NAME
OBJ_nid2obj
,
OBJ_nid2ln
, OBJ_nid2sn
,
OBJ_obj2nid
, OBJ_ln2nid
,
OBJ_sn2nid
, OBJ_txt2nid
,
OBJ_txt2obj
, OBJ_obj2txt
,
OBJ_cmp
, OBJ_dup
,
OBJ_create
, OBJ_cleanup
,
i2t_ASN1_OBJECT
—
inspect and create ASN.1 object
identifiers
SYNOPSIS
#include
<openssl/objects.h>
ASN1_OBJECT *
OBJ_nid2obj
(int n);
const char *
OBJ_nid2ln
(int n);
const char *
OBJ_nid2sn
(int n);
int
OBJ_obj2nid
(const ASN1_OBJECT
*o);
int
OBJ_ln2nid
(const char *ln);
int
OBJ_sn2nid
(const char *sn);
int
OBJ_txt2nid
(const char *s);
ASN1_OBJECT *
OBJ_txt2obj
(const char *s,
int no_name);
int
OBJ_obj2txt
(char *buf,
int buf_len, const ASN1_OBJECT
*a, int no_name);
int
OBJ_cmp
(const ASN1_OBJECT *a,
const ASN1_OBJECT *b);
ASN1_OBJECT *
OBJ_dup
(const ASN1_OBJECT
*o);
int
OBJ_create
(const char *oid,
const char *sn, const char
*ln);
void
OBJ_cleanup
(void);
#include
<openssl/asn1.h>
int
i2t_ASN1_OBJECT
(char *buf,
int buf_len, ASN1_OBJECT
*a);
DESCRIPTION
The ASN.1 object utility functions process ASN1_OBJECT structures which are a representation of the ASN.1 OBJECT IDENTIFIER (OID) type. For convenience, OIDs are usually represented in source code as numeric identifiers, or NIDs. OpenSSL has an internal table of OIDs that are generated when the library is built, and their corresponding NIDs are available as defined constants. For the functions below, application code should treat all returned values — OIDs, NIDs, or names — as constants.
OBJ_nid2obj
(),
OBJ_nid2ln
(),
and
OBJ_nid2sn
()
convert the NID n to an
ASN1_OBJECT structure, its long name, and its short
name, respectively, or return NULL
if an error
occurred.
OBJ_obj2nid
(),
OBJ_ln2nid
(),
and
OBJ_sn2nid
()
return the corresponding NID for the object o, the
long name ln, or the short name
sn, respectively, or NID_undef
if an error occurred.
OBJ_txt2nid
()
returns the NID corresponding to text string s.
s can be a long name, a short name, or the numerical
representation of an object.
OBJ_txt2obj
()
converts the text string s into an
ASN1_OBJECT structure. If
no_name is 0 then long names and short names will be
interpreted as well as numerical forms. If no_name is
1 only the numerical form is acceptable.
OBJ_obj2txt
()
converts the ASN1_OBJECT a into
a textual representation. The representation is written as a NUL terminated
string to buf. At most buf_len
bytes are written, truncating the result if necessary. The total amount of
space required is returned. If no_name is 0 and the
object has a long or short name, then that will be used, otherwise the
numerical form will be used.
i2t_ASN1_OBJECT
()
is the same as OBJ_obj2txt
() with
no_name set to 0.
OBJ_cmp
()
compares a to b. If the two are
identical, 0 is returned.
OBJ_dup
()
returns a deep copy of o if o is
marked as dynamically allocated. The new object and all data contained in it
is marked as dynamically allocated. If o is not marked
as dynamically allocated, OBJ_dup
() just returns
o itself.
OBJ_create
()
adds a new object to the internal table. oid is the
numerical form of the object, sn the short name and
ln the long name. A new NID is returned for the
created object.
The new object added to the internal table and
all the data contained in it is marked as not dynamically allocated.
Consequently, retrieving it with
OBJ_nid2obj
()
or a similar function and then calling
ASN1_OBJECT_free(3) on the returned pointer will have no
effect.
OBJ_cleanup
()
cleans up the internal object table: this should be called before an
application exits if any new objects were added using
OBJ_create
().
Objects can have a short name, a long name, and a numerical
identifier (NID) associated with them. A standard set of objects is
represented in an internal table. The appropriate values are defined in the
header file
<openssl/objects.h>
.
For example, the OID for commonName has the following definitions:
#define SN_commonName "CN" #define LN_commonName "commonName" #define NID_commonName 13
New objects can be added by calling
OBJ_create
().
Table objects have certain advantages over other objects: for example their NIDs can be used in a C language switch statement. They are also static constant structures which are shared: that is there is only a single constant structure for each table object.
Objects which are not in the table have the NID value
NID_undef
.
Objects do not need to be in the internal
tables to be processed: the functions
OBJ_txt2obj
()
and OBJ_obj2txt
() can process the numerical form of
an OID.
RETURN VALUES
OBJ_nid2obj
() and
OBJ_dup
() return an
ASN1_OBJECT object or NULL
if
an error occurs.
OBJ_nid2ln
() and
OBJ_nid2sn
() return a valid string or
NULL
on error.
OBJ_obj2nid
(),
OBJ_ln2nid
(), OBJ_sn2nid
(),
and OBJ_txt2nid
() return a NID or
NID_undef
on error.
OBJ_create
() returns the new NID or
NID_undef
if an error occurs.
EXAMPLES
Create an object for commonName:
ASN1_OBJECT *o; o = OBJ_nid2obj(NID_commonName);
Check if an object is commonName:
if (OBJ_obj2nid(obj) == NID_commonName) /* Do something */
Create a new NID and initialize an object from it:
int new_nid; ASN1_OBJECT *obj; new_nid = OBJ_create("1.2.3.4", "NewOID", "New Object Identifier"); obj = OBJ_nid2obj(new_nid);
Create a new object directly:
obj = OBJ_txt2obj("1.2.3.4", 1);
SEE ALSO
BUGS
OBJ_obj2txt
() is awkward and messy to use:
it doesn't follow the convention of other OpenSSL functions where the buffer
can be set to NULL
to determine the amount of data
that should be written. Instead buf must point to a
valid buffer and buf_len should be set to a positive
value. A buffer length of 80 should be more than enough to handle any OID
encountered in practice.