/src/opensips/parser/parse_uri.c

Source
/*
 * Copyright (C) 2001-2003 FhG Fokus
 *
 * This file is part of opensips, a free SIP server.
 *
 * opensips 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
 *
 * opensips 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
 *
 * History:
 * --------
 * 2003-04-04  convenience inbound-uri parser parse_orig_ruri
 *             introduced (jiri)
 * 2003-04-11  new parse_uri introduced (better, parses also some parameters,
 *              works in one pass) (andrei)
 * 2003-04-11  ser_error is now set in parse_uri (andrei)
 * 2003-04-26  ZSW (jiri)
 * 2003-07-03  sips:, r2, lr=on support added (andrei)
 * 2005-02-25  preliminary tel uri support (andrei)
 * 2005-03-03  more tel uri fixes (andrei)
 * 2006-11-28  Added statistic support for the number of bad URI's
 *             (Jeffrey Magder - SOMA Networks)
 *  2011-04-20  added support for URI unknown parameters (osas)
 */


#include "parse_uri.h"
#include <string.h>
#include "../dprint.h"
#include "../ut.h"   /* q_memchr */
#include "../error.h"
#include "../errinfo.h"
#include "../core_stats.h"
#include "../strcommon.h"

static const str uri_type_names[7] = {
  {NULL, 0}, /*This is the error type*/
  str_init("sip"),
  str_init("sips"),
  str_init("tel"),
  str_init("tels"),
  str_init("urn:service"),
  str_init("urn:nena:service")
};

char* uri_type2str(const uri_type type, char *result)
{
  if (type == ERROR_URI_T)
    return NULL;

  memcpy(result, uri_type_names[type].s, uri_type_names[type].len);
  return result + uri_type_names[type].len;
}

int uri_typestrlen(const uri_type type)
{
  return uri_type_names[type].len;
}

uri_type str2uri_type(char * buf)
{
  int scheme = 0;
  uri_type type = ERROR_URI_T;
  scheme=buf[0]+(buf[1]<<8)+(buf[2]<<16)+(buf[3]<<24);
  scheme|=0x20202020;
  if (scheme==SIP_SCH){
    type=SIP_URI_T;
  }else if(scheme==SIPS_SCH){
    if(buf[4]==':')
      type=SIPS_URI_T;
    else type = ERROR_URI_T;
  }else if (scheme==TEL_SCH){
    type=TEL_URI_T;
  }else if (scheme==URN_SERVICE_SCH){
    if (memcmp(buf+3,URN_SERVICE_STR,URN_SERVICE_STR_LEN) == 0) {
      type=URN_SERVICE_URI_T;
    }
    else if (memcmp(buf+3,URN_NENA_SERVICE_STR,URN_NENA_SERVICE_STR_LEN) == 0) {
      type=URN_NENA_SERVICE_URI_T;
    }
  }
  return type;
}

int parse_uri_headers(str headers, str h_name[], str h_val[], int h_size)
{
  enum states {URI_H_HEADER, URI_H_VALUE};
  register enum states state;
  char* h; /* header start */
  char* v; /* header value start */
  str* header;    /* current header */
  str* header_val;  /* current header val */
  register char* p;
  char* end;
  unsigned int i = 0;

  /* init */
  end = headers.s + headers.len;
  p = h = headers.s;
  v = NULL;
  header = &h_name[0];
  header_val = &h_val[0];
  state = URI_H_HEADER;
  memset(h_name, 0, h_size * sizeof(str));
  memset(h_val, 0, h_size * sizeof(str));

  for(;p<end; p++){
    switch((unsigned char)state){
    case URI_H_HEADER:
      switch(*p){
      case '=':
        v = p+1;
        header->s = h;
        header->len = p-h;
        state = URI_H_VALUE;
        break;
      case '?':
        LM_ERR("Header without value\n");
        h = p+1;
        header->s = h;
        header->len = p-h;
        header_val->s = NULL;
        header_val->len = 0;

        /* advance header and header_val */
        i++;
        if(i<h_size){
          header = &h_name[i];
          header_val = &h_val[i];
        } else {
          LM_ERR("To many URI headers\n");
          return -1;
        }
        break;
      }
      break;
    case URI_H_VALUE:
      switch(*p){
      case '=':
        LM_ERR("Ignoring unexpected '=' inside URI header value\n");
        break;
      case '?':
        h = p+1;
        header_val->s = v;
        header_val->len = p-v;
        state = URI_H_HEADER;

        /* advance header and header_val */
        i++;
        if(i<h_size){
          header = &h_name[i];
          header_val = &h_val[i];
        } else {
          LM_ERR("To many URI headers\n");
          return -1;
        }
        break;
      }
      break;
    default:
      LM_ERR("Unexpected state [%d]\n", state);
      return -1;
    }
  }

  switch(state){
  case URI_H_HEADER:
    LM_ERR("Header without value\n");
    header->s = h;
    header->len = p-h;
    header_val->s = NULL;
    header_val->len = 0;
    break;
  case URI_H_VALUE:
    header_val->s = v;
    header_val->len = p-v;
    break;
  }

#ifdef EXTRA_DEBUG
  for(i=0; i<h_size && h_name[i].s; i++)
    LM_DBG("header=[%p]-><%.*s> val=[%p]-><%.*s>\n",
      h_name[i].s, h_name[i].len, h_name[i].s,
      h_val[i].s, h_val[i].len, h_val[i].s);
#endif

  return 0;
}

int print_uri(struct sip_uri *uri, str *out_buf)
{
#define append_str_chunk(field) \
  do { \
    if (bytes + uri->field.len > out_buf->len) { \
      LM_ERR("no more space left! printed so far: '%.*s'\n", \
               bytes, out_buf->s); \
      return -1; \
    } \
    memcpy(out_buf->s + bytes, uri->field.s, uri->field.len); \
    bytes += uri->field.len; \
  } while (0)

#define append_char(ch) \
  do { \
    if (bytes + 1 > out_buf->len) { \
      LM_ERR("no more space left! printed so far: '%.*s'\n", \
               bytes, out_buf->s); \
      return -1; \
    } \
    out_buf->s[bytes++] = ch; \
  } while (0)

#define VAL(p) p##_val

#define append_param(p) \
  do { \
    if (uri->p.s) { \
      append_char(';'); \
      append_str_chunk(p); \
    } \
  } while (0)

