/* * Copyright (C) 2001-2003 FhG Fokus * * This file is part of Kamailio, a free SIP server. * * Kamailio 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 * * Kamailio 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA * * */ /*! * \file * \brief Module interface * \ingroup textops * Module: \ref textops */ /** * @defgroup Textops Various text operatoins on messages * @brief Kamailio textops module */ #include "../../action.h" #include "../../sr_module.h" #include "../../dprint.h" #include "../../data_lump.h" #include "../../data_lump_rpl.h" #include "../../error.h" #include "../../mem/mem.h" #include "../../str.h" #include "../../re.h" #include "../../lvalue.h" #include "../../mod_fix.h" #include "../../parser/parse_uri.h" #include "../../parser/parse_hname2.h" #include "../../parser/parse_methods.h" #include "../../parser/parse_content.h" #include "../../parser/parse_param.h" #include "../../parser/sdp/sdp.h" #include "../../parser/sdp/sdp_helpr_funcs.h" #include "../../lib/kcore/parse_privacy.h" #include "../../msg_translator.h" #include "../../ut.h" #include "../../dset.h" #include "../../lib/kcore/cmpapi.h" #include #include #include #include /* for regex */ #include #include #include #include "textops.h" #include "txt_var.h" #include "api.h" MODULE_VERSION /* RFC822-conforming dates format: %a -- abbreviated week of day name (locale), %d day of month as decimal number, %b abbreviated month name (locale), %Y year with century, %T time in 24h notation */ #define TIME_FORMAT "Date: %a, %d %b %Y %H:%M:%S GMT" #define MAX_TIME 64 #define AUDIO_STR "audio" #define AUDIO_STR_LEN 5 static int search_body_f(struct sip_msg*, char*, char*); static int search_hf_f(struct sip_msg*, char*, char*, char*); static int replace_f(struct sip_msg*, char*, char*); static int replace_body_f(struct sip_msg*, char*, char*); static int replace_all_f(struct sip_msg*, char*, char*); static int replace_body_all_f(struct sip_msg*, char*, char*); static int replace_body_atonce_f(struct sip_msg*, char*, char*); static int subst_f(struct sip_msg*, char*, char*); static int subst_uri_f(struct sip_msg*, char*, char*); static int subst_user_f(struct sip_msg*, char*, char*); static int subst_body_f(struct sip_msg*, char*, char*); static int subst_hf_f(struct sip_msg*, char*, char*, char*); static int filter_body_f(struct sip_msg*, char*, char*); static int is_present_hf_f(struct sip_msg* msg, char* str_hf, char* foo); static int search_append_body_f(struct sip_msg*, char*, char*); static int append_to_reply_f(struct sip_msg* msg, char* key, char* str); static int append_hf_1(struct sip_msg* msg, char* str1, char* str2); static int append_hf_2(struct sip_msg* msg, char* str1, char* str2); static int insert_hf_1(struct sip_msg* msg, char* str1, char* str2); static int insert_hf_2(struct sip_msg* msg, char* str1, char* str2); static int append_urihf(struct sip_msg* msg, char* str1, char* str2); static int append_time_f(struct sip_msg* msg, char* , char *); static int append_time_request_f(struct sip_msg* msg, char* , char *); static int set_body_f(struct sip_msg* msg, char*, char *); static int set_rpl_body_f(struct sip_msg* msg, char*, char *); static int set_multibody_0(struct sip_msg* msg, char*, char *, char *); static int set_multibody_1(struct sip_msg* msg, char*, char *, char *); static int set_multibody_2(struct sip_msg* msg, char*, char *, char *); static int set_multibody_3(struct sip_msg* msg, char*, char *, char *); static int append_multibody_2(struct sip_msg* msg, char*, char *); static int append_multibody_3(struct sip_msg* msg, char*, char *, char *); static int fixup_multibody_f(void** param, int param_no); static int remove_multibody_f(struct sip_msg *msg, char *); static int get_body_part_raw_f(sip_msg_t* msg, char* ctype, char* ovar); static int get_body_part_f(sip_msg_t* msg, char* ctype, char* ovar); static int fixup_get_body_part(void** param, int param_no); static int is_method_f(struct sip_msg* msg, char* , char *); static int has_body_f(struct sip_msg *msg, char *type, char *str2 ); static int in_list_f(struct sip_msg* _msg, char* _subject, char* _list, char* _sep); static int cmp_str_f(struct sip_msg *msg, char *str1, char *str2 ); static int cmp_istr_f(struct sip_msg *msg, char *str1, char *str2 ); static int starts_with_f(struct sip_msg *msg, char *str1, char *str2 ); static int remove_hf_re_f(struct sip_msg* msg, char* key, char* foo); static int is_present_hf_re_f(struct sip_msg* msg, char* key, char* foo); static int is_audio_on_hold_f(struct sip_msg *msg, char *str1, char *str2 ); static int fixup_substre(void**, int); static int hname_fixup(void** param, int param_no); static int free_hname_fixup(void** param, int param_no); static int fixup_method(void** param, int param_no); static int add_header_fixup(void** param, int param_no); static int fixup_body_type(void** param, int param_no); static int fixup_in_list(void** param, int param_no); static int fixup_free_in_list(void** param, int param_no); int fixup_regexpNL_none(void** param, int param_no); static int fixup_search_hf(void** param, int param_no); static int fixup_subst_hf(void** param, int param_no); static int mod_init(void); static tr_export_t mod_trans[] = { { {"re", sizeof("re")-1}, /* regexp class */ tr_txt_parse_re }, { { 0, 0 }, 0 } }; static cmd_export_t cmds[]={ {"search", (cmd_function)search_f, 1, fixup_regexp_null, fixup_free_regexp_null, ANY_ROUTE}, {"search_body", (cmd_function)search_body_f, 1, fixup_regexp_null, fixup_free_regexp_null, ANY_ROUTE}, {"search_hf", (cmd_function)search_hf_f, 3, fixup_search_hf, 0, ANY_ROUTE}, {"search_append", (cmd_function)search_append_f, 2, fixup_regexp_none,fixup_free_regexp_none, ANY_ROUTE}, {"search_append_body", (cmd_function)search_append_body_f, 2, fixup_regexp_none, fixup_free_regexp_none, ANY_ROUTE}, {"replace", (cmd_function)replace_f, 2, fixup_regexp_none, fixup_free_regexp_none, ANY_ROUTE}, {"replace_body", (cmd_function)replace_body_f, 2, fixup_regexp_none, fixup_free_regexp_none, ANY_ROUTE}, {"replace_all", (cmd_function)replace_all_f, 2, fixup_regexp_none, fixup_free_regexp_none, ANY_ROUTE}, {"replace_body_all", (cmd_function)replace_body_all_f,2, fixup_regexp_none, fixup_free_regexp_none, ANY_ROUTE}, {"replace_body_atonce", (cmd_function)replace_body_atonce_f,2, fixup_regexpNL_none, fixup_free_regexp_none, ANY_ROUTE}, {"append_to_reply", (cmd_function)append_to_reply_f, 1, fixup_spve_null, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE}, {"append_hf", (cmd_function)append_hf_1, 1, add_header_fixup, 0, ANY_ROUTE}, {"append_hf", (cmd_function)append_hf_2, 2, add_header_fixup, 0, ANY_ROUTE}, {"insert_hf", (cmd_function)insert_hf_1, 1, add_header_fixup, 0, ANY_ROUTE}, {"insert_hf", (cmd_function)insert_hf_2, 2, add_header_fixup, 0, ANY_ROUTE}, {"append_urihf", (cmd_function)append_urihf, 2, fixup_str_str, fixup_free_str_str, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE}, {"remove_hf", (cmd_function)remove_hf_f, 1, hname_fixup, free_hname_fixup, ANY_ROUTE}, {"remove_hf_re", (cmd_function)remove_hf_re_f, 1, fixup_regexp_null, fixup_free_regexp_null, ANY_ROUTE}, {"is_present_hf", (cmd_function)is_present_hf_f, 1, hname_fixup, free_hname_fixup, ANY_ROUTE}, {"is_present_hf_re", (cmd_function)is_present_hf_re_f,1, fixup_regexp_null, fixup_free_regexp_null, ANY_ROUTE}, {"subst", (cmd_function)subst_f, 1, fixup_substre, 0, ANY_ROUTE}, {"subst_uri", (cmd_function)subst_uri_f, 1, fixup_substre, 0, REQUEST_ROUTE|ONREPLY_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE}, {"subst_user", (cmd_function)subst_user_f, 1, fixup_substre, 0, REQUEST_ROUTE|ONREPLY_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE}, {"subst_body", (cmd_function)subst_body_f, 1, fixup_substre, 0, ANY_ROUTE}, {"subst_hf", (cmd_function)subst_hf_f, 3, fixup_subst_hf, 0, ANY_ROUTE}, {"filter_body", (cmd_function)filter_body_f, 1, fixup_str_null, 0, ANY_ROUTE}, {"append_time", (cmd_function)append_time_f, 0, 0, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE}, {"set_body", (cmd_function)set_body_f, 