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|
/*
* Copyright (C) 2000-2013 Free Software Foundation, Inc.
*
* This file is part of LIBTASN1.
*
* The LIBTASN1 library is free software; you can redistribute it
* and/or modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA
*/
/*****************************************************/
/* File: element.c */
/* Description: Functions with the read and write */
/* functions. */
/*****************************************************/
#include <int.h>
#include "parser_aux.h"
#include <gstr.h>
#include "structure.h"
#include "element.h"
void
_asn1_hierarchical_name (asn1_node node, char *name, int name_size)
{
asn1_node p;
char tmp_name[64];
p = node;
name[0] = 0;
while (p != NULL)
{
if (p->name[0] != 0)
{
_asn1_str_cpy (tmp_name, sizeof (tmp_name), name),
_asn1_str_cpy (name, name_size, p->name);
_asn1_str_cat (name, name_size, ".");
_asn1_str_cat (name, name_size, tmp_name);
}
p = _asn1_find_up (p);
}
if (name[0] == 0)
_asn1_str_cpy (name, name_size, "ROOT");
}
/******************************************************************/
/* Function : _asn1_convert_integer */
/* Description: converts an integer from a null terminated string */
/* to der decoding. The convertion from a null */
/* terminated string to an integer is made with */
/* the 'strtol' function. */
/* Parameters: */
/* value: null terminated string to convert. */
/* value_out: convertion result (memory must be already */
/* allocated). */
/* value_out_size: number of bytes of value_out. */
/* len: number of significant byte of value_out. */
/* Return: ASN1_MEM_ERROR or ASN1_SUCCESS */
/******************************************************************/
int
_asn1_convert_integer (const unsigned char *value, unsigned char *value_out,
int value_out_size, int *len)
{
char negative;
unsigned char val[SIZEOF_UNSIGNED_LONG_INT];
long valtmp;
int k, k2;
valtmp = _asn1_strtol (value, NULL, 10);
for (k = 0; k < SIZEOF_UNSIGNED_LONG_INT; k++)
{
val[SIZEOF_UNSIGNED_LONG_INT - k - 1] = (valtmp >> (8 * k)) & 0xFF;
}
if (val[0] & 0x80)
negative = 1;
else
negative = 0;
for (k = 0; k < SIZEOF_UNSIGNED_LONG_INT - 1; k++)
{
if (negative && (val[k] != 0xFF))
break;
else if (!negative && val[k])
break;
}
if ((negative && !(val[k] & 0x80)) || (!negative && (val[k] & 0x80)))
k--;
*len = SIZEOF_UNSIGNED_LONG_INT - k;
if (SIZEOF_UNSIGNED_LONG_INT - k > value_out_size)
/* VALUE_OUT is too short to contain the value conversion */
return ASN1_MEM_ERROR;
for (k2 = k; k2 < SIZEOF_UNSIGNED_LONG_INT; k2++)
value_out[k2 - k] = val[k2];
#if 0
printf ("_asn1_convert_integer: valueIn=%s, lenOut=%d", value, *len);
for (k = 0; k < SIZEOF_UNSIGNED_LONG_INT; k++)
printf (", vOut[%d]=%d", k, value_out[k]);
printf ("\n");
#endif
return ASN1_SUCCESS;
}
int
_asn1_append_sequence_set (asn1_node node)
{
asn1_node p, p2;
char temp[10];
long n;
if (!node || !(node->down))
return ASN1_GENERIC_ERROR;
p = node->down;
while ((type_field (p->type) == ASN1_ETYPE_TAG)
|| (type_field (p->type) == ASN1_ETYPE_SIZE))
p = p->right;
p2 = _asn1_copy_structure3 (p);
while (p->right)
p = p->right;
_asn1_set_right (p, p2);
if (p->name[0] == 0)
_asn1_str_cpy (temp, sizeof (temp), "?1");
else
{
n = strtol (p->name + 1, NULL, 0);
n++;
temp[0] = '?';
_asn1_ltostr (n, temp + 1);
}
_asn1_set_name (p2, temp);
/* p2->type |= CONST_OPTION; */
return ASN1_SUCCESS;
}
/**
* asn1_write_value:
* @node_root: pointer to a structure
* @name: the name of the element inside the structure that you want to set.
