/* $OpenBSD: parse.y,v 1.82 2007/11/19 14:48:19 reyk Exp $ */ /* * Copyright (c) 2006 Pierre-Yves Ritschard * Copyright (c) 2004, 2005 Esben Norby * Copyright (c) 2004 Ryan McBride * 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 #include #include #include #include #include #include #include "hoststated.h" TAILQ_HEAD(files, file) files = TAILQ_HEAD_INITIALIZER(files); static struct file { TAILQ_ENTRY(file) entry; FILE *stream; char *name; int lineno; int errors; } *file; struct file *pushfile(const char *, int); int popfile(void); int check_file_secrecy(int, const char *); int yyparse(void); int yylex(void); int yyerror(const char *, ...); int kw_cmp(const void *, const void *); int lookup(char *); int lgetc(int); int lungetc(int); int findeol(void); 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 hoststated *conf = NULL; static int errors = 0; objid_t last_service_id = 0; objid_t last_table_id = 0; objid_t last_host_id = 0; objid_t last_relay_id = 0; objid_t last_proto_id = 0; static struct service *service = NULL; static struct table *table = NULL; static struct relay *rlay = NULL; static struct protocol *proto = NULL; static struct protonode node; struct address *host_v4(const char *); struct address *host_v6(const char *); int host_dns(const char *, struct addresslist *, int, in_port_t, const char *); int host(const char *, struct addresslist *, int, in_port_t, const char *); struct table *table_inherit(const char *, in_port_t); typedef struct { union { int64_t number; char *string; struct host *host; struct timeval tv; } v; int lineno; } YYSTYPE; %} %token SERVICE TABLE BACKUP HOST REAL INCLUDE %token CHECK TCP ICMP EXTERNAL REQUEST RESPONSE %token TIMEOUT CODE DIGEST PORT TAG INTERFACE %token VIRTUAL INTERVAL DISABLE STICKYADDR BACKLOG PATH SCRIPT %token SEND EXPECT NOTHING SSL LOADBALANCE ROUNDROBIN CIPHERS COOKIE %token RELAY LISTEN ON FORWARD TO NAT LOOKUP PREFORK NO MARK MARKED %token PROTO SESSION CACHE APPEND CHANGE REMOVE FROM FILTER HASH HEADER %token LOG UPDATES ALL DEMOTE NODELAY SACK SOCKET BUFFER URL RETRY IP %token ERROR %token STRING %token NUMBER %type interface hostname %type port http_type loglevel sslcache optssl dstport %type proto_type dstmode docheck retry log flag direction %type host %type timeout %% grammar : /* empty */ | grammar include '\n' | grammar '\n' | grammar varset '\n' | grammar main '\n' | grammar service '\n' | grammar table '\n' | grammar relay '\n' | grammar proto '\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'); } optssl : /*empty*/ { $$ = 0; } | SSL { $$ = 1; } ; http_type : STRING { if (strcmp("https", $1) == 0) { $$ = 1; } else if (strcmp("http", $1) == 0) { $$ = 0; } else { yyerror("invalid check type: %s", $1); free($1); YYERROR; } free($1); } ; hostname : /* empty */ { $$ = strdup(""); if ($$ == NULL) fatal("calloc"); } | HOST STRING { if (asprintf(&$$, "Host: %s\r\n", $2) == -1) fatal("asprintf"); } ; proto_type : TCP { $$ = RELAY_PROTO_TCP; } | STRING { if (strcmp("http", $1) == 0) { $$ = RELAY_PROTO_HTTP; } else if (strcmp("dns", $1) == 0) { $$ = RELAY_PROTO_DNS; } else { yyerror("invalid protocol type: %s", $1); free($1); YYERROR; } free($1); } ; port : PORT STRING { struct servent *servent; servent = getservbyname($2, "tcp"); if (servent == NULL) { yyerror("port %s is invalid", $2); free($2); YYERROR; } $$ = servent->s_port; free($2); } | PORT NUMBER { if ($2 <= 0 || $2 >= (int)USHRT_MAX) { yyerror("invalid port: %d", $2); YYERROR; } $$ = htons($2); } ; varset : STRING '=' STRING { if (symset($1, $3, 0) == -1) fatal("cannot store variable"); free($1); free($3); } ; sendbuf : NOTHING { table->sendbuf = NULL; table->sendbuf_len = 0; } | STRING { table->sendbuf = strdup($1); if (table->sendbuf == NULL) fatal("out of memory"); table->sendbuf_len = strlen(table->sendbuf); free($1); } ; main : INTERVAL NUMBER { if ((conf->interval.tv_sec = $2) < 0) { yyerror("invalid interval: %d", $2); YYERROR; } } | LOG loglevel { conf->opts |= $2; } | TIMEOUT timeout { bcopy(&$2, &conf->timeout, sizeof(struct timeval)); } | PREFORK NUMBER { if ($2 <= 0 || $2 > RELAY_MAXPROC) { yyerror("invalid number of preforked " "relays: %d", $2); YYERROR; } conf->prefork_relay = $2; } | DEMOTE STRING { conf->flags |= F_DEMOTE; if (strlcpy(conf->demote_group, $2, sizeof(conf->demote_group)) >= sizeof(conf->demote_group)) { yyerror("yyparse: demote group