2, fixup_spve_spve, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE|ONREPLY_ROUTE }, {"set_reply_body", (cmd_function)set_rpl_body_f, 2, fixup_spve_spve, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"is_method", (cmd_function)is_method_f, 1, fixup_method, 0, ANY_ROUTE}, {"has_body", (cmd_function)has_body_f, 0, 0, 0, ANY_ROUTE}, {"has_body", (cmd_function)has_body_f, 1, fixup_body_type, 0, ANY_ROUTE}, {"is_privacy", (cmd_function)is_privacy_f, 1, fixup_privacy, 0, ANY_ROUTE}, {"in_list", (cmd_function)in_list_f, 3, fixup_in_list, fixup_free_in_list, ANY_ROUTE}, {"cmp_str", (cmd_function)cmp_str_f, 2, fixup_spve_spve, 0, ANY_ROUTE}, {"cmp_istr", (cmd_function)cmp_istr_f, 2, fixup_spve_spve, 0, ANY_ROUTE}, {"starts_with", (cmd_function)starts_with_f, 2, fixup_spve_spve, 0, ANY_ROUTE}, {"is_audio_on_hold", (cmd_function)is_audio_on_hold_f, 0, 0, 0, ANY_ROUTE}, {"append_time_to_request", (cmd_function)append_time_request_f, 0, 0, 0, ANY_ROUTE}, {"bind_textops", (cmd_function)bind_textops, 0, 0, 0, 0}, {"set_body_multipart", (cmd_function)set_multibody_0, 0, 0, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"set_body_multipart", (cmd_function)set_multibody_1, 1, fixup_spve_null, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"set_body_multipart", (cmd_function)set_multibody_2, 2, fixup_spve_spve, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"set_body_multipart", (cmd_function)set_multibody_3, 3, fixup_multibody_f, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"append_body_part", (cmd_function)append_multibody_2, 2, fixup_spve_spve, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"append_body_part", (cmd_function)append_multibody_3, 3, fixup_multibody_f, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"remove_body_part", (cmd_function)remove_multibody_f, 1, fixup_spve_null, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE }, {"get_body_part_raw", (cmd_function)get_body_part_raw_f, 2, fixup_get_body_part, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE|ONREPLY_ROUTE }, {"get_body_part", (cmd_function)get_body_part_f, 2, fixup_get_body_part, 0, REQUEST_ROUTE|FAILURE_ROUTE|BRANCH_ROUTE|ONREPLY_ROUTE }, {0,0,0,0,0,0} }; struct module_exports exports= { "textops", /* module name*/ DEFAULT_DLFLAGS, /* dlopen flags */ cmds, /* exported functions */ 0, /* module parameters */ 0, /* exported statistics */ 0, /* exported MI functions */ 0, /* exported pseudo-variables */ 0, /* extra processes */ mod_init, /* module initialization function */ 0, /* response function */ 0, /* destroy function */ 0, /* per-child init function */ }; static int mod_init(void) { return 0; } int mod_register(char *path, int *dlflags, void *p1, void *p2) { return register_trans_mod(path, mod_trans); } static char *get_header(struct sip_msg *msg) { return msg->buf+msg->first_line.len; } int search_f(struct sip_msg* msg, char* key, char* str2) { /*we registered only 1 param, so we ignore str2*/ regmatch_t pmatch; if (regexec((regex_t*) key, msg->buf, 1, &pmatch, 0)!=0) return -1; return 1; } static int search_body_f(struct sip_msg* msg, char* key, char* str2) { str body; /*we registered only 1 param, so we ignore str2*/ regmatch_t pmatch; body.s = get_body(msg); if (body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if (body.len==0) { LM_DBG("message body has zero length\n"); return -1; } if (regexec((regex_t*) key, body.s, 1, &pmatch, 0)!=0) return -1; return 1; } int search_append_f(struct sip_msg* msg, char* key, char* str2) { struct lump* l; regmatch_t pmatch; char* s; int len; char *begin; int off; begin=get_header(msg); /* msg->orig/buf previously .. uri problems */ off=begin-msg->buf; if (regexec((regex_t*) key, begin, 1, &pmatch, 0)!=0) return -1; if (pmatch.rm_so!=-1){ if ((l=anchor_lump(msg, off+pmatch.rm_eo, 0, 0))==0) return -1; len=strlen(str2); s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } return 1; } return -1; } static int search_append_body_f(struct sip_msg* msg, char* key, char* str2) { struct lump* l; regmatch_t pmatch; char* s; int len; int off; str body; body.s = get_body(msg); if (body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if (body.len==0) { LM_DBG("message body has zero length\n"); return -1; } off=body.s-msg->buf; if (regexec((regex_t*) key, body.s, 1, &pmatch, 0)!=0) return -1; if (pmatch.rm_so!=-1){ if ((l=anchor_lump(msg, off+pmatch.rm_eo, 0, 0))==0) return -1; len=strlen(str2); s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } return 1; } return -1; } static int replace_all_f(struct sip_msg* msg, char* key, char* str2) { struct lump* l; regmatch_t pmatch; char* s; int len; char* begin; int off; int ret; int eflags; begin = get_header(msg); ret=-1; /* pessimist: we will not find any */ len=strlen(str2); eflags=0; /* match ^ at the beginning of the string*/ while (beginbuf+msg->len && regexec((regex_t*) key, begin, 1, &pmatch, eflags)==0) { off=begin-msg->buf; if (pmatch.rm_so==-1){ LM_ERR("offset unknown\n"); return -1; } if (pmatch.rm_so==pmatch.rm_eo){ LM_ERR("matched string is empty... invalid regexp?\n"); return -1; } if ((l=del_lump(msg, pmatch.rm_so+off, pmatch.rm_eo-pmatch.rm_so, 0))==0) { LM_ERR("del_lump failed\n"); return -1; } s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } /* new cycle */ begin=begin+pmatch.rm_eo; /* is it still a string start */ if (*(begin-1)=='\n' || *(begin-1)=='\r') eflags&=~REG_NOTBOL; else eflags|=REG_NOTBOL; ret=1; } /* while found ... */ return ret; } static int do_replace_body_f(struct sip_msg* msg, char* key, char* str2, int nobol) { struct lump* l; regmatch_t pmatch; char* s; int len; char* begin; int off; int ret; int eflags; str body; body.s = get_body(msg); if (body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if (body.len==0) { LM_DBG("message body has zero length\n"); return -1; } begin=body.s; ret=-1; /* pessimist: we will not find any */ len=strlen(str2); eflags=0; /* match ^ at the beginning of the string*/ while (beginbuf+msg->len && regexec((regex_t*) key, begin, 1, &pmatch, eflags)==0) { off=begin-msg->buf; if (pmatch.rm_so==-1){ LM_ERR("offset unknown\n"); return -1; } if (pmatch.rm_so==pmatch.rm_eo){ LM_ERR("matched string is empty... invalid regexp?\n"); return -1; } if ((l=del_lump(msg, pmatch.rm_so+off, pmatch.rm_eo-pmatch.rm_so, 0))==0) { LM_ERR("del_lump failed\n"); return -1; } s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } /* new cycle */ begin=begin+pmatch.rm_eo; /* is it still a string start */ if (nobol && (*(begin-1)=='\n' || *(begin-1)=='\r')) eflags&=~REG_NOTBOL; else eflags|=REG_NOTBOL; ret=1; } /* while found ... */ return ret; } static int replace_body_all_f(struct sip_msg* msg, char* key, char* str2) { return do_replace_body_f(msg, key, str2, 1); } static int replace_body_atonce_f(struct sip_msg* msg, char* key, char* str2) { return do_replace_body_f(msg, key, str2, 0); } static int replace_f(struct sip_msg* msg, char* key, char* str2) { struct lump* l; regmatch_t pmatch; char* s; int len; char* begin; int off; begin=get_header(msg); /* msg->orig previously .. uri problems */ if (regexec((regex_t*) key, begin, 1, &pmatch, 0)!=0) return -1; off=begin-msg->buf; if (pmatch.rm_so!=-1){ if ((l=del_lump(msg, pmatch.rm_so+off, pmatch.rm_eo-pmatch.rm_so, 0))==0) return -1; len=strlen(str2); s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } return 1; } return -1; } static int replace_body_f(struct sip_msg* msg, char* key, char* str2) { struct lump* l; regmatch_t pmatch; char* s; int len; char* begin; int off; str body; body.s = get_body(msg); if (body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if (body.len==0) { LM_DBG("message body has zero length\n"); return -1; } begin=body.s; /* msg->orig previously .. uri problems */ if (regexec((regex_t*) key, begin, 1, &pmatch, 0)!=0) return -1; off=begin-msg->buf; if (pmatch.rm_so!