/* $OpenBSD: parse.y,v 1.290 2021/10/15 15:01:29 naddy Exp $ */ /* * Copyright (c) 2008 Gilles Chehade * Copyright (c) 2008 Pierre-Yves Ritschard * Copyright (c) 2002, 2003, 2004 Henning Brauer * Copyright (c) 2001 Markus Friedl. All rights reserved. * Copyright (c) 2001 Daniel Hartmeier. All rights reserved. * Copyright (c) 2001 Theo de Raadt. All rights reserved. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ %{ #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smtpd.h" #include "ssl.h" #include "log.h" TAILQ_HEAD(files, file) files = TAILQ_HEAD_INITIALIZER(files); static struct file { TAILQ_ENTRY(file) entry; FILE *stream; char *name; size_t ungetpos; size_t ungetsize; u_char *ungetbuf; int eof_reached; int lineno; int errors; } *file, *topfile; struct file *pushfile(const char *, int); int popfile(void); int check_file_secrecy(int, const char *); int yyparse(void); int yylex(void); int kw_cmp(const void *, const void *); int lookup(char *); int igetc(void); int lgetc(int); void lungetc(int); int findeol(void); int yyerror(const char *, ...) __attribute__((__format__ (printf, 1, 2))) __attribute__((__nonnull__ (1))); TAILQ_HEAD(symhead, sym) symhead = TAILQ_HEAD_INITIALIZER(symhead); struct sym { TAILQ_ENTRY(sym) entry; int used; int persist; char *nam; char *val; }; int symset(const char *, const char *, int); char *symget(const char *); struct smtpd *conf = NULL; static int errors = 0; struct table *table = NULL; struct mta_limits *limits; static struct pki *pki; static struct ca *sca; struct dispatcher *dsp; struct rule *rule; struct filter_proc *processor; struct filter_config *filter_config; static uint32_t last_dynchain_id = 1; enum listen_options { LO_FAMILY = 0x000001, LO_PORT = 0x000002, LO_SSL = 0x000004, LO_FILTER = 0x000008, LO_PKI = 0x000010, LO_AUTH = 0x000020, LO_TAG = 0x000040, LO_HOSTNAME = 0x000080, LO_HOSTNAMES = 0x000100, LO_MASKSOURCE = 0x000200, LO_NODSN = 0x000400, LO_SENDERS = 0x000800, LO_RECEIVEDAUTH = 0x001000, LO_MASQUERADE = 0x002000, LO_CA = 0x004000, LO_PROXY = 0x008000, }; #define PKI_MAX 32 static struct listen_opts { char *ifx; int family; in_port_t port; uint16_t ssl; char *filtername; char *pki[PKI_MAX]; int pkicount; char *tls_ciphers; char *tls_protocols; char *ca; uint16_t auth; struct table *authtable; char *tag; char *hostname; struct table *hostnametable; struct table *sendertable; uint16_t flags; uint32_t options; } listen_opts; static void create_sock_listener(struct listen_opts *); static void create_if_listener(struct listen_opts *); static void config_listener(struct listener *, struct listen_opts *); static int host_v4(struct listen_opts *); static int host_v6(struct listen_opts *); static int host_dns(struct listen_opts *); static int interface(struct listen_opts *); int delaytonum(char *); int is_if_in_group(const char *, const char *); static int config_lo_mask_source(struct listen_opts *); typedef struct { union { int64_t number; struct table *table; char *string; struct host *host; struct mailaddr *maddr; } v; int lineno; } YYSTYPE; %} %token ACTION ADMD ALIAS ANY ARROW AUTH AUTH_OPTIONAL %token BACKUP BOUNCE BYPASS %token CA CERT CHAIN CHROOT CIPHERS COMMIT COMPRESSION CONNECT %token DATA DATA_LINE DHE DISCONNECT DOMAIN %token EHLO ENABLE ENCRYPTION ERROR EXPAND_ONLY %token FCRDNS FILTER FOR FORWARD_ONLY FROM %token GROUP %token HELO HELO_SRC HOST HOSTNAME HOSTNAMES %token INCLUDE INET4 INET6 %token JUNK %token KEY %token LIMIT LISTEN LMTP LOCAL %token MAIL_FROM MAILDIR MASK_SRC MASQUERADE MATCH MAX_MESSAGE_SIZE MAX_DEFERRED MBOX MDA MTA MX %token NO_DSN NO_VERIFY NOOP %token ON %token PHASE PKI PORT PROC PROC_EXEC PROTOCOLS PROXY_V2 %token QUEUE QUIT %token RCPT_TO RDNS RECIPIENT RECEIVEDAUTH REGEX RELAY REJECT REPORT REWRITE RSET %token SCHEDULER SENDER SENDERS SMTP SMTP_IN SMTP_OUT SMTPS SOCKET SRC SRS SUB_ADDR_DELIM %token TABLE TAG TAGGED TLS TLS_REQUIRE TTL %token USER USERBASE %token VERIFY VIRTUAL %token WARN_INTERVAL WRAPPER %token STRING %token NUMBER %type table %type size negation %type tables tablenew tableref %% grammar : /* empty */ | grammar '\n' | grammar include '\n' | grammar varset '\n' | grammar bounce '\n' | grammar admd '\n' | grammar ca '\n' | grammar mda '\n' | grammar mta '\n' | grammar pki '\n' | grammar proc '\n' | grammar queue '\n' | grammar scheduler '\n' | grammar smtp '\n' | grammar srs '\n' | grammar listen '\n' | grammar table '\n' | grammar dispatcher '\n' | grammar match '\n' | grammar filter '\n' | grammar error '\n' { file->errors++; } ; include : INCLUDE STRING { struct file *nfile; if ((nfile = pushfile($2, 0)) == NULL) { yyerror("failed to include file %s", $2); free($2); YYERROR; } free($2); file = nfile; lungetc('\n'); } ; varset : STRING '=' STRING { char *s = $1; while (*s++) { if (isspace((unsigned char)*s)) { yyerror("macro name cannot contain " "whitespace"); free($1); free($3); YYERROR; } } if (symset($1, $3, 0) == -1) fatal("cannot store variable"); free($1); free($3); } ; comma : ',' | nl | /* empty */ ; optnl : '\n' optnl | ; nl : '\n' optnl ; negation : '!' { $$ = 1; } | /* empty */ { $$ = 0; } ; assign : '=' | ARROW; keyval : STRING assign STRING { table_add(table, $1, $3); free($1); free($3); } ; keyval_list : keyval | keyval comma keyval_list ; stringel : STRING { table_add(table, $1, NULL); free($1); } ; string_list : stringel | stringel comma string_list ; tableval_list : string_list { } | keyval_list { } ; bounce: BOUNCE WARN_INTERVAL { memset(conf->sc_bounce_warn, 0, sizeof conf->sc_bounce_warn); } bouncedelays ; admd: ADMD STRING { size_t i; for (i = 0; $2[i] != '\0'; i++) { if (!isprint($2[i])) { yyerror("not a valid admd"); free($2); YYERROR; } } conf->sc_admd = $2; }; ca: CA STRING { char buf[HOST_NAME_MAX+1]; /* if not catchall, check that it is a valid domain */ if (strcmp($2, "*") != 0) { if (!res_hnok($2)) { yyerror("not a valid domain name: %s", $2); free($2); YYERROR; } } xlowercase(buf, $2, sizeof(buf)); free($2); sca = dict_get(conf->sc_ca_dict, buf); if (sca == NULL) { sca = xcalloc(1, sizeof *sca); (void)strlcpy(sca->ca_name, buf, sizeof(sca->ca_name)); dict_set(conf->sc_ca_dict, sca->ca_name, sca); } } ca_params ; ca_params_opt: CERT STRING { sca->ca_cert_file = $2; } ; ca_params: ca_params_opt ; mda: MDA LIMIT limits_mda | MDA WRAPPER STRING STRING { if (dict_get(conf->sc_mda_wrappers, $3)) { yyerror("mda wrapper already declared with that name: %s", $3); YYERROR; } dict_set(conf->sc_mda_wrappers, $3, $4); } ; mta: MTA MAX_DEFERRED NUMBER { conf->sc_mta_max_deferred = $3; } | MTA LIMIT FOR DOMAIN STRING { struct mta_limits *d; limits = dict_get(conf->sc_limits_dict, $5); if (limits == NULL) { limits = xcalloc(1, sizeof(*limits)); dict_xset(conf->sc_limits_dict, $5, limits); d = dict_xget(conf->sc_limits_dict, "default"); memmove(limits, d, sizeof(*limits)); } free($5); } limits_mta | MTA LIMIT { limits = dict_get(conf->sc_limits_dict, "default"); } limits_mta ; pki: PKI STRING { char buf[HOST_NAME_MAX+1]; /* if not catchall, check that it is a valid domain */ if (strcmp($2, "*") != 0) { if (!res_hnok($2)) { yyerror("not a valid domain name: %s", $2); free($2); YYERROR; } } xlowercase(buf, $2, sizeof(buf)); free($2); pki = dict_get(conf->sc_pki_dict, buf); if (pki == NULL) { pki = xcalloc(1, sizeof *pki); (void)strlcpy(pki->pki_name, buf, sizeof(pki->pki_name)); dict_set(conf->sc_pki_dict, pki->pki_name, pki); } } pki_params ; pki_params_opt: CERT STRING { pki->pki_cert_file = $2; } | KEY STRING { pki->pki_key_file = $2; } | DHE STRING { if (strcasecmp($2, "none") == 0) pki->pki_dhe = 0; else if (strcasecmp($2, "auto") == 0) pki->pki_dhe = 1; else if (strcasecmp($2, "legacy") == 0) pki->pki_dhe = 2; else { yyerror("invalid DHE keyword: %s", $2); free($2); YYERROR; } free($2); } ; pki_params: pki_params_opt pki_params | /* empty */ ; proc: PROC STRING STRING { if (dict_get(conf->sc_filter_processes_dict, $2)) { yyerror("processor already exists with that name: %s", $2); free($2); free($3); YYERROR; } processor = xcalloc(1, sizeof *processor); processor->command = $3; } proc_params { dict_set(conf->sc_filter_processes_dict, $2, processor); processor = NULL; } ; proc_params_opt: USER STRING { if (processor->user) { yyerror("user already specified for this processor"); free($2); YYERROR; } processor->user = $2; } | GROUP STRING { if (processor->group) { yyerror("group already specified for this processor"); free($2); YYERROR; } processor->group = $2; } | CHROOT STRING { if (processor->chroot) { yyerror("chroot already specified for this processor"); free($2); YYERROR; } processor->chroot = $2; } ; proc_params: proc_params_opt proc_params | /* empty */ ; queue: QUEUE COMPRESSION { conf->sc_queue_flags |= QUEUE_COMPRESSION; } | QUEUE ENCRYPTION { conf->sc_queue_flags |= QUEUE_ENCRYPTION; } | QUEUE ENCRYPTION STRING { if (strcasecmp($3, "stdin") == 0 || strcasecmp($3, "-") == 0) { conf->sc_queue_key = "stdin"; free($3); } else conf->sc_queue_key = $3; conf->sc_queue_flags |= QUEUE_ENCRYPTION; } | QUEUE TTL STRING { conf->sc_ttl = delaytonum($3); if (conf->sc_ttl == -1) { yyerror("invalid ttl delay: %s", $3); free($3); YYERROR; } free($3); } ; scheduler: SCHEDULER LIMIT limits_scheduler ; smtp: SMTP LIMIT limits_smtp | SMTP CIPHERS STRING { conf->sc_tls_ciphers = $3; } | SMTP MAX_MESSAGE_SIZE size { conf->sc_maxsize = $3; } | SMTP SUB_ADDR_DELIM STRING { if (strlen($3) != 1) { yyerror("subaddressing-delimiter must be one character"); free($3); YYERROR; } if (isspace((unsigned char)*$3) || !isprint((unsigned char)*$3) || *$3 == '@') { yyerror("sub-addr-delim uses invalid character"); free($3); YYERROR; } conf->sc_subaddressing_delim = $3; } ; srs: SRS KEY STRING { conf->sc_srs_key = $3; } | SRS KEY BACKUP STRING { conf->sc_srs_key_backup = $4; } | SRS TTL STRING { conf->sc_srs_ttl = delaytonum($3); if (conf->sc_srs_ttl == -1) { yyerror("ttl delay \"%s\" is invalid", $3); free($3); YYERROR; } conf->sc_srs_ttl /= 86400; if (conf->sc_srs_ttl == 0) { yyerror("ttl delay \"%s\" is too short", $3); free($3); YYERROR; } free($3); } ; dispatcher_local_option: USER STRING { if (dsp->u.local.is_mbox) { yyerror("user may not be specified for this dispatcher"); YYERROR; } if (dsp->u.local.forward_only) { yyerror("user may not be specified for forward-only"); YYERROR; } if (dsp->u.local.expand_only) { yyerror("user may not be specified for expand-only"); YYERROR; } if (dsp->u.local.user) { yyerror("user already specified for this dispatcher"); YYERROR; } dsp->u.local.user = $2; } | ALIAS tables { struct table *t = $2; if (dsp->u.local.table_alias) { yyerror("alias mapping already specified for this dispatcher"); YYERROR; } if (dsp->u.local.table_virtual) { yyerror("virtual mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_ALIAS)) { yyerror("table \"%s\" may not be used for alias lookups", t->t_name); YYERROR; } dsp->u.local.table_alias = strdup(t->t_name); } | VIRTUAL tables { struct table *t = $2; if (dsp->u.local.table_virtual) { yyerror("virtual mapping already specified for this dispatcher"); YYERROR; } if (dsp->u.local.table_alias) { yyerror("alias mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_ALIAS)) { yyerror("table \"%s\" may not be used for virtual lookups", t->t_name); YYERROR; } dsp->u.local.table_virtual = strdup(t->t_name); } | USERBASE tables { struct table *t = $2; if (dsp->u.local.table_userbase) { yyerror("userbase mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_USERINFO)) { yyerror("table \"%s\" may not be used for userbase lookups", t->t_name); YYERROR; } dsp->u.local.table_userbase = strdup(t->t_name); } | WRAPPER STRING { if (! dict_get(conf->sc_mda_wrappers, $2)) { yyerror("no mda wrapper with that name: %s", $2); YYERROR; } dsp->u.local.mda_wrapper = $2; } ; dispatcher_local_options: dispatcher_local_option dispatcher_local_options | /* empty */ ; dispatcher_local: MBOX { dsp->u.local.is_mbox = 1; asprintf(&dsp->u.local.command, "/usr/libexec/mail.local -f %%{mbox.from} -- %%{user.username}"); } dispatcher_local_options | MAILDIR { asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir"); } dispatcher_local_options | MAILDIR JUNK { asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir -j"); } dispatcher_local_options | MAILDIR STRING { if (strncmp($2, "~/", 2) == 0) asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir \"%%{user.directory}/%s\"", $2+2); else asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir \"%s\"", $2); } dispatcher_local_options | MAILDIR STRING JUNK { if (strncmp($2, "~/", 2) == 0) asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir -j \"%%{user.directory}/%s\"", $2+2); else asprintf(&dsp->u.local.command, "/usr/libexec/mail.maildir -j \"%s\"", $2); } dispatcher_local_options | LMTP STRING { asprintf(&dsp->u.local.command, "/usr/libexec/mail.lmtp -d %s -u", $2); dsp->u.local.user = SMTPD_USER; } dispatcher_local_options | LMTP STRING RCPT_TO { asprintf(&dsp->u.local.command, "/usr/libexec/mail.lmtp -d %s -r", $2); dsp->u.local.user = SMTPD_USER; } dispatcher_local_options | MDA STRING { asprintf(&dsp->u.local.command, "/usr/libexec/mail.mda \"%s\"", $2); } dispatcher_local_options | FORWARD_ONLY { dsp->u.local.forward_only = 1; } dispatcher_local_options | EXPAND_ONLY { dsp->u.local.expand_only = 1; } dispatcher_local_options ; dispatcher_remote_option: HELO STRING { if (dsp->u.remote.helo) { yyerror("helo already specified for this dispatcher"); YYERROR; } dsp->u.remote.helo = $2; } | HELO_SRC tables { struct table *t = $2; if (dsp->u.remote.helo_source) { yyerror("helo-source mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_ADDRNAME)) { yyerror("table \"%s\" may not be used for helo-source lookups", t->t_name); YYERROR; } dsp->u.remote.helo_source = strdup(t->t_name); } | PKI STRING { if (dsp->u.remote.pki) { yyerror("pki already specified for this dispatcher"); YYERROR; } dsp->u.remote.pki = $2; } | CA STRING { if (dsp->u.remote.ca) { yyerror("ca already specified for this dispatcher"); YYERROR; } dsp->u.remote.ca = $2; } | CIPHERS STRING { if (dsp->u.remote.tls_ciphers) { yyerror("ciphers already specified for this dispatcher"); YYERROR; } dsp->u.remote.tls_ciphers = $2; } | PROTOCOLS STRING { if (dsp->u.remote.tls_protocols) { yyerror("protocols already specified for this dispatcher"); YYERROR; } dsp->u.remote.tls_protocols = $2; } | SRC tables { struct table *t = $2; if (dsp->u.remote.source) { yyerror("source mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_SOURCE)) { yyerror("table \"%s\" may not be used for source lookups", t->t_name); YYERROR; } dsp->u.remote.source = strdup(t->t_name); } | MAIL_FROM STRING { if (dsp->u.remote.mail_from) { yyerror("mail-from already specified for this dispatcher"); YYERROR; } dsp->u.remote.mail_from = $2; } | BACKUP MX STRING { if (dsp->u.remote.backup) { yyerror("backup already specified for this dispatcher"); YYERROR; } if (dsp->u.remote.smarthost) { yyerror("backup and host are mutually exclusive"); YYERROR; } dsp->u.remote.backup = 1; dsp->u.remote.backupmx = $3; } | BACKUP { if (dsp->u.remote.backup) { yyerror("backup already specified for this dispatcher"); YYERROR; } if (dsp->u.remote.smarthost) { yyerror("backup and host are mutually exclusive"); YYERROR; } dsp->u.remote.backup = 1; } | HOST tables { struct table *t = $2; if (dsp->u.remote.smarthost) { yyerror("host mapping already specified for this dispatcher"); YYERROR; } if (dsp->u.remote.backup) { yyerror("backup and host are mutually exclusive"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_RELAYHOST)) { yyerror("table \"%s\" may not be used for host lookups", t->t_name); YYERROR; } dsp->u.remote.smarthost = strdup(t->t_name); } | DOMAIN tables { struct table *t = $2; if (dsp->u.remote.smarthost) { yyerror("host mapping already specified for this dispatcher"); YYERROR; } if (dsp->u.remote.backup) { yyerror("backup and domain are mutually exclusive"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_RELAYHOST)) { yyerror("table \"%s\" may not be used for host lookups", t->t_name); YYERROR; } dsp->u.remote.smarthost = strdup(t->t_name); dsp->u.remote.smarthost_domain = 1; } | TLS { if (dsp->u.remote.tls_required == 1) { yyerror("tls already specified for this dispatcher"); YYERROR; } dsp->u.remote.tls_required = 1; } | TLS NO_VERIFY { if (dsp->u.remote.tls_required == 1) { yyerror("tls already specified for this dispatcher"); YYERROR; } dsp->u.remote.tls_required = 1; dsp->u.remote.tls_noverify = 1; } | AUTH tables { struct table *t = $2; if (dsp->u.remote.smarthost == NULL) { yyerror("auth may not be specified without host on a dispatcher"); YYERROR; } if (dsp->u.remote.auth) { yyerror("auth mapping already specified for this dispatcher"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_HASH, K_CREDENTIALS)) { yyerror("table \"%s\" may not be used for auth lookups", t->t_name); YYERROR; } dsp->u.remote.auth = strdup(t->t_name); } | FILTER STRING { struct filter_config *fc; if (dsp->u.remote.filtername) { yyerror("filter already specified for this dispatcher"); YYERROR; } if ((fc = dict_get(conf->sc_filters_dict, $2)) == NULL) { yyerror("no filter exist with that name: %s", $2); free($2); YYERROR; } fc->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_OUT; dsp->u.remote.filtername = $2; } | FILTER { char buffer[128]; char *filtername; if (dsp->u.remote.filtername) { yyerror("filter already specified for this dispatcher"); YYERROR; } do { (void)snprintf(buffer, sizeof buffer, "", last_dynchain_id++); } while (dict_check(conf->sc_filters_dict, buffer)); filtername = xstrdup(buffer); filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_CHAIN; filter_config->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_OUT; dict_init(&filter_config->chain_procs); dsp->u.remote.filtername = filtername; } '{' filter_list '}' { dict_set(conf->sc_filters_dict, dsp->u.remote.filtername, filter_config); filter_config = NULL; } | SRS { if (conf->sc_srs_key == NULL) { yyerror("an srs key is required for srs to be specified in an action"); YYERROR; } if (dsp->u.remote.srs == 1) { yyerror("srs already specified for this dispatcher"); YYERROR; } dsp->u.remote.srs = 1; } ; dispatcher_remote_options: dispatcher_remote_option dispatcher_remote_options | /* empty */ ; dispatcher_remote : RELAY dispatcher_remote_options ; dispatcher_type: dispatcher_local { dsp->type = DISPATCHER_LOCAL; } | dispatcher_remote { dsp->type = DISPATCHER_REMOTE; } ; dispatcher_option: TTL STRING { if (dsp->ttl) { yyerror("ttl already specified for this dispatcher"); YYERROR; } dsp->ttl = delaytonum($2); if (dsp->ttl == -1) { yyerror("ttl delay \"%s\" is invalid", $2); free($2); YYERROR; } free($2); } ; dispatcher_options: dispatcher_option dispatcher_options | /* empty */ ; dispatcher: ACTION STRING { if (dict_get(conf->sc_dispatchers, $2)) { yyerror("dispatcher already declared with that name: %s", $2); YYERROR; } dsp = xcalloc(1, sizeof *dsp); } dispatcher_type dispatcher_options { if (dsp->type == DISPATCHER_LOCAL) if (dsp->u.local.table_userbase == NULL) dsp->u.local.table_userbase = ""; dict_set(conf->sc_dispatchers, $2, dsp); dsp = NULL; } ; match_option: negation TAG tables { struct table *t = $3; if (rule->flag_tag) { yyerror("tag already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_STRING)) { yyerror("table \"%s\" may not be used for tag lookups", t->t_name); YYERROR; } rule->flag_tag = $1 ? -1 : 1; rule->table_tag = strdup(t->t_name); } | negation TAG REGEX tables { struct table *t = $4; if (rule->flag_tag) { yyerror("tag already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for tag lookups", t->t_name); YYERROR; } rule->flag_tag = $1 ? -1 : 1; rule->flag_tag_regex = 1; rule->table_tag = strdup(t->t_name); } | negation HELO tables { struct table *t = $3; if (rule->flag_smtp_helo) { yyerror("helo already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_DOMAIN)) { yyerror("table \"%s\" may not be used for helo lookups", t->t_name); YYERROR; } rule->flag_smtp_helo = $1 ? -1 : 1; rule->table_smtp_helo = strdup(t->t_name); } | negation HELO REGEX tables { struct table *t = $4; if (rule->flag_smtp_helo) { yyerror("helo already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for helo lookups", t->t_name); YYERROR; } rule->flag_smtp_helo = $1 ? -1 : 1; rule->flag_smtp_helo_regex = 1; rule->table_smtp_helo = strdup(t->t_name); } | negation TLS { if (rule->flag_smtp_starttls) { yyerror("tls already specified for this rule"); YYERROR; } rule->flag_smtp_starttls = $1 ? -1 : 1; } | negation AUTH { if (rule->flag_smtp_auth) { yyerror("auth already specified for this rule"); YYERROR; } rule->flag_smtp_auth = $1 ? -1 : 1; } | negation AUTH tables { struct table *t = $3; if (rule->flag_smtp_auth) { yyerror("auth already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_STRING|K_CREDENTIALS)) { yyerror("table \"%s\" may not be used for auth lookups", t->t_name); YYERROR; } rule->flag_smtp_auth = $1 ? -1 : 1; rule->table_smtp_auth = strdup(t->t_name); } | negation AUTH REGEX tables { struct table *t = $4; if (rule->flag_smtp_auth) { yyerror("auth already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for auth lookups", t->t_name); YYERROR; } rule->flag_smtp_auth = $1 ? -1 : 1; rule->flag_smtp_auth_regex = 1; rule->table_smtp_auth = strdup(t->t_name); } | negation MAIL_FROM tables { struct table *t = $3; if (rule->flag_smtp_mail_from) { yyerror("mail-from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_MAILADDR)) { yyerror("table \"%s\" may not be used for mail-from lookups", t->t_name); YYERROR; } rule->flag_smtp_mail_from = $1 ? -1 : 1; rule->table_smtp_mail_from = strdup(t->t_name); } | negation MAIL_FROM REGEX tables { struct table *t = $4; if (rule->flag_smtp_mail_from) { yyerror("mail-from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for mail-from lookups", t->t_name); YYERROR; } rule->flag_smtp_mail_from = $1 ? -1 : 1; rule->flag_smtp_mail_from_regex = 1; rule->table_smtp_mail_from = strdup(t->t_name); } | negation RCPT_TO tables { struct table *t = $3; if (rule->flag_smtp_rcpt_to) { yyerror("rcpt-to already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_MAILADDR)) { yyerror("table \"%s\" may not be used for rcpt-to lookups", t->t_name); YYERROR; } rule->flag_smtp_rcpt_to = $1 ? -1 : 1; rule->table_smtp_rcpt_to = strdup(t->t_name); } | negation RCPT_TO REGEX tables { struct table *t = $4; if (rule->flag_smtp_rcpt_to) { yyerror("rcpt-to already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for rcpt-to lookups", t->t_name); YYERROR; } rule->flag_smtp_rcpt_to = $1 ? -1 : 1; rule->flag_smtp_rcpt_to_regex = 1; rule->table_smtp_rcpt_to = strdup(t->t_name); } | negation FROM SOCKET { if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->flag_from_socket = 1; } | negation FROM LOCAL { struct table *t = table_find(conf, ""); if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->table_from = strdup(t->t_name); } | negation FROM ANY { struct table *t = table_find(conf, ""); if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->table_from = strdup(t->t_name); } | negation FROM SRC tables { struct table *t = $4; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_NETADDR)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->table_from = strdup(t->t_name); } | negation FROM SRC REGEX tables { struct table *t = $5; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->flag_from_regex = 1; rule->table_from = strdup(t->t_name); } | negation FROM RDNS { if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->flag_from_rdns = 1; } | negation FROM RDNS tables { struct table *t = $4; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_DOMAIN)) { yyerror("table \"%s\" may not be used for rdns lookups", t->t_name); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->flag_from_rdns = 1; rule->table_from = strdup(t->t_name); } | negation FROM RDNS REGEX tables { struct table *t = $5; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_DOMAIN)) { yyerror("table \"%s\" may not be used for rdns lookups", t->t_name); YYERROR; } rule->flag_from = $1 ? -1 : 1; rule->flag_from_regex = 1; rule->flag_from_rdns = 1; rule->table_from = strdup(t->t_name); } | negation FROM AUTH { struct table *anyhost = table_find(conf, ""); if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } rule->flag_from = 1; rule->table_from = strdup(anyhost->t_name); rule->flag_smtp_auth = $1 ? -1 : 1; } | negation FROM AUTH tables { struct table *anyhost = table_find(conf, ""); struct table *t = $4; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_STRING|K_CREDENTIALS)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = 1; rule->table_from = strdup(anyhost->t_name); rule->flag_smtp_auth = $1 ? -1 : 1; rule->table_smtp_auth = strdup(t->t_name); } | negation FROM AUTH REGEX tables { struct table *anyhost = table_find(conf, ""); struct table *t = $5; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = 1; rule->table_from = strdup(anyhost->t_name); rule->flag_smtp_auth = $1 ? -1 : 1; rule->flag_smtp_auth_regex = 1; rule->table_smtp_auth = strdup(t->t_name); } | negation FROM MAIL_FROM tables { struct table *anyhost = table_find(conf, ""); struct table *t = $4; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_MAILADDR)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = 1; rule->table_from = strdup(anyhost->t_name); rule->flag_smtp_mail_from = $1 ? -1 : 1; rule->table_smtp_mail_from = strdup(t->t_name); } | negation FROM MAIL_FROM REGEX tables { struct table *anyhost = table_find(conf, ""); struct table *t = $5; if (rule->flag_from) { yyerror("from already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for from lookups", t->t_name); YYERROR; } rule->flag_from = 1; rule->table_from = strdup(anyhost->t_name); rule->flag_smtp_mail_from = $1 ? -1 : 1; rule->flag_smtp_mail_from_regex = 1; rule->table_smtp_mail_from = strdup(t->t_name); } | negation FOR LOCAL { struct table *t = table_find(conf, ""); if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } rule->flag_for = $1 ? -1 : 1; rule->table_for = strdup(t->t_name); } | negation FOR ANY { struct table *t = table_find(conf, ""); if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } rule->flag_for = $1 ? -1 : 1; rule->table_for = strdup(t->t_name); } | negation FOR DOMAIN tables { struct table *t = $4; if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_DOMAIN)) { yyerror("table \"%s\" may not be used for 'for' lookups", t->t_name); YYERROR; } rule->flag_for = $1 ? -1 : 1; rule->table_for = strdup(t->t_name); } | negation FOR DOMAIN REGEX tables { struct table *t = $5; if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for 'for' lookups", t->t_name); YYERROR; } rule->flag_for = $1 ? -1 : 1; rule->flag_for_regex = 1; rule->table_for = strdup(t->t_name); } | negation FOR RCPT_TO tables { struct table *anyhost = table_find(conf, ""); struct table *t = $4; if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_MAILADDR)) { yyerror("table \"%s\" may not be used for for lookups", t->t_name); YYERROR; } rule->flag_for = 1; rule->table_for = strdup(anyhost->t_name); rule->flag_smtp_rcpt_to = $1 ? -1 : 1; rule->table_smtp_rcpt_to = strdup(t->t_name); } | negation FOR RCPT_TO REGEX tables { struct table *anyhost = table_find(conf, ""); struct table *t = $5; if (rule->flag_for) { yyerror("for already specified for this rule"); YYERROR; } if (!table_check_use(t, T_DYNAMIC|T_LIST, K_REGEX)) { yyerror("table \"%s\" may not be used for for lookups", t->t_name); YYERROR; } rule->flag_for = 1; rule->table_for = strdup(anyhost->t_name); rule->flag_smtp_rcpt_to = $1 ? -1 : 1; rule->flag_smtp_rcpt_to_regex = 1; rule->table_smtp_rcpt_to = strdup(t->t_name); } ; match_options: match_option match_options | /* empty */ ; match_dispatcher: STRING { if (dict_get(conf->sc_dispatchers, $1) == NULL) { yyerror("no such dispatcher: %s", $1); YYERROR; } rule->dispatcher = $1; } ; action: REJECT { rule->reject = 1; } | ACTION match_dispatcher ; match: MATCH { rule = xcalloc(1, sizeof *rule); } match_options action { if (!rule->flag_from) { rule->table_from = strdup(""); rule->flag_from = 1; } if (!rule->flag_for) { rule->table_for = strdup(""); rule->flag_for = 1; } TAILQ_INSERT_TAIL(conf->sc_rules, rule, r_entry); rule = NULL; } ; filter_action_builtin: filter_action_builtin_nojunk | JUNK { filter_config->junk = 1; } | BYPASS { filter_config->bypass = 1; } ; filter_action_builtin_nojunk: REJECT STRING { filter_config->reject = $2; } | DISCONNECT STRING { filter_config->disconnect = $2; } | REWRITE STRING { filter_config->rewrite = $2; } | REPORT STRING { filter_config->report = $2; } ; filter_phase_check_fcrdns: negation FCRDNS { filter_config->not_fcrdns = $1 ? -1 : 1; filter_config->fcrdns = 1; } ; filter_phase_check_rdns: negation RDNS { filter_config->not_rdns = $1 ? -1 : 1; filter_config->rdns = 1; } ; filter_phase_check_rdns_table: negation RDNS tables { filter_config->not_rdns_table = $1 ? -1 : 1; filter_config->rdns_table = $3; } ; filter_phase_check_rdns_regex: negation RDNS REGEX tables { filter_config->not_rdns_regex = $1 ? -1 : 1; filter_config->rdns_regex = $4; } ; filter_phase_check_src_table: negation SRC tables { filter_config->not_src_table = $1 ? -1 : 1; filter_config->src_table = $3; } ; filter_phase_check_src_regex: negation SRC REGEX tables { filter_config->not_src_regex = $1 ? -1 : 1; filter_config->src_regex = $4; } ; filter_phase_check_helo_table: negation HELO tables { filter_config->not_helo_table = $1 ? -1 : 1; filter_config->helo_table = $3; } ; filter_phase_check_helo_regex: negation HELO REGEX tables { filter_config->not_helo_regex = $1 ? -1 : 1; filter_config->helo_regex = $4; } ; filter_phase_check_auth: negation AUTH { filter_config->not_auth = $1 ? -1 : 1; filter_config->auth = 1; } ; filter_phase_check_auth_table: negation AUTH tables { filter_config->not_auth_table = $1 ? -1 : 1; filter_config->auth_table = $3; } ; filter_phase_check_auth_regex: negation AUTH REGEX tables { filter_config->not_auth_regex = $1 ? -1 : 1; filter_config->auth_regex = $4; } ; filter_phase_check_mail_from_table: negation MAIL_FROM tables { filter_config->not_mail_from_table = $1 ? -1 : 1; filter_config->mail_from_table = $3; } ; filter_phase_check_mail_from_regex: negation MAIL_FROM REGEX tables { filter_config->not_mail_from_regex = $1 ? -1 : 1; filter_config->mail_from_regex = $4; } ; filter_phase_check_rcpt_to_table: negation RCPT_TO tables { filter_config->not_rcpt_to_table = $1 ? -1 : 1; filter_config->rcpt_to_table = $3; } ; filter_phase_check_rcpt_to_regex: negation RCPT_TO REGEX tables { filter_config->not_rcpt_to_regex = $1 ? -1 : 1; filter_config->rcpt_to_regex = $4; } ; filter_phase_global_options: filter_phase_check_fcrdns | filter_phase_check_rdns | filter_phase_check_rdns_regex | filter_phase_check_rdns_table | filter_phase_check_src_regex | filter_phase_check_src_table; filter_phase_connect_options: filter_phase_global_options; filter_phase_helo_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_global_options; filter_phase_auth_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_check_auth | filter_phase_check_auth_table | filter_phase_check_auth_regex | filter_phase_global_options; filter_phase_mail_from_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_check_auth | filter_phase_check_auth_table | filter_phase_check_auth_regex | filter_phase_check_mail_from_table | filter_phase_check_mail_from_regex | filter_phase_global_options; filter_phase_rcpt_to_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_check_auth | filter_phase_check_auth_table | filter_phase_check_auth_regex | filter_phase_check_mail_from_table | filter_phase_check_mail_from_regex | filter_phase_check_rcpt_to_table | filter_phase_check_rcpt_to_regex | filter_phase_global_options; filter_phase_data_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_check_auth | filter_phase_check_auth_table | filter_phase_check_auth_regex | filter_phase_check_mail_from_table | filter_phase_check_mail_from_regex | filter_phase_global_options; /* filter_phase_quit_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_global_options; filter_phase_rset_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_global_options; filter_phase_noop_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_global_options; */ filter_phase_commit_options: filter_phase_check_helo_table | filter_phase_check_helo_regex | filter_phase_check_auth | filter_phase_check_auth_table | filter_phase_check_auth_regex | filter_phase_check_mail_from_table | filter_phase_check_mail_from_regex | filter_phase_global_options; filter_phase_connect: CONNECT { filter_config->phase = FILTER_CONNECT; } MATCH filter_phase_connect_options filter_action_builtin ; filter_phase_helo: HELO { filter_config->phase = FILTER_HELO; } MATCH filter_phase_helo_options filter_action_builtin ; filter_phase_ehlo: EHLO { filter_config->phase = FILTER_EHLO; } MATCH filter_phase_helo_options filter_action_builtin ; filter_phase_auth: AUTH { } MATCH filter_phase_auth_options filter_action_builtin ; filter_phase_mail_from: MAIL_FROM { filter_config->phase = FILTER_MAIL_FROM; } MATCH filter_phase_mail_from_options filter_action_builtin ; filter_phase_rcpt_to: RCPT_TO { filter_config->phase = FILTER_RCPT_TO; } MATCH filter_phase_rcpt_to_options filter_action_builtin ; filter_phase_data: DATA { filter_config->phase = FILTER_DATA; } MATCH filter_phase_data_options filter_action_builtin ; /* filter_phase_data_line: DATA_LINE { filter_config->phase = FILTER_DATA_LINE; } MATCH filter_action_builtin ; filter_phase_quit: QUIT { filter_config->phase = FILTER_QUIT; } filter_phase_quit_options filter_action_builtin ; filter_phase_rset: RSET { filter_config->phase = FILTER_RSET; } MATCH filter_phase_rset_options filter_action_builtin ; filter_phase_noop: NOOP { filter_config->phase = FILTER_NOOP; } MATCH filter_phase_noop_options filter_action_builtin ; */ filter_phase_commit: COMMIT { filter_config->phase = FILTER_COMMIT; } MATCH filter_phase_commit_options filter_action_builtin_nojunk ; filter_phase: filter_phase_connect | filter_phase_helo | filter_phase_ehlo | filter_phase_auth | filter_phase_mail_from | filter_phase_rcpt_to | filter_phase_data /*| filter_phase_data_line*/ /*| filter_phase_quit*/ /*| filter_phase_noop*/ /*| filter_phase_rset*/ | filter_phase_commit ; filterel: STRING { struct filter_config *fr; size_t i; if ((fr = dict_get(conf->sc_filters_dict, $1)) == NULL) { yyerror("no filter exist