Mon Mar 19 11:30:31 2012

Asterisk developer's documentation


acl.h File Reference

Access Control of various sorts. More...

#include "asterisk/network.h"
#include "asterisk/netsock2.h"
#include "asterisk/io.h"

Go to the source code of this file.

Data Structures

struct  ast_ha
 internal representation of acl entries In principle user applications would have no need for this, but there is sometimes a need to extract individual items, e.g. to print them, and rather than defining iterators to navigate the list, and an externally visible 'struct ast_ha_entry', at least in the short term it is more convenient to make the whole thing public and let users play with them. More...

Defines

#define AST_SENSE_ALLOW   1
#define AST_SENSE_DENY   0

Functions

ast_haast_append_ha (const char *sense, const char *stuff, struct ast_ha *path, int *error)
 Add a new rule to a list of HAs.
int ast_apply_ha (const struct ast_ha *ha, const struct ast_sockaddr *addr)
 Apply a set of rules to a given IP address.
void ast_copy_ha (const struct ast_ha *from, struct ast_ha *to)
 Copy the contents of one HA to another.
ast_haast_duplicate_ha_list (struct ast_ha *original)
 Duplicate the contents of a list of host access rules.
int ast_find_ourip (struct ast_sockaddr *ourip, const struct ast_sockaddr *bindaddr, int family)
 Find our IP address.
void ast_free_ha (struct ast_ha *ha)
 Free a list of HAs.
int ast_get_ip (struct ast_sockaddr *addr, const char *hostname)
 Get the IP address given a hostname.
int ast_get_ip_or_srv (struct ast_sockaddr *addr, const char *hostname, const char *service)
 Get the IP address given a hostname and optional service.
int ast_lookup_iface (char *iface, struct ast_sockaddr *address)
 Find an IP address associated with a specific interface.
int ast_ouraddrfor (const struct ast_sockaddr *them, struct ast_sockaddr *us)
 Get our local IP address when contacting a remote host.
int ast_str2cos (const char *value, unsigned int *cos)
 Convert a string to the appropriate COS value.
int ast_str2tos (const char *value, unsigned int *tos)
 Convert a string to the appropriate TOS value.
const char * ast_tos2str (unsigned int tos)
 Convert a TOS value into its string representation.


Detailed Description

Access Control of various sorts.

Definition in file acl.h.


Define Documentation

#define AST_SENSE_ALLOW   1

Definition at line 36 of file acl.h.

Referenced by apply_directmedia_ha(), ast_append_ha(), ast_apply_ha(), ast_sip_ouraddrfor(), and parse_register_contact().

#define AST_SENSE_DENY   0

Definition at line 35 of file acl.h.

Referenced by apply_directmedia_ha(), and ast_append_ha().


Function Documentation

struct ast_ha* ast_append_ha ( const char *  sense,
const char *  stuff,
struct ast_ha path,
int *  error 
)

Add a new rule to a list of HAs.

This adds the new host access rule to the end of the list whose head is specified by the path parameter. Rules are evaluated in a way such that if multiple rules apply to a single IP address/subnet mask, then the rule latest in the list will be used.

Parameters:
sense Either "permit" or "deny" (Actually any 'p' word will result in permission, and any other word will result in denial)
stuff The IP address and subnet mask, separated with a '/'. The subnet mask can either be in dotted-decimal format or in CIDR notation (i.e. 0-32).
path The head of the HA list to which we wish to append our new rule. If NULL is passed, then the new rule will become the head of the list
[out] error The integer error points to will be set non-zero if an error occurs
Returns:
The head of the HA list

Definition at line 395 of file acl.c.

References ast_ha::addr, apply_netmask(), ast_calloc, ast_debug, ast_free_ha(), ast_log(), AST_SENSE_ALLOW, AST_SENSE_DENY, ast_sockaddr_ipv4_mapped(), ast_sockaddr_is_ipv4(), ast_sockaddr_parse(), ast_sockaddr_stringify(), ast_strdupa, LOG_NOTICE, LOG_WARNING, ast_ha::next, parse_cidr_mask(), PARSE_PORT_FORBID, ast_ha::sense, and strsep().

Referenced by add_calltoken_ignore(), build_callno_limits(), build_device(), build_peer(), build_user(), and config_parse_variables().

