/* * $Id$ * * Copyright (C) 2005-2006 iptelorg GmbH * * This file is part of ser, a free SIP server. * * ser is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version * * For a license to use the ser software under conditions * other than those described here, or to purchase support for this * software, please contact iptel.org by e-mail at the following addresses: * info@iptel.org * * ser is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * * History: * -------- * 2005-12-19 select framework, basic core functions (mma) * 2006-01-19 multiple nested calls, IS_ALIAS -> NESTED flag renamed (mma) * 2006-02-17 fixup call for select_anyhdr (mma) * 2007-01-26 date, identity, identity_info support added (gergo) */ /*! * \file * \brief SIP-router core :: * \ingroup core * Module: \ref core */ #include #include "select.h" #include "select_core.h" #include "select_buf.h" #include "dprint.h" #include "trim.h" #include "ut.h" #include "globals.h" #include "parser/parser_f.h" #include "parser/hf.h" #include "parser/parse_from.h" #include "parser/parse_to.h" #include "parser/contact/parse_contact.h" #include "parser/contact/contact.h" #include "parser/parse_via.h" #include "parser/parse_uri.h" #include "parser/parse_event.h" #include "parser/parse_rr.h" #include "parser/digest/digest.h" #include "mem/mem.h" #include "parser/parse_hname2.h" #include "ip_addr.h" #include "parser/parse_expires.h" #include "parser/parse_refer_to.h" #include "parser/parse_rpid.h" #include "parser/parse_content.h" #include "parser/parse_body.h" #include "dset.h" #include "sr_module.h" #include "resolve.h" #include "forward.h" #define RETURN0_res(x) {*res=(x);return 0;} #define TRIM_RET0_res(x) {*res=(x);trim(res);return 0;} #define TEST_RET_res_body(x) if (x){*res=(x)->body;return 0;}else return 1; #define TEST_RET_res_value(x) if (x){*res=(x)->value;return 0;}else return 1; int select_ruri(str* res, select_t* s, struct sip_msg* msg) { /* Parse the RURI even if it is not needed right now * because the nested select calls can access the * parsed URI in this case. * Go ahead even if the parsing fails, so the * value of the broken RURI can be accessed at least. * Subsequent select calls will fail when they try to parse * the URI anyway. (Miklos) */ parse_sip_msg_uri(msg); if (msg->parsed_uri_ok) select_uri_p = &msg->parsed_uri; if (msg->first_line.type==SIP_REQUEST) { if(msg->new_uri.s) { RETURN0_res(msg->new_uri); } else { RETURN0_res(msg->first_line.u.request.uri); } } return -1; } int select_dst_uri(str* res, select_t* s, struct sip_msg* msg) { if (msg->first_line.type!=SIP_REQUEST) return -1; RETURN0_res(msg->dst_uri); } int select_next_hop(str* res, select_t* s, struct sip_msg* msg) { if (msg->first_line.type==SIP_REQUEST) { if(msg->dst_uri.s) { RETURN0_res(msg->dst_uri); } else if(msg->new_uri.s) { if (msg->parsed_uri_ok) select_uri_p = &msg->parsed_uri; RETURN0_res(msg->new_uri); } else { if (msg->parsed_uri_ok) select_uri_p = &msg->parsed_uri; else if (msg->parsed_orig_ruri_ok) select_uri_p = &msg->parsed_orig_ruri; RETURN0_res(msg->first_line.u.request.uri); } } return -1; } int select_next_hop_src_ip(str* res, select_t* s, struct sip_msg* msg) { struct socket_info* socket_info; union sockaddr_union to; char proto; struct sip_uri *u, next_hop; str *dst_host; if (msg->first_line.type!=SIP_REQUEST) return -1; if (msg->force_send_socket) { *res = msg->force_send_socket->address_str; return 0; } if (msg->dst_uri.len) { if (parse_uri(msg->dst_uri.s, msg->dst_uri.len, &next_hop) < 0) return -1; u = &next_hop; } else { if (parse_sip_msg_uri(msg) < 0) return -1; u = &msg->parsed_uri; } #ifdef USE_TLS if (u->type==SIPS_URI_T) proto = PROTO_TLS; else #endif proto = u->proto; #ifdef HONOR_MADDR if (u->maddr_val.s && u->maddr_val.len) dst_host = &u->maddr_val; else #endif dst_host = &u->host; if (sip_hostport2su(&to, dst_host, u->port_no, &proto) < 0) return -1; socket_info = get_send_socket(msg, &to, proto); if (!socket_info) return -1; *res = socket_info->address_str; return 0; } #define SELECT_uri_header(_name_) \ int select_##_name_(str* res, select_t* s, struct sip_msg* msg) \ { \ if (parse_##_name_##_header(msg)<0) \ return -1; \ RETURN0_res(msg->_name_->body); \ } \ \ int select_##_name_##_uri(str* res, select_t* s, struct sip_msg* msg) \ { \ if (parse_##_name_##_header(msg)<0) \ return -1; \ RETURN0_res(get_##_name_(msg)->uri); \ } \ \ int select_##_name_##_tag(str* res, select_t* s, struct sip_msg* msg) \ { \ if (parse_##_name_##_header(msg)<0) \ return -1; \ RETURN0_res(get_##_name_(msg)->tag_value); \ } \ \ int select_##_name_##_name(str* res, select_t* s, struct sip_msg* msg) \ { \ if (parse_##_name_##_header(msg)<0) \ return -1; \ RETURN0_res(get_##_name_(msg)->display); \ } \ \ int select_##_name_##_params(str* res, select_t* s, struct sip_msg* msg) \ { \ struct to_param* p; \ if (parse_##_name_##_header(msg)<0) \ return -1; \ \ p = get_##_name_(msg)->param_lst; \ while (p) { \ if ((p->name.len==s->params[s->n-1].v.s.len) \ && !strncasecmp(p->name.s, s->params[s->n-1].v.s.s,p->name.len)) { \ RETURN0_res(p->value); \ } \ p = p->next; \ } \ return 1; \ } SELECT_uri_header(to) SELECT_uri_header(from) SELECT_uri_header(refer_to) SELECT_uri_header(rpid) int parse_contact_header( struct sip_msg *msg) { if ( !msg->contact && ( parse_headers(msg,HDR_CONTACT_F,0)==-1 || !msg->contact)) { DBG("bad msg or missing CONTACT header\n"); return -1; } if (msg->contact->parsed) return 0; return parse_contact(msg->contact); } #define get_contact(msg) ((contact_body_t*)(msg->contact->parsed)) int select_contact(str* res, select_t* s, struct sip_msg* msg) { if (parse_contact_header(msg)<0) return -1; RETURN0_res(msg->contact->body); } int select_contact_uri(str* res, select_t* s, struct sip_msg* msg) { contact_t* c; if (parse_contact_header(msg)<0) return -1; c = get_contact(msg)->contacts; if (!c) return 1; RETURN0_res(c->uri); } int select_contact_name(str* res, select_t* s, struct sip_msg* msg) { contact_t* c; if (parse_contact_header(msg)<0) return -1; c = get_contact(msg)->contacts; if (!c) return 1; RETURN0_res(c->name); } int select_contact_params_spec(str* res, select_t* s, struct sip_msg* msg) { contact_t* c; if (s->params[s->n-1].type != SEL_PARAM_DIV) { BUG("Last parameter should have type DIV (converted)\n"); return -1; } if (parse_contact_header(msg)<0) return -1; c = get_contact(msg)->contacts; if (!c) return 1; switch (s->params[s->n-1].v.i) { case SEL_PARAM_Q: TEST_RET_res_body(c->q); case SEL_PARAM_EXPIRES: TEST_RET_res_body(c->expires); case SEL_PARAM_METHODS: TEST_RET_res_body(c->methods); case SEL_PARAM_RECEIVED: TEST_RET_res_body(c->received); case SEL_PARAM_INSTANCE: TEST_RET_res_body(c->instance); default: BUG("Unexpected parameter value \"%d\"\n", s->params[s->n-1].v.i); return -1; } return -1; } int select_contact_params(str* res, select_t* s, struct sip_msg* msg) { contact_t* c; param_t* p; if (parse_contact_header(msg)<0) return -1; c = get_contact(msg)->contacts; if (!c) return 1; p = c->params; while (p) { if ((p->name.len==s->params[s->n-1].v.s.len) && !strncasecmp(p->name.s, s->params[s->n-1].v.s.s,p->name.len)) { RETURN0_res(p->body) } p = p->next; } return 1; } int parse_via_header( struct sip_msg *msg, int n, struct via_body** q) { struct hdr_field *p; struct via_body *pp = NULL; int i; switch (n) { case 1: case 2: if (!msg->h_via1 && (parse_headers(msg,HDR_VIA_F,0)==-1 || !msg->h_via1)) { DBG("bad msg or missing VIA1 header \n"); return -1; } pp = msg->h_via1->parsed; if (n==1) break; pp = pp->next; if (pp) break; if (!msg->h_via2 && (parse_headers(msg,HDR_VIA2_F,0)==-1 || !msg->h_via2)) { DBG("bad msg or missing VIA2 header \n"); return -1; } pp = msg->h_via2->parsed; break; default: if (!msg->eoh && (parse_headers(msg,HDR_EOH_F,0)==-1 || !msg->eoh)) { ERR("bad msg while parsing to EOH \n"); return -1; } p = msg->h_via1; i = n; while (i && p) { if (p->type == HDR_VIA_T) { i--; pp = p->parsed; while (i && (pp->next)) { i--; pp = pp->next; } } p = p->next; } if (i > 0) { DBG("missing VIA[%d] header\n", n); return -1; } } if (pp) { *q = pp; return 0; } else return -1; } int select_via(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; if (((s->n == 1) || (s->params[1].type == SEL_PARAM_STR)) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; res->s=p->name.s; res->len=p->bsize; trim(res); return 0; } int select_via_name(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->name); } int select_via_version(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->version); } int select_via_transport(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->transport); } int select_via_host(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->host); } int select_via_port(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->port_str); } int select_via_comment(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; RETURN0_res(p->comment); } int select_via_params(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; struct via_param *q; // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; for (q = p->param_lst;q;q=q->next) { if ((q->name.len==s->params[s->n-1].v.s.len) && !strncasecmp(q->name.s, s->params[s->n-1].v.s.s,q->name.len)) { RETURN0_res(q->value); } } return 1; } int select_via_params_spec(str* res, select_t* s, struct