/*
* userv is copyright Ian Jackson and other contributors.
* See README for full authorship information.
*
* This is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with userv; if not, see .
*/
%{
#include
#include
#include
#include
#include
#include
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#include
#include
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#include
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#include
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#include
#include "config.h"
#include "common.h"
#include "daemon.h"
#include "lib.h"
#include "both.h"
#include "tokens.h"
#define HYPHEN '-'
typedef int directive_fnt(int dtoken);
static directive_fnt df_reject, df_execute, df_executefrompath;
static directive_fnt df_executefromdirectory, df_executebuiltin;
static directive_fnt df_errorstostderr, df_errorstosyslog, df_errorstofile;
static directive_fnt dfg_fdwant, dfg_setflag, dfg_lookupquotemode;
static directive_fnt df_reset, df_cd, df_userrcfile, df_include;
static directive_fnt df_includelookup, df_includedirectory;
static directive_fnt df_message, df_error, df_quit, df_eof;
static directive_fnt df_if, df_catchquit, df_errorspush;
static directive_fnt dfi_includeuserrcfile, dfi_includeclientconfig;
/* directive functions return:
* 0 for success having scanned up to and including end of line but not beyond,
* or tokv_error or tokv_quit.
* They expect to parse the whitespace before their parameters (if any).
*/
typedef int parmcondition_fnt(int ctoken, char *const *parmvalues, int *rtrue);
static parmcondition_fnt pcf_glob, pcf_range, pcf_grep;
/* all conditional functions return tokv_error for failure or 0 for success
* at parsing and testing, in which case *rtrue is set to 0 or 1.
* On success they have scanned up to and including the condition's
* terminating newline; the pcf_... functions expect to parse the whitespace
* between the parameter name and the condition's arguments.
* Otherwise they return tokv_error.
* The parameter-based conditionals take a list of parameter values
* as obtained from the parameter functions and pa_parameter,
* and do _not_ free it.
*/
typedef int parameter_fnt(int ptoken, char ***rvalues);
static parameter_fnt pf_service;
static parameter_fnt pf_callinguser, pf_serviceuser;
static parameter_fnt pf_callinggroup, pf_servicegroup;
static parameter_fnt pf_callingusershell, pf_serviceusershell;
/* Parameter functions return tokv_error or 0 for success at parsing
* and determining the value, in which case *rvalues is made to be
* a mallocd null-terminated array of pointers to mallocd strings.
* freeparm can be used to free such an array.
*/
typedef int builtinserviceparse_fnt(char ***rnewargs);
static builtinserviceparse_fnt bispa_none, bispa_parameter;
/* These parse the arguments to a builtin service, including the
* newline at the end of the line. *rnewargs will initially be
* null, indicating that no arguments are to be set; the function
* may store a mallocd array of mallocd strings in it,
* containing the arguments it wishes to have set (null-pointer
* terminated).
*/
static int yylex(void);
/* Returns a token (which may be an eof or error exception) */
static directive_fnt *lr_dir;
static parmcondition_fnt *lr_parmcond;
static builtinserviceparse_fnt *lr_bispa;
static builtinserviceexec_fnt *lr_bisexec;
static parameter_fnt *lr_parameter;
static int lr_loglevel, lr_logfacility, lr_min, lr_max, *lr_flag;
static int lr_flagval, lr_controlend;
static int lr_fdwant_readwrite; /* -1=never, 0=opt, 1=always */
/* Forward declarations of things used in lexer and parser */
struct parser_state {
int lineno, reportlineno, notedreferer, isinternal;
const char *filename;
struct stat filestab;
YY_BUFFER_STATE ybuf;
struct parser_state *upstate;
};
static struct parser_state *cstate;
struct error_handling {
int handling; /* One of the error handling modes tokt_ehandlemode */
int logfacility, loglevel;
int filekeep; /* File is in use by higher-level errors-push, leave it open */
FILE *file;
char *filename;
};
static struct error_handling eh = { tokv_word_errorstostderr, 0,0,0,0,0 };
static int dequote(char *inplace);
