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/**
\ file env_universal_common . c
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The utility library for universal variables . Used both by the
client library and by the daemon .
*/
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# include "config.h"
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# include <stdlib.h>
# include <stdio.h>
# include <wchar.h>
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# include <string.h>
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# include <unistd.h>
# include <sys/types.h>
# include <sys/socket.h>
# include <sys/un.h>
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# include <arpa/inet.h>
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# include <pwd.h>
# include <errno.h>
# include <sys/stat.h>
# include <dirent.h>
# include <wctype.h>
# include <errno.h>
# include <locale.h>
# include <dirent.h>
# include <signal.h>
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# include <fcntl.h>
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# include <sys/stat.h>
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# include <sys/ioctl.h>
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# include <sys/file.h>
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# include <sys/mman.h>
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# include <map>
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# ifdef HAVE_SYS_SELECT_H
# include <sys/select.h>
# endif
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# include "fallback.h"
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# include "util.h"
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# include "common.h"
# include "wutil.h"
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# include "utf8.h"
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# include "env_universal_common.h"
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# include "path.h"
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# include "iothread.h"
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# if __APPLE__
# define FISH_NOTIFYD_AVAILABLE 1
# include <notify.h>
# endif
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# if HAVE_INOTIFY_INIT || HAVE_INOTIFY_INIT1
# define FISH_INOTIFY_AVAILABLE 1
# include <sys/inotify.h>
# endif
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/**
Non - wide version of the set command
*/
# define SET_MBS "SET"
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/**
Non - wide version of the set_export command
*/
# define SET_EXPORT_MBS "SET_EXPORT"
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/**
Non - wide version of the erase command
*/
# define ERASE_MBS "ERASE"
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/**
Non - wide version of the barrier command
*/
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# define BARRIER_MBS "BARRIER"
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/**
Non - wide version of the barrier_reply command
*/
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# define BARRIER_REPLY_MBS "BARRIER_REPLY"
/**
Error message
*/
# define PARSE_ERR L"Unable to parse universal variable message: '%ls'"
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/**
ERROR string for internal buffered reader
*/
# define ENV_UNIVERSAL_ERROR 0x100
/**
EAGAIN string for internal buffered reader
*/
# define ENV_UNIVERSAL_AGAIN 0x101
/**
EOF string for internal buffered reader
*/
# define ENV_UNIVERSAL_EOF 0x102
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/** Small note about not editing ~/.fishd manually. Inserted at the top of all .fishd files. */
# define SAVE_MSG "# This file is automatically generated by the fish.\n# Do NOT edit it directly, your changes will be overwritten.\n"
static wcstring fishd_get_config ( ) ;
static std : : string get_variables_file_path ( const std : : string & dir , const std : : string & identifier ) ;
static wcstring default_vars_path ( )
{
wcstring wdir = fishd_get_config ( ) ;
const std : : string dir = wcs2string ( wdir ) ;
if ( dir . empty ( ) )
return L " " ;
const std : : string machine_id = get_machine_identifier ( ) ;
const std : : string machine_id_path = get_variables_file_path ( dir , machine_id ) ;
return str2wcstring ( machine_id_path ) ;
}
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/**
The table of all universal variables
*/
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static env_universal_t & default_universal_vars ( )
{
static env_universal_t s_default_vars ( L " " ) ;
return s_default_vars ;
}
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/**
Callback function , should be called on all events
*/
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struct callback_data_t
{
fish_message_type_t type ;
wcstring key ;
wcstring val ;
callback_data_t ( fish_message_type_t t , const wcstring & k , const wcstring & v ) : type ( t ) , key ( k ) , val ( v )
{
}
} ;
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static void ( * callback ) ( fish_message_type_t type ,
const wchar_t * key ,
const wchar_t * val ) ;
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/* Post callbacks that we have determined in this list. We do this here, instead of at the point where we determined that the values changed, because we determine those under a lock, and reentrancy would cause a deadlock */
static void post_callbacks ( const callback_data_list_t & callbacks )
{
if ( callback ! = NULL )
{
for ( size_t i = 0 ; i < callbacks . size ( ) ; i + + )
{
const callback_data_t & data = callbacks . at ( i ) ;
callback ( data . type , data . key . c_str ( ) , data . val . c_str ( ) ) ;
}
}
}
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/* UTF <-> wchar conversions. These return a string allocated with malloc. These call sites could be cleaned up substantially to eliminate the dependence on malloc. */
static wchar_t * utf2wcs ( const char * input )
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{
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wchar_t * result = NULL ;
wcstring converted ;
if ( utf8_to_wchar_string ( input , & converted ) )
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{
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result = wcsdup ( converted . c_str ( ) ) ;
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}
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return result ;
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}
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static char * wcs2utf ( const wchar_t * input )
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{
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char * result = NULL ;
std : : string converted ;
if ( wchar_to_utf8_string ( input , & converted ) )
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{
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result = strdup ( converted . c_str ( ) ) ;
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}
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return result ;
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}
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void env_universal_common_init ( void ( * cb ) ( fish_message_type_t type , const wchar_t * key , const wchar_t * val ) )
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{
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callback = cb ;
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}
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void read_message ( connection_t * conn )
{
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callback_data_list_t callbacks ;
default_universal_vars ( ) . read_message ( conn , & callbacks ) ;
post_callbacks ( callbacks ) ;
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}
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/**
Read one byte of date form the specified connection
*/
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static int read_byte ( connection_t * src )
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{
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if ( src - > buffer_consumed > = src - > read_buffer . size ( ) )
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{
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char local [ ENV_UNIVERSAL_BUFFER_SIZE ] ;
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ssize_t res = read ( src - > fd , local , sizeof local ) ;
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// debug(4, L"Read chunk '%.*s'", res, src->buffer );
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if ( res < 0 )
{
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if ( errno = = EAGAIN | |
errno = = EINTR )
{
return ENV_UNIVERSAL_AGAIN ;
}
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return ENV_UNIVERSAL_ERROR ;
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}
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else if ( res = = 0 )
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{
return ENV_UNIVERSAL_EOF ;
}
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else
{
src - > read_buffer . clear ( ) ;
src - > read_buffer . insert ( src - > read_buffer . begin ( ) , local , local + res ) ;
src - > buffer_consumed = 0 ;
}
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}
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return src - > read_buffer . at ( src - > buffer_consumed + + ) ;
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}
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/**
Remove variable with specified name
*/
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void env_universal_common_remove ( const wcstring & name )
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{
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default_universal_vars ( ) . remove ( name ) ;
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}
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/**
Test if the message msg contains the command cmd
*/
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static bool match ( const wchar_t * msg , const wchar_t * cmd )
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{
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size_t len = wcslen ( cmd ) ;
if ( wcsncasecmp ( msg , cmd , len ) ! = 0 )
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return false ;
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if ( msg [ len ] & & msg [ len ] ! = L ' ' & & msg [ len ] ! = L ' \t ' )
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return false ;
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return true ;
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}
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void env_universal_common_set ( const wchar_t * key , const wchar_t * val , bool exportv )
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{
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CHECK ( key , ) ;
CHECK ( val , ) ;
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default_universal_vars ( ) . set ( key , val , exportv ) ;
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if ( callback )
{
callback ( exportv ? SET_EXPORT : SET , key , val ) ;
}