sip_msg* msg) { struct via_body *p = NULL; if (s->params[s->n-1].type != SEL_PARAM_DIV) { BUG("Last parameter should have type DIV (converted)\n"); return -1; } // it's not neccessary to test if (s->n > 1) if ((s->params[1].type == SEL_PARAM_STR) && (parse_via_header(msg, 1, &p)<0)) return -1; else if (parse_via_header(msg, s->params[1].v.i, &p)<0) return -1; if (!p) return -1; switch (s->params[s->n-1].v.i) { case SEL_PARAM_BRANCH: TEST_RET_res_value(p->branch); case SEL_PARAM_RECEIVED: TEST_RET_res_value(p->received); case SEL_PARAM_RPORT: TEST_RET_res_value(p->rport); case SEL_PARAM_I: TEST_RET_res_value(p->i); case SEL_PARAM_ALIAS: TEST_RET_res_value(p->alias); default: BUG("Unexpected parameter value \"%d\"\n", s->params[s->n-1].v.i); return -1; } return -1; } int select_msg(str* res, select_t* s, struct sip_msg* msg) { res->s = msg->buf; res->len = msg->len; return 0; } int select_msg_first_line(str* res, select_t* s, struct sip_msg* msg) { res->s=SIP_MSG_START(msg); res->len=msg->first_line.len; trim_trailing(res); return 0; } int select_msg_type(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, msg->first_line.type); } int select_msg_len(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, msg->len); } int select_msg_id(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, msg->id); } int select_msg_id_hex(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer_ex(res, msg->id, 16, 8); } int select_msg_flags(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, msg->flags); } int select_msg_body(str* res, select_t* s, struct sip_msg* msg) { res->s = get_body(msg); res->len = msg->buf+msg->len - res->s; return 0; } /* returns the sdp part of the message body */ int select_msg_body_sdp(str* res, select_t* sel, struct sip_msg* msg) { /* try to get the body part with application/sdp */ if ((res->s = get_body_part(msg, TYPE_APPLICATION, SUBTYPE_SDP, &res->len)) ) return 0; else return -1; } /* returns the value of the requested SDP line */ int select_sdp_line(str* res, select_t* sel, struct sip_msg* msg) { int len; char *buf; char *buf_end, *line_end; char line; if (msg == NULL) { if (res!=NULL) return -1; if (sel->n < 5) return -1; if (sel->params[4].type != SEL_PARAM_STR) { ERR("wrong parameter type"); return -1; } if ((sel->params[4].v.s.len < 1) || (sel->params[4].v.s.len > 2) || ((sel->params[4].v.s.len == 2) && (sel->params[4].v.s.s[1] != '=')) ) { ERR("wrong sdp line format: %.*s\n", sel->params[4].v.s.len, sel->params[4].v.s.s); return -1; } return 0; } /* try to get the body part with application/sdp */ if (!(buf = get_body_part(msg, TYPE_APPLICATION, SUBTYPE_SDP, &len)) ) return -1; buf_end = buf + len; line = *(sel->params[4].v.s.s); while (buf < buf_end) { if (*buf == line) { /* the requested SDP line is found, return its value */ buf++; if ((buf >= buf_end) || (*buf != '=')) { ERR("wrong SDP line format\n"); return -1; } buf++; line_end = buf; while ((line_end < buf_end) && (*line_end != '\n')) line_end++; if (line_end >= buf_end) { ERR("wrong SDP line format\n"); return -1; } line_end--; if (*line_end == '\r') line_end--; if (line_end < buf) { ERR("wrong SDP line format\n"); return -1; } res->s = buf; res->len = line_end - buf + 1; return 0; } while ((buf < buf_end) && (*buf != '\n')) buf++; buf++; } return -1; } int select_msg_header(str* res, select_t* s, struct sip_msg* msg) { /* get all headers */ char *c; res->s = SIP_MSG_START(msg) + msg->first_line.len; c = get_body(msg); res->len = c - res->s; return 0; } int select_anyheader(str* res, select_t* s, struct sip_msg* msg) { struct hdr_field *hf, *hf0; int hi; char c; struct hdr_field hdr; if(msg==NULL) { if (res!=NULL) return -1; /* "fixup" call, res & msg are NULL */ if (s->n <3) return -1; if (s->params[2].type==SEL_PARAM_STR) { /* replace _ with - (for P-xxx headers) */ for (hi=s->params[2].v.s.len-1; hi>0; hi--) if (s->params[2].v.s.s[hi]=='_') s->params[2].v.s.s[hi]='-'; /* if header name is parseable, parse it and set SEL_PARAM_DIV */ c=s->params[2].v.s.s[s->params[2].v.s.len]; s->params[2].v.s.s[s->params[2].v.s.len]=':'; if (parse_hname2(s->params[2].v.s.s,s->params[2].v.s.s+(s->params[2].v.s.len<3?4:s->params[2].v.s.len+1), &hdr)==0) { ERR("select_anyhdr:fixup_call:parse error\n"); return -1; } s->params[2].v.s.s[s->params[2].v.s.len]=c; if (hdr.type!=HDR_OTHER_T && hdr.type!