Difference between revisions of "ASN.1"

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Abstract Syntax Notation One (ASN.1), which is defined in CCITT Recommendation X.208, is a way to specify abstract objects that will be serially transmitted. The set of ASN.1 rules for representing such objects as strings of ones and zeros is called the Distinguished Encoding Rules (DER), and is defined in CCITT Recommendation X.509, Section 8.7. These encoding methods are currently used to create the TLS certificates that are used to establish secure interchanges using HTTPS.
 
Abstract Syntax Notation One (ASN.1), which is defined in CCITT Recommendation X.208, is a way to specify abstract objects that will be serially transmitted. The set of ASN.1 rules for representing such objects as strings of ones and zeros is called the Distinguished Encoding Rules (DER), and is defined in CCITT Recommendation X.509, Section 8.7. These encoding methods are currently used to create the TLS certificates that are used to establish secure interchanges using HTTPS.
  
==Problem==
+
==Problems==
 
# Bureaucracy
 
# Bureaucracy
 
# Complexity
 
# Complexity
 +
# Extensions were added in the PKI certificate version 3 that were beyond the ability of the schema.
 +
 +
Some formats do not seem to be defined anywhere but used anyway.  For example the double brackets in this
 +
<pre>
 +
      ECPrivateKey ::= SEQUENCE {  -- RFC 5915  https://crypto.stackexchange.com/questions/48707/ecdsa-private-key-format
 +
version        INTEGER { ecPrivkeyVer1(1) } (ecPrivkeyVer1),
 +
privateKey    OCTET STRING,
 +
parameters [0] ECParameters {{ NamedCurve }} OPTIONAL,
 +
publicKey  [1] BIT STRING OPTIONAL
 +
}
 +
</pre>
 +
 
==Solution==
 
==Solution==
 
* Convert it all to json format so we don't need to spend so much effort understanding an syntax that was unnecessarily complex.
 
* Convert it all to json format so we don't need to spend so much effort understanding an syntax that was unnecessarily complex.
 
* [https://asn1.io/asn1vsx/ Visual studio editing tool]
 
* [https://asn1.io/asn1vsx/ Visual studio editing tool]
 +
Tags are the bottom 5 bits of the byte. The top two bits reference the class and the next the constructed state
 
<pre>
 
<pre>
 +
00 00 Universal
 +
01 40 Application
 +
10 80 Context Specific - heavily used in the V3 X.509 certificate
 +
11 C0 Private
 +
 +
0 00 Primitive
 +
1 20 Constructed. (and so A0 is context specific, Constructed).
 +
 
Data Types
 
Data Types
 
Tag Tag
 
Tag Tag
 
(dec) (hex) Type
 
(dec) (hex) Type
1 02 BOOLEAN
+
1 01 BOOLEAN
 
2 02 INTEGER
 
2 02 INTEGER
 
3 03 BIT STRING
 
3 03 BIT STRING
Line 23: Line 44:
 
5 05 NULL
 
5 05 NULL
 
6 06 OBJECT IDENTIFIER
 
6 06 OBJECT IDENTIFIER
 +
7      07      OBJECT DESCRIPTOR (Brief text description of an object) = string
 +
8      08      EXTERNAL, meaning not described in ASN1
 
9 09 REAL
 
9 09 REAL
 
10 0A ENUMERATED
 
10 0A ENUMERATED
 
12 0C UTF8String
 
12 0C UTF8String
16 10 & 30 * SEQUENCE and SEQUENCE OF
+
16,48 10 & 30 * SEQUENCE and SEQUENCE OF
17 11 & 31 * SET and SET OF
+
17,49 11 & 31 * SET and SET OF
18 12 NumericString
+
18 12 NumericString (0-9 and space)
19 13 PrintableString
+
19 13 PrintableString (A-Za-z0-9 space '()+,-./:=?)
 +
20 14 Telex String (T61 - obsolete)
 
21 15 VideotexString
 
21 15 VideotexString
22 16 IA5String
+
22 16 IA5String (internation ASCII)
 
23 17 UTCTime
 
23 17 UTCTime
 
24 18 GeneralizedTime
 
24 18 GeneralizedTime
 
25 19 GraphicString
 
25 19 GraphicString
26 1A VisibleString, ISO64String
+
26 1A VisibleString, ISO64String (printable ASCII + space)
 