name too long"); free($2); YYERROR; } free($2); if (carp_demote_init(conf->demote_group, 1) == -1) { yyerror("yyparse: error initializing group %s", conf->demote_group); YYERROR; } } ; loglevel : UPDATES { $$ = HOSTSTATED_OPT_LOGUPDATE; } | ALL { $$ = HOSTSTATED_OPT_LOGALL; } ; service : SERVICE STRING { struct service *srv; TAILQ_FOREACH(srv, conf->services, entry) if (!strcmp(srv->conf.name, $2)) break; if (srv != NULL) { yyerror("service %s defined twice", $2); free($2); YYERROR; } if ((srv = calloc(1, sizeof (*srv))) == NULL) fatal("out of memory"); if (strlcpy(srv->conf.name, $2, sizeof(srv->conf.name)) >= sizeof(srv->conf.name)) { yyerror("service name truncated"); YYERROR; } free($2); srv->conf.id = last_service_id++; if (last_service_id == INT_MAX) { yyerror("too many services defined"); YYERROR; } service = srv; } '{' optnl serviceopts_l '}' { if (service->table == NULL) { yyerror("service %s has no table", service->conf.name); YYERROR; } if (TAILQ_EMPTY(&service->virts)) { yyerror("service %s has no virtual ip", service->conf.name); YYERROR; } conf->servicecount++; if (service->backup == NULL) { service->conf.backup_id = conf->empty_table.conf.id; service->backup = &conf->empty_table; } else if (service->backup->conf.port != service->table->conf.port) { yyerror("service %s uses two different ports " "for its table and backup table", service->conf.name); YYERROR; } if (!(service->conf.flags & F_DISABLE)) service->conf.flags |= F_ADD; TAILQ_INSERT_HEAD(conf->services, service, entry); } ; serviceopts_l : serviceopts_l serviceoptsl nl | serviceoptsl optnl ; serviceoptsl : TABLE STRING dstport { struct table *tb; in_port_t port; port = $3; if (port == 0) port = service->conf.port; if ((tb = table_inherit($2, port)) == NULL) { free($2); YYERROR; } free($2); service->table = tb; service->conf.table_id = tb->conf.id; service->table->conf.serviceid = service->conf.id; service->table->conf.flags |= F_USED; } | BACKUP TABLE STRING dstport { struct table *tb; in_port_t port; if (service->backup) { yyerror("backup already specified"); free($3); YYERROR; } port = $4; if (port == 0) port = service->conf.port; if ((tb = table_inherit($3, port)) == NULL) { free($3); YYERROR; } free($3); service->backup = tb; service->conf.backup_id = tb->conf.id; service->backup->conf.serviceid = service->conf.id; service->backup->conf.flags |= (F_USED|F_BACKUP); } | VIRTUAL HOST STRING port interface { if (host($3, &service->virts, SRV_MAX_VIRTS, $4, $5) <= 0) { yyerror("invalid virtual ip: %s", $3); free($3); free($5); YYERROR; } free($3); free($5); if (service->conf.port == 0) service->conf.port = $4; } | DISABLE { service->conf.flags |= F_DISABLE; } | STICKYADDR { service->conf.flags |= F_STICKY; } | TAG STRING { if (strlcpy(service->conf.tag, $2, sizeof(service->conf.tag)) >= sizeof(service->conf.tag)) { yyerror("service tag name truncated"); free($2); YYERROR; } free($2); } ; table : TABLE STRING { struct table *tb; TAILQ_FOREACH(tb, conf->tables, entry) if (!strcmp(tb->conf.name, $2)) break; if (tb != NULL) { yyerror("table %s defined twice", $2); free($2); YYERROR; } if ((tb = calloc(1, sizeof (*tb))) == NULL) fatal("out of memory"); if (strlcpy(tb->conf.name, $2, sizeof(tb->conf.name)) >= sizeof(tb->conf.name)) { yyerror("table name truncated"); YYERROR; } tb->conf.id = last_table_id++; bcopy(&conf->timeout, &tb->conf.timeout, sizeof(struct timeval)); if (last_table_id == INT_MAX) { yyerror("too many tables defined"); YYERROR; } free($2); table = tb; } '{' optnl tableopts_l '}' { if (TAILQ_EMPTY(&table->hosts)) { yyerror("table %s has no hosts", table->conf.name); YYERROR; } if (table->conf.check == CHECK_NOCHECK) { yyerror("table %s has no check", table->conf.name); YYERROR; } conf->tablecount++; TAILQ_INSERT_HEAD(conf->tables, table, entry); } ; tableopts_l : tableopts_l tableoptsl nl | tableoptsl optnl ; tableoptsl : host { $1->conf.tableid = table->conf.id; $1->tablename = table->conf.name; TAILQ_INSERT_HEAD(&table->hosts, $1, entry); } | TIMEOUT timeout { bcopy(&$2, &table->conf.timeout, sizeof(struct timeval)); } | CHECK ICMP { table->conf.check = CHECK_ICMP; } | CHECK TCP { table->conf.check = CHECK_TCP; } | CHECK SSL { table->conf.check = CHECK_TCP; conf->flags |= F_SSL; table->conf.flags |= F_SSL; } | CHECK http_type STRING hostname CODE NUMBER { if ($2) { conf->flags |= F_SSL; table->conf.flags |= F_SSL; } table->conf.check = CHECK_HTTP_CODE; if ((table->conf.retcode = $6) <= 0) { yyerror("invalid HTTP code: %d", $6); free($3); free($4); YYERROR; } if (asprintf(&table->sendbuf, "HEAD %s HTTP/1.0\r\n%s\r\n", $3, $4) == -1) fatal("asprintf"); free($3); free($4); if (table->sendbuf == NULL) fatal("out of memory"); table->sendbuf_len = strlen(table->sendbuf); } | CHECK http_type STRING hostname DIGEST STRING { if ($2) { conf->flags |= F_SSL; table->conf.flags |= F_SSL; } table->conf.check = CHECK_HTTP_DIGEST; if (asprintf(&table->sendbuf, "GET %s HTTP/1.0\r\n%s\r\n", $3, $4) == -1) fatal("asprintf"); free($3); free($4); if (table->sendbuf == NULL) fatal("out of memory"); table->sendbuf_len = strlen(table->sendbuf); if (strlcpy(table->conf.digest, $6, sizeof(table->conf.digest)) >= sizeof(table->conf.digest)) { yyerror("http digest truncated"); free($6); YYERROR; } free($6); } | CHECK SEND sendbuf EXPECT STRING optssl { table->conf.check = CHECK_SEND_EXPECT; if ($6) { conf->flags |= F_SSL; table->conf.flags |= F_SSL; } if (strlcpy(table->conf.exbuf, $5, sizeof(table->conf.exbuf)) >= sizeof(table->conf.exbuf)) { yyerror("yyparse: expect buffer truncated"); free($5); YYERROR; } translate_string(table->conf.exbuf); free($5); } | CHECK SCRIPT STRING { table->conf.check = CHECK_SCRIPT; if (strlcpy(table->conf.path, $3, sizeof(table->conf.path)) >= sizeof(table->conf.path)) { yyerror("script path truncated"); free($3); YYERROR; } free($3); } | REAL port { table->conf.port = $2; } | DEMOTE STRING { table->conf.flags |= F_DEMOTE; if (strlcpy(table->conf.demote_group, $2, sizeof(table->conf.demote_group)) >= sizeof(table->conf.demote_group)) { yyerror("yyparse: demote group name too long"); free($2); YYERROR; } free($2); if (carp_demote_init(table->conf.demote_group, 1) == -1) { yyerror("yyparse: error initializing group " "'%s'", table->conf.demote_group); YYERROR; } } | DISABLE { table->conf.flags |= F_DISABLE; } ; proto : PROTO STRING { struct protocol *p; if (strcmp($2, "default") == 0) { p = &conf->proto_default; } else { TAILQ_FOREACH(p, conf->protos, entry) if (!strcmp(p->name, $2)) break; } if (p != NULL) { yyerror("protocol %s defined twice", $2); free($2); YYERROR; } if ((p = calloc(1, sizeof (*p))) == NULL) fatal("out of memory"); if (strlcpy(p->name, $2, sizeof(p->name)) >= sizeof(p->name)) { yyerror("protocol name truncated"); YYERROR; } free($2); p->id = last_proto_id++; p->cache = RELAY_CACHESIZE; p->type = RELAY_PROTO_TCP; p->tcpflags = TCPFLAG_DEFAULT; p->sslflags = SSLFLAG_DEFAULT; p->tcpbacklog = RELAY_BACKLOG; (void)strlcpy(p->sslciphers, SSLCIPHERS_DEFAULT, sizeof(p->sslciphers)); if (last_proto_id == INT_MAX) { yyerror("too many protocols defined"); YYERROR; } RB_INIT(&p->request_tree); RB_INIT(&p->response_tree); proto = p; } '{' optnl protopts_l '}' { conf->protocount++; if ((proto->sslflags & SSLFLAG_VERSION) == 0) { yyerror("invalid SSL protocol"); YYERROR; } TAILQ_INSERT_HEAD(conf->protos, proto, entry); } ; protopts_l : protopts_l protoptsl nl | protoptsl optnl ; protoptsl : SSL sslflags | SSL '{' sslflags_l '}' | TCP tcpflags | TCP '{' tcpflags_l '}' | PROTO proto_type { proto->type = $2; } | direction protonode log { struct protonode *pn, *proot, pk; struct proto_tree *tree; if ($1 == RELAY_DIR_RESPONSE) tree = &proto->response_tree; else tree = &proto->request_tree; if ((pn = calloc(1, sizeof (*pn))) == NULL) fatal("out of memory"); bcopy(&node, pn, sizeof(*pn)); pn->key = node.key; pn->value = node.value; pn->type = node.type; SIMPLEQ_INIT(&pn->head); if ($1 == RELAY_DIR_RESPONSE) pn->id = proto->response_nodes++; else pn->id = proto->request_nodes++; if ($3) pn->flags |= PNFLAG_LOG; if (pn->id == INT_MAX) { yyerror("too many protocol nodes defined"); YYERROR; } if ((proot = RB_INSERT(proto_tree, tree, pn)) != NULL) { /* * A protocol node with the same key already * exists, append it to a queue behind the * existing node. */ if (SIMPLEQ_EMPTY(&proot->head)) SIMPLEQ_NEXT(proot, entry) = pn; SIMPLEQ_INSERT_TAIL(&proot->head, pn, entry); } if (node.type == NODE_TYPE_COOKIE) pk.key = "Cookie"; else pk.key = "GET"; if (node.type != NODE_TYPE_HEADER) { pk.type = NODE_TYPE_HEADER; pn = RB_FIND(proto_tree, tree, &pk); if (pn == NULL) { if ((pn = (struct protonode *) calloc(1, sizeof(*pn))) == NULL) fatal("out of memory"); pn->key = strdup(pk.key); if (pn->key == NULL) fatal("out of