/* $OpenBSD: parse.y,v 1.4 2005/05/25 16:31:22 hshoexer Exp $ */ /* * 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. * Copyright (c) 2004, 2005 Hans-Joerg Hoexer * * 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 "ipsecctl.h" static struct ipsecctl *ipsec = NULL; static FILE *fin = NULL; static int lineno = 1; static int errors = 0; static int debug = 0; int yyerror(const char *, ...); int yyparse(void); int kw_cmp(const void *, const void *); int lookup(char *); int lgetc(FILE *); int lungetc(int); int findeol(void); int yylex(void); TAILQ_HEAD(symhead, sym) symhead = TAILQ_HEAD_INITIALIZER(symhead); struct sym { TAILQ_ENTRY(sym) entries; int used; int persist; char *nam; char *val; }; int symset(const char *, const char *, int); int cmdline_symset(char *); char *symget(const char *); int atoul(char *, u_long *); struct ipsec_addr *host(const char *); struct ipsec_addr *copyhost(const struct ipsec_addr *); struct ipsec_rule *create_rule(u_int8_t, struct ipsec_addr *, struct ipsec_addr *, struct ipsec_addr *, u_int8_t, char *, char *, u_int16_t); struct ipsec_rule *reverse_rule(struct ipsec_rule *); typedef struct { union { u_int32_t number; u_int8_t dir; char *string; int log; u_int8_t protocol; struct { struct ipsec_addr *src; struct ipsec_addr *dst; } hosts; struct ipsec_addr *peer; struct ipsec_addr *host; struct { char *srcid; char *dstid; } ids; char *id; u_int16_t authtype; } v; int lineno; } YYSTYPE; %} %token FLOW FROM ESP AH IN PEER ON OUT TO SRCID DSTID RSA PSK %token ERROR %token STRING %type dir %type protocol %type number %type hosts %type peer %type host %type ids %type id %type authtype %% grammar : /* empty */ | grammar '\n' | grammar flowrule '\n' | grammar error '\n' { errors++; } ; number : STRING { unsigned long ulval; if (atoul($1, &ulval) == -1) { yyerror("%s is not a number", $1); free($1); YYERROR; } else $$ = ulval; free($1); } flowrule : FLOW ipsecrule { } ; ipsecrule : protocol dir hosts peer ids authtype { struct ipsec_rule *r; r = create_rule($2, $3.src, $3.dst, $4, $1, $5.srcid, $5.dstid, $6); if (r == NULL) YYERROR; r->nr = ipsec->rule_nr++; if (ipsecctl_add_rule(ipsec, r)) errx(1, "esprule: ipsecctl_add_rule"); /* Create and add reverse rule. */ if ($2 == IPSEC_INOUT) { r = reverse_rule(r); r->nr = ipsec->rule_nr++; if (ipsecctl_add_rule(ipsec, r)) errx(1, "esprule: ipsecctl_add_rule"); } } ; protocol : /* empty */ { $$ = IPSEC_ESP; } | ESP { $$ = IPSEC_ESP; } | AH { $$ = IPSEC_AH; } ; dir : /* empty */ { $$ = IPSEC_INOUT; } | IN { $$ = IPSEC_IN; } | OUT { $$ = IPSEC_OUT; } ; hosts : FROM host TO host { $$.src = $2; $$.dst = $4; } ; peer : /* empty */ { $$ = NULL; } | PEER STRING { if (($$ = host($2)) == NULL) { free($2); yyerror("could not parse host specification"); YYERROR; } free($2); } ; host : STRING { if (($$ = host($1)) == NULL) { free($1); yyerror("could not parse host specification"); YYERROR; } free($1); } | STRING '/' number { char *buf; if (asprintf(&buf, "%s/%u", $1, $3) == -1) err(1, "host: asprintf"); free($1); if (($$ = host(buf)) == NULL) { free(buf); yyerror("could not parse host specification"); YYERROR; } free(buf); } ; ids : /* empty */ { $$.srcid = NULL; $$.dstid = NULL; } | SRCID id DSTID id { $$.srcid = $2; $$.dstid = $4; } | SRCID id { $$.srcid = $2; $$.dstid = NULL; } | DSTID id { $$.srcid = NULL; $$.dstid = $2; } ; id : STRING { $$ = $1; } ; authtype : /* empty */ { $$ = 0; } | RSA { $$ = AUTH_RSA; } | PSK { $$ = AUTH_PSK; } ; %% struct keywords { const char *k_name; int k_val; }; int yyerror(const char *fmt, ...) { va_list ap; extern char *infile; errors = 1; va_start(ap, fmt); fprintf(stderr, "%s: %d: ", infile, yyval.