=HDR_ERROR_T) { /* pkg_free(s->params[1].v.s.s); */ /* don't free it (the mem can leak only once at startup) * the parsed string can live inside larger string block * e.g. when xlog's select is parsed */ s->params[2].type = SEL_PARAM_DIV; s->params[2].v.i = hdr.type; } } return 1; } hf0 = NULL; /* extract header index if present */ if (s->param_offset[select_level+1] == 4) { if (s->params[3].type == SEL_PARAM_INT) { hi = s->params[3].v.i; } else { hi = -1; } } else { hi = 1; } /* we need to be sure we have parsed all headers */ if (!msg->eoh && (parse_headers(msg,HDR_EOH_F,0)==-1 || !msg->eoh)) { ERR("bad msg while parsing to EOH \n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { if(s->params[2].type==SEL_PARAM_DIV) { if (s->params[2].v.i!=hf->type) continue; } else if(s->params[2].type==SEL_PARAM_STR) { if (s->params[2].v.s.len!=hf->name.len) continue; if (strncasecmp(s->params[2].v.s.s, hf->name.s, hf->name.len)!=0) continue; } hf0 = hf; hi--; if (!hi) break; } if(hf0==NULL || hi>0) return 1; res->s = hf0->body.s; res->len = hf0->body.len; trim(res); return 0; } //ABSTRACT_F(select_anyheader_params) // Instead of ABSTRACT_F(select_anyheader_params) // use function which uses select_core_table // to avoid gcc warning about not used int select_anyheader_params(str* res, select_t* s, struct sip_msg* msg) { if (select_core_table.next) return -1; else return -1; } ABSTRACT_F(select_any_uri) static struct sip_uri uri; int select_uri_type(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { trim(res); if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } if (select_uri_p->type==ERROR_URI_T) return -1; uri_type_to_str(select_uri_p->type, res); return 0; } int select_uri_user(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } if (select_uri_p->flags & URI_USER_NORMALIZE) { if (!(res->s=get_static_buffer(select_uri_p->user.len))) return -1; if ((res->len=normalize_tel_user(res->s, (&select_uri_p->user)))==0) return 1; return 0; } RETURN0_res(select_uri_p->user); } /* search for a parameter with "name" * Return value: * 0: not found * 1: found * -1: error * * val is set to the value of the parameter. */ static inline int search_param(str params, char *name, int name_len, str *val) { param_hooks_t h; param_t *p, *list; if (params.s == NULL) return 0; if (parse_params(¶ms, CLASS_ANY, &h, &list) < 0) return -1; for (p = list; p; p=p->next) { if ((p->name.len == name_len) && (strncasecmp(p->name.s, name, name_len) == 0) ) { *val=p->body; free_params(list); return 1; } } free_params(list); return 0; } /* Return the value of the "rn" parameter if exists, otherwise the user name. * The user name is normalized if needed, i.e. visual separators are removed, * the "rn" param is always normalized. */ int select_uri_rn_user(str* res, select_t* s, struct sip_msg* msg) { int ret; str val; if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } /* search for the "rn" parameter */ if ((ret = search_param(select_uri_p->params, "rn", 2, &val)) != 0) goto done; if (select_uri_p->sip_params.s != select_uri_p->params.s) { /* check also the original sip: URI parameters */ if ((ret = search_param(select_uri_p->sip_params, "rn", 2, &val)) != 0) goto done; } if ((select_uri_p->flags & URI_USER_NORMALIZE) == 0) RETURN0_res(select_uri_p->user); /* else normalize the user name */ val = select_uri_p->user; done: if (ret < 0) return -1; /* error */ if (!(res->s=get_static_buffer(val.len))) return -1; if ((res->len=normalize_tel_user(res->s, &val))==0) return 1; return 0; } int select_uri_pwd(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } RETURN0_res(select_uri_p->passwd); } int select_uri_host(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } RETURN0_res(select_uri_p->host); } int select_uri_port(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } RETURN0_res(select_uri_p->port); } int select_uri_hostport(str* res, select_t* s, struct sip_msg* msg) { char* p; int size; if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } if (!select_uri_p->host.len) return -1; if (select_uri_p->port.len) { res->s=select_uri_p->host.s; res->len=select_uri_p->host.len+select_uri_p->port.len+1; return 0; } size=select_uri_p->host.len+5; if (!(p = get_static_buffer(size))) return -1; strncpy(p, select_uri_p->host.s, select_uri_p->host.len); switch (select_uri_p->type) { case SIPS_URI_T: case TELS_URI_T: strncpy(p+select_uri_p->host.len, ":5061", 5); break; case SIP_URI_T: case TEL_URI_T: strncpy(p+select_uri_p->host.len, ":5060", 5); break; case ERROR_URI_T: return -1; } res->s = p; res->len = size; return 0; } int select_uri_proto(str* res, select_t* s, struct sip_msg* msg) { if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } if (select_uri_p->proto != PROTO_NONE) { proto_type_to_str(select_uri_p->proto, res); } else { switch (select_uri_p->type) { case SIPS_URI_T: case TELS_URI_T: proto_type_to_str(PROTO_TLS, res); break; case SIP_URI_T: case TEL_URI_T: proto_type_to_str(PROTO_UDP, res); break; case ERROR_URI_T: return -1; } } return 0; } int select_uri_params(str* res, select_t* s, struct sip_msg* msg) { int ret; if (!msg || !res) { return select_any_params(res, s, msg); } if (select_uri_p == NULL) { if (parse_uri(res->s, res->len, &uri)<0) return -1; select_uri_p = &uri; } if (s->param_offset[select_level+1]-s->param_offset[select_level]==1) RETURN0_res(select_uri_p->params); *res=select_uri_p->params; ret = select_any_params(res, s, msg); if ((ret < 0) && (select_uri_p->sip_params.s != NULL) && (select_uri_p->sip_params.s != select_uri_p->params.s) ) { /* Search also in the original sip: uri parameters. */ *res = select_uri_p->sip_params; ret = select_any_params(res, s, msg); } return ret; } int select_any_params(str* res, select_t* s, struct sip_msg* msg) { str* wanted; int i; if (!msg || !res) { if (s->param_offset[select_level+1]-s->param_offset[select_level]==1) return 0; if (s->params[s->param_offset[select_level]+1].type!=SEL_PARAM_STR) return -1; wanted=&s->params[s->param_offset[select_level]+1].v.s; for (i=0; ilen; i++) if (wanted->s[i]=='_') wanted->s[i]='-'; return 0; } if (s->params[s->param_offset[select_level]+1].type!=SEL_PARAM_STR) return -1; wanted=&s->params[s->param_offset[select_level]+1].v.s; if (!res->len) return -1; if (search_param(*res, wanted->s, wanted->len, res) <= 0) { DBG("SELECT ...uri.params.%s NOT FOUND !\n", wanted->s); return -1; } else { return (res->len) ? 0 : 1; } } int select_event(str* res, select_t* s, struct sip_msg* msg) { if (!msg->event && parse_headers(msg, HDR_EVENT_F, 0) == -1) { ERR("Error while searching Event header field\n"); return -1; } if (!msg->event) { DBG("Event header field not found\n"); return -1; } if (parse_event(msg->event) < 0) { ERR("Error while parsing Event header field\n"); return -1; } *res = ((event_t*)msg->event->parsed)->name; return 0; } static int parse_rr_header(struct sip_msg *msg) { if ( !msg->record_route && ( parse_headers(msg,HDR_RECORDROUTE_F,0) == -1)) { ERR("bad msg or missing Record-Route header\n"); return -1; } if (!msg->record_route) { DBG("No Record-Route header field found\n"); return -1; } return parse_rr(msg->record_route); } #define get_rr(msg) ((rr_t*)(msg->record_route->parsed)) int select_rr(str* res, select_t* s, struct sip_msg* msg) { if (parse_rr_header(msg)<0) return -1; RETURN0_res(msg->record_route->body); } int select_rr_uri(str* res, select_t* s, struct sip_msg* msg) { rr_t* r; if (parse_rr_header(msg)<0) return -1; r = get_rr(msg); if (!r) return 1; RETURN0_res(r->nameaddr.uri); } int select_rr_name(str* res, select_t* s, struct sip_msg* msg) { rr_t* r; if (parse_rr_header(msg)<0) return -1; r = get_rr(msg); if (!r) return 1; RETURN0_res(r->nameaddr.name); } int select_rr_params(str* res, select_t* s, struct sip_msg* msg) { rr_t* r; param_t* p; if (parse_rr_header(msg)<0) return -1; r = get_rr(msg); if (!r) return 1; p = r->params; while (p) { if ((p->name.len==s->params[s->n-1].v.s.len) && !strncasecmp(p->name.s, s->params[s->n-1].v.s.s,p->name.len)) { RETURN0_res(p->body) } p = p->next; } return 0; } static inline struct cseq_body* sel_parse_cseq(struct sip_msg* msg) { if (!msg->cseq && (parse_headers(msg, HDR_CSEQ_F, 0) == -1)) { ERR("Unable to parse CSeq header\n"); return 0; } if (!msg->cseq) { DBG("No CSeqheader field found\n"); return 0; } return get_cseq(msg); } int select_cseq(str* res, select_t* s, struct sip_msg* msg) { struct cseq_body* cs; cs = sel_parse_cseq(msg); if (!cs) return -1; *res = msg->cseq->body; return 0; } int select_cseq_num(str* res, select_t* s, struct sip_msg* msg) { struct cseq_body* cs; cs = sel_parse_cseq(msg); if (!cs) return -1; *res = cs->number; return 0; } int select_cseq_method(str* res, select_t* s, struct sip_msg* msg) { struct cseq_body* cs; cs = sel_parse_cseq(msg); if (!cs) return -1; *res = cs->method; return 0; } int get_credentials(struct sip_msg* msg, select_t* s, struct hdr_field** hdr) { int ret; str realm; hdr_types_t hdr_type; *hdr = NULL; if (!msg) { /* fix-up call check domain for fparam conversion */ void * ptr; char chr; ptr=(void *)(s->params[1].v.s.s); chr=s->params[1].v.s.s[s->params[1].v.s.len]; s->params[1].v.s.s[s->params[1].v.s.len]=0; ret=fixup_var_str_12(&ptr,0); if (ret>=0) { s->params[1].v.s.s[s->params[1].v.s.len]=chr; s->params[1].v.p=ptr; s->params[1].type=SEL_PARAM_PTR; } return ret; } /* Try to find credentials with corresponding realm * in the message, parse them and return pointer to * parsed structure */ if (s->params[1].type==SEL_PARAM_PTR) { if (get_str_fparam(&realm, msg, s->params[1].v.p)<0) return -1; } else { realm = s->params[1].v.s; } switch (s->params[0].v.i) { case SEL_AUTH_WWW: hdr_type = HDR_AUTHORIZATION_T; break; case SEL_AUTH_PROXY: hdr_type = HDR_PROXYAUTH_T; break; default: BUG("Unexpected parameter value \"%d\"\n", s->params[0].v.i); return -1; } ret = find_credentials(msg, &realm, hdr_type, hdr); return ret; } int select_auth(str* res, select_t* s, struct sip_msg* msg) { int ret; struct hdr_field* hdr; if (s->n != 2 && s->params[1].type != SEL_PARAM_STR && s->params[1].type != SEL_PARAM_PTR) return -1; if (s->params[0].type != SEL_PARAM_DIV) { BUG("Last parameter should have type DIV (converted)\n"); return -1; } ret = get_credentials(msg, s, &hdr); if (!hdr) return ret; RETURN0_res(hdr->body); } int select_auth_param(str* res, select_t* s, struct sip_msg* msg) { int ret; struct hdr_field* hdr; dig_cred_t* cred; if ((s->n != 3 && s->n != 4) || (s->params[s->n - 1].type != SEL_PARAM_DIV)) return -1; ret = get_credentials(msg, s, &hdr); if (!hdr) return ret; cred = &((auth_body_t*)hdr->parsed)->digest; switch(s->params[s->n - 1].v.i) { case SEL_AUTH_USER: RETURN0_res(cred->username.user); case SEL_AUTH_DOMAIN: RETURN0_res(cred->username.domain); case SEL_AUTH_USERNAME: RETURN0_res(cred->username.whole); case SEL_AUTH_REALM: RETURN0_res(cred->realm); case SEL_AUTH_NONCE: RETURN0_res(cred->nonce); case SEL_AUTH_URI: RETURN0_res(cred->uri); case SEL_AUTH_CNONCE: RETURN0_res(cred->cnonce); case SEL_AUTH_NC: RETURN0_res(cred->nc); case SEL_AUTH_RESPONSE: RETURN0_res(cred->response); case SEL_AUTH_OPAQUE: RETURN0_res(cred->opaque); case SEL_AUTH_ALG: RETURN0_res(cred->alg.alg_str); case SEL_AUTH_QOP: RETURN0_res(cred->qop.qop_str); default: BUG("Unsupported digest credentials parameter in select\n"); return -1; } } int select_auth_username(str* res, select_t* s, struct sip_msg* msg) { return select_auth_param(res, s, msg); } int select_auth_username_comp(str* res, select_t* s, struct sip_msg* msg) { return select_auth_param(res, s, msg); } ABSTRACT_F(select_any_nameaddr) int select_nameaddr_name(str* res, select_t* s, struct sip_msg* msg) { char *p; p=find_not_quoted(res, '<'); if (!p) { DBG("select_nameaddr_name: no < found, whole string is uri\n"); res->len=0; return 1; } res->len=p-res->s; while (res->len && SP(res->s[res->len-1])) res->len--; return 0; } int select_nameaddr_uri(str* res, select_t* s, struct sip_msg* msg) { char *p; p=find_not_quoted(res, '<'); if (!p) { DBG("select_nameaddr_uri: no < found, string up to first semicolon is uri\n"); p = q_memchr(res->s, ';', res->len); if (p) res->len = p-res->s; return 0; } res->len=res->len - (p-res->s) -1; res->s=p +1; p=find_not_quoted(res, '>'); if (!p) { ERR("select_nameaddr_uri: no > found, invalid nameaddr value\n"); return -1; } res->len=p-res->s; return 0; } int select_nameaddr_params(str* res, select_t* s, struct sip_msg* msg) { char *p; p=find_not_quoted(res, '<'); if (!p) { p=find_not_quoted(res, ';'); } else { res->len=res->len - (p-res->s) -1; res->s=p +1; p=find_not_quoted(res, '>'); if (!p) { ERR("select_nameaddr_params: no > found, invalid nameaddr value\n"); return -1; } res->len=res->len - (p-res->s) -1; res->s=p +1; p=find_not_quoted(res, ';'); } if (!p) return 1; res->len=res->len - (p-res->s) -1; res->s=p +1; if (s->param_offset[select_level+1]-s->param_offset[select_level]==1) return (res->len ? 0 : 1); return select_any_params(res, s, msg); } ABSTRACT_F(select_src) ABSTRACT_F(select_dst) ABSTRACT_F(select_rcv) int select_ip_port(str* res, select_t* s, struct sip_msg* msg) { str ip_str=STR_NULL, port_str=STR_NULL, proto_str=STR_NULL; int param, pos; if ((s->n != 2) || (s->params[1].type != SEL_PARAM_DIV)) return -1; param=s->params[1].v.i; if (param & SEL_SRC) { if (param & SEL_IP) { ip_str.s = ip_addr2a(&msg->rcv.src_ip); ip_str.len = strlen(ip_str.s); } if (param & SEL_PORT) { port_str.s = int2str(msg->rcv.src_port, &port_str.len); } } else if (param & SEL_DST) { if (param & SEL_IP) { ip_str.s = ip_addr2a(&msg->rcv.dst_ip); ip_str.len = strlen(ip_str.s); } if (param & SEL_PORT) { port_str.s = int2str(msg->rcv.dst_port, &port_str.len); } } else if (param & SEL_RCV) { if (param & SEL_IP) { ip_str = msg->rcv.bind_address->address_str; } if (param & SEL_PORT) { port_str = msg->rcv.bind_address->port_no_str; } if (param & SEL_PROTO) { switch (msg->rcv.proto) { case PROTO_NONE: proto_str.s = 0; proto_str.len = 0; break; case PROTO_UDP: proto_str.s = "udp"; proto_str.len = 3; break; case PROTO_TCP: proto_str.s = "tcp"; proto_str.len = 3; break; case PROTO_TLS: proto_str.s = "tls"; proto_str.len = 3; break; case PROTO_SCTP: proto_str.s = "sctp"; proto_str.len = 4; break; default: ERR("BUG: select_ip_port: Unknown transport protocol\n"); return -1; } } } else { return -1; } res->s = get_static_buffer(ip_str.len+port_str.len+proto_str.len+3); if (!res->s) return -1; pos=0; if (param & SEL_PROTO) { memcpy(res->s, proto_str.s, proto_str.len); pos += proto_str.len; } if (param & SEL_IP) { if (pos) res->s[pos++] = ':'; memcpy(res->s+pos, ip_str.s, ip_str.len); pos += ip_str.len; } if (param & SEL_PORT) { if (pos) res->s[pos++] = ':'; memcpy(res->s+pos, port_str.s, port_str.len); pos += port_str.len; } res->s[pos] = 0; res->len = pos; return (pos==0 ? 