27 1B GeneralString
 
27 1B GeneralString
 
28 1C UniversalString
 
28 1C UniversalString
 
29 1D CHARACTER STRING
 
29 1D CHARACTER STRING
 
30 1E BMPString
 
30 1E BMPString
 +
ss      8x      This is a Primitive class of type used to determine which optional element is used
 +
ss Ax This is a Constructed class of type used for extensions in certificates (ie a hack)
 
</pre>
 
</pre>
 
* [https://www.obj-sys.com/asn1tutorial/asn1only.html ASN.1 Tutorial]
 
* [https://www.obj-sys.com/asn1tutorial/asn1only.html ASN.1 Tutorial]
 +
Type BOOLEAN takes values TRUE and FALSE. Usually, the type reference for BOOLEAN describes the true state. For example: Female ::= BOOLEAN is preferable to Gender ::= BOOLEAN.
 +
 +
Type INTEGER takes any of the infinite set of integer values. Its syntax is similar to programming languages such as C or Pascal. It has an additional notation that names some of the possible values of the integer. For example,
 +
 +
  ColorType ::= INTEGER
 +
      {
 +
          red      (0)
 +
          white    (1)
 +
          blue    (2)
 +
      }
 +
indicates that the ``ColorType" is an INTEGER and its values 0, 1, and 2 are named ``red", ``white", and ``blue", respectively. The ColorType could also have any of the other valid integer values, such as 4 or -62.
 +
 +
Type BIT STRING takes values that are an ordered sequence of zero or more bits. The bit sequence is either a binary or hexadecimal string delimited by single quotes followed by B or H, respectively. For example, `11010001'B or `82DA6'H are valid values of BIT STRING. The length of the string of bits must be a multiple of four when hexadecimal is used. BIT STRING also has a form similar to INTEGER, but the numbers in parentheses indicate location in the string of bits. For example, the type notation
 +
 +
    Occupation  ::=  BIT STRING
 +
          {
 +
              clerk      (0)
 +
              editor    (1)
 +
              artist    (2)
 +
              publisher  (3)
 +
          }
 +
names the first bit ``clerk", the second bit ``editor", and so on. Strings of bits can then be written by listing the named bits that are set to 1. For example, (editor, artist) and '0110'B are two representations for the same value of ``Occupation".
 +
 +
Type OCTET STRING takes values that are an ordered sequence of zero or more eight-bit octets. The sequence is written in the same form as a BIT STRING sequence. Thus, `1101000100011010'B and `82DA'H are valid values of OCTET STRING.
  
 +
Type NULL takes only one value, NULL. It can be used as a place marker, but other alternatives are more common.
 
===Subject Name===
 
===Subject Name===
  

Latest revision as of 14:49, 26 August 2021

Full Title

Abstract Syntax Notation version 1 = ASN.1. Since there is no version 2, ASN is the typical abbreviation here.

Context

In the time before internet there was the 7 layer ISO model and a bunch of PTOs (mostly government postal and telegraphy organizations) worried by this new technology that wanted to dominate the identity layer of the internet. The result was a series of CCITT (now ITU-T) committees establish to translate the telephone industry white pages into the identity of every entity on the internet. This expanded to include X.400 series standards on electronic mail which went beyond that to create a security system base on ASN.1 X.500 series standards. The only legacy of that is the use of Distinguished Names in email directories, like Microsoft Outlook.

Abstract Syntax Notation One (ASN.1), which is defined in CCITT Recommendation X.208, is a way to specify abstract objects that will be serially transmitted. The set of ASN.1 rules for representing such objects as strings of ones and zeros is called the Distinguished Encoding Rules (DER), and is defined in CCITT Recommendation X.509, Section 8.7. These encoding methods are currently used to create the TLS certificates that are used to establish secure interchanges using HTTPS.

Problems

  1. Bureaucracy
  2. Complexity
  3. Extensions were added in the PKI certificate version 3 that were beyond the ability of the schema.

Some formats do not seem to be defined anywhere but used anyway. For example the double brackets in this

       ECPrivateKey ::= SEQUENCE {   -- RFC 5915  https://crypto.stackexchange.com/questions/48707/ecdsa-private-key-format
 version        INTEGER { ecPrivkeyVer1(1) } (ecPrivkeyVer1),
 privateKey     OCTET STRING,
 parameters [0] ECParameters {{ NamedCurve }} OPTIONAL,
 publicKey  [1] BIT STRING OPTIONAL
}

Solution

  • Convert it all to json format so we don't need to spend so much effort understanding an syntax that was unnecessarily complex.
  • Visual studio editing tool

Tags are the bottom 5 bits of the byte. The top two bits reference the class and the next the constructed state

00 00 Universal
01 40 Application
10 80 Context Specific - heavily used in the V3 X.509 certificate
11 C0 Private

0 00 Primitive
1 20 Constructed. (and so A0 is context specific, Constructed).