=-1){ if ((l=del_lump(msg, pmatch.rm_so+off, pmatch.rm_eo-pmatch.rm_so, 0))==0) return -1; len=strlen(str2); s=pkg_malloc(len); if (s==0){ LM_ERR("memory allocation failure\n"); return -1; } memcpy(s, str2, len); if (insert_new_lump_after(l, s, len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(s); return -1; } return 1; } return -1; } /* sed-perl style re: s/regular expression/replacement/flags */ static int subst_f(struct sip_msg* msg, char* subst, char* ignored) { struct lump* l; struct replace_lst* lst; struct replace_lst* rpl; char* begin; struct subst_expr* se; int off; int ret; int nmatches; se=(struct subst_expr*)subst; begin=get_header(msg); /* start after first line to avoid replacing the uri */ off=begin-msg->buf; ret=-1; if ((lst=subst_run(se, begin, msg, &nmatches))==0) goto error; /* not found */ for (rpl=lst; rpl; rpl=rpl->next){ LM_DBG("%s: replacing at offset %d [%.*s] with [%.*s]\n", exports.name, rpl->offset+off, rpl->size, rpl->offset+off+msg->buf, rpl->rpl.len, rpl->rpl.s); if ((l=del_lump(msg, rpl->offset+off, rpl->size, 0))==0) goto error; /* hack to avoid re-copying rpl, possible because both * replace_lst & lumps use pkg_malloc */ if (insert_new_lump_after(l, rpl->rpl.s, rpl->rpl.len, 0)==0){ LM_ERR("%s: could not insert new lump\n", exports.name); goto error; } /* hack continued: set rpl.s to 0 so that replace_lst_free will * not free it */ rpl->rpl.s=0; rpl->rpl.len=0; } ret=1; error: LM_DBG("lst was %p\n", lst); if (lst) replace_lst_free(lst); if (nmatches<0) LM_ERR("%s: subst_run failed\n", exports.name); return ret; } /* sed-perl style re: s/regular expression/replacement/flags, like * subst but works on the message uri */ static int subst_uri_f(struct sip_msg* msg, char* subst, char* ignored) { char* tmp; int len; char c; struct subst_expr* se; str* result; se=(struct subst_expr*)subst; if (msg->new_uri.s){ len=msg->new_uri.len; tmp=msg->new_uri.s; }else{ tmp=msg->first_line.u.request.uri.s; len =msg->first_line.u.request.uri.len; }; /* ugly hack: 0 s[len], and restore it afterward * (our re functions require 0 term strings), we can do this * because we always alloc len+1 (new_uri) and for first_line, the * message will always be > uri.len */ c=tmp[len]; tmp[len]=0; result=subst_str(tmp, msg, se, 0); /* pkg malloc'ed result */ tmp[len]=c; if (result){ LM_DBG("%s match - old uri= [%.*s], new uri= [%.*s]\n", exports.name, len, tmp, (result->len)?result->len:0,(result->s)?result->s:""); if (msg->new_uri.s) pkg_free(msg->new_uri.s); msg->new_uri=*result; msg->parsed_uri_ok=0; /* reset "use cached parsed uri" flag */ ruri_mark_new(); pkg_free(result); /* free str* pointer */ return 1; /* success */ } return -1; /* false, no subst. made */ } /* sed-perl style re: s/regular expression/replacement/flags, like * subst but works on the user part of the uri */ static int subst_user_f(struct sip_msg* msg, char* subst, char* ignored) { int rval; str* result; struct subst_expr* se; struct action act; struct run_act_ctx h; str user; char c; int nmatches; c=0; if (parse_sip_msg_uri(msg)<0){ return -1; /* error, bad uri */ } if (msg->parsed_uri.user.s==0){ /* no user in uri */ user.s=""; user.len=0; }else{ user=msg->parsed_uri.user; c=user.s[user.len]; user.s[user.len]=0; } se=(struct subst_expr*)subst; result=subst_str(user.s, msg, se, &nmatches);/* pkg malloc'ed result */ if (c) user.s[user.len]=c; if (result == NULL) { if (nmatches<0) LM_ERR("subst_user(): subst_str() failed\n"); return -1; } /* result->s[result->len] = '\0'; --subst_str returns 0-term strings */ memset(&act, 0, sizeof(act)); /* be on the safe side */ act.type = SET_USER_T; act.val[0].type = STRING_ST; act.val[0].u.string = result->s; init_run_actions_ctx(&h); rval = do_action(&h, &act, msg); pkg_free(result->s); pkg_free(result); return rval; } /* sed-perl style re: s/regular expression/replacement/flags */ static int subst_body_f(struct sip_msg* msg, char* subst, char* ignored) { struct lump* l; struct replace_lst* lst; struct replace_lst* rpl; char* begin; struct subst_expr* se; int off; int ret; int nmatches; str body; body.s = get_body(msg); if (body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if (body.len==0) { LM_DBG("message body has zero length\n"); return -1; } se=(struct subst_expr*)subst; begin=body.s; off=begin-msg->buf; ret=-1; if ((lst=subst_run(se, begin, msg, &nmatches))==0) goto error; /* not found */ for (rpl=lst; rpl; rpl=rpl->next){ LM_DBG("%s replacing at offset %d [%.*s] with [%.*s]\n", exports.name, rpl->offset+off, rpl->size, rpl->offset+off+msg->buf, rpl->rpl.len, rpl->rpl.s); if ((l=del_lump(msg, rpl->offset+off, rpl->size, 0))==0) goto error; /* hack to avoid re-copying rpl, possible because both * replace_lst & lumps use pkg_malloc */ if (insert_new_lump_after(l, rpl->rpl.s, rpl->rpl.len, 0)==0){ LM_ERR("%s could not insert new lump\n", exports.name); goto error; } /* hack continued: set rpl.s to 0 so that replace_lst_free will * not free it */ rpl->rpl.s=0; rpl->rpl.len=0; } ret=1; error: LM_DBG("lst was %p\n", lst); if (lst) replace_lst_free(lst); if (nmatches<0) LM_ERR("%s subst_run failed\n", exports.name); return ret; } static inline int find_line_start(char *text, unsigned int text_len, char **buf, unsigned int *buf_len) { char *ch, *start; unsigned int len; start = *buf; len = *buf_len; while (text_len <= len) { if (strncmp(text, start, text_len) == 0) { *buf = start; *buf_len = len; return 1; } if ((ch = memchr(start, 13, len - 1))) { if (*(ch + 1) != 10) { LM_ERR("No LF after CR\n"); return 0; } len = len - (ch - start + 2); start = ch + 2; } else { LM_ERR("No CRLF found\n"); return 0; } } return 0; } /** * return: * 1: multipart */ static int check_multipart(struct sip_msg *msg) { int mime; /* the function search for and parses the Content-Type hdr */ mime = parse_content_type_hdr (msg); if(mime<0) { LM_ERR("failed to extract content type hdr\n"); return -1; } if(mime!=MIMETYPE(MULTIPART,MIXED)) return 0; return 1; } /* Filters multipart/mixed body by leaving out everything else except * first body part of given content type. */ static int filter_body_f(struct sip_msg* msg, char* _content_type, char* ignored) { char *start; unsigned int len; str *content_type, body; str boundary = {0,0}; body.s = get_body(msg); if (body.s == 0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len - (int)(body.s - msg->buf); if (body.len == 0) { LM_DBG("message body has zero length\n"); return -1; } if(check_multipart(msg)!=1) { LM_WARN("body not multipart\n"); return -1; } if(get_boundary(msg, &boundary)!=0) { return -1; } content_type = (str *)_content_type; start = body.s; len = body.len; while (find_line_start("Content-Type: ", 14, &start, &len)) { start = start + 14; len = len - 14; LM_DBG("line: [%.*s]\n", len, start); if (len > content_type->len + 2) { if (strncasecmp(start, content_type->s, content_type->len)== 0) { LM_DBG("found content type %.*s\n", content_type->len, content_type->s); start = start + content_type->len; if ((*start != 13) || (*(start + 1) != 10)) { LM_ERR("no CRLF found after content type\n"); goto err; } start = start + 2; len = len - content_type->len - 2; while ((len > 0) && ((*start == 13) || (*start == 10))) { len = len - 1; start = start + 1; } if (del_lump(msg, body.s - msg->buf, start - body.s, 0)== 0) { LM_ERR("deleting lump <%.*s> failed\n", (int)(start - body.s), body.s); goto err; } if (find_line_start(boundary.s, boundary.len, &start, &len)) { /* we need to remove \r\n too */ if (del_lump(msg, (start-2) - msg->buf, len+2, 0) == 0) { LM_ERR("deleting lump <%.*s> failed\n", len, start); goto err; } else { pkg_free(boundary.s); return 1; } } else { LM_ERR("boundary not found after content\n"); goto err; } } } else { goto err; } } err: if(boundary.s) pkg_free(boundary.s); return -1; } int remove_hf_f(struct sip_msg* msg, char* str_hf, char* foo) { struct hdr_field *hf; struct lump* l; int cnt; gparam_p gp; gp = (gparam_p)str_hf; cnt=0; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { /* for well known header names str_hf->s will be set to NULL during parsing of kamailio.cfg and str_hf->len contains the header type */ if(gp->type==GPARAM_TYPE_INT) { if (gp->v.i!=hf->type) continue; } else { if (hf->name.len!=gp->v.str.len) continue; if (cmp_hdrname_str(&hf->name, &gp->v.str)!