#define append_uk_param(idx) \
  do { \
    if (uri->u_name[idx].s) { \
      append_char(';'); \
      if (bytes + uri->u_name[idx].len > out_buf->len) { \
        LM_ERR("no more space left! printed so far: '%.*s'\n", \
                 bytes, out_buf->s); \
        return -1; \
      } \
      memcpy(out_buf->s + bytes, uri->u_name[idx].s, uri->u_name[idx].len); \
      bytes += uri->u_name[idx].len; \
      if (uri->u_val[idx].s) { \
        append_char('='); \
        if (bytes + uri->u_val[idx].len > out_buf->len) { \
          LM_ERR("no more space left! printed so far: '%.*s'\n", \
                   bytes, out_buf->s); \
          return -1; \
        } \
        memcpy(out_buf->s + bytes, uri->u_val[idx].s, uri->u_val[idx].len); \
        bytes += uri->u_val[idx].len; \
      } \
    } \
  } while (0)

  int bytes = 0;
  int i;

  memcpy(out_buf->s, uri_type_names[uri->type].s, uri_type_names[uri->type].len);
  bytes += uri_type_names[uri->type].len;
  append_char(':');
  append_str_chunk(user);
  if (uri->passwd.s) {
    append_char(':');
    append_str_chunk(passwd);
  }
  if (uri->host.s) {
    append_char('@');
    append_str_chunk(host);
  }
  if (uri->port.s) {
    append_char(':');
    append_str_chunk(port);
  }

  append_param(transport);
  append_param(ttl);
  append_param(user_param);
  append_param(maddr);
  append_param(method);
  append_param(lr);
  append_param(r2);
  append_param(gr);
  append_param(pn_provider);
  append_param(pn_prid);
  append_param(pn_param);
  append_param(pn_purr);

  for (i = 0; i < uri->u_params_no; i++)
    append_uk_param(i);

  out_buf->len = bytes;

  return 0;
#undef append_str_chunk
#undef append_char
#undef VAL
#undef append_param
#undef append_uk_param
}

/* buf= pointer to beginning of uri (sip:x@foo.bar:5060;a=b?h=i)
 * len= len of uri
 * returns: fills uri & returns <0 on error or 0 if ok
 */
int parse_uri(char* buf, int len, struct sip_uri* uri)
{
  enum states  {  URI_INIT, URI_USER, URI_PASSWORD, URI_PASSWORD_ALPHA,
          URI_HOST, URI_HOST_P,
          URI_HOST6_P, URI_HOST6_END, URI_PORT,
          URI_PARAM, URI_PARAM_P, URI_PARAM_VAL_P,
          URI_VAL_P, URI_HEADERS,
          /* param states */
          /* transport */
          PT_T, PT_R, PT_A, PT_N, PT_S, PT_P, PT_O, PT_R2, PT_T2,
          PT_eq,
          /* ttl */
          PTTL_T2, PTTL_L, PTTL_eq,
          /* user */
          PU_U, PU_S, PU_E, PU_R, PU_eq,
          /* method */
          PM_M, PM_E, PM_T, PM_H, PM_O, PM_D, PM_eq,
          /* maddr */
          PMA_A, PMA_D, PMA_D2, PMA_R, PMA_eq,
          /* lr */
          PLR_L, PLR_R_FIN, PLR_eq,
          /* gr */
          PG_G, PG_G_FIN, PG_eq,
          /* r2 */
          PR2_R, PR2_2_FIN, PR2_eq,
          /* transport values */
          /* udp */
          VU_U, VU_D, VU_P_FIN,
          /* tcp */
          VT_T, VT_C, VT_P_FIN,
          /* tls */
          VTLS_L, VTLS_S_FIN,
          /* sctp */
          VS_S, VS_C, VS_T, VS_P_FIN,
          /* ws */
          VW_W, VW_S, VW_S_FIN, VWS_S_FIN,

          /* pn-{provider, prid, param, purr} (RFC 8599 - SIP PN) */
          PN_P, PN_N, PN_dash, PN_P2, PN_PR,
          PN1_O, PN1_V, PN1_I, PN1_D, PN1_E, PN1_FIN, PN1_eq,
          PN2_I, PN2_D, PN2_eq,
          PN3_A, PN3_R, PN3_A2, PN3_M, PN3_eq,
          PN4_U, PN4_R, PN4_R2, PN4_eq,

  };
  register enum states state;
  char* s;
  char* b; /* param start */
  char *v; /* value start */
  str* param; /* current param */
  str* param_val; /* current param val */
  str user;
  str password;
  unsigned int port_no;
  register char* p;
  char* end;
  char* pass;
  int found_user;
  int error_headers;
  unsigned int scheme;
  uri_type backup;
#ifdef EXTRA_DEBUG
  int i;
#endif

#define case_port( ch, var, ovf_check1, ovf_check2) \
  case ch: \
      if (ovf_check1) \
        (var)=(var)*10+(ch-'0'); \
      if (ovf_check2 && (var) > USHRT_MAX) \
        goto error_bad_port; \
      break

#define still_at_user  \
            if (found_user==0){ \
              user.s=uri->host.s; \
              if (pass){\
                user.len=pass-user.s; \
                password.s=pass+1; \
                password.len=p-password.s; \
              }else{ \
                user.len=p-user.s; \
              }\
              /* save the uri type/scheme */ \
              backup=uri->type; \
              /* everything else is 0 */ \
              memset(uri, 0, sizeof(struct sip_uri)); \
              /* restore the scheme, copy user & pass */ \
              uri->type=backup; \
              uri->user=user; \
              if (pass) uri->passwd=password;  \
              s=p+1; \
              found_user=1;\
              error_headers=0; \
              state=URI_HOST; \
            }else goto error_bad_char

#define check_host_end \
          case ':': \
            /* found the host */ \
            uri->host.s=s; \
            uri->host.len=p-s; \
            state=URI_PORT; \
            s=p+1; \
            break; \
          case ';': \
            uri->host.s=s; \
            uri->host.len=p-s; \
            state=URI_PARAM; \
            s=p+1; \
            break; \
          case '?': \
            uri->host.s=s; \
            uri->host.len=p-s; \
            state=URI_HEADERS; \
            s=p+1; \
            break; \
          case '&': \
          case '@': \
            goto error_bad_char


#define param_set(t_start, v_start) \
          param->s=(t_start);\
          param->len=(p-(t_start));\
          param_val->s=(v_start); \
          param_val->len=(p-(v_start))

#define u_param_set(t_start, v_start) \
      if (uri->u_params_no < URI_MAX_U_PARAMS){ \
        if((v_start)>(t_start)){ \
          uri->u_name[uri->u_params_no].s=(t_start); \
          uri->u_name[uri->u_params_no].len=((v_start)-(t_start)-1); \
          if(p>(v_start)) { \
            uri->u_val[uri->u_params_no].s=(v_start); \
            uri->u_val[uri->u_params_no].len=(p-(v_start)); \
          } \
        } else { \
          uri->u_name[uri->u_params_no].s=(t_start); \
          uri->u_name[uri->u_params_no].len=(p-(t_start)); \
        } \
        uri->u_params_no++; \
      } else { \
        LM_ERR("unknown URI param list excedeed\n"); \
      }