* @ivalue: vector used to specify the value to set. If len is >0,
* VALUE must be a two's complement form integer. if len=0 *VALUE
* must be a null terminated string with an integer value.
* @len: number of bytes of *value to use to set the value:
* value[0]..value[len-1] or 0 if value is a null terminated string
*
* Set the value of one element inside a structure.
*
* If an element is OPTIONAL and you want to delete it, you must use
* the value=NULL and len=0. Using "pkix.asn":
*
* result=asn1_write_value(cert, "tbsCertificate.issuerUniqueID",
* NULL, 0);
*
* Description for each type:
*
* INTEGER: VALUE must contain a two's complement form integer.
*
* value[0]=0xFF , len=1 -> integer=-1.
* value[0]=0xFF value[1]=0xFF , len=2 -> integer=-1.
* value[0]=0x01 , len=1 -> integer= 1.
* value[0]=0x00 value[1]=0x01 , len=2 -> integer= 1.
* value="123" , len=0 -> integer= 123.
*
* ENUMERATED: As INTEGER (but only with not negative numbers).
*
* BOOLEAN: VALUE must be the null terminated string "TRUE" or
* "FALSE" and LEN != 0.
*
* value="TRUE" , len=1 -> boolean=TRUE.
* value="FALSE" , len=1 -> boolean=FALSE.
*
* OBJECT IDENTIFIER: VALUE must be a null terminated string with
* each number separated by a dot (e.g. "1.2.3.543.1"). LEN != 0.
*
* value="1 2 840 10040 4 3" , len=1 -> OID=dsa-with-sha.
*
* UTCTime: VALUE must be a null terminated string in one of these
* formats: "YYMMDDhhmmssZ", "YYMMDDhhmmssZ",
* "YYMMDDhhmmss+hh'mm'", "YYMMDDhhmmss-hh'mm'",
* "YYMMDDhhmm+hh'mm'", or "YYMMDDhhmm-hh'mm'". LEN != 0.
*
* value="9801011200Z" , len=1 -> time=Jannuary 1st, 1998
* at 12h 00m Greenwich Mean Time
*
* GeneralizedTime: VALUE must be in one of this format:
* "YYYYMMDDhhmmss.sZ", "YYYYMMDDhhmmss.sZ",
* "YYYYMMDDhhmmss.s+hh'mm'", "YYYYMMDDhhmmss.s-hh'mm'",
* "YYYYMMDDhhmm+hh'mm'", or "YYYYMMDDhhmm-hh'mm'" where ss.s
* indicates the seconds with any precision like "10.1" or "01.02".
* LEN != 0
*
* value="2001010112001.12-0700" , len=1 -> time=Jannuary
* 1st, 2001 at 12h 00m 01.12s Pacific Daylight Time
*
* OCTET STRING: VALUE contains the octet string and LEN is the
* number of octets.
*
* value="$\backslash$x01$\backslash$x02$\backslash$x03" ,
* len=3 -> three bytes octet string
*
* GeneralString: VALUE contains the generalstring and LEN is the
* number of octets.
*
* value="$\backslash$x01$\backslash$x02$\backslash$x03" ,
* len=3 -> three bytes generalstring
*
* BIT STRING: VALUE contains the bit string organized by bytes and
* LEN is the number of bits.
*
* value="$\backslash$xCF" , len=6 -> bit string="110011" (six
* bits)
*
* CHOICE: if NAME indicates a choice type, VALUE must specify one of
* the alternatives with a null terminated string. LEN != 0. Using
* "pkix.asn"\:
*
* result=asn1_write_value(cert,
* "certificate1.tbsCertificate.subject", "rdnSequence",
* 1);
*
* ANY: VALUE indicates the der encoding of a structure. LEN != 0.