=0) continue; } l=del_lump(msg, hf->name.s-msg->buf, hf->len, 0); if (l==0) { LM_ERR("no memory\n"); return -1; } cnt++; } return cnt==0 ? -1 : 1; } static int remove_hf_re_f(struct sip_msg* msg, char* key, char* foo) { struct hdr_field *hf; struct lump* l; int cnt; regex_t *re; char c; regmatch_t pmatch; re = (regex_t*)key; cnt=0; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { c = hf->name.s[hf->name.len]; hf->name.s[hf->name.len] = '\0'; if (regexec(re, hf->name.s, 1, &pmatch, 0)!=0) { hf->name.s[hf->name.len] = c; continue; } hf->name.s[hf->name.len] = c; l=del_lump(msg, hf->name.s-msg->buf, hf->len, 0); if (l==0) { LM_ERR("cannot remove header\n"); return -1; } cnt++; } return cnt==0 ? -1 : 1; } static int is_present_hf_f(struct sip_msg* msg, char* str_hf, char* foo) { struct hdr_field *hf; gparam_p gp; gp = (gparam_p)str_hf; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { if(gp->type==GPARAM_TYPE_INT) { if (gp->v.i!=hf->type) continue; } else { if (hf->name.len!=gp->v.str.len) continue; if (cmp_hdrname_str(&hf->name,&gp->v.str)!=0) continue; } return 1; } return -1; } static int is_present_hf_re_f(struct sip_msg* msg, char* key, char* foo) { struct hdr_field *hf; regex_t *re; regmatch_t pmatch; char c; re = (regex_t*)key; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { c = hf->name.s[hf->name.len]; hf->name.s[hf->name.len] = '\0'; if (regexec(re, hf->name.s, 1, &pmatch, 0)!=0) { hf->name.s[hf->name.len] = c; continue; } hf->name.s[hf->name.len] = c; return 1; } return -1; } static int fixup_substre(void** param, int param_no) { struct subst_expr* se; str subst; LM_DBG("%s module -- fixing %s\n", exports.name, (char*)(*param)); if (param_no!=1) return 0; subst.s=*param; subst.len=strlen(*param); se=subst_parser(&subst); if (se==0){ LM_ERR("%s: bad subst. re %s\n", exports.name, (char*)*param); return E_BAD_RE; } /* don't free string -- needed for specifiers */ /* pkg_free(*param); */ /* replace it with the compiled subst. re */ *param=se; return 0; } static int append_time_f(struct sip_msg* msg, char* p1, char *p2) { size_t len; char time_str[MAX_TIME]; time_t now; struct tm *bd_time; now=time(0); bd_time=gmtime(&now); if (bd_time==NULL) { LM_ERR("gmtime failed\n"); return -1; } len=strftime(time_str, MAX_TIME, TIME_FORMAT, bd_time); if (len>MAX_TIME-2 || len==0) { LM_ERR("unexpected time length\n"); return -1; } time_str[len]='\r'; time_str[len+1]='\n'; if (add_lump_rpl(msg, time_str, len+2, LUMP_RPL_HDR)==0) { LM_ERR("unable to add lump\n"); return -1; } return 1; } static int append_time_request_f(struct sip_msg* msg, char* p1, char *p2) { str time_str = {0, 0}; time_t now; struct tm *bd_time; struct hdr_field *hf = msg->headers; struct lump *anchor = anchor_lump(msg, hf->name.s + hf->len - msg->buf, 0, 0); now=time(0); bd_time=gmtime(&now); if (bd_time==NULL) { LM_ERR("gmtime failed\n"); goto error; } time_str.s = pkg_malloc(MAX_TIME); if(time_str.s==NULL) { LM_ERR("no more pkg memory\n"); goto error; } time_str.len=strftime(time_str.s, MAX_TIME, TIME_FORMAT, bd_time); if (time_str.len>MAX_TIME-2 || time_str.len==0) { LM_ERR("unexpected time length\n"); goto error; } time_str.s[time_str.len++]='\r'; time_str.s[time_str.len++]='\n'; if (anchor == NULL) { LM_ERR("Problem with getting anchor"); goto error; } if (insert_new_lump_after(anchor, time_str.s, time_str.len, 0) == 0) { LM_ERR("unable to add lump\n"); goto error; } return 1; error: if (time_str.s != NULL) pkg_free(time_str.s); return -1; } static int set_body_f(struct sip_msg* msg, char* p1, char* p2) { struct lump *anchor; char* buf; int len; char* value_s; int value_len; str body = {0,0}; str nb = {0,0}; str nc = {0,0}; if(p1==0 || p2==0) { LM_ERR("invalid parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p1, &nb)!=0) { LM_ERR("unable to get p1\n"); return -1; } if(nb.s==NULL || nb.len == 0) { LM_ERR("invalid body parameter\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p2, &nc)!=0) { LM_ERR("unable to get p2\n"); return -1; } if(nc.s==NULL || nc.len == 0) { LM_ERR("invalid content-type parameter\n"); return -1; } body.len = 0; body.s = get_body(msg); if (body.s==0) { LM_ERR("malformed sip message\n"); return -1; } del_nonshm_lump( &(msg->body_lumps) ); msg->body_lumps = NULL; if (msg->content_length) { body.len = get_content_length( msg ); if(body.len > 0) { if(body.s+body.len>msg->buf+msg->len) { LM_ERR("invalid content length: %d\n", body.len); return -1; } if(del_lump(msg, body.s - msg->buf, body.len, 0) == 0) { LM_ERR("cannot delete existing body"); return -1; } } } anchor = anchor_lump(msg, msg->unparsed - msg->buf, 0, 0); if (anchor == 0) { LM_ERR("failed to get anchor\n"); return -1; } if (msg->content_length==0) { /* need to add Content-Length */ len = nb.len; value_s=int2str(len, &value_len); LM_DBG("content-length: %d (%s)\n", value_len, value_s); len=CONTENT_LENGTH_LEN+value_len+CRLF_LEN; buf=pkg_malloc(sizeof(char)*(len)); if (buf==0) { LM_ERR("out of pkg memory\n"); return -1; } memcpy(buf, CONTENT_LENGTH, CONTENT_LENGTH_LEN); memcpy(buf+CONTENT_LENGTH_LEN, value_s, value_len); memcpy(buf+CONTENT_LENGTH_LEN+value_len, CRLF, CRLF_LEN); if (insert_new_lump_after(anchor, buf, len, 0) == 0) { LM_ERR("failed to insert content-length lump\n"); pkg_free(buf); return -1; } } /* add content-type */ if(msg->content_type==NULL || msg->content_type->body.len!=nc.len || strncmp(msg->content_type->body.s, nc.s, nc.len)!=0) { if(msg->content_type!=NULL) if(del_lump(msg, msg->content_type->name.s-msg->buf, msg->content_type->len, 0) == 0) { LM_ERR("failed to delete content type\n"); return -1; } value_len = nc.len; len=sizeof("Content-Type: ") - 1 + value_len + CRLF_LEN; buf=pkg_malloc(sizeof(char)*(len)); if (buf==0) { LM_ERR("out of pkg memory\n"); return -1; } memcpy(buf, "Content-Type: ", sizeof("Content-Type: ") - 1); memcpy(buf+sizeof("Content-Type: ") - 1, nc.s, value_len); memcpy(buf+sizeof("Content-Type: ") - 1 + value_len, CRLF, CRLF_LEN); if (insert_new_lump_after(anchor, buf, len, 0) == 0) { LM_ERR("failed to insert content-type lump\n"); pkg_free(buf); return -1; } } anchor = anchor_lump(msg, body.s - msg->buf, 0, 0); if (anchor == 0) { LM_ERR("failed to get body anchor\n"); return -1; } buf=pkg_malloc(sizeof(char)*(nb.len)); if (buf==0) { LM_ERR("out of pkg memory\n"); return -1; } memcpy(buf, nb.s, nb.len); if (insert_new_lump_after(anchor, buf, nb.len, 0) == 0) { LM_ERR("failed to insert body lump\n"); pkg_free(buf); return -1; } LM_DBG("new body: [%.*s]", nb.len, nb.s); return 1; } static int set_rpl_body_f(struct sip_msg* msg, char* p1, char* p2) { char* buf; int len; int value_len; str nb = {0,0}; str nc = {0,0}; if(p1==0 || p2==0) { LM_ERR("invalid parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p1, &nb)!=0) { LM_ERR("unable to get p1\n"); return -1; } if(nb.s==NULL || nb.len == 0) { LM_ERR("invalid body parameter\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p2, &nc)!=0) { LM_ERR("unable to get p2\n"); return -1; } if(nc.s==NULL || nc.len == 0) { LM_ERR("invalid content-type parameter\n"); return -1; } /* add content-type */ value_len = nc.len; len=sizeof("Content-Type: ") - 1 + value_len + CRLF_LEN; buf=pkg_malloc(sizeof(char)*(len)); if (buf==0) { LM_ERR("out of pkg memory\n"); return -1; } memcpy(buf, "Content-Type: ", sizeof("Content-Type: ") - 1); memcpy(buf+sizeof("Content-Type: ") - 1, nc.s, value_len); memcpy(buf+sizeof("Content-Type: ") - 1 + value_len, CRLF, CRLF_LEN); if (add_lump_rpl(msg, buf, len, LUMP_RPL_HDR) == 0) { LM_ERR("failed to insert content-type lump\n"); pkg_free(buf); return -1; } pkg_free(buf); if (add_lump_rpl( msg, nb.s, nb.len, LUMP_RPL_BODY)==0) { LM_ERR("cannot add body lump\n"); return -1; } return 1; } static str* generate_boundary(str *txt, str *content_type, str *content_disposition, str *delimiter, unsigned int initial) { unsigned int i = 0; str cth = {"Content-Type: ", 14}; str cdh = {"Content-Disposition: ", 21}; str* n; unsigned int flag = 0; if(txt==NULL||txt->len==0 ||content_type==NULL||content_type->len==0 ||delimiter==NULL||delimiter->len==0) { LM_ERR("invalid parameters\n"); return NULL; } if (delimiter->s[0] == '-') { LM_ERR("delimiter with initial '-'. Invalid parameter.