#define semicolon_case \
          case';': \
            if (pass){ \
              found_user=1;/* no user, pass cannot contain ';'*/ \
              pass=0; \
            } \
            state=URI_PARAM   /* new param */

#define question_case \
          case '?': \
            uri->params.s=s; \
            uri->params.len=p-s; \
            state=URI_HEADERS; \
            s=p+1; \
            if (pass){ \
              found_user=1;/* no user, pass cannot contain '?'*/ \
              pass=0; \
            }

#define colon_case \
          case ':': \
            if (found_user==0){ \
              /*might be pass but only if user not found yet*/ \
              if (pass){ \
                found_user=1; /* no user */ \
                pass=0; \
              }else{ \
                pass=p; \
              } \
            } \
            state=URI_PARAM_P /* generic param */

#define param_common_cases \
          case '@': \
            /* ughhh, this is still the user */ \
            still_at_user; \
            break; \
          semicolon_case; \
            break; \
          question_case; \
            break; \
          colon_case; \
            break

#define u_param_common_cases \
          case '@': \
            /* ughhh, this is still the user */ \
            still_at_user; \
            break; \
          semicolon_case; \
            u_param_set(b, v); \
            break; \
          question_case; \
            u_param_set(b, v); \
            break; \
          colon_case; \
            break

#define value_common_cases \
          case '@': \
            /* ughhh, this is still the user */ \
            still_at_user; \
            break; \
          semicolon_case; \
            param_set(b, v); \
            break; \
          question_case; \
            param_set(b, v); \
            break; \
          colon_case; \
            state=URI_VAL_P; \
            break

#define param_switch(old_state, c1, c2, new_state) \
      case old_state: \
        switch(*p){ \
          case c1: \
          case c2: \
            state=(new_state); \
            break; \
          u_param_common_cases; \
          default: \
            state=URI_PARAM_P; \
        } \
        break
#define param_switch1(old_state, c1, new_state) \
      case old_state: \
        switch(*p){ \
          case c1: \
            state=(new_state); \
            break; \
          param_common_cases; \
          default: \
            state=URI_PARAM_P; \
        } \
        break
#define param_xswitch1(old_state, c1, new_state) \
      case old_state: \
        switch(*p){ \
          case c1: \
            state=(new_state); \
            break; \
          default: \
            goto error_bad_char; \
        } \
        break
#define param_switch_big(old_state, c1, c2, d1, d2, new_state_c, new_state_d) \
      case old_state : \
        switch(*p){ \
          case c1: \
          case c2: \
            state=(new_state_c); \
            break; \
          case d1: \
          case d2: \
            state=(new_state_d); \
            break; \
          u_param_common_cases; \
          default: \
            state=URI_PARAM_P; \
        } \
        break
#define param_switch_bigger(old_state, c1, c2, d1, d2, e1, e2, new_state_c, new_state_d, new_state_e) \
      case old_state : \
        switch(*p){ \
          case c1: \
          case c2: \
            state=(new_state_c); \
            break; \
          case d1: \
          case d2: \
            state=(new_state_d); \
            break; \
          case e1: \
          case e2: \
            state=(new_state_e); \
            break; \
          u_param_common_cases; \
          default: \
            state=URI_PARAM_P; \
        } \
        break
#define value_switch(old_state, c1, c2, new_state) \
      case old_state: \
        switch(*p){ \
          case c1: \
          case c2: \
            state=(new_state); \
            break; \
          value_common_cases; \
          default: \
            state=URI_VAL_P; \
        } \
        break
#define value_switch_big(old_state, c1, c2, d1, d2, new_state_c, new_state_d) \
      case old_state: \
        switch(*p){ \
          case c1: \
          case c2: \
            state=(new_state_c); \
            break; \
          case d1: \
          case d2: \
            state=(new_state_d); \
            break; \
          value_common_cases; \
          default: \
            state=URI_VAL_P; \
        } \
        break

#define transport_fin(c_state, proto_no) \
      case c_state: \
        switch(*p){ \
          case '@': \
            still_at_user; \
            break; \
          semicolon_case; \
            param_set(b, v); \
            uri->proto=(proto_no); \
            break; \
          question_case; \
            param_set(b, v); \
            uri->proto=(proto_no); \
            break; \
          colon_case;  \
          default: \
            state=URI_VAL_P; \
            break; \
        } \
        break



  /* init */
  end=buf+len;
  p=buf+4;
  found_user=0;
  error_headers=0;
  b=v=0;
  param=param_val=0;
  pass=0;
  password.s = 0;
  password.len = 0;
  port_no=0;
  state=URI_INIT;
  memset(uri, 0, sizeof(struct sip_uri)); /* zero it all, just to be sure*/
  /*look for sip:, sips: or tel:*/
  if (len<5) goto error_too_short;
  scheme=(unsigned)(unsigned char)buf[0]
      + (((unsigned)(unsigned char)buf[1])<<8)
      + (((unsigned)(unsigned char)buf[2])<<16)
      + (((unsigned)(unsigned char)buf[3])<<24);
  scheme|=0x20202020;
  if (scheme==SIP_SCH){
    uri->type=SIP_URI_T;
  }else if(scheme==SIPS_SCH){
    if(buf[4]==':'){ p++; uri->type=SIPS_URI_T;}
    else goto error_bad_uri;
  }else if (scheme==TEL_SCH){
    uri->type=TEL_URI_T;
  }else if (scheme==URN_SERVICE_SCH){
    if ((end-(buf+3)) >= URN_SERVICE_STR_LEN
            && memcmp(buf+3,URN_SERVICE_STR,URN_SERVICE_STR_LEN) == 0) {
      p+= URN_SERVICE_STR_LEN-1;
      uri->type=URN_SERVICE_URI_T;
    }
    else if ((end-(buf+3)) >= URN_NENA_SERVICE_STR_LEN
            && memcmp(buf+3,URN_NENA_SERVICE_STR,URN_NENA_SERVICE_STR_LEN) == 0) {
      p+= URN_NENA_SERVICE_STR_LEN-1;
      uri->type=URN_NENA_SERVICE_URI_T;
    }else goto error_bad_uri;
  }else goto error_bad_uri;