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}
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void env_universal_common_sync ( )
{
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callback_data_list_t callbacks ;
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bool changed = default_universal_vars ( ) . sync ( & callbacks ) ;
if ( changed )
{
universal_notifier_t : : default_notifier ( ) . post_notification ( ) ;
}
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post_callbacks ( callbacks ) ;
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}
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/**
Attempt to send the specified message to the specified file descriptor
\ return 1 on sucess , 0 if the message could not be sent without blocking and - 1 on error
*/
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static int try_send ( message_t * msg ,
int fd )
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{
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debug ( 3 ,
L " before write of %d chars to fd %d " , msg - > body . size ( ) , fd ) ;
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ssize_t res = write ( fd , msg - > body . c_str ( ) , msg - > body . size ( ) ) ;
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if ( res ! = - 1 )
{
debug ( 4 , L " Wrote message '%s' " , msg - > body . c_str ( ) ) ;
}
else
{
debug ( 4 , L " Failed to write message '%s' " , msg - > body . c_str ( ) ) ;
}
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if ( res = = - 1 )
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{
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switch ( errno )
{
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case EAGAIN :
return 0 ;
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default :
debug ( 2 ,
L " Error while sending universal variable message to fd %d. Closing connection " ,
fd ) ;
if ( debug_level > 2 )
wperror ( L " write " ) ;
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return - 1 ;
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}
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}
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msg - > count - - ;
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if ( ! msg - > count )
{
delete msg ;
}
return 1 ;
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}
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void try_send_all ( connection_t * c )
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{
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/* debug( 3,
L " Send all updates to connection on fd %d " ,
c - > fd ) ; */
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while ( ! c - > unsent . empty ( ) )
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{
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switch ( try_send ( c - > unsent . front ( ) , c - > fd ) )
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{
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case 1 :
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c - > unsent . pop ( ) ;
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break ;
case 0 :
debug ( 4 ,
L " Socket full, send rest later " ) ;
return ;
case - 1 :
c - > killme = 1 ;
return ;
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}
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}
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}
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/* The universal variable format has some funny escaping requirements; here we try to be safe */
static bool is_universal_safe_to_encode_directly ( wchar_t c )
{
if ( c < 32 | | c > 128 )
return false ;
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return iswalnum ( c ) | | wcschr ( L " /_ " , c ) ;
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}
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/**
Escape specified string
*/
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static wcstring full_escape ( const wchar_t * in )
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{
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wcstring out ;
for ( ; * in ; in + + )
{
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wchar_t c = * in ;
if ( is_universal_safe_to_encode_directly ( c ) )
{
out . push_back ( c ) ;
}
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else if ( c < = ( wchar_t ) ASCII_MAX )
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{
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// See #1225 for discussion of use of ASCII_MAX here
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append_format ( out , L " \\ x%.2x " , c ) ;
}
else if ( c < 65536 )
{
append_format ( out , L " \\ u%.4x " , c ) ;
}
else
{
append_format ( out , L " \\ U%.8x " , c ) ;
}
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}
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return out ;
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}
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/* Sets the body of a message to the null-terminated list of null terminated const char *. */
void set_body ( message_t * msg , . . . )
{
/* Start by counting the length of all the strings */
size_t body_len = 0 ;
const char * arg ;
va_list arg_list ;
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va_start ( arg_list , msg ) ;
while ( ( arg = va_arg ( arg_list , const char * ) ) ! = NULL )
body_len + = strlen ( arg ) ;
va_end ( arg_list ) ;
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/* Reserve that length in the string */
msg - > body . reserve ( body_len + 1 ) ; //+1 for trailing NULL? Do I need that?
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/* Set the string contents */
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va_start ( arg_list , msg ) ;
while ( ( arg = va_arg ( arg_list , const char * ) ) ! = NULL )
msg - > body . append ( arg ) ;
va_end ( arg_list ) ;
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}
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/* Returns an instance of message_t allocated via new */
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message_t * create_message ( fish_message_type_t type ,
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const wchar_t * key_in ,
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const wchar_t * val_in )
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{
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char * key = NULL ;
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// debug( 4, L"Crete message of type %d", type );
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if ( key_in )
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{
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if ( wcsvarname ( key_in ) )
{
debug ( 0 , L " Illegal variable name: '%ls' " , key_in ) ;
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return NULL ;
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}
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key = wcs2utf ( key_in ) ;
if ( ! key )
{
debug ( 0 ,
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L " Could not convert %ls to narrow character string " ,
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key_in ) ;
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return NULL ;
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}
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}
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message_t * msg = new message_t ;
msg - > count = 0 ;
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switch ( type )
{
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case SET :
case SET_EXPORT :
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{
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if ( ! val_in )
{
val_in = L " " ;
}
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wcstring esc = full_escape ( val_in ) ;
char * val = wcs2utf ( esc . c_str ( ) ) ;
set_body ( msg , ( type = = SET ? SET_MBS : SET_EXPORT_MBS ) , " " , key , " : " , val , " \n " , NULL ) ;
free ( val ) ;
break ;
}
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case ERASE :
{
set_body ( msg , ERASE_MBS , " " , key , " \n " , NULL ) ;
break ;
}
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case BARRIER :
{
set_body ( msg , BARRIER_MBS , " \n " , NULL ) ;
break ;
}
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case BARRIER_REPLY :
{
set_body ( msg , BARRIER_REPLY_MBS , " \n " , NULL ) ;
break ;
}
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default :
{
debug ( 0 , L " create_message: Unknown message type " ) ;
}
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}
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free ( key ) ;
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// debug( 4, L"Message body is '%s'", msg->body );
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return msg ;
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}
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/**
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Put exported or unexported variables in a string list
*/
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void env_universal_common_get_names ( wcstring_list_t & lst , bool show_exported , bool show_unexported )
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{
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wcstring_list_t names = default_universal_vars ( ) . get_names ( show_exported , show_unexported ) ;
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lst . insert ( lst . end ( ) , names . begin ( ) , names . end ( ) ) ;
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}
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env_var_t env_universal_common_get ( const wcstring & name )
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{
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return default_universal_vars ( ) . get ( name ) ;
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}
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bool env_universal_common_get_export ( const wcstring & name )
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{
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return default_universal_vars ( ) . get_export ( name ) ;
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}
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void enqueue_all ( connection_t * c )
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{
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default_universal_vars ( ) . enqueue_all ( c ) ;
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}
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connection_t : : connection_t ( int input_fd ) :
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fd ( input_fd ) ,
killme ( false ) ,
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buffer_consumed ( 0 )
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{
}
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void connection_destroy ( connection_t * c )
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{
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/*
A connection need not always be open - we only try to close it
if it is open .
