncompressed);
stats.curr->_writeToJournalMicros += t.micros();
}
void Journal::journal(const JSectHeader& h, const AlignedBuilder& uncompressed) {
RACECHECK
static AlignedBuilder b(32*1024*1024);
/* buffer to journal will be
JSectHeader
compressed operations
JSectFooter
*/
const unsigned headTailSize = sizeof(JSectHeader) + sizeof(JSectFooter);
const unsigned max = maxCompressedLength(uncompressed.len()) + headTailSize;
b.reset(max);
{
dassert( h.sectionLen() == (unsigned) 0xffffffff ); // we will backfill later
b.appendStruct(h);
}
size_t compressedLength = 0;
rawCompress(uncompressed.buf(), uncompressed.len(), b.cur(), &compressedLength);
verify( compressedLength < 0xffffffff );
verify( compressedLength < max );
b.skip(compressedLength);
// footer
unsigned L = 0xffffffff;
{
// pad to alignment, and set the total section length in the JSectHeader
verify( 0xffffe000 == (~(Alignment-1)) );
unsigned lenUnpadded = b.len() + sizeof(JSectFooter);
L = (lenUnpadded + Alignment-1) & (~(Alignment-1));
dassert( L >= lenUnpadded );
((JSectHeader*)b.atOfs(0))->setSectionLen(lenUnpadded);
JSectFooter f(b.buf(), b.len()); // computes checksum
b.appendStruct(f);
dassert( b.len() == lenUnpadded );
b.skip(L - lenUnpadded);
dassert( b.len() % Alignment == 0 );
}
try {
SimpleMutex::scoped_lock lk(_curLogFileMutex);
// must already be open -- so that _curFileId is correct for previous buffer building
verify( _curLogFile );
stats.curr->_uncompressedBytes += uncompressed.len();
unsigned w = b.len();
_written += w;
verify( w <= L );
stats.curr->_journaledBytes += L;
_curLogFile->synchronousAppend((const void *) b.buf(), L);
_rotate();
}
catch(std::exception& e) {
log() << "error exception in dur::journal " << e.what() << endl;
throw;
}
}
}
}
/* todo
test (and handle) disk full on journal append. best quick thing to do is to terminate.
if we roll back operations, there are nuances such as is ReplSetImpl::lastOpTimeWritten too new in ram then?
*/
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