/* $OpenBSD: parse.y,v 1.13 2010/09/23 11:42:36 mikeb Exp $ */ /* $vantronix: parse.y,v 1.22 2010/06/03 11:08:34 reyk Exp $ */ /* * Copyright (c) 2010 Reyk Floeter * Copyright (c) 2004, 2005 Hans-Joerg Hoexer * 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 #include #include #include #include #include "iked.h" #include "ikev2.h" #include "eap.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 yywarn(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 *); int cmdline_symset(char *); #define KEYSIZE_LIMIT 1024 static struct iked *env = NULL; static int debug = 0; static int rules = 0; static int passive = 0; static int decouple = 0; struct ipsec_xf { const char *name; u_int id; u_int length; u_int keylength; u_int nonce; u_int noauth; }; struct ipsec_transforms { const struct ipsec_xf *authxf; const struct ipsec_xf *prfxf; const struct ipsec_xf *encxf; const struct ipsec_xf *groupxf; }; struct ipsec_mode { struct ipsec_transforms *xfs; u_int8_t ike_exch; }; const struct ipsec_xf authxfs[] = { { "hmac-md5", IKEV2_XFORMAUTH_HMAC_MD5_96, 16 }, { "hmac-sha1", IKEV2_XFORMAUTH_HMAC_SHA1_96, 20 }, { "hmac-sha2-256", IKEV2_XFORMAUTH_HMAC_SHA2_256_128, 32 }, { "hmac-sha2-384", IKEV2_XFORMAUTH_HMAC_SHA2_384_192, 48 }, { "hmac-sha2-512", IKEV2_XFORMAUTH_HMAC_SHA2_512_256, 64 }, { NULL } }; const struct ipsec_xf prfxfs[] = { { "hmac-md5", IKEV2_XFORMPRF_HMAC_MD5, 16 }, { "hmac-sha1", IKEV2_XFORMPRF_HMAC_SHA1, 20 }, { "hmac-sha2-256", IKEV2_XFORMPRF_HMAC_SHA2_256, 32 }, { "hmac-sha2-384", IKEV2_XFORMPRF_HMAC_SHA2_384, 48 }, { "hmac-sha2-512", IKEV2_XFORMPRF_HMAC_SHA2_512, 64 }, { NULL } }; const struct ipsec_xf *encxfs = NULL; const struct ipsec_xf ikeencxfs[] = { { "3des", IKEV2_XFORMENCR_3DES, 24 }, { "3des-cbc", IKEV2_XFORMENCR_3DES, 24 }, { "aes-128", IKEV2_XFORMENCR_AES_CBC, 16, 16 }, { "aes-192", IKEV2_XFORMENCR_AES_CBC, 24, 24 }, { "aes-256", IKEV2_XFORMENCR_AES_CBC, 32, 32 }, { NULL } }; const struct ipsec_xf ipsecencxfs[] = { { "des", IKEV2_XFORMENCR_DES, 8 }, { "3des", IKEV2_XFORMENCR_3DES, 24 }, { "3des-cbc", IKEV2_XFORMENCR_3DES, 24 }, { "aes-128", IKEV2_XFORMENCR_AES_CBC, 16, 16 }, { "aes-192", IKEV2_XFORMENCR_AES_CBC, 24, 24 }, { "aes-256", IKEV2_XFORMENCR_AES_CBC, 32, 32 }, { "aes-ctr", IKEV2_XFORMENCR_AES_CTR, 16, 16, 4 }, { "aes-128-gcm", IKEV2_XFORMENCR_AES_GCM_16, 16, 16, 4, 1 }, { "aes-192-gcm", IKEV2_XFORMENCR_AES_GCM_16, 24, 24, 4, 1 }, { "aes-256-gcm", IKEV2_XFORMENCR_AES_GCM_16, 32, 32, 4, 1 }, { "aes-128-gmac", IKEV2_XFORMENCR_NULL_AES_GMAC, 16, 16, 4, 1 }, { "aes-192-gmac", IKEV2_XFORMENCR_NULL_AES_GMAC, 24, 24, 4, 1 }, { "aes-256-gmac", IKEV2_XFORMENCR_NULL_AES_GMAC, 32, 32, 4, 1 }, { "blowfish", IKEV2_XFORMENCR_BLOWFISH, 20, 20 }, { "cast", IKEV2_XFORMENCR_CAST, 16, 16 }, { "null", IKEV2_XFORMENCR_NULL, 0, 0 }, { NULL } }; const struct ipsec_xf groupxfs[] = { { "modp768", IKEV2_XFORMDH_MODP_768 }, { "grp1", IKEV2_XFORMDH_MODP_768 }, { "modp1024", IKEV2_XFORMDH_MODP_1024 }, { "grp2", IKEV2_XFORMDH_MODP_1024 }, { "ec2n155", IKEV2_XFORMDH_EC2N_155 }, { "grp3", IKEV2_XFORMDH_EC2N_155 }, { "ec2n185", IKEV2_XFORMDH_EC2N_185 }, { "grp4", IKEV2_XFORMDH_EC2N_185 }, { "modp1536", IKEV2_XFORMDH_MODP_1536 }, { "grp5", IKEV2_XFORMDH_MODP_1536 }, { "modp2048", IKEV2_XFORMDH_MODP_2048 }, { "grp14", IKEV2_XFORMDH_MODP_2048 }, { "modp3072", IKEV2_XFORMDH_MODP_3072 }, { "grp15", IKEV2_XFORMDH_MODP_3072 }, { "modp4096", IKEV2_XFORMDH_MODP_4096 }, { "grp16", IKEV2_XFORMDH_MODP_4096 }, { "modp6144", IKEV2_XFORMDH_MODP_6144 }, { "grp17", IKEV2_XFORMDH_MODP_6144 }, { "modp8192", IKEV2_XFORMDH_MODP_8192 }, { "grp18", IKEV2_XFORMDH_MODP_8192 }, { "ecp256", IKEV2_XFORMDH_ECP_256 }, { "grp19", IKEV2_XFORMDH_ECP_256 }, { "ecp384", IKEV2_XFORMDH_ECP_384 }, { "grp20", IKEV2_XFORMDH_ECP_384 }, { "ecp521", IKEV2_XFORMDH_ECP_521 }, { "grp21", IKEV2_XFORMDH_ECP_521 }, { "modp1024-160", IKEV2_XFORMDH_MODP_1024_160 }, { "grp22", IKEV2_XFORMDH_MODP_1024_160 }, { "modp2048-224", IKEV2_XFORMDH_MODP_2048_224 }, { "grp23", IKEV2_XFORMDH_MODP_2048_224 }, { "modp2048-256", IKEV2_XFORMDH_MODP_2048_256 }, { "grp24", IKEV2_XFORMDH_MODP_2048_256 }, { "ecp192", IKEV2_XFORMDH_ECP_192 }, { "grp25", IKEV2_XFORMDH_ECP_192 }, { "ecp224", IKEV2_XFORMDH_ECP_224 }, { "grp26", IKEV2_XFORMDH_ECP_224 }, { NULL } }; const struct ipsec_xf methodxfs[] = { { "rsa", IKEV2_AUTH_RSA_SIG }, { "dss", IKEV2_AUTH_DSS_SIG }, { "ecdsa-256", IKEV2_AUTH_ECDSA_256 }, { "ecdsa-384", IKEV2_AUTH_ECDSA_384 }, { "ecdsa-512", IKEV2_AUTH_ECDSA_512 }, { NULL } }; const struct ipsec_xf saxfs[] = { { "esp", IKEV2_SAPROTO_ESP }, { "ah", IKEV2_SAPROTO_AH }, { NULL } }; const struct ipsec_xf cpxfs[] = { { "address", IKEV2_CFG_INTERNAL_IP4_ADDRESS, AF_INET }, { "netmask", IKEV2_CFG_INTERNAL_IP4_NETMASK, AF_INET }, { "name-server", IKEV2_CFG_INTERNAL_IP4_DNS, AF_INET }, { "netbios-server", IKEV2_CFG_INTERNAL_IP4_NBNS, AF_INET }, { "dhcp-server", IKEV2_CFG_INTERNAL_IP4_DHCP, AF_INET }, { "address", IKEV2_CFG_INTERNAL_IP6_ADDRESS, AF_INET6 }, { "name-server", IKEV2_CFG_INTERNAL_IP6_DNS, AF_INET6 }, { "netbios-server", IKEV2_CFG_INTERNAL_IP6_NBNS, AF_INET6 }, { "dhcp-server", IKEV2_CFG_INTERNAL_IP6_DHCP, AF_INET6 }, { "protected-subnet", IKEV2_CFG_INTERNAL_IP4_SUBNET, AF_INET }, { "protected-subnet", IKEV2_CFG_INTERNAL_IP6_SUBNET, AF_INET6 }, { "access-server", IKEV2_CFG_INTERNAL_IP4_SERVER, AF_INET }, { "access-server", IKEV2_CFG_INTERNAL_IP6_SERVER, AF_INET6 } }; struct ipsec_addr_wrap { struct sockaddr_storage address; u_int8_t mask; int netaddress; sa_family_t af; u_int type; u_int action; char *name; struct ipsec_addr_wrap *next; struct ipsec_addr_wrap *tail; struct ipsec_addr_wrap *srcnat; }; struct ipsec_hosts { struct ipsec_addr_wrap *src; struct ipsec_addr_wrap *dst; u_int16_t sport; u_int16_t dport; }; struct ipsec_filters { char *tag; u_int tap; }; struct ipsec_addr_wrap *host(const char *); struct ipsec_addr_wrap *host_v6(const char *, int); struct ipsec_addr_wrap *host_v4(const char *, int); struct ipsec_addr_wrap *host_dns(const char *, int); struct ipsec_addr_wrap *host_if(const char *, int); struct ipsec_addr_wrap *host_any(void); void ifa_load(void); int ifa_exists(const char *); struct ipsec_addr_wrap *ifa_lookup(const char *ifa_name); struct ipsec_addr_wrap *ifa_grouplookup(const char *); void set_ipmask(struct ipsec_addr_wrap *, u_int8_t); const struct ipsec_xf *parse_xf(const char *, u_int, const struct ipsec_xf *); const char *print_xf(u_int, u_int, const struct ipsec_xf *); void copy_transforms(u_int, const struct ipsec_xf *, const struct ipsec_xf *, struct iked_transform *, size_t, u_int *, struct iked_transform *, size_t); int create_ike(char *, u_int8_t, struct ipsec_hosts *, struct ipsec_hosts *, struct ipsec_mode *, struct ipsec_mode *, u_int8_t, u_int8_t, char *, char *, struct iked_auth *, struct ipsec_filters *, struct ipsec_addr_wrap *); int create_user(const char *, const char *); int get_id_type(char *); u_int8_t x2i(unsigned char *); int parsekey(unsigned char *, size_t, struct iked_auth *); int parsekeyfile(char *, struct iked_auth *); struct ipsec_transforms *ipsec_transforms; struct ipsec_filters *ipsec_filters; typedef struct { union { int64_t number; u_int8_t ikemode; u_int8_t dir; u_int8_t satype; u_int8_t proto; char *string; u_int16_t port; struct ipsec_hosts *hosts; struct ipsec_hosts peers; struct ipsec_addr_wrap *anyhost; struct ipsec_addr_wrap *host; struct ipsec_addr_wrap *cfg; struct { char *srcid; char *dstid; } ids; char *id; u_int8_t type; struct iked_auth ikeauth; struct iked_auth ikekey; struct ipsec_transforms *transforms; struct ipsec_filters *filters; struct ipsec_mode *mode; } v; int lineno; } YYSTYPE; %} %token FROM ESP AH IN PEER ON OUT TO SRCID DSTID RSA PSK PORT %token FILENAME AUTHXF PRFXF ENCXF ERROR IKEV2 IKESA CHILDSA %token PASSIVE ACTIVE ANY TAG TAP PROTO LOCAL GROUP NAME CONFIG EAP USER %token IKEV1 FLOW SA TCPMD5 TUNNEL TRANSPORT COUPLE DECOUPLE SET %token INCLUDE %token STRING %token NUMBER %type string %type satype %type proto %type protoval %type hosts hosts_list %type port %type portval %type peers %type anyhost %type host host_spec %type ids %type id %type transforms %type filters %type ikemode %type ikeauth %type keyspec %type ike_sa child_sa %type name %type cfg ikecfg ikecfgvals %% grammar : /* empty */ | grammar include '\n' | grammar '\n' | grammar set '\n' | grammar user '\n' | grammar ikev2rule '\n' | grammar varset '\n' | grammar otherrule skipline '\n' | grammar error '\n' { file->errors++; } ; comma : ',' | /* empty */ ; 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'); } ; set : SET ACTIVE { passive = 0; } | SET PASSIVE { passive = 1; } | SET COUPLE { decouple = 0; } | SET DECOUPLE { decouple = 1; } ; user : USER STRING STRING { if (create_user($2, $3) == -1) YYERROR; } ; ikev2rule : IKEV2 name ikemode satype proto hosts_list peers ike_sa child_sa ids ikeauth ikecfg filters { if (create_ike($2, $5, $6, &$7, $8, $9, $4, $3, $10.srcid, $10.dstid, &$11, $13, $12) == -1) YYERROR; } ; ikecfg : /* empty */ { $$ = NULL; } | ikecfgvals { $$ = $1; } ; ikecfgvals : cfg { $$ = $1; } | ikecfgvals cfg { if ($2 == NULL) $$ = $1; else if ($1 == NULL) $$ = $2; else { $1->tail->next = $2; $1->tail = $2->tail; $$ = $1; } } ; cfg : CONFIG STRING host_spec { const struct ipsec_xf *xf; if ((xf = parse_xf($2, $3->af, cpxfs)) == NULL) { yyerror("not a valid ikecfg option"); free($2); free($3); YYERROR; } $$ = $3; $$->type = xf->id; $$->action = IKEV2_CP_REPLY; /* XXX */ } ; name : /* empty */ { $$ = NULL; } | STRING { $$ = $1; } satype : /* empty */ { $$ = IKEV2_SAPROTO_ESP; } | ESP { $$ = IKEV2_SAPROTO_ESP; } | AH { $$ = IKEV2_SAPROTO_AH; } ; proto : /* empty */ { $$ = 0; } | PROTO protoval { $$ = $2; } | PROTO ESP { $$ = IPPROTO_ESP; } | PROTO AH { $$ = IPPROTO_AH; } ; protoval : STRING { struct protoent *p; p = getprotobyname($1); if (p == NULL) { yyerror("unknown protocol: %s", $1); YYERROR; } $$ = p->p_proto; free($1); } | NUMBER { if ($1 > 255 || $1 < 0) { yyerror("protocol outside range"); YYERROR; } } ; hosts_list : hosts { $$ = $1; } | hosts_list comma hosts { if ($3 == NULL) $$ = $1; else if ($1 == NULL) $$ = $3; else { $1->src->tail->next = $3->src; $1->src->tail = $3->src->tail; $1->dst->tail->next = $3->dst; $1->dst->tail = $3->dst->tail; $$ = $1; } } ; hosts : FROM host port TO host port { struct ipsec_addr_wrap *ipa; for (ipa = $5; ipa; ipa = ipa->next) { if (ipa->srcnat) { yyerror("no flow NAT support for" " destination network: %s", ipa->name); YYERROR; } } if (($$ = calloc(1, sizeof(*$$))) == NULL) err(1, "hosts: calloc"); $$->src = $2; $$->sport = $3; $$->dst = $5; $$->dport = $6; } | TO host port FROM host port { struct ipsec_addr_wrap *ipa; for (ipa = $2; ipa; ipa = ipa->next) { if (ipa->srcnat) { yyerror("no flow NAT support for" " destination network: %s", ipa->name); YYERROR; } } if (($$ = calloc(1, sizeof(*$$))) == NULL) err(1, "hosts: calloc"); $$->src = $5; $$->sport = $6; $$->dst = $2; $$->dport = $3; } ; port : /* empty */ { $$ = 0; } | PORT portval { $$ = $2; } ; portval : STRING { struct servent *s; if ((s = getservbyname($1, "tcp")) != NULL || (s = getservbyname($1, "udp")) != NULL) { $$ = s->s_port; } else { yyerror("unknown port: %s", $1); YYERROR; } } | NUMBER { if ($1 > USHRT_MAX || $1 < 0) { yyerror("port outside range"); YYERROR; } $$ = htons($1); } ; peers : /* empty */ { $$.dst = NULL; $$.src = NULL; } | PEER anyhost LOCAL anyhost { $$.dst = $2; $$.src = $4; } | LOCAL anyhost PEER anyhost { $$.dst = $4; $$.src = $2; } | PEER anyhost { $$.dst = $2; $$.src = NULL; } | LOCAL anyhost { $$.dst = NULL; $$.src = $2; } ; anyhost : host_spec { $$ = $1; } | ANY { $$ = host_any(); } host_spec : STRING { if (($$ = host($1)) == NULL) { free($1); yyerror("could not parse host specification"); YYERROR; } free($1); } | STRING '/' NUMBER { char *buf; if (asprintf(&buf, "%s/%lld", $1, $3) == -1) err(1, "host: asprintf"); free($1); if (($$ = host(buf)) == NULL) { free(buf); yyerror("could not parse host specification"); YYERROR; } free(buf); } ; host : host_spec { $$ = $1; } | host_spec '(' host_spec ')' { if (($1->af != AF_UNSPEC) && ($3->af != AF_UNSPEC) && ($3->af != $1->af)) { yyerror("Flow NAT address family mismatch"); YYERROR; } $$ = $1; $$->srcnat = $3; } | ANY { $$ = host_any(); } ; ids : /* empty */ { $$.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; } ; transforms : { if ((ipsec_transforms = calloc(1, sizeof(struct ipsec_transforms))) == NULL) err(1, "transforms: calloc"); } transforms_l { $$ = ipsec_transforms; } | /* empty */ { $$ = NULL; } ; transforms_l : transforms_l transform | transform ; transform : AUTHXF STRING { if (ipsec_transforms->authxf) yyerror("auth already set"); else { ipsec_transforms->authxf = parse_xf($2, 0, authxfs); if (!ipsec_transforms->authxf) yyerror("%s not a valid transform", $2); } } | ENCXF STRING { if (ipsec_transforms->encxf) yyerror("enc already set"); else { ipsec_transforms->encxf = parse_xf($2, 0, encxfs); if (!ipsec_transforms->encxf) yyerror("%s not a valid transform", $2); } } | PRFXF STRING { if (ipsec_transforms->prfxf) yyerror("prf already set"); else { ipsec_transforms->prfxf = parse_xf($2, 0, prfxfs); if (!ipsec_transforms->prfxf) yyerror("%s not a valid transform", $2); } } | GROUP STRING { if (ipsec_transforms->groupxf) yyerror("group already set"); else { ipsec_transforms->groupxf = parse_xf($2, 0, groupxfs); if (!ipsec_transforms->groupxf) yyerror("%s not a valid transform", $2); } } ; ike_sa : /* empty */ { $$ = NULL; } | IKESA { encxfs = ikeencxfs; } transforms { if (($$ = calloc(1, sizeof(*$$))) == NULL) err(1, "child_sa: calloc"); $$->xfs = $3; } ; child_sa : /* empty */ { $$ = NULL; } | CHILDSA { encxfs = ipsecencxfs; } transforms { if (($$ = calloc(1, sizeof(*$$))) == NULL) err(1, "child_sa: calloc"); $$->xfs = $3; } ; ikemode : /* empty */ { $$ = IKED_POLICY_PASSIVE; } | PASSIVE { $$ = IKED_POLICY_PASSIVE; } | ACTIVE { $$ = IKED_POLICY_ACTIVE; } ; ikeauth : /* empty */ { $$.auth_method = IKEV2_AUTH_RSA_SIG; $$.auth_length = 0; } | RSA { $$.auth_method = IKEV2_AUTH_RSA_SIG; $$.auth_length = 0; } | PSK keyspec { memcpy(&$$, &$2, sizeof($$)); $$.auth_method = IKEV2_AUTH_SHARED_KEY_MIC; } | EAP STRING { u_int i; for (i = 0; i < strlen($2); i++) if ($2[i] == '-') $2[i] = '_'; if (strcasecmp("mschap_v2", $2) != 0) { yyerror("unsupported EAP method: %s", $2); free($2); YYERROR; } free($2); $$.auth_method = IKEV2_AUTH_RSA_SIG; $$.auth_eap = EAP_TYPE_MSCHAP_V2; $$.auth_length = 0; } ; keyspec : STRING { u_int8_t *hex; bzero(&$$, sizeof($$)); hex = $1; if (strncmp(hex, "0x", 2) == 0) { hex += 2; if (parsekey(hex, strlen(hex), &$$) != 0) { free($1); YYERROR; } } else { if (strlen($1) > sizeof($$.auth_data)) { yyerror("psk too long"); free($1); YYERROR; } strlcpy($$.auth_data, $1, sizeof($$.auth_data)); $$.auth_length = strlen($1); } free($1); } | FILENAME STRING { if (parsekeyfile($2, &$$) != 0) { free($2); YYERROR; } free($2); } ; filters : { if ((ipsec_filters = calloc(1, sizeof(struct ipsec_filters))) == NULL) err(1, "filters: calloc"); } filters_l { $$ = ipsec_filters; } | /* empty */ { $$ = NULL; } ; filters_l : filters_l filter | filter ; filter : TAG STRING { ipsec_filters->tag = $2; } | TAP STRING { const char *errstr = NULL; size_t len; len = strcspn($2, "0123456789"); if (strlen("enc") != len || strncmp("enc", $2, len) != 0) { yyerror("invalid tap interface name: %s", $2); free($2); YYERROR; } ipsec_filters->tap = strtonum($2 + len, 0, UINT_MAX, &errstr); free($2); if (errstr != NULL) { yyerror("invalid tap interface