  s=p;
  for(;p<end; p++){
    switch((unsigned char)state){
      case URI_INIT:
        switch(*p){
          case '[':
            /* uri =  [ipv6address]... */
            state=URI_HOST6_P;
            s=p;
            break;
          case ']':
            /* invalid, no uri can start with ']' */
          case ':':
            /* the same as above for ':' */
            goto error_bad_char;
          case '@': /* error no user part */
            goto error_bad_char;
          default:
            state=URI_USER;
        }
        break;
      case URI_USER:
        switch(*p){
          case '@':
            /* found the user*/
            uri->user.s=s;
            uri->user.len=p-s;
            state=URI_HOST;
            found_user=1;
            s=p+1; /* skip '@' */
            break;
          case ':':
            /* found the user, or the host? */
            uri->user.s=s;
            uri->user.len=p-s;
            state=URI_PASSWORD;
            s=p+1; /* skip ':' */
            break;
          case ';':
            /* this could be still the user or
             * params?*/
            uri->host.s=s;
            uri->host.len=p-s;
            state=URI_PARAM;
            s=p+1;
            break;
          case '?': /* still user or headers? */
            uri->host.s=s;
            uri->host.len=p-s;
            state=URI_HEADERS;
            s=p+1;
            break;
            /* almost anything permitted in the user part */
          case '[':
          case ']': /* the user part cannot contain "[]" */
            goto error_bad_char;
        }
        break;
      case URI_PASSWORD: /* this can also be the port (missing user)*/
        switch(*p){
          case '@':
            /* found the password*/
            uri->passwd.s=s;
            uri->passwd.len=p-s;
            port_no=0;
            state=URI_HOST;
            found_user=1;
            s=p+1; /* skip '@' */
            break;
          case ';':
            /* upps this is the port */
            uri->port.s=s;
            uri->port.len=p-s;
            uri->port_no=port_no;
            /* user contains in fact the host */
            uri->host.s=uri->user.s;
            uri->host.len=uri->user.len;
            uri->user.s=0;
            uri->user.len=0;
            state=URI_PARAM;
            found_user=1; /*  there is no user part */
            s=p+1;
            break;
          case '?':
            /* upps this is the port */
            uri->port.s=s;
            uri->port.len=p-s;
            uri->port_no=port_no;
            /* user contains in fact the host */
            uri->host.s=uri->user.s;
            uri->host.len=uri->user.len;
            uri->user.s=0;
            uri->user.len=0;
            state=URI_HEADERS;
            found_user=1; /*  there is no user part */
            s=p+1;
            break;
          case_port('0', port_no, port_no < INT_MAX / 10, 0);
          case_port('1', port_no, port_no < INT_MAX / 10, 0);
          case_port('2', port_no, port_no < INT_MAX / 10, 0);
          case_port('3', port_no, port_no < INT_MAX / 10, 0);
          case_port('4', port_no, port_no < INT_MAX / 10, 0);
          case_port('5', port_no, port_no < INT_MAX / 10, 0);
          case_port('6', port_no, port_no < INT_MAX / 10, 0);
          case_port('7', port_no, port_no < INT_MAX / 10, 0);
          case_port('8', port_no, port_no < INT_MAX / 10, 0);
          case_port('9', port_no, port_no < INT_MAX / 10, 0);
          case '[':
          case ']':
          case ':':
            goto error_bad_char;
          default:
            /* it can't be the port, non number found */
            port_no=0;
            state=URI_PASSWORD_ALPHA;
        }
        break;
      case URI_PASSWORD_ALPHA:
        switch(*p){
          case '@':
            /* found the password*/
            uri->passwd.s=s;
            uri->passwd.len=p-s;
            state=URI_HOST;
            found_user=1;
            s=p+1; /* skip '@' */
            break;
          case ';': /* contains non-numbers => cannot be port no*/
          case '?':
            goto error_bad_port;
          case '[':
          case ']':
          case ':':
            goto error_bad_char;
        }
        break;
      case URI_HOST:
        switch(*p){
          case '[':
            state=URI_HOST6_P;
            break;
          case ':':
          case ';':
          case '?': /* null host name ->invalid */
          case '&':
          case '@': /*chars not allowed in hosts names */
            goto error_bad_host;
          default:
            state=URI_HOST_P;
        }
        break;
      case URI_HOST_P:
        switch(*p){
          check_host_end;
        }
        break;
      case URI_HOST6_END:
        switch(*p){
          check_host_end;
          default: /*no chars allowed after [ipv6] */
            goto error_bad_host;
        }
        break;
      case URI_HOST6_P:
        switch(*p){
          case ']':
            state=URI_HOST6_END;
            break;
          case '[':
          case '&':
          case '@':
          case ';':
          case '?':
            goto error_bad_host;
        }
        break;
      case URI_PORT:
        switch(*p){
          case ';':
            uri->port.s=s;
            uri->port.len=p-s;
            uri->port_no=port_no;
            state=URI_PARAM;
            s=p+1;
            break;
          case '?':
            uri->port.s=s;
            uri->port.len=p-s;
            uri->port_no=port_no;
            state=URI_HEADERS;
            s=p+1;
            break;
          case_port('0', port_no, 1, 1);
          case_port('1', port_no, 1, 1);
          case_port('2', port_no, 1, 1);
          case_port('3', port_no, 1, 1);
          case_port('4', port_no, 1, 1);
          case_port('5', port_no, 1, 1);
          case_port('6', port_no, 1, 1);
          case_port('7', port_no, 1, 1);
          case_port('8', port_no, 1, 1);
          case_port('9', port_no, 1, 1);
          case '&':
          case '@':
          case ':':
          default:
            goto error_bad_port;
        }
        break;
      case URI_PARAM: /* beginning of a new param */
        switch(*p){
          param_common_cases;
          /* recognized params */
          case 't':
          case 'T':
            b=p;
            state=PT_T;
            break;
          case 'u':
          case 'U':
            b=p;
            state=PU_U;
            break;
          case 'm':
          case 'M':
            b=p;
            state=PM_M;
            break;
          case 'l':
          case 'L':
            b=p;
            state=PLR_L;
            break;
          case 'g':
          case 'G':
            b=p;
            state=PG_G;
            break;
          case 'r':
          case 'R':
            b=p;
            state=PR2_R;
            break;
          case 'p':
          case 'P':
            b=p;
            state=PN_P;
            break;
          default:
            b=p;
            state=URI_PARAM_P;
        }
        break;
      case URI_PARAM_P: /* ignore current param */
        /* supported params:
         *  maddr, transport, ttl, lr, user, method, r2  */
        switch(*p){
          u_param_common_cases;
          case '=':
            v=p + 1;
            state=URI_PARAM_VAL_P;
            break;
        };
        break;
      case URI_PARAM_VAL_P: /* value of the ignored current param */
        switch(*p){
          u_param_common_cases;
        };
        break;
      /* ugly but fast param names parsing */
      /*transport */
      param_switch_big(PT_T,  'r', 'R', 't', 'T', PT_R, PTTL_T2);
      param_switch(PT_R,  'a', 'A', PT_A);
      param_switch(PT_A,  'n', 'N', PT_N);
      param_switch(PT_N,  's', 'S', PT_S);
      param_switch(PT_S,  'p', 'P', PT_P);
      param_switch(PT_P,  'o', 'O', PT_O);
      param_switch(PT_O,  'r', 'R', PT_R2);
      param_switch(PT_R2, 't', 'T', PT_T2);
      param_switch1(PT_T2, '=',  PT_eq);
      /* value parsing */
      case PT_eq:
        param=&uri->transport;
        param_val=&uri->transport_val;
        uri->proto = PROTO_OTHER;
        switch (*p){
          param_common_cases;
          case 'u':
          case 'U':
            v=p;
            state=VU_U;
            break;
          case 't':
          case 'T':
            v=p;
            state=VT_T;
            break;
          case 's':
          case 'S':
            v=p;
            state=VS_S;
            break;
          case 'w':
          case 'W':
            v=p;
            state=VW_W;
            break;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;
        /* generic value */
      case URI_VAL_P:
        switch(*p){
          value_common_cases;
        }
        break;
      /* udp */
      value_switch(VU_U,  'd', 'D', VU_D);
      value_switch(VU_D,  'p', 'P', VU_P_FIN);
      transport_fin(VU_P_FIN, PROTO_UDP);
      /* tcp */
      value_switch_big(VT_T,  'c', 'C', 'l', 'L', VT_C, VTLS_L);
      value_switch(VT_C,  'p', 'P', VT_P_FIN);
      transport_fin(VT_P_FIN, PROTO_TCP);
      /* tls */
      value_switch(VTLS_L, 's', 'S', VTLS_S_FIN);
      transport_fin(VTLS_S_FIN, PROTO_TLS);
      /* sctp */
      value_switch(VS_S, 'c', 'C', VS_C);
      value_switch(VS_C, 't', 'T', VS_T);
      value_switch(VS_T, 'p', 'P', VS_P_FIN);
      transport_fin(VS_P_FIN, PROTO_SCTP);
      /* ws */
      value_switch(VW_W, 's', 'S', VW_S);
      case VW_S:
        if (*p == 's' || *p == 'S') {
          state=(VWS_S_FIN);
          break;
        }
        /* if not a 's' transiting to VWS_S_FIN, fallback
         * to testing as existing VW_S_FIN (NOTE the missing break) */
        state=(VW_S_FIN);
      transport_fin(VW_S_FIN, PROTO_WS);
      transport_fin(VWS_S_FIN, PROTO_WSS);

