ASN.1: Introduction Zdeněk Říha ASN.1  Abstract Syntax Notation 1  notation for describing abstract types and values  Defined in ITU-T X.680 … X.695  Used in many file formats, including crypto  Public keys, private keys  Certificate requests, certificates  Digital signatures, padding, encrypted files ASN.1  Allows format/storage/transmission of data  Compatible among many applications  Not dependent on HW platform  E.g. little/big endian  Not dependent on operating system  Simple & Structured types  Multiple encoding rules (methods) ASN.1 – Types ASN.1 – simple types  Integer  signed integer (there’s no unsigned integer)  Bit string  The number of bits does not have to be a multiple of 8  Octet string  an arbitrary string of octets  NULL  No data (used in parameters)  PringtableString, IA5String, UTF8String, …  Strings – the sets of characters are various  UTCTime  Time ASN.1 – OID type  Object identifier (OID)  Sequence of integer components that identify an object  Assigned in a hierarchical way  Example  sha-1WithRSAEncryption = 1.2.840.113549.1.1.5  iso(1) member-body(2) us(840) rsadsi(113549) pkcs(1) pkcs-1(1) 5 ASN.1 – structured types  SEQUENCE  an ordered collection of one or more types  SEQUENCE OF  an ordered collection of zero or more occurrences of a given type  SET  an unordered collection of one or more types  SET OF  an unordered collection of zero or more occurrences of a given type ASN.1 Encoding Rules  XML – oriented formats  XER (XML Encoding Rules)  Byte-oriented formats  BER (Basic Encoding Rules)  CER (Canonical Encoding Rules) – subset of BER  DER (Distinguished Encoding Rules) – subset of BER  Used for crypto files  Bit-oriented formats  PER (Packed Encoding Rules)  Verbose, human readable formats  GSER (Generic String Encoding Rules) BER encoding  TLV – Tag Length Value  All the data is encoded using a simple TLV format  Tag – what kind of data it is  Length – the length of the data  Value – the data itself  Example  02 01 05 [hexadecimal values]  Tag – Integer  Length of data – 1 byte  Data: (positive integer) 5 Nested data  SEQUENCE is similar to struct/record  30 09 02 01 05 04 02 FF FF 05 00  30 09 – sequence of length 9 bytes  02 01 05 – integer 5  04 02 FF FF – octet string FF FF  05 00 – NULL (no data) BER tags  Tag encoding  Class  Tag number  Bits 1-5  If all bits are 1 then the tag continues in the following byte(s) Constr ucted?classclass Tag # BER length  length >=0 && length <= 127  The length is coded directly  E.g. ’05’  Otherwise the bit 8 is set, bits 1-7 code the number of bytes that specify the length  E.g. 255 -> ‘81’ ‘FF’  E.g. 256 -> ’82’ ‘01’ ‘00’ or also ’83’ ‘00’ ‘01’ ‘00’  BER x DER  ‘80’ is “indefinite” length  Not allowed in DER BER value  The data itself  Dependent on data type  Integer: signed – e.g. 128 -> ’00 80’  Octet string: directly the data  Bit string: number of unused bits + padded bit string to a multiple of 8 bits (padding is at the end)  UTCTime: string of one of the forms First look at the binary DER file  CSCA_CZE.crt DER vs. PEM  PEM  Privacy Enhanced Mail  PEM as such not used, but formats still used  Textual formats  Practical for transport channels where full 8bit data can be damaged  PEM is base64 coded DER enveloped with  -----BEGIN SOMETHING-----  -----END SOMETHING-----  Where SOMETHING is CERTIFICATE/PKCS7/KEY… Sample PEM file  CSCA_CZE.pem ASN.1 viewers  Unber (part of asn1c)  Openssl asn1parse  ASN.1 Editor  … OpenSSL asn1parse  CSCA_CZE.crt unber  CSCA_CZE.crt Manual viewing/processing  30 82 04 f2  SEQUENCE  length 1266B  30 82 03 26  SEQUENCE  length 806B  A0 03  CONTEXT SPECIFIC 0  Length 3B  02 01 02  INTEGER: 2  CSCA_CZE.crt ASN.1 Editor  CSCA_CZE.crt ASN.1 Grammar  To understand the structure (what is the meaning of particular fields) we need ASN.1 grammar