unit: %s", errstr); YYERROR; } } ; string : string STRING { if (asprintf(&$$, "%s %s", $1, $2) == -1) err(1, "string: asprintf"); free($1); free($2); } | STRING ; varset : STRING '=' string { log_debug("%s = \"%s\"\n", $1, $3); if (symset($1, $3, 0) == -1) err(1, "cannot store variable"); free($1); free($3); } ; /* * ignore IKEv1/manual keying rules in ipsec.conf */ otherrule : IKEV1 | sarule | FLOW | TCPMD5 ; /* manual keying SAs might start with the following keywords */ sarule : SA | FROM | TO | TUNNEL | TRANSPORT ; /* ignore everything to the end of the line */ skipline : { int c; while ((c = lgetc(0)) != '\n' && c != EOF) ; /* nothing */ if (c == '\n') lungetc(c); } ; %% 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 yywarn(const char *fmt, ...) { va_list ap; 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[] = { { "active", ACTIVE }, { "ah", AH }, { "any", ANY }, { "auth", AUTHXF }, { "childsa", CHILDSA }, { "config", CONFIG }, { "couple", COUPLE }, { "decouple", DECOUPLE }, { "dstid", DSTID }, { "eap", EAP }, { "enc", ENCXF }, { "esp", ESP }, { "file", FILENAME }, { "flow", FLOW }, { "from", FROM }, { "group", GROUP }, { "ike", IKEV1 }, { "ikesa", IKESA }, { "ikev2", IKEV2 }, { "include", INCLUDE }, { "local", LOCAL }, { "name", NAME }, { "passive", PASSIVE }, { "peer", PEER }, { "port", PORT }, { "prf", PRFXF }, { "proto", PROTO }, { "psk", PSK }, { "rsa", RSA }, { "sa", SA }, { "set", SET }, { "srcid", SRCID }, { "tag", TAG }, { "tap", TAP }, { "tcpmd5", TCPMD5 }, { "to", TO }, { "transport", TRANSPORT }, { "tunnel", TUNNEL }, { "user", USER } }; 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(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; /* skip to either EOF or the first real EOL */ while (1) { if (pushback_index) c = pushback_buffer[--pushback_index]; else 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') { file->lineno++; 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 != '=' && 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(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)) { warn("cannot stat %s", fname); return (-1); } if (st.st_uid != 0 && st.st_uid != getuid()) { warnx("%s: owner not root or current user", fname); return (-1); } if (st.st_mode & (S_IRWXG | S_IRWXO)) { 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) { warn("malloc"); return (NULL); } if ((nfile->name = strdup(name)) == NULL) { warn("malloc"); free(nfile); return (NULL); } if (TAILQ_FIRST(&files) == NULL && strcmp(nfile->name, "-") == 0) { nfile->stream = stdin; free(nfile->name); if ((nfile->name = strdup("stdin")) == NULL) { warn("strdup"); free(nfile); return (NULL); } } else if ((nfile->stream = fopen(nfile->name, "r")) == NULL) { 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); } int parse_config(const char *filename, struct iked *x_env) { struct sym *sym; int errors = 0; env = x_env; rules = 0; if ((file = pushfile(filename, 1)) == NULL) return (-1); decouple = passive = 0; if (env->sc_opts & IKED_OPT_PASSIVE) passive = 1; yyparse(); errors = file->errors; popfile(); env->sc_passive = passive ? 1 : 0; env->sc_decoupled = decouple ? 1 : 0; if (!rules) log_warnx("%s: no valid configuration rules found", filename); else log_debug("%s: loaded %d configuration rules", filename, rules); /* Free macros and check which have not been used. */ while ((sym = TAILQ_FIRST(&symhead))) { if (!sym->used) log_debug("warning: macro '%s' not " "used\n", sym->nam); free(sym->nam); free(sym->val); TAILQ_REMOVE(&symhead, sym, entry); 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, 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) 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, entry) if (strcmp(nam, sym->nam) == 0) { sym->used = 1; return (sym->val); } return (NULL); } u_int8_t x2i(unsigned char *s) { char ss[3]; ss[0] = s[0]; ss[1] = s[1]; ss[2] = 0; if (!isxdigit(s[0]) || !isxdigit(s[1])) { yyerror("keys need to be specified in hex digits"); return (-1); } return ((u_int8_t)strtoul(ss, NULL, 16)); } int parsekey(unsigned char *hexkey, size_t len, struct iked_auth *auth) { u_int i; bzero(auth, sizeof(*auth)); if ((len / 2) > sizeof(auth->auth_data)) return (-1); auth->auth_length = len / 2; for (i = 0; i < auth->auth_length; i++) auth->auth_data[i] = x2i(hexkey + 2 * i); return (0); } int parsekeyfile(char *filename, struct iked_auth *auth) { struct stat sb; int fd; unsigned char *hex; if ((fd = open(filename, O_RDONLY)) < 0) err(1, "open %s", filename); if (fstat(fd, &sb) < 0) err(1, "parsekeyfile: stat %s", filename); if ((sb.st_size > KEYSIZE_LIMIT) || (sb.st_size == 0)) errx(1, "%s: key too %s", filename, sb.st_size ? "large" : "small"); if ((hex = calloc(sb.st_size, sizeof(unsigned char))) == NULL) err(1, "parsekeyfile: calloc"); if (read(fd, hex, sb.st_size) < sb.st_size) err(1, "parsekeyfile: read"); close(fd); return (parsekey(hex, sb.st_size, auth)); } int get_id_type(char *string) { struct in6_addr ia; if (string == NULL) return (IKEV2_ID_NONE); if (*string == '/') return (IKEV2_ID_ASN1_DN); else if (inet_pton(AF_INET, string, &ia) == 1) return (IKEV2_ID_IPV4); else if (inet_pton(AF_INET6, string, &ia) == 1) return (IKEV2_ID_IPV6); else if (strchr(string, '@')) return (IKEV2_ID_UFQDN); else return (IKEV2_ID_FQDN); } struct ipsec_addr_wrap * host(const char *s) { struct ipsec_addr_wrap *ipa = NULL; int mask, cont = 1; char *p, *q, *ps; if ((p = strrchr(s, '/')) != NULL) { errno = 0; mask = strtol(p + 1, &q, 0); if (errno == ERANGE || !q || *q || mask > 128 || q == (p + 1)) errx(1, "host: invalid netmask '%s'", p); if ((ps = malloc(strlen(s) - strlen(p) + 1)) == NULL) err(1, "host: calloc"); strlcpy(ps, s, strlen(s) - strlen(p) + 1); } else { if ((ps = strdup(s)) == NULL) err(1, "host: strdup"); mask = -1; } /* Does interface with this name exist? */ if (cont && (ipa = host_if(ps, mask)) != NULL) cont = 0; /* IPv4 address? */ if (cont && (ipa = host_v4(s, mask == -1 ? 