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|
/*
* Copyright (C) 2009 Tobias Brunner
* Copyright (C) 2005-2009 Martin Willi
* Copyright (C) 2005 Jan Hutter
* Hochschule fuer Technik Rapperswil
*
* This program 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. See <http://www.fsf.org/copyleft/gpl.txt>.
*
* This program 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.
*/
#define _GNU_SOURCE
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#include <string.h>
#include <stdio.h>
#include "identification.h"
#include <asn1/oid.h>
#include <asn1/asn1.h>
#include <crypto/hashers/hasher.h>
ENUM_BEGIN(id_match_names, ID_MATCH_NONE, ID_MATCH_MAX_WILDCARDS,
"MATCH_NONE",
"MATCH_ANY",
"MATCH_MAX_WILDCARDS");
ENUM_NEXT(id_match_names, ID_MATCH_PERFECT, ID_MATCH_PERFECT, ID_MATCH_MAX_WILDCARDS,
"MATCH_PERFECT");
ENUM_END(id_match_names, ID_MATCH_PERFECT);
ENUM_BEGIN(id_type_names, ID_ANY, ID_KEY_ID,
"ID_ANY",
"ID_IPV4_ADDR",
"ID_FQDN",
"ID_RFC822_ADDR",
"ID_IPV4_ADDR_SUBNET",
"ID_IPV6_ADDR",
"ID_IPV6_ADDR_SUBNET",
"ID_IPV4_ADDR_RANGE",
"ID_IPV6_ADDR_RANGE",
"ID_DER_ASN1_DN",
"ID_DER_ASN1_GN",
"ID_KEY_ID");
ENUM_NEXT(id_type_names, ID_DER_ASN1_GN_URI, ID_MYID, ID_KEY_ID,
"ID_DER_ASN1_GN_URI",
"ID_MYID");
ENUM_END(id_type_names, ID_MYID);
/**
* coding of X.501 distinguished name
*/
typedef struct {
const u_char *name;
int oid;
u_char type;
} x501rdn_t;
static const x501rdn_t x501rdns[] = {
{"ND", OID_NAME_DISTINGUISHER, ASN1_PRINTABLESTRING},
{"UID", OID_PILOT_USERID, ASN1_PRINTABLESTRING},
{"DC", OID_PILOT_DOMAIN_COMPONENT, ASN1_PRINTABLESTRING},
{"CN", OID_COMMON_NAME, ASN1_PRINTABLESTRING},
{"S", OID_SURNAME, ASN1_PRINTABLESTRING},
{"SN", OID_SERIAL_NUMBER, ASN1_PRINTABLESTRING},
{"serialNumber", OID_SERIAL_NUMBER, ASN1_PRINTABLESTRING},
{"C", OID_COUNTRY, ASN1_PRINTABLESTRING},
{"L", OID_LOCALITY, ASN1_PRINTABLESTRING},
{"ST", OID_STATE_OR_PROVINCE, ASN1_PRINTABLESTRING},
{"O", OID_ORGANIZATION, ASN1_PRINTABLESTRING},
{"OU", OID_ORGANIZATION_UNIT, ASN1_PRINTABLESTRING},
{"T", OID_TITLE, ASN1_PRINTABLESTRING},
{"D", OID_DESCRIPTION, ASN1_PRINTABLESTRING},
{"N", OID_NAME, ASN1_PRINTABLESTRING},
{"G", OID_GIVEN_NAME, ASN1_PRINTABLESTRING},
{"I", OID_INITIALS, ASN1_PRINTABLESTRING},
{"dnQualifier", OID_DN_QUALIFIER, ASN1_PRINTABLESTRING},
{"ID", OID_UNIQUE_IDENTIFIER, ASN1_PRINTABLESTRING},
{"EN", OID_EMPLOYEE_NUMBER, ASN1_PRINTABLESTRING},
{"employeeNumber", OID_EMPLOYEE_NUMBER, ASN1_PRINTABLESTRING},
{"E", OID_EMAIL_ADDRESS, ASN1_IA5STRING},
{"Email", OID_EMAIL_ADDRESS, ASN1_IA5STRING},
{"emailAddress", OID_EMAIL_ADDRESS, ASN1_IA5STRING},
{"UN", OID_UNSTRUCTURED_NAME, ASN1_IA5STRING},
{"unstructuredName", OID_UNSTRUCTURED_NAME, ASN1_IA5STRING},
{"UA", OID_UNSTRUCTURED_ADDRESS, ASN1_PRINTABLESTRING},
{"unstructuredAddress", OID_UNSTRUCTURED_ADDRESS, ASN1_PRINTABLESTRING},
{"TCGID", OID_TCGID, ASN1_PRINTABLESTRING}
};
/**
* maximum number of RDNs in atodn()
*/
#define RDN_MAX 20
typedef struct private_identification_t private_identification_t;
/**
* Private data of an identification_t object.