1 : 0); } int select_expires(str* res, select_t* s, struct sip_msg* msg) { if (!msg->expires && (parse_headers(msg, HDR_EXPIRES_F, 0) == -1)) { return -1; /* error */ } if (!msg->expires) { return 1; /* null */ } if (msg->expires->parsed == NULL && parse_expires(msg->expires) < 0) { return -1; } RETURN0_res(((struct exp_body*)msg->expires->parsed)->text); } #define SELECT_plain_header(_sel_name_,_fld_name_,_hdr_f_) \ int select_##_sel_name_(str* res, select_t* s, struct sip_msg* msg) \ { \ if (!msg->_fld_name_ && (parse_headers(msg, _hdr_f_, 0) == -1)) { \ return -1; \ } \ if (!msg->_fld_name_) { \ return 1; \ } \ RETURN0_res(msg->_fld_name_->body); \ } SELECT_plain_header(call_id, callid, HDR_CALLID_F) SELECT_plain_header(max_forwards, maxforwards, HDR_MAXFORWARDS_F) SELECT_plain_header(content_type, content_type, HDR_CONTENTTYPE_F) SELECT_plain_header(content_length, content_length, HDR_CONTENTLENGTH_F) SELECT_plain_header(user_agent, user_agent, HDR_USERAGENT_F) SELECT_plain_header(subject, subject, HDR_SUBJECT_F) SELECT_plain_header(organization, organization, HDR_ORGANIZATION_F) SELECT_plain_header(priority, priority, HDR_PRIORITY_F) SELECT_plain_header(session_expires, session_expires, HDR_SESSIONEXPIRES_F) SELECT_plain_header(min_se, min_se, HDR_MIN_SE_F) SELECT_plain_header(sip_if_match, sipifmatch, HDR_SIPIFMATCH_F) SELECT_plain_header(date, date, HDR_DATE_F) SELECT_plain_header(identity, identity, HDR_IDENTITY_F) SELECT_plain_header(identity_info, identity_info, HDR_IDENTITY_INFO_F) int select_msg_request(str* res, select_t* s, struct sip_msg* msg) { if (msg->first_line.type==SIP_REQUEST) { return select_msg(res, s, msg); } else return -1; } int select_msg_response(str* res, select_t* s, struct sip_msg* msg) { if (msg->first_line.type==SIP_REPLY) { return select_msg(res, s, msg); } else return -1; } #define SELECT_first_line(_sel_name_,_type_,_fld_) \ int select_msg_##_sel_name_(str* res, select_t* s, struct sip_msg* msg) {\ if (msg->first_line.type==_type_) { \ RETURN0_res(msg->first_line._fld_); \ } else return -1; \ } SELECT_first_line(request_method,SIP_REQUEST,u.request.method) SELECT_first_line(request_uri,SIP_REQUEST,u.request.uri) SELECT_first_line(request_version,SIP_REQUEST,u.request.version) SELECT_first_line(response_version,SIP_REPLY,u.reply.version) SELECT_first_line(response_status,SIP_REPLY,u.reply.status) SELECT_first_line(response_reason,SIP_REPLY,u.reply.reason) int select_version(str* res, select_t* s, struct sip_msg* msg) { switch (msg->first_line.type) { case SIP_REQUEST: RETURN0_res(msg->first_line.u.request.version) break; case SIP_REPLY: RETURN0_res(msg->first_line.u.reply.version) break; default: return -1; } } ABSTRACT_F(select_sys) int select_sys_pid(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, getpid()); } int select_sys_server_id(str* res, select_t* s, struct sip_msg* msg) { return int_to_static_buffer(res, server_id); } int select_sys_unique(str* res, select_t* s, struct sip_msg* msg) { #define UNIQUE_ID_PID_LEN 4 #define UNIQUE_ID_TIME_LEN 8 #define UNIQUE_ID_FIX_LEN (UNIQUE_ID_PID_LEN+1+UNIQUE_ID_TIME_LEN+1) #define UNIQUE_ID_RAND_LEN 8 static char uniq_id[UNIQUE_ID_FIX_LEN+UNIQUE_ID_RAND_LEN]; static int uniq_for_pid = -1; int i; if (uniq_for_pid != getpid()) { /* first call for this process */ int cb, rb, x, l; char *c; /* init gloabally uniq part */ c = int2str_base_0pad(getpid(), &l, 16, UNIQUE_ID_PID_LEN); memcpy(uniq_id, c, UNIQUE_ID_PID_LEN); uniq_id[UNIQUE_ID_PID_LEN] = '-'; c = int2str_base_0pad(time(NULL), &l, 16, UNIQUE_ID_TIME_LEN); memcpy(uniq_id+UNIQUE_ID_PID_LEN+1, c, UNIQUE_ID_TIME_LEN); uniq_id[UNIQUE_ID_PID_LEN+1+UNIQUE_ID_TIME_LEN] = '-'; /* init random part */ for (i = RAND_MAX, rb=0; i; rb++, i>>=1); for (i = UNIQUE_ID_FIX_LEN, cb = 0, x = 0; i < UNIQUE_ID_FIX_LEN+UNIQUE_ID_RAND_LEN; i++) { if (!cb) { cb = rb; x = rand(); } uniq_id[i] = fourbits2char[x & 0x0F]; x >>= rb; cb -= rb; } uniq_for_pid = getpid(); } for (i = UNIQUE_ID_FIX_LEN + UNIQUE_ID_RAND_LEN - 1; i >= UNIQUE_ID_FIX_LEN; i--) { switch (uniq_id[i]) { case '9': uniq_id[i]='a'; i = 0; break; case 