32 : mask)) != NULL) cont = 0; /* IPv6 address? */ if (cont && (ipa = host_v6(ps, mask == -1 ? 128 : mask)) != NULL) cont = 0; /* dns lookup */ if (cont && mask == -1 && (ipa = host_dns(s, mask)) != NULL) cont = 0; free(ps); if (ipa == NULL || cont == 1) { fprintf(stderr, "no IP address found for %s\n", s); return (NULL); } return (ipa); } struct ipsec_addr_wrap * host_v6(const char *s, int prefixlen) { struct ipsec_addr_wrap *ipa = NULL; struct addrinfo hints, *res; char hbuf[NI_MAXHOST]; bzero(&hints, sizeof(struct addrinfo)); hints.ai_family = AF_INET6; hints.ai_socktype = SOCK_STREAM; hints.ai_flags = AI_NUMERICHOST; if (getaddrinfo(s, NULL, &hints, &res)) return (NULL); if (res->ai_next) err(1, "host_v6: numeric hostname expanded to multiple item"); ipa = calloc(1, sizeof(struct ipsec_addr_wrap)); if (ipa == NULL) err(1, "host_v6: calloc"); ipa->af = res->ai_family; memcpy(&ipa->address, res->ai_addr, sizeof(struct sockaddr_in6)); if (prefixlen > 128) prefixlen = 128; ipa->next = NULL; ipa->tail = ipa; set_ipmask(ipa, prefixlen); if (getnameinfo(res->ai_addr, res->ai_addrlen, hbuf, sizeof(hbuf), NULL, 0, NI_NUMERICHOST)) { errx(1, "could not get a numeric hostname"); } if (prefixlen != 128) { ipa->netaddress = 1; asprintf(&ipa->name, "%s/%d", hbuf, prefixlen); } else ipa->name = strdup(hbuf); if (ipa->name == NULL) err(1, "host_v6: strdup"); freeaddrinfo(res); return (ipa); } struct ipsec_addr_wrap * host_v4(const char *s, int mask) { struct ipsec_addr_wrap *ipa = NULL; struct sockaddr_in ina; int bits = 32; bzero(&ina, sizeof(ina)); if (strrchr(s, '/') != NULL) { if ((bits = inet_net_pton(AF_INET, s, &ina.sin_addr, sizeof(ina.sin_addr))) == -1) return (NULL); } else { if (inet_pton(AF_INET, s, &ina.sin_addr) != 1) return (NULL); } ipa = calloc(1, sizeof(struct ipsec_addr_wrap)); if (ipa == NULL) err(1, "host_v4: calloc"); ina.sin_family = AF_INET; ina.sin_len = sizeof(ina); memcpy(&ipa->address, &ina, sizeof(ina)); ipa->name = strdup(s); if (ipa->name == NULL) err(1, "host_v4: strdup"); ipa->af = AF_INET; ipa->next = NULL; ipa->tail = ipa; set_ipmask(ipa, bits); if (strrchr(s, '/') != NULL) ipa->netaddress = 1; return (ipa); } struct ipsec_addr_wrap * host_dns(const char *s, int mask) { struct ipsec_addr_wrap *ipa = NULL, *head = NULL; struct addrinfo hints, *res0, *res; int error; char hbuf[NI_MAXHOST]; bzero(&hints, sizeof(struct addrinfo)); hints.ai_family = PF_UNSPEC; hints.ai_socktype = SOCK_STREAM; error = getaddrinfo(s, NULL, &hints, &res0); if (error) return (NULL); for (res = res0; res; res = res->ai_next) { if (res->ai_family != AF_INET && res->ai_family != AF_INET6) continue; ipa = calloc(1, sizeof(struct ipsec_addr_wrap)); if (ipa == NULL) err(1, "host_dns: calloc"); switch (res->ai_family) { case AF_INET: memcpy(&ipa->address, res->ai_addr, sizeof(struct sockaddr_in)); break; case AF_INET6: memcpy(&ipa->address, res->ai_addr, sizeof(struct sockaddr_in6)); break; } error = getnameinfo(res->ai_addr, res->ai_addrlen, hbuf, sizeof(hbuf), NULL, 0, NI_NUMERICHOST); if (error) err(1, "host_dns: getnameinfo"); ipa->name = strdup(hbuf); if (ipa->name == NULL) err(1, "host_dns: strdup"); ipa->af = res->ai_family; ipa->next = NULL; ipa->tail = ipa; if (head == NULL) head = ipa; else { head->tail->next = ipa; head->tail = ipa; } /* * XXX for now, no netmask support for IPv6. * but since there's no way to specify address family, once you * have IPv6 address on a host, you cannot use dns/netmask * syntax. */ if (ipa->af == AF_INET) set_ipmask(ipa, mask == -1 ? 32 : mask); else if (mask != -1) err(1, "host_dns: cannot apply netmask " "on non-IPv4 address"); } freeaddrinfo(res0); return (head); } struct ipsec_addr_wrap * host_if(const char *s, int mask) { struct ipsec_addr_wrap *ipa = NULL; if (ifa_exists(s)) ipa = ifa_lookup(s); return (ipa); } struct ipsec_addr_wrap * host_any(void) { struct ipsec_addr_wrap *ipa; ipa = calloc(1, sizeof(struct ipsec_addr_wrap)); if (ipa == NULL) err(1, "host_any: calloc"); ipa->af = AF_UNSPEC; ipa->netaddress = 1; ipa->tail = ipa; return (ipa); } /* interface lookup routintes */ struct ipsec_addr_wrap *iftab; void ifa_load(void) { struct ifaddrs *ifap, *ifa; struct ipsec_addr_wrap *n = NULL, *h = NULL; if (getifaddrs(&ifap) < 0) err(1, "ifa_load: getifaddrs"); for (ifa = ifap; ifa; ifa = ifa->ifa_next) { if (!