*
* SEQUENCE OF: VALUE must be the null terminated string "NEW" and
* LEN != 0. With this instruction another element is appended in
* the sequence. The name of this element will be "?1" if it's the
* first one, "?2" for the second and so on.
*
* Using "pkix.asn"\:
*
* result=asn1_write_value(cert,
* "certificate1.tbsCertificate.subject.rdnSequence", "NEW", 1);
*
* SET OF: the same as SEQUENCE OF. Using "pkix.asn":
*
* result=asn1_write_value(cert,
* "tbsCertificate.subject.rdnSequence.?LAST", "NEW", 1);
*
* Returns: %ASN1_SUCCESS if the value was set,
* %ASN1_ELEMENT_NOT_FOUND if @name is not a valid element, and
* %ASN1_VALUE_NOT_VALID if @ivalue has a wrong format.
**/
int
asn1_write_value (asn1_node node_root, const char *name,
const void *ivalue, int len)
{
asn1_node node, p, p2;
unsigned char *temp, *value_temp = NULL, *default_temp = NULL;
int len2, k, k2, negative;
size_t i;
const unsigned char *value = ivalue;
unsigned int type;
node = asn1_find_node (node_root, name);
if (node == NULL)
return ASN1_ELEMENT_NOT_FOUND;
if ((node->type & CONST_OPTION) && (value == NULL) && (len == 0))
{
asn1_delete_structure (&node);
return ASN1_SUCCESS;
}
type = type_field (node->type);
if ((type == ASN1_ETYPE_SEQUENCE_OF) && (value == NULL) && (len == 0))
{
p = node->down;
while ((type_field (p->type) == ASN1_ETYPE_TAG)
|| (type_field (p->type) == ASN1_ETYPE_SIZE))
p = p->right;
while (p->right)
asn1_delete_structure (&p->right);
return ASN1_SUCCESS;
}
switch (type)
{
case ASN1_ETYPE_BOOLEAN:
if (!_asn1_strcmp (value, "TRUE"))
{
if (node->type & CONST_DEFAULT)
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if (p->type & CONST_TRUE)
_asn1_set_value (node, NULL, 0);
else
_asn1_set_value (node, "T", 1);
}
else
_asn1_set_value (node, "T", 1);
}
else if (!_asn1_strcmp (value, "FALSE"))
{
if (node->type & CONST_DEFAULT)
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if (p->type & CONST_FALSE)
_asn1_set_value (node, NULL, 0);
else
_asn1_set_value (node, "F", 1);
}
else
_asn1_set_value (node, "F", 1);
}
else
return ASN1_VALUE_NOT_VALID;
break;
case ASN1_ETYPE_INTEGER:
case ASN1_ETYPE_ENUMERATED:
if (len == 0)
{
if ((isdigit (value[0])) || (value[0] == '-'))
{
value_temp = malloc (SIZEOF_UNSIGNED_LONG_INT);
if (value_temp == NULL)
return ASN1_MEM_ALLOC_ERROR;
_asn1_convert_integer (value, value_temp,
SIZEOF_UNSIGNED_LONG_INT, &len);
}
else
{ /* is an identifier like v1 */
if (!(node->type & CONST_LIST))
return ASN1_VALUE_NOT_VALID;
p = node->down;
while (p)
{
if (type_field (p->type) == ASN1_ETYPE_CONSTANT)
{
if (!_asn1_strcmp (p->name, value))
{
value_temp = malloc (SIZEOF_UNSIGNED_LONG_INT);
if (value_temp == NULL)
return ASN1_MEM_ALLOC_ERROR;
_asn1_convert_integer (p->value,
value_temp,
SIZEOF_UNSIGNED_LONG_INT,
&len);
break;
}
}
p = p->right;
}
if (p == NULL)
return ASN1_VALUE_NOT_VALID;
}
}
else
{ /* len != 0 */
value_temp = malloc (len);
if (value_temp == NULL)
return ASN1_MEM_ALLOC_ERROR;