\n"); return NULL; } n = pkg_malloc(sizeof(str)); if(n==NULL) { LM_ERR("out of pkg memory\n"); return NULL; } n->len = delimiter->len + 2 + CRLF_LEN; if(initial) n->len = 2*n->len; if(strncmp("\r\n\r\n", txt->s+txt->len-4,4)!=0) { n->len = n->len + CRLF_LEN; flag = 1; LM_DBG("adding final CRLF+CRLF\n"); } n->len=n->len + cth.len + content_type->len + 2*CRLF_LEN; if(content_disposition->len>0) { n->len = n->len + cdh.len + content_disposition->len + CRLF_LEN; } n->len = n->len + txt->len; n->s = pkg_malloc(sizeof(char)*(n->len)); if(n->s==0) { LM_ERR("out of pkg memory\n"); pkg_free(n); return NULL; } memset(n->s, 0, sizeof(char)*n->len); if(initial) { memcpy(n->s, "--", 2); i=2; memcpy(n->s+i, delimiter->s, delimiter->len); i=i+delimiter->len; memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; } memcpy(n->s+i, cth.s, cth.len); i=i+cth.len; memcpy(n->s+i, content_type->s, content_type->len); i=i+content_type->len; memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; if(content_disposition->len>0) { memcpy(n->s+i, cdh.s, cdh.len); i=i+cdh.len; memcpy(n->s+i, content_disposition->s, content_disposition->len); i=i+content_disposition->len; memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; } memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; memcpy(n->s+i, txt->s, txt->len); i=i+txt->len; if(flag) { memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; } memcpy(n->s+i, "--", 2); i=i+2; memcpy(n->s+i, delimiter->s, delimiter->len); i=i+delimiter->len; memcpy(n->s+i, CRLF, CRLF_LEN); i=i+CRLF_LEN; if(i!=n->len) { LM_ERR("out of bounds\n"); } return n; } int set_multibody_helper(struct sip_msg* msg, char* p1, char* p2, char* p3) { struct lump *anchor; char* buf = NULL; int len; char* value_s; int value_len; str body = {0,0}; str nb = {0,0}; str oc = {0,0}; str cd = {0,0}; str delimiter = {0,0}; str default_delimiter = {"unique-boundary-1", 17}; str nc = {0,0}; str cth = {"Content-Type: ", 14}; str* nbb = NULL; unsigned int convert = 0; fparam_t header; header.orig = NULL; header.type = FPARAM_STR; header.v.str.s = "Mime-Version: 1.0\r\n"; header.v.str.len = 19; if(p3==0) { delimiter.s = default_delimiter.s; delimiter.len = default_delimiter.len; } else { if(fixup_get_svalue(msg, (gparam_p)p3, &delimiter)!=0) { LM_ERR("unable to get p3\n"); return -1; } if(delimiter.s==NULL || delimiter.len == 0) { LM_ERR("invalid boundary parameter\n"); return -1; } } LM_DBG("delimiter<%d>:[%.*s]\n", delimiter.len, delimiter.len, delimiter.s); if(p1==0 || p2==0) { if(check_multipart(msg)==1) { LM_WARN("body is already multipart. Do nothing\n"); return -1; } convert = 1; } else { if(fixup_get_svalue(msg, (gparam_p)p1, &nb)!=0) { LM_ERR("unable to get p1\n"); return -1; } if(nb.s==NULL || nb.len == 0) { LM_ERR("invalid body parameter\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p2, &oc)!=0) { LM_ERR("unable to get p2\n"); return -1; } if(oc.s==NULL || oc.len==0) { LM_ERR("invalid content-type parameter\n"); return -1; } if(check_multipart(msg)==1) { convert = -1; } } body.len = 0; body.s = get_body(msg); if(body.s==0) { LM_ERR("malformed sip message\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); del_nonshm_lump( &(msg->body_lumps) ); msg->body_lumps = NULL; if(msg->content_length) { if(body.len > 0) { if(body.s+body.len>msg->buf+msg->len) { LM_ERR("invalid content length: %d\n", body.len); return -1; } if(convert==1) { /* need to copy body */ nb.s=pkg_malloc(sizeof(char)*body.len); if (nb.s==0) { LM_ERR("out of pkg memory\n"); return -1; } memcpy(nb.s, body.s, body.len); nb.len = body.len; if(msg->content_type!=NULL && msg->content_type->body.s!=NULL) { oc.len = msg->content_type->body.len; oc.s=pkg_malloc(sizeof(char)*oc.len); if (oc.s==0) { LM_ERR("out of pkg memory\n"); goto error; } memcpy(oc.s, msg->content_type->body.s, oc.len); } } if(del_lump(msg, body.s-msg->buf, body.len, 0) == 0) { LM_ERR("cannot delete existing body"); goto error; } } } anchor = anchor_lump(msg, msg->unparsed-msg->buf, 0, 0); if(anchor==0) { LM_ERR("failed to get anchor\n"); goto error; } /* get initial boundary */ nbb = generate_boundary(&nb, &oc, &cd, &delimiter, 1); if(nbb==NULL) { LM_ERR("couldn't create initial boundary\n"); goto error; } if(msg->content_length==0) { /* need to add Content-Length */ len = nbb->len; value_s=int2str(len, &value_len); len=CONTENT_LENGTH_LEN+value_len+CRLF_LEN; buf=pkg_malloc(sizeof(char)*len); if (buf==0) { LM_ERR("out of pkg memory\n"); goto error; } memcpy(buf, CONTENT_LENGTH, CONTENT_LENGTH_LEN); memcpy(buf+CONTENT_LENGTH_LEN, value_s, value_len); memcpy(buf+CONTENT_LENGTH_LEN+value_len, CRLF, CRLF_LEN); if (insert_new_lump_after(anchor, buf, len, 0) == 0) { LM_ERR("failed to insert content-length lump\n"); goto error; } buf = NULL; } if(convert!=-1) { /* set new content type with delimiter */ nc.len = delimiter.len + 27; nc.s = pkg_malloc(sizeof(char)*nc.len); memcpy(nc.s, "multipart/mixed;boundary=\"", 26); memcpy(nc.s+26, delimiter.s, delimiter.len); nc.s[26+delimiter.len] = '"'; LM_DBG("content-type<%d>:[%.*s]\n", nc.len, nc.len, nc.s); /* add content-type */ if(msg->content_type==NULL || msg->content_type->body.len!=nc.len || strncmp(msg->content_type->body.s, nc.s, nc.len)!=0) { if(msg->content_type!=NULL) if(del_lump(msg, msg->content_type->name.s-msg->buf, msg->content_type->len, 0) == 0) { LM_ERR("failed to delete content type\n"); goto error; } value_len = nc.len; len = cth.len + value_len + CRLF_LEN; buf = pkg_malloc(sizeof(char)*len); if(buf==0) { LM_ERR("out of pkg memory\n"); goto error; } memcpy(buf, cth.s, cth.len); memcpy(buf + cth.len, nc.s, value_len); memcpy(buf + cth.len + value_len, CRLF, CRLF_LEN); if (insert_new_lump_after(anchor, buf, len, 0) == 0) { LM_ERR("failed to insert content-type lump\n"); goto error; } buf = NULL; } /* add Mime-Version header */ if(add_hf_helper(msg, 0, 0, &header, 0, 0)<0) { LM_ERR("failed to add Mime-Version header\n"); goto error; } } anchor = anchor_lump(msg, body.s - msg->buf, 0, 0); if(anchor==0) { LM_ERR("failed to get body anchor\n"); goto error; } if(insert_new_lump_after(anchor, nbb->s, nbb->len, 0)==0) { LM_ERR("failed to insert body lump\n"); goto error; } pkg_free(nbb); if(nc.s!=NULL) pkg_free(nc.s); if(convert && nb.s!=NULL) pkg_free(nb.s); if(convert && oc.s!=NULL) pkg_free(oc.s); LM_DBG("set flag FL_BODY_MULTIPART\n"); msg->msg_flags |= FL_BODY_MULTIPART; return 1; error: if(nbb!=NULL) { pkg_free(nbb->s); pkg_free(nbb); } if(nc.s!=NULL) pkg_free(nc.s); if(buf!=NULL) pkg_free(buf); if(convert && nb.s!=NULL) pkg_free(nb.s); if(convert && oc.s!=NULL) pkg_free(oc.s); return -1; } static int set_multibody_0(struct sip_msg* msg, char* p1, char* p2, char* p3) { return set_multibody_helper(msg, NULL, NULL, NULL); } static int set_multibody_1(struct sip_msg* msg, char* p1, char* p2, char* p3) { return set_multibody_helper(msg, NULL, NULL, p1); } static int set_multibody_2(struct sip_msg* msg, char* p1, char* p2, char* p3) { return set_multibody_helper(msg, p1, p2, NULL); } static int set_multibody_3(struct sip_msg* msg, char* p1, char* p2, char *p3) { return set_multibody_helper(msg, p1, p2, p3); } int append_multibody_helper(struct sip_msg* msg, char* p1, char* p2, char* p3) { struct lump *l; int off; str body = {0,0}; str nc = {0,0}; str cd = {0,0}; str txt = {0,0}; str* nbb = NULL; str delimiter = {0,0}; if(p1==0 || p2==0) { LM_ERR("invalid parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p1, &txt)!=0) { LM_ERR("unable to get p1\n"); return -1; } if(txt.s==NULL || txt.len==0) { LM_ERR("invalid body parameter\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p2, &nc)!=0) { LM_ERR("unable to get p2\n"); return -1; } if(nc.s==NULL || nc.len==0) { LM_ERR("invalid content-type parameter\n"); return -1; } if(p3!=NULL) { if(fixup_get_svalue(msg, (gparam_p)p3, &cd)!