*/
if ( c - > fd > = 0 )
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{
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if ( close ( c - > fd ) )
{
wperror ( L " close " ) ;
}
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}
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}
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env_universal_t : : env_universal_t ( const wcstring & path ) : explicit_vars_path ( path ) , tried_renaming ( false ) , last_read_file ( kInvalidFileID )
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{
VOMIT_ON_FAILURE ( pthread_mutex_init ( & lock , NULL ) ) ;
}
env_universal_t : : ~ env_universal_t ( )
{
pthread_mutex_destroy ( & lock ) ;
}
env_var_t env_universal_t : : get ( const wcstring & name ) const
{
env_var_t result = env_var_t : : missing_var ( ) ;
var_table_t : : const_iterator where = vars . find ( name ) ;
if ( where ! = vars . end ( ) )
{
result = where - > second . val ;
}
return result ;
}
bool env_universal_t : : get_export ( const wcstring & name ) const
{
bool result = false ;
var_table_t : : const_iterator where = vars . find ( name ) ;
if ( where ! = vars . end ( ) )
{
result = where - > second . exportv ;
}
return result ;
}
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void env_universal_t : : set_internal ( const wcstring & key , const wcstring & val , bool exportv , bool overwrite )
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{
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ASSERT_IS_LOCKED ( lock ) ;
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if ( ! overwrite & & this - > modified . find ( key ) ! = this - > modified . end ( ) )
{
/* This value has been modified and we're not overwriting it. Skip it. */
return ;
}
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var_entry_t * entry = & vars [ key ] ;
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if ( entry - > exportv ! = exportv | | entry - > val ! = val )
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{
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entry - > val = val ;
entry - > exportv = exportv ;
/* If we are overwriting, then this is now modified */
if ( overwrite )
{
this - > modified . insert ( key ) ;
}
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}
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}
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void env_universal_t : : set ( const wcstring & key , const wcstring & val , bool exportv )
{
scoped_lock locker ( lock ) ;
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this - > set_internal ( key , val , exportv , true /* overwrite */ ) ;
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}
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void env_universal_t : : remove_internal ( const wcstring & key , bool overwrite )
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{
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ASSERT_IS_LOCKED ( lock ) ;
if ( ! overwrite & & this - > modified . find ( key ) ! = modified . end ( ) )
{
/* This value has been modified and we're not overwriting it. Skip it. */
return ;
}
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size_t erased = this - > vars . erase ( key ) ;
if ( erased > 0 & & overwrite )
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{
this - > modified . insert ( key ) ;
}
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}
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void env_universal_t : : remove ( const wcstring & key )
{
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scoped_lock locker ( lock ) ;
this - > remove_internal ( key , true ) ;
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}
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wcstring_list_t env_universal_t : : get_names ( bool show_exported , bool show_unexported ) const
{
wcstring_list_t result ;
scoped_lock locker ( lock ) ;
var_table_t : : const_iterator iter ;
for ( iter = vars . begin ( ) ; iter ! = vars . end ( ) ; + + iter )
{
const wcstring & key = iter - > first ;
const var_entry_t & e = iter - > second ;
if ( ( e . exportv & & show_exported ) | | ( ! e . exportv & & show_unexported ) )
{
result . push_back ( key ) ;
}
}
return result ;
}
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void env_universal_t : : enqueue_all_internal ( connection_t * c ) const
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{
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ASSERT_IS_LOCKED ( lock ) ;
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var_table_t : : const_iterator iter ;
for ( iter = vars . begin ( ) ; iter ! = vars . end ( ) ; + + iter )
{
const wcstring & key = iter - > first ;
const var_entry_t & entry = iter - > second ;
message_t * msg = create_message ( entry . exportv ? SET_EXPORT : SET , key . c_str ( ) , entry . val . c_str ( ) ) ;
msg - > count = 1 ;
c - > unsent . push ( msg ) ;
}
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try_send_all ( c ) ;
}
void env_universal_t : : enqueue_all ( connection_t * c ) const
{
scoped_lock locker ( lock ) ;
enqueue_all_internal ( c ) ;
}
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void env_universal_t : : erase_unmodified_values ( )
{
/* Delete all non-modified keys. */
var_table_t : : iterator iter = vars . begin ( ) ;
while ( iter ! = vars . end ( ) )
{
const wcstring & key = iter - > first ;
if ( modified . find ( key ) = = modified . end ( ) )
{
// Unmodified key. Erase the old value.
vars . erase ( iter + + ) ;
}
else
{
// Modified key, retain the value.
+ + iter ;
}
}
}
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void env_universal_t : : load_from_fd ( int fd , callback_data_list_t * callbacks )
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{
ASSERT_IS_LOCKED ( lock ) ;
assert ( fd > = 0 ) ;
/* Get the dev / inode */
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const file_id_t current_file = file_id_for_fd ( fd ) ;
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if ( current_file ! = last_read_file )
{
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/* Unmodified values are sourced from the file. Since we are about to read a different file, erase them */
this - > erase_unmodified_values ( ) ;
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connection_t c ( fd ) ;
/* Read from the file. Do not destroy the connection; the caller is responsible for closing the fd. */
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this - > read_message_internal ( & c , callbacks ) ;
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last_read_file = current_file ;
}
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}
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bool env_universal_t : : load_from_path ( const wcstring & path , callback_data_list_t * callbacks )
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{
ASSERT_IS_LOCKED ( lock ) ;
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/* Check to see if the file is unchanged. We do this again in load_from_fd, but this avoids opening the file unnecessarily. */
if ( last_read_file ! = kInvalidFileID & & file_id_for_path ( path ) = = last_read_file )
{
return true ;
}
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/* OK to not use CLO_EXEC here because fishd is single threaded */
bool result = false ;
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int fd = wopen_cloexec ( path , O_RDONLY ) ;
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if ( fd > = 0 )
{
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this - > load_from_fd ( fd , callbacks ) ;
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close ( fd ) ;
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result = true ;
}
return result ;
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}
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void env_universal_t : : write_to_fd ( int fd )
{
ASSERT_IS_LOCKED ( lock ) ;
assert ( fd > = 0 ) ;
connection_t conn ( fd ) ;
write_loop ( fd , SAVE_MSG , strlen ( SAVE_MSG ) ) ;
this - > enqueue_all_internal ( & conn ) ;
/* Since we just wrote out this file, it matches our internal state; pretend we read from it */
this - > last_read_file = file_id_for_fd ( fd ) ;
/* Do not destroy the connection; we don't close the file */
}
bool env_universal_t : : move_new_vars_file_into_place ( const wcstring & src , const wcstring & dst )
{
int ret = wrename ( src , dst ) ;
if ( ret ! = 0 )
{
wperror ( L " rename " ) ;
}
return ret = = 0 ;
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}
/**
Get environment variable value .