*/
struct private_identification_t {
/**
* Public interface.
*/
identification_t public;
/**
* Encoded representation of this ID.
*/
chunk_t encoded;
/**
* Type of this ID.
*/
id_type_t type;
};
/**
* Enumerator over RDNs
*/
typedef struct {
/* implements enumerator interface */
enumerator_t public;
/* next set to parse, if any */
chunk_t sets;
/* next sequence in set, if any */
chunk_t seqs;
} rdn_enumerator_t;
METHOD(enumerator_t, rdn_enumerate, bool,
rdn_enumerator_t *this, chunk_t *oid, u_char *type, chunk_t *data)
{
chunk_t rdn;
/* a DN contains one or more SET, each containing one or more SEQUENCES,
* each containing a OID/value RDN */
if (!this->seqs.len)
{
/* no SEQUENCEs in current SET, parse next SET */
if (asn1_unwrap(&this->sets, &this->seqs) != ASN1_SET)
{
return FALSE;
}
}
if (asn1_unwrap(&this->seqs, &rdn) == ASN1_SEQUENCE &&
asn1_unwrap(&rdn, oid) == ASN1_OID)
{
int t = asn1_unwrap(&rdn, data);
if (t != ASN1_INVALID)
{
*type = t;
return TRUE;
}
}
return FALSE;
}
/**
* Create an enumerator over all RDNs (oid, string type, data) of a DN
*/
static enumerator_t* create_rdn_enumerator(chunk_t dn)
{
rdn_enumerator_t *e;
INIT(e,
.public = {
.enumerate = (void*)_rdn_enumerate,
.destroy = (void*)free,
},
);
/* a DN is a SEQUENCE, get the first SET of it */
if (asn1_unwrap(&dn, &e->sets) == ASN1_SEQUENCE)
{
e->seqs = chunk_empty;
return &e->public;
}
free(e);
return enumerator_create_empty();
}
/**
* Part enumerator over RDNs
*/
typedef struct {
/* implements enumerator interface */
enumerator_t public;
/* inner RDN enumerator */
enumerator_t *inner;
} rdn_part_enumerator_t;
METHOD(enumerator_t, rdn_part_enumerate, bool,
rdn_part_enumerator_t *this, id_part_t *type, chunk_t *data)
{
int i, known_oid, strtype;
chunk_t oid, inner_data;
static const struct {
int oid;
id_part_t type;
} oid2part[] = {
{OID_COMMON_NAME, ID_PART_RDN_CN},
{OID_SURNAME, ID_PART_RDN_S},
{OID_SERIAL_NUMBER, ID_PART_RDN_SN},
{OID_COUNTRY, ID_PART_RDN_C},
{OID_LOCALITY, ID_PART_RDN_L},
{OID_STATE_OR_PROVINCE, ID_PART_RDN_ST},
{OID_ORGANIZATION, ID_PART_RDN_O},
{OID_ORGANIZATION_UNIT, ID_PART_RDN_OU},
{OID_TITLE, ID_PART_RDN_T},
{OID_DESCRIPTION, ID_PART_RDN_D},
{OID_NAME, ID_PART_RDN_N},
{OID_GIVEN_NAME, ID_PART_RDN_G},
{OID_INITIALS, ID_PART_RDN_I},
{OID_DN_QUALIFIER, ID_PART_RDN_DNQ},
{OID_UNIQUE_IDENTIFIER, ID_PART_RDN_ID},
{OID_EMAIL_ADDRESS, ID_PART_RDN_E},
{OID_EMPLOYEE_NUMBER, ID_PART_RDN_EN},
};
while (this->inner->enumerate(this->inner, &oid, &strtype, &inner_data))
{
known_oid = asn1_known_oid(oid);
for (i = 0; i < countof(oid2part); i++)
{
if (oid2part[i].oid == known_oid)
{
*type = oid2part[i].type;
*data = inner_data;
return TRUE;
}
}
}
return FALSE;
}
METHOD(enumerator_t, rdn_part_enumerator_destroy, void,
rdn_part_enumerator_t *this)
{
this->inner->destroy(this->inner);
free(this);
}
METHOD(identification_t, create_part_enumerator, enumerator_t*,
private_identification_t *this)