00396 {
00397    struct ast_ha *ha;
00398    struct ast_ha *prev = NULL;
00399    struct ast_ha *ret;
00400    char *tmp = ast_strdupa(stuff);
00401    char *address = NULL, *mask = NULL;
00402    int addr_is_v4;
00403 
00404    ret = path;
00405    while (path) {
00406       prev = path;
00407       path = path->next;
00408    }
00409 
00410    if (!(ha = ast_calloc(1, sizeof(*ha)))) {
00411       if (error) {
00412          *error = 1;
00413       }
00414       return ret;
00415    }
00416 
00417    address = strsep(&tmp, "/");
00418    if (!address) {
00419       address = tmp;
00420    } else {
00421       mask = tmp;
00422    }
00423 
00424    if (!ast_sockaddr_parse(&ha->addr, address, PARSE_PORT_FORBID)) {
00425       ast_log(LOG_WARNING, "Invalid IP address: %s\n", address);
00426       ast_free_ha(ha);
00427       if (error) {
00428          *error = 1;
00429       }
00430       return ret;
00431    }
00432 
00433    /* If someone specifies an IPv4-mapped IPv6 address,
00434     * we just convert this to an IPv4 ACL
00435     */
00436    if (ast_sockaddr_ipv4_mapped(&ha->addr, &ha->addr)) {
00437       ast_log(LOG_NOTICE, "IPv4-mapped ACL network address specified. "
00438             "Converting to an IPv4 ACL network address.\n");
00439    }
00440 
00441    addr_is_v4 = ast_sockaddr_is_ipv4(&ha->addr);
00442 
00443    if (!mask) {
00444       parse_cidr_mask(&ha->netmask, addr_is_v4, addr_is_v4 ? "32" : "128");
00445    } else if (strchr(mask, ':') || strchr(mask, '.')) {
00446       int mask_is_v4;
00447       /* Mask is of x.x.x.x or x:x:x:x:x:x:x:x variety */
00448       if (!ast_sockaddr_parse(&ha->netmask, mask, PARSE_PORT_FORBID)) {
00449          ast_log(LOG_WARNING, "Invalid netmask: %s\n", mask);
00450          ast_free_ha(ha);
00451          if (error) {
00452             *error = 1;
00453          }
00454          return ret;
00455       }
00456       /* If someone specifies an IPv4-mapped IPv6 netmask,
00457        * we just convert this to an IPv4 ACL
00458        */
00459       if (ast_sockaddr_ipv4_mapped(&ha->netmask, &ha->netmask)) {
00460          ast_log(LOG_NOTICE, "IPv4-mapped ACL netmask specified. "
00461                "Converting to an IPv4 ACL netmask.\n");
00462       }
00463       mask_is_v4 = ast_sockaddr_is_ipv4(&ha->netmask);
00464       if (addr_is_v4 ^ mask_is_v4) {
00465          ast_log(LOG_WARNING, "Address and mask are not using same address scheme.\n");
00466          ast_free_ha(ha);
00467          if (error) {
00468             *error = 1;
00469          }
00470          return ret;
00471       }
00472    } else if (parse_cidr_mask(&ha->netmask, addr_is_v4, mask)) {
00473       ast_log(LOG_WARNING, "Invalid CIDR netmask: %s\n", mask);
00474       ast_free_ha(ha);
00475       if (error) {
00476          *error = 1;
00477       }
00478       return ret;
00479    }
00480 
00481    if (apply_netmask(&ha->addr, &ha->netmask, &ha->addr)) {
00482       /* This shouldn't happen because ast_sockaddr_parse would
00483        * have failed much earlier on an unsupported address scheme
00484        */
00485       char *failmask = ast_strdupa(ast_sockaddr_stringify(&ha->netmask));
00486       char *failaddr = ast_strdupa(ast_sockaddr_stringify(&ha->addr));
00487       ast_log(LOG_WARNING, "Unable to apply netmask %s to address %s\n", failmask, failaddr);
00488       ast_free_ha(ha);
00489       if (error) {
00490          *error = 1;
00491       }
00492       return ret;
00493    }
00494 
00495    ha->sense = strncasecmp(sense, "p", 1) ? AST_SENSE_DENY : AST_SENSE_ALLOW;
00496 
00497    ha->next = NULL;
00498    if (prev) {
00499       prev->next = ha;
00500    } else {
00501       ret = ha;
00502    }
00503 
00504    {
00505       const char *addr = ast_strdupa(ast_sockaddr_stringify(&ha->addr));
00506       const char *mask = ast_strdupa(ast_sockaddr_stringify(&ha->netmask));
00507 
00508       ast_debug(1, "%s/%s sense %d appended to acl for peer\n", addr, mask, ha->sense);
00509    }
00510 
00511    return ret;
00512 }

int ast_apply_ha ( const struct ast_ha ha,
const struct ast_sockaddr addr 
)

Apply a set of rules to a given IP address.