*/
static env_var_t fishd_env_get ( const char * key )
{
const char * env = getenv ( key ) ;
if ( env ! = NULL )
{
return env_var_t ( str2wcstring ( env ) ) ;
}
else
{
const wcstring wkey = str2wcstring ( key ) ;
return env_universal_common_get ( wkey ) ;
}
}
static wcstring fishd_get_config ( )
{
bool done = false ;
wcstring result ;
env_var_t xdg_dir = fishd_env_get ( " XDG_CONFIG_HOME " ) ;
if ( ! xdg_dir . missing_or_empty ( ) )
{
result = xdg_dir ;
append_path_component ( result , L " /fish " ) ;
if ( ! create_directory ( result ) )
{
done = true ;
}
}
else
{
env_var_t home = fishd_env_get ( " HOME " ) ;
if ( ! home . missing_or_empty ( ) )
{
result = home ;
append_path_component ( result , L " /.config/fish " ) ;
if ( ! create_directory ( result ) )
{
done = 1 ;
}
}
}
if ( ! done )
{
/* Bad juju */
debug ( 0 , _ ( L " Unable to create a configuration directory for fish. Your personal settings will not be saved. Please set the $XDG_CONFIG_HOME variable to a directory where the current user has write access. " ) ) ;
result . clear ( ) ;
}
return result ;
}
bool env_universal_t : : load ( )
{
scoped_lock locker ( lock ) ;
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callback_data_list_t callbacks ;
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const wcstring vars_path = explicit_vars_path . empty ( ) ? default_vars_path ( ) : explicit_vars_path ;
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bool success = load_from_path ( vars_path , & callbacks ) ;
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if ( ! success & & ! tried_renaming & & errno = = ENOENT )
{
/* We failed to load, because the file was not found. Older fish used the hostname only. Try *moving* the filename based on the hostname into place; if that succeeds try again. Silently "upgraded." */
tried_renaming = true ;
std : : string hostname_id ;
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if ( get_hostname_identifier ( & hostname_id ) )
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{
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const wcstring hostname_path = wdirname ( vars_path ) + L ' / ' + str2wcstring ( hostname_id ) ;
if ( 0 = = wrename ( hostname_path , vars_path ) )
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{
/* We renamed - try again */
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success = this - > load ( ) ;
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}
}
}
return success ;
}
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bool env_universal_t : : open_temporary_file ( const wcstring & directory , wcstring * out_path , int * out_fd )
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{
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/* Create and open a temporary file for writing within the given directory */
/* Try to create a temporary file, up to 10 times. We don't use mkstemps because we want to open it CLO_EXEC. This should almost always succeed on the first try. */
assert ( ! string_suffixes_string ( L " / " , directory ) ) ;
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bool success = false ;
const wcstring tmp_name_template = directory + L " /fishd.tmp.XXXXXX " ;
wcstring tmp_name ;
for ( size_t attempt = 0 ; attempt < 10 & & ! success ; attempt + + )
{
int result_fd = - 1 ;
char * narrow_str = wcs2str ( tmp_name_template . c_str ( ) ) ;
if ( narrow_str & & mktemp ( narrow_str ) )
{
/* It was successfully templated; try opening it atomically */
tmp_name = str2wcstring ( narrow_str ) ;
result_fd = wopen_cloexec ( tmp_name , O_WRONLY | O_CREAT | O_EXCL | O_TRUNC , 0644 ) ;
}
if ( result_fd > = 0 )
{
/* Success */
* out_fd = result_fd ;
* out_path = str2wcstring ( narrow_str ) ;
success = true ;
}
free ( narrow_str ) ;
}
if ( ! success )
{
wperror ( L " open " ) ;
}
return success ;
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}
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bool env_universal_t : : open_and_acquire_lock ( const wcstring & path , int * out_fd )
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{
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/* Attempt to open the file for reading at the given path, atomically acquiring a lock. On BSD, we can use O_EXLOCK. On Linux, we open the file, take a lock, and then compare fstat() to stat(); if they match, it means that the file was not replaced before we acquired the lock.
We pass O_RDONLY with O_CREAT ; this creates a potentially empty file . We do this so that we have something to lock on .
*/
int result_fd = - 1 ;
bool needs_lock = true ;
int flags = O_RDONLY | O_CREAT ;
# ifdef O_EXLOCK
flags | = O_EXLOCK ;
needs_lock = false ;
# endif
for ( ; ; )
{
int fd = wopen_cloexec ( path , flags , 0644 ) ;
if ( fd < 0 )
{
int err = errno ;
if ( err = = EINTR )
{
/* Signal; try again */
continue ;
}
# ifdef O_EXLOCK
else if ( err = = EOPNOTSUPP )
{
/* Filesystem probably does not support locking. Clear the flag and try again. Note that we try taking the lock via flock anyways. */
flags & = ~ O_EXLOCK ;
needs_lock = true ;
continue ;
}
# endif
else
{
wperror ( L " open " ) ;
break ;
}
}
/* If we get here, we must have a valid fd */
assert ( fd > = 0 ) ;
/* Try taking the lock, if necessary. If we failed, we may be on lockless NFS, etc.; in that case we pretend we succeeded. See the comment in save_to_path for the rationale. */
if ( needs_lock )
{
while ( flock ( fd , LOCK_EX ) < 0 )
{
/* error */
if ( errno ! = EINTR )
{
wperror ( L " flock " ) ;
break ;
}
}
}
/* Hopefully we got the lock. However, it's possible the file changed out from under us while we were waiting for the lock. Make sure that didn't happen. */
if ( file_id_for_fd ( fd ) ! = file_id_for_path ( path ) )
{
/* Oops, it changed! Try again */
close ( fd ) ;
continue ;
}
/* Finally, we have an fd that's valid and hopefully locked. We're done */
assert ( fd > = 0 ) ;
result_fd = fd ;
break ;
}
* out_fd = result_fd ;
return result_fd > = 0 ;
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}
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/* Returns true if modified variables were written, false if not. (There may still be variable changes due to other processes on a false return). */
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bool env_universal_t : : sync ( callback_data_list_t * callbacks )
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{
scoped_lock locker ( lock ) ;
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/* Our saving strategy:
1. Open the file , producing an fd .
2. Lock the file ( may be combined with step 1 on systems with O_EXLOCK )
3. After taking the lock , check if the file at the given path is different from what we opened . If so , start over .
4. Read from the file . This can be elided if its dev / inode is unchanged since the last read
5. Open an adjacent temporary file
6. Write our changes to an adjacent file
7. Move the adjacent file into place via rename . This is assumed to be atomic .
8. Release the lock and close the file
Consider what happens if Process 1 and 2 both do this simultaneously . Can there be data loss ? Process 1 opens the file and then attempts to take the lock . Now , either process 1 will see the original file , or process 2 ' s new file . If it sees the new file , we ' re OK : it ' s going to read from the new file , and so there ' s no data loss . If it sees the old file , then process 2 must have locked it ( if process 1 locks it , switch their roles ) . The lock will block until process 2 reaches step 7 ; at that point process 1 will reach step 2 , notice that the file has changed , and then start over .
It ' s possible that the underlying filesystem does not support locks ( lockless NFS ) . In this case , we risk data loss if two shells try to write their universal variables simultaneously . In practice this is unlikely , since uvars are usually written interactively .
Prior versions of fish used a hard link scheme to support file locking on lockless NFS . The risk here is that if the process crashes or is killed while holding the lock , future instances of fish will not be able to obtain it . This seems to be a greater risk than that of data loss on lockless NFS . Users who put their home directory on lockless NFS are playing with fire anyways .