memory"); pn->value = NULL; pn->action = NODE_ACTION_NONE; pn->type = pk.type; if ($1 == RELAY_DIR_RESPONSE) pn->id = proto->response_nodes++; else pn->id = proto->request_nodes++; if (pn->id == INT_MAX) { yyerror("too many protocol " "nodes defined"); YYERROR; } RB_INSERT(proto_tree, tree, pn); } switch (node.type) { case NODE_TYPE_URL: pn->flags |= PNFLAG_LOOKUP_URL; break; case NODE_TYPE_COOKIE: pn->flags |= PNFLAG_LOOKUP_COOKIE; break; default: break; } } bzero(&node, sizeof(node)); } ; direction : /* empty */ { $$ = RELAY_DIR_REQUEST; } | REQUEST { $$ = RELAY_DIR_REQUEST; } | RESPONSE { $$ = RELAY_DIR_RESPONSE; } ; tcpflags_l : tcpflags comma tcpflags_l | tcpflags ; tcpflags : SACK { proto->tcpflags |= TCPFLAG_SACK; } | NO SACK { proto->tcpflags |= TCPFLAG_NSACK; } | NODELAY { proto->tcpflags |= TCPFLAG_NODELAY; } | NO NODELAY { proto->tcpflags |= TCPFLAG_NNODELAY; } | BACKLOG NUMBER { if ($2 < 0 || $2 > RELAY_MAX_SESSIONS) { yyerror("invalid backlog: %d", $2); YYERROR; } proto->tcpbacklog = $2; } | SOCKET BUFFER NUMBER { proto->tcpflags |= TCPFLAG_BUFSIZ; if ((proto->tcpbufsiz = $3) < 0) { yyerror("invalid socket buffer size: %d", $3); YYERROR; } } | IP STRING NUMBER { if ($3 < 0) { yyerror("invalid ttl: %d", $3); free($2); YYERROR; } if (strcasecmp("ttl", $2) == 0) { proto->tcpflags |= TCPFLAG_IPTTL; proto->tcpipttl = $3; } else if (strcasecmp("minttl", $2) == 0) { proto->tcpflags |= TCPFLAG_IPMINTTL; proto->tcpipminttl = $3; } else { yyerror("invalid TCP/IP flag: %s", $2); free($2); YYERROR; } free($2); } ; sslflags_l : sslflags comma sslflags_l | sslflags ; sslflags : SESSION CACHE sslcache { proto->cache = $3; } | CIPHERS STRING { if (strlcpy(proto->sslciphers, $2, sizeof(proto->sslciphers)) >= sizeof(proto->sslciphers)) { yyerror("sslciphers truncated"); free($2); YYERROR; } free($2); } | NO flag { proto->sslflags &= ~($2); } | flag { proto->sslflags |= $1; } ; flag : STRING { if (strcmp("sslv2", $1) == 0) $$ = SSLFLAG_SSLV2; else if (strcmp("sslv3", $1) == 0) $$ = SSLFLAG_SSLV3; else if (strcmp("tlsv1", $1) == 0) $$ = SSLFLAG_TLSV1; else { yyerror("invalid SSL flag: %s", $1); free($1); YYERROR; } free($1); } ; protonode : nodetype APPEND STRING TO STRING marked { node.action = NODE_ACTION_APPEND; node.key = strdup($5); node.value = strdup($3); if (node.key == NULL || node.value == NULL) fatal("out of memory"); if (strchr(node.value, '$') != NULL) node.flags |= PNFLAG_MACRO; free($5); free($3); } | nodetype CHANGE STRING TO STRING marked { node.action = NODE_ACTION_CHANGE; node.key = strdup($3); node.value = strdup($5); if (node.key == NULL || node.value == NULL) fatal("out of memory"); if (strchr(node.value, '$') != NULL) node.flags |= PNFLAG_MACRO; free($5); free($3); } | nodetype REMOVE STRING marked { node.action = NODE_ACTION_REMOVE; node.key = strdup($3); node.value = NULL; if (node.key == NULL) fatal("out of memory"); free($3); } | nodetype EXPECT STRING FROM STRING mark { node.action = NODE_ACTION_EXPECT; node.key = strdup($5); node.value = strdup($3);; if (node.key == NULL || node.value == NULL) fatal("out of memory"); free($5); free($3); proto->lateconnect++; } | nodetype FILTER STRING FROM STRING mark { node.action = NODE_ACTION_FILTER; node.key = strdup($5); node.value = strdup($3);; if (node.key == NULL || node.value == NULL) fatal("out of memory"); free($5); free($3); proto->lateconnect++; } | nodetype HASH STRING marked { node.action = NODE_ACTION_HASH; node.key = strdup($3); node.value = NULL; if (node.key == NULL) fatal("out of memory"); free($3); proto->lateconnect++; } | nodetype LOG STRING marked { node.action = NODE_ACTION_LOG; node.key = strdup($3); node.value = NULL; node.flags |= PNFLAG_LOG; if (node.key == NULL) fatal("out of memory"); free($3); } ; mark : /* empty */ | MARK { node.flags |= PNFLAG_MARK; } ; marked : /* empty */ | MARKED { node.flags |= PNFLAG_MARK; } ; nodetype : HEADER { node.type = NODE_TYPE_HEADER; } | URL { node.type = NODE_TYPE_URL; } | COOKIE { node.type = NODE_TYPE_COOKIE; } | PATH { proto->flags |= F_LOOKUP_PATH; node.type = NODE_TYPE_PATH; } ; sslcache : NUMBER { if ($1 < 0) { yyerror("invalid sslcache value: %d", $1); YYERROR; } $$ = $1; } | DISABLE { $$ = -2; } ; relay : RELAY STRING { struct relay *r; TAILQ_FOREACH(r, conf->relays, entry) if (!strcmp(r->conf.name, $2)) break; if (r != NULL) { yyerror("relay %s defined twice", $2); free($2); YYERROR; } if ((r = calloc(1, sizeof (*r))) == NULL) fatal("out of memory"); if (strlcpy(r->conf.name, $2, sizeof(r->conf.name)) >= sizeof(r->conf.name)) { yyerror("relay name truncated"); YYERROR; } free($2); r->conf.id = last_relay_id++; r->conf.timeout.tv_sec = RELAY_TIMEOUT; r->proto = NULL; r->conf.proto = EMPTY_ID; r->conf.dsttable = EMPTY_ID; r->conf.dstretry = 0; if (last_relay_id == INT_MAX) { yyerror("too many relays defined"); YYERROR; } rlay = r; } '{' optnl relayopts_l '}' { if (rlay->conf.ss.ss_family == AF_UNSPEC) { yyerror("relay %s has no listener", rlay->conf.name); YYERROR; } if ((rlay->conf.flags & F_NATLOOK) == 0 && rlay->conf.dstss.ss_family == AF_UNSPEC && rlay->conf.dsttable == EMPTY_ID) { yyerror("relay %s has no target, service, " "or table", rlay->conf.name); YYERROR; } if (rlay->conf.proto == EMPTY_ID) { rlay->proto = &conf->proto_default; rlay->conf.proto = conf->proto_default.id; } if (relay_load_certfiles(rlay) == -1) { yyerror("cannot load certificates for relay %s", rlay->conf.name); YYERROR; } conf->relaycount++; SPLAY_INIT(&rlay->sessions); TAILQ_INSERT_HEAD(conf->relays, rlay, entry); } ; relayopts_l : relayopts_l relayoptsl nl | relayoptsl optnl ; relayoptsl : LISTEN ON STRING port optssl { struct addresslist al; struct address *h; if (rlay->conf.ss.ss_family != AF_UNSPEC) { yyerror("relay %s listener already specified", rlay->conf.name); YYERROR; } TAILQ_INIT(&al); if (host($3, &al, 1, $4, NULL) <= 0) { yyerror("invalid listen ip: %s", $3); free($3); YYERROR; } free($3); h = TAILQ_FIRST(&al); bcopy(&h->ss, &rlay->conf.ss, sizeof(rlay->conf.ss)); rlay->conf.port = h->port; if ($5) { rlay->conf.flags |= F_SSL; conf->flags |= F_SSL; } } | FORWARD TO STRING port retry { struct addresslist al; struct address *h; if (rlay->conf.dstss.ss_family != AF_UNSPEC) { yyerror("relay %s target or service already " "specified", rlay->conf.name); free($3); YYERROR; } TAILQ_INIT(&al); if (host($3, &al, 1, $4, NULL) <= 0) { yyerror("invalid listen ip: %s", $3); free($3); YYERROR; } free($3); h = TAILQ_FIRST(&al); bcopy(&h->ss, &rlay->conf.dstss, sizeof(rlay->conf.dstss)); rlay->conf.dstport = h->port; rlay->conf.dstretry = $5; } | SERVICE STRING retry { struct service *svc; struct address *h; if (rlay->conf.dstss.ss_family != AF_UNSPEC) { yyerror("relay %s target or service already " "specified", rlay->conf.name); free($2); YYERROR; } if ((svc = service_findbyname(conf, $2)) == NULL) { yyerror("relay %s for unknown service %s", rlay->conf.name, $2); free($2); YYERROR; } free($2); h = TAILQ_FIRST(&svc->virts); bcopy(&h->ss, &rlay->conf.dstss, sizeof(rlay->conf.dstss)); rlay->conf.dstport = h->port; rlay->conf.dstretry = $3; } | TABLE STRING dstport dstmode docheck { struct table *tb; rlay->conf.dstport = $3; if (rlay->conf.dstport == 0) rlay->conf.dstport = rlay->conf.port; if ((tb = table_inherit($2, rlay->conf.dstport)) == NULL) { free($2); YYERROR; } free($2); rlay->conf.dsttable = tb->conf.id; rlay->dsttable = tb; rlay->conf.dstport = tb->conf.port; rlay->conf.dstmode = $4; rlay->conf.dstcheck = $5; rlay->dsttable->conf.flags |= F_USED; } | PROTO STRING { struct protocol *p; TAILQ_FOREACH(p, conf->protos, entry) if (!strcmp(p->name, $2)) break; if (p == NULL) { yyerror("no such protocol: %s", $2); free($2); YYERROR; } p->flags |= F_USED; rlay->conf.proto = p->id; rlay->proto = p; free($2); } | NAT LOOKUP retry { rlay->conf.flags |= F_NATLOOK; rlay->conf.dstretry = $3; } | TIMEOUT NUMBER { if ((rlay->conf.timeout.tv_sec = $2) < 0) { yyerror("invalid timeout: %d", $2); YYERROR; } } | DISABLE { rlay->conf.flags |= F_DISABLE; } ; dstmode : /* empty */ { $$ = RELAY_DSTMODE_DEFAULT; } | LOADBALANCE { $$ = RELAY_DSTMODE_LOADBALANCE; } | ROUNDROBIN { $$ = RELAY_DSTMODE_ROUNDROBIN; } | HASH { $$ = RELAY_DSTMODE_HASH; } ; docheck : /* empty */ { $$ = 1; } | NO CHECK { $$ = 0; } ; interface : /*empty*/ { $$ = NULL; } | INTERFACE STRING { $$ = $2; } ; dstport : /* empty */ { $$ = 0; } | port { $$ = $1; } ; host : HOST STRING retry { struct address *a; struct addresslist al; if (($$ = calloc(1, sizeof(*($$)))) == NULL) fatal("out of memory"); TAILQ_INIT(&al); if (host($2, &al, 1, 0, NULL) <= 0) { yyerror("invalid host %s", $2); free($2); free($$); YYERROR; } a = TAILQ_FIRST(&al); memcpy(&$$->conf.ss, &a->ss, sizeof($$->conf.ss)); free(a); if (strlcpy($$->conf.name, $2, sizeof($$->conf.name)) >= sizeof($$->conf.name)) { yyerror("host