static void countnewlines(void);
#define YY_NO_INPUT
%}
%option noyywrap
%option nounput
%%
reject { lr_dir= df_reject; return tokv_word_reject; }
execute-from-directory { lr_dir= df_executefromdirectory; return tokv_word_executefromdirectory; }
execute-from-path { lr_dir= df_executefrompath; return tokv_word_executefrompath; }
execute-builtin { lr_dir= df_executebuiltin; return tokv_word_executebuiltin; }
errors-to-stderr { lr_dir= df_errorstostderr; return tokv_word_errorstostderr; }
errors-to-syslog { lr_dir= df_errorstosyslog; return tokv_word_errorstosyslog; }
errors-to-file { lr_dir= df_errorstofile; return tokv_word_errorstofile; }
include-lookup-quote-old { lr_dir= dfg_lookupquotemode; return tokv_word_includelookupquoteold; }
include-lookup-quote-new { lr_dir= dfg_lookupquotemode; return tokv_word_includelookupquotenew; }
require-fd { lr_dir= dfg_fdwant; lr_fdwant_readwrite=1; return tokv_word_requirefd; }
allow-fd { lr_dir= dfg_fdwant; lr_fdwant_readwrite=0; return tokv_word_allowfd; }
null-fd { lr_dir= dfg_fdwant; lr_fdwant_readwrite=0; return tokv_word_nullfd; }
reject-fd { lr_dir= dfg_fdwant; lr_fdwant_readwrite=-1; return tokv_word_rejectfd; }
ignore-fd { lr_dir= dfg_fdwant; lr_fdwant_readwrite=-1; return tokv_word_ignorefd; }
set-environment { lr_dir= dfg_setflag; lr_flag= &setenvironment; lr_flagval= 1; return tokv_word_setenvironment; }
no-set-environment { lr_dir= dfg_setflag; lr_flag= &setenvironment; lr_flagval= 0; return tokv_word_nosetenvironment; }
suppress-args { lr_dir= dfg_setflag; lr_flag= &suppressargs; lr_flagval= 1; return tokv_word_suppressargs; }
no-suppress-args { lr_dir= dfg_setflag; lr_flag= &suppressargs; lr_flagval= 0; return tokv_word_nosuppressargs; }
disconnect-hup { lr_dir= dfg_setflag; lr_flag= &disconnecthup; lr_flagval= 1; return tokv_word_disconnecthup; }
no-disconnect-hup { lr_dir= dfg_setflag; lr_flag= &disconnecthup; lr_flagval= 0; return tokv_word_nodisconnecthup; }
cd { lr_dir= df_cd; return tokv_word_cd; }
user-rcfile { lr_dir= df_userrcfile; return tokv_word_userrcfile; }
include { lr_dir= df_include; return tokv_word_include; }
include-ifexist { lr_dir= df_include; return tokv_word_includeifexist; }
include-lookup { lr_dir= df_includelookup; return tokv_word_includelookup; }
include-lookup-all { lr_dir= df_includelookup; return tokv_word_includelookupall; }
include-directory { lr_dir= df_includedirectory; return tokv_word_includedirectory; }
message { lr_dir= df_message; return tokv_word_message; }
_include-sysconfig { lr_dir= df_include; return tokv_word_includesysconfig; }
_include-user-rcfile { lr_dir= dfi_includeuserrcfile; return tokv_word_includeuserrcfile; }
_include-client-config { lr_dir= dfi_includeclientconfig; return tokv_word_includeclientconfig; }
quit { lr_dir= df_quit; return tokv_word_quit; }
eof { lr_dir= df_eof; return tokv_word_eof; }
if { lr_dir= df_if; return tokv_word_if; }
catch-quit { lr_dir= df_catchquit; return tokv_word_catchquit; }
errors-push { lr_dir= df_errorspush; return tokv_word_errorspush; }
elif { lr_controlend= tokv_word_if; return tokv_word_elif; }
else { lr_controlend= tokv_word_if; return tokv_word_else; }
fi { lr_controlend= tokv_word_if; return tokv_word_fi; }
hctac { lr_controlend= tokv_word_catchquit; return tokv_word_hctac; }
srorre { lr_controlend= tokv_word_errorspush; return tokv_word_srorre; }
glob { lr_parmcond= pcf_glob; return tokv_word_glob; }
range { lr_parmcond= pcf_range; return tokv_word_range; }
grep { lr_parmcond= pcf_grep; return tokv_word_grep; }
environment { lr_bispa= bispa_none; lr_bisexec= bisexec_environment; return tokv_word_environment; }
parameter { lr_bispa= bispa_parameter; lr_bisexec= bisexec_parameter; return tokv_word_parameter; }
version { lr_bispa= bispa_none; lr_bisexec= bisexec_version; return tokv_word_version; }
toplevel { lr_bispa= bispa_none; lr_bisexec= bisexec_toplevel; return tokv_word_toplevel; }
override { lr_bispa= bispa_none; lr_bisexec= bisexec_override; return tokv_word_override; }
shutdown { lr_bispa= bispa_none; lr_bisexec= bisexec_shutdown; return tokv_word_shutdown; }
reset { lr_bispa= bispa_none; lr_bisexec= bisexec_reset; lr_dir= df_reset; return tokv_word_reset; }