(ifa->ifa_addr->sa_family == AF_INET || ifa->ifa_addr->sa_family == AF_INET6 || ifa->ifa_addr->sa_family == AF_LINK)) continue; n = calloc(1, sizeof(struct ipsec_addr_wrap)); if (n == NULL) err(1, "ifa_load: calloc"); n->af = ifa->ifa_addr->sa_family; if ((n->name = strdup(ifa->ifa_name)) == NULL) err(1, "ifa_load: strdup"); if (n->af == AF_INET) { n->af = AF_INET; memcpy(&n->address, ifa->ifa_addr, sizeof(struct sockaddr_in)); memcpy(&n->mask, ifa->ifa_addr, sizeof(struct sockaddr_in)); } else if (n->af == AF_INET6) { n->af = AF_INET6; memcpy(&n->address, ifa->ifa_addr, sizeof(struct sockaddr_in6)); memcpy(&n->mask, ifa->ifa_addr, sizeof(struct sockaddr_in6)); } n->next = NULL; n->tail = n; if (h == NULL) h = n; else { h->tail->next = n; h->tail = n; } } iftab = h; freeifaddrs(ifap); } int ifa_exists(const char *ifa_name) { struct ipsec_addr_wrap *n; struct ifgroupreq ifgr; int s; if (iftab == NULL) ifa_load(); /* check wether this is a group */ if ((s = socket(AF_INET, SOCK_DGRAM, 0)) == -1) err(1, "ifa_exists: socket"); bzero(&ifgr, sizeof(ifgr)); strlcpy(ifgr.ifgr_name, ifa_name, sizeof(ifgr.ifgr_name)); if (ioctl(s, SIOCGIFGMEMB, (caddr_t)&ifgr) == 0) { close(s); return (1); } close(s); for (n = iftab; n; n = n->next) { if (n->af == AF_LINK && !strncmp(n->name, ifa_name, IFNAMSIZ)) return (1); } return (0); } struct ipsec_addr_wrap * ifa_grouplookup(const char *ifa_name) { struct ifg_req *ifg; struct ifgroupreq ifgr; int s; size_t len; struct ipsec_addr_wrap *n, *h = NULL, *hn; if ((s = socket(AF_INET, SOCK_DGRAM, 0)) == -1) err(1, "socket"); bzero(&ifgr, sizeof(ifgr)); strlcpy(ifgr.ifgr_name, ifa_name, sizeof(ifgr.ifgr_name)); if (ioctl(s, SIOCGIFGMEMB, (caddr_t)&ifgr) == -1) { close(s); return (NULL); } len = ifgr.ifgr_len; if ((ifgr.ifgr_groups = calloc(1, len)) == NULL) err(1, "calloc"); if (ioctl(s, SIOCGIFGMEMB, (caddr_t)&ifgr) == -1) err(1, "ioctl"); for (ifg = ifgr.ifgr_groups; ifg && len >= sizeof(struct ifg_req); ifg++) { len -= sizeof(struct ifg_req); if ((n = ifa_lookup(ifg->ifgrq_member)) == NULL) continue; if (h == NULL) h = n; else { for (hn = h; hn->next != NULL; hn = hn->next) ; /* nothing */ hn->next = n; n->tail = hn; } } free(ifgr.ifgr_groups); close(s); return (h); } struct ipsec_addr_wrap * ifa_lookup(const char *ifa_name) { struct ipsec_addr_wrap *p = NULL, *h = NULL, *n = NULL; struct sockaddr_in6 *in6; u_int8_t *s6; if (iftab == NULL) ifa_load(); if ((n = ifa_grouplookup(ifa_name)) != NULL) return (n); for (p = iftab; p; p = p->next) { if (p->af != AF_INET && p->af != AF_INET6) continue; if (strncmp(p->name, ifa_name, IFNAMSIZ)) continue; n = calloc(1, sizeof(struct ipsec_addr_wrap)); if (n == NULL) err(1, "ifa_lookup: calloc"); memcpy(n, p, sizeof(struct ipsec_addr_wrap)); if ((n->name = strdup(p->name)) == NULL) err(1, "ifa_lookup: strdup"); switch (n->af) { case AF_INET: set_ipmask(n, 32); break; case AF_INET6: in6 = (struct sockaddr_in6 *)&n->address; s6 = (u_int8_t *)&in6->sin6_addr.s6_addr; /* route/show.c and bgpd/util.c give KAME credit */ if (IN6_IS_ADDR_LINKLOCAL(&in6->sin6_addr)) { u_int16_t tmp16; /* for now we can not handle link local, * therefore bail for now */ free(n); continue; memcpy(&tmp16, &s6[2], sizeof(tmp16)); /* use this when we support link-local * n->??.scopeid = ntohs(tmp16); */ s6[2] = 0; s6[3] = 0; } set_ipmask(n, 128); break; } n->next = NULL; n->tail = n; if (h == NULL) h = n; else { h->tail->next = n; h->tail = n; } } return (h); } void set_ipmask(struct ipsec_addr_wrap *address, u_int8_t b) { address->mask = b; } const struct ipsec_xf * parse_xf(const char *name, u_int length, const struct ipsec_xf xfs[]) { int i; for (i = 0; xfs[i].name != NULL; i++) { if (strncmp(name, xfs[i].name, strlen(name))) continue; if (length == 0 || length == xfs[i].length) return &xfs[i]; } return (NULL); } const char * print_xf(u_int id, u_int length, const struct ipsec_xf xfs[]) { int i; for (i = 0; xfs[i].name != NULL; i++) { if (xfs[i].id == id) { if (length == 0 || length == xfs[i].length) return (xfs[i].name); } } return ("unknown"); } size_t keylength_xf(u_int saproto, u_int type, u_int id) { int i; const struct ipsec_xf *xfs; switch (type) { case IKEV2_XFORMTYPE_ENCR: if (saproto == IKEV2_SAPROTO_IKE) xfs = ikeencxfs; else xfs = ipsecencxfs; break; case IKEV2_XFORMTYPE_INTEGR: xfs = authxfs; break; default: return (0); } for (i = 0; xfs[i].name != NULL; i++) { if (xfs[i].id == id) return (xfs[i].length * 8); } return (0); } size_t noncelength_xf(u_int type, u_int id) { const struct ipsec_xf *xfs = ipsecencxfs; int i; if (type != IKEV2_XFORMTYPE_ENCR) return (0); for (i = 0; xfs[i].name != NULL; i++) if (xfs[i].id == id) return (xfs[i].nonce * 8); return (0); } void print_user(struct iked_user *usr) { print_verbose("user \"%s\" \"%s\"\n", usr->usr_name, usr->usr_pass); } void print_policy(struct iked_policy *pol) { struct iked_proposal *pp; struct iked_transform *xform; struct iked_flow *flow; struct iked_cfg *cfg; u_int i, j; const struct ipsec_xf *xfs = NULL; print_verbose("ikev2"); if (pol->pol_name[0] != '\0') print_verbose(" \"%s\"", pol->pol_name); if (pol->pol_flags & IKED_POLICY_DEFAULT) print_verbose(" default"); if (pol->pol_flags & IKED_POLICY_ACTIVE) print_verbose(" active"); else