      /* ttl */
      param_switch(PTTL_T2,  'l', 'L', PTTL_L);
      param_switch1(PTTL_L,  '=', PTTL_eq);
      case PTTL_eq:
        param=&uri->ttl;
        param_val=&uri->ttl_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* user param */
      param_switch(PU_U, 's', 'S', PU_S);
      param_switch(PU_S, 'e', 'E', PU_E);
      param_switch(PU_E, 'r', 'R', PU_R);
      param_switch1(PU_R, '=', PU_eq);
      case PU_eq:
        param=&uri->user_param;
        param_val=&uri->user_param_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* method*/
      param_switch_big(PM_M, 'e', 'E', 'a', 'A', PM_E, PMA_A);
      param_switch(PM_E, 't', 'T', PM_T);
      param_switch(PM_T, 'h', 'H', PM_H);
      param_switch(PM_H, 'o', 'O', PM_O);
      param_switch(PM_O, 'd', 'D', PM_D);
      param_switch1(PM_D, '=', PM_eq);
      case PM_eq:
        param=&uri->method;
        param_val=&uri->method_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /*maddr*/
      param_switch(PMA_A,  'd', 'D', PMA_D);
      param_switch(PMA_D,  'd', 'D', PMA_D2);
      param_switch(PMA_D2, 'r', 'R', PMA_R);
      param_switch1(PMA_R, '=', PMA_eq);
      case PMA_eq:
        param=&uri->maddr;
        param_val=&uri->maddr_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* lr */
      param_switch(PLR_L,  'r', 'R', PLR_R_FIN);
      case PLR_R_FIN:
        switch(*p){
          case '@':
            still_at_user;
            break;
          case '=':
            state=PLR_eq;
            break;
          semicolon_case;
            uri->lr.s=b;
            uri->lr.len=(p-b);
            break;
          question_case;
            uri->lr.s=b;
            uri->lr.len=(p-b);
            break;
          colon_case;
            break;
          default:
            state=URI_PARAM_P;
        }
        break;
        /* handle lr=something case */
      case PLR_eq:
        param=&uri->lr;
        param_val=&uri->lr_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* r2 */
      param_switch1(PR2_R,  '2', PR2_2_FIN);
      case PR2_2_FIN:
        switch(*p){
          case '@':
            still_at_user;
            break;
          case '=':
            state=PR2_eq;
            break;
          semicolon_case;
            uri->r2.s=b;
            uri->r2.len=(p-b);
            break;
          question_case;
            uri->r2.s=b;
            uri->r2.len=(p-b);
            break;
          colon_case;
            break;
          default:
            state=URI_PARAM_P;
        }
        break;
        /* handle r2=something case */
      case PR2_eq:
        param=&uri->r2;
        param_val=&uri->r2_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;


      /* gr */
      param_switch(PG_G,  'r', 'R', PG_G_FIN);
      case PG_G_FIN:
        switch(*p){
          case '@':
            still_at_user;
            break;
          case '=':
            state=PG_eq;
            break;
          semicolon_case;
            uri->gr.s=b;
            uri->gr.len=(p-b);
            break;
          question_case;
            uri->gr.s=b;
            uri->gr.len=(p-b);
            break;
          colon_case;
            break;
          default:
            state=URI_PARAM_P;
        }
        break;
        /* handle gr=something case */
      case PG_eq:
        param=&uri->gr;
        param_val=&uri->gr_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;


      /* pn-* */
      param_switch(PN_P, 'n', 'N', PN_N);
      param_switch1(PN_N, '-', PN_dash);
      param_switch(PN_dash, 'p', 'P', PN_P2);

      param_switch_bigger(PN_P2, 'r', 'R', 'a', 'A', 'u', 'U',
                          PN_PR, PN3_A, PN4_U);
      param_switch_big(PN_PR, 'o', 'O', 'i', 'I', PN1_O, PN2_I);