with that name: %s", $1); free($1); YYERROR; } if (fr->filter_type == FILTER_TYPE_CHAIN) { yyerror("no filter chain allowed within a filter chain: %s", $1); free($1); YYERROR; } for (i = 0; i < filter_config->chain_size; i++) { if (strcmp(filter_config->chain[i], $1) == 0) { yyerror("no filter allowed twice within a filter chain: %s", $1); free($1); YYERROR; } } if (fr->proc) { if (dict_get(&filter_config->chain_procs, fr->proc)) { yyerror("no proc allowed twice within a filter chain: %s", fr->proc); free($1); YYERROR; } dict_set(&filter_config->chain_procs, fr->proc, NULL); } fr->filter_subsystem |= filter_config->filter_subsystem; filter_config->chain_size += 1; filter_config->chain = reallocarray(filter_config->chain, filter_config->chain_size, sizeof(char *)); if (filter_config->chain == NULL) fatal("reallocarray"); filter_config->chain[filter_config->chain_size - 1] = $1; } ; filter_list: filterel | filterel comma filter_list ; filter: FILTER STRING PROC STRING { if (dict_get(conf->sc_filters_dict, $2)) { yyerror("filter already exists with that name: %s", $2); free($2); free($4); YYERROR; } if (dict_get(conf->sc_filter_processes_dict, $4) == NULL) { yyerror("no processor exist with that name: %s", $4); free($4); YYERROR; } filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_PROC; filter_config->name = $2; filter_config->proc = $4; dict_set(conf->sc_filters_dict, $2, filter_config); filter_config = NULL; } | FILTER STRING PROC_EXEC STRING { if (dict_get(conf->sc_filters_dict, $2)) { yyerror("filter already exists with that name: %s", $2); free($2); free($4); YYERROR; } processor = xcalloc(1, sizeof *processor); processor->command = $4; filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_PROC; filter_config->name = $2; filter_config->proc = xstrdup($2); dict_set(conf->sc_filters_dict, $2, filter_config); } proc_params { dict_set(conf->sc_filter_processes_dict, filter_config->proc, processor); processor = NULL; filter_config = NULL; } | FILTER STRING PHASE { if (dict_get(conf->sc_filters_dict, $2)) { yyerror("filter already exists with that name: %s", $2); free($2); YYERROR; } filter_config = xcalloc(1, sizeof *filter_config); filter_config->name = $2; filter_config->filter_type = FILTER_TYPE_BUILTIN; dict_set(conf->sc_filters_dict, $2, filter_config); } filter_phase { filter_config = NULL; } | FILTER STRING CHAIN { if (dict_get(conf->sc_filters_dict, $2)) { yyerror("filter already exists with that name: %s", $2); free($2); YYERROR; } filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_CHAIN; dict_init(&filter_config->chain_procs); } '{' filter_list '}' { dict_set(conf->sc_filters_dict, $2, filter_config); filter_config = NULL; } ; size : NUMBER { if ($1 < 0) { yyerror("invalid size: %" PRId64, $1); YYERROR; } $$ = $1; } | STRING { long long result; if (scan_scaled($1, &result) == -1 || result < 0) { yyerror("invalid size: %s", $1); free($1); YYERROR; } free($1); $$ = result; } ; bouncedelay : STRING { time_t d; int i; d = delaytonum($1); if (d < 0) { yyerror("invalid bounce delay: %s", $1); free($1); YYERROR; } free($1); for (i = 0; i < MAX_BOUNCE_WARN; i++) { if (conf->sc_bounce_warn[i] != 0) continue; conf->sc_bounce_warn[i] = d; break; } } ; bouncedelays : bouncedelays ',' bouncedelay | bouncedelay ; opt_limit_mda : STRING NUMBER { if (!strcmp($1, "max-session")) { conf->sc_mda_max_session = $2; } else if (!strcmp($1, "max-session-per-user")) { conf->sc_mda_max_user_session = $2; } else if (!strcmp($1, "task-lowat")) { conf->sc_mda_task_lowat = $2; } else if (!strcmp($1, "task-hiwat")) { conf->sc_mda_task_hiwat = $2; } else if (!strcmp($1, "task-release")) { conf->sc_mda_task_release = $2; } else { yyerror("invalid scheduler limit keyword: %s", $1); free($1); YYERROR; } free($1); } ; limits_smtp : opt_limit_smtp limits_smtp | /* empty */ ; opt_limit_smtp : STRING NUMBER { if (!strcmp($1, "max-rcpt")) { conf->sc_session_max_rcpt = $2; } else if (!strcmp($1, "max-mails")) { conf->sc_session_max_mails = $2; } else { yyerror("invalid session limit keyword: %s", $1); free($1); YYERROR; } free($1); } ; limits_mda : opt_limit_mda limits_mda | /* empty */ ; opt_limit_mta : INET4 { limits->family = AF_INET; } | INET6 { limits->family = AF_INET6; } | STRING NUMBER { if (!limit_mta_set(limits, $1, $2)) { yyerror("invalid mta limit keyword: %s", $1); free($1); YYERROR; } free($1); } ; limits_mta : opt_limit_mta limits_mta | /* empty */ ; opt_limit_scheduler : STRING NUMBER { if (!strcmp($1, "max-inflight")) { conf->sc_scheduler_max_inflight = $2; } else if (!strcmp($1, "max-evp-batch-size")) { conf->sc_scheduler_max_evp_batch_size = $2; } else if (!strcmp($1, "max-msg-batch-size")) { conf->sc_scheduler_max_msg_batch_size = $2; } else if (!strcmp($1, "max-schedule")) { conf->sc_scheduler_max_schedule = $2; } else { yyerror("invalid scheduler limit keyword: %s", $1); free($1); YYERROR; } free($1); } ; limits_scheduler: opt_limit_scheduler limits_scheduler | /* empty */ ; opt_sock_listen : FILTER STRING { struct filter_config *fc; if (listen_opts.options & LO_FILTER) { yyerror("filter already specified"); free($2); YYERROR; } if ((fc = dict_get(conf->sc_filters_dict, $2)) == NULL) { yyerror("no filter exist with that name: %s", $2); free($2); YYERROR; } fc->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_IN; listen_opts.options |= LO_FILTER; listen_opts.filtername = $2; } | FILTER { char buffer[128]; if (listen_opts.options & LO_FILTER) { yyerror("filter already specified"); YYERROR; } do { (void)snprintf(buffer, sizeof buffer, "", last_dynchain_id++); } while (dict_check(conf->sc_filters_dict, buffer)); listen_opts.options |= LO_FILTER; listen_opts.filtername = xstrdup(buffer); filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_CHAIN; filter_config->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_IN; dict_init(&filter_config->chain_procs); } '{' filter_list '}' { dict_set(conf->sc_filters_dict, listen_opts.filtername, filter_config); filter_config = NULL; } | MASK_SRC { if (config_lo_mask_source(&listen_opts)) { YYERROR; } } | TAG STRING { if (listen_opts.options & LO_TAG) { yyerror("tag already specified"); YYERROR; } listen_opts.options |= LO_TAG; if (strlen($2) >= SMTPD_TAG_SIZE) { yyerror("tag name too long"); free($2); YYERROR; } listen_opts.tag = $2; } ; opt_if_listen : INET4 { if (listen_opts.options & LO_FAMILY) { yyerror("address family already specified"); YYERROR; } listen_opts.options |= LO_FAMILY; listen_opts.family = AF_INET; } | INET6 { if (listen_opts.options & LO_FAMILY) { yyerror("address family already specified"); YYERROR; } listen_opts.options |= LO_FAMILY; listen_opts.family = AF_INET6; } | PORT STRING { struct servent *servent; if (listen_opts.options & LO_PORT) { yyerror("port already specified"); YYERROR; } listen_opts.options |= LO_PORT; servent = getservbyname($2, "tcp"); if (servent == NULL) { yyerror("invalid port: %s", $2); free($2); YYERROR; } free($2); listen_opts.port = ntohs(servent->s_port); } | PORT SMTP { struct servent *servent; if (listen_opts.options & LO_PORT) { yyerror("port already specified"); YYERROR; } listen_opts.options |= LO_PORT; servent = getservbyname("smtp", "tcp"); if (servent == NULL) { yyerror("invalid port: smtp"); YYERROR; } listen_opts.port = ntohs(servent->s_port); } | PORT SMTPS { struct servent *servent; if (listen_opts.options & LO_PORT) { yyerror("port already specified"); YYERROR; } listen_opts.options |= LO_PORT; servent = getservbyname("smtps", "tcp"); if (servent == NULL) { yyerror("invalid port: smtps"); YYERROR; } listen_opts.port = ntohs(servent->s_port); } | PORT NUMBER { if (listen_opts.options & LO_PORT) { yyerror("port already specified"); YYERROR; } listen_opts.options |= LO_PORT; if ($2 <= 0 || $2 > (int)USHRT_MAX) { yyerror("invalid port: %" PRId64, $2); YYERROR; } listen_opts.port = $2; } | FILTER STRING { struct filter_config *fc; if (listen_opts.options & LO_FILTER) { yyerror("filter already specified"); YYERROR; } if ((fc = dict_get(conf->sc_filters_dict, $2)) == NULL) { yyerror("no filter exist with that name: %s", $2); free($2); YYERROR; } fc->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_IN; listen_opts.options |= LO_FILTER; listen_opts.filtername = $2; } | FILTER { char buffer[128]; if (listen_opts.options & LO_FILTER) { yyerror("filter already specified"); YYERROR; } do { (void)snprintf(buffer, sizeof buffer, "", last_dynchain_id++); } while (dict_check(conf->sc_filters_dict, buffer)); listen_opts.options |= LO_FILTER; listen_opts.filtername = xstrdup(buffer); filter_config = xcalloc(1, sizeof *filter_config); filter_config->filter_type = FILTER_TYPE_CHAIN; filter_config->filter_subsystem |= FILTER_SUBSYSTEM_SMTP_IN; dict_init(&filter_config->chain_procs); } '{' filter_list '}' { dict_set(conf->sc_filters_dict, listen_opts.filtername, filter_config); filter_config = NULL; } | SMTPS { if (listen_opts.options & LO_SSL) { yyerror("TLS mode already specified"); YYERROR; } listen_opts.options |= LO_SSL; listen_opts.ssl = F_SMTPS; } | SMTPS VERIFY { if (listen_opts.options & LO_SSL) { yyerror("TLS mode already specified"); YYERROR; } listen_opts.options |= LO_SSL; listen_opts.ssl = F_SMTPS|F_TLS_VERIFY; } | TLS { if (listen_opts.options & LO_SSL) { yyerror("TLS mode already specified"); YYERROR; } listen_opts.options |= LO_SSL; listen_opts.ssl = F_STARTTLS; } | TLS_REQUIRE { if (listen_opts.options & LO_SSL) { yyerror("TLS mode already specified"); YYERROR; } listen_opts.options |= LO_SSL; listen_opts.ssl = F_STARTTLS|F_STARTTLS_REQUIRE; } | TLS_REQUIRE VERIFY { if (listen_opts.options & LO_SSL) { yyerror("TLS mode already specified"); YYERROR; } listen_opts.options |= LO_SSL; listen_opts.ssl = F_STARTTLS|F_STARTTLS_REQUIRE|F_TLS_VERIFY; } | CIPHERS STRING { if (listen_opts.tls_ciphers) { yyerror("ciphers already specified"); YYERROR; } listen_opts.tls_ciphers = $2; } | PROTOCOLS STRING { if (listen_opts.tls_protocols) { yyerror("protocols already specified"); YYERROR; } listen_opts.tls_protocols = $2; } | PKI STRING { if (listen_opts.pkicount == PKI_MAX) { yyerror("too many pki specified"); YYERROR; } listen_opts.pki[listen_opts.pkicount++] = $2; } | CA STRING { if (listen_opts.options & LO_CA) { yyerror("ca already specified"); YYERROR; } listen_opts.options |= LO_CA; listen_opts.ca = $2; } | AUTH { if (listen_opts.options & LO_AUTH) { yyerror("auth already specified"); YYERROR; } listen_opts.options |= LO_AUTH; listen_opts.auth = F_AUTH|F_AUTH_REQUIRE; } | AUTH_OPTIONAL { if (listen_opts.options & LO_AUTH) { yyerror("auth already specified"); YYERROR; } listen_opts.options |= LO_AUTH; listen_opts.auth = F_AUTH; } | AUTH tables { if (listen_opts.options & LO_AUTH) { yyerror("auth already specified"); YYERROR; } listen_opts.options |= LO_AUTH; listen_opts.authtable = $2; listen_opts.auth = F_AUTH|F_AUTH_REQUIRE; } | AUTH_OPTIONAL tables { if (listen_opts.options & LO_AUTH) { yyerror("auth already specified"); YYERROR; } listen_opts.options |= LO_AUTH; listen_opts.authtable = $2; listen_opts.auth = F_AUTH; } | TAG STRING { if (listen_opts.options & LO_TAG) { yyerror("tag already specified"); YYERROR; } listen_opts.options |= LO_TAG; if (strlen($2) >= SMTPD_TAG_SIZE) { yyerror("tag name too long"); free($2); YYERROR; } listen_opts.tag = $2; } | HOSTNAME STRING { if (listen_opts.options & LO_HOSTNAME) { yyerror("hostname already specified"); YYERROR; } listen_opts.options |= LO_HOSTNAME; listen_opts.hostname = $2; } | HOSTNAMES tables { struct table *t = $2; if (listen_opts.options & LO_HOSTNAMES) { yyerror("hostnames already specified"); YYERROR; } listen_opts.options |= LO_HOSTNAMES; if (!table_check_use(t, T_DYNAMIC|T_HASH, K_ADDRNAME)) { yyerror("invalid use of table \"%s\" as " "HOSTNAMES parameter", t->t_name); YYERROR; } listen_opts.hostnametable = t; } | MASK_SRC { if (config_lo_mask_source(&listen_opts)) { YYERROR; } } | RECEIVEDAUTH { if (listen_opts.options & LO_RECEIVEDAUTH) { yyerror("received-auth already specified"); YYERROR; } listen_opts.options |= LO_RECEIVEDAUTH; listen_opts.flags |= F_RECEIVEDAUTH; } | NO_DSN { if (listen_opts.options & LO_NODSN) { yyerror("no-dsn already specified"); YYERROR; } listen_opts.options |= LO_NODSN; listen_opts.flags &= ~F_EXT_DSN; } | PROXY_V2 { if (listen_opts.options & LO_PROXY) { yyerror("proxy-v2 already specified"); YYERROR; } listen_opts.options |= LO_PROXY; listen_opts.flags |= F_PROXY; } | SENDERS tables { struct table *t = $2; if (listen_opts.options & LO_SENDERS) { yyerror("senders already specified"); YYERROR; } listen_opts.options |= LO_SENDERS; if (!table_check_use(t, T_DYNAMIC|T_HASH, K_MAILADDRMAP)) { yyerror("invalid use of table \"%s\" as " "SENDERS parameter", t->t_name); YYERROR; } listen_opts.sendertable = t; } | SENDERS tables MASQUERADE { struct table *t = $2; if (listen_opts.options & LO_SENDERS) { yyerror("senders already specified"); YYERROR; } listen_opts.options |= LO_SENDERS|LO_MASQUERADE; if (!table_check_use(t, T_DYNAMIC|T_HASH, K_MAILADDRMAP)) { yyerror("invalid use of table \"%s\" as " "SENDERS parameter", t->t_name); YYERROR; } listen_opts.sendertable = t; } ; listener_type : socket_listener | if_listener ; socket_listener : SOCKET sock_listen { if (conf->sc_sock_listener) { yyerror("socket listener already configured"); YYERROR; } create_sock_listener(&listen_opts); } ; if_listener : STRING if_listen { listen_opts.ifx = $1; create_if_listener(&listen_opts); } ; sock_listen : opt_sock_listen sock_listen | /* empty */ ; if_listen : opt_if_listen if_listen | /* empty */ ; listen : LISTEN { memset(&listen_opts, 0, sizeof listen_opts); listen_opts.family = AF_UNSPEC; listen_opts.flags |= F_EXT_DSN; } ON listener_type { free(listen_opts.tls_protocols); free(listen_opts.tls_ciphers); memset(&listen_opts, 0, sizeof listen_opts); } ; table : TABLE STRING STRING { char *p, *backend, *config; p = $3; if (*p == '/') { backend = "static"; config = $3; } else { backend = $3; config = NULL; for (p = $3; *p && *p != ':'; p++) ; if (*p == ':') { *p = '\0'; backend = $3; config = p+1; } } if (config != NULL && *config != '/') { yyerror("invalid backend parameter for table: %s", $2); free($2); free($3); YYERROR; } table = table_create(conf, backend, $2, config); if (!table_config(table)) { yyerror("invalid configuration file %s for table %s", config, table->t_name); free($2); free($3); YYERROR; } table = NULL; free($2); free($3); } | TABLE STRING { table = table_create(conf, "static", $2, NULL); free($2); } '{' tableval_list '}' { table = NULL; } ; tablenew : STRING { struct table *t; t = table_create(conf, "static", NULL, NULL); table_add(t, $1, NULL); free($1); $$ = t; } | '{' { table = table_create(conf, "static", NULL, NULL); } tableval_list '}' { $$ = table; table = NULL; } ; tableref : '<' STRING '>' { struct table *t; if ((t = table_find(conf, $2)) == NULL) { yyerror("no such table: %s", $2); free($2); YYERROR; } free($2); $$ = t; } ; tables : tablenew { $$ = $1; } | tableref { $$ = $1; } ; %% struct keywords { const char *k_name; int k_val; }; int yyerror(const char *fmt, ...) { va_list ap; char *msg; file->errors++; va_start(ap, fmt); if (vasprintf(&msg, fmt, ap) == -1) fatalx("yyerror vasprintf"); va_end(ap); logit(LOG_CRIT, "%s:%d: %s", file->name, yylval.lineno, msg); free(msg); return (0); } int kw_cmp(const void *k, const void *e) { return (strcmp(k, ((const struct keywords *)e)->k_name)); } int lookup(char *s) { /* this has to be sorted always */ static const struct keywords keywords[] = { { "action", ACTION }, { "admd", ADMD }, { "alias", ALIAS }, { "any", ANY }, { "auth", AUTH }, { "auth-optional", AUTH_OPTIONAL }, { "backup", BACKUP }, { "bounce", BOUNCE }, { "bypass", BYPASS }, { "ca", CA }, { "cert", CERT }, { "chain", CHAIN }, { "chroot", CHROOT }, { "ciphers", CIPHERS }, { "commit", COMMIT }, { "compression", COMPRESSION }, { "connect", CONNECT }, { "data", DATA }, { "data-line", DATA_LINE }, { "dhe", DHE }, { "disconnect", DISCONNECT }, { "domain", DOMAIN }, { "ehlo", EHLO }, { "encryption", ENCRYPTION }, { "expand-only", EXPAND_ONLY }, { "fcrdns", FCRDNS }, { "filter", FILTER }, { "for", FOR }, { "forward-only", FORWARD_ONLY }, { "from", FROM }, { "group", GROUP }, { "helo", HELO }, { "helo-src", HELO_SRC }, { "host", HOST }, { "hostname", HOSTNAME }, { "hostnames", HOSTNAMES }, { "include", INCLUDE }, { "inet4", INET4 }, { "inet6", INET6 }, { "junk", JUNK }, { "key", KEY }, { "limit", LIMIT }, { "listen", LISTEN }, { "lmtp", LMTP }, { "local", LOCAL }, { "mail-from", MAIL_FROM }, { "maildir", MAILDIR }, { "mask-src", MASK_SRC }, { "masquerade", MASQUERADE }, { "match", MATCH }, { "max-deferred", MAX_DEFERRED }, { "max-message-size", MAX_MESSAGE_SIZE }, { "mbox", MBOX }, { "mda", MDA }, { "mta", MTA }, { "mx", MX }, { "no-dsn", NO_DSN }, { "no-verify", NO_VERIFY }, { "noop", NOOP }, { "on", ON }, { "phase", PHASE }, { "pki", PKI }, { "port", PORT }, { "proc", PROC }, { "proc-exec", PROC_EXEC }, { "protocols", PROTOCOLS }, { "proxy-v2", PROXY_V2 }, { "queue", QUEUE }, { "quit", QUIT }, { "rcpt-to", RCPT_TO }, { "rdns", RDNS }, { "received-auth", RECEIVEDAUTH }, { "recipient", RECIPIENT }, { "regex", REGEX }, { "reject", REJECT }, { "relay", RELAY }, { "report", REPORT }, { "rewrite", REWRITE }, { "rset", RSET }, { "scheduler", SCHEDULER }, { "senders", SENDERS }, { "smtp", SMTP }, { "smtp-in", SMTP_IN }, { "smtp-out", SMTP_OUT }, { "smtps", SMTPS }, { "socket", SOCKET }, { "src", SRC }, { "srs", SRS }, { "sub-addr-delim", SUB_ADDR_DELIM }, { "table", TABLE }, { "tag", TAG }, { "tagged", TAGGED }, { "tls", TLS }, { "tls-require", TLS_REQUIRE }, { "ttl", TTL }, { "user", USER }, { "userbase", USERBASE }, { "verify", VERIFY }, { "virtual", VIRTUAL }, { "warn-interval", WARN_INTERVAL }, { "wrapper", WRAPPER }, }; const struct keywords *p; p = bsearch(s, keywords, sizeof(keywords)/sizeof(keywords[0]), sizeof(keywords[0]), kw_cmp); if (p) return (p->k_val); else return (STRING); } #define START_EXPAND 1 #define DONE_EXPAND 2 static int expanding; int igetc(void) { int c; while (1) { if (file->ungetpos > 0) c = file->ungetbuf[--file->ungetpos]; else c = getc(file->stream); if (c == START_EXPAND) expanding = 1; else if (c == DONE_EXPAND) expanding = 0; else break; } return (c); } int lgetc(int quotec) { int c, next; if (quotec) { if ((c = igetc()) == EOF) { yyerror("reached end of file while parsing " "quoted string"); if (file == topfile || popfile() == EOF) return (EOF); return (quotec); } return (c); } while ((c = igetc()) == '\\') { next = igetc(); if (next != '\n') { c = next; break; } yylval.lineno = file->lineno; file->lineno++; } if (c == EOF) { /* * Fake EOL when hit EOF for the first time. This gets line * count right if last line in included file is syntactically * invalid and has no newline. */ if (file->eof_reached == 0) { file->eof_reached = 1; return ('\n'); } while (c == EOF) { if (file == topfile || popfile() == EOF) return (EOF); c = igetc(); } } return (c); } void lungetc(int c) { if (c == EOF) return; if (file->ungetpos >= file->ungetsize) { void *p = reallocarray(file->ungetbuf, file->ungetsize, 2); if (p == NULL) fatal("%s", __func__); file->ungetbuf = p; file->ungetsize *= 2; } file->ungetbuf[file->ungetpos++] = c; } int findeol(void) { int c; /* skip to either EOF or the first real EOL */ while (1) { c = lgetc(0); if (c == '\n') { file->lineno++; break; } if (c == EOF) break; } return (ERROR); } int yylex(void) { char buf[8096]; char *p, *val; int quotec, next, c; int token; top: p = buf; while ((c = lgetc(0)) == ' ' || c == '\t') ; /* nothing */ yylval.lineno = file->lineno; if (c == '#') while ((c = lgetc(0)) != '\n' && c != EOF) ; /* nothing */ if (c == '$' && !expanding) { while (1) { if ((c = lgetc(0)) == EOF) return (0); if (p + 1 >= buf + sizeof(buf) - 1) { yyerror("string too long"); return (findeol()); } if (isalnum(c) || c == '_') { *p++ = c; continue; } *p = '\0'; lungetc(c); break; } val = symget(buf); if (val == NULL) { yyerror("macro '%s' not defined", buf); return (findeol()); } p = val + strlen(val) - 1; lungetc(DONE_EXPAND); while (p >= val) { lungetc((unsigned char)*p); p--; } lungetc(START_EXPAND); goto top; } switch (c) { case '\'': case '"': quotec = c; while (1) { if ((c = lgetc(quotec)) == EOF) return (0); if (c == '\n') { file->lineno++; continue; } else if (c == '\\') { if ((next = lgetc(quotec)) == EOF) return (0); if (next == quotec || next == ' ' || next == '\t') c = next; else if (next == '\n') { file->lineno++; continue; } else lungetc(next); } else if (c == quotec) { *p = '\0'; break; } else if (c == '\0') { yyerror("syntax error"); return (findeol()); } if (p + 1 >= buf + sizeof(buf) - 1) { yyerror("string too long"); return (findeol()); } *p++ = c; } yylval.v.string = strdup(buf); if (yylval.v.string == NULL) fatal("%s", __func__); return (STRING); } #define allowed_to_end_number(x) \ (isspace(x) || x == ')' || x ==',' || x == '/' || x == '}' || x == '=') if (c == '-' || isdigit(c)) { do { *p++ = c; if ((size_t)(p-buf) >= sizeof(buf)) { yyerror("string too long"); return (findeol()); } } while ((c = lgetc(0)) != EOF && isdigit(c)); lungetc(c); if (p == buf + 1 && buf[0] == '-') goto nodigits; if (c == EOF || allowed_to_end_number(c)) { const char *errstr = NULL; *p = '\0'; yylval.v.number = strtonum(buf, LLONG_MIN, LLONG_MAX, &errstr); if (errstr) { yyerror("\"%s\" invalid number: %s", buf, errstr); return (findeol()); } return (NUMBER); } else { nodigits: while (p > buf + 1) lungetc((unsigned char)*--p); c = (unsigned char)*--p; if (c == '-') return (c); } } if (c == '=') { if ((c = lgetc(0)) != EOF && c == '>') return (ARROW); lungetc(c); c = '='; } #define allowed_in_string(x) \ (isalnum(x) || (ispunct(x) && x != '(' && x != ')' && \ x != '{' && x != '}' && x != '<' && x != '>' && \ x != '!' && x != '=' && x != '#' && \ x != ',')) if (isalnum(c) || c == ':' || c == '_') { do { *p++ = c; if ((size_t)(p-buf) >= sizeof(buf)) { yyerror("string too long"); return (findeol()); } } while ((c = lgetc(0)) != EOF && (allowed_in_string(c))); lungetc(c); *p = '\0'; if ((token = lookup(buf)) == STRING) if ((yylval.v.string = strdup(buf)) == NULL) fatal("%s", __func__); return (token); } if (c == '\n') { yylval.lineno = file->lineno; file->lineno++; } if (c == EOF) return (0); return (c); } int check_file_secrecy(int fd, const char *fname) { struct stat st; if (fstat(fd, &st)) { log_warn("warn: cannot stat %s", fname); return (-1); } if (st.st_uid != 0 && st.st_uid != getuid()) { log_warnx("warn: %s: owner not root or current user", fname); return (-1); } if (st.st_mode & (S_IWGRP | S_IXGRP | S_IRWXO)) { log_warnx("warn: %s: group/world readable/writeable", fname); return (-1); } return (0); } struct file * pushfile(const char *name, int secret) { struct file *nfile; if ((nfile = calloc(1, sizeof(struct file))) == NULL) { log_warn("%s", __func__); return (NULL); } if ((nfile->name = strdup(name)) == NULL) { log_warn("%s", __func__); free(nfile); return (NULL); } if ((nfile->stream = fopen(nfile->name, "r")) == NULL) { log_warn("%s: %s", __func__, nfile->name); free(nfile->name); free(nfile); return (NULL); } else if (secret && check_file_secrecy(fileno(nfile->stream), nfile->name)) { fclose(nfile->stream); free(nfile->name); free(nfile); return (NULL); } nfile->lineno = TAILQ_EMPTY(&files) ? 1 : 0; nfile->ungetsize = 16; nfile->ungetbuf = malloc(nfile->ungetsize); if (nfile->ungetbuf == NULL) { log_warn("%s", __func__); fclose(nfile->stream); free(nfile->name); free(nfile); return (NULL); } TAILQ_INSERT_TAIL(&files, nfile, entry); return (nfile); } int popfile(void) { struct file *prev; if ((prev = TAILQ_PREV(file, files, entry)) != NULL) prev->errors += file->errors; TAILQ_REMOVE(&files, file, entry); fclose(file->stream); free(file->name); free(file->ungetbuf); free(file); file = prev; return (file ? 0 : EOF); } int parse_config(struct smtpd *x_conf, const char *filename, int opts) { struct sym *sym, *next; conf = x_conf; errors = 0; if ((file = pushfile(filename, 0)) == NULL) { purge_config(PURGE_EVERYTHING); return (-1); } topfile = file; /* * parse configuration */ setservent(1); yyparse(); errors = file->errors; popfile(); endservent(); /* If the socket listener was not configured, create a default one. */ if (!conf->sc_sock_listener) { memset(&listen_opts, 0, sizeof listen_opts); create_sock_listener(&listen_opts); } /* Free macros and check which have not been used. */ TAILQ_FOREACH_SAFE(sym, &symhead, entry, next) { if ((conf->sc_opts & SMTPD_OPT_VERBOSE) && !sym->used) fprintf(stderr, "warning: macro '%s' not " "used\n", sym->nam); if (!sym->persist) { free(sym->nam); free(sym->val); TAILQ_REMOVE(&symhead, sym, entry); free(sym); } } if (TAILQ_EMPTY(conf->sc_rules)) { log_warnx("warn: no rules, nothing to do"); errors++; } if (errors) { purge_config(PURGE_EVERYTHING); return (-1); } return (0); } int symset(const char *nam, const char *val, int persist) { struct sym *sym; TAILQ_FOREACH(sym, &symhead, entry) { if (strcmp(nam, sym->nam) == 0) break; } if (sym != NULL) { if (sym->persist == 1) return (0); else { free(sym->nam); free(sym->val); TAILQ_REMOVE(&symhead, sym, entry); free(sym); } } if ((sym = calloc(1, sizeof(*sym))) == NULL) return (-1); sym->nam = strdup(nam); if (sym->nam == NULL) { free(sym); return (-1); } sym->val = strdup(val); if (sym->val == NULL) { free(sym->nam); free(sym); return (-1); } sym->used = 0; sym->persist = persist; TAILQ_INSERT_TAIL(&symhead, sym, entry); return (0); } int cmdline_symset(char *s) { char *sym, *val; int ret; if ((val = strrchr(s, '=')) == NULL) return (-1); sym = strndup(s, val - s); if (sym == NULL) fatalx("%s: strndup", __func__); ret = symset(sym, val + 1, 1); free(sym); return (ret); } char * symget(const char *nam) { struct sym *sym; TAILQ_FOREACH(sym, &symhead, entry) { if (strcmp(nam, sym->nam) == 0) { sym->used = 1; return (sym->val); } } return (NULL); } static void create_sock_listener(struct listen_opts *lo) { struct listener *l = xcalloc(1, sizeof(*l)); lo->hostname = conf->sc_hostname; l->ss.ss_family = AF_LOCAL; l->ss.ss_len = sizeof(struct sockaddr *); l->local = 1; conf->sc_sock_listener = l; config_listener(l, lo); } static void create_if_listener(struct listen_opts *lo) { uint16_t flags; if (lo->port != 0 && lo->ssl == F_SSL) fatalx("invalid listen option: tls/smtps on same port"); if (lo->auth != 0 && !lo->ssl) fatalx("invalid listen option: auth requires tls/smtps"); if (lo->pkicount && !lo->ssl) fatalx("invalid listen option: pki requires tls/smtps"); if (lo->pkicount == 0 && lo->ssl) fatalx("invalid listen option: pki required for tls/smtps"); flags = lo->flags; if (lo->port) { lo->flags = lo->ssl|lo->auth|flags; lo->port = htons(lo->port); } else { if (lo->ssl & F_SMTPS) { lo->port = htons(465); lo->flags = F_SMTPS|lo->auth|flags; } if (!lo->ssl || (lo->ssl & F_STARTTLS)) { lo->port = htons(25); lo->flags = lo->auth|flags; if (lo->ssl & F_STARTTLS) lo->flags |= F_STARTTLS; } } if (interface(lo)) return; if (host_v4(lo)) return; if (host_v6(lo)) return; if (host_dns(lo)) return; fatalx("invalid virtual ip or interface: %s", lo->ifx); } static void config_listener(struct listener *h, struct listen_opts *lo) { int i; h->fd = -1; h->port = lo->port; h->flags = lo->flags; if (lo->hostname == NULL) lo->hostname = conf->sc_hostname; if (lo->options & LO_FILTER) { h->flags |= F_FILTERED; (void)strlcpy(h->filter_name, lo->filtername, sizeof(h->filter_name)); } if (lo->authtable != NULL) (void)strlcpy(h->authtable, lo->authtable->t_name, sizeof(h->authtable)); h->pkicount = lo->pkicount; if (h->pkicount) { h->pki = calloc(h->pkicount, sizeof(*h->pki)); if (h->pki == NULL) fatal("calloc"); } for (i = 0; i < lo->pkicount; i++) { h->pki[i] = dict_get(conf->sc_pki_dict, lo->pki[i]); if (h->pki[i] == NULL) { log_warnx("pki name not found: %s", lo->pki[i]); fatalx(NULL); } } if (lo->tls_ciphers != NULL && (h->tls_ciphers = strdup(lo->tls_ciphers)) == NULL) { fatal("strdup"); } if (lo->tls_protocols != NULL && (h->tls_protocols = strdup(lo->tls_protocols)) == NULL) { fatal("strdup"); } if (lo->ca != NULL) { if (!lowercase(h->ca_name, lo->ca, sizeof(h->ca_name))) { log_warnx("ca name too long: %s", lo->ca); fatalx(NULL); } if (dict_get(conf->sc_ca_dict, h->ca_name) == NULL) { log_warnx("ca name not found: %s", lo->ca); fatalx(NULL); } } if (lo->tag != NULL) (void)strlcpy(h->tag, lo->tag, sizeof(h->tag)); (void)strlcpy(h->hostname, lo->hostname, sizeof(h->hostname)); if (lo->hostnametable) (void)strlcpy(h->hostnametable, lo->hostnametable->t_name, sizeof(h->hostnametable)); if (lo->sendertable) { (void)strlcpy(h->sendertable, lo->sendertable->t_name, sizeof(h->sendertable)); if (lo->options & LO_MASQUERADE) h->flags |= F_MASQUERADE; } if (lo->ssl & F_TLS_VERIFY) h->flags |= F_TLS_VERIFY; if (lo->ssl & F_STARTTLS_REQUIRE) h->flags |= F_STARTTLS_REQUIRE; if (h != conf->sc_sock_listener) TAILQ_INSERT_TAIL(conf->sc_listeners, h, entry); } static int host_v4(struct listen_opts *lo) { struct in_addr ina; struct sockaddr_in *sain; struct listener *h; if (lo->family != AF_UNSPEC && lo->family != AF_INET) return (0); memset(&ina, 0, sizeof(ina)); if (inet_pton(AF_INET, lo->ifx, &ina) != 1) return (0); h = xcalloc(1, sizeof(*h)); sain = (struct sockaddr_in *)&h->ss; sain->sin_len = sizeof(struct sockaddr_in); sain->sin_family = AF_INET; sain->sin_addr.s_addr = ina.s_addr; sain->sin_port = lo->port; if (sain->sin_addr.s_addr == htonl(INADDR_LOOPBACK)) h->local = 1; config_listener(h, lo); return (1); } static int host_v6(struct listen_opts *lo) { struct in6_addr ina6; struct sockaddr_in6 *sin6; struct listener *h; if (lo->family != AF_UNSPEC && lo->family != AF_INET6) return (0); memset(&ina6, 0, sizeof(ina6)); if (inet_pton(AF_INET6, lo->ifx, &ina6) != 1) return (0); h = xcalloc(1, sizeof(*h)); sin6 = (struct sockaddr_in6 *)&h->ss; sin6->sin6_len = sizeof(struct sockaddr_in6); sin6->sin6_family = AF_INET6; sin6->sin6_port = lo->port; memcpy(&sin6->sin6_addr, &ina6, sizeof(ina6)); if (IN6_IS_ADDR_LOOPBACK(&sin6->sin6_addr)) h->local = 1; config_listener(h, lo); return (1); } static int host_dns(struct listen_opts *lo) { struct addrinfo hints, *res0, *res; int error, cnt = 0; struct sockaddr_in *sain; struct sockaddr_in6 *sin6; struct listener *h; memset(&hints, 0, sizeof(hints)); hints.ai_family = lo->family; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_ADDRCONFIG; error = getaddrinfo(lo->ifx, NULL, &hints, &res0); if (error == EAI_AGAIN || error == EAI_NODATA || error == EAI_NONAME) return (0); if (error) { log_warnx("warn: host_dns: could not parse \"%s\": %s", lo->ifx, gai_strerror(error)); return (-1); } for (res = res0; res; res = res->ai_next) { if (res->ai_family != AF_INET && res->ai_family != AF_INET6) continue; h = xcalloc(1, sizeof(*h)); h->ss.ss_family = res->ai_family; if (res->ai_family == AF_INET) { sain = (struct sockaddr_in *)&h->ss; sain->sin_len = sizeof(struct sockaddr_in); sain->sin_addr.s_addr = ((struct sockaddr_in *) res->ai_addr)->sin_addr.s_addr; sain->sin_port = lo->port; if (sain->sin_addr.s_addr == htonl(INADDR_LOOPBACK)) h->local = 1; } else { sin6 = (struct sockaddr_in6 *)&h->ss; sin6->sin6_len = sizeof(struct sockaddr_in6); memcpy(&sin6->sin6_addr, &((struct sockaddr_in6 *) res->ai_addr)->sin6_addr, sizeof(struct in6_addr)); sin6->sin6_port = lo->port; if (IN6_IS_ADDR_LOOPBACK(&sin6->sin6_addr)) h->local = 1; } config_listener(h, lo); cnt++; } freeaddrinfo(res0); return (cnt); } static int interface(struct listen_opts *lo) { struct ifaddrs *ifap, *p; struct sockaddr_in *sain; struct sockaddr_in6 *sin6; struct listener *h; int ret = 0; if (getifaddrs(&ifap) == -1) fatal("getifaddrs"); for (p = ifap; p != NULL; p = p->ifa_next) { if (p->ifa_addr == NULL) continue; if (strcmp(p->ifa_name, lo->ifx) != 0 && !is_if_in_group(p->ifa_name, lo->ifx)) continue; if (lo->family != AF_UNSPEC && lo->family != p->ifa_addr->sa_family) continue; h = xcalloc(1, sizeof(*h)); switch (p->ifa_addr->sa_family) { case AF_INET: sain = (struct sockaddr_in *)&h->ss; *sain = *(struct sockaddr_in *)p->ifa_addr; sain->sin_len = sizeof(struct sockaddr_in); sain->sin_port = lo->port; if (sain->sin_addr.s_addr == htonl(INADDR_LOOPBACK)) h->local = 1; break; case AF_INET6: sin6 = (struct sockaddr_in6 *)&h->ss; *sin6 = *(struct sockaddr_in6 *)p->ifa_addr; sin6->sin6_len = sizeof(struct sockaddr_in6); sin6->sin6_port = lo->port; #ifdef __KAME__ if ((IN6_IS_ADDR_LINKLOCAL(&sin6->sin6_addr) || IN6_IS_ADDR_MC_LINKLOCAL(&sin6->sin6_addr) || IN6_IS_ADDR_MC_INTFACELOCAL(&sin6->sin6_addr)) && sin6->sin6_scope_id == 0) { sin6->sin6_scope_id = ntohs( *(u_int16_t *)&sin6->sin6_addr.s6_addr[2]); sin6->sin6_addr.s6_addr[2] = 0; sin6->sin6_addr.s6_addr[3] = 0; } #endif if (IN6_IS_ADDR_LOOPBACK(&sin6->sin6_addr)) h->local = 1; break; default: free(h); continue; } config_listener(h, lo); ret = 1; } freeifaddrs(ifap); return ret; } int delaytonum(char *str) { unsigned int factor; size_t len; const char *errstr = NULL; int delay; /* we need at least 1 digit and 1 unit */ len = strlen(str); if (len < 2) goto bad; switch(str[len - 1]) { case 's': factor = 1; break; case 'm': factor = 60; break; case 'h': factor = 60 * 60; break; case 'd': factor = 24 * 60 * 60; break; default: goto bad; } str[len - 1] = '\0'; delay = strtonum(str, 1, INT_MAX / factor, &errstr); if (errstr) goto bad; return (delay * factor); bad: return (-1); } int is_if_in_group(const char *ifname, const char *groupname) { unsigned int len; struct ifgroupreq ifgr; struct ifg_req *ifg; int s; int ret = 0; if ((s = socket(AF_INET, SOCK_DGRAM, 0)) == -1) fatal("socket"); memset(&ifgr, 0, sizeof(ifgr)); if (strlcpy(ifgr.ifgr_name, ifname, IFNAMSIZ) >= IFNAMSIZ) fatalx("interface name too large"); if (ioctl(s, SIOCGIFGROUP, (caddr_t)&ifgr) == -1) { if (errno == EINVAL || errno == ENOTTY) goto end; fatal("SIOCGIFGROUP"); } len = ifgr.ifgr_len; ifgr.ifgr_groups = xcalloc(len/sizeof(struct ifg_req), sizeof(struct ifg_req)); if (ioctl(s, SIOCGIFGROUP, (caddr_t)&ifgr) == -1) fatal("SIOCGIFGROUP"); ifg = ifgr.ifgr_groups; for (; ifg && len >= sizeof(struct ifg_req); ifg++) { len -= sizeof(struct ifg_req); if (strcmp(ifg->ifgrq_group, groupname) == 0) { ret = 1; break; } } free(ifgr.ifgr_groups); end: close(s); return ret; } static int config_lo_mask_source(struct listen_opts *lo) { if (lo->options & LO_MASKSOURCE) { yyerror("mask-source already specified"); return -1; } lo->options |= LO_MASKSOURCE; lo->flags |= F_MASK_SOURCE; return 0; }