{
switch (this->type)
{
case ID_DER_ASN1_DN:
{
rdn_part_enumerator_t *e;
INIT(e,
.inner = create_rdn_enumerator(this->encoded),
.public = {
.enumerate = (void*)_rdn_part_enumerate,
.destroy = _rdn_part_enumerator_destroy,
},
);
return &e->public;
}
case ID_RFC822_ADDR:
/* TODO */
case ID_FQDN:
/* TODO */
default:
return enumerator_create_empty();
}
}
/**
* Print a DN with all its RDN in a buffer to present it to the user
*/
static void dntoa(chunk_t dn, char *buf, size_t len)
{
enumerator_t *e;
chunk_t oid_data, data, printable;
u_char type;
int oid, written;
bool finished = FALSE, empty = TRUE;
e = create_rdn_enumerator(dn);
while (e->enumerate(e, &oid_data, &type, &data))
{
empty = FALSE;
oid = asn1_known_oid(oid_data);
if (oid == OID_UNKNOWN)
{
written = snprintf(buf, len, "%#B=", &oid_data);
}
else
{
written = snprintf(buf, len,"%s=", oid_names[oid].name);
}
if (written < 0 || written >= len)
{
break;
}
buf += written;
len -= written;
chunk_printable(data, &printable, '?');
written = snprintf(buf, len, "%.*s", printable.len, printable.ptr);
chunk_free(&printable);
if (written < 0 || written >= len)
{
break;
}
buf += written;
len -= written;
if (data.ptr + data.len != dn.ptr + dn.len)
{
written = snprintf(buf, len, ", ");
if (written < 0 || written >= len)
{
break;
}
buf += written;
len -= written;
}
else
{
finished = TRUE;
break;
}
}
if (empty)
{
snprintf(buf, len, "");
}
else if (!finished)
{
snprintf(buf, len, "(invalid ID_DER_ASN1_DN)");
}
e->destroy(e);
}
/**
* Converts an LDAP-style human-readable ASCII-encoded
* ASN.1 distinguished name into binary DER-encoded format
*/
static status_t atodn(char *src, chunk_t *dn)
{
/* finite state machine for atodn */
typedef enum {
SEARCH_OID = 0,
READ_OID = 1,
SEARCH_NAME = 2,
READ_NAME = 3,
UNKNOWN_OID = 4
} state_t;
chunk_t oid = chunk_empty;
chunk_t name = chunk_empty;
chunk_t rdns[RDN_MAX];
int rdn_count = 0;
int dn_len = 0;
int whitespace = 0;
int i = 0;
asn1_t rdn_type;
state_t state = SEARCH_OID;
status_t status = SUCCESS;
do
{
switch (state)
{
case SEARCH_OID:
if (*src != ' ' && *src != '/' && *src != ',')
{
oid.ptr = src;
oid.len = 1;
state = READ_OID;
}
break;
case READ_OID:
if (*src != ' ' && *src != '=')
{
oid.len++;
}
else
{
bool found = FALSE;
for (i = 0; i < countof(x501rdns); i++)
{
if (strlen(x501rdns[i].name) == oid.len &&
strncasecmp(x501rdns[i].name, oid.ptr, oid.len) == 0)
{
found = TRUE;
break;
}
}
if (!found)
{
status = NOT_SUPPORTED;
state = UNKNOWN_OID;
break;
}
/* reset oid and change state */
oid = chunk_empty;
state = SEARCH_NAME;
}
break;
case SEARCH_NAME:
if (*src != ' ' && *src != '=')
{
name.ptr = src;
name.len = 1;
whitespace = 0;
state = READ_NAME;
}
break;
case READ_NAME:
if (*src != ',' && *src != '/' && *src != '\0')
{
name.len++;
if (*src == ' ')
whitespace++;
else
whitespace = 0;
}
else
{
name.len -= whitespace;
rdn_type = (x501rdns[i].type == ASN1_PRINTABLESTRING