memcpy (value_temp, value, len);
}
if (value_temp[0] & 0x80)
negative = 1;
else
negative = 0;
if (negative && (type_field (node->type) == ASN1_ETYPE_ENUMERATED))
{
free (value_temp);
return ASN1_VALUE_NOT_VALID;
}
for (k = 0; k < len - 1; k++)
if (negative && (value_temp[k] != 0xFF))
break;
else if (!negative && value_temp[k])
break;
if ((negative && !(value_temp[k] & 0x80)) ||
(!negative && (value_temp[k] & 0x80)))
k--;
_asn1_set_value_lv (node, value_temp + k, len - k);
if (node->type & CONST_DEFAULT)
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if ((isdigit (p->value[0])) || (p->value[0] == '-'))
{
default_temp = malloc (SIZEOF_UNSIGNED_LONG_INT);
if (default_temp == NULL)
{
free (value_temp);
return ASN1_MEM_ALLOC_ERROR;
}
_asn1_convert_integer (p->value, default_temp,
SIZEOF_UNSIGNED_LONG_INT, &len2);
}
else
{ /* is an identifier like v1 */
if (!(node->type & CONST_LIST))
{
free (value_temp);
return ASN1_VALUE_NOT_VALID;
}
p2 = node->down;
while (p2)
{
if (type_field (p2->type) == ASN1_ETYPE_CONSTANT)
{
if (!_asn1_strcmp (p2->name, p->value))
{
default_temp = malloc (SIZEOF_UNSIGNED_LONG_INT);
if (default_temp == NULL)
{
free (value_temp);
return ASN1_MEM_ALLOC_ERROR;
}
_asn1_convert_integer (p2->value,
default_temp,
SIZEOF_UNSIGNED_LONG_INT,
&len2);
break;
}
}
p2 = p2->right;
}
if (p2 == NULL)
{
free (value_temp);
return ASN1_VALUE_NOT_VALID;
}
}
if ((len - k) == len2)
{
for (k2 = 0; k2 < len2; k2++)
if (value_temp[k + k2] != default_temp[k2])
{
break;
}
if (k2 == len2)
_asn1_set_value (node, NULL, 0);
}
free (default_temp);
}
free (value_temp);
break;
case ASN1_ETYPE_OBJECT_ID:
for (i = 0; i < _asn1_strlen (value); i++)
if ((!isdigit (value[i])) && (value[i] != '.') && (value[i] != '+'))
return ASN1_VALUE_NOT_VALID;
if (node->type & CONST_DEFAULT)
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if (!_asn1_strcmp (value, p->value))
{
_asn1_set_value (node, NULL, 0);
break;
}
}
_asn1_set_value (node, value, _asn1_strlen (value) + 1);
break;
case ASN1_ETYPE_UTC_TIME:
{
len = _asn1_strlen (value);
if (len < 11)
return ASN1_VALUE_NOT_VALID;
for (k = 0; k < 10; k++)
if (!isdigit (value[k]))
return ASN1_VALUE_NOT_VALID;
switch (len)
{
case 11:
if (value[10] != 'Z')
return ASN1_VALUE_NOT_VALID;
break;
case 13:
if ((!isdigit (value[10])) || (!isdigit (value[11])) ||
(value[12] != 'Z'))
return ASN1_VALUE_NOT_VALID;
break;
case 15:
if ((value[10] != '+') && (value[10] != '-'))
return ASN1_VALUE_NOT_VALID;
for (k = 11; k < 15; k++)
if (!isdigit (value[k]))
return ASN1_VALUE_NOT_VALID;
break;
case 17:
if ((!isdigit (value[10])) || (!isdigit (value[11])))
return ASN1_VALUE_NOT_VALID;
if ((value[12] != '+') && (value[12] != '-'))
return ASN1_VALUE_NOT_VALID;
for (k = 13; k < 17; k++)
if (!isdigit (value[k]))
return ASN1_VALUE_NOT_VALID;
break;
default:
return ASN1_VALUE_NOT_FOUND;
}
_asn1_set_value (node, value, len);
}
break;
case ASN1_ETYPE_GENERALIZED_TIME:
len = _asn1_strlen (value);
_asn1_set_value (node, value, len);