It ' s worth discussing error handling on the initial open ( # 1 ) :
File doesn ' t exist : attempt to create an empty file , then repeat
Permission denied / other errors : log to the console ( once ) and then give up
*/
const wcstring vars_path = explicit_vars_path . empty ( ) ? default_vars_path ( ) : explicit_vars_path ;
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/* If we have no changes, just load */
if ( modified . empty ( ) )
{
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this - > load_from_path ( vars_path , callbacks ) ;
return false ;
}
#if 0
for ( std : : set < wcstring > : : iterator iter = modified . begin ( ) ; iter ! = modified . end ( ) ; + + iter )
{
fprintf ( stderr , " Modified %ls \n " , iter - > c_str ( ) ) ;
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}
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# endif
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const wcstring directory = wdirname ( vars_path ) ;
bool success = false ;
int vars_fd = - 1 ;
int private_fd = - 1 ;
wcstring private_file_path ;
do
{
/* Open the file */
if ( ! this - > open_and_acquire_lock ( vars_path , & vars_fd ) )
{
break ;
}
/* Read from it */
assert ( vars_fd > = 0 ) ;
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this - > load_from_fd ( vars_fd , callbacks ) ;
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/* Open adjacent temporary file */
if ( ! this - > open_temporary_file ( directory , & private_file_path , & private_fd ) )
{
break ;
}
/* Write to it */
assert ( private_fd > = 0 ) ;
this - > write_to_fd ( private_fd ) ;
/* Apply new file */
if ( ! this - > move_new_vars_file_into_place ( private_file_path , vars_path ) )
{
break ;
}
/* Since we moved the new file into place, clear the path so we don't try to unlink it */
private_file_path . clear ( ) ;
success = true ;
break ;
} while ( false ) ;
/* Clean up */
if ( vars_fd > = 0 )
{
close ( vars_fd ) ;
}
if ( private_fd > = 0 )
{
close ( private_fd ) ;
}
if ( ! private_file_path . empty ( ) )
{
wunlink ( private_file_path ) ;
}
if ( success )
{
/* All of our modified variables have now been written out. */
modified . clear ( ) ;
}
return success ;
}
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void env_universal_t : : read_message_internal ( connection_t * src , callback_data_list_t * callbacks )
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{
ASSERT_IS_LOCKED ( lock ) ;
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while ( 1 )
{
int ib = read_byte ( src ) ;
char b ;
switch ( ib )
{
case ENV_UNIVERSAL_AGAIN :
{
return ;
}
case ENV_UNIVERSAL_ERROR :
{
debug ( 2 , L " Read error on fd %d, set killme flag " , src - > fd ) ;
if ( debug_level > 2 )
wperror ( L " read " ) ;
src - > killme = 1 ;
return ;
}
case ENV_UNIVERSAL_EOF :
{
src - > killme = 1 ;
debug ( 3 , L " Fd %d has reached eof, set killme flag " , src - > fd ) ;
if ( ! src - > input . empty ( ) )
{
char c = 0 ;
src - > input . push_back ( c ) ;
debug ( 1 ,
L " Universal variable connection closed while reading command. Partial command recieved: '%s' " ,
& src - > input . at ( 0 ) ) ;
}
return ;
}
}
b = ( char ) ib ;
if ( b = = ' \n ' )
{
wchar_t * msg ;
b = 0 ;
src - > input . push_back ( b ) ;
msg = utf2wcs ( & src - > input . at ( 0 ) ) ;
/*
Before calling parse_message , we must empty reset
everything , since the callback function could
potentially call read_message .
*/
src - > input . clear ( ) ;
if ( msg )
{
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this - > parse_message_internal ( msg , src , callbacks ) ;
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}
else
{
debug ( 0 , _ ( L " Could not convert message '%s' to wide character string " ) , & src - > input . at ( 0 ) ) ;
}
free ( msg ) ;
}
else
{
src - > input . push_back ( b ) ;
}
}
}
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void env_universal_t : : read_message ( connection_t * src , callback_data_list_t * callbacks )
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{
scoped_lock locker ( lock ) ;
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return read_message_internal ( src , callbacks ) ;
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}
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/**
Parse message msg
*/
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void env_universal_t : : parse_message_internal ( wchar_t * msg , connection_t * src , callback_data_list_t * callbacks )
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{
ASSERT_IS_LOCKED ( lock ) ;
// debug( 3, L"parse_message( %ls );", msg );
if ( msg [ 0 ] = = L ' # ' )
return ;
if ( match ( msg , SET_STR ) | | match ( msg , SET_EXPORT_STR ) )
{
wchar_t * name , * tmp ;
bool exportv = match ( msg , SET_EXPORT_STR ) ;
name = msg + ( exportv ? wcslen ( SET_EXPORT_STR ) : wcslen ( SET_STR ) ) ;
while ( wcschr ( L " \t " , * name ) )
name + + ;
tmp = wcschr ( name , L ' : ' ) ;
if ( tmp )
{
const wcstring key ( name , tmp - name ) ;
wcstring val ;
if ( unescape_string ( tmp + 1 , & val , 0 ) )
{
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this - > set_internal ( key , val , exportv , false ) ;
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if ( callbacks ! = NULL )
{
callbacks - > push_back ( callback_data_t ( exportv ? SET_EXPORT : SET , key , val ) ) ;
}
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}
}
else
{
debug ( 1 , PARSE_ERR , msg ) ;
}
}
else if ( match ( msg , ERASE_STR ) )
{
wchar_t * name , * tmp ;
name = msg + wcslen ( ERASE_STR ) ;
while ( wcschr ( L " \t " , * name ) )
name + + ;
tmp = name ;
while ( iswalnum ( * tmp ) | | * tmp = = L ' _ ' )
tmp + + ;
* tmp = 0 ;
if ( ! wcslen ( name ) )
{
debug ( 1 , PARSE_ERR , msg ) ;
}
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this - > remove_internal ( name , false ) ;
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if ( callbacks ! = NULL )
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{
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callbacks - > push_back ( callback_data_t ( ERASE , name , wcstring ( ) ) ) ;
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}
}
else if ( match ( msg , BARRIER_STR ) )
{
message_t * msg = create_message ( BARRIER_REPLY , 0 , 0 ) ;
msg - > count = 1 ;
src - > unsent . push ( msg ) ;
try_send_all ( src ) ;
}
else if ( match ( msg , BARRIER_REPLY_STR ) )
{