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[] = { { "ah", AH}, { "dstid", DSTID}, { "esp", ESP}, { "flow", FLOW}, { "from", FROM}, { "in", IN}, { "out", OUT}, { "peer", PEER}, { "psk", PSK}, { "rsa", RSA}, { "srcid", SRCID}, { "to", TO}, }; const struct keywords *p; p = bsearch(s, keywords, sizeof(keywords)/sizeof(keywords[0]), sizeof(keywords[0]), kw_cmp); if (p) { if (debug > 1) fprintf(stderr, "%s: %d\n", s, p->k_val); return (p->k_val); } else { if (debug > 1) fprintf(stderr, "string: %s\n", s); return (STRING); } } #define MAXPUSHBACK 128 char *parsebuf; int parseindex; char pushback_buffer[MAXPUSHBACK]; int pushback_index = 0; int lgetc(FILE *f) { 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]); while ((c = getc(f)) == '\\') { next = getc(f); if (next != '\n') { if (isspace(next)) yyerror("whitespace after \\"); ungetc(next, f); break; } yylval.lineno = lineno; lineno++; } if (c == '\t' || c == ' ') { /* Compress blanks to a single space. */ do { c = getc(f); } while (c == '\t' || c == ' '); ungetc(c, f); c = ' '; } 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(fin); if (c == '\n') { lineno++; break; } if (c == EOF) break; } return (ERROR); } int yylex(void) { char buf[8096]; char *p, *val; int endc, c; int token; top: p = buf; while ((c = lgetc(fin)) == ' ') ; /* nothing */ yylval.lineno = lineno; if (c == '#') while ((c = lgetc(fin)) != '\n' && c != EOF) ; /* nothing */ if (c == '$' && parsebuf == NULL) { while (1) { if ((c = lgetc(fin)) == 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 '"': endc = c; while (1) { if ((c = lgetc(fin)) == EOF) return (0); if (c == endc) { *p = '\0'; break; } if (c == '\n') { lineno++; continue; } 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_in_string(x) \ (isalnum(x) || (ispunct(x) && x != '(' && x != ')' && \ x != '{' && x != '}' && x != '<' && x != '>' && \ x != '!' && x != '=' && x != '/' && x != '#' && \ x != ',')) if (isalnum(c) || c == ':' || c == '_' || c == '*') { do { *p++ = c; if ((unsigned)(p-buf) >= sizeof(buf)) { yyerror("string too long"); return (findeol()); } } while ((c = lgetc(fin)) != 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 = lineno; lineno++; } if (c == EOF) return (0); return (c); } int parse_rules(FILE *input, struct ipsecctl *ipsecx) { struct sym *sym, *next; ipsec = ipsecx; fin = input; lineno = 1; errors = 0; yyparse(); /* Free macros and check which have not been used. */ for (sym = TAILQ_FIRST(&symhead); sym != NULL; sym = next) { next = TAILQ_NEXT(sym, entries); free(sym->nam); free(sym->val); TAILQ_REMOVE(&symhead, sym, entries); free(sym); } return (errors ? -1 : 0); } 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, entries)) ; /* nothing */ if (sym != NULL) { if (sym->persist == 1) return (0); else { free(sym->nam); free(sym->val); TAILQ_REMOVE(&symhead, sym, entries); 