/* tinyproxy - A fast light-weight HTTP proxy * Copyright (C) 2004 Robert James Kaes * * This program 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 2 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 this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /* Parses the configuration file and sets up the config_s structure for * use by the application. This file replaces the old grammar.y and * scanner.l files. It takes up less space and _I_ think is easier to * add new directives to. Who knows if I'm right though. */ #include "tinyproxy.h" #include "conffile.h" #include "acl.h" #include "anonymous.h" #include "child.h" #include "filter.h" #include "heap.h" #include "html-error.h" #include "log.h" #include "reqs.h" #include "reverse-proxy.h" /* * The configuration directives are defined in the structure below. Each * directive requires a regular expression to match against, and a * function to call when the regex is matched. * * Below are defined certain constant regular expression strings that * can (and likely should) be used when building the regex for the * given directive. */ #define WS "[[:space:]]+" #define STR "\"([^\"]+)\"" #define BOOL "(yes|on|no|off)" #define INT "((0x)?[[:digit:]]+)" #define ALNUM "([-a-z0-9._]+)" #define IP "((([0-9]{1,3})\\.){3}[0-9]{1,3})" #define IPMASK "(" IP "(/[[:digit:]]+)?)" #define BEGIN "^[[:space:]]*" #define END "[[:space:]]*$" /* * Limit the maximum number of substring matches to a reasonably high * number. Given the usual structure of the configuration file, sixteen * substring matches should be plenty. */ #define RE_MAX_MATCHES 16 /* * All configuration handling functions are REQUIRED to be defined * with the same function template as below. */ typedef int (*CONFFILE_HANDLER) (struct config_s *, const char *, regmatch_t[]); /* * Define the pattern used by any directive handling function. The * following arguments are defined: * * struct config_s* conf pointer to the current configuration structure * const char* line full line matched by the regular expression * regmatch_t match[] offsets to the substrings matched * * The handling function must return 0 if the directive was processed * properly. Any errors are reported by returning a non-zero value. */ #define HANDLE_FUNC(func) \ int func(struct config_s* conf, const char* line, \ regmatch_t match[]) /* * List all the handling functions. These are defined later, but they need * to be in-scope before the big structure below. */ static HANDLE_FUNC (handle_nop) { return 0; } /* do nothing function */ static HANDLE_FUNC (handle_allow); static HANDLE_FUNC (handle_anonymous); static HANDLE_FUNC (handle_bind); static HANDLE_FUNC (handle_bindsame); static HANDLE_FUNC (handle_connectport); static HANDLE_FUNC (handle_defaulterrorfile); static HANDLE_FUNC (handle_deny); static HANDLE_FUNC (handle_errorfile); #ifdef FILTER_ENABLE static HANDLE_FUNC (handle_filter); static HANDLE_FUNC (handle_filtercasesensitive); static HANDLE_FUNC (handle_filterdefaultdeny); static HANDLE_FUNC (handle_filterextended); static HANDLE_FUNC (handle_filterurls); #endif static HANDLE_FUNC (handle_group); static HANDLE_FUNC (handle_listen); static HANDLE_FUNC (handle_logfile); static HANDLE_FUNC (handle_loglevel); static HANDLE_FUNC (handle_maxclients); static HANDLE_FUNC (handle_maxrequestsperchild); static HANDLE_FUNC (handle_maxspareservers); static HANDLE_FUNC (handle_minspareservers); static HANDLE_FUNC (handle_pidfile); static HANDLE_FUNC (handle_port); #ifdef REVERSE_SUPPORT static HANDLE_FUNC (handle_reversebaseurl); static HANDLE_FUNC (handle_reversemagic); static HANDLE_FUNC (handle_reverseonly); static HANDLE_FUNC (handle_reversepath); #endif static HANDLE_FUNC (handle_startservers); static HANDLE_FUNC (handle_statfile); static HANDLE_FUNC (handle_stathost); static HANDLE_FUNC (handle_syslog); static HANDLE_FUNC (handle_timeout); static HANDLE_FUNC (handle_user); static HANDLE_FUNC (handle_viaproxyname); static HANDLE_FUNC (handle_xtinyproxy); #ifdef UPSTREAM_SUPPORT static HANDLE_FUNC (handle_upstream); static HANDLE_FUNC (handle_upstream_no); #endif /* * This macro can be used to make standard directives in the form: * directive arguments [arguments ...] * * The directive itself will be the first matched substring. * * Note that this macro is not required. As you can see below, the * comment and blank line elements are defined explicitly since they * do not follow the pattern above. This macro is