'f': uniq_id[i]='0'; /* go on */ break; default: uniq_id[i]++; i = 0; break; } } res->s = uniq_id; /* I think it's not worth copying at static buffer, I hope there is no real meaning of @sys.unique==@sys.unique */ res->len = UNIQUE_ID_FIX_LEN+UNIQUE_ID_RAND_LEN; return 0; } int select_sys_now(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, time(NULL)); } int select_sys_now_fmt(str* res, select_t* s, struct sip_msg* msg) { #define SEL_POS 2 time_t t; struct tm *tm; t = time(NULL); switch (s->params[SEL_POS].v.i) { case SEL_NOW_GMT: tm = gmtime(&t); break; case SEL_NOW_LOCAL: tm = localtime(&t); break; default: BUG("Unexpected parameter value 'now' \"%d\"\n", s->params[SEL_POS].v.i); return -1; } if (s->n <= SEL_POS+1) { char *c; c = asctime(tm); res->len = strlen(c); while (res->len && c[res->len-1] < ' ') res->len--; /* rtrim */ res->s = get_static_buffer(res->len); if (!res->s) return -1; memcpy(res->s, c, res->len); } else { char c, buff[80]; c = s->params[SEL_POS+1].v.s.s[s->params[SEL_POS+1].v.s.len]; s->params[SEL_POS+1].v.s.s[s->params[SEL_POS+1].v.s.len] = '\0'; res->len = strftime(buff, sizeof(buff)-1, s->params[SEL_POS+1].v.s.s, tm); s->params[SEL_POS+1].v.s.s[s->params[SEL_POS+1].v.s.len] = c; res->s = get_static_buffer(res->len); if (!res->s) return -1; memcpy(res->s, buff, res->len); } return 0; #undef SEL_POS } ABSTRACT_F(select_branch) int select_branch_count(str* res, select_t* s, struct sip_msg* msg) { return uint_to_static_buffer(res, nr_branches); } int select_branch_uri(str* res, select_t* s, struct sip_msg* msg) { #define SEL_POS 1 #define Q_PARAM ">;q=" #define Q_PARAM_LEN (sizeof(Q_PARAM) - 1) qvalue_t q; int l, n; str dst_uri; if (s->n <= SEL_POS+1 && nr_branches > 1) { /* get all branches, if nr_branches==1 then use faster algorithm */ int len; unsigned l2; char *c; init_branch_iterator(); len = 0; while ((c = next_branch(&l, &q, &dst_uri, 0, 0, 0))) { if (s->params[SEL_POS].v.i & SEL_BRANCH_DST_URI) { l = dst_uri.len; c = dst_uri.s; } if (s->params[SEL_POS].v.i & (SEL_BRANCH_URI|SEL_BRANCH_DST_URI) ) { len += l; } if (q != Q_UNSPECIFIED && (s->params[SEL_POS].v.i & SEL_BRANCH_Q)) { len += len_q(q); if (s->params[SEL_POS].v.i & SEL_BRANCH_URI) { len += 1 + Q_PARAM_LEN; } } len += 1; } if (!len) return 1; res->s = get_static_buffer(len); if (!res->s) return -1; init_branch_iterator(); res->len = 0; n = 0; while ((c = next_branch(&l, &q, &dst_uri, 0, 0, 0))) { if (s->params[SEL_POS].v.i & SEL_BRANCH_DST_URI) { l = dst_uri.len; c = dst_uri.s; } if (n) { res->s[res->len] = ','; res->len++; } if ((s->params[SEL_POS].v.i & SEL_BRANCH_Q) == 0) { q = Q_UNSPECIFIED; } if ((s->params[SEL_POS].v.i & (SEL_BRANCH_URI|SEL_BRANCH_DST_URI)) && q != Q_UNSPECIFIED) { res->s[res->len] = '<'; res->len++; memcpy(res->s+res->len, c, l); res->len += l; memcpy(res->s+res->len, Q_PARAM, Q_PARAM_LEN); res->len += Q_PARAM_LEN; c = q2str(q, &l2); l = l2; memcpy(res->s+res->len, c, l); res->len += l; } else if (s->params[SEL_POS].v.i & (SEL_BRANCH_URI|SEL_BRANCH_DST_URI)) { memcpy(res->s+res->len, c, l); res->len += l; } else if (q != Q_UNSPECIFIED) { c = q2str(q, &l2); l = l2; memcpy(res->s+res->len, c, l); res->len += l; } n++; } } else { unsigned l2; char *c; n = s->params[SEL_POS+1].v.i; if (n < 0 || n >= nr_branches) return -1; init_branch_iterator(); for (; (c = next_branch(&l, &q, &dst_uri, 0, 0, 0)) && n; n--); if (!c) return 1; if (s->params[SEL_POS].v.i & SEL_BRANCH_DST_URI) { l = dst_uri.len; c = dst_uri.s; } if ((s->params[SEL_POS].v.i & SEL_BRANCH_Q) == 0) { q = Q_UNSPECIFIED; } if ((s->params[SEL_POS].v.i & (SEL_BRANCH_URI|SEL_BRANCH_DST_URI)) && q != Q_UNSPECIFIED) { res->s = get_static_buffer(l + 1 + Q_PARAM_LEN + len_q(q)); if (!res->s) return -1; res->len = 1; res->s[0] = '<'; memcpy(res->s+res->len, c, l); res->len += l; memcpy(res->s+res->len, Q_PARAM, Q_PARAM_LEN); res->len += Q_PARAM_LEN; c = q2str(q, &l2); l = l2; memcpy(res->s+res->len, c, l); res->len += l; } else if (s->params[SEL_POS].v.i & (SEL_BRANCH_URI|SEL_BRANCH_DST_URI)) { res->s = c; /* not necessary to copy to static buffer */ res->len = l; } else if (q != Q_UNSPECIFIED) { c = q2str(q, &l2); res->len = l2; res->s = get_static_buffer(res->len); if (!res->s) return -1; memcpy(res->s, c, res->len); } else { res->len = 0; } } return 0; #undef SEL_POS } int select_branch_uriq(str* res, select_t* s, struct sip_msg* msg) { return select_branch_uri(res, s, msg); } int select_branch_q(str* res, select_t* s, struct sip_msg* msg) { return select_branch_uri(res, s, msg); } int select_branch_dst_uri(str* res, select_t* s, struct sip_msg* msg) { return select_branch_uri(res, s, msg); }