&& !asn1_is_printablestring(name))
? ASN1_T61STRING : x501rdns[i].type;
if (rdn_count < RDN_MAX)
{
chunk_t rdn_oid;
rdn_oid = asn1_build_known_oid(x501rdns[i].oid);
if (rdn_oid.len)
{
rdns[rdn_count] =
asn1_wrap(ASN1_SET, "m",
asn1_wrap(ASN1_SEQUENCE, "mm",
rdn_oid,
asn1_wrap(rdn_type, "c", name)
)
);
dn_len += rdns[rdn_count++].len;
}
else
{
status = INVALID_ARG;
}
}
else
{
status = OUT_OF_RES;
}
/* reset name and change state */
name = chunk_empty;
state = SEARCH_OID;
}
break;
case UNKNOWN_OID:
break;
}
} while (*src++ != '\0');
/* build the distinguished name sequence */
{
int i;
u_char *pos = asn1_build_object(dn, ASN1_SEQUENCE, dn_len);
for (i = 0; i < rdn_count; i++)
{
memcpy(pos, rdns[i].ptr, rdns[i].len);
pos += rdns[i].len;
free(rdns[i].ptr);
}
}
if (status != SUCCESS)
{
free(dn->ptr);
*dn = chunk_empty;
}
return status;
}
METHOD(identification_t, get_encoding, chunk_t,
private_identification_t *this)
{
return this->encoded;
}
METHOD(identification_t, get_type, id_type_t,
private_identification_t *this)
{
return this->type;
}
METHOD(identification_t, contains_wildcards_dn, bool,
private_identification_t *this)
{
enumerator_t *enumerator;
bool contains = FALSE;
id_part_t type;
chunk_t data;
enumerator = create_part_enumerator(this);
while (enumerator->enumerate(enumerator, &type, &data))
{
if (data.len == 1 && data.ptr[0] == '*')
{
contains = TRUE;
break;
}
}
enumerator->destroy(enumerator);
return contains;
}
METHOD(identification_t, contains_wildcards_memchr, bool,
private_identification_t *this)
{
return memchr(this->encoded.ptr, '*', this->encoded.len) != NULL;
}
METHOD(identification_t, equals_binary, bool,
private_identification_t *this, identification_t *other)
{
if (this->type == other->get_type(other))
{
if (this->type == ID_ANY)
{
return TRUE;
}
return chunk_equals(this->encoded, other->get_encoding(other));
}
return FALSE;
}
/**
* Compare to DNs, for equality if wc == NULL, for match otherwise
*/
static bool compare_dn(chunk_t t_dn, chunk_t o_dn, int *wc)
{
enumerator_t *t, *o;
chunk_t t_oid, o_oid, t_data, o_data;
u_char t_type, o_type;
bool t_next, o_next, finished = FALSE;
if (wc)
{
*wc = 0;
}
else
{
if (t_dn.len != o_dn.len)
{
return FALSE;
}
}
/* try a binary compare */
if (memeq(t_dn.ptr, o_dn.ptr, t_dn.len))
{
return TRUE;
}
t = create_rdn_enumerator(t_dn);
o = create_rdn_enumerator(o_dn);
while (TRUE)
{
t_next = t->enumerate(t, &t_oid, &t_type, &t_data);
o_next = o->enumerate(o, &o_oid, &o_type, &o_data);
if (!o_next && !t_next)
{
break;
}
finished = FALSE;
if (o_next != t_next)
{
break;
}
if (!chunk_equals(t_oid, o_oid))
{
break;
}
if (wc && o_data.len == 1 && o_data.ptr[0] == '*')
{
(*wc)++;
}
else
{
if (t_data.len != o_data.len)
{
break;
}
if (t_type == o_type &&
(t_type == ASN1_PRINTABLESTRING ||
(t_type == ASN1_IA5STRING &&
asn1_known_oid(t_oid) == OID_EMAIL_ADDRESS)))
{ /* ignore case for printableStrings and email RDNs */