The list of host access rules is traversed, beginning with the input rule. If the IP address given matches a rule, the "sense" of that rule is used as the return value. Note that if an IP address matches multiple rules that the last one matched will be the one whose sense will be returned.

Parameters:
ha The head of the list of host access rules to follow
addr An ast_sockaddr whose address is considered when matching rules
Return values:
AST_SENSE_ALLOW The IP address passes our ACL
AST_SENSE_DENY The IP address fails our ACL

Definition at line 514 of file acl.c.

References ast_ha::addr, apply_netmask(), ast_copy_string(), ast_debug, ast_inet_ntoa(), AST_SENSE_ALLOW, ast_sockaddr_cmp_addr(), ast_sockaddr_ipv4_mapped(), ast_sockaddr_is_ipv4(), ast_sockaddr_is_ipv4_mapped(), ast_sockaddr_is_ipv6(), ast_ha::netmask, ast_ha::next, and ast_ha::sense.

Referenced by apply_directmedia_ha(), ast_sip_ouraddrfor(), authenticate(), check_access(), check_peer_ok(), parse_register_contact(), register_verify(), and skinny_register().

00515 {
00516    /* Start optimistic */
00517    int res = AST_SENSE_ALLOW;
00518    const struct ast_ha *current_ha;
00519 
00520    for (current_ha = ha; current_ha; current_ha = current_ha->next) {
00521       struct ast_sockaddr result;
00522       struct ast_sockaddr mapped_addr;
00523       const struct ast_sockaddr *addr_to_use;
00524 #if 0 /* debugging code */
00525       char iabuf[INET_ADDRSTRLEN];
00526       char iabuf2[INET_ADDRSTRLEN];
00527       /* DEBUG */
00528       ast_copy_string(iabuf, ast_inet_ntoa(sin->sin_addr), sizeof(iabuf));
00529       ast_copy_string(iabuf2, ast_inet_ntoa(ha->netaddr), sizeof(iabuf2));
00530       ast_debug(1, "##### Testing %s with %s\n", iabuf, iabuf2);
00531 #endif
00532       if (ast_sockaddr_is_ipv4(&ha->addr)) {
00533          if (ast_sockaddr_is_ipv6(addr)) {
00534             if (ast_sockaddr_is_ipv4_mapped(addr)) {
00535                /* IPv4 ACLs apply to IPv4-mapped addresses */
00536                ast_sockaddr_ipv4_mapped(addr, &mapped_addr);
00537                addr_to_use = &mapped_addr;
00538             } else {
00539                /* An IPv4 ACL does not apply to an IPv6 address */
00540                continue;
00541             }
00542          } else {
00543             /* Address is IPv4 and ACL is IPv4. No biggie */
00544             addr_to_use = addr;
00545          }
00546       } else {
00547          if (ast_sockaddr_is_ipv6(addr) && !ast_sockaddr_is_ipv4_mapped(addr)) {
00548             addr_to_use = addr;
00549          } else {
00550             /* Address is IPv4 or IPv4 mapped but ACL is IPv6. Skip */
00551             continue;
00552          }
00553       }
00554 
00555       /* For each rule, if this address and the netmask = the net address
00556          apply the current rule */
00557       if (apply_netmask(addr_to_use, &current_ha->netmask, &result)) {
00558          /* Unlikely to happen since we know the address to be IPv4 or IPv6 */
00559          continue;
00560       }
00561       if (!ast_sockaddr_cmp_addr(&result, &current_ha->addr)) {
00562          res = current_ha->sense;
00563       }
00564    }
00565    return res;
00566 }

void ast_copy_ha ( const struct ast_ha from,
struct ast_ha to 
)

Copy the contents of one HA to another.

This copies the internals of the 'from' HA to the 'to' HA. It is important that the 'to' HA has been allocated prior to calling this function

Parameters:
from Source HA to copy
to Destination HA to copy to
Return values:
void 

Definition at line 230 of file acl.c.