      /* pn-provider */
      param_switch(PN1_O, 'v', 'V', PN1_V);
      param_switch(PN1_V, 'i', 'I', PN1_I);
      param_switch(PN1_I, 'd', 'D', PN1_D);
      param_switch(PN1_D, 'e', 'E', PN1_E);
      param_switch(PN1_E, 'r', 'R', PN1_FIN);
      case PN1_FIN:
        param=&uri->pn_provider;
        switch(*p){
          case '@':
            still_at_user;
            break;
          case '=':
            state=PN1_eq;
            break;
          semicolon_case;
            uri->pn_provider.s=b;
            uri->pn_provider.len=(p-b);
            break;
          question_case;
            uri->pn_provider.s=b;
            uri->pn_provider.len=(p-b);
            break;
          colon_case;
            break;
          default:
            state=URI_PARAM_P;
        }
        break;
        /* handle pn-provider=something case */
      case PN1_eq:
        param=&uri->pn_provider;
        param_val=&uri->pn_provider_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* pn-prid */
      param_switch(PN2_I, 'd', 'D', PN2_D);
      param_xswitch1(PN2_D, '=', PN2_eq);
      case PN2_eq:
        param=&uri->pn_prid;
        param_val=&uri->pn_prid_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* pn-param */
      param_switch(PN3_A, 'r', 'R', PN3_R);
      param_switch(PN3_R, 'a', 'A', PN3_A2);
      param_switch(PN3_A2, 'm', 'M', PN3_M);
      param_xswitch1(PN3_M, '=', PN3_eq);
      case PN3_eq:
        param=&uri->pn_param;
        param_val=&uri->pn_param_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;

      /* pn-purr */
      param_switch(PN4_U, 'r', 'R', PN4_R);
      param_switch(PN4_R, 'r', 'R', PN4_R2);
      param_xswitch1(PN4_R2, '=', PN4_eq);
      case PN4_eq:
        param=&uri->pn_purr;
        param_val=&uri->pn_purr_val;
        switch(*p){
          param_common_cases;
          default:
            v=p;
            state=URI_VAL_P;
        }
        break;


      case URI_HEADERS:
        /* for now nobody needs them so we completely ignore the
         * headers (they are not allowed in request uri) --andrei */
        switch(*p){
          case '@':
            /* yak, we are still at user */
            still_at_user;
            break;
          case ';':
            /* we might be still parsing user, try it */
            if (found_user) goto error_bad_char;
            error_headers=1; /* if this is not the user
                      we have an error */
            /* if pass is set => it cannot be user:pass
             * => error (';') is illegal in a header */
            if (pass) goto error_headers;
            break;
          case ':':
            if (found_user==0){
              /*might be pass but only if user not found yet*/
              if (pass){
                found_user=1; /* no user */
                pass=0;
              }else{
                pass=p;
              }
            }
            break;
          case '?':
            if (pass){
              found_user=1; /* no user, pass cannot contain '?'*/
              pass=0;
            }
            break;
        }
        break;
      default:
        goto error_bug;
    }
  }

  /*end of uri */
  switch (state){
    case URI_INIT: /* error empty uri */
      goto error_too_short;
    case URI_USER:
      /* this is the host, it can't be the user */
      if (found_user) goto error_bad_uri;
      uri->host.s=s;
      uri->host.len=p-s;
      state=URI_HOST;
      break;
    case URI_PASSWORD:
      /* this is the port, it can't be the passwd */
      if (found_user) goto error_bad_port;
      if (port_no > USHRT_MAX) goto error_bad_port;
      uri->port.s=s;
      uri->port.len=p-s;
      uri->port_no=port_no;
      uri->host=uri->user;
      uri->user.s=0;
      uri->user.len=0;
      break;
    case URI_PASSWORD_ALPHA:
      /* this is the port, it can't be the passwd */
      goto error_bad_port;
    case URI_HOST_P:
    case URI_HOST6_END:
      uri->host.s=s;
      uri->host.len=p-s;
      break;
    case URI_HOST: /* error: null host */
    case URI_HOST6_P: /* error: unterminated ipv6 reference*/
      goto error_bad_host;
    case URI_PORT:
      uri->port.s=s;
      uri->port.len=p-s;
      uri->port_no=port_no;
      break;
    case URI_PARAM:
    case URI_PARAM_P:
    case URI_PARAM_VAL_P:
      u_param_set(b, v);
    /* intermediate param states */
    case PT_T: /* transport */
    case PT_R:
    case PT_A:
    case PT_N:
    case PT_S:
    case PT_P:
    case PT_O:
    case PT_R2:
    case PT_T2:
    case PT_eq: /* ignore empty transport params */
    case PTTL_T2: /* ttl */
    case PTTL_L:
    case PTTL_eq:
    case PU_U:  /* user */
    case PU_S:
    case PU_E:
    case PU_R:
    case PU_eq:
    case PM_M: /* method */
    case PM_E:
    case PM_T:
    case PM_H:
    case PM_O:
    case PM_D:
    case PM_eq:
    case PLR_L: /* lr */
    case PR2_R:  /* r2 */
    case PG_G: /* gr */
      uri->params.s=s;
      uri->params.len=p-s;
      break;
    /* fin param states */
    case PLR_R_FIN:
    case PLR_eq:
      uri->params.s=s;
      uri->params.len=p-s;
      uri->lr.s=b;
      uri->lr.len=p-b;
      break;
    case PR2_2_FIN:
    case PR2_eq:
      uri->params.s=s;
      uri->params.len=p-s;
      uri->r2.s=b;
      uri->r2.len=p-b;
      break;
    case PG_G_FIN:
    case PG_eq:
      uri->params.s=s;
      uri->params.len=p-s;
      uri->gr.s=b;
      uri->gr.len=p-b;
      break;
    case PN1_FIN:
    case PN1_eq:
      uri->params.s=s;
      uri->params.len=p-s;
      uri->pn_provider.s=b;
      uri->pn_provider.len=p-b;
      break;
    case URI_VAL_P:
    /* intermediate value states */
    case VU_U:
    case VU_D:
    case VT_T:
    case VT_C:
    case VTLS_L:
    case VS_S:
    case VS_C:
    case VW_W:
    case VS_T:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      break;
    /* fin value states */
    case VU_P_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_UDP;
      break;
    case VT_P_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_TCP;
      break;
    case VTLS_S_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_TLS;
      break;
    case VS_P_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_SCTP;
      break;
    case VW_S:
    case VW_S_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_WS;
      break;
    case VWS_S_FIN:
      uri->params.s=s;
      uri->params.len=p-s;
      param_set(b, v);
      uri->proto=PROTO_WSS;
      break;
    /* headers */
    case URI_HEADERS:
      uri->headers.s=s;
      uri->headers.len=p-s;
      if (error_headers) goto error_headers;
      break;
    /* intermediate PN param states */
    case PN_P:
    case PN_N:
    case PN_dash:
    case PN_P2:
    case PN_PR:
    case PN1_O:
    case PN1_V:
    case PN1_I:
    case PN1_D:
    case PN1_E:
    case PN2_I:
    case PN3_A:
    case PN3_R:
    case PN3_A2:
    case PN4_U:
    case PN4_R:
      uri->params.s=s;
      uri->params.len=p-s;
      break;
    case PN2_D:
    case PN2_eq:
    case PN3_M:
    case PN3_eq:
    case PN4_R2:
    case PN4_eq:
      goto error_bad_uri;
    default:
      goto error_bug;
  }
  switch(uri->type){
    case TEL_URI_T:
    case TELS_URI_T:
      /* fix tel uris, move the number in uri and empty the host */
      uri->user=uri->host;
      /* TEL does not have a host part, still most of the code expects
       * one, so lets keep the pointer, but set a 0 length */
      uri->host.len=0;
      break;
    case SIP_URI_T:
    case SIPS_URI_T:
    case URN_SERVICE_URI_T:
      /* nothing to do for these URIs */
      break;
    case URN_NENA_SERVICE_URI_T:
      uri->user.s=0;
      uri->user.len=0;
      /* keep the service name as host part */
      break;
    case ERROR_URI_T:
      LM_ERR("unexpected error (BUG?)\n");
      goto error_bad_uri;
      break; /* do nothing, avoids a compilation warning */
  }
#ifdef EXTRA_DEBUG
  /* do stuff */
  LM_DBG("parsed uri:\n type=%d user=<%.*s>(%d)\n passwd=<%.*s>(%d)\n"
      " host=<%.*s>(%d)\n port=<%.*s>(%d): %d\n params=<%.*s>(%d)\n"
      " headers=<%.*s>(%d)\n",
      uri->type,
      uri->user.len, ZSW(uri->user.s), uri->user.len,
      uri->passwd.len, ZSW(uri->passwd.s), uri->passwd.len,
      uri->host.len, ZSW(uri->host.s), uri->host.len,
      uri->port.len, ZSW(uri->port.s), uri->port.len, uri->port_no,
      uri->params.len, ZSW(uri->params.s), uri->params.len,
      uri->headers.len, ZSW(uri->headers.s), uri->headers.len
    );
  LM_DBG(" uri params:\n   transport=<%.*s>, val=<%.*s>, proto=%d\n",
      uri->transport.len, ZSW(uri->transport.s), uri->transport_val.len,
      ZSW(uri->transport_val.s), uri->proto);
  LM_DBG("   user-param=<%.*s>, val=<%.*s>\n",
      uri->user_param.len, ZSW(uri->user_param.s),
      uri->user_param_val.len, ZSW(uri->user_param_val.s));
  LM_DBG("   method=<%.*s>, val=<%.*s>\n",
      uri->method.len, ZSW(uri->method.s),
      uri->method_val.len, ZSW(uri->method_val.s));
  LM_DBG("   ttl=<%.*s>, val=<%.*s>\n",
      uri->ttl.len, ZSW(uri->ttl.s),
      uri->ttl_val.len, ZSW(uri->ttl_val.s));
  LM_DBG("   maddr=<%.*s>, val=<%.*s>\n",
      uri->maddr.len, ZSW(uri->maddr.s),
      uri->maddr_val.len, ZSW(uri->maddr_val.s));
  LM_DBG("   lr=<%.*s>, val=<%.*s>\n", uri->lr.len, ZSW(uri->lr.s),
      uri->lr_val.len, ZSW(uri->lr_val.s));
  LM_DBG("   r2=<%.*s>, val=<%.*s>\n", uri->r2.len, ZSW(uri->r2.s),
      uri->r2_val.len, ZSW(uri->r2_val.s));
  for(i=0; i<URI_MAX_U_PARAMS && uri->u_name[i].s; i++)
    LM_DBG("uname=[%p]-><%.*s> uval=[%p]-><%.*s>\n",
      uri->u_name[i].s, uri->u_name[i].len, uri->u_name[i].s,
      uri->u_val[i].s, uri->u_val[i].len, uri->u_val[i].s);
  if (i!=uri->u_params_no)
    LM_ERR("inconsisten # of u_name:[%d]!=[%d]\n", i, uri->u_params_no);
#endif
  return 0;