Data Types
Tag	Tag	
(dec) (hex)	Type
1	01	BOOLEAN
2	02	INTEGER
3	03	BIT STRING
4	04	OCTET STRING
5	05	NULL
6	06	OBJECT IDENTIFIER
7       07      OBJECT DESCRIPTOR (Brief text description of an object) = string
8       08      EXTERNAL, meaning not described in ASN1
9	09	REAL
10	0A	ENUMERATED
12	0C	UTF8String
16,48	10 & 30 *	SEQUENCE and SEQUENCE OF
17,49	11 & 31 *	SET and SET OF
18	12	NumericString (0-9 and space)
19	13	PrintableString (A-Za-z0-9 space '()+,-./:=?)
20	14	Telex String (T61 - obsolete)
21	15	VideotexString
22	16	IA5String (internation ASCII)
23	17	UTCTime
24	18	GeneralizedTime
25	19	GraphicString
26	1A	VisibleString, ISO64String (printable ASCII + space)
27	1B	GeneralString
28	1C	UniversalString
29	1D	CHARACTER STRING
30	1E	BMPString
ss      8x      This is a Primitive class of type used to determine which optional element is used
ss	Ax	This is a Constructed class of type used for extensions in certificates (ie a hack)

Type BOOLEAN takes values TRUE and FALSE. Usually, the type reference for BOOLEAN describes the true state. For example: Female ::= BOOLEAN is preferable to Gender ::= BOOLEAN.

Type INTEGER takes any of the infinite set of integer values. Its syntax is similar to programming languages such as C or Pascal. It has an additional notation that names some of the possible values of the integer. For example,

  ColorType ::= INTEGER
      {
         red      (0)
         white    (1)
         blue     (2)
      }

indicates that the ``ColorType" is an INTEGER and its values 0, 1, and 2 are named ``red", ``white", and ``blue", respectively. The ColorType could also have any of the other valid integer values, such as 4 or -62.

Type BIT STRING takes values that are an ordered sequence of zero or more bits. The bit sequence is either a binary or hexadecimal string delimited by single quotes followed by B or H, respectively. For example, `11010001'B or `82DA6'H are valid values of BIT STRING. The length of the string of bits must be a multiple of four when hexadecimal is used. BIT STRING also has a form similar to INTEGER, but the numbers in parentheses indicate location in the string of bits. For example, the type notation

   Occupation  ::=  BIT STRING
         {
             clerk      (0)
             editor     (1)
             artist     (2)
             publisher  (3)
         }

names the first bit ``clerk", the second bit ``editor", and so on. Strings of bits can then be written by listing the named bits that are set to 1. For example, (editor, artist) and '0110'B are two representations for the same value of ``Occupation".

Type OCTET STRING takes values that are an ordered sequence of zero or more eight-bit octets. The sequence is written in the same form as a BIT STRING sequence. Thus, `1101000100011010'B and `82DA'H are valid values of OCTET STRING.

Type NULL takes only one value, NULL. It can be used as a place marker, but other alternatives are more common.

Subject Name

The subject field of a PKCS #10 certificate request contains the distinguished name of the entity requesting the certificate.

CertificationRequestInfo ::= SEQUENCE 
{
  version                 CertificationRequestInfoVersion,
  subject                 Name,
  subjectPublicKeyInfo    SubjectPublicKeyInfo,
  attributes              [0] IMPLICIT Attributes
}

The distinguished name consists of a sequence of relative distinguished names (RDNs). Each RDN consists of a set of attributes, and each attribute consists of an object identifier and a value. The data type of the value is identified by the DirectoryString structure.

Name ::= SEQUENCE OF RelativeDistinguishedName
RelativeDistinguishedName ::= SET OF AttributeTypeValue
AttributeTypeValue ::= SEQUENCE 
{
  type       EncodedObjectID,
  value      ANY 
}
DirectoryString ::= CHOICE  
{
  teletexString           TeletexString (SIZE (1..MAX)),
  printableString         PrintableString (SIZE (1..MAX)),
  universalString         UniversalString (SIZE (1..MAX)),
  utf8String              UTF8String (SIZE (1..MAX)),
  bmpString               BMPString (SIZE (1..MAX)) 
}

For more information, see https://docs.microsoft.com/en-us/windows/win32/seccertenroll/subject-names

References