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/*
* fdbmonitor . cpp
*
* This source file is part of the FoundationDB open source project
*
* Copyright 2013 - 2018 Apple Inc . and the FoundationDB project authors
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*
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* 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
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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
* 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 .
*/
# include <signal.h>
# include <stdio.h>
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# ifndef _WIN32
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# include <unistd.h>
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# endif
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# include <random>
# ifdef __linux__
# include <sys/prctl.h>
# endif
# include <sys/wait.h>
# ifdef __linux__
# include <sys/inotify.h>
# include <time.h>
# include <linux/limits.h>
# endif
# ifdef __APPLE__
# include <sys/event.h>
# include <mach/mach.h>
# include <mach/mach_time.h>
# endif
# include <sys/time.h>
# include <stdlib.h>
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# include <cinttypes>
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# include <unordered_map>
# include <unordered_set>
# include <vector>
# include <string>
# include <sstream>
# include <iterator>
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# include <functional>
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# include <string.h>
# include <errno.h>
# include <sys/types.h>
# include <sys/stat.h>
# include <fcntl.h>
# include <syslog.h>
# include <stdarg.h>
# include <pwd.h>
# include <grp.h>
# include "flow/SimpleOpt.h"
# include "SimpleIni.h"
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# if defined(CMAKE_BUILD) || !defined(WIN32)
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# include "versions.h"
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# endif
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# ifdef __linux__
typedef fd_set * fdb_fd_set ;
# elif defined __APPLE__
typedef int fdb_fd_set ;
# endif
# define CANONICAL_PATH_SEPARATOR ' / '
void monitor_fd ( fdb_fd_set list , int fd , int * maxfd , void * cmd ) {
# ifdef __linux__
FD_SET ( fd , list ) ;
if ( fd > * maxfd )
* maxfd = fd ;
# elif defined __APPLE__
/* ignore maxfd */
struct kevent ev ;
EV_SET ( & ev , fd , EVFILT_READ , EV_ADD , 0 , 0 , cmd ) ;
kevent ( list , & ev , 1 , NULL , 0 , NULL ) ; // FIXME: check?
# endif
}
void unmonitor_fd ( fdb_fd_set list , int fd ) {
# ifdef __linux__
FD_CLR ( fd , list ) ;
# elif defined __APPLE__
struct kevent ev ;
EV_SET ( & ev , fd , EVFILT_READ , EV_DELETE , 0 , 0 , NULL ) ;
kevent ( list , & ev , 1 , NULL , 0 , NULL ) ; // FIXME: check?
# endif
}
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double get_cur_timestamp ( ) {
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struct tm tm_info ;
struct timeval tv ;
gettimeofday ( & tv , NULL ) ;
localtime_r ( & tv . tv_sec , & tm_info ) ;
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return tv . tv_sec + 1e-6 * tv . tv_usec ;
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}
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enum Severity { SevDebug = 5 , SevInfo = 10 , SevWarn = 20 , SevWarnAlways = 30 , SevError = 40 } ;
int severity_to_priority ( Severity severity ) {
switch ( severity ) {
case SevError :
return LOG_ERR ;
case SevWarnAlways :
return LOG_WARNING ;
case SevWarn :
return LOG_NOTICE ;
case SevDebug :
return LOG_DEBUG ;
case SevInfo :
default :
return LOG_INFO ;
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}
}
bool daemonize = false ;
std : : string logGroup = " default " ;
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void vlog_process_msg ( Severity severity , const char * process , const char * format , va_list args ) {
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if ( daemonize ) {
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char buf [ 4096 ] ;
int len = vsnprintf ( buf , 4096 , format , args ) ;
syslog ( severity_to_priority ( severity ) , " LogGroup= \" %s \" Process= \" %s \" : %.*s " , logGroup . c_str ( ) , process , len , buf ) ;
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} else {
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fprintf ( stderr , " Time= \" %.6f \" Severity= \" %d \" LogGroup= \" %s \" Process= \" %s \" : " , get_cur_timestamp ( ) , ( int ) severity , logGroup . c_str ( ) , process ) ;
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vfprintf ( stderr , format , args ) ;
}
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}
void log_msg ( Severity severity , const char * format , . . . ) {
va_list args ;
va_start ( args , format ) ;
vlog_process_msg ( severity , " fdbmonitor " , format , args ) ;
va_end ( args ) ;
}
void log_process_msg ( Severity severity , const char * process , const char * format , . . . ) {
va_list args ;
va_start ( args , format ) ;
vlog_process_msg ( severity , process , format , args ) ;
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va_end ( args ) ;
}
void log_err ( const char * func , int err , const char * format , . . . ) {
va_list args ;
va_start ( args , format ) ;
char buf [ 4096 ] ;
int len = vsnprintf ( buf , 4096 , format , args ) ;
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log_msg ( SevError , " %.*s (%s error %d: %s) \n " , len , buf , func , err , strerror ( err ) ) ;
va_end ( args ) ;
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}
const char * get_value_multi ( const CSimpleIni & ini , const char * key , . . . ) {
const char * ret = NULL ;
const char * section = NULL ;
va_list ap ;
va_start ( ap , key ) ;
while ( ! ret & & ( section = va_arg ( ap , const char * ) ) )
ret = ini . GetValue ( section , key , NULL ) ;
va_end ( ap ) ;
return ret ;
}
double timer ( ) {
# if defined(__linux__)
struct timespec ts ;
clock_gettime ( CLOCK_MONOTONIC , & ts ) ;
return double ( ts . tv_sec ) + ( ts . tv_nsec * 1e-9 ) ;
# elif defined(__APPLE__)
mach_timebase_info_data_t timebase_info ;
mach_timebase_info ( & timebase_info ) ;
return ( ( mach_absolute_time ( ) * timebase_info . numer ) / timebase_info . denom ) * 1e-9 ;
# else
# error Port me!
# endif
} ;
int randomInt ( int min , int max ) {
static std : : random_device rd ;
static std : : mt19937 gen ( rd ( ) ) ;
std : : uniform_int_distribution < > dis ( min , max ) ;
return dis ( gen ) ;
}
std : : string joinPath ( std : : string const & directory , std : : string const & filename ) {
auto d = directory ;
auto f = filename ;
while ( f . size ( ) & & ( f [ 0 ] = = ' / ' | | f [ 0 ] = = CANONICAL_PATH_SEPARATOR ) )
f = f . substr ( 1 ) ;
while ( d . size ( ) & & ( d . back ( ) = = ' / ' | | d . back ( ) = = CANONICAL_PATH_SEPARATOR ) )
d = d . substr ( 0 , d . size ( ) - 1 ) ;
return d + CANONICAL_PATH_SEPARATOR + f ;
}
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std : : string cleanPath ( std : : string const & path ) {
std : : vector < std : : string > finalParts ;
bool absolute = ! path . empty ( ) & & path [ 0 ] = = CANONICAL_PATH_SEPARATOR ;
int i = 0 ;
while ( i < path . size ( ) ) {
int sep = path . find ( ( char ) CANONICAL_PATH_SEPARATOR , i ) ;
if ( sep = = path . npos ) {
sep = path . size ( ) ;
}
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std : : string part = path . substr ( i , sep - i ) ;
i = sep + 1 ;
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if ( part . size ( ) = = 0 | | ( part . size ( ) = = 1 & & part [ 0 ] = = ' . ' ) )
continue ;
if ( part = = " .. " ) {
if ( ! finalParts . empty ( ) & & finalParts . back ( ) ! = " .. " ) {
finalParts . pop_back ( ) ;
continue ;
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}
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if ( absolute ) {
continue ;
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}
}
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finalParts . push_back ( part ) ;
}
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std : : string result ;
result . reserve ( PATH_MAX ) ;
if ( absolute ) {
result . append ( 1 , CANONICAL_PATH_SEPARATOR ) ;
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}
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for ( int i = 0 ; i < finalParts . size ( ) ; + + i ) {
if ( i ! = 0 ) {
result . append ( 1 , CANONICAL_PATH_SEPARATOR ) ;
}
result . append ( finalParts [ i ] ) ;
}
return result . empty ( ) ? " . " : result ;
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}
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// Removes the last component from a path string (if possible) and returns the result with one trailing separator.