error_too_short:
  LM_ERR("uri too short: <%.*s> (%d)\n",
      len, ZSW(buf), len);
  goto error_exit;
error_bad_char:
  LM_ERR("bad char '%c' in state %d"
      " parsed: <%.*s> (%d) / <%.*s> (%d)\n",
      p < end ? *p : *(buf+len-1), state, (int)(p-buf), ZSW(buf),
      (int)(p-buf), len, ZSW(buf), len);
  goto error_exit;
error_bad_host:
  LM_ERR("bad host in uri (error at char %c in"
      " state %d) parsed: <%.*s>(%d) /<%.*s> (%d)\n",
      p < end ? *p : *(buf+len-1), state, (int)(p-buf), ZSW(buf),
      (int)(p-buf), len, ZSW(buf), len);
  goto error_exit;
error_bad_port:
  LM_ERR("bad port in uri (error at char '%c' in"
      " state %d) parsed: <%.*s>(%d) /<%.*s> (%d)\n",
      p < end ? *p : *(buf+len-1), state, (int)(p-buf), ZSW(buf),
      (int)(p-buf), len, ZSW(buf), len);
  goto error_exit;
error_bad_uri:
  LM_ERR("bad uri, state %d parsed: <%.*s> (%d) / <%.*s> (%d)\n",
       state, (int)(p-buf), ZSW(buf), (int)(p-buf), len,
       ZSW(buf), len);
  goto error_exit;
error_headers:
  LM_ERR("bad uri headers: <%.*s>(%d) / <%.*s>(%d)\n",
      uri->headers.len, ZSW(uri->headers.s), uri->headers.len,
      len, ZSW(buf), len);
  goto error_exit;
error_bug:
  LM_ERR("bad state %d parsed: <%.*s> (%d) / <%.*s> (%d)\n",
       state, (int)(p-buf), ZSW(buf), (int)(p-buf), len, ZSW(buf), len);
error_exit:
  ser_error=E_BAD_URI;
  uri->type=ERROR_URI_T;
  update_stat(bad_URIs, 1);
  return E_BAD_URI;
}


int parse_sip_msg_uri(struct sip_msg* msg)
{
  char* tmp;
  int tmp_len;
  if (msg->parsed_uri_ok) return 1;

  if (msg->new_uri.s){
    tmp=msg->new_uri.s;
    tmp_len=msg->new_uri.len;
  }else{
    tmp=msg->first_line.u.request.uri.s;
    tmp_len=msg->first_line.u.request.uri.len;
  }
  if (parse_uri(tmp, tmp_len, &msg->parsed_uri)<0){
    LM_ERR("bad uri <%.*s>\n", tmp_len, tmp);
    msg->parsed_uri_ok=0;
    set_err_info(OSER_EC_PARSER, OSER_EL_MEDIUM, "error parsing r-uri");
    set_err_reply(400, "bad r-uri");
    return -1;
  }
  msg->parsed_uri_ok=1;
  return 0;
}


int parse_orig_ruri(struct sip_msg* msg)
{
  str *uri;