References ast_ha::addr, ast_sockaddr_copy(), ast_ha::netmask, and ast_ha::sense.

Referenced by add_calltoken_ignore(), ast_duplicate_ha(), and build_callno_limits().

00231 {
00232    ast_sockaddr_copy(&to->addr, &from->addr);
00233    ast_sockaddr_copy(&to->netmask, &from->netmask);
00234    to->sense = from->sense;
00235 }

struct ast_ha* ast_duplicate_ha_list ( struct ast_ha original  ) 

Duplicate the contents of a list of host access rules.

A deep copy of all ast_has in the list is made. The returned value is allocated on the heap and must be freed independently of the input parameter when finished.

Note:
This function is not actually used anywhere.
Parameters:
original The ast_ha to copy
Return values:
The head of the list of duplicated ast_has

Definition at line 252 of file acl.c.

References ast_duplicate_ha(), and ast_ha::next.

Referenced by create_addr_from_peer().

00253 {
00254    struct ast_ha *start = original;
00255    struct ast_ha *ret = NULL;
00256    struct ast_ha *current, *prev = NULL;
00257 
00258    while (start) {
00259       current = ast_duplicate_ha(start);  /* Create copy of this object */
00260       if (prev) {
00261          prev->next = current;           /* Link previous to this object */
00262       }
00263 
00264       if (!ret) {
00265          ret = current;                  /* Save starting point */
00266       }
00267 
00268       start = start->next;                /* Go to next object */
00269       prev = current;                     /* Save pointer to this object */
00270    }
00271    return ret;                             /* Return start of list */
00272 }

int ast_find_ourip ( struct ast_sockaddr ourip,
const struct ast_sockaddr bindaddr,
int  family 
)

Find our IP address.

This function goes through many iterations in an attempt to find our IP address. If any step along the way should fail, we move to the next item in the list. Here are the steps taken:

Parameters:
[out] ourip Our IP address is written here when it is found
bindaddr A hint used for finding our IP. See the steps above for more details
family Only addresses of the given family will be returned. Use 0 or AST_SOCKADDR_UNSPEC to get addresses of all families.
Return values:
0 Success
-1 Failure

Definition at line 736 of file acl.c.

References ast_debug, ast_log(), ast_ouraddrfor(), ast_sockaddr_copy(), ast_sockaddr_is_any(), ast_sockaddr_port, ast_sockaddr_set_port, bindaddr, get_local_address(), LOG_WARNING, MAXHOSTNAMELEN, ourhost, PARSE_PORT_FORBID, and resolve_first().

Referenced by __oh323_rtp_create(), gtalk_get_local_ip(), jingle_create_candidates(), and load_module().

00737 {
00738    char ourhost[MAXHOSTNAMELEN] = "";
00739    struct ast_sockaddr root;
00740    int res, port = ast_sockaddr_port(ourip);
00741 
00742    /* just use the bind address if it is nonzero */
00743    if (!ast_sockaddr_is_any(bindaddr)) {
00744       ast_sockaddr_copy(ourip, bindaddr);
00745       ast_debug(3, "Attached to given IP address\n");
00746       return 0;
00747    }
00748    /* try to use our hostname */
00749    if (gethostname(ourhost, sizeof(ourhost) - 1)) {
00750       ast_log(LOG_WARNING, "Unable to get hostname\n");
00751    } else {
00752       if (resolve_first(ourip, ourhost, PARSE_PORT_FORBID, family) == 0) {
00753          /* reset port since resolve_first wipes this out */
00754          ast_sockaddr_set_port(ourip, port);
00755          return 0;
00756       }
00757    }
00758    ast_debug(3, "Trying to check A.ROOT-SERVERS.NET and get our IP address for that connection\n");
00759    /* A.ROOT-SERVERS.NET. */
00760    if (!resolve_first(&root, "A.ROOT-SERVERS.NET", PARSE_PORT_FORBID, 0) &&
00761        !ast_ouraddrfor(&root, ourip)) {
00762       /* reset port since resolve_first wipes this out */
00763       ast_sockaddr_set_port(ourip, port);
00764       return 0;
00765    }
00766    res = get_local_address(ourip);
00767    ast_sockaddr_set_port(ourip, port);
00768    return res;
00769 }

void ast_free_ha ( struct ast_ha ha  ) 

Free a list of HAs.