break;
case ASN1_ETYPE_OCTET_STRING:
case ASN1_ETYPE_GENERALSTRING:
case ASN1_ETYPE_NUMERIC_STRING:
case ASN1_ETYPE_IA5_STRING:
case ASN1_ETYPE_TELETEX_STRING:
case ASN1_ETYPE_PRINTABLE_STRING:
case ASN1_ETYPE_UNIVERSAL_STRING:
case ASN1_ETYPE_BMP_STRING:
case ASN1_ETYPE_UTF8_STRING:
case ASN1_ETYPE_VISIBLE_STRING:
if (len == 0)
len = _asn1_strlen (value);
_asn1_set_value_lv (node, value, len);
break;
case ASN1_ETYPE_BIT_STRING:
if (len == 0)
len = _asn1_strlen (value);
asn1_length_der ((len >> 3) + 2, NULL, &len2);
temp = malloc ((len >> 3) + 2 + len2);
if (temp == NULL)
return ASN1_MEM_ALLOC_ERROR;
asn1_bit_der (value, len, temp, &len2);
_asn1_set_value_m (node, temp, len2);
temp = NULL;
break;
case ASN1_ETYPE_CHOICE:
p = node->down;
while (p)
{
if (!_asn1_strcmp (p->name, value))
{
p2 = node->down;
while (p2)
{
if (p2 != p)
{
asn1_delete_structure (&p2);
p2 = node->down;
}
else
p2 = p2->right;
}
break;
}
p = p->right;
}
if (!p)
return ASN1_ELEMENT_NOT_FOUND;
break;
case ASN1_ETYPE_ANY:
_asn1_set_value_lv (node, value, len);
break;
case ASN1_ETYPE_SEQUENCE_OF:
case ASN1_ETYPE_SET_OF:
if (_asn1_strcmp (value, "NEW"))
return ASN1_VALUE_NOT_VALID;
_asn1_append_sequence_set (node);
break;
default:
return ASN1_ELEMENT_NOT_FOUND;
break;
}
return ASN1_SUCCESS;
}
#define PUT_VALUE( ptr, ptr_size, data, data_size) \
*len = data_size; \
if (ptr_size < data_size) { \
return ASN1_MEM_ERROR; \
} else { \
memcpy( ptr, data, data_size); \
}
#define PUT_STR_VALUE( ptr, ptr_size, data) \
*len = _asn1_strlen(data) + 1; \
if (ptr_size < *len) { \
return ASN1_MEM_ERROR; \
} else { \
/* this strcpy is checked */ \
_asn1_strcpy(ptr, data); \
}
#define PUT_AS_STR_VALUE( ptr, ptr_size, data, data_size) \
*len = data_size + 1; \
if (ptr_size < *len) { \
return ASN1_MEM_ERROR; \
} else { \
/* this strcpy is checked */ \
memcpy(ptr, data, data_size); \
ptr[data_size] = 0; \
}
#define ADD_STR_VALUE( ptr, ptr_size, data) \
*len = (int) _asn1_strlen(data) + 1; \
if (ptr_size < (int) _asn1_strlen(ptr)+(*len)) { \
return ASN1_MEM_ERROR; \
} else { \
/* this strcat is checked */ \
_asn1_strcat(ptr, data); \
}
/**
* asn1_read_value:
* @root: pointer to a structure.
* @name: the name of the element inside a structure that you want to read.
* @ivalue: vector that will contain the element's content, must be a
* pointer to memory cells already allocated.
* @len: number of bytes of *value: value[0]..value[len-1]. Initialy
* holds the sizeof value.
*
* Returns the value of one element inside a structure.
*
* If an element is OPTIONAL and the function "read_value" returns
* %ASN1_ELEMENT_NOT_FOUND, it means that this element wasn't present
* in the der encoding that created the structure. The first element
* of a SEQUENCE_OF or SET_OF is named "?1". The second one "?2" and
* so on.
*
* INTEGER: VALUE will contain a two's complement form integer.
*
* integer=-1 -> value[0]=0xFF , len=1.
* integer=1 -> value[0]=0x01 , len=1.