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if ( callbacks ! = NULL )
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{
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callbacks - > push_back ( callback_data_t ( BARRIER_REPLY , wcstring ( ) , wcstring ( ) ) ) ;
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}
}
else
{
debug ( 1 , PARSE_ERR , msg ) ;
}
}
static std : : string get_variables_file_path ( const std : : string & dir , const std : : string & identifier )
{
std : : string name ;
name . append ( dir ) ;
name . append ( " / " ) ;
name . append ( " fishd. " ) ;
name . append ( identifier ) ;
return name ;
}
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/**
Maximum length of hostname . Longer hostnames are truncated
*/
# define HOSTNAME_LEN 32
/* Length of a MAC address */
# define MAC_ADDRESS_MAX_LEN 6
/* Thanks to Jan Brittenson
http : //lists.apple.com/archives/xcode-users/2009/May/msg00062.html
*/
# ifdef SIOCGIFHWADDR
/* Linux */
# include <net/if.h>
static bool get_mac_address ( unsigned char macaddr [ MAC_ADDRESS_MAX_LEN ] , const char * interface = " eth0 " )
{
bool result = false ;
const int dummy = socket ( AF_INET , SOCK_STREAM , 0 ) ;
if ( dummy > = 0 )
{
struct ifreq r ;
strncpy ( ( char * ) r . ifr_name , interface , sizeof r . ifr_name - 1 ) ;
r . ifr_name [ sizeof r . ifr_name - 1 ] = 0 ;
if ( ioctl ( dummy , SIOCGIFHWADDR , & r ) > = 0 )
{
memcpy ( macaddr , r . ifr_hwaddr . sa_data , MAC_ADDRESS_MAX_LEN ) ;
result = true ;
}
close ( dummy ) ;
}
return result ;
}
# elif defined(HAVE_GETIFADDRS)
/* OS X and BSD */
# include <ifaddrs.h>
# include <net/if_dl.h>
static bool get_mac_address ( unsigned char macaddr [ MAC_ADDRESS_MAX_LEN ] , const char * interface = " en0 " )
{
// BSD, Mac OS X
struct ifaddrs * ifap ;
bool ok = false ;
if ( getifaddrs ( & ifap ) = = 0 )
{
for ( const ifaddrs * p = ifap ; p ; p = p - > ifa_next )
{
if ( p - > ifa_addr - > sa_family = = AF_LINK )
{
if ( p - > ifa_name & & p - > ifa_name [ 0 ] & &
! strcmp ( ( const char * ) p - > ifa_name , interface ) )
{
const sockaddr_dl & sdl = * ( sockaddr_dl * ) p - > ifa_addr ;
size_t alen = sdl . sdl_alen ;
if ( alen > MAC_ADDRESS_MAX_LEN ) alen = MAC_ADDRESS_MAX_LEN ;
memcpy ( macaddr , sdl . sdl_data + sdl . sdl_nlen , alen ) ;
ok = true ;
break ;
}
}
}
freeifaddrs ( ifap ) ;
}
return ok ;
}
# else
/* Unsupported */
static bool get_mac_address ( unsigned char macaddr [ MAC_ADDRESS_MAX_LEN ] )
{
return false ;
}
# endif
/* Function to get an identifier based on the hostname */
bool get_hostname_identifier ( std : : string * result )
{
bool success = false ;
char hostname [ HOSTNAME_LEN + 1 ] = { } ;
if ( gethostname ( hostname , HOSTNAME_LEN ) = = 0 )
{
result - > assign ( hostname ) ;
success = true ;
}
return success ;
}
/* Get a sort of unique machine identifier. Prefer the MAC address; if that fails, fall back to the hostname; if that fails, pick something. */
std : : string get_machine_identifier ( void )
{
std : : string result ;
unsigned char mac_addr [ MAC_ADDRESS_MAX_LEN ] = { } ;
if ( get_mac_address ( mac_addr ) )
{
result . reserve ( 2 * MAC_ADDRESS_MAX_LEN ) ;
for ( size_t i = 0 ; i < MAC_ADDRESS_MAX_LEN ; i + + )
{
char buff [ 3 ] ;
snprintf ( buff , sizeof buff , " %02x " , mac_addr [ i ] ) ;
result . append ( buff ) ;
}
}
else if ( get_hostname_identifier ( & result ) )
{
/* Hooray */
}
else
{
/* Fallback */
result . assign ( " nohost " ) ;
}
return result ;
}
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class universal_notifier_shmem_poller_t : public universal_notifier_t
{
/* This is what our shared memory looks like. Everything here is stored in network byte order (big-endian) */
struct universal_notifier_shmem_t
{
uint32_t magic ;
uint32_t version ;
uint32_t universal_variable_seed ;
} ;
# define SHMEM_MAGIC_NUMBER 0xF154
# define SHMEM_VERSION_CURRENT 1000
private :
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long long last_change_time ;
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uint32_t last_seed ;
volatile universal_notifier_shmem_t * region ;
void open_shmem ( )
{
assert ( region = = NULL ) ;
// Use a path based on our uid to avoid collisions
char path [ NAME_MAX ] ;
snprintf ( path , sizeof path , " /%ls_shmem_%d " , program_name ? program_name : L " fish " , getuid ( ) ) ;
bool errored = false ;
int fd = shm_open ( path , O_RDWR | O_CREAT , 0600 ) ;
if ( fd < 0 )
{
wperror ( L " shm_open " ) ;
errored = true ;
}
/* Get the size */
size_t size = 0 ;
if ( ! errored )
{
struct stat buf = { } ;
if ( fstat ( fd , & buf ) < 0 )
{
wperror ( L " fstat " ) ;
errored = true ;
}
size = buf . st_size ;
}
/* Set the size, if it's too small */
if ( ! errored & & size < sizeof ( universal_notifier_shmem_t ) )
{
if ( ftruncate ( fd , sizeof ( universal_notifier_shmem_t ) ) < 0 )
{
wperror ( L " ftruncate " ) ;
errored = true ;
}
}
/* Memory map the region */
if ( ! errored )
{
void * addr = mmap ( NULL , sizeof ( universal_notifier_shmem_t ) , PROT_READ | PROT_WRITE , MAP_FILE | MAP_SHARED , fd , 0 ) ;
if ( addr = = MAP_FAILED )
{
wperror ( L " mmap " ) ;
region = NULL ;
}
else
{
region = static_cast < universal_notifier_shmem_t * > ( addr ) ;
}
}
/* Close the fd, even if the mapping succeeded */
if ( fd > = 0 )
{
close ( fd ) ;
}
/* Read the current seed */
this - > poll ( ) ;
}
public :
/* Our notification involves changing the value in our shared memory. In practice, all clients will be in separate processes, so it suffices to set the value to a pid. For testing purposes, however, it's useful to keep them in the same process, so we increment the value. This isn't "safe" in the sense that */
void post_notification ( )
{
if ( region ! = NULL )
{
/* Read off the seed */
uint32_t seed = ntohl ( region - > universal_variable_seed ) ;
/* Increment it. Don't let it wrap to zero. */
do
{
seed + + ;
}
while ( seed = = 0 ) ;
last_seed = seed ;
/* Write out our data */
region - > magic = htonl ( SHMEM_MAGIC_NUMBER ) ;
region - > version = htonl ( SHMEM_VERSION_CURRENT ) ;
region - > universal_variable_seed = htonl ( seed ) ;
}
}
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universal_notifier_shmem_poller_t ( ) : last_change_time ( 0 ) , last_seed ( 0 ) , region ( NULL )
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{
open_shmem ( ) ;
}
~ universal_notifier_shmem_poller_t ( )
{
if ( region ! = NULL )
{
// Behold: C++ in all its glory!