Given the head of a list of HAs, it and all appended HAs are freed

Parameters:
ha The head of the list of HAs to free
Return values:
void 

Definition at line 219 of file acl.c.

References ast_free, and ast_ha::next.

Referenced by __sip_destroy(), add_calltoken_ignore(), ast_append_ha(), build_callno_limits(), build_peer(), build_user(), destroy_gateway(), oh323_destroy_peer(), oh323_destroy_user(), peer_destructor(), reload_config(), sip_destroy_peer(), unload_module(), and user_destructor().

00220 {
00221    struct ast_ha *hal;
00222    while (ha) {
00223       hal = ha;
00224       ha = ha->next;
00225       ast_free(hal);
00226    }
00227 }

int ast_get_ip ( struct ast_sockaddr addr,
const char *  hostname 
)

Get the IP address given a hostname.

Similar in nature to ast_gethostbyname, except that instead of getting an entire hostent structure, you instead are given only the IP address inserted into a ast_sockaddr structure.

Parameters:
addr The IP address found. The address family is used as an input parameter to filter the returned addresses. If it is 0, both IPv4 and IPv6 addresses can be returned.
hostname The hostname to look up
Return values:
0 Success
-1 Failure

Definition at line 692 of file acl.c.

References ast_get_ip_or_srv().

Referenced by build_peer(), build_user(), config_parse_variables(), peer_set_srcaddr(), setup_stunaddr(), and stun_monitor_request().

00693 {
00694    return ast_get_ip_or_srv(addr, hostname, NULL);
00695 }

int ast_get_ip_or_srv ( struct ast_sockaddr addr,
const char *  hostname,
const char *  service 
)

Get the IP address given a hostname and optional service.

If the service parameter is non-NULL, then an SRV lookup will be made by prepending the service to the hostname parameter, separated by a '.' For example, if hostname is "example.com" and service is "_sip._udp" then an SRV lookup will be done for "_sip._udp.example.com". If service is NULL, then this function acts exactly like a call to ast_get_ip.

Parameters:
addr The IP address found. The address family is used as an input parameter to filter the returned addresses. If it is 0, both IPv4 and IPv6 addresses can be returned.
hostname The hostname to look up
service A specific service provided by the host. A NULL service results in an A-record lookup instead of an SRV lookup
Return values:
0 Success
-1 Failure

Definition at line 589 of file acl.c.

References ast_get_srv(), ast_sockaddr_set_port, PARSE_PORT_FORBID, resolve_first(), and ast_sockaddr::ss.

Referenced by ast_get_ip(), create_addr(), dnsmgr_refresh(), internal_dnsmgr_lookup(), and proxy_update().

00590 {
00591    char srv[256];
00592    char host[256];
00593    int srv_ret = 0;
00594    int tportno;
00595 
00596    if (service) {
00597       snprintf(srv, sizeof(srv), "%s.%s", service, hostname);
00598       if ((srv_ret = ast_get_srv(NULL, host, sizeof(host), &tportno, srv)) > 0) {
00599          hostname = host;
00600       }
00601    }
00602 
00603    if (resolve_first(addr, hostname, PARSE_PORT_FORBID, addr->ss.ss_family) != 0) {
00604       return -1;
00605    }
00606 
00607    if (srv_ret > 0) {
00608       ast_sockaddr_set_port(addr, tportno);
00609    }
00610 
00611    return 0;
00612 }

int ast_lookup_iface ( char *  iface,
struct ast_sockaddr address 
)

Find an IP address associated with a specific interface.

Given an interface such as "eth0" we find the primary IP address associated with it using the SIOCGIFADDR ioctl. If the ioctl call should fail, we populate address with 0s.

Note:
This function is not actually used anywhere
Parameters:
iface The interface name whose IP address we wish to find
[out] address The interface's IP address is placed into this param
Return values:
-1 Failure. address is filled with 0s
0 Success

int ast_ouraddrfor ( const struct ast_sockaddr them,
struct ast_sockaddr us 
)

Get our local IP address when contacting a remote host.

This function will attempt to connect(2) to them over UDP using a source port of 5060. If the connect(2) call is successful, then we inspect the sockaddr_in output parameter of connect(2) to determine the IP address used to connect to them. This IP address is then copied into us.