*
* ENUMERATED: As INTEGER (but only with not negative numbers).
*
* BOOLEAN: VALUE will be the null terminated string "TRUE" or
* "FALSE" and LEN=5 or LEN=6.
*
* OBJECT IDENTIFIER: VALUE will be a null terminated string with
* each number separated by a dot (i.e. "1.2.3.543.1").
*
* LEN = strlen(VALUE)+1
*
* UTCTime: VALUE will be a null terminated string in one of these
* formats: "YYMMDDhhmmss+hh'mm'" or "YYMMDDhhmmss-hh'mm'".
* LEN=strlen(VALUE)+1.
*
* GeneralizedTime: VALUE will be a null terminated string in the
* same format used to set the value.
*
* OCTET STRING: VALUE will contain the octet string and LEN will be
* the number of octets.
*
* GeneralString: VALUE will contain the generalstring and LEN will
* be the number of octets.
*
* BIT STRING: VALUE will contain the bit string organized by bytes
* and LEN will be the number of bits.
*
* CHOICE: If NAME indicates a choice type, VALUE will specify the
* alternative selected.
*
* ANY: If NAME indicates an any type, VALUE will indicate the DER
* encoding of the structure actually used.
*
* Returns: %ASN1_SUCCESS if value is returned,
* %ASN1_ELEMENT_NOT_FOUND if @name is not a valid element,
* %ASN1_VALUE_NOT_FOUND if there isn't any value for the element
* selected, and %ASN1_MEM_ERROR if The value vector isn't big enough
* to store the result, and in this case @len will contain the number of
* bytes needed.
**/
int
asn1_read_value (asn1_node root, const char *name, void *ivalue, int *len)
{
return asn1_read_value_type (root, name, ivalue, len, NULL);
}
/**
* asn1_read_value_type:
* @root: pointer to a structure.
* @name: the name of the element inside a structure that you want to read.
* @ivalue: vector that will contain the element's content, must be a
* pointer to memory cells already allocated.
* @len: number of bytes of *value: value[0]..value[len-1]. Initialy
* holds the sizeof value.
* @etype: The type of the value read (ASN1_ETYPE)
*
* Returns the value of one element inside a structure.
*
* If an element is OPTIONAL and the function "read_value" returns
* %ASN1_ELEMENT_NOT_FOUND, it means that this element wasn't present
* in the der encoding that created the structure. The first element
* of a SEQUENCE_OF or SET_OF is named "?1". The second one "?2" and
* so on.
*
* INTEGER: VALUE will contain a two's complement form integer.
*
* integer=-1 -> value[0]=0xFF , len=1.
* integer=1 -> value[0]=0x01 , len=1.
*
* ENUMERATED: As INTEGER (but only with not negative numbers).
*
* BOOLEAN: VALUE will be the null terminated string "TRUE" or
* "FALSE" and LEN=5 or LEN=6.
*
* OBJECT IDENTIFIER: VALUE will be a null terminated string with
* each number separated by a dot (i.e. "1.2.3.543.1").
*
* LEN = strlen(VALUE)+1
*
* UTCTime: VALUE will be a null terminated string in one of these
* formats: "YYMMDDhhmmss+hh'mm'" or "YYMMDDhhmmss-hh'mm'".
* LEN=strlen(VALUE)+1.
*
* GeneralizedTime: VALUE will be a null terminated string in the
* same format used to set the value.
*
* OCTET STRING: VALUE will contain the octet string and LEN will be
* the number of octets.
*
* GeneralString: VALUE will contain the generalstring and LEN will
* be the number of octets.
*
* BIT STRING: VALUE will contain the bit string organized by bytes
* and LEN will be the number of bits.
*
* CHOICE: If NAME indicates a choice type, VALUE will specify the
* alternative selected.
*
* ANY: If NAME indicates an any type, VALUE will indicate the DER
* encoding of the structure actually used.