void * address = const_cast < void * > ( static_cast < volatile void * > ( region ) ) ;
if ( munmap ( address , sizeof ( universal_notifier_shmem_t ) ) < 0 )
{
wperror ( L " munmap " ) ;
}
}
}
bool poll ( )
{
bool result = false ;
if ( region ! = NULL )
{
uint32_t seed = ntohl ( region - > universal_variable_seed ) ;
if ( seed ! = last_seed )
{
result = true ;
last_seed = seed ;
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last_change_time = get_time ( ) ;
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}
}
return result ;
}
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unsigned long usec_delay_between_polls ( ) const
{
// If it's been less than five seconds since the last change, we poll quickly
// Otherwise we poll more slowly
// Note that a poll is a very cheap shmem read. The bad part about making this high
// is the process scheduling/wakeups it produces
unsigned long usec_per_sec = 1000000 ;
if ( get_time ( ) - last_change_time < 5LL * usec_per_sec )
{
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return usec_per_sec / 10 ; //10 times a second
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}
else
{
return usec_per_sec / 3 ; //3 times a second
}
}
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} ;
class universal_notifier_notifyd_t : public universal_notifier_t
{
int notify_fd ;
int token ;
std : : string name ;
void setup_notifyd ( )
{
# if FISH_NOTIFYD_AVAILABLE
// per notify(3), the user.uid.%d style is only accessible to processes with that uid
char local_name [ 256 ] ;
snprintf ( local_name , sizeof local_name , " user.uid.%d.%ls.uvars " , getuid ( ) , program_name ? program_name : L " fish " ) ;
name . assign ( local_name ) ;
uint32_t status = notify_register_file_descriptor ( name . c_str ( ) , & this - > notify_fd , 0 , & this - > token ) ;
if ( status ! = NOTIFY_STATUS_OK )
{
fprintf ( stderr , " Warning: notify_register_file_descriptor() failed with status %u. Universal variable notifications may not be received. " , status ) ;
}
if ( this - > notify_fd > = 0 )
{
// Mark us for non-blocking reads, with CLO_EXEC
int flags = fcntl ( this - > notify_fd , F_GETFL , 0 ) ;
fcntl ( this - > notify_fd , F_SETFL , flags | O_NONBLOCK | FD_CLOEXEC ) ;
}
# endif
}
public :
universal_notifier_notifyd_t ( ) : notify_fd ( - 1 ) , token ( 0 )
{
setup_notifyd ( ) ;
}
~ universal_notifier_notifyd_t ( )
{
if ( token ! = 0 )
{
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# if FISH_NOTIFYD_AVAILABLE
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notify_cancel ( token ) ;
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# endif
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}
}
int notification_fd ( )
{
return notify_fd ;
}
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bool notification_fd_became_readable ( int fd )
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{
/* notifyd notifications come in as 32 bit values. We don't care about the value. We set ourselves as non-blocking, so just read until we can't read any more. */
assert ( fd = = notify_fd ) ;
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bool read_something = false ;
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unsigned char buff [ 64 ] ;
ssize_t amt_read ;
do
{
amt_read = read ( notify_fd , buff , sizeof buff ) ;
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read_something = ( read_something | | amt_read > 0 ) ;
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} while ( amt_read = = sizeof buff ) ;
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return read_something ;
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}
void post_notification ( )
{
# if FISH_NOTIFYD_AVAILABLE
uint32_t status = notify_post ( name . c_str ( ) ) ;
if ( status ! = NOTIFY_STATUS_OK )
{
fprintf ( stderr , " Warning: notify_post() failed with status %u. Universal variable notifications may not be sent. " , status ) ;
}
# endif
}
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} ;
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class universal_notifier_inotify_t : public universal_notifier_t
{
int watch_fd ;
int watch_descriptor ;
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const std : : string narrow_path ;
void reestablish_watch ( )
{
# if FISH_INOTIFY_AVAILABLE
if ( this - > watch_fd > = 0 )
{
if ( this - > watch_descriptor > = 0 )
{
inotify_rm_watch ( this - > watch_fd , this - > watch_descriptor ) ;
}
this - > watch_descriptor = inotify_add_watch ( this - > watch_fd , narrow_path . c_str ( ) , IN_MODIFY | IN_MOVE_SELF | IN_DELETE_SELF | IN_EXCL_UNLINK ) ;
if ( this - > watch_descriptor < 0 )
{
wperror ( L " inotify_add_watch " ) ;
}
}
# endif
}
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void setup_inotify ( const wchar_t * test_path )
{
# if FISH_INOTIFY_AVAILABLE
// Construct the watchfd
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# if HAVE_INOTIFY_INIT1
this - > watch_fd = inotify_init1 ( IN_NONBLOCK | IN_CLOEXEC ) ;
# else
this - > watch_fd = inotify_init ( ) ;
# endif
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if ( this - > watch_fd < 0 )
{
wperror ( L " inotify_init " ) ;
}
else
{
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int flags = fcntl ( this - > watch_fd , F_GETFL , 0 ) ;
fcntl ( this - > watch_fd , F_SETFL , flags | O_NONBLOCK | FD_CLOEXEC ) ;
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}
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reestablish_watch ( ) ;
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# endif
}
public :
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universal_notifier_inotify_t ( const wchar_t * test_path ) : watch_fd ( - 1 ) , watch_descriptor ( - 1 ) , narrow_path ( wcs2string ( test_path ? test_path : default_vars_path ( ) ) )
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{
setup_inotify ( test_path ) ;
}
~ universal_notifier_inotify_t ( )
{
if ( watch_fd > = 0 )
{
close ( watch_fd ) ;
}
USE ( watch_descriptor ) ;
}
int notification_fd ( )
{
return watch_fd ;
}
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bool notification_fd_became_readable ( int fd )
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{
assert ( fd = = watch_fd ) ;
bool result = false ;
# if FISH_INOTIFY_AVAILABLE
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for ( ; ; )
{
struct inotify_event evt = { } ;
ssize_t read_amt = read ( watch_fd , & evt , sizeof evt ) ;
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if ( read_amt > = ( ssize_t ) sizeof evt )
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{
if ( evt . mask & ( IN_DELETE_SELF | IN_MOVE_SELF ) )
{
// When a file is deleted, the watch is lost. Recreate it.
reestablish_watch ( ) ;
result = true ;
}
if ( evt . mask & IN_MODIFY )
{
result = true ;
}
}
else
{
break ;
}
}
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# endif
return result ;
}
} ;
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# define NAMED_PIPE_FLASH_DURATION_USEC (1000000 / 10)
# define SUSTAINED_READABILITY_CLEANUP_DURATION_USEC (1000000 * 5)
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class universal_notifier_named_pipe_t : public universal_notifier_t
{
int pipe_fd ;
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long long readback_time_usec ;
size_t readback_amount ;
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bool polling_due_to_readable_fd ;
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long long drain_if_still_readable_time_usec ;
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void make_pipe ( const wchar_t * test_path )
{
wcstring vars_path = test_path ? wcstring ( test_path ) : default_vars_path ( ) ;
vars_path . append ( L " .notifier " ) ;
const std : : string narrow_path = wcs2string ( vars_path ) ;
int fd = wopen_cloexec ( vars_path , O_RDWR | O_NONBLOCK , 0600 ) ;
if ( fd < 0 & & errno = = ENOENT )
{
/* File doesn't exist, try creating it */
if ( mkfifo ( narrow_path . c_str ( ) , 0600 ) > = 0 )
{
fd = wopen_cloexec ( vars_path , O_RDWR | O_NONBLOCK , 0600 ) ;
}
}
if ( fd < 0 )
{
// Maybe open failed, maybe mkfifo failed
const int tmp_err = errno ;
const wcstring err_msg = L " Unable to make or open a FIFO at " + vars_path ;
errno = tmp_err ;
wperror ( err_msg . c_str ( ) ) ;
}
else
{
pipe_fd = fd ;
}
}
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void drain_excessive_data ( )
{
// The pipe seems to have data on it, that won't go away
// Read a big chunk out of it.