name truncated"); free($2); free($$); YYERROR; } free($2); $$->conf.id = last_host_id++; $$->conf.retry = $3; if (last_host_id == INT_MAX) { yyerror("too many hosts defined"); free($$); YYERROR; } } ; retry : /* nothing */ { $$ = 0; } | RETRY NUMBER { if (($$ = $2) < 0) { yyerror("invalid retry value: %d\n", $2); YYERROR; } } ; timeout : NUMBER { if ($1 < 0) { yyerror("invalid timeout: %d\n", $1); YYERROR; } $$.tv_sec = $1 / 1000; $$.tv_usec = ($1 % 1000) * 1000; } ; log : /* empty */ { $$ = 0; } | LOG { $$ = 1; } ; comma : ',' | /* empty */ ; optnl : '\n' optnl | ; nl : '\n' optnl ; %% struct keywords { const char *k_name; int k_val; }; int yyerror(const char *fmt, ...) { va_list ap; file->errors++; va_start(ap, fmt); fprintf(stderr, "%s:%d: ", file->name, yylval.lineno); vfprintf(stderr, fmt, ap); fprintf(stderr, "\n"); va_end(ap); 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[] = { { "all", ALL }, { "append", APPEND }, { "backlog", BACKLOG }, { "backup", BACKUP }, { "buffer", BUFFER }, { "cache", CACHE }, { "change", CHANGE }, { "check", CHECK }, { "ciphers", CIPHERS }, { "code", CODE }, { "cookie", COOKIE }, { "demote", DEMOTE }, { "digest", DIGEST }, { "disable", DISABLE }, { "expect", EXPECT }, { "external", EXTERNAL }, { "filter", FILTER }, { "forward", FORWARD }, { "from", FROM }, { "hash", HASH }, { "header", HEADER }, { "host", HOST }, { "icmp", ICMP }, { "include", INCLUDE }, { "interface", INTERFACE }, { "interval", INTERVAL }, { "ip", IP }, { "listen", LISTEN }, { "loadbalance", LOADBALANCE }, { "log", LOG }, { "lookup", LOOKUP }, { "mark", MARK }, { "marked", MARKED }, { "nat", NAT }, { "no", NO }, { "nodelay", NODELAY }, { "nothing", NOTHING }, { "on", ON }, { "path", PATH }, { "port", PORT }, { "prefork", PREFORK }, { "protocol", PROTO }, { "real", REAL }, { "relay", RELAY }, { "remove", REMOVE }, { "request", REQUEST }, { "response", RESPONSE }, { "retry", RETRY }, { "roundrobin", ROUNDROBIN }, { "sack", SACK }, { "script", SCRIPT }, { "send", SEND }, { "service", SERVICE }, { "session", SESSION }, { "socket", SOCKET }, { "ssl", SSL }, { "sticky-address", STICKYADDR }, { "table", TABLE }, { "tag", TAG }, { "tcp", TCP }, { "timeout", TIMEOUT }, { "to", TO }, { "updates", UPDATES }, { "url", URL }, { "virtual", VIRTUAL } }; 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 MAXPUSHBACK 128 char *parsebuf; int parseindex; char pushback_buffer[MAXPUSHBACK]; int pushback_index = 0; int lgetc(int quotec) { int c, next; if (parsebuf) { /* Read character from the parsebuffer instead of input. */ if (parseindex >= 0) { c = parsebuf[parseindex++]; if (c != '\0') return (c); parsebuf = NULL; } else parseindex++; } if (pushback_index) return (pushback_buffer[--pushback_index]); if (quotec) { if ((c = getc(file->stream)) == EOF) { yyerror("reached end of file while parsing quoted string"); if (popfile() == EOF) return (EOF); return (quotec); } return (c); } while ((c = getc(file->stream)) == '\\') { next = getc(file->stream); if (next != '\n') { c = next; break; } yylval.lineno = file->lineno; file->lineno++; } while (c == EOF) { if (popfile() == EOF) return (EOF); c = getc(file->stream); } return (c); } int lungetc(int c) { if (c == EOF) return (EOF); if (parsebuf) { parseindex--; if (parseindex >= 0) return (c); } if (pushback_index < MAXPUSHBACK-1) return (pushback_buffer[pushback_index++] = c); else return (EOF); } int findeol(void) { int c; parsebuf = NULL; pushback_index = 0; /* 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 == '$' && parsebuf == NULL) { 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++ = (char)c; continue; } *p = '\0'; lungetc(c); break; } val = symget(buf); if (val == NULL) { yyerror("macro '%s' not defined", buf); return (findeol()); } parsebuf = val; parseindex = 0; 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 || c == ' ' || c == '\t') c = next; else if (next == '\n') continue; else lungetc(next); } else if (c == quotec) { *p = '\0'; break; } if (p + 1 >= buf + sizeof(buf) - 1) { yyerror("string too long"); return (findeol()); } *p++ = (char)c; } yylval.v.string = strdup(buf); if (yylval.v.string == NULL) err(1, "yylex: strdup"); return (STRING); } #define allowed_to_end_number(x) \ (isspace(x) || x == ')' || x ==',' || x == '/' || x == '}' || x == '=') if (c == '-' || isdigit(c)) { do { *p++ = c; if ((unsigned)(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(*--p); c = *--p; if (c == '-') return (c); } } #define allowed_in_string(x) \ (isalnum(x) || (ispunct(x) && x != '(' && x != ')' && \ x != '{' && x != '}' && \ x != '!' && x != '=' && x != '#' && \ x != ',')) if (isalnum(c) || c == ':' || c == '_') { do { *p++ = c; if ((unsigned)(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) err(1, "yylex: strdup"); 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("cannot stat %s", fname); return (-1); } if (st.st_uid != 0 && st.st_uid != getuid()) { log_warnx("%s: owner not root or current user", fname); return (-1); } if (st.st_mode & (S_IRWXG | S_IRWXO)) { log_warnx("%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 || (nfile->name = strdup(name)) == NULL) { log_warn("malloc"); return (NULL); } if ((nfile->stream = fopen(nfile->name, "r")) == NULL) { log_warn("%s", 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 = 1; 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); file = prev; return (0); } return (EOF); } struct hoststated * parse_config(const char *filename, int opts) { struct sym *sym, *next; struct table *nexttb; struct host *h; if ((conf = calloc(1, sizeof(*conf))) == NULL || (conf->tables = calloc(1, sizeof(*conf->tables))) == NULL || (conf->relays = calloc(1, sizeof(*conf->relays))) == NULL || (conf->protos = calloc(1, sizeof(*conf->protos))) == NULL || (conf->services = calloc(1, sizeof(*conf->services))) == NULL) { log_warn("cannot allocate memory"); return (NULL); } errors = 0; last_host_id = last_table_id = last_service_id = last_proto_id = last_relay_id = 0; service = NULL; table = NULL; rlay = NULL; proto = NULL; TAILQ_INIT(conf->services); TAILQ_INIT(conf->tables); TAILQ_INIT(conf->protos); TAILQ_INIT(conf->relays); memset(&conf->empty_table, 0, sizeof(conf->empty_table)); conf->empty_table.conf.id = EMPTY_TABLE; conf->empty_table.conf.flags |= F_DISABLE; (void)strlcpy(conf->empty_table.conf.name, "empty", sizeof(conf->empty_table.conf.name)); bzero(&conf->proto_default, sizeof(conf->proto_default)); conf->proto_default.flags = F_USED; conf->proto_default.cache = RELAY_CACHESIZE; conf->proto_default.type = RELAY_PROTO_TCP; (void)strlcpy(conf->proto_default.name, "default", sizeof(conf->proto_default.name)); RB_INIT(&conf->proto_default.request_tree); RB_INIT(&conf->proto_default.response_tree); conf->timeout.tv_sec = CHECK_TIMEOUT / 1000; conf->timeout.tv_usec = (CHECK_TIMEOUT % 1000) * 1000; conf->interval.tv_sec = CHECK_INTERVAL; conf->interval.tv_usec = 0; conf->prefork_relay = RELAY_NUMPROC; conf->statinterval.tv_sec = RELAY_STATINTERVAL; conf->opts = opts; conf->confpath = filename; if ((file = pushfile(filename, 0)) == NULL) { free(conf); return (NULL); } setservent(1); yyparse(); errors = file->errors; popfile(); endservent(); /* Free macros and check which have not been used. */ for (sym = TAILQ_FIRST(&symhead); sym != NULL; sym = next) { next = TAILQ_NEXT(sym, entry); if ((conf->opts & HOSTSTATED_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->services) && TAILQ_EMPTY(conf->relays)) { log_warnx("no services, nothing to do"); errors++; } if (TAILQ_EMPTY(conf->relays)) conf->prefork_relay = 0; if (timercmp(&conf->timeout, &conf->interval, >=)) { log_warnx("global timeout exceeds interval"); errors++; } /* Verify that every table is used */ for (table = TAILQ_FIRST(conf->tables); table != NULL; table = nexttb) { nexttb = TAILQ_NEXT(table, entry); if (table->conf.port == 0) { TAILQ_REMOVE(conf->tables, table, entry); while ((h = TAILQ_FIRST(&table->hosts)) != NULL) { TAILQ_REMOVE(&table->hosts, h, entry); free(h); } if (table->sendbuf != NULL) free(table->sendbuf); free(table); continue; } if (!(table->conf.flags & F_USED)) { log_warnx("unused table: %s", table->conf.name); errors++; } if (timercmp(&table->conf.timeout, &conf->interval, >=)) { log_warnx("table timeout exceeds interval: %s", table->conf.name); errors++; } } /* Verify that every non-default protocol is used */ TAILQ_FOREACH(proto, conf->protos, entry) { if (!