=0) { LM_ERR("unable to get p3\n"); return -1; } } body.s = get_body(msg); if(body.s==0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len -(int)(body.s-msg->buf); if(body.len==0) { LM_DBG("message body has zero length\n"); return -1; } off=body.s-msg->buf; if((l=anchor_lump(msg, off+body.len, 0, 0))==0) { LM_ERR("WTF\n"); return -1; } /* get delimiter no initial -- */ if(get_mixed_part_delimiter(&msg->content_type->body, &delimiter) < 0) { LM_ERR("Cannot get boundary. Is body multipart?\n"); return -1; } nbb = generate_boundary(&txt, &nc, &cd, &delimiter, 0); if(nbb==NULL) { LM_ERR("couldn't create initial boundary\n"); return -1; } if(insert_new_lump_after(l, nbb->s, nbb->len, 0)==0){ LM_ERR("could not insert new lump\n"); pkg_free(nbb->s); pkg_free(nbb); return -1; } pkg_free(nbb); if(!(msg->msg_flags&FL_BODY_MULTIPART)) { LM_DBG("set flag FL_BODY_MULTIPART\n"); msg->msg_flags |= FL_BODY_MULTIPART; } return 1; } static int append_multibody_2(struct sip_msg* msg, char* p1, char* p2) { return append_multibody_helper(msg, p1, p2, NULL); } static int append_multibody_3(struct sip_msg* msg, char* p1, char* p2, char *p3) { return append_multibody_helper(msg, p1, p2, p3); } static int fixup_multibody_f(void** param, int param_no) { int ret; fparam_t* fp; if(param_no<=3){ if((ret=fix_param_types(FPARAM_PVE, param))<0){ ERR("Cannot convert function parameter %d to spve \n", param_no); return E_UNSPEC; } else { fp=(fparam_t*)*param; if((ret==0) && (fp->v.pve->spec==0 || fp->v.pve->spec->getf==0)){ fparam_free_restore(param); return fix_param_types(FPARAM_STR, param); } else if(ret==1) return fix_param_types(FPARAM_STR, param); return ret; } } else { LM_ERR("wrong number of parameters\n"); return E_UNSPEC; } } static inline int get_line(char *s, int len) { char *ch; if ((ch = memchr(s, 13, len))) { if (*(ch + 1) != 10) { LM_ERR("No LF after CR\n"); return 0; } return ch - s + 2; } else { LM_ERR("No CRLF found\n"); return len; } return 0; } static int remove_multibody_f(struct sip_msg* msg, char* p1) { char *start, *end; unsigned int len, t; str content_type, body; str boundary = {0,0}; if(p1==0) { LM_ERR("invalid parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)p1, &content_type)!=0) { LM_ERR("unable to get p1\n"); return -1; } body.s = get_body(msg); if (body.s == 0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len - (int)(body.s - msg->buf); if (body.len == 0) { LM_DBG("message body has zero length\n"); return -1; } if(get_boundary(msg, &boundary)!=0) { LM_ERR("Cannot get boundary. Is body multipart?\n"); return -1; } start = body.s; len = body.len; while (find_line_start("Content-Type: ", 14, &start, &len)) { end = start + 14; len = len - 14; if (len > (content_type.len + 2)) { if (strncasecmp(end, content_type.s, content_type.len)== 0) { LM_DBG("found content type %.*s\n", content_type.len, content_type.s); end = end + content_type.len; if ((*end != 13) || (*(end + 1) != 10)) { LM_ERR("no CRLF found after content type\n"); goto err; } end = end + 2; len = len - content_type.len - 2; if (find_line_start(boundary.s, boundary.len, &end, &len)) { LM_DBG("found boundary %.*s\n", boundary.len, boundary.s); end = end + boundary.len; len = len - boundary.len; if (!(t = get_line(end, len))) goto err; end += t; len = end-start; if (del_lump(msg, start - msg->buf, len, 0) == 0) { LM_ERR("deleting lump <%.*s> failed\n", len, start); goto err; } pkg_free(boundary.s); if(!(msg->msg_flags&FL_BODY_MULTIPART)) { LM_DBG("set flag FL_BODY_MULTIPART\n"); msg->msg_flags |= FL_BODY_MULTIPART; } return 1; } LM_ERR("boundary not found after content\n"); goto err; } start = end; } else goto err; } err: pkg_free(boundary.s); return -1; } /** * */ static int get_body_part_helper(sip_msg_t* msg, char* ctype, char* ovar, int mode) { char *start, *end, *bstart; char *body_headers_end; unsigned int len, t; str content_type, body; str boundary = {0,0}; pv_spec_t *dst; pv_value_t val; if(ctype==0) { LM_ERR("invalid parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_t*)ctype, &content_type)!=0) { LM_ERR("unable to get content type\n"); return -1; } body.s = get_body(msg); if (body.s == 0) { LM_ERR("failed to get the message body\n"); return -1; } body.len = msg->len - (int)(body.s - msg->buf); if (body.len == 0) { LM_DBG("message body has zero length\n"); return -1; } if(get_boundary(msg, &boundary)!=0) { LM_ERR("Cannot get boundary. Is body multipart?\n"); return -1; } start = body.s; len = body.len; /* note: header body can follow just after name: - fixit */ while (find_line_start("Content-Type: ", 14, &start, &len)) { end = start + 14; len = len - 14; if (len > (content_type.len + 2)) { if (strncasecmp(end, content_type.s, content_type.len)== 0) { LM_DBG("found content type %.*s\n", content_type.len, content_type.s); end = end + content_type.len; if ((*end != 13) || (*(end + 1) != 10)) { LM_ERR("no CRLF found after content type\n"); goto err; } end = end + 2; len = len - content_type.len - 2; body_headers_end = end; if (find_line_start(boundary.s, boundary.len, &end, &len)) { LM_DBG("found boundary %.*s\n", boundary.len, boundary.s); bstart = end; end = end + boundary.len; len = len - boundary.len; if (!(t = get_line(end, len))) { LM_ERR("no CRLF found after boundary\n"); goto err; } end += t; len = end-start; pkg_free(boundary.s); boundary.s = NULL; if(mode==1) { end = body_headers_end; val.rs.s = end; val.rs.len = bstart - val.rs.s; } else { val.rs.s = start; val.rs.len = len; } LM_DBG("output result: %.*s\n", val.rs.len, val.rs.s); val.flags = PV_VAL_STR; dst = (pv_spec_t *)ovar; dst->setf(msg, &dst->pvp, (int)EQ_T, &val); return 1; } LM_ERR("boundary not found after content\n"); goto err; } start = end; } else { LM_ERR("failed to match on content-type\n"); goto err; } } err: if(boundary.s) pkg_free(boundary.s); return -1; } /** * */ static int get_body_part_raw_f(sip_msg_t* msg, char* ctype, char* ovar) { return get_body_part_helper(msg, ctype, ovar, 0); } /** * */ static int get_body_part_f(sip_msg_t* msg, char* ctype, char* ovar) { return get_body_part_helper(msg, ctype, ovar, 1); } /* * Fix get_body_part_raw params: content type (string that may contain pvars) and * result (writable pvar). */ static int fixup_get_body_part(void** param, int param_no) { if (param_no == 1) { return fixup_spve_null(param, 1); } if (param_no == 2) { if (fixup_pvar_null(param, 1) != 0) { LM_ERR("failed to fixup result pvar\n"); return -1; } if (((pv_spec_t *)(*param))->setf == NULL) { LM_ERR("result pvar is not writeble\n"); return -1; } return 0; } LM_ERR("invalid parameter number <%d>\n", param_no); return -1; } static int append_to_reply_f(struct sip_msg* msg, char* key, char* str0) { str s0; if(key==NULL) { LM_ERR("bad parameters\n"); return -1; } if(fixup_get_svalue(msg, (gparam_p)key, &s0)!=0) { LM_ERR("cannot print the format\n"); return -1; } if ( add_lump_rpl( msg, s0.s, s0.len, LUMP_RPL_HDR)==0 ) { LM_ERR("unable to add lump_rl\n"); return -1; } return 1; } /* add str1 to end of header or str1.r-uri.str2 */ int add_hf_helper(struct sip_msg* msg, str *str1, str *str2, gparam_p hfval, int mode, gparam_p hfanc) { struct lump* anchor; struct hdr_field *hf; char *s; int len; str s0; if (parse_headers(msg, HDR_EOH_F, 0) == -1) { LM_ERR("error while parsing message\n"); return -1; } hf = 0; if(hfanc!=NULL) { for (hf=msg->headers; hf; hf=hf->next) { if(hfanc->type==GPARAM_TYPE_INT) { if (hfanc->v.i!=hf->type) continue; } else { if (hf->name.len!=hfanc->v.str.len) continue; if (cmp_hdrname_str(&hf->name,&hfanc->v.str)!=0) continue; } break; } } if(mode == 0) { /* append */ if(hf==0) { /* after last header */ anchor = anchor_lump(msg, msg->unparsed - msg->buf, 0, 0); } else { /* after hf */ anchor = anchor_lump(msg, hf->name.s + hf->len - msg->buf, 0, 0); } } else { /* insert */ if(hf==0) { /* before first header */ anchor = anchor_lump(msg, msg->headers->name.s - msg->buf, 0, 0); } else { /* before hf */ anchor = anchor_lump(msg, hf->name.s - msg->buf, 0, 0); } } if(anchor == 0) { LM_ERR("can't get anchor\n"); return -1; } if(str1) { s0 = *str1; } else { if(hfval) { if(fixup_get_svalue(msg, hfval, &s0)!