if (strncasecmp(t_data.ptr, o_data.ptr, t_data.len) != 0)
{
break;
}
}
else
{ /* respect case and length for everything else */
if (!memeq(t_data.ptr, o_data.ptr, t_data.len))
{
break;
}
}
}
/* the enumerator returns FALSE on parse error, we are finished
* if we have reached the end of the DN only */
if ((t_data.ptr + t_data.len == t_dn.ptr + t_dn.len) &&
(o_data.ptr + o_data.len == o_dn.ptr + o_dn.len))
{
finished = TRUE;
}
}
t->destroy(t);
o->destroy(o);
return finished;
}
METHOD(identification_t, equals_dn, bool,
private_identification_t *this, identification_t *other)
{
return compare_dn(this->encoded, other->get_encoding(other), NULL);
}
METHOD(identification_t, equals_strcasecmp, bool,
private_identification_t *this, identification_t *other)
{
chunk_t encoded = other->get_encoding(other);
/* we do some extra sanity checks to check for invalid IDs with a
* terminating null in it. */
if (this->encoded.len == encoded.len &&
memchr(this->encoded.ptr, 0, this->encoded.len) == NULL &&
memchr(encoded.ptr, 0, encoded.len) == NULL &&
strncasecmp(this->encoded.ptr, encoded.ptr, this->encoded.len) == 0)
{
return TRUE;
}
return FALSE;
}
METHOD(identification_t, matches_binary, id_match_t,
private_identification_t *this, identification_t *other)
{
if (other->get_type(other) == ID_ANY)
{
return ID_MATCH_ANY;
}
if (this->type == other->get_type(other) &&
chunk_equals(this->encoded, other->get_encoding(other)))
{
return ID_MATCH_PERFECT;
}
return ID_MATCH_NONE;
}
METHOD(identification_t, matches_string, id_match_t,
private_identification_t *this, identification_t *other)
{
chunk_t encoded = other->get_encoding(other);
u_int len = encoded.len;
if (other->get_type(other) == ID_ANY)
{
return ID_MATCH_ANY;
}
if (this->type != other->get_type(other))
{
return ID_MATCH_NONE;
}
/* try a equals check first */
if (equals_strcasecmp(this, other))
{
return ID_MATCH_PERFECT;
}
if (len == 0 || this->encoded.len < len)
{
return ID_MATCH_NONE;
}
/* check for single wildcard at the head of the string */
if (*encoded.ptr == '*')
{
/* single asterisk matches any string */
if (len-- == 1)
{ /* not better than ID_ANY */
return ID_MATCH_ANY;
}
if (strncasecmp(this->encoded.ptr + this->encoded.len - len,
encoded.ptr + 1, len) == 0)
{
return ID_MATCH_ONE_WILDCARD;
}
}
return ID_MATCH_NONE;
}
METHOD(identification_t, matches_any, id_match_t,
private_identification_t *this, identification_t *other)
{
if (other->get_type(other) == ID_ANY)
{
return ID_MATCH_ANY;
}
return ID_MATCH_NONE;
}
METHOD(identification_t, matches_dn, id_match_t,
private_identification_t *this, identification_t *other)
{
int wc;
if (other->get_type(other) == ID_ANY)
{
return ID_MATCH_ANY;
}
if (this->type == other->get_type(other))
{
if (compare_dn(this->encoded, other->get_encoding(other), &wc))
{
wc = min(wc, ID_MATCH_ONE_WILDCARD - ID_MATCH_MAX_WILDCARDS);
return ID_MATCH_PERFECT - wc;
}
}
return ID_MATCH_NONE;
}
/**
* Described in header.