std : : string popPath ( const std : : string & path ) {
int i = path . size ( ) - 1 ;
// Skip over any trailing separators
while ( i > = 0 & & path [ i ] = = CANONICAL_PATH_SEPARATOR ) {
- - i ;
}
// Skip over non separators
while ( i > = 0 & & path [ i ] ! = CANONICAL_PATH_SEPARATOR ) {
- - i ;
}
// Skip over trailing separators again
bool foundSeparator = false ;
while ( i > = 0 & & path [ i ] = = CANONICAL_PATH_SEPARATOR ) {
- - i ;
foundSeparator = true ;
}
if ( foundSeparator ) {
+ + i ;
}
else {
// If absolute then we popped off the only path component so return "/"
if ( ! path . empty ( ) & & path . front ( ) = = CANONICAL_PATH_SEPARATOR ) {
return " / " ;
}
}
return path . substr ( 0 , i + 1 ) ;
}
std : : string abspath ( std : : string const & path , bool resolveLinks = true ) {
if ( path . empty ( ) ) {
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return " " ;
}
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if ( ! resolveLinks ) {
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// Treat paths starting with ~ or separator as absolute, meaning they shouldn't be appended to the current working dir
bool absolute = ! path . empty ( ) & & ( path [ 0 ] = = CANONICAL_PATH_SEPARATOR | | path [ 0 ] = = ' ~ ' ) ;
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return cleanPath ( absolute ? path : joinPath ( abspath ( " . " , true ) , path ) ) ;
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}
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char result [ PATH_MAX ] ;
// Must resolve links, so first try realpath on the whole thing
const char * r = realpath ( path . c_str ( ) , result ) ;
if ( r = = nullptr ) {
// If the error was ENOENT and the path doesn't have to exist,
// try to resolve symlinks in progressively shorter prefixes of the path
if ( errno = = ENOENT & & path ! = " . " ) {
std : : string prefix = popPath ( path ) ;
std : : string suffix = path . substr ( prefix . size ( ) ) ;
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if ( prefix . empty ( ) & & ( suffix . empty ( ) | | suffix [ 0 ] ! = ' ~ ' ) ) {
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prefix = " . " ;
}
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if ( ! prefix . empty ( ) ) {
std : : string abs = abspath ( prefix , true ) ;
// An empty return from abspath() means there was an error.
if ( abs . empty ( ) )
return abs ;
return cleanPath ( joinPath ( abs , suffix ) ) ;
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}
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}
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log_err ( " realpath " , errno , " Unable to get real path for %s " , path . c_str ( ) ) ;
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return " " ;
}
return std : : string ( r ) ;
}
std : : string parentDirectory ( std : : string const & path , bool resolveLinks = true ) {
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return popPath ( abspath ( path , resolveLinks ) ) ;
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}
int mkdir ( std : : string const & directory ) {
size_t sep = 0 ;
do {
sep = directory . find_first_of ( ' / ' , sep + 1 ) ;
if ( mkdir ( directory . substr ( 0 , sep ) . c_str ( ) , 0755 ) ! = 0 ) {
if ( errno = = EEXIST )
continue ;
return - 1 ;
}
} while ( sep ! = std : : string : : npos & & sep ! = directory . length ( ) - 1 ) ;
return 0 ;
}
struct Command {
private :
std : : vector < std : : string > commands ;
fdb_fd_set fds ;
public :
const char * * argv ;
std : : string section , ssection ;
uint32_t initial_restart_delay ;
uint32_t max_restart_delay ;
double current_restart_delay ;
double restart_backoff ;
uint32_t restart_delay_reset_interval ;
double last_start ;
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double fork_retry_time ;
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bool quiet ;
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const char * delete_envvars ;
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bool deconfigured ;
bool kill_on_configuration_change ;
// one pair for each of stdout and stderr
int pipes [ 2 ] [ 2 ] ;
Command ( ) : argv ( NULL ) { }
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Command ( const CSimpleIni & ini , std : : string _section , uint64_t id , fdb_fd_set fds , int * maxfd ) : section ( _section ) , argv ( NULL ) , fork_retry_time ( - 1 ) , quiet ( false ) , delete_envvars ( NULL ) , fds ( fds ) , deconfigured ( false ) , kill_on_configuration_change ( true ) {
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char _ssection [ strlen ( section . c_str ( ) ) + 22 ] ;
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snprintf ( _ssection , strlen ( section . c_str ( ) ) + 22 , " %s.% " PRIu64 , section . c_str ( ) , id ) ;
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ssection = _ssection ;
for ( auto p : pipes ) {
if ( ( pipe ( p ) = = 0 ) ) {
monitor_fd ( fds , p [ 0 ] , maxfd , this ) ;
} else {
log_err ( " pipe " , errno , " Unable to construct pipe for %s " , ssection . c_str ( ) ) ;
p [ 0 ] = - 1 ;
p [ 1 ] = - 1 ;
}
}
CSimpleIniA : : TNamesDepend keys , skeys , gkeys ;
ini . GetAllKeys ( section . c_str ( ) , keys ) ;
ini . GetAllKeys ( ssection . c_str ( ) , skeys ) ;
ini . GetAllKeys ( " general " , gkeys ) ;
keys . splice ( keys . end ( ) , skeys , skeys . begin ( ) , skeys . end ( ) ) ;
keys . splice ( keys . end ( ) , gkeys , gkeys . begin ( ) , gkeys . end ( ) ) ;
keys . sort ( CSimpleIniA : : Entry : : KeyOrder ( ) ) ;
keys . unique ( [ ] ( const CSimpleIniA : : Entry & lhs , const CSimpleIniA : : Entry & rhs ) - > bool {
return ! CSimpleIniA : : Entry : : KeyOrder ( ) ( lhs , rhs ) ;
} ) ;
last_start = 0 ;
char * endptr ;
const char * rd = get_value_multi ( ini , " restart_delay " , ssection . c_str ( ) , section . c_str ( ) , " general " , " fdbmonitor " , NULL ) ;
if ( ! rd ) {
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log_msg ( SevError , " Unable to resolve restart delay for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
else {
max_restart_delay = strtoul ( rd , & endptr , 10 ) ;
if ( * endptr ! = ' \0 ' ) {
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log_msg ( SevError , " Unable to parse restart delay for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
}
const char * mrd = get_value_multi ( ini , " initial_restart_delay " , ssection . c_str ( ) , section . c_str ( ) , " general " , " fdbmonitor " , NULL ) ;
if ( ! mrd ) {
initial_restart_delay = 0 ;
}
else {
initial_restart_delay = std : : min < uint32_t > ( max_restart_delay , strtoul ( mrd , & endptr , 10 ) ) ;
if ( * endptr ! = ' \0 ' ) {
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log_msg ( SevError , " Unable to parse initial restart delay for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
}
current_restart_delay = initial_restart_delay ;
const char * rbo = get_value_multi ( ini , " restart_backoff " , ssection . c_str ( ) , section . c_str ( ) , " general " , " fdbmonitor " , NULL ) ;
if ( ! rbo ) {
restart_backoff = max_restart_delay ;
}
else {
restart_backoff = strtod ( rbo , & endptr ) ;
if ( * endptr ! = ' \0 ' ) {
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log_msg ( SevError , " Unable to parse restart backoff for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
if ( restart_backoff < 1.0 ) {
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log_msg ( SevError , " Invalid restart backoff value %lf for %s \n " , restart_backoff , ssection . c_str ( ) ) ;
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return ;
}
}
const char * rdri = get_value_multi ( ini , " restart_delay_reset_interval " , ssection . c_str ( ) , section . c_str ( ) , " general " , " fdbmonitor " , NULL ) ;
if ( ! rdri ) {
restart_delay_reset_interval = max_restart_delay ;
}
else {
restart_delay_reset_interval = strtoul ( rdri , & endptr , 10 ) ;
if ( * endptr ! = ' \0 ' ) {
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log_msg ( SevError , " Unable to parse restart delay reset interval for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
}
const char * q = get_value_multi ( ini , " disable_lifecycle_logging " , ssection . c_str ( ) , section . c_str ( ) , " general " , NULL ) ;
if ( q & & ! strcmp ( q , " true " ) )
quiet = true ;
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const char * del_env = get_value_multi ( ini , " delete_envvars " , ssection . c_str ( ) , section . c_str ( ) , " general " , NULL ) ;
delete_envvars = del_env ;
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const char * kocc = get_value_multi ( ini , " kill_on_configuration_change " , ssection . c_str ( ) , section . c_str ( ) , " general " , NULL ) ;
if ( kocc & & strcmp ( kocc , " true " ) ) {
kill_on_configuration_change = false ;
}