  if (msg->parsed_orig_ruri_ok)
    return 1;

  uri = &REQ_LINE(msg).uri;

  if (parse_uri(uri->s, uri->len, &msg->parsed_orig_ruri)<0) {
    LM_ERR("bad uri <%.*s>\n", uri->len, ZSW(uri->s));
    msg->parsed_orig_ruri_ok = 0;
    set_err_info(OSER_EC_PARSER, OSER_EL_MEDIUM,
        "error parsing incoming uri");
    set_err_reply(400, "bad i-uri");
    return -1;
  }

  msg->parsed_orig_ruri_ok = 1;
  return 0;
}

#define compare_uri_val(field,cmpfunc) \
  do { \
    if (first.field.len != second.field.len) \
    { \
      LM_DBG("Different URI field - " #field "\n"); \
      return 1; \
    } \
    else \
    { \
      if (first.field.len != 0) \
        if (cmpfunc(first.field.s,second.field.s,first.field.len)) \
        { \
          LM_DBG("Different URI field - " #field "\n"); \
          return 1; \
        } \
    } \
  } while (0)

/* Compare 2 SIP URIs according to RFC 3261
 *
 * Return value : 0 if URIs match
 *          1 if URIs don't match
 *         -1 if errors have occurred
 */
int compare_uris(str *raw_uri_a,struct sip_uri* parsed_uri_a,
          str *raw_uri_b,struct sip_uri *parsed_uri_b)
{
  #define UNESCAPED_BUF_LEN 1024
  char unescaped_a[UNESCAPED_BUF_LEN], unescaped_b[UNESCAPED_BUF_LEN];

  str unescaped_userA={unescaped_a, UNESCAPED_BUF_LEN};
  str unescaped_userB={unescaped_b, UNESCAPED_BUF_LEN};

  struct sip_uri first;
  struct sip_uri second;
  char matched[URI_MAX_U_PARAMS];
  int i,j;

  if ( (!raw_uri_a && !parsed_uri_a) || (!raw_uri_b && !parsed_uri_b) )
  {
    LM_ERR("Provide either a raw or parsed form of a SIP URI\n");
    return -1;
  }

  if (raw_uri_a && raw_uri_b)
  {

    /* maybe we're lucky and straight-forward comparison succeeds */
    if (raw_uri_a->len == raw_uri_b->len)
      if (strncasecmp(raw_uri_a->s,raw_uri_b->s,raw_uri_a->len) == 0)
      {
        LM_DBG("straight-forward URI match\n");
        if (parse_uri(raw_uri_a->s,raw_uri_a->len,&first) < 0)
        {
          LM_ERR("Failed to parse first URI\n");
          return -1;
        }
        if (parse_uri(raw_uri_b->s,raw_uri_b->len,&second) < 0)
        {
          LM_ERR("Failed to parse second URI\n");
          return -1;
        }
        if (unescape_user(&first.user, &unescaped_userA) < 0 ||
            unescape_user(&second.user, &unescaped_userB) < 0) {
          LM_ERR("Failed to unescape user!\n");
          return -1;
        }
        first.user = unescaped_userA;
        second.user = unescaped_userB;
        compare_uri_val(user,strncmp);
        compare_uri_val(passwd,strncmp);
        return 0;
      }
  }

  /* XXX - maybe if we have two parsed sip_uris,
   * or only one parsed and one raw,
   * it should be possible to do a straight-forward
   * URI match ? */

  if (parsed_uri_a)
    first = *parsed_uri_a;
  else
  {
    if (parse_uri(raw_uri_a->s,raw_uri_a->len,&first) < 0)
    {
      LM_ERR("Failed to parse first URI\n");
      return -1;
    }
  }

  if (parsed_uri_b)
    second = *parsed_uri_b;
  else
  {
    if (parse_uri(raw_uri_b->s,raw_uri_b->len,&second) < 0)
    {
      LM_ERR("Failed to parse second URI\n");
      return -1;
    }
  }

  if (first.type != second.type)
  {
    LM_DBG("Different uri types\n");
    return 1;
  }

  if (unescape_user(&first.user, &unescaped_userA) < 0 ||
      unescape_user(&second.user, &unescaped_userB) < 0) {
    LM_ERR("Failed to unescape user!\n");
    return -1;
  }

  first.user = unescaped_userA;
  second.user = unescaped_userB;

  compare_uri_val(user,strncmp);
  compare_uri_val(passwd,strncmp);
  compare_uri_val(host,strncasecmp);
  compare_uri_val(port,strncmp);

  compare_uri_val(transport_val,strncasecmp);
  compare_uri_val(ttl_val,strncasecmp);
  compare_uri_val(user_param_val,strncasecmp);
  compare_uri_val(maddr_val,strncasecmp);
  compare_uri_val(method_val,strncasecmp);
  compare_uri_val(lr_val,strncasecmp);
  compare_uri_val(r2_val,strncasecmp);
  compare_uri_val(gr_val,strncasecmp);
  compare_uri_val(pn_provider_val,strncasecmp);
  compare_uri_val(pn_prid_val,strncasecmp);
  compare_uri_val(pn_param_val,strncasecmp);
  compare_uri_val(pn_purr_val,strncasecmp);

  if (first.u_params_no == 0 || second.u_params_no == 0)
    /* one URI doesn't have other params,
     * automatically all unknown params in other URI match
     */
    goto headers_check;

  memset(matched,0,URI_MAX_U_PARAMS);

  for (i=0;i<first.u_params_no;i++)
    for (j=0;j<second.u_params_no;j++)
      if (matched[j] == 0 &&
        (first.u_name[i].len == second.u_name[j].len &&
                strncasecmp(first.u_name[i].s,second.u_name[j].s,
              first.u_name[i].len) == 0))
        {
                    /* point of no return - matching unknown parameter values */
          if (first.u_val[i].len != second.u_val[j].len)
          {
            LM_DBG("Different URI param value for param %.*s\n",
                first.u_name[i].len,first.u_name[i].s);
            return 1;
          }
          else
          {
            if (first.u_val[i].len == 0)
            {
              /* no value for unknown params - match */
              matched[j] = 1;
              break;
            }

            if (strncasecmp(first.u_val[i].s,second.u_val[j].s,
              second.u_val[j].len))
            {
              LM_DBG("Different URI param value for param %.*s\n",
                first.u_name[i].len,first.u_name[i].s);
              return 1;
            }
            else
            {
              matched[j] = 1;
              break;
            }
          }
        }

  /* got here, it means all unknown params in first URI have been resolved
    => first URI matched second URI, and the other way around
  */

headers_check:
   /* XXX Do we really care ? */
  compare_uri_val(headers,strncasecmp);
  return 0;
}

Coverage Report

Created: 2026-02-26 07:12