/* $OpenBSD: parser.c,v 1.6 2004/05/21 11:52:32 claudio Exp $ */ /* * Copyright (c) 2003, 2004 Henning Brauer * * 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 "parser.h" enum token_type { NOTOKEN, ENDTOKEN, KEYWORD, ADDRESS, FLAG, ASNUM, ASTYPE, PREFIX }; struct token { enum token_type type; const char *keyword; int value; const struct token *next; }; static const struct token t_main[]; static const struct token t_show[]; static const struct token t_show_fib[]; static const struct token t_show_rib[]; static const struct token t_show_neighbor[]; static const struct token t_show_neighbor_modifiers[]; static const struct token t_fib[]; static const struct token t_neighbor[]; static const struct token t_neighbor_modifiers[]; static const struct token t_show_as[]; static const struct token t_show_prefix[]; static const struct token t_show_ip[]; static const struct token t_nexthop[]; static const struct token t_prefix[]; static const struct token t_main[] = { { KEYWORD, "reload", RELOAD, NULL}, { KEYWORD, "show", SHOW, t_show}, { KEYWORD, "fib", FIB, t_fib}, { KEYWORD, "neighbor", NEIGHBOR, t_neighbor}, { KEYWORD, "network", NONE, t_nexthop}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show[] = { { NOTOKEN, "", NONE, NULL}, { KEYWORD, "fib", SHOW_FIB, t_show_fib}, { KEYWORD, "interfaces", SHOW_INTERFACE, NULL}, { KEYWORD, "neighbor", SHOW_NEIGHBOR, t_show_neighbor}, { KEYWORD, "nexthop", SHOW_NEXTHOP, NULL}, { KEYWORD, "rib", SHOW_RIB, t_show_rib}, { KEYWORD, "ip", NONE, t_show_ip}, { KEYWORD, "summary", SHOW_SUMMARY, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_fib[] = { { NOTOKEN, "", NONE, NULL}, { FLAG, "connected", F_CONNECTED, t_show_fib}, { FLAG, "static", F_STATIC, t_show_fib}, { FLAG, "bgp", F_BGPD_INSERTED, t_show_fib}, { FLAG, "nexthop", F_NEXTHOP, t_show_fib}, { ADDRESS, "", NONE, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_rib[] = { { NOTOKEN, "", NONE, NULL}, { PREFIX, "", NONE, t_show_prefix}, { ASTYPE, "as", AS_ALL, t_show_as}, { ASTYPE, "source-as", AS_SOURCE, t_show_as}, { ASTYPE, "transit-as", AS_TRANSIT, t_show_as}, { ASTYPE, "empty-as", AS_EMPTY, NULL}, { KEYWORD, "summary", SHOW_SUMMARY, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_neighbor[] = { { NOTOKEN, "", NONE, NULL}, { ADDRESS, "", NONE, t_show_neighbor_modifiers}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_neighbor_modifiers[] = { { NOTOKEN, "", NONE, NULL}, { KEYWORD, "timers", SHOW_NEIGHBOR_TIMERS, NULL}, { KEYWORD, "messages", SHOW_NEIGHBOR, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_fib[] = { { KEYWORD, "couple", FIB_COUPLE, NULL}, { KEYWORD, "decouple", FIB_DECOUPLE, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_neighbor[] = { { ADDRESS, "", NONE, t_neighbor_modifiers}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_neighbor_modifiers[] = { { KEYWORD, "up", NEIGHBOR_UP, NULL}, { KEYWORD, "down", NEIGHBOR_DOWN, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_as[] = { { ASNUM, "", NONE, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_prefix[] = { { NOTOKEN, "", NONE, NULL}, { FLAG, "all", F_LONGER, NULL}, { FLAG, "longer-prefixes", F_LONGER, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_show_ip[] = { { KEYWORD, "bgp", SHOW_RIB, t_show_rib}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_nexthop[] = { { KEYWORD, "add", NETWORK_ADD, t_prefix}, { KEYWORD, "delete", NETWORK_REMOVE, t_prefix}, { KEYWORD, "flush", NETWORK_FLUSH, NULL}, { KEYWORD, "show", NETWORK_SHOW, NULL}, { ENDTOKEN, "", NONE, NULL} }; static const struct token t_prefix[] = { { PREFIX, "", NONE, NULL}, { ENDTOKEN, "", NONE, NULL} }; static struct parse_result res; const struct token *match_token(const