const char * binary = get_value_multi ( ini , " command " , ssection . c_str ( ) , section . c_str ( ) , " general " , NULL ) ;
if ( ! binary ) {
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log_msg ( SevError , " Unable to resolve command for %s \n " , ssection . c_str ( ) ) ;
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return ;
}
std : : stringstream ss ( binary ) ;
std : : copy ( std : : istream_iterator < std : : string > ( ss ) , std : : istream_iterator < std : : string > ( ) , std : : back_inserter < std : : vector < std : : string > > ( commands ) ) ;
const char * id_s = ssection . c_str ( ) + strlen ( section . c_str ( ) ) + 1 ;
for ( auto i : keys ) {
if ( ! strcmp ( i . pItem , " command " ) | | ! strcmp ( i . pItem , " restart_delay " ) | | ! strcmp ( i . pItem , " initial_restart_delay " ) | | ! strcmp ( i . pItem , " restart_backoff " ) | |
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! strcmp ( i . pItem , " restart_delay_reset_interval " ) | | ! strcmp ( i . pItem , " disable_lifecycle_logging " ) | | ! strcmp ( i . pItem , " delete_envvars " ) | |
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! strcmp ( i . pItem , " kill_on_configuration_change " ) )
{
continue ;
}
std : : string opt = get_value_multi ( ini , i . pItem , ssection . c_str ( ) , section . c_str ( ) , " general " , NULL ) ;
std : : size_t pos = 0 ;
while ( ( pos = opt . find ( " $ID " , pos ) ) ! = opt . npos )
opt . replace ( pos , 3 , id_s , strlen ( id_s ) ) ;
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const char * flagName = i . pItem + 5 ;
if ( strncmp ( " flag_ " , i . pItem , 5 ) = = 0 & & strlen ( flagName ) > 0 ) {
if ( opt = = " true " )
commands . push_back ( std : : string ( " -- " ) + flagName ) ;
else if ( opt ! = " false " ) {
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log_msg ( SevError , " Bad flag value, must be true/false. Flag: '%s' Value: '%s' \n " , flagName , opt . c_str ( ) ) ;
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return ;
}
}
else
commands . push_back ( std : : string ( " -- " ) . append ( i . pItem ) . append ( " = " ) . append ( opt ) ) ;
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}
argv = new const char * [ commands . size ( ) + 1 ] ;
int i = 0 ;
for ( auto itr : commands ) {
argv [ i + + ] = strdup ( itr . c_str ( ) ) ;
}
argv [ i ] = NULL ;
}
~ Command ( ) {
delete [ ] argv ;
for ( auto p : pipes ) {
if ( p [ 0 ] > = 0 & & p [ 1 ] > = 0 ) {
unmonitor_fd ( fds , p [ 0 ] ) ;
close ( p [ 0 ] ) ;
close ( p [ 1 ] ) ;
}
}
}
void update ( const Command & other ) {
quiet = other . quiet ;
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delete_envvars = other . delete_envvars ;
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initial_restart_delay = other . initial_restart_delay ;
max_restart_delay = other . max_restart_delay ;
restart_backoff = other . restart_backoff ;
restart_delay_reset_interval = other . restart_delay_reset_interval ;
deconfigured = other . deconfigured ;
kill_on_configuration_change = other . kill_on_configuration_change ;
current_restart_delay = std : : min < double > ( max_restart_delay , current_restart_delay ) ;
current_restart_delay = std : : max < double > ( initial_restart_delay , current_restart_delay ) ;
}
bool operator ! = ( const Command & rhs ) {
if ( rhs . commands . size ( ) ! = commands . size ( ) )
return true ;
for ( size_t i = 0 ; i < commands . size ( ) ; i + + ) {
if ( commands [ i ] . compare ( rhs . commands [ i ] ) ! = 0 )
return true ;
}
return false ;
}
int get_and_update_current_restart_delay ( ) {
if ( timer ( ) - last_start > = restart_delay_reset_interval ) {
current_restart_delay = initial_restart_delay ;
}
int jitter = randomInt ( floor ( - 0.1 * current_restart_delay ) , ceil ( 0.1 * current_restart_delay ) ) ;
int delay = std : : max < int > ( 0 , round ( current_restart_delay ) + jitter ) ;
current_restart_delay = std : : min < double > ( max_restart_delay , restart_backoff * std : : max ( 1.0 , current_restart_delay ) ) ;
return delay ;
}
} ;
std : : unordered_map < uint64_t , Command * > id_command ;
std : : unordered_map < pid_t , uint64_t > pid_id ;
std : : unordered_map < uint64_t , pid_t > id_pid ;
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enum { OPT_CONFFILE , OPT_LOCKFILE , OPT_LOGGROUP , OPT_DAEMONIZE , OPT_HELP } ;
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CSimpleOpt : : SOption g_rgOptions [ ] = {
{ OPT_CONFFILE , " --conffile " , SO_REQ_SEP } ,
{ OPT_LOCKFILE , " --lockfile " , SO_REQ_SEP } ,
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{ OPT_LOGGROUP , " --loggroup " , SO_REQ_SEP } ,
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{ OPT_DAEMONIZE , " --daemonize " , SO_NONE } ,
{ OPT_HELP , " -? " , SO_NONE } ,
{ OPT_HELP , " -h " , SO_NONE } ,
{ OPT_HELP , " --help " , SO_NONE } ,
SO_END_OF_OPTIONS
} ;
void start_process ( Command * cmd , uint64_t id , uid_t uid , gid_t gid , int delay , sigset_t * mask ) {
if ( ! cmd - > argv )
return ;
pid_t pid = fork ( ) ;
if ( pid < 0 ) { /* fork error */
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cmd - > last_start = timer ( ) ;
int fork_delay = cmd - > get_and_update_current_restart_delay ( ) ;
cmd - > fork_retry_time = cmd - > last_start + fork_delay ;
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log_err ( " fork " , errno , " Unable to fork new %s process, restarting %s in %d seconds " , cmd - > argv [ 0 ] , cmd - > ssection . c_str ( ) , fork_delay ) ;
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return ;
} else if ( pid = = 0 ) { /* we are the child */
/* remove signal handlers from parent */
signal ( SIGHUP , SIG_DFL ) ;
signal ( SIGINT , SIG_DFL ) ;
signal ( SIGTERM , SIG_DFL ) ;
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/* All output in this block should be to stdout (for SevInfo messages) or stderr (for SevError messages) */
/* Using log_msg() or log_err() from the child will cause the logs to be written incorrectly */
dup2 ( cmd - > pipes [ 0 ] [ 1 ] , fileno ( stdout ) ) ;
dup2 ( cmd - > pipes [ 1 ] [ 1 ] , fileno ( stderr ) ) ;
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if ( cmd - > delete_envvars ! = NULL & & std : : strlen ( cmd - > delete_envvars ) > 0 ) {
std : : string vars ( cmd - > delete_envvars ) ;
size_t start = 0 ;
do {
size_t bound = vars . find ( " " , start ) ;
std : : string var = vars . substr ( start , bound - start ) ;
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fprintf ( stdout , " Deleting parent environment variable: \' %s \' \n " , var . c_str ( ) ) ;
fflush ( stdout ) ;
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if ( unsetenv ( var . c_str ( ) ) ) {
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fprintf ( stderr , " Unable to remove parent environment variable: %s (unsetenv error %d: %s) \n " , var . c_str ( ) , errno , strerror ( errno ) ) ;
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exit ( 1 ) ;
}
start = bound ;
while ( vars [ start ] = = ' ' )
start + + ;
} while ( start < = vars . length ( ) ) ;
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}
# ifdef __linux__
signal ( SIGCHLD , SIG_DFL ) ;
sigprocmask ( SIG_SETMASK , mask , NULL ) ;
/* death of our parent raises SIGHUP */
prctl ( PR_SET_PDEATHSIG , SIGHUP ) ;
if ( getppid ( ) = = 1 ) /* parent already died before prctl */
exit ( 0 ) ;
# endif
if ( delay )
while ( ( delay = sleep ( delay ) ) > 0 ) { }
if ( getegid ( ) ! = gid )
if ( setgid ( gid ) ! = 0 ) {
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fprintf ( stderr , " Unable to set GID to %d (setgid error %d: %s) \n " , gid , errno , strerror ( errno ) ) ;
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exit ( 1 ) ;
}
if ( geteuid ( ) ! = uid )
if ( setuid ( uid ) ! = 0 ) {
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fprintf ( stderr , " Unable to set UID to %d (setuid error %d: %s) \n " , uid , errno , strerror ( errno ) ) ;
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exit ( 1 ) ;
}
# ifdef __linux__
/* death of our parent raises SIGHUP */
/* although not documented to this effect, setting uid/gid
appears to reset PDEATHSIG */
prctl ( PR_SET_PDEATHSIG , SIGHUP ) ;
if ( getppid ( ) = = 1 ) /* parent already died before prctl */
exit ( 0 ) ;
# endif
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if ( ! cmd - > quiet ) {
fprintf ( stdout , " Launching %s (%d) for %s \n " , cmd - > argv [ 0 ] , getpid ( ) , cmd - > ssection . c_str ( ) ) ;
fflush ( stdout ) ;
}
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execv ( cmd - > argv [ 0 ] , ( char * const * ) cmd - > argv ) ;
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fprintf ( stderr , " Unable to launch %s for %s \n " , cmd - > argv [ 0 ] , cmd - > ssection . c_str ( ) ) ;