// We don't read until it's exhausted, because if someone were to pipe say /dev/null, that would cause us to hang!
size_t read_amt = 64 * 1024 ;
void * buff = malloc ( read_amt ) ;
read_ignore ( this - > pipe_fd , buff , read_amt ) ;
free ( buff ) ;
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}
public :
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universal_notifier_named_pipe_t ( const wchar_t * test_path ) : pipe_fd ( - 1 ) , readback_time_usec ( 0 ) , readback_amount ( 0 ) , polling_due_to_readable_fd ( false ) , drain_if_still_readable_time_usec ( 0 )
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{
make_pipe ( test_path ) ;
}
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~ universal_notifier_named_pipe_t ( )
{
if ( pipe_fd > = 0 )
{
close ( pipe_fd ) ;
}
}
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int notification_fd ( )
{
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if ( polling_due_to_readable_fd )
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{
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// We are in polling mode because we think our fd is readable
// This means that, if we return it to be select()'d on, we'll be called back immediately
// So don't return it
return - 1 ;
}
else
{
// We are not in polling mode
// Return the fd so it can be watched
return pipe_fd ;
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}
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}
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bool notification_fd_became_readable ( int fd )
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{
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// Our fd is readable. We deliberately do not read anything out of it: if we did, other sessions may miss the notification.
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// Instead, we go into "polling mode:" we do not select() on our fd for a while, and sync periodically until the fd is no longer readable.
// However, if we are the one who posted the notification, we don't sync (until we clean up!)
bool should_sync = false ;
if ( readback_time_usec = = 0 )
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{
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polling_due_to_readable_fd = true ;
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drain_if_still_readable_time_usec = get_time ( ) + SUSTAINED_READABILITY_CLEANUP_DURATION_USEC ;
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should_sync = true ;
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}
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return should_sync ;
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}
void post_notification ( )
{
if ( pipe_fd > = 0 )
{
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// We need to write some data (any data) to the pipe, then wait for a while, then read it back.
// Nobody is expected to read it except us.
int pid_nbo = htonl ( getpid ( ) ) ;
ssize_t amt_written = write ( this - > pipe_fd , & pid_nbo , sizeof pid_nbo ) ;
if ( amt_written < 0 )
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{
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if ( errno = = EWOULDBLOCK | | errno = = EAGAIN )
{
// Very unsual: the pipe is full!
drain_excessive_data ( ) ;
}
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}
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// Now schedule a read for some time in the future
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this - > readback_time_usec = get_time ( ) + NAMED_PIPE_FLASH_DURATION_USEC ;
this - > readback_amount + = sizeof pid_nbo ;
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}
}
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unsigned long usec_delay_between_polls ( ) const
{
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unsigned long readback_delay = ULONG_MAX ;
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if ( this - > readback_time_usec > 0 )
{
// How long until the readback?
long long now = get_time ( ) ;
if ( now > = this - > readback_time_usec )
{
// Oops, it already passed! Return something tiny.
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readback_delay = 1000 ;
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}
else
{
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readback_delay = ( unsigned long ) ( this - > readback_time_usec - now ) ;
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}
}
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unsigned long polling_delay = ULONG_MAX ;
if ( polling_due_to_readable_fd )
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{
// We're in polling mode
// Don't return a value less than our polling interval
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polling_delay = NAMED_PIPE_FLASH_DURATION_USEC ;
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}
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// Now return the smaller of the two values
// If we get ULONG_MAX, it means there's no more need to poll; in that case return 0
unsigned long result = mini ( readback_delay , polling_delay ) ;
if ( result = = ULLONG_MAX )
{
result = 0 ;
}
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return result ;
}
bool poll ( )
{
bool result = false ;
// Check if we are past the readback time
if ( this - > readback_time_usec > 0 & & get_time ( ) > = this - > readback_time_usec )
{
// Read back what we wrote. We do nothing with the value.
while ( this - > readback_amount > 0 )
{
char buff [ 64 ] ;
size_t amt_to_read = mini ( this - > readback_amount , sizeof buff ) ;
read_ignore ( this - > pipe_fd , buff , amt_to_read ) ;
this - > readback_amount - = amt_to_read ;
}
assert ( this - > readback_amount = = 0 ) ;
this - > readback_time_usec = 0 ;
}
// Check to see if we are doing readability polling
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if ( polling_due_to_readable_fd & & pipe_fd > = 0 )
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{
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// We are polling, so we are definitely going to sync
result = true ;
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// See if this is still readable
fd_set fds ;
FD_ZERO ( & fds ) ;
FD_SET ( this - > pipe_fd , & fds ) ;
struct timeval timeout = { } ;
select ( this - > pipe_fd + 1 , & fds , NULL , NULL , & timeout ) ;
if ( ! FD_ISSET ( this - > pipe_fd , & fds ) )
{
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// No longer readable, no longer polling
polling_due_to_readable_fd = false ;
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drain_if_still_readable_time_usec = 0 ;
}
else
{
// Still readable. If it's been readable for a long time, there is probably lingering data on the pipe
if ( get_time ( ) > = drain_if_still_readable_time_usec )
{
drain_excessive_data ( ) ;
}
}
}
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return result ;
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}
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} ;
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universal_notifier_t : : notifier_strategy_t universal_notifier_t : : resolve_default_strategy ( )
{
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return strategy_named_pipe ;
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# if FISH_NOTIFYD_AVAILABLE
return strategy_notifyd ;
# else
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return strategy_named_pipe ;
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# endif
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}
universal_notifier_t & universal_notifier_t : : default_notifier ( )
{
static universal_notifier_t * result = new_notifier_for_strategy ( strategy_default ) ;
return * result ;
}
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universal_notifier_t * universal_notifier_t : : new_notifier_for_strategy ( universal_notifier_t : : notifier_strategy_t strat , const wchar_t * test_path )
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{
if ( strat = = strategy_default )
{
strat = resolve_default_strategy ( ) ;
}
switch ( strat )
{
case strategy_shmem_polling :
return new universal_notifier_shmem_poller_t ( ) ;
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case strategy_notifyd :
return new universal_notifier_notifyd_t ( ) ;
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case strategy_inotify :
return new universal_notifier_inotify_t ( test_path ) ;
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case strategy_named_pipe :
return new universal_notifier_named_pipe_t ( test_path ) ;
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default :
fprintf ( stderr , " Unsupported strategy %d \n " , strat ) ;
return NULL ;
}
}
/* Default implementations. */
universal_notifier_t : : universal_notifier_t ( )
{
}
universal_notifier_t : : ~ universal_notifier_t ( )
{
}
int universal_notifier_t : : notification_fd ( )
{
return - 1 ;
}
void universal_notifier_t : : post_notification ( )
{
}
bool universal_notifier_t : : poll ( )
{
return false ;
}
bool universal_notifier_t : : needs_polling ( ) const
{
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return this - > usec_delay_between_polls ( ) > 0 ;
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}
unsigned long universal_notifier_t : : usec_delay_between_polls ( ) const
{
return 0 ;
}
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bool universal_notifier_t : : notification_fd_became_readable ( int fd )
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{
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return false ;
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}