*
* Returns: %ASN1_SUCCESS if value is returned,
* %ASN1_ELEMENT_NOT_FOUND if @name is not a valid element,
* %ASN1_VALUE_NOT_FOUND if there isn't any value for the element
* selected, and %ASN1_MEM_ERROR if The value vector isn't big enough
* to store the result, and in this case @len will contain the number of
* bytes needed.
**/
int
asn1_read_value_type (asn1_node root, const char *name, void *ivalue,
int *len, unsigned int *etype)
{
asn1_node node, p, p2;
int len2, len3;
int value_size = *len;
unsigned char *value = ivalue;
unsigned type;
node = asn1_find_node (root, name);
if (node == NULL)
return ASN1_ELEMENT_NOT_FOUND;
type = type_field (node->type);
if ((type != ASN1_ETYPE_NULL) &&
(type != ASN1_ETYPE_CHOICE) &&
!(node->type & CONST_DEFAULT) && !(node->type & CONST_ASSIGN) &&
(node->value == NULL))
return ASN1_VALUE_NOT_FOUND;
if (etype)
*etype = type;
switch (type)
{
case ASN1_ETYPE_NULL:
PUT_STR_VALUE (value, value_size, "NULL");
break;
case ASN1_ETYPE_BOOLEAN:
if ((node->type & CONST_DEFAULT) && (node->value == NULL))
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if (p->type & CONST_TRUE)
{
PUT_STR_VALUE (value, value_size, "TRUE");
}
else
{
PUT_STR_VALUE (value, value_size, "FALSE");
}
}
else if (node->value[0] == 'T')
{
PUT_STR_VALUE (value, value_size, "TRUE");
}
else
{
PUT_STR_VALUE (value, value_size, "FALSE");
}
break;
case ASN1_ETYPE_INTEGER:
case ASN1_ETYPE_ENUMERATED:
if ((node->type & CONST_DEFAULT) && (node->value == NULL))
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
if ((isdigit (p->value[0])) || (p->value[0] == '-')
|| (p->value[0] == '+'))
{
if (_asn1_convert_integer
(p->value, value, value_size, len) != ASN1_SUCCESS)
return ASN1_MEM_ERROR;
}
else
{ /* is an identifier like v1 */
p2 = node->down;
while (p2)
{
if (type_field (p2->type) == ASN1_ETYPE_CONSTANT)
{
if (!_asn1_strcmp (p2->name, p->value))
{
if (_asn1_convert_integer
(p2->value, value, value_size,
len) != ASN1_SUCCESS)
return ASN1_MEM_ERROR;
break;
}
}
p2 = p2->right;
}
}
}
else
{
len2 = -1;
if (asn1_get_octet_der
(node->value, node->value_len, &len2, value, value_size,
len) != ASN1_SUCCESS)
return ASN1_MEM_ERROR;
}
break;
case ASN1_ETYPE_OBJECT_ID:
if (node->type & CONST_ASSIGN)
{
value[0] = 0;
p = node->down;
while (p)
{
if (type_field (p->type) == ASN1_ETYPE_CONSTANT)
{
ADD_STR_VALUE (value, value_size, p->value);
if (p->right)
{
ADD_STR_VALUE (value, value_size, ".");
}
}
p = p->right;
}
*len = _asn1_strlen (value) + 1;
}
else if ((node->type & CONST_DEFAULT) && (node->value == NULL))
{
p = node->down;
while (type_field (p->type) != ASN1_ETYPE_DEFAULT)
p = p->right;
PUT_STR_VALUE (value, value_size, p->value);
}
else
{
PUT_STR_VALUE (value, value_size, node->value);
}
break;
case ASN1_ETYPE_GENERALIZED_TIME:
case ASN1_ETYPE_UTC_TIME:
PUT_AS_STR_VALUE (value, value_size, node->value, node->value_len);
break;
case ASN1_ETYPE_OCTET_STRING:
case ASN1_ETYPE_GENERALSTRING:
case ASN1_ETYPE_NUMERIC_STRING:
case ASN1_ETYPE_IA5_STRING:
case ASN1_ETYPE_TELETEX_STRING:
case ASN1_ETYPE_PRINTABLE_STRING:
case ASN1_ETYPE_UNIVERSAL_STRING:
case ASN1_ETYPE_BMP_STRING:
case ASN1_ETYPE_UTF8_STRING:
case ASN1_ETYPE_VISIBLE_STRING:
len2 = -1;
if (asn1_get_octet_der
(node->value, node->value_len, &len2, value, value_size,
len) != ASN1_SUCCESS)
return ASN1_MEM_ERROR;
break;
case ASN1_ETYPE_BIT_STRING:
len2 = -1;
if (asn1_get_bit_der
(node->value, node->value_len, &len2, value, value_size,
len) != ASN1_SUCCESS)
return ASN1_MEM_ERROR;
break;
case ASN1_ETYPE_CHOICE:
PUT_STR_VALUE (value, value_size, node->down->name);
break;
case ASN1_ETYPE_ANY:
len3 = -1;
len2 = asn1_get_length_der (node->value, node->value_len, &len3);
if (len2 < 0)
return ASN1_DER_ERROR;
PUT_VALUE (value, value_size, node->value + len3, len2);
break;
default:
return ASN1_ELEMENT_NOT_FOUND;
break;
}
return ASN1_SUCCESS;
}
/**
* asn1_read_tag:
* @root: pointer to a structure
* @name: the name of the element inside a structure.
* @tagValue: variable that will contain the TAG value.
* @classValue: variable that will specify the TAG type.
*
* Returns the TAG and the CLASS of one element inside a structure.
* CLASS can have one of these constants: %ASN1_CLASS_APPLICATION,
* %ASN1_CLASS_UNIVERSAL, %ASN1_CLASS_PRIVATE or
* %ASN1_CLASS_CONTEXT_SPECIFIC.
*
* Returns: %ASN1_SUCCESS if successful, %ASN1_ELEMENT_NOT_FOUND if
* @name is not a valid element.
**/
int
asn1_read_tag (asn1_node root, const char *name, int *tagValue,
int *classValue)
{
asn1_node node, p, pTag;
node = asn1_find_node (root, name);
if (node == NULL)
return ASN1_ELEMENT_NOT_FOUND;
p = node->down;
/* pTag will points to the IMPLICIT TAG */
pTag = NULL;
if (node->type & CONST_TAG)
{
while (p)
{
if (type_field (p->type) == ASN1_ETYPE_TAG)
{
if ((p->type & CONST_IMPLICIT) && (pTag == NULL))
pTag = p;
else if (p->type & CONST_EXPLICIT)
pTag = NULL;
}
p = p->right;
}
}
if (pTag)
{
*tagValue = _asn1_strtoul (pTag->value, NULL, 10);
if (pTag->type & CONST_APPLICATION)
*classValue = ASN1_CLASS_APPLICATION;
else if (pTag->type & CONST_UNIVERSAL)
*classValue = ASN1_CLASS_UNIVERSAL;
else if (pTag->type & CONST_PRIVATE)
*classValue = ASN1_CLASS_PRIVATE;
else
*classValue = ASN1_CLASS_CONTEXT_SPECIFIC;
}
else
{
unsigned type = type_field (node->type);
*classValue = ASN1_CLASS_UNIVERSAL;
switch (type)
{
CASE_HANDLED_ETYPES:
*tagValue = _asn1_tags[type].tag;
break;
case ASN1_ETYPE_TAG:
case ASN1_ETYPE_CHOICE:
case ASN1_ETYPE_ANY:
*tagValue = -1;
break;
default:
break;
}
}
return ASN1_SUCCESS;
}
/**
* asn1_read_node_value:
* @node: pointer to a node.
* @data: a point to a asn1_data_node_st
*
* Returns the value a data node inside a asn1_node structure.
* The data returned should be handled as constant values.
*
* Returns: %ASN1_SUCCESS if the node exists.
**/
int
asn1_read_node_value (asn1_node node, asn1_data_node_st * data)
{
data->name = node->name;
data->value = node->value;
data->value_len = node->value_len;
data->type = type_field (node->type);
return ASN1_SUCCESS;
}
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