=0) { LM_ERR("cannot print the format\n"); return -1; } } else { s0.len = 0; s0.s = 0; } } len=s0.len; if (str2) len+= str2->len + REQ_LINE(msg).uri.len; if(len==0) { LM_INFO("nothing to add\n"); return -1; } s = (char*)pkg_malloc(len); if (!s) { LM_ERR("no pkg memory left\n"); return -1; } if (likely(s0.len>0)){ memcpy(s, s0.s, s0.len); } if (str2) { memcpy(s+s0.len, REQ_LINE(msg).uri.s, REQ_LINE(msg).uri.len); memcpy(s+s0.len+REQ_LINE(msg).uri.len, str2->s, str2->len ); } if (insert_new_lump_before(anchor, s, len, 0) == 0) { LM_ERR("can't insert lump\n"); pkg_free(s); return -1; } return 1; } static int append_hf_1(struct sip_msg *msg, char *str1, char *str2 ) { return add_hf_helper(msg, 0, 0, (gparam_p)str1, 0, 0); } static int append_hf_2(struct sip_msg *msg, char *str1, char *str2 ) { return add_hf_helper(msg, 0, 0, (gparam_p)str1, 0, (gparam_p)str2); } static int insert_hf_1(struct sip_msg *msg, char *str1, char *str2 ) { return add_hf_helper(msg, 0, 0, (gparam_p)str1, 1, 0); } static int insert_hf_2(struct sip_msg *msg, char *str1, char *str2 ) { return add_hf_helper(msg, 0, 0, (gparam_p)str1, 1, (gparam_p)str2); } static int append_urihf(struct sip_msg *msg, char *str1, char *str2) { return add_hf_helper(msg, (str*)str1, (str*)str2, 0, 0, 0); } static int is_method_f(struct sip_msg *msg, char *meth, char *str2 ) { str *m; m = (str*)meth; if(msg->first_line.type==SIP_REQUEST) { if(m->s==0) return (msg->first_line.u.request.method_value&m->len)?1:-1; else return (msg->first_line.u.request.method_value==METHOD_OTHER && msg->first_line.u.request.method.len==m->len && (strncasecmp(msg->first_line.u.request.method.s, m->s, m->len)==0))?1:-1; } if(parse_headers(msg, HDR_CSEQ_F, 0)!=0 || msg->cseq==NULL) { LM_ERR("cannot parse cseq header\n"); return -1; /* should it be 0 ?!?! */ } if(m->s==0) return (get_cseq(msg)->method_id&m->len)?1:-1; else return (get_cseq(msg)->method_id==METHOD_OTHER && get_cseq(msg)->method.len==m->len && (strncasecmp(get_cseq(msg)->method.s, m->s, m->len)==0))?1:-1; } /* * Convert char* header_name to str* parameter */ static int hname_fixup(void** param, int param_no) { char c; struct hdr_field hdr; gparam_p gp = NULL; gp = (gparam_p)pkg_malloc(sizeof(gparam_t)); if(gp == NULL) { LM_ERR("no more memory\n"); return E_UNSPEC; } memset(gp, 0, sizeof(gparam_t)); gp->v.str.s = (char*)*param; gp->v.str.len = strlen(gp->v.str.s); if(gp->v.str.len==0) { LM_ERR("empty header name parameter\n"); pkg_free(gp); return E_UNSPEC; } c = gp->v.str.s[gp->v.str.len]; gp->v.str.s[gp->v.str.len] = ':'; gp->v.str.len++; if (parse_hname2_short(gp->v.str.s, gp->v.str.s + gp->v.str.len, &hdr)==0) { LM_ERR("error parsing header name\n"); pkg_free(gp); return E_UNSPEC; } gp->v.str.len--; gp->v.str.s[gp->v.str.len] = c; if (hdr.type!=HDR_OTHER_T && hdr.type!=HDR_ERROR_T) { LM_DBG("using hdr type (%d) instead of <%.*s>\n", hdr.type, gp->v.str.len, gp->v.str.s); pkg_free(gp->v.str.s); gp->v.str.s = NULL; gp->v.i = hdr.type; gp->type = GPARAM_TYPE_INT; } else { gp->type = GPARAM_TYPE_STR; LM_DBG("using hdr type name <%.*s>\n", gp->v.str.len, gp->v.str.s); } *param = (void*)gp; return 0; } static int free_hname_fixup(void** param, int param_no) { if(*param) { if(((gparam_p)(*param))->type==GPARAM_TYPE_STR) pkg_free(((gparam_p)(*param))->v.str.s); pkg_free(*param); *param = 0; } return 0; } /* * Convert char* method to str* parameter */ static int fixup_method(void** param, int param_no) { str* s; char *p; int m; unsigned int method; s = (str*)pkg_malloc(sizeof(str)); if (!s) { LM_ERR("no pkg memory left\n"); return E_UNSPEC; } s->s = (char*)*param; s->len = strlen(s->s); if(s->len==0) { LM_ERR("empty method name\n"); pkg_free(s); return E_UNSPEC; } m=0; p=s->s; while(*p) { if(*p=='|') { *p = ','; m=1; } p++; } if(parse_methods(s, &method)!=0) { LM_ERR("bad method names\n"); pkg_free(s); return E_UNSPEC; } if(m==1) { if(method==METHOD_UNDEF || method&METHOD_OTHER) { LM_ERR("unknown method in list [%.*s/%d] - must be only defined methods\n", s->len, s->s, method); pkg_free(s); return E_UNSPEC; } LM_DBG("using id for methods [%.*s/%d]\n", s->len, s->s, method); s->s = 0; s->len = method; } else { if(method!=METHOD_UNDEF && method!=METHOD_OTHER) { LM_DBG("using id for method [%.*s/%d]\n", s->len, s->s, method); s->s = 0; s->len = method; } else LM_DBG("name for method [%.*s/%d]\n", s->len, s->s, method); } *param = (void*)s; return 0; } /* * Convert char* privacy value to corresponding bit value */ int fixup_privacy(void** param, int param_no) { str p; unsigned int val; p.s = (char*)*param; p.len = strlen(p.s); if (p.len == 0) { LM_ERR("empty privacy value\n"); return E_UNSPEC; } if (parse_priv_value(p.s, p.len, &val) != p.len) { LM_ERR("invalid privacy value\n"); return E_UNSPEC; } *param = (void *)(long)val; return 0; } /* * Fix in_list params: subject and list (strings that may contain pvars), * separator (string) */ static int fixup_in_list(void** param, int param_no) { if ((param_no == 1) || (param_no == 2)) return fixup_spve_null(param, 1); if (param_no == 3) { if ((strlen((char *)*param) != 1) || (*((char *)(*param)) == 0)) { LM_ERR("invalid separator parameter\n"); return -1; } return 0; } LM_ERR("invalid parameter number <%d>\n", param_no); return -1; } /* * Free in_list params */ static int fixup_free_in_list(void** param, int param_no) { if ((param_no == 1) || (param_no == 2)) { return fixup_free_spve_null(param, 1); } if (param_no == 3) return 0; LM_ERR("invalid parameter number <%d>\n", param_no); return -1; } static int add_header_fixup(void** param, int param_no) { if(param_no==1) { return fixup_spve_null(param, param_no); } else if(param_no==2) { return hname_fixup(param, param_no); } else { LM_ERR("wrong number of parameters\n"); return E_UNSPEC; } } static int fixup_body_type(void** param, int param_no) { char *p; char *r; unsigned int type; if(param_no==1) { p = (char*)*param; if (p==0 || p[0]==0) { type = 0; } else { r = decode_mime_type( p, p+strlen(p) , &type); if (r==0) { LM_ERR("unsupported mime <%s>\n",p); return E_CFG; } if ( r!=p+strlen(p) ) { LM_ERR("multiple mimes not supported!\n"); return E_CFG; } } pkg_free(*param); *param = (void*)(long)type; } return 0; } static int has_body_f(struct sip_msg *msg, char *type, char *str2 ) { int mime; /* parse content len hdr */ if ( msg->content_length==NULL && (parse_headers(msg,HDR_CONTENTLENGTH_F, 0)==-1||msg->content_length==NULL)) return -1; if (get_content_length (msg)==0) { LM_DBG("content length is zero\n"); /* Nothing to see here, please move on. */ return -1; } /* check type also? */ if (type==0) return 1; /* the function search for and parses the Content-Type hdr */ mime = parse_content_type_hdr (msg); if (mime<0) { LM_ERR("failed to extract content type hdr\n"); return -1; } if (mime==0) { /* content type hdr not found -> according the RFC3261 we * assume APPLICATION/SDP --bogdan */ mime = ((TYPE_APPLICATION << 16) + SUBTYPE_SDP); } LM_DBG("content type is %d\n",mime); if ( (unsigned int)mime!=(unsigned int)(unsigned long)type ) return -1; return 1; } int is_privacy_f(struct sip_msg *msg, char *_privacy, char *str2 ) { if (parse_privacy(msg) == -1) return -1; return get_privacy_values(msg) & ((unsigned int)(long)_privacy) ? 1 : -1; } /* * Checks if subject is found in list */ int in_list_f(struct sip_msg* _m, char* _subject, char* _list, char* _sep) { str subject, list; int sep; char *at, *past, *next_sep, *s; if (fixup_get_svalue(_m, (gparam_p)_subject, &subject) != 0) { LM_ERR("cannot get subject value\n"); return -1; } else { if (subject.len == 0) { LM_ERR("subject cannot be empty string\n"); return -1; } } if (fixup_get_svalue(_m, (gparam_p)_list, &list) != 0) { LM_ERR("cannot get list value\n"); return -1; } else { if (list.len == 0) return -1; } sep = _sep[0]; at = list.s; past = list.s + list.len; /* Eat leading white space */ while ((at < past) && ((*at == ' ') || (*at == '\t') || (*at == '\r') || (*at == '\n') )) { at++; } while (at < past) { next_sep = index(at, sep); s = next_sep; if (s == NULL) { /* Eat trailing white space */ while ((at < past) && ((*(past-1) == ' ') || (*(past-1) == '\t') || (*(past-1) == '\r') || (*(past-1) == '\n') )) { past--; } if ((subject.len == (past - at)) && strncmp(at, subject.s, subject.len) == 0) { return 1; } else { return -1; } } else { /* Eat trailing white space */ while ((at < s) && ((*(s-1) == ' ') || (*(s-1) == '\t') || (*(s-1) == '\r') || (*(s-1) == '\n') )) { s--; } if ((subject.len == (s - at)) && strncmp(at, subject.s, subject.len) == 0) { return 1; } else { at = next_sep + 1; /* Eat leading white space */ while ((at < past) && ((*at == ' ') || (*at == '\t') || (*at == '\r') || (*at == '\n') )) { at++; } } } } return -1; } static int cmp_str_f(struct sip_msg *msg, char *str1, char *str2 ) { str s1; str s2; int ret; if(fixup_get_svalue(msg, (gparam_p)str1, &s1)!