print_verbose(" passive"); print_verbose(" %s", print_xf(pol->pol_saproto, 0, saxfs)); if (pol->pol_ipproto) print_verbose(" proto %s", print_proto(pol->pol_ipproto)); TAILQ_FOREACH(flow, &pol->pol_flows, flow_entry) { print_verbose(" from %s", print_host(&flow->flow_src.addr, NULL, 0)); if (flow->flow_src.addr_af != AF_UNSPEC && flow->flow_src.addr_net) print_verbose("/%d", flow->flow_src.addr_mask); if (flow->flow_src.addr_port) print_verbose(" port %d", ntohs(flow->flow_src.addr_port)); print_verbose(" to %s", print_host(&flow->flow_dst.addr, NULL, 0)); if (flow->flow_dst.addr_af != AF_UNSPEC && flow->flow_dst.addr_net) print_verbose("/%d", flow->flow_dst.addr_mask); if (flow->flow_dst.addr_port) print_verbose(" port %d", ntohs(flow->flow_dst.addr_port)); } if ((pol->pol_flags & IKED_POLICY_DEFAULT) == 0) { print_verbose(" local %s", print_host(&pol->pol_local, NULL, 0)); if (pol->pol_local.ss_family != AF_UNSPEC && pol->pol_localnet) print_verbose("/%d", pol->pol_localmask); print_verbose(" peer %s", print_host(&pol->pol_peer, NULL, 0)); if (pol->pol_peer.ss_family != AF_UNSPEC && pol->pol_peernet) print_verbose("/%d", pol->pol_peermask); } TAILQ_FOREACH(pp, &pol->pol_proposals, prop_entry) { if (!pp->prop_nxforms) continue; if (pp->prop_protoid == IKEV2_SAPROTO_IKE) print_verbose(" ikesa"); else print_verbose(" childsa"); for (j = 0; ikev2_xformtype_map[j].cm_type != 0; j++) { xfs = NULL; for (i = 0; i < pp->prop_nxforms; i++) { xform = pp->prop_xforms + i; if (xform->xform_type != ikev2_xformtype_map[j].cm_type) continue; if (xfs != NULL) { print_verbose(","); } else { switch (xform->xform_type) { case IKEV2_XFORMTYPE_INTEGR: print_verbose(" auth "); xfs = authxfs; break; case IKEV2_XFORMTYPE_ENCR: print_verbose(" enc "); if (pp->prop_protoid == IKEV2_SAPROTO_IKE) xfs = ikeencxfs; else xfs = ipsecencxfs; break; case IKEV2_XFORMTYPE_PRF: print_verbose(" prf "); xfs = prfxfs; break; case IKEV2_XFORMTYPE_DH: print_verbose(" group "); xfs = groupxfs; break; default: continue; } } print_verbose("%s", print_xf(xform->xform_id, xform->xform_length / 8, xfs)); } } } if (pol->pol_localid.id_length != 0) print_verbose(" srcid %s", pol->pol_localid.id_data); if (pol->pol_peerid.id_length != 0) print_verbose(" dstid %s", pol->pol_peerid.id_data); if (pol->pol_auth.auth_method == IKEV2_AUTH_SHARED_KEY_MIC) { print_verbose(" psk 0x"); for (i = 0; i < pol->pol_auth.auth_length; i++) print_verbose("%02x", pol->pol_auth.auth_data[i]); } else { if (pol->pol_auth.auth_eap) print_verbose(" eap \"%s\"", print_map(pol->pol_auth.auth_eap, eap_type_map)); else print_verbose(" %s", print_xf(pol->pol_auth.auth_method, 0, methodxfs)); } for (i = 0; i < pol->pol_ncfg; i++) { cfg = &pol->pol_cfg[i]; print_verbose(" config %s %s", print_xf(cfg->cfg_type, cfg->cfg.address.addr_af, cpxfs), print_host(&cfg->cfg.address.addr, NULL, 0)); } if (pol->pol_tag[0] != '\0') print_verbose(" tag \"%s\"", pol->pol_tag); if (pol->pol_tap != 0) print_verbose(" tap \"enc%u\"", pol->pol_tap); print_verbose("\n"); } void copy_transforms(u_int type, const struct ipsec_xf *xf, const struct ipsec_xf *xfs, struct iked_transform *dst, size_t ndst, u_int *n, struct iked_transform *src, size_t nsrc) { u_int i; struct iked_transform *a, *b; if (xf != NULL) { if (*n >= ndst) return; b = dst + (*n)++; b->xform_type = type; b->xform_id = xf->id; b->xform_keylength = xf->length * 8; b->xform_length = xf->keylength * 8; return; } for (i = 0; i < nsrc; i++) { a = src + i; if (a->xform_type != type) continue; if (*n >= ndst) return; b = dst + (*n)++; memcpy(b, a, sizeof(*b)); } } int create_ike(char *name, u_int8_t ipproto, struct ipsec_hosts *hosts, struct ipsec_hosts *peers, struct ipsec_mode *ike_sa, struct ipsec_mode *ipsec_sa, u_int8_t saproto, u_int8_t mode, char *srcid, char *dstid, struct iked_auth *authtype, struct ipsec_filters *filter, struct ipsec_addr_wrap *ikecfg) { struct ipsec_addr_wrap *ipa, *ipb; struct iked_policy pol; struct iked_proposal prop[2]; u_int j; struct iked_transform ikexforms[64], espxforms[64]; struct iked_flow flows[64]; static u_int policy_id = 0; struct iked_cfg *cfg; bzero(&pol, sizeof(pol)); bzero(&prop, sizeof(prop)); pol.pol_id = ++policy_id; pol.pol_saproto = saproto; pol.pol_ipproto = ipproto; pol.pol_flags = mode; memcpy(&pol.pol_auth, authtype, sizeof(struct iked_auth)); if (name != NULL) { if (strlcpy(pol.pol_name, name, sizeof(pol.pol_name)) >= sizeof(pol.pol_name)) { yyerror("name too long"); return (-1); } } else { snprintf(pol.pol_name, sizeof(pol.pol_name), "policy%d", policy_id); } if (srcid) { pol.pol_localid.id_type = get_id_type(srcid); pol.pol_localid.id_length = strlen(srcid); if (strlcpy((char *)pol.pol_localid.id_data, srcid, IKED_ID_SIZE) >= IKED_ID_SIZE) { yyerror("srcid too long"); return (-1); } } if (dstid) { pol.pol_peerid.id_type = get_id_type(dstid); pol.pol_peerid.id_length = strlen(dstid); if (strlcpy((char *)pol.pol_peerid.id_data, dstid, IKED_ID_SIZE) >= IKED_ID_SIZE) { yyerror("dstid too long"); return (-1); } } if (filter != NULL) { if (filter->tag) strlcpy(pol.pol_tag, filter->tag, sizeof(pol.pol_tag)); pol.pol_tap = filter->tap; } if (peers == NULL) { if (pol.pol_flags & IKED_POLICY_ACTIVE) { yyerror("active mode requires peer specification"); return (-1); } pol.pol_flags |= IKED_POLICY_DEFAULT; } if (peers && peers->src && peers->dst && (peers->src->af != AF_UNSPEC) && (peers->dst->af != AF_UNSPEC) && (peers->src->af != peers->dst->af)) fatalx("create_ike: address family mismatch"); ipa = ipb = NULL; if (peers) { if (peers->src) ipa = peers->src; if (peers->dst) ipb = peers->dst; if (ipa == NULL && ipb == NULL) { if (hosts->src && hosts->src->next == NULL) ipa = hosts->src; if (hosts->dst && hosts->dst->next == NULL) ipb = hosts->dst; } } if (ipa == NULL && ipb == NULL) { yyerror("could not get local/peer specification"); return (-1); } if (pol.pol_flags & IKED_POLICY_ACTIVE) { if (ipb == NULL || ipb->netaddress || (ipa != NULL && ipa->netaddress)) { yyerror("active mode requires local/peer address"); return (-1); } } if (ipa) { memcpy(&pol.pol_local, &ipa->address, sizeof(pol.pol_local)); pol.pol_localmask = ipa->mask; pol.pol_localnet = ipa->netaddress; } if (ipb) { memcpy(&pol.pol_peer, &ipb->address, sizeof(pol.pol_peer)); pol.pol_peermask = ipb->mask; pol.pol_peernet = ipb->netaddress; } TAILQ_INIT(&pol.pol_proposals); TAILQ_INIT(&pol.pol_flows); prop[0].prop_id = ++pol.pol_nproposals; prop[0].prop_protoid = IKEV2_SAPROTO_IKE; if (ike_sa == NULL || ike_sa->xfs == NULL) { prop[0].prop_nxforms = ikev2_default_nike_transforms; prop[0].prop_xforms = ikev2_default_ike_transforms; } else { j = 0; copy_transforms(IKEV2_XFORMTYPE_INTEGR, ike_sa->xfs->authxf, authxfs, ikexforms, nitems(ikexforms), &j, ikev2_default_ike_transforms, ikev2_default_nike_transforms); copy_transforms(IKEV2_XFORMTYPE_ENCR, ike_sa->xfs->encxf, ikeencxfs, ikexforms, nitems(ikexforms), &j, ikev2_default_ike_transforms, ikev2_default_nike_transforms); copy_transforms(IKEV2_XFORMTYPE_DH, ike_sa->xfs->groupxf, groupxfs, ikexforms, nitems(ikexforms), &j, ikev2_default_ike_transforms, ikev2_default_nike_transforms); copy_transforms(IKEV2_XFORMTYPE_PRF, ike_sa->xfs->prfxf, prfxfs, ikexforms, nitems(ikexforms), &j, ikev2_default_ike_transforms, ikev2_default_nike_transforms); prop[0].prop_nxforms = j; prop[0].prop_xforms = ikexforms; } TAILQ_INSERT_TAIL(&pol.pol_proposals, &prop[0], prop_entry); prop[1].prop_id = ++pol.pol_nproposals; prop[1].prop_protoid = saproto; if (ipsec_sa == NULL || ipsec_sa->xfs == NULL) { prop[1].prop_nxforms = ikev2_default_nesp_transforms; prop[1].prop_xforms = ikev2_default_esp_transforms; } else { j = 0; if (ipsec_sa->xfs->encxf && ipsec_sa->xfs->encxf->noauth && ipsec_sa->xfs->authxf) { yyerror("authentication is implicit for %s", ipsec_sa->xfs->encxf->name); return (-1); } if (ipsec_sa->xfs->encxf == NULL || (ipsec_sa->xfs->encxf && !ipsec_sa->xfs->encxf->noauth)) copy_transforms(IKEV2_XFORMTYPE_INTEGR, ipsec_sa->xfs->authxf, authxfs, espxforms, nitems(espxforms), &j, ikev2_default_esp_transforms, ikev2_default_nesp_transforms); copy_transforms(IKEV2_XFORMTYPE_ENCR, ipsec_sa->xfs->encxf, ipsecencxfs, espxforms, nitems(espxforms), &j, ikev2_default_esp_transforms, ikev2_default_nesp_transforms); copy_transforms(IKEV2_XFORMTYPE_DH, ipsec_sa->xfs->groupxf, groupxfs, espxforms, nitems(espxforms), &j, ikev2_default_esp_transforms, ikev2_default_nesp_transforms); copy_transforms(IKEV2_XFORMTYPE_ESN, NULL, NULL, espxforms, nitems(espxforms), &j, ikev2_default_esp_transforms, ikev2_default_nesp_transforms); prop[1].prop_nxforms = j; prop[1].prop_xforms = espxforms; } TAILQ_INSERT_TAIL(&pol.pol_proposals, &prop[1], prop_entry); if (hosts == NULL || hosts->src == NULL || hosts->dst == NULL) fatalx("create_ike: no traffic selectors/flows"); for (j = 0, ipa = hosts->src, ipb = hosts->dst; ipa && ipb; ipa = ipa->next, ipb = ipb->next, j++) { memcpy(&flows[j].flow_src.addr, &ipa->address, sizeof(ipa->address)); flows[j].flow_src.addr_af = ipa->af; flows[j].flow_src.addr_mask = ipa->mask; flows[j].flow_src.addr_net = ipa->netaddress; flows[j].flow_src.addr_port = hosts->sport; memcpy(&flows[j].flow_dst.addr, &ipb->address, sizeof(ipb->address)); flows[j].flow_dst.addr_af = ipb->af; flows[j].flow_dst.addr_mask = ipb->mask; flows[j].flow_dst.addr_net = ipb->netaddress; flows[j].flow_dst.addr_port = hosts->dport; pol.pol_nflows++; TAILQ_INSERT_TAIL(&pol.pol_flows, &flows[j], flow_entry); } for (j = 0, ipa = ikecfg; ipa; ipa = ipa->next, j++) { if (j >= IKED_CFG_MAX) break; cfg = &pol.pol_cfg[j]; pol.pol_ncfg++; cfg->cfg_action = ipa->action; cfg->cfg_type = ipa->type; memcpy(&cfg->cfg.address.addr, &ipa->address, sizeof(ipa->address)); cfg->cfg.address.addr_mask = ipa->mask; cfg->cfg.address.addr_net = ipa->netaddress; cfg->cfg.address.addr_af = ipa->af; } config_setpolicy(env, &pol, PROC_IKEV2); rules++; return (0); } int create_user(const char *user, const char *pass) { struct iked_user usr; bzero(&usr, sizeof(usr)); if (*user == '\0' || (strlcpy(usr.usr_name, user, sizeof(usr.usr_name)) >= sizeof(usr.usr_name))) { yyerror("invalid user name"); return (-1); } if (*pass == '\0' || (strlcpy(usr.usr_pass, pass, sizeof(usr.usr_pass)) >= sizeof(usr.usr_pass))) { yyerror("invalid password"); return (-1); } config_setuser(env, &usr, PROC_IKEV2); rules++; return (0); }