for convenience * only. */ #define STDCONF(d, re, func) { BEGIN "(" d ")" WS re END, func, NULL } /* * Holds the regular expression used to match the configuration directive, * the function pointer to the routine to handle the directive, and * for internal use, a pointer to the compiled regex so it only needs * to be compiled one. */ struct { const char *re; CONFFILE_HANDLER handler; regex_t *cre; } directives[] = { /* comments */ { BEGIN "#", handle_nop, NULL }, /* blank lines */ { "^[[:space:]]+$", handle_nop, NULL }, /* string arguments */ STDCONF ("logfile", STR, handle_logfile), STDCONF ("pidfile", STR, handle_pidfile), STDCONF ("anonymous", STR, handle_anonymous), STDCONF ("viaproxyname", STR, handle_viaproxyname), STDCONF ("defaulterrorfile", STR, handle_defaulterrorfile), STDCONF ("statfile", STR, handle_statfile), STDCONF ("stathost", STR, handle_stathost), STDCONF ("xtinyproxy", STR, handle_xtinyproxy), /* boolean arguments */ STDCONF ("syslog", BOOL, handle_syslog), STDCONF ("bindsame", BOOL, handle_bindsame), /* integer arguments */ STDCONF ("port", INT, handle_port), STDCONF ("maxclients", INT, handle_maxclients), STDCONF ("maxspareservers", INT, handle_maxspareservers), STDCONF ("minspareservers", INT, handle_minspareservers), STDCONF ("startservers", INT, handle_startservers), STDCONF ("maxrequestsperchild", INT, handle_maxrequestsperchild), STDCONF ("timeout", INT, handle_timeout), STDCONF ("connectport", INT, handle_connectport), /* alphanumeric arguments */ STDCONF ("user", ALNUM, handle_user), STDCONF ("group", ALNUM, handle_group), /* ip arguments */ STDCONF ("listen", IP, handle_listen), STDCONF ("allow", "(" IPMASK "|" ALNUM ")", handle_allow), STDCONF ("deny", "(" IPMASK "|" ALNUM ")", handle_deny), STDCONF ("bind", IP, handle_bind), /* error files */ STDCONF ("errorfile", INT WS STR, handle_errorfile), #ifdef FILTER_ENABLE /* filtering */ STDCONF ("filter", STR, handle_filter), STDCONF ("filterurls", BOOL, handle_filterurls), STDCONF ("filterextended", BOOL, handle_filterextended), STDCONF ("filterdefaultdeny", BOOL, handle_filterdefaultdeny), STDCONF ("filtercasesensitive", BOOL, handle_filtercasesensitive), #endif #ifdef REVERSE_SUPPORT /* Reverse proxy arguments */ STDCONF ("reversebaseurl", STR, handle_reversebaseurl), STDCONF ("reverseonly", BOOL, handle_reverseonly), STDCONF ("reversemagic", BOOL, handle_reversemagic), STDCONF ("reversepath", STR WS "(" STR ")?", handle_reversepath), #endif #ifdef UPSTREAM_SUPPORT /* upstream is rather complicated */ { BEGIN "(no" WS "upstream)" WS STR END, handle_upstream_no, NULL }, { BEGIN "(upstream)" WS "(" IP "|" ALNUM ")" ":" INT "(" WS STR ")?" END, handle_upstream, NULL }, #endif /* loglevel */ STDCONF ("loglevel", "(critical|error|warning|notice|connect|info)", handle_loglevel) }; const unsigned int ndirectives = sizeof (directives) / sizeof (directives[0]); /* * Compiles the regular expressions used by the configuration file. This * routine MUST be called before trying to parse the configuration file. * * Returns 0 on success; negative upon failure. */ int config_compile (void) { int i, r; for (i = 0; i != ndirectives; ++i) { assert (directives[i].handler); assert (!directives[i].cre); directives[i].cre = safemalloc (sizeof (regex_t)); if (!directives[i].cre) return -1; r = regcomp (directives[i].cre, directives[i].re, REG_EXTENDED | REG_ICASE | REG_NEWLINE); if (r) return r; } return 0; } /* * Attempt to match the supplied line with any of the configuration * regexes defined above. If a match is found, call the handler * function to process the directive. * * Returns 0 if a match was found and successfully processed; otherwise, * a negative number is returned. */ static int check_match (struct config_s *conf, const char *line) { regmatch_t match[RE_MAX_MATCHES]; unsigned int i; assert (ndirectives > 0); for (i = 0; i != ndirectives; ++i) { assert (directives[i].cre); if (!regexec (directives[i].cre, line, RE_MAX_MATCHES, match, 0)) return (*directives[i].handler) (conf, line, match); } return -1; } /* * Parse the previously opened configuration stream. */ int config_parse (struct config_s *conf, FILE * f) { char buffer[1024]; /* 1KB lines should be plenty */ unsigned long lineno = 1; while (fgets (buffer, sizeof (buffer), f)) { if (check_match (conf, buffer)) { printf ("Syntax error on line %ld\n", lineno); return 1; } ++lineno; } return 0; } /*********************************************************************** * * The