=0) { LM_ERR("cannot get first parameter\n"); return -8; } if(fixup_get_svalue(msg, (gparam_p)str2, &s2)!=0) { LM_ERR("cannot get second parameter\n"); return -8; } ret = cmp_str(&s1, &s2); if(ret==0) return 1; if(ret>0) return -1; return -2; } static int cmp_istr_f(struct sip_msg *msg, char *str1, char *str2) { str s1; str s2; int ret; if(fixup_get_svalue(msg, (gparam_p)str1, &s1)!=0) { LM_ERR("cannot get first parameter\n"); return -8; } if(fixup_get_svalue(msg, (gparam_p)str2, &s2)!=0) { LM_ERR("cannot get second parameter\n"); return -8; } ret = cmpi_str(&s1, &s2); if(ret==0) return 1; if(ret>0) return -1; return -2; } static int starts_with_f(struct sip_msg *msg, char *str1, char *str2 ) { str s1; str s2; int ret; if(fixup_get_svalue(msg, (gparam_p)str1, &s1)!=0) { LM_ERR("cannot get first parameter\n"); return -8; } if(fixup_get_svalue(msg, (gparam_p)str2, &s2)!=0) { LM_ERR("cannot get second parameter\n"); return -8; } if (s1.len < s2.len) return -1; ret = strncmp(s1.s, s2.s, s2.len); if(ret==0) return 1; if(ret>0) return -1; return -2; } static int is_audio_on_hold_f(struct sip_msg *msg, char *str1, char *str2 ) { int sdp_session_num = 0, sdp_stream_num; sdp_session_cell_t* sdp_session; sdp_stream_cell_t* sdp_stream; if (0 == parse_sdp(msg)) { for(;;) { sdp_session = get_sdp_session(msg, sdp_session_num); if(!sdp_session) break; sdp_stream_num = 0; for(;;) { sdp_stream = get_sdp_stream(msg, sdp_session_num, sdp_stream_num); if(!sdp_stream) break; if(sdp_stream->media.len==AUDIO_STR_LEN && strncmp(sdp_stream->media.s,AUDIO_STR,AUDIO_STR_LEN)==0 && sdp_stream->is_on_hold) return 1; sdp_stream_num++; } sdp_session_num++; } } return -1; } int fixup_regexpNL_none(void** param, int param_no) { regex_t* re; if (param_no != 1 && param_no != 2 ) { LM_ERR("invalid parameter number %d\n", param_no); return E_UNSPEC; } if (param_no == 2) return 0; /* param 1 */ if ((re=pkg_malloc(sizeof(regex_t)))==0) { LM_ERR("no more pkg memory\n"); return E_OUT_OF_MEM; } if (regcomp(re, *param, REG_EXTENDED|REG_ICASE)) { pkg_free(re); LM_ERR("bad re %s\n", (char*)*param); return E_BAD_RE; } /* free string */ pkg_free(*param); /* replace it with the compiled re */ *param=re; return 0; } /*! \brief * fixup for functions that get two parameters * - first parameter is converted to regular expression structure * - second parameter is not converted */ int fixup_regexp_none(void** param, int param_no) { if (param_no != 1 && param_no != 2 ) { LM_ERR("invalid parameter number %d\n", param_no); return E_UNSPEC; } if (param_no == 1) return fixup_regexp_null(param, 1); return 0; } /** * fixup free for functions that get two parameters * - first parameter was converted to regular expression * - second parameter was notconverted */ int fixup_free_regexp_none(void** param, int param_no) { if (param_no != 1 && param_no != 2 ) { LM_ERR("invalid parameter number %d\n", param_no); return E_UNSPEC; } if (param_no == 1) return fixup_free_regexp_null(param, 1); return 0; } /** * */ static int search_hf_f(struct sip_msg* msg, char* str_hf, char* re, char *flags) { hdr_field_t *hf; hdr_field_t *hfl = NULL; str body; gparam_t *gp; regmatch_t pmatch; char c; int ret; gp = (gparam_t*)str_hf; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { if(gp->type==GPARAM_TYPE_INT) { if (gp->v.i!=hf->type) continue; } else { if (hf->name.len!=gp->v.str.len) continue; if (cmp_hdrname_str(&hf->name,&gp->v.str)!=0) continue; } if(flags==NULL || *flags!='l') { body = hf->body; c = body.s[body.len]; body.s[body.len] = '\0'; ret = regexec((regex_t*) re, body.s, 1, &pmatch, 0); body.s[body.len] = c; if(ret==0) { /* match */ if(flags==NULL || *flags!='l') return 1; } else { if(flags!=NULL && *flags=='f') return -1; } } else { hfl = hf; } } if(hfl!=NULL) { hf = hfl; body = hf->body; c = body.s[body.len]; body.s[body.len] = '\0'; ret = regexec((regex_t*) re, body.s, 1, &pmatch, 0); body.s[body.len] = c; if(ret==0) return 1; } return -1; } /* * Convert header name, regexp and flags */ static int fixup_search_hf(void** param, int param_no) { if(param_no==1) return hname_fixup(param, param_no); if(param_no==2) return fixup_regexp_null(param, 1); return 0; } /* sed-perl style re: s/regular expression/replacement/flags */ static int subst_hf_f(struct sip_msg *msg, char *str_hf, char *subst, char *flags) { struct lump* l; struct replace_lst* lst = NULL; struct replace_lst* rpl = NULL; char* begin; struct subst_expr* se; int off; int nmatches=0; str body; hdr_field_t *hf; hdr_field_t *hfl = NULL; gparam_t *gp; char c; int ret; ret = -1; gp = (gparam_t*)str_hf; se=(struct subst_expr*)subst; /* we need to be sure we have seen all HFs */ if(parse_headers(msg, HDR_EOH_F, 0)<0) { LM_ERR("error while parsing message headers\n"); return -1; } for (hf=msg->headers; hf; hf=hf->next) { if(gp->type==GPARAM_TYPE_INT) { if (gp->v.i!=hf->type) continue; } else { if (hf->name.len!=gp->v.str.len) continue; if (cmp_hdrname_str(&hf->name,&gp->v.str)!=0) continue; } if(flags==NULL || *flags!='l') { body = hf->body; c = body.s[body.len]; body.s[body.len] = '\0'; begin=body.s; off=begin-msg->buf; if (lst) replace_lst_free(lst); lst=subst_run(se, begin, msg, &nmatches); body.s[body.len] = c; if(lst==0 && flags!=NULL && *flags=='f') goto error; /* not found */ if(lst!=0) ret=1; for (rpl=lst; rpl; rpl=rpl->next) { LM_DBG("%s replacing at offset %d [%.*s] with [%.*s]\n", exports.name, rpl->offset+off, rpl->size, rpl->offset+off+msg->buf, rpl->rpl.len, rpl->rpl.s); if ((l=del_lump(msg, rpl->offset+off, rpl->size, 0))==0) { ret=-1; goto error; } /* hack to avoid re-copying rpl, possible because both * replace_lst & lumps use pkg_malloc */ if (insert_new_lump_after(l, rpl->rpl.s, rpl->rpl.len, 0)==0) { LM_ERR("%s could not insert new lump\n", exports.name); ret=-1; goto error; } /* hack continued: set rpl.s to 0 so that replace_lst_free will * not free it */ rpl->rpl.s=0; rpl->rpl.len=0; } } else { hfl = hf; } /* if flags set for first header, then all done */ if(flags!=NULL && *flags=='f') goto done; } if(hfl!=NULL) { hf= hfl; body = hf->body; c = body.s[body.len]; body.s[body.len] = '\0'; begin=body.s; off=begin-msg->buf; if (lst) replace_lst_free(lst); lst=subst_run(se, begin, msg, &nmatches); body.s[body.len] = c; if(lst==0) goto error; /* not found */ ret=1; for (rpl=lst; rpl; rpl=rpl->next) { LM_DBG("%s replacing at offset %d [%.*s] with [%.*s]\n", exports.name, rpl->offset+off, rpl->size, rpl->offset+off+msg->buf, rpl->rpl.len, rpl->rpl.s); if ((l=del_lump(msg, rpl->offset+off, rpl->size, 0))==0) { ret=-1; goto error; } /* hack to avoid re-copying rpl, possible because both * replace_lst & lumps use pkg_malloc */ if (insert_new_lump_after(l, rpl->rpl.s, rpl->rpl.len, 0)==0) { LM_ERR("%s could not insert new lump\n", exports.name); ret=-1; goto error; } /* hack continued: set rpl.s to 0 so that replace_lst_free will * not free it */ rpl->rpl.s=0; rpl->rpl.len=0; } } error: if (nmatches<0) LM_ERR("%s subst_run failed\n", exports.name); LM_DBG("lst was %p\n", lst); done: if (lst) replace_lst_free(lst); return ret; } /* * Convert header name, substexp and flags */ static int fixup_subst_hf(void** param, int param_no) { if(param_no==1) return hname_fixup(param, param_no); if(param_no==2) return fixup_substre(param, 1); return 0; }