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_exit ( 0 ) ;
}
cmd - > last_start = timer ( ) + delay ;
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cmd - > fork_retry_time = - 1 ;
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pid_id [ pid ] = id ;
id_pid [ id ] = pid ;
}
volatile int exit_signal = 0 ;
# ifdef __linux__
void signal_handler ( int sig ) {
if ( sig > exit_signal )
exit_signal = sig ;
}
# endif
volatile bool child_exited = false ;
# ifdef __linux__
void child_handler ( int sig ) {
child_exited = true ;
}
# endif
void print_usage ( const char * name ) {
printf (
" FoundationDB Process Monitor " FDB_VT_PACKAGE_NAME " (v " FDB_VT_VERSION " ) \n "
" Usage: %s [OPTIONS] \n "
" \n "
" --conffile CONFFILE \n "
" The path of a file containing the connection string for the \n "
" FoundationDB cluster. The default is \n "
" `/etc/foundationdb/foundationdb.conf'. \n "
" --lockfile LOCKFILE \n "
" The path of the mutual exclusion file for this instance of \n "
" fdbmonitor. The default is `/var/run/fdbmonitor.pid'. \n "
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" --loggroup LOGGROUP \n "
" Sets the 'LogGroup' field with the specified value for all \n "
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" entries in the log output. The default log group is 'default'. \n "
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" --daemonize Background the fdbmonitor process. \n "
" -h, --help Display this help and exit. \n " , name ) ;
}
bool argv_equal ( const char * * a1 , const char * * a2 )
{
int i = 0 ;
while ( a1 [ i ] & & a2 [ i ] ) {
if ( strcmp ( a1 [ i ] , a2 [ i ] ) )
return false ;
i + + ;
}
if ( a1 [ i ] ! = NULL | | a2 [ i ] ! = NULL )
return false ;
return true ;
}
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void kill_process ( uint64_t id , bool wait = true ) {
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pid_t pid = id_pid [ id ] ;
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log_msg ( SevInfo , " Killing process %d \n " , pid ) ;
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kill ( pid , SIGTERM ) ;
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if ( wait ) {
waitpid ( pid , NULL , 0 ) ;
}
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pid_id . erase ( pid ) ;
id_pid . erase ( id ) ;
}
void load_conf ( const char * confpath , uid_t & uid , gid_t & gid , sigset_t * mask , fdb_fd_set rfds , int * maxfd )
{
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log_msg ( SevInfo , " Loading configuration %s \n " , confpath ) ;
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CSimpleIniA ini ;
ini . SetUnicode ( ) ;
SI_Error err = ini . LoadFile ( confpath ) ;
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bool loadedConf = err > = 0 ;
if ( ! loadedConf ) {
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log_msg ( SevError , " Unable to load configuration file %s (SI_Error: %d, errno: %d) \n " , confpath , err , errno ) ;
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}
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if ( loadedConf ) {
uid_t _uid ;
gid_t _gid ;
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const char * user = ini . GetValue ( " fdbmonitor " , " user " , NULL ) ;
const char * group = ini . GetValue ( " fdbmonitor " , " group " , NULL ) ;
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if ( user ) {
errno = 0 ;
struct passwd * pw = getpwnam ( user ) ;
if ( ! pw ) {
log_err ( " getpwnam " , errno , " Unable to lookup user %s " , user ) ;
return ;
}
_uid = pw - > pw_uid ;
} else
_uid = geteuid ( ) ;
if ( group ) {
errno = 0 ;
struct group * gr = getgrnam ( group ) ;
if ( ! gr ) {
log_err ( " getgrnam " , errno , " Unable to lookup group %s " , group ) ;
return ;
}
_gid = gr - > gr_gid ;
} else
_gid = getegid ( ) ;
/* Any change to uid or gid requires the process to be restarted to take effect */
if ( uid ! = _uid | | gid ! = _gid ) {
std : : vector < uint64_t > kill_ids ;
for ( auto i : id_pid ) {
if ( id_command [ i . first ] - > kill_on_configuration_change ) {
kill_ids . push_back ( i . first ) ;
}
}
for ( auto i : kill_ids ) {
kill_process ( i ) ;
delete id_command [ i ] ;
id_command . erase ( i ) ;
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}
}
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uid = _uid ;
gid = _gid ;
}
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std : : list < uint64_t > kill_ids ;
std : : list < std : : pair < uint64_t , Command * > > start_ids ;
for ( auto i : id_pid ) {
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if ( ! loadedConf | | ini . GetSectionSize ( id_command [ i . first ] - > ssection . c_str ( ) ) = = - 1 ) {
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/* Server on this port no longer configured; deconfigure it and kill it if required */
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log_msg ( SevInfo , " Deconfigured %s \n " , id_command [ i . first ] - > ssection . c_str ( ) ) ;
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id_command [ i . first ] - > deconfigured = true ;
if ( id_command [ i . first ] - > kill_on_configuration_change ) {
kill_ids . push_back ( i . first ) ;
delete id_command [ i . first ] ;
id_command . erase ( i . first ) ;
}
} else {
Command * cmd = new Command ( ini , id_command [ i . first ] - > section , i . first , rfds , maxfd ) ;
// If we just turned on 'kill_on_configuration_change', then kill the process to make sure we pick up any of its pending config changes
if ( * ( id_command [ i . first ] ) ! = * cmd | | ( cmd - > kill_on_configuration_change & & ! id_command [ i . first ] - > kill_on_configuration_change ) ) {
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log_msg ( SevInfo , " Found new configuration for %s \n " , id_command [ i . first ] - > ssection . c_str ( ) ) ;
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delete id_command [ i . first ] ;
id_command [ i . first ] = cmd ;
if ( id_command [ i . first ] - > kill_on_configuration_change ) {
kill_ids . push_back ( i . first ) ;
start_ids . push_back ( std : : make_pair ( i . first , cmd ) ) ;
}
} else {
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log_msg ( SevInfo , " Updated configuration for %s \n " , id_command [ i . first ] - > ssection . c_str ( ) ) ;
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id_command [ i . first ] - > update ( * cmd ) ;
delete cmd ;
}
}
}
for ( auto i : kill_ids )
kill_process ( i ) ;
for ( auto i : start_ids ) {
start_process ( i . second , i . first , uid , gid , 0 , mask ) ;
}
/* We've handled deconfigured sections, now look for newly
configured sections */
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if ( loadedConf ) {
CSimpleIniA : : TNamesDepend sections ;
ini . GetAllSections ( sections ) ;
for ( auto i : sections ) {
if ( auto dot = strrchr ( i . pItem , ' . ' ) ) {
char * strtol_end ;
uint64_t id = strtoull ( dot + 1 , & strtol_end , 10 ) ;
if ( * strtol_end ! = ' \0 ' | | ! ( id > 0 ) ) {
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log_msg ( SevError , " Found bogus id in %s \n " , i . pItem ) ;
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} else {
if ( ! id_pid . count ( id ) ) {
/* Found something we haven't yet started */
Command * cmd ;
auto itr = id_command . find ( id ) ;
if ( itr ! = id_command . end ( ) ) {
cmd = itr - > second ;
}
else {
std : : string section ( i . pItem , dot - i . pItem ) ;
cmd = new Command ( ini , section , id , rfds , maxfd ) ;
id_command [ id ] = cmd ;
}
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if ( cmd - > fork_retry_time < = timer ( ) ) {
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log_msg ( SevInfo , " Starting %s \n " , i . pItem ) ;
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start_process ( cmd , id , uid , gid , 0 , mask ) ;
}
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}
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}
}
}
}
}
/* cmd->pipes[pipe_idx] *must* be ready to read without blocking */
void read_child_output ( Command * cmd , int pipe_idx , fdb_fd_set fds ) {
char buf [ 4096 ] ;
int len = read ( cmd - > pipes [ pipe_idx ] [ 0 ] , buf , 4096 ) ;
if ( len = = - 1 ) {
if ( errno ! = EINTR ) {
/* We shouldn't get EAGAIN or EWOULDBLOCK
here , and if it ' s not EINTR then all of
the other alternatives seem " bad " . */
log_err ( " read " , errno , " Error while reading from %s, no longer logging output " , cmd - > ssection . c_str ( ) ) ;
unmonitor_fd ( fds , cmd - > pipes [ pipe_idx ] [ 0 ] ) ;
}
return ;
}
// pipe_idx == 0 is stdout, pipe_idx == 1 is stderr
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Severity priority = ( pipe_idx = = 0 ) ? SevInfo : SevError ;
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int start = 0 ;