execute { lr_bispa= bispa_none; lr_bisexec= bisexec_execute; lr_dir= df_execute; return tokv_word_execute; }
help { lr_bispa= bispa_none; lr_bisexec= bisexec_help; return tokv_word_help; }
service { lr_parameter= pf_service; return tokv_word_service; }
calling-user { lr_parameter= pf_callinguser; return tokv_word_callinguser; }
calling-group { lr_parameter= pf_callinggroup; return tokv_word_callinggroup; }
calling-user-shell { lr_parameter= pf_callingusershell; return tokv_word_callingusershell; }
service-user { lr_parameter= pf_serviceuser; return tokv_word_serviceuser; }
service-group { lr_parameter= pf_servicegroup; return tokv_word_servicegroup; }
service-user-shell { lr_parameter= pf_serviceusershell; return tokv_word_serviceusershell; }
debug { lr_loglevel= LOG_DEBUG; return tokv_syslog_debug; }
info { lr_loglevel= LOG_INFO; return tokv_syslog_info; }
notice { lr_loglevel= LOG_NOTICE; return tokv_syslog_notice; }
warn(ing)? { lr_loglevel= LOG_WARNING; return tokv_syslog_warning; }
err { lr_loglevel= LOG_ERR; return tokv_syslog_err; }
crit { lr_loglevel= LOG_CRIT; return tokv_syslog_crit; }
alert { lr_loglevel= LOG_ALERT; return tokv_syslog_alert; }
emerg|panic { lr_loglevel= LOG_EMERG; return tokv_syslog_emerg; }
auth(priv)?|security { lr_logfacility= LOG_AUTHPRIV; return tokv_syslog_authpriv; }
cron { lr_logfacility= LOG_CRON; return tokv_syslog_cron; }
daemon { lr_logfacility= LOG_DAEMON; return tokv_syslog_daemon; }
kern(el)? { lr_logfacility= LOG_KERN; return tokv_syslog_kern; }
lpr { lr_logfacility= LOG_LPR; return tokv_syslog_lpr; }
mail { lr_logfacility= LOG_MAIL; return tokv_syslog_mail; }
news { lr_logfacility= LOG_NEWS; return tokv_syslog_news; }
syslog { lr_logfacility= LOG_SYSLOG; return tokv_syslog_syslog; }
user { lr_logfacility= LOG_USER; return tokv_syslog_user; }
uucp { lr_logfacility= LOG_UUCP; return tokv_syslog_uucp; }
local0 { lr_logfacility= LOG_LOCAL0; return tokv_syslog_local0; }
local1 { lr_logfacility= LOG_LOCAL1; return tokv_syslog_local1; }
local2 { lr_logfacility= LOG_LOCAL2; return tokv_syslog_local2; }
local3 { lr_logfacility= LOG_LOCAL3; return tokv_syslog_local3; }
local4 { lr_logfacility= LOG_LOCAL4; return tokv_syslog_local4; }
local5 { lr_logfacility= LOG_LOCAL5; return tokv_syslog_local5; }
local6 { lr_logfacility= LOG_LOCAL6; return tokv_syslog_local6; }
local7 { lr_logfacility= LOG_LOCAL7; return tokv_syslog_local7; }
read { return tokv_word_read; }
write { return tokv_word_write; }
\$ { return tokv_dollar; }
stdin { lr_max= lr_min= 0; return tokv_word_stdin; }
stdout { lr_max= lr_min= 1; return tokv_word_stdout; }
stderr { lr_max= lr_min= 2; return tokv_word_stderr; }
\( { return tokv_openparen; }
\) { return tokv_closeparen; }
\! { return tokv_not; }
\& { return tokv_and; }
\| { return tokv_or; }
error { lr_dir= df_error; lr_loglevel= LOG_ERR; return tokv_word_error; }
[0-9]{1,8} {
char *ep;
lr_min=lr_max= (int)strtoul(yytext,&ep,10);
assert(!*ep);
return tokv_ordinal;
}
[0-9]{1,8}-[0-9]{1,8} {
char *ep;
lr_min= (int)strtoul(yytext,&ep,10);
assert(*ep == HYPHEN);
ep++; assert(*ep);
lr_max= (int)strtoul(ep,&ep,10);
assert(!*ep);
if (lr_max < lr_min)
return parseerrprint("fd range has min > max");
return tokv_fdrange;
}
[0-9]{1,8}- {
char *ep;
lr_min= (int)strtoul(yytext,&ep,10);
assert(*ep == HYPHEN);
ep++; assert(!*ep);
lr_max=-1;
return tokv_fdstoend;
}
([\ \t]*\\[\ \t]*\n[\ \t]*)+ countnewlines(); return tokv_lwsp;
[\ \t]+ return tokv_lwsp;
[\ \t]*\n cstate->lineno++; return tokv_newline;
[\ \t]*\#[^\n]*\n cstate->lineno++; return tokv_newline;
[\ \t]*\#[^\n]* return parseerrprint("missing newline at eof after comment");
\"([^\\\"\n]|\\[a-z]|\\[0-9]{3}|\\x[0-9A-Fa-f]{2}|\\[[:punct:]]|\\[ \t]*\n)*\" {
countnewlines();
return dequote(yytext);
}
[^\ \t\n\\\"]+ return tokv_barestring;
<> return tokv_eof;
\" return parseerrprint("misquoted or unterminated string");
\\ return parseerrprint("unexpected backslash");
. abort(); /* expect lex warning "rule cannot be matched" */
%%
const char *const builtinservicehelpstrings[]= {
"environment",
"parameter ",
"version",
"toplevel",
"override",
"shutdown",
"reset",
"execute",
"help",
0
};
#include "parser.c"