char *, const struct token []); void show_valid_args(const struct token []); int parse_addr(const char *, struct bgpd_addr *); int parse_prefix(const char *, struct bgpd_addr *, u_int8_t *); int parse_asnum(const char *, u_int16_t *); struct parse_result * parse(int argc, char *argv[]) { int curarg = 1; const struct token *table = t_main; const struct token *match; char *word; bzero(&res, sizeof(res)); if (argc == 1) return (&res); for (;;) { if (argc > curarg) word = argv[curarg]; else word = NULL; if ((match = match_token(word, table)) == NULL) { fprintf(stderr, "valid commands/args:\n"); show_valid_args(table); return (NULL); } curarg++; if (match->type == NOTOKEN) break; if (match->next == NULL) break; table = match->next; } if (curarg < argc) { fprintf(stderr, "superfluous argument: %s\n", argv[curarg]); return (NULL); } return (&res); } const struct token * match_token(const char *word, const struct token table[]) { u_int i, match; const struct token *t = NULL; match = 0; for (i = 0; table[i].type != ENDTOKEN; i++) { switch (table[i].type) { case NOTOKEN: if (word == NULL || strlen(word) == 0) { match++; t = &table[i]; } break; case KEYWORD: if (word != NULL && strncmp(word, table[i].keyword, strlen(word)) == 0) { match++; t = &table[i]; if (t->value) res.action = t->value; } break; case FLAG: if (word != NULL && strncmp(word, table[i].keyword, strlen(word)) == 0) { match++; t = &table[i]; res.flags |= t->value; } break; case ADDRESS: if (parse_addr(word, &res.addr)) { match++; t = &table[i]; if (t->value) res.action = t->value; } break; case PREFIX: if (parse_prefix(word, &res.addr, &res.prefixlen)) { match++; t = &table[i]; if (t->value) res.action = t->value; } break; case ASTYPE: if (word != NULL && strncmp(word, table[i].keyword, strlen(word)) == 0) { match++; t = &table[i]; res.as.type = t->value; } break; case ASNUM: if (parse_asnum(word, &res.as.as)) { match++; t = &table[i]; } break; case ENDTOKEN: break; } } if (match != 1) { if (match > 1) fprintf(stderr, "ambiguous argument: %s\n", word); if (match < 1) fprintf(stderr, "unknown argument: %s\n", word); return (NULL); } return (t); } void show_valid_args(const struct token table[]) { int i; for (i = 0; table[i].type != ENDTOKEN; i++) { switch (table[i].type) { case NOTOKEN: fprintf(stderr, " (nothing)\n"); break; case KEYWORD: case FLAG: case ASTYPE: fprintf(stderr, " %s\n", table[i].keyword); break; case ADDRESS: fprintf(stderr, "
\n"); break; case PREFIX: fprintf(stderr, "
[/]\n"); break; case ASNUM: fprintf(stderr, " \n"); break; case ENDTOKEN: break; } } } int parse_addr(const char *word, struct bgpd_addr *addr) { struct in_addr ina; if (word == NULL) return (0); bzero(addr, sizeof(struct bgpd_addr)); bzero(&ina, sizeof(ina)); if (inet_pton(AF_INET, word, &ina)) { addr->af = AF_INET; addr->v4 = ina; return (1); } return (0); } int parse_prefix(const char *word, struct bgpd_addr *addr, u_int8_t *prefixlen) { struct in_addr ina; int bits = 32; if (word == NULL) return (0); bzero(addr, sizeof(struct bgpd_addr)); bzero(&ina, sizeof(ina)); if (strrchr(word, '/') != NULL) { if ((bits = inet_net_pton(AF_INET, word, &ina, sizeof(ina))) == -1) return (0); addr->af = AF_INET; addr->v4.s_addr = ina.s_addr & htonl(0xffffffff << (32 - bits)); *prefixlen = bits; return (1); } else { *prefixlen = 32; return (parse_addr(word, addr)); } return (0); } int parse_asnum(const char *word, u_int16_t *asnum) { u_long ulval; char *ep; if (word == NULL) return (0); errno = 0; ulval = strtoul(word, &ep, 0); if (word[0] == '\0' || *ep != '\0') return (0); if (errno == ERANGE && ulval == ULONG_MAX) return (0); if (ulval > USHRT_MAX) return (0); *asnum = (u_int16_t)ulval; return (1); }