for ( int i = 0 ; i < len ; i + + ) {
if ( buf [ i ] = = ' \n ' ) {
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log_process_msg ( priority , cmd - > ssection . c_str ( ) , " %.*s " , i - start + 1 , buf + start ) ;
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start = i + 1 ;
}
}
if ( start < len ) {
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log_process_msg ( priority , cmd - > ssection . c_str ( ) , " %.*s \n " , len - start , buf + start ) ;
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}
}
# ifdef __APPLE__
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void watch_conf_dir ( int kq , int * confd_fd , std : : string confdir ) {
struct kevent ev ;
std : : string original = confdir ;
while ( true ) {
/* If already watching, drop it and close */
if ( * confd_fd > = 0 ) {
EV_SET ( & ev , * confd_fd , EVFILT_VNODE , EV_DELETE , NOTE_WRITE , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
close ( * confd_fd ) ;
}
confdir = original ;
std : : string child = confdir ;
/* Find the nearest existing ancestor */
while ( ( * confd_fd = open ( confdir . c_str ( ) , O_EVTONLY ) ) < 0 & & errno = = ENOENT ) {
child = confdir ;
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confdir = parentDirectory ( confdir , false ) ;
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}
if ( * confd_fd > = 0 ) {
EV_SET ( & ev , * confd_fd , EVFILT_VNODE , EV_ADD | EV_CLEAR , NOTE_WRITE , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
/* If our child appeared since we last tested it, start over from the beginning */
if ( confdir ! = child & & ( access ( child . c_str ( ) , F_OK ) = = 0 | | errno ! = ENOENT ) ) {
continue ;
}
if ( confdir ! = original ) {
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log_msg ( SevInfo , " Watching parent directory of missing directory %s \n " , child . c_str ( ) ) ;
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}
else {
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log_msg ( SevInfo , " Watching conf dir %s \n " , confdir . c_str ( ) ) ;
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}
}
return ;
}
}
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void watch_conf_file ( int kq , int * conff_fd , const char * confpath ) {
struct kevent ev ;
/* If already watching, drop it and close */
if ( * conff_fd > = 0 ) {
EV_SET ( & ev , * conff_fd , EVFILT_VNODE , EV_DELETE , NOTE_WRITE | NOTE_ATTRIB , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
close ( * conff_fd ) ;
}
/* Open and watch */
* conff_fd = open ( confpath , O_EVTONLY ) ;
if ( * conff_fd > = 0 ) {
EV_SET ( & ev , * conff_fd , EVFILT_VNODE , EV_ADD | EV_CLEAR , NOTE_WRITE | NOTE_ATTRIB , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
}
}
# endif
# ifdef __linux__
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int fdbmon_stat ( const char * path , struct stat * path_stat , bool is_link ) {
return is_link ? lstat ( path , path_stat ) : stat ( path , path_stat ) ;
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}
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/* Sets watches to track changes to all symlinks on a path.
* Also sets a watch on the last existing ancestor of a path if the full path doesn ' t exist . */
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std : : unordered_map < int , std : : unordered_set < std : : string > > set_watches ( std : : string path , int ifd ) {
std : : unordered_map < int , std : : unordered_set < std : : string > > additional_watch_wds ;
struct stat path_stat ;
if ( path . size ( ) < 2 )
return additional_watch_wds ;
int idx = 1 ;
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bool exists = true ;
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/* Check each level of the path, setting a watch on any symlinks.
* Stop checking once we get to a part of the path that doesn ' t exist .
* If we encounter a non - existing path , watch the closest existing ancestor . */
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while ( idx ! = std : : string : : npos & & exists ) {
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idx = path . find_first_of ( ' / ' , idx + 1 ) ;
std : : string subpath = path . substr ( 0 , idx ) ;
int level = 0 ;
while ( true ) {
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/* Check path existence */
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int result = fdbmon_stat ( subpath . c_str ( ) , & path_stat , true ) ;
if ( result ! = 0 ) {
if ( errno = = ENOENT ) {
exists = false ;
}
else {
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log_err ( " lstat " , errno , " Unable to stat %s " , path . c_str ( ) ) ;
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exit ( 1 ) ;
}
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}
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if ( exists ) {
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/* Don't do anything for existing non-links */
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if ( ! S_ISLNK ( path_stat . st_mode ) ) {
break ;
}
else if ( level + + = = 100 ) {
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log_msg ( SevError , " Too many nested symlinks in path %s \n " , path . c_str ( ) ) ;
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exit ( 1 ) ;
}
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}
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std : : string parent = parentDirectory ( subpath , false ) ;
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/* Watch the parent directory of the current path for changes */
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int wd = inotify_add_watch ( ifd , parent . c_str ( ) , IN_CREATE | IN_MOVED_TO ) ;
if ( wd < 0 ) {
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log_err ( " inotify_add_watch " , errno , " Unable to add watch to parent directory %s " , parent . c_str ( ) ) ;
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exit ( 1 ) ;
}
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if ( exists ) {
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log_msg ( SevInfo , " Watching parent directory of symlink %s (%d) \n " , subpath . c_str ( ) , wd ) ;
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additional_watch_wds [ wd ] . insert ( subpath . substr ( parent . size ( ) ) ) ;
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}
else {
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/* If the subpath has appeared since we set the watch, we should cancel it and resume traversing the path */
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int result = fdbmon_stat ( subpath . c_str ( ) , & path_stat , true ) ;
if ( result = = 0 | | errno ! = ENOENT ) {
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inotify_rm_watch ( ifd , wd ) ;
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continue ;
}
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log_msg ( SevInfo , " Watching parent directory of missing directory %s (%d) \n " , subpath . c_str ( ) , wd ) ;
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additional_watch_wds [ wd ] . insert ( subpath . substr ( parent . size ( ) ) ) ;
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break ;
}
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/* Follow the symlink */
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char buf [ PATH_MAX + 1 ] ;
ssize_t len = readlink ( subpath . c_str ( ) , buf , PATH_MAX ) ;
if ( len < 0 ) {
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log_err ( " readlink " , errno , " Unable to follow symlink %s " , subpath . c_str ( ) ) ;
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exit ( 1 ) ;
}
buf [ len ] = ' \0 ' ;
if ( buf [ 0 ] = = ' / ' ) {
subpath = buf ;
}
else {
subpath = joinPath ( parent , buf ) ;
}
}
}
return additional_watch_wds ;
}
# endif
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int testPathFunction ( const char * name , std : : function < std : : string ( std : : string ) > fun , std : : string a , std : : string b ) {
std : : string o = fun ( a ) ;
bool r = b = = o ;
printf ( " %s: %s(%s) = %s expected %s \n " , r ? " PASS " : " FAIL " , name , a . c_str ( ) , o . c_str ( ) , b . c_str ( ) ) ;
return r ? 0 : 1 ;
}
int testPathFunction2 ( const char * name , std : : function < std : : string ( std : : string , bool ) > fun , std : : string a , bool x , std : : string b ) {
std : : string o = fun ( a , x ) ;
bool r = b = = o ;
printf ( " %s: %s(%s, %d) => %s expected %s \n " , r ? " PASS " : " FAIL " , name , a . c_str ( ) , x , o . c_str ( ) , b . c_str ( ) ) ;
return r ? 0 : 1 ;
}
void testPathOps ( ) {
int errors = 0 ;
errors + = testPathFunction ( " popPath " , popPath , " a " , " " ) ;
errors + = testPathFunction ( " popPath " , popPath , " a/ " , " " ) ;