*/
int identification_printf_hook(char *dst, size_t len, printf_hook_spec_t *spec,
const void *const *args)
{
private_identification_t *this = *((private_identification_t**)(args[0]));
chunk_t proper;
char buf[512];
if (this == NULL)
{
return print_in_hook(dst, len, "%*s", spec->width, "(null)");
}
switch (this->type)
{
case ID_ANY:
snprintf(buf, sizeof(buf), "%%any");
break;
case ID_IPV4_ADDR:
if (this->encoded.len < sizeof(struct in_addr) ||
inet_ntop(AF_INET, this->encoded.ptr, buf, sizeof(buf)) == NULL)
{
snprintf(buf, sizeof(buf), "(invalid ID_IPV4_ADDR)");
}
break;
case ID_IPV6_ADDR:
if (this->encoded.len < sizeof(struct in6_addr) ||
inet_ntop(AF_INET6, this->encoded.ptr, buf, INET6_ADDRSTRLEN) == NULL)
{
snprintf(buf, sizeof(buf), "(invalid ID_IPV6_ADDR)");
}
break;
case ID_FQDN:
case ID_RFC822_ADDR:
case ID_DER_ASN1_GN_URI:
chunk_printable(this->encoded, &proper, '?');
snprintf(buf, sizeof(buf), "%.*s", proper.len, proper.ptr);
chunk_free(&proper);
break;
case ID_DER_ASN1_DN:
dntoa(this->encoded, buf, sizeof(buf));
break;
case ID_DER_ASN1_GN:
snprintf(buf, sizeof(buf), "(ASN.1 general Name");
break;
case ID_KEY_ID:
if (chunk_printable(this->encoded, NULL, '?') &&
this->encoded.len != HASH_SIZE_SHA1)
{ /* fully printable, use ascii version */
snprintf(buf, sizeof(buf), "%.*s",
this->encoded.len, this->encoded.ptr);
}
else
{ /* not printable, hex dump */
snprintf(buf, sizeof(buf), "%#B", &this->encoded);
}
break;
case ID_MYID:
snprintf(buf, sizeof(buf), "%%myid");
break;
default:
snprintf(buf, sizeof(buf), "(unknown ID type: %d)", this->type);
break;
}
if (spec->minus)
{
return print_in_hook(dst, len, "%-*s", spec->width, buf);
}
return print_in_hook(dst, len, "%*s", spec->width, buf);
}
METHOD(identification_t, clone_, identification_t*,
private_identification_t *this)
{
private_identification_t *clone = malloc_thing(private_identification_t);
memcpy(clone, this, sizeof(private_identification_t));
if (this->encoded.len)
{
clone->encoded = chunk_clone(this->encoded);
}
return &clone->public;
}
METHOD(identification_t, destroy, void,
private_identification_t *this)
{
chunk_free(&this->encoded);
free(this);
}
/**
* Generic constructor used for the other constructors.
*/
static private_identification_t *identification_create(id_type_t type)
{
private_identification_t *this;
INIT(this,
.public = {
.get_encoding = _get_encoding,
.get_type = _get_type,
.create_part_enumerator = _create_part_enumerator,
.clone = _clone_,
.destroy = _destroy,
},
.type = type,
);
switch (type)
{
case ID_ANY:
this->public.matches = _matches_any;
this->public.equals = _equals_binary;
this->public.contains_wildcards = return_true;
break;
case ID_FQDN:
case ID_RFC822_ADDR:
this->public.matches = _matches_string;
this->public.equals = _equals_strcasecmp;
this->public.contains_wildcards = _contains_wildcards_memchr;
break;
case ID_DER_ASN1_DN:
this->public.equals = _equals_dn;
this->public.matches = _matches_dn;
this->public.contains_wildcards = _contains_wildcards_dn;
break;
default:
this->public.equals = _equals_binary;
this->public.matches = _matches_binary;
this->public.contains_wildcards = return_false;
break;
}
return this;
}
/*
* Described in header.