Parameters:
them The IP address to which we wish to attempt to connect
[out] us The source IP address used to connect to them
Return values:
-1 Failure
0 Success

Definition at line 697 of file acl.c.

References ast_connect(), ast_debug, ast_getsockname(), ast_log(), ast_sockaddr_is_ipv6(), ast_sockaddr_port, ast_sockaddr_set_port, ast_sockaddr_stringify_addr(), ast_strdupa, LOG_ERROR, and LOG_WARNING.

Referenced by ast_find_ourip(), ast_sip_ouraddrfor(), find_subchannel_and_lock(), gtalk_get_local_ip(), and sip_acf_channel_read().

00698 {
00699    int port;
00700    int s;
00701 
00702    port = ast_sockaddr_port(us);
00703 
00704    if ((s = socket(ast_sockaddr_is_ipv6(them) ? AF_INET6 : AF_INET,
00705          SOCK_DGRAM, 0)) < 0) {
00706       ast_log(LOG_ERROR, "Cannot create socket\n");
00707       return -1;
00708    }
00709 
00710    if (ast_connect(s, them)) {
00711       ast_log(LOG_WARNING, "Cannot connect\n");
00712       close(s);
00713       return -1;
00714    }
00715    if (ast_getsockname(s, us)) {
00716 
00717       ast_log(LOG_WARNING, "Cannot get socket name\n");
00718       close(s);
00719       return -1;
00720    }
00721    close(s);
00722 
00723    {
00724       const char *them_addr = ast_strdupa(ast_sockaddr_stringify_addr(them));
00725       const char *us_addr = ast_strdupa(ast_sockaddr_stringify_addr(us));
00726 
00727       ast_debug(3, "For destination '%s', our source address is '%s'.\n",
00728             them_addr, us_addr);
00729    }
00730 
00731    ast_sockaddr_set_port(us, port);
00732 
00733    return 0;
00734 }

int ast_str2cos ( const char *  value,
unsigned int *  cos 
)

Convert a string to the appropriate COS value.

Parameters:
value The COS string to convert
[out] cos The integer representation of that COS value
Return values:
-1 Failure
0 Success

Definition at line 645 of file acl.c.

Referenced by config_parse_variables(), reload_config(), and set_config().

00646 {
00647    int fval;
00648 
00649    if (sscanf(value, "%30d", &fval) == 1) {
00650       if (fval < 8) {
00651           *cos = fval;
00652           return 0;
00653       }
00654    }
00655 
00656    return -1;
00657 }

int ast_str2tos ( const char *  value,
unsigned int *  tos 
)

Convert a string to the appropriate TOS value.

Parameters:
value The TOS string to convert
[out] tos The integer representation of that TOS value
Return values:
-1 Failure
0 Success

Definition at line 659 of file acl.c.

References ARRAY_LEN, dscp_pool1, name, and dscp_codepoint::space.

Referenced by config_parse_variables(), iax_template_parse(), reload_config(), and set_config().

00660 {
00661    int fval;
00662    unsigned int x;
00663 
00664    if (sscanf(value, "%30i", &fval) == 1) {
00665       *tos = fval & 0xFF;
00666       return 0;
00667    }
00668 
00669    for (x = 0; x < ARRAY_LEN(dscp_pool1); x++) {
00670       if (!strcasecmp(value, dscp_pool1[x].name)) {
00671          *tos = dscp_pool1[x].space << 2;
00672          return 0;
00673       }
00674    }
00675 
00676    return -1;
00677 }

const char* ast_tos2str ( unsigned int  tos  ) 

Convert a TOS value into its string representation.

Parameters:
tos The TOS value to look up
Returns:
The string equivalent of the TOS value

Definition at line 679 of file acl.c.

References ARRAY_LEN, dscp_pool1, dscp_codepoint::name, and dscp_codepoint::space.

Referenced by sip_show_settings().

00680 {
00681    unsigned int x;
00682 
00683    for (x = 0; x < ARRAY_LEN(dscp_pool1); x++) {
00684       if (dscp_pool1[x].space == (tos >> 2)) {
00685          return dscp_pool1[x].name;
00686       }
00687    }
00688 
00689    return "unknown";
00690 }


Generated on Mon Mar 19 11:30:31 2012 for Asterisk - The Open Source Telephony Project by  doxygen 1.4.7