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, entries); 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) err(1, "cmdline_symset: malloc"); 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, entries) if (strcmp(nam, sym->nam) == 0) { sym->used = 1; return (sym->val); } return (NULL); } int atoul(char *s, u_long *ulvalp) { u_long ulval; char *ep; errno = 0; ulval = strtoul(s, &ep, 0); if (s[0] == '\0' || *ep != '\0') return (-1); if (errno == ERANGE && ulval == ULONG_MAX) return (-1); *ulvalp = ulval; return (0); } struct ipsec_addr * host(const char *s) { struct ipsec_addr *ipa; int i, bits = 32; /* XXX for now only AF_INET. */ ipa = calloc(1, sizeof(struct ipsec_addr)); if (ipa == NULL) err(1, "calloc"); if (strrchr(s, '/') != NULL) { bits = inet_net_pton(AF_INET, s, &ipa->v4, sizeof(ipa->v4)); if (bits == -1 || bits > 32) { free(ipa); return(NULL); } } else { if (inet_pton(AF_INET, s, &ipa->v4) != 1) { free(ipa); return NULL; } } bzero(&ipa->v4mask, sizeof(ipa->v4mask)); if (bits == 32) { ipa->v4mask.mask32 = 0xffffffff; ipa->netaddress = 0; } else { for (i = 31; i > 31 - bits; i--) ipa->v4mask.mask32 |= (1 << i); ipa->v4mask.mask32 = htonl(ipa->v4mask.mask32); ipa->netaddress = 1; } ipa->af = AF_INET; return ipa; } struct ipsec_addr * copyhost(const struct ipsec_addr *src) { struct ipsec_addr *dst; dst = calloc(1, sizeof(struct ipsec_addr)); if (dst == NULL) err(1, "calloc"); memcpy(dst, src, sizeof(struct ipsec_addr)); return dst; } struct ipsec_rule * create_rule(u_int8_t dir, struct ipsec_addr *src, struct ipsec_addr *dst, struct ipsec_addr *peer, u_int8_t proto, char *srcid, char *dstid, u_int16_t authtype) { struct ipsec_rule *r; r = calloc(1, sizeof(struct ipsec_rule)); if (r == NULL) err(1, "calloc"); if (dir == IPSEC_INOUT) r->direction = IPSEC_OUT; else r->direction = dir; r->src = src; r->dst = dst; if (peer == NULL) { /* Set peer to remote host. Must be a host address. */ if (r->direction == IPSEC_IN) { if (r->src->netaddress) { yyerror("no peer specified"); goto errout; } r->peer = copyhost(r->src); } else { if (r->dst->netaddress) { yyerror("no peer specified"); goto errout; } r->peer = copyhost(r->dst); } } else r->peer = peer; r->proto = proto; r->auth.srcid = srcid; r->auth.dstid = dstid; r->auth.idtype = ID_FQDN; /* XXX For now only FQDN. */ #ifdef notyet r->auth.type = authtype; #endif return r; errout: free(r); if (srcid) free(srcid); if (dstid) free(dstid); free(src); free(dst); return NULL; } struct ipsec_rule * reverse_rule(struct ipsec_rule *rule) { struct ipsec_rule *reverse; reverse = calloc(1, sizeof(struct ipsec_rule)); if (reverse == NULL) err(1, "calloc"); if (rule->direction == (u_int8_t)IPSEC_OUT) reverse->direction = (u_int8_t)IPSEC_IN; else reverse->direction = (u_int8_t)IPSEC_OUT; reverse->src = copyhost(rule->dst); reverse->dst = copyhost(rule->src); reverse->peer = copyhost(rule->peer); reverse->proto = (u_int8_t)rule->proto; if (rule->auth.dstid && (reverse->auth.dstid = strdup(rule->auth.dstid)) == NULL) err(1, "strdup"); if (rule->auth.srcid && (reverse->auth.srcid = strdup(rule->auth.srcid)) == NULL) err(1, "strdup"); reverse->auth.idtype = rule->auth.idtype; reverse->auth.type = rule->auth.type; return reverse; }