errors + = testPathFunction ( " popPath " , popPath , " a/// " , " " ) ;
errors + = testPathFunction ( " popPath " , popPath , " a///.. " , " a/ " ) ;
errors + = testPathFunction ( " popPath " , popPath , " a///../ " , " a/ " ) ;
errors + = testPathFunction ( " popPath " , popPath , " a///..// " , " a/ " ) ;
errors + = testPathFunction ( " popPath " , popPath , " / " , " / " ) ;
errors + = testPathFunction ( " popPath " , popPath , " /a " , " / " ) ;
errors + = testPathFunction ( " popPath " , popPath , " /a/b " , " /a/ " ) ;
errors + = testPathFunction ( " popPath " , popPath , " /a/b/ " , " /a/ " ) ;
errors + = testPathFunction ( " popPath " , popPath , " /a/b/.. " , " /a/b/ " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " / " , " / " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " .. " , " .. " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " ../.././ " , " ../.. " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " ///./// " , " / " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " /a/b/.././../c/./././////./d/..// " , " /c " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " a/b/.././../c/./././////./d/..// " , " c " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " a/b/.././../c/./././////./d/..//.. " , " . " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " a/b/.././../c/./././////./d/..//../.. " , " .. " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " ../a/b/..// " , " ../a " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " /.. " , " / " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " /../foo/bar/// " , " /foo/bar " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " /a/b/../.././../ " , " / " ) ;
errors + = testPathFunction ( " cleanPath " , cleanPath , " . " , " . " ) ;
mkdir ( " simfdb/backups/one/two/three " ) ;
std : : string cwd = abspath ( " . " , true ) ;
// Create some symlinks and test resolution (or non-resolution) of them
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int rc ;
// Ignoring return codes, if symlinks fail tests below will fail
rc = unlink ( " simfdb/backups/four " ) ;
rc = unlink ( " simfdb/backups/five " ) ;
rc = symlink ( " one/two " , " simfdb/backups/four " ) = = 0 ? 0 : 1 ;
rc = symlink ( " ../backups/four " , " simfdb/backups/five " ) ? 0 : 1 ;
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errors + = testPathFunction2 ( " abspath " , abspath , " simfdb/backups/five/../two " , true , joinPath ( cwd , " simfdb/backups/one/two " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " simfdb/backups/five/../three " , true , joinPath ( cwd , " simfdb/backups/one/three " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " simfdb/backups/five/../three/../four " , true , joinPath ( cwd , " simfdb/backups/one/four " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " simfdb/backups/five/../two " , true , joinPath ( cwd , " simfdb/backups/one/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " simfdb/backups/five/../three " , true , joinPath ( cwd , " simfdb/backups/one/ " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " / " , false , " / " ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " /foo//bar//baz/.././ " , false , " /foo/bar " ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " / " , true , " / " ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " " , true , " " ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " . " , true , cwd ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " /a " , true , " /a " ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " one/two/three/four " , false , joinPath ( cwd , " one/two/three/four " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " one/two/three/./four " , false , joinPath ( cwd , " one/two/three/four " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " one/two/three/./four/.. " , false , joinPath ( cwd , " one/two/three " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " one/./two/../three/./four " , false , joinPath ( cwd , " one/three/four " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " simfdb/backups/four/../two " , false , joinPath ( cwd , " simfdb/backups/two " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " simfdb/backups/five/../two " , false , joinPath ( cwd , " simfdb/backups/two " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " foo/./../foo2/./bar// " , false , joinPath ( cwd , " foo2/bar " ) ) ;
errors + = testPathFunction2 ( " abspath " , abspath , " foo/./../foo2/./bar// " , true , joinPath ( cwd , " foo2/bar " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " " , true , " " ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " / " , true , " / " ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " /a " , true , " / " ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " . " , false , cleanPath ( joinPath ( cwd , " .. " ) ) + " / " ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " ./foo " , false , cleanPath ( cwd ) + " / " ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " one/two/three/four " , false , joinPath ( cwd , " one/two/three/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " one/two/three/./four " , false , joinPath ( cwd , " one/two/three/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " one/two/three/./four/.. " , false , joinPath ( cwd , " one/two/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " one/./two/../three/./four " , false , joinPath ( cwd , " one/three/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " simfdb/backups/four/../two " , false , joinPath ( cwd , " simfdb/backups/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " simfdb/backups/five/../two " , false , joinPath ( cwd , " simfdb/backups/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " foo/./../foo2/./bar// " , false , joinPath ( cwd , " foo2/ " ) ) ;
errors + = testPathFunction2 ( " parentDirectory " , parentDirectory , " foo/./../foo2/./bar// " , true , joinPath ( cwd , " foo2/ " ) ) ;
printf ( " %d errors. \n " , errors ) ;
if ( errors )
exit ( - 1 ) ;
}
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int main ( int argc , char * * argv ) {
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// testPathOps(); return -1;
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std : : string lockfile = " /var/run/fdbmonitor.pid " ;
std : : string _confpath = " /etc/foundationdb/foundationdb.conf " ;
std : : vector < const char * > additional_watch_paths ;
CSimpleOpt args ( argc , argv , g_rgOptions , SO_O_NOERR ) ;
while ( args . Next ( ) ) {
if ( args . LastError ( ) = = SO_SUCCESS ) {
switch ( args . OptionId ( ) ) {
case OPT_CONFFILE :
_confpath = args . OptionArg ( ) ;
break ;
case OPT_LOCKFILE :
lockfile = args . OptionArg ( ) ;
break ;
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case OPT_LOGGROUP :
if ( strchr ( args . OptionArg ( ) , ' " ' ) ! = NULL ) {
log_msg ( SevError , " Invalid log group '%s', cannot contain ' \" ' \n " , args . OptionArg ( ) ) ;
exit ( 1 ) ;
}
logGroup = args . OptionArg ( ) ;
break ;
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case OPT_DAEMONIZE :
daemonize = true ;
break ;
case OPT_HELP :
print_usage ( argv [ 0 ] ) ;
exit ( 0 ) ;
}
} else {
print_usage ( argv [ 0 ] ) ;
exit ( 1 ) ;
}
}
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log_msg ( SevInfo , " Started FoundationDB Process Monitor " FDB_VT_PACKAGE_NAME " (v " FDB_VT_VERSION " ) \n " ) ;
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// Modify _confpath to be absolute for further traversals
if ( ! _confpath . empty ( ) & & _confpath [ 0 ] ! = ' / ' ) {
char buf [ PATH_MAX ] ;
if ( ! getcwd ( buf , PATH_MAX ) ) {
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log_err ( " getcwd " , errno , " Unable to get cwd " ) ;
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exit ( 1 ) ;
}
_confpath = joinPath ( buf , _confpath ) ;
}
// Guaranteed (if non-NULL) to be an absolute path with no
// symbolic link, /./ or /../ components
const char * p = realpath ( _confpath . c_str ( ) , NULL ) ;
if ( ! p ) {
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log_msg ( SevError , " No configuration file at %s \n " , _confpath . c_str ( ) ) ;
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exit ( 1 ) ;
}
std : : string confpath = p ;
// Will always succeed given an absolute path
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std : : string confdir = parentDirectory ( confpath , false ) ;
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std : : string conffile = confpath . substr ( confdir . size ( ) ) ;
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# ifdef __linux__
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// Setup inotify
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int ifd = inotify_init ( ) ;
if ( ifd < 0 ) {