following are basic data extraction building blocks that can * be used to simplify the parsing of a directive. * ***********************************************************************/ static char * get_string_arg (const char *line, regmatch_t * match) { char *p; const unsigned int len = match->rm_eo - match->rm_so; assert (line); assert (len > 0); p = safemalloc (len + 1); if (!p) return NULL; memcpy (p, line + match->rm_so, len); p[len] = '\0'; return p; } static int set_string_arg (char **var, const char *line, regmatch_t * match) { char *arg = get_string_arg (line, match); if (!arg) return -1; *var = safestrdup (arg); safefree (arg); return *var ? 0 : -1; } static int get_bool_arg (const char *line, regmatch_t * match) { const char *p = line + match->rm_so; assert (line); assert (match && match->rm_so != -1); /* "y"es or o"n" map as true, otherwise it's false. */ if (tolower (p[0]) == 'y' || tolower (p[1]) == 'n') return 1; else return 0; } static int set_bool_arg (unsigned int *var, const char *line, regmatch_t * match) { assert (var); assert (line); assert (match && match->rm_so != -1); *var = get_bool_arg (line, match); return 0; } static inline long int get_int_arg (const char *line, regmatch_t * match) { assert (line); assert (match && match->rm_so != -1); return strtol (line + match->rm_so, NULL, 0); } static int set_int_arg (int long *var, const char *line, regmatch_t * match) { assert (var); assert (line); assert (match); *var = get_int_arg (line, match); return 0; } /*********************************************************************** * * Below are all the directive handling functions. You will notice * that most of the directives delegate to one of the basic data * extraction routines. This is deliberate. To add a new directive * to tinyproxy only requires you to define the regular expression * above and then figure out what data extract routine to use. * * However, you will also notice that more complicated directives are * possible. You can make your directive as complicated as you require * to express a solution to the problem you're tackling. * * See the definition/comment about the HANDLE_FUNC() macro to learn * what arguments are supplied to the handler, and to determine what * values to return. * ***********************************************************************/ static HANDLE_FUNC (handle_logfile) { return set_string_arg (&conf->logf_name, line, &match[2]); } static HANDLE_FUNC (handle_pidfile) { return set_string_arg (&conf->pidpath, line, &match[2]); } static HANDLE_FUNC (handle_anonymous) { char *arg = get_string_arg (line, &match[2]); if (!arg) return -1; anonymous_insert (arg); safefree (arg); return 0; } static HANDLE_FUNC (handle_viaproxyname) { int r = set_string_arg (&conf->via_proxy_name, line, &match[2]); if (r) return r; log_message (LOG_INFO, "Setting \"Via\" header proxy to %s", conf->via_proxy_name); return 0; } static HANDLE_FUNC (handle_defaulterrorfile) { return set_string_arg (&conf->errorpage_undef, line, &match[2]); } static HANDLE_FUNC (handle_statfile) { return set_string_arg (&conf->statpage, line, &match[2]); } static HANDLE_FUNC (handle_stathost) { int r = set_string_arg (&conf->stathost, line, &match[2]); if (r) return r; log_message (LOG_INFO, "Stathost set to \"%s\"", conf->stathost); return 0; } static HANDLE_FUNC (handle_xtinyproxy) { #ifdef XTINYPROXY_ENABLE return set_string_arg (&conf->my_domain, line, &match[2]); #else fprintf (stderr, "XTinyproxy NOT Enabled! Recompile with --enable-xtinyproxy\n"); return 1; #endif } static HANDLE_FUNC (handle_syslog) { #ifdef HAVE_SYSLOG_H return set_bool_arg (&conf->syslog, line, &match[2]); #else fprintf (stderr, "Syslog support not compiled in executable.\n"); return 1; #endif } static HANDLE_FUNC (handle_bindsame) { int r = set_bool_arg (&conf->bindsame, line, &match[2]); if (r) return r; log_message (LOG_INFO, "Binding outgoing connection to incoming IP"); return 0; } static HANDLE_FUNC (handle_port) { return set_int_arg ((long int *) &conf->port, line, &match[2]); } static HANDLE_FUNC (handle_maxclients) { child_configure (CHILD_MAXCLIENTS, get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_maxspareservers) { child_configure (CHILD_MAXSPARESERVERS, get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_minspareservers) { child_configure (CHILD_MINSPARESERVERS, get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_startservers) { child_configure (CHILD_STARTSERVERS, get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_maxrequestsperchild) { child_configure (CHILD_MAXREQUESTSPERCHILD, get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_timeout) { return set_int_arg ((long int *) &conf->idletimeout, line, &match[2]); } static HANDLE_FUNC (handle_connectport) { add_connect_port_allowed (get_int_arg (line, &match[2])); return 0; } static HANDLE_FUNC (handle_user) { return set_string_arg (&conf->user, line, &match[2]); } static HANDLE_FUNC (handle_group) { return set_string_arg (&conf->group, line, &match[2]); } static HANDLE_FUNC (handle_allow) { char *arg = get_string_arg (line, &match[2]); insert_acl (arg, ACL_ALLOW); safefree (arg); return 0; } static HANDLE_FUNC (handle_deny) { char *arg = get_string_arg (line, &match[2]); insert_acl (arg, ACL_DENY); safefree (arg); return 0; } static HANDLE_FUNC (handle_bind) { #ifndef TRANSPARENT_PROXY int r = set_string_arg (&conf->bind_address, line, &match[2]); if (r) return r; log_message (LOG_INFO, "Outgoing connections bound to IP %s", conf->bind_address); return 0; #else fprintf (stderr, "\"Bind\" cannot be used with transparent support enabled.\n"); return 1; #endif } static HANDLE_FUNC (handle_listen) { int r = set_string_arg (&conf->ipAddr, line, &match[2]); if (r) return r; log_message (LOG_INFO, "Listing on IP %s", conf->ipAddr); return 0; } static HANDLE_FUNC (handle_errorfile) { /* * Because an integer is defined as ((0x)?[[:digit:]]+) _two_ * match places are used. match[2] matches the full digit * string, while match[3] matches only the "0x" part if * present. This is why the "string" is located at * match[4] (rather than the more intuitive match[3]. */ long int err = get_int_arg (line, &match[2]); char *page = get_string_arg (line, &match[4]); add_new_errorpage (page, err); safefree (page); return 0; } /* * Log level's strings. */ struct log_levels_s { const char *string; int level; }; static struct log_levels_s log_levels[] = { {"critical", LOG_CRIT}, {"error", LOG_ERR}, {"warning", LOG_WARNING}, {"notice", LOG_NOTICE}, {"connect", LOG_CONN}, {"info", LOG_INFO} }; static HANDLE_FUNC (handle_loglevel) { static const unsigned int nlevels = sizeof (log_levels) / sizeof (log_levels[0]); unsigned int i; char *arg = get_string_arg (line, &match[2]); for (i = 0; i != nlevels; ++i) { if (!strcasecmp (arg, log_levels[i].string)) { set_log_level (log_levels[i].level); safefree (arg); return 0; } } safefree (arg); return -1; } #ifdef FILTER_ENABLE static HANDLE_FUNC (handle_filter) { return set_string_arg (&conf->filter, line, &match[2]); } static HANDLE_FUNC (handle_filterurls) { return set_bool_arg (&conf->filter_url, line, &match[2]); } static HANDLE_FUNC (handle_filterextended) { return set_bool_arg (&conf->filter_extended, line, &match[2]); } static HANDLE_FUNC (handle_filterdefaultdeny) { assert (match[2].rm_so != -1); if (get_bool_arg (line, &match[2])) filter_set_default_policy (FILTER_DEFAULT_DENY); return 0; } static HANDLE_FUNC (handle_filtercasesensitive) { return set_bool_arg (&conf->filter_casesensitive, line, &match[2]); } #endif #ifdef REVERSE_SUPPORT static HANDLE_FUNC (handle_reverseonly) { return set_bool_arg (&conf->reverseonly, line, &match[2]); } static HANDLE_FUNC (handle_reversemagic) { return set_bool_arg (&conf->reversemagic, line, &match[2]); } static HANDLE_FUNC (handle_reversebaseurl) { return set_string_arg (&conf->reversebaseurl, line, &match[2]); } static HANDLE_FUNC (handle_reversepath) { /* * The second string argument is optional. */ char *arg1, *arg2; arg1 = get_string_arg (line, &match[2]); if (!arg1) return -1; if (match[3].rm_so != -1) { arg2 = get_string_arg (line, &match[3]); if (!arg2) { safefree (arg1); return -1; } reversepath_add (arg1, arg2); safefree (arg1); safefree (arg2); } else { reversepath_add (NULL, arg1); safefree (arg1); } return 0; } #endif #ifdef UPSTREAM_SUPPORT static HANDLE_FUNC (handle_upstream) { char *ip; int port; char *domain; ip = get_string_arg (line, &match[2]); if (!ip) return -1; port = get_int_arg (line, &match[7]); if (match[9].rm_so != -1) { domain = get_string_arg (line, &match[9]); if (domain) { upstream_add (ip, port, domain); safefree (domain); } } else { upstream_add (ip, port, NULL); } safefree (ip); return 0; } static HANDLE_FUNC (handle_upstream_no) { char *domain; domain = get_string_arg (line, &match[2]); if (!domain) return -1; upstream_add (NULL, 0, domain); safefree (domain); return 0; } #endif