(proto->flags & F_USED)) { log_warnx("unused protocol: %s", proto->name); } } if (errors) { free(conf); return (NULL); } return (conf); } int symset(const char *nam, const char *val, int persist) { struct sym *sym; for (sym = TAILQ_FIRST(&symhead); sym && strcmp(nam, sym->nam); sym = TAILQ_NEXT(sym, entry)) ; /* nothing */ 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; size_t len; if ((val = strrchr(s, '=')) == NULL) return (-1); len = strlen(s) - strlen(val) + 1; if ((sym = malloc(len)) == NULL) errx(1, "cmdline_symset: malloc"); (void)strlcpy(sym, s, len); 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); } struct address * host_v4(const char *s) { struct in_addr ina; struct sockaddr_in *sain; struct address *h; bzero(&ina, sizeof(ina)); if (inet_pton(AF_INET, s, &ina) != 1) return (NULL); if ((h = calloc(1, sizeof(*h))) == NULL) fatal(NULL); 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; return (h); } struct address * host_v6(const char *s) { struct in6_addr ina6; struct sockaddr_in6 *sin6; struct address *h; bzero(&ina6, sizeof(ina6)); if (inet_pton(AF_INET6, s, &ina6) != 1) return (NULL); if ((h = calloc(1, sizeof(*h))) == NULL) fatal(NULL); sin6 = (struct sockaddr_in6 *)&h->ss; sin6->sin6_len = sizeof(struct sockaddr_in6); sin6->sin6_family = AF_INET6; memcpy(&sin6->sin6_addr, &ina6, sizeof(ina6)); return (h); } int host_dns(const char *s, struct addresslist *al, int max, in_port_t port, const char *ifname) { struct addrinfo hints, *res0, *res; int error, cnt = 0; struct sockaddr_in *sain; struct sockaddr_in6 *sin6; struct address *h; bzero(&hints, sizeof(hints)); hints.ai_family = PF_UNSPEC; hints.ai_socktype = SOCK_DGRAM; /* DUMMY */ error = getaddrinfo(s, NULL, &hints, &res0); if (error == EAI_AGAIN || error == EAI_NODATA || error == EAI_NONAME) return (0); if (error) { log_warnx("host_dns: could not parse \"%s\": %s", s, gai_strerror(error)); return (-1); } for (res = res0; res && cnt < max; res = res->ai_next) { if (res->ai_family != AF_INET && res->ai_family != AF_INET6) continue; if ((h = calloc(1, sizeof(*h))) == NULL) fatal(NULL); h->port = port; if (ifname != NULL) { if (strlcpy(h->ifname, ifname, sizeof(h->ifname)) >= sizeof(h->ifname)) log_warnx("host_dns: interface name truncated"); return (-1); } 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; } 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)); } TAILQ_INSERT_HEAD(al, h, entry); cnt++; } if (cnt == max && res) { log_warnx("host_dns: %s resolves to more than %d hosts", s, max); } freeaddrinfo(res0); return (cnt); } int host(const char *s, struct addresslist *al, int max, in_port_t port, const char *ifname) { struct address *h; h = host_v4(s); /* IPv6 address? */ if (h == NULL) h = host_v6(s); if (h != NULL) { h->port = port; if (ifname != NULL) { if (strlcpy(h->ifname, ifname, sizeof(h->ifname)) >= sizeof(h->ifname)) { log_warnx("host: interface name truncated"); return (-1); } } TAILQ_INSERT_HEAD(al, h, entry); return (1); } return (host_dns(s, al, max, port, ifname)); } struct table * table_inherit(const char *name, in_port_t port) { char pname[TABLE_NAME_SIZE + 6]; struct host *h, *dsth; struct table *dsttb, *tb; /* Get the table or table template */ if ((dsttb = table_findbyname(conf, name)) == NULL) { yyerror("unknown table or template %s", name); return (NULL); } if (dsttb->conf.port != 0) return (dsttb); if (port == 0) { yyerror("invalid port"); return (NULL); } /* Check if a matching table already exists */ snprintf(pname, sizeof(pname), "%s:%u", name, ntohs(port)); if ((tb = table_findbyname(conf, pname)) != NULL) { if (tb->conf.port == 0) { yyerror("invalid table"); return (NULL); } return (tb); } /* Create a new table */ if ((tb = calloc(1, sizeof (*tb))) == NULL) fatal("out of memory"); bcopy(dsttb, tb, sizeof(*tb)); if (strlcpy(tb->conf.name, pname, sizeof(tb->conf.name)) >= sizeof(tb->conf.name)) { yyerror("table name truncated"); return (NULL); } if (dsttb->sendbuf != NULL && (tb->sendbuf = strdup(dsttb->sendbuf)) == NULL) fatal("out of memory"); tb->conf.port = port; tb->conf.id = last_table_id++; if (last_table_id == INT_MAX) { yyerror("too many tables defined"); return (NULL); } /* Copy the associated hosts */ bzero(&tb->hosts, sizeof(tb->hosts)); TAILQ_FOREACH(dsth, &dsttb->hosts, entry) { if ((h = (struct host *) calloc(1, sizeof (*h))) == NULL) fatal("out of memory"); bcopy(dsth, h, sizeof(*h)); h->conf.id = last_host_id++; if (last_host_id == INT_MAX) { yyerror("too many hosts defined"); return (NULL); } h->conf.tableid = tb->conf.id; h->tablename = tb->conf.name; TAILQ_INSERT_HEAD(&tb->hosts, h, entry); } conf->tablecount++; TAILQ_INSERT_HEAD(conf->tables, tb, entry); return (tb); }