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log_err ( " inotify_init " , errno , " Unable to initialize inotify " ) ;
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exit ( 1 ) ;
}
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int conffile_wd = - 1 ;
int confdir_wd = - 1 ;
std : : unordered_map < int , std : : unordered_set < std : : string > > additional_watch_wds ;
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bool reload_additional_watches = true ;
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# endif
/* fds we're blocking on via pselect or kevent */
fdb_fd_set watched_fds ;
/* only linux needs this, but... */
int maxfd = 0 ;
# ifdef __linux__
fd_set rfds ;
watched_fds = & rfds ;
FD_ZERO ( & rfds ) ;
FD_SET ( ifd , & rfds ) ;
maxfd = ifd ;
int nfds = 0 ;
fd_set srfds ;
# endif
if ( daemonize ) {
# ifdef __APPLE__
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wdeprecated-declarations"
# endif
if ( daemon ( 0 , 0 ) ) {
# ifdef __APPLE__
# pragma GCC diagnostic pop
# endif
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log_err ( " daemon " , errno , " Unable to daemonize " ) ;
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exit ( 1 ) ;
}
/* open syslog connection immediately, to be inherited by
forked children */
openlog ( " fdbmonitor " , LOG_PID | LOG_NDELAY , LOG_DAEMON ) ;
signal ( SIGTSTP , SIG_IGN ) ;
signal ( SIGTTOU , SIG_IGN ) ;
signal ( SIGTTIN , SIG_IGN ) ;
/* new process group, no controlling terminal */
/* unchecked since the only failure indicates we're already a
process group leader */
setsid ( ) ;
}
/* open and lock our lockfile for mutual exclusion */
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std : : string lockfileDir = parentDirectory ( lockfile , true ) ;
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if ( lockfileDir . size ( ) = = 0 ) {
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log_msg ( SevError , " Unable to determine parent directory of lockfile %s \n " , lockfile . c_str ( ) ) ;
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exit ( 1 ) ;
}
if ( mkdir ( lockfileDir ) < 0 ) {
log_err ( " mkdir " , errno , " Unable to create parent directory for lockfile %s " , lockfile . c_str ( ) ) ;
exit ( 1 ) ;
}
int lockfile_fd = open ( lockfile . c_str ( ) , O_RDWR | O_CREAT , 0640 ) ;
if ( lockfile_fd < 0 ) {
log_err ( " open " , errno , " Unable to open fdbmonitor lockfile %s " , lockfile . c_str ( ) ) ;
exit ( 1 ) ;
}
if ( lockf ( lockfile_fd , F_LOCK , 0 ) < 0 ) {
log_err ( " lockf " , errno , " Unable to lock fdbmonitor lockfile %s (is fdbmonitor already running?) " , lockfile . c_str ( ) ) ;
exit ( 0 ) ;
}
if ( chdir ( " / " ) < 0 ) {
log_err ( " chdir " , errno , " Unable to change working directory " ) ;
exit ( 1 ) ;
}
/* write our pid to the lockfile for convenience */
char pid_buf [ 16 ] ;
snprintf ( pid_buf , sizeof ( pid_buf ) , " %d \n " , getpid ( ) ) ;
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auto ign = write ( lockfile_fd , pid_buf , strlen ( pid_buf ) ) ;
( void ) ign ;
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# ifdef __linux__
/* attempt to do clean shutdown and remove lockfile when killed */
signal ( SIGHUP , signal_handler ) ;
signal ( SIGINT , signal_handler ) ;
signal ( SIGTERM , signal_handler ) ;
# elif defined(__APPLE__)
int kq = kqueue ( ) ;
if ( kq < 0 ) {
log_err ( " kqueue " , errno , " Unable to create kqueue " ) ;
exit ( 1 ) ;
}
watched_fds = kq ;
signal ( SIGHUP , SIG_IGN ) ;
signal ( SIGINT , SIG_IGN ) ;
signal ( SIGTERM , SIG_IGN ) ;
struct kevent ev ;
EV_SET ( & ev , SIGHUP , EVFILT_SIGNAL , EV_ADD , 0 , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
EV_SET ( & ev , SIGINT , EVFILT_SIGNAL , EV_ADD , 0 , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
EV_SET ( & ev , SIGTERM , EVFILT_SIGNAL , EV_ADD , 0 , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
EV_SET ( & ev , SIGCHLD , EVFILT_SIGNAL , EV_ADD , 0 , 0 , NULL ) ;
kevent ( kq , & ev , 1 , NULL , 0 , NULL ) ;
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int confd_fd = - 1 ;
int conff_fd = - 1 ;
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// Watch the directory holding the configuration file
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watch_conf_dir ( kq , & confd_fd , confdir ) ;
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# endif
# ifdef __linux__
signal ( SIGCHLD , child_handler ) ;
# endif
uid_t uid = 0 ;
gid_t gid = 0 ;
sigset_t normal_mask , full_mask ;
sigfillset ( & full_mask ) ;
# ifdef __linux__
/* normal will be restored in our main loop in the call to
pselect , but none blocks all signals while processing events */
sigprocmask ( SIG_SETMASK , & full_mask , & normal_mask ) ;
# elif defined(__APPLE__)
sigprocmask ( 0 , NULL , & normal_mask ) ;
# endif
# ifdef __APPLE__
struct stat st_buf ;
struct timespec mtimespec ;
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if ( stat ( confpath . c_str ( ) , & st_buf ) < 0 ) {
log_err ( " stat " , errno , " Unable to stat configuration file %s " , confpath . c_str ( ) ) ;
}
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memcpy ( & mtimespec , & ( st_buf . st_mtimespec ) , sizeof ( struct timespec ) ) ;
# endif
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bool reload = true ;
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while ( 1 ) {
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if ( reload ) {
reload = false ;
# ifdef __linux__
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/* Remove existing watches on conf file and directory */
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if ( confdir_wd > = 0 & & inotify_rm_watch ( ifd , confdir_wd ) < 0 ) {
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log_msg ( SevInfo , " Could not remove inotify conf dir watch, continuing... \n " ) ;
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}
if ( conffile_wd > = 0 & & inotify_rm_watch ( ifd , conffile_wd ) < 0 ) {
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log_msg ( SevInfo , " Could not remove inotify conf file watch, continuing... \n " ) ;
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}
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/* Create new watches */
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conffile_wd = inotify_add_watch ( ifd , confpath . c_str ( ) , IN_CLOSE_WRITE ) ;
if ( conffile_wd < 0 ) {
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if ( errno ! = ENOENT ) {
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log_err ( " inotify_add_watch " , errno , " Unable to set watch on configuration file %s " , confpath . c_str ( ) ) ;
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exit ( 1 ) ;
}
else {
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log_msg ( SevInfo , " Conf file has been deleted %s \n " , confpath . c_str ( ) ) ;
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}
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} else {
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log_msg ( SevInfo , " Watching conf file %s \n " , confpath . c_str ( ) ) ;
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}
confdir_wd = inotify_add_watch ( ifd , confdir . c_str ( ) , IN_CLOSE_WRITE | IN_MOVED_TO ) ;
if ( confdir_wd < 0 ) {
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if ( errno ! = ENOENT ) {
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log_err ( " inotify_add_watch " , errno , " Unable to set watch on configuration file parent directory %s " , confdir . c_str ( ) ) ;
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exit ( 1 ) ;
}
else {
reload_additional_watches = true ;
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log_msg ( SevInfo , " Conf dir has been deleted %s \n " , confdir . c_str ( ) ) ;
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}
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} else {
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log_msg ( SevInfo , " Watching conf dir %s (%d) \n " , confdir . c_str ( ) , confdir_wd ) ;
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}
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/* Reload watches on symlinks and/or the oldest existing ancestor */
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if ( reload_additional_watches ) {
additional_watch_wds = set_watches ( _confpath , ifd ) ;
}
load_conf ( confpath . c_str ( ) , uid , gid , & normal_mask , & rfds , & maxfd ) ;
reload_additional_watches = false ;
# elif defined(__APPLE__)
load_conf ( confpath . c_str ( ) , uid , gid , & normal_mask , watched_fds , & maxfd ) ;
watch_conf_file ( kq , & conff_fd , confpath . c_str ( ) ) ;
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watch_conf_dir ( kq , & confd_fd , confdir ) ;