*/
identification_t *identification_create_from_string(char *string)
{
private_identification_t *this;
chunk_t encoded;
if (string == NULL)
{
string = "%any";
}
if (strchr(string, '=') != NULL)
{
/* we interpret this as an ASCII X.501 ID_DER_ASN1_DN.
* convert from LDAP style or openssl x509 -subject style to ASN.1 DN
*/
if (atodn(string, &encoded) == SUCCESS)
{
this = identification_create(ID_DER_ASN1_DN);
this->encoded = encoded;
}
else
{
this = identification_create(ID_KEY_ID);
this->encoded = chunk_clone(chunk_create(string, strlen(string)));
}
return &this->public;
}
else if (strchr(string, '@') == NULL)
{
if (streq(string, "%any")
|| streq(string, "%any6")
|| streq(string, "0.0.0.0")
|| streq(string, "*")
|| streq(string, "::")
|| streq(string, "0::0"))
{
/* any ID will be accepted */
this = identification_create(ID_ANY);
return &this->public;
}
else
{
if (strchr(string, ':') == NULL)
{
struct in_addr address;
chunk_t chunk = {(void*)&address, sizeof(address)};
if (inet_pton(AF_INET, string, &address) > 0)
{ /* is IPv4 */
this = identification_create(ID_IPV4_ADDR);
this->encoded = chunk_clone(chunk);
}
else
{ /* not IPv4, mostly FQDN */
this = identification_create(ID_FQDN);
this->encoded.len = strlen(string);
if (this->encoded.len)
{
this->encoded.ptr = strdup(string);
}
}
return &this->public;
}
else
{
struct in6_addr address;
chunk_t chunk = {(void*)&address, sizeof(address)};
if (inet_pton(AF_INET6, string, &address) > 0)
{ /* is IPv6 */
this = identification_create(ID_IPV6_ADDR);
this->encoded = chunk_clone(chunk);
}
else
{ /* not IPv4/6 fallback to KEY_ID */
this = identification_create(ID_KEY_ID);
this->encoded.len = strlen(string);
if (this->encoded.len)
{
this->encoded.ptr = strdup(string);
}
}
return &this->public;
}
}
}
else
{
if (*string == '@')
{
if (*(string + 1) == '#')
{
this = identification_create(ID_KEY_ID);
string += 2;
this->encoded = chunk_from_hex(
chunk_create(string, strlen(string)), NULL);
return &this->public;
}
else
{
this = identification_create(ID_FQDN);
string += 1;
this->encoded.len = strlen(string);
if (this->encoded.len)
{
this->encoded.ptr = strdup(string);
}
return &this->public;
}
}
else
{
this = identification_create(ID_RFC822_ADDR);
this->encoded.len = strlen(string);
if (this->encoded.len)
{
this->encoded.ptr = strdup(string);
}
return &this->public;
}
}
}
/*
* Described in header.
*/
identification_t * identification_create_from_data(chunk_t data)
{
char buf[data.len + 1];
/* use string constructor */
snprintf(buf, sizeof(buf), "%.*s", data.len, data.ptr);
return identification_create_from_string(buf);
}
/*
* Described in header.
*/
identification_t *identification_create_from_encoding(id_type_t type,
chunk_t encoded)
{
private_identification_t *this = identification_create(type);
/* apply encoded chunk */
if (type != ID_ANY)
{
this->encoded = chunk_clone(encoded);
}
return &(this->public);
}
/*
* Described in header.
*/
identification_t *identification_create_from_sockaddr(sockaddr_t *sockaddr)
{
switch (sockaddr->sa_family)
{
case AF_INET:
{
struct in_addr *addr = &(((struct sockaddr_in*)sockaddr)->sin_addr);
return identification_create_from_encoding(ID_IPV4_ADDR,
chunk_create((u_char*)addr, sizeof(struct in_addr)));
}
case AF_INET6:
{
struct in6_addr *addr = &(((struct sockaddr_in6*)sockaddr)->sin6_addr);
return identification_create_from_encoding(ID_IPV6_ADDR,
chunk_create((u_char*)addr, sizeof(struct in6_addr)));
}
default:
{
private_identification_t *this = identification_create(ID_ANY);
return &(this->public);
}
}
}
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