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# endif
}
double end_time = std : : numeric_limits < double > : : max ( ) ;
for ( auto i : id_command ) {
if ( i . second - > fork_retry_time > = 0 ) {
end_time = std : : min ( i . second - > fork_retry_time , end_time ) ;
}
}
struct timespec tv ;
double timeout = - 1 ;
if ( end_time < std : : numeric_limits < double > : : max ( ) ) {
timeout = std : : max ( 0.0 , end_time - timer ( ) ) ;
if ( timeout > 0 ) {
tv . tv_sec = timeout ;
tv . tv_nsec = 1e9 * ( timeout - tv . tv_sec ) ;
}
}
# ifdef __linux__
/* Block until something interesting happens (while atomically
unblocking signals ) */
srfds = rfds ;
nfds = 0 ;
if ( timeout < 0 ) {
nfds = pselect ( maxfd + 1 , & srfds , NULL , NULL , NULL , & normal_mask ) ;
}
else if ( timeout > 0 ) {
nfds = pselect ( maxfd + 1 , & srfds , NULL , NULL , & tv , & normal_mask ) ;
}
if ( nfds = = 0 ) {
reload = true ;
}
# elif defined(__APPLE__)
int nev = 0 ;
if ( timeout < 0 ) {
nev = kevent ( kq , NULL , 0 , & ev , 1 , NULL ) ;
}
else if ( timeout > 0 ) {
nev = kevent ( kq , NULL , 0 , & ev , 1 , & tv ) ;
}
if ( nev = = 0 ) {
reload = true ;
}
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if ( nev > 0 ) {
switch ( ev . filter ) {
case EVFILT_VNODE :
struct kevent timeout ;
// This could be the conf dir or conf file
if ( ev . ident = = confd_fd ) {
/* Changes in the directory holding the conf file; schedule a future timeout to reset watches and reload the conf */
EV_SET ( & timeout , 1 , EVFILT_TIMER , EV_ADD | EV_ONESHOT , 0 , 200 , NULL ) ;
kevent ( kq , & timeout , 1 , NULL , 0 , NULL ) ;
} else {
/* Direct writes to the conf file; reload! */
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reload = true ;
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}
break ;
case EVFILT_TIMER :
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reload = true ;
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break ;
case EVFILT_SIGNAL :
switch ( ev . ident ) {
case SIGHUP :
case SIGINT :
case SIGTERM :
exit_signal = ev . ident ;
break ;
case SIGCHLD :
child_exited = true ;
break ;
default :
break ;
}
break ;
case EVFILT_READ :
Command * cmd = ( Command * ) ev . udata ;
for ( int i = 0 ; i < 2 ; i + + ) {
if ( ev . ident = = cmd - > pipes [ i ] [ 0 ] ) {
read_child_output ( cmd , i , watched_fds ) ;
}
}
break ;
}
}
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else {
reload = true ;
}
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# endif
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/* select() could have returned because received an exit signal */
if ( exit_signal > 0 ) {
switch ( exit_signal ) {
case SIGHUP :
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for ( auto i : id_command ) {
i . second - > current_restart_delay = i . second - > initial_restart_delay ;
i . second - > fork_retry_time = - 1 ;
}
reload = true ;
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log_msg ( SevInfo , " Received signal %d (%s), resetting timeouts and reloading configuration \n " , exit_signal , strsignal ( exit_signal ) ) ;
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break ;
case SIGINT :
case SIGTERM :
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log_msg ( SevWarn , " Received signal %d (%s), shutting down \n " , exit_signal , strsignal ( exit_signal ) ) ;
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/* Unblock signals */
signal ( SIGCHLD , SIG_IGN ) ;
sigprocmask ( SIG_SETMASK , & normal_mask , NULL ) ;
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/* If daemonized, setsid() was called earlier so we can just kill our entire new process group */
if ( daemonize ) {
kill ( 0 , SIGHUP ) ;
}
else {
/* Otherwise kill each process individually but don't wait on them yet */
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auto i = id_pid . begin ( ) ;
auto iEnd = id_pid . end ( ) ;
while ( i ! = iEnd ) {
// Must advance i before calling kill_process() which erases the entry at i
kill_process ( ( i + + ) - > first , false ) ;
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}
}
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/* Wait for all child processes (says POSIX.1-2001) */
/* POSIX.1-2001 specifies that if the disposition of SIGCHLD is set to SIG_IGN, then children that terminate do not become zombies and a call to wait()
will block until all children have terminated , and then fail with errno set to ECHILD */
wait ( NULL ) ;
unlink ( lockfile . c_str ( ) ) ;
exit ( 0 ) ;
default :
break ;
}
exit_signal = 0 ;
}
# ifdef __linux__
/* select() could have returned because we have a fd ready to
read ( child output or inotify on conf file ) */
if ( nfds > 0 ) {
int len , i = 0 ;
char buf [ 4096 ] ;
for ( auto itr : id_command ) {
for ( int i = 0 ; i < 2 ; i + + ) {
if ( FD_ISSET ( ( itr . second ) - > pipes [ i ] [ 0 ] , & srfds ) ) {
read_child_output ( itr . second , i , watched_fds ) ;
}
}
}
if ( FD_ISSET ( ifd , & srfds ) ) {
len = read ( ifd , buf , 4096 ) ;
if ( len < 0 )
log_err ( " read " , errno , " Error reading inotify message " ) ;
while ( i < len ) {
struct inotify_event * event = ( struct inotify_event * ) & buf [ i ] ;
auto search = additional_watch_wds . find ( event - > wd ) ;
if ( event - > wd ! = conffile_wd ) {
if ( search ! = additional_watch_wds . end ( ) & & event - > len & & search - > second . count ( event - > name ) ) {
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log_msg ( SevInfo , " Changes detected on watched symlink `%s': (%d, %#010x) \n " , event - > name , event - > wd , event - > mask ) ;
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char * redone_confpath = realpath ( _confpath . c_str ( ) , NULL ) ;
if ( ! redone_confpath ) {
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log_msg ( SevInfo , " Error calling realpath on `%s', continuing... \n " , _confpath . c_str ( ) ) ;
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// exit(1);
i + = sizeof ( struct inotify_event ) + event - > len ;
continue ;
}
confpath = redone_confpath ;
// Will always succeed given an absolute path
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confdir = parentDirectory ( confpath , false ) ;
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conffile = confpath . substr ( confdir . size ( ) ) ;
// Remove all the old watches
for ( auto wd : additional_watch_wds ) {
if ( inotify_rm_watch ( ifd , wd . first ) < 0 ) {
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// log_err("inotify_rm_watch", errno, "Unable to remove symlink watch %d", wd.first);
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// exit(1);
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log_msg ( SevInfo , " Could not remove inotify watch %d, continuing... \n " , wd . first ) ;
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}
}
reload = true ;
reload_additional_watches = true ;
break ;
}
else if ( event - > wd = = confdir_wd & & event - > len & & conffile = = event - > name ) {
reload = true ;
}
}
else if ( event - > wd = = conffile_wd ) {
reload = true ;
}
i + = sizeof ( struct inotify_event ) + event - > len ;
}
}
}
# endif
/* select() could have returned because of one or more
SIGCHLDs */
if ( child_exited ) {
pid_t pid ;
int child_status ;
while ( ( pid = waitpid ( - 1 , & child_status , WNOHANG ) ) ) {
if ( pid < 0 ) {
if ( errno ! = ECHILD )
log_err ( " waitpid " , errno , " Error while waiting for child process " ) ;
break ;
}
uint64_t id = pid_id [ pid ] ;
Command * cmd = id_command [ id ] ;
pid_id . erase ( pid ) ;
id_pid . erase ( id ) ;
if ( cmd - > deconfigured ) {
delete cmd ;
id_command . erase ( id ) ;
}
else {
int delay = cmd - > get_and_update_current_restart_delay ( ) ;
if ( ! cmd - > quiet ) {
if ( WIFEXITED ( child_status ) ) {
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Severity priority = ( WEXITSTATUS ( child_status ) = = 0 ) ? SevWarn : SevError ;
log_process_msg ( priority , cmd - > ssection . c_str ( ) , " Process %d exited %d, restarting in %d seconds \n " , pid , WEXITSTATUS ( child_status ) , delay ) ;
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} else if ( WIFSIGNALED ( child_status ) )
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log_process_msg ( SevWarn , cmd - > ssection . c_str ( ) , " Process %d terminated by signal %d, restarting in %d seconds \n " , pid , WTERMSIG ( child_status ) , delay ) ;
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else
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log_process_msg ( SevWarnAlways , cmd - > ssection . c_str ( ) , " Process %d exited for unknown reason, restarting in %d seconds \n " , pid , delay ) ;
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}
start_process ( cmd , id , uid , gid , delay , & normal_mask ) ;
}
}
child_exited = false ;
}
}
}