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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 | #ifndef H_RPMPGP
#define H_RPMPGP
/** \ingroup rpmpgp
* \file rpmio/rpmpgp.h
*
* OpenPGP constants and structures from RFC-2440.
*
* Text from RFC-2440 in comments is
* Copyright (C) The Internet Society (1998). All Rights Reserved.
*/
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <rpm/rpmtypes.h>
#include <rpm/rpmstring.h>
#ifdef __cplusplus
extern "C" {
#endif
/** \ingroup rpmpgp
*/
typedef struct DIGEST_CTX_s * DIGEST_CTX;
typedef struct rpmDigestBundle_s * rpmDigestBundle;
/** \ingroup rpmpgp
*/
typedef struct pgpDig_s * pgpDig;
/** \ingroup rpmpgp
*/
typedef struct pgpDigParams_s * pgpDigParams;
typedef uint8_t pgpKeyID_t[8];
typedef uint8_t pgpTime_t[4];
/** \ingroup rpmpgp
* 4.3. Packet Tags
*
* The packet tag denotes what type of packet the body holds. Note that
* old format headers can only have tags less than 16, whereas new
* format headers can have tags as great as 63.
*/
typedef enum pgpTag_e {
PGPTAG_RESERVED = 0, /*!< Reserved/Invalid */
PGPTAG_PUBLIC_SESSION_KEY = 1, /*!< Public-Key Encrypted Session Key */
PGPTAG_SIGNATURE = 2, /*!< Signature */
PGPTAG_SYMMETRIC_SESSION_KEY= 3, /*!< Symmetric-Key Encrypted Session Key*/
PGPTAG_ONEPASS_SIGNATURE = 4, /*!< One-Pass Signature */
PGPTAG_SECRET_KEY = 5, /*!< Secret Key */
PGPTAG_PUBLIC_KEY = 6, /*!< Public Key */
PGPTAG_SECRET_SUBKEY = 7, /*!< Secret Subkey */
PGPTAG_COMPRESSED_DATA = 8, /*!< Compressed Data */
PGPTAG_SYMMETRIC_DATA = 9, /*!< Symmetrically Encrypted Data */
PGPTAG_MARKER = 10, /*!< Marker */
PGPTAG_LITERAL_DATA = 11, /*!< Literal Data */
PGPTAG_TRUST = 12, /*!< Trust */
PGPTAG_USER_ID = 13, /*!< User ID */
PGPTAG_PUBLIC_SUBKEY = 14, /*!< Public Subkey */
PGPTAG_COMMENT_OLD = 16, /*!< Comment (from OpenPGP draft) */
PGPTAG_PHOTOID = 17, /*!< PGP's photo ID */
PGPTAG_ENCRYPTED_MDC = 18, /*!< Integrity protected encrypted data */
PGPTAG_MDC = 19, /*!< Manipulaion detection code packet */
PGPTAG_PRIVATE_60 = 60, /*!< Private or Experimental Values */
PGPTAG_COMMENT = 61, /*!< Comment */
PGPTAG_PRIVATE_62 = 62, /*!< Private or Experimental Values */
PGPTAG_CONTROL = 63 /*!< Control (GPG) */
} pgpTag;
/** \ingroup rpmpgp
* 5.1. Public-Key Encrypted Session Key Packets (Tag 1)
*
* A Public-Key Encrypted Session Key packet holds the session key used
* to encrypt a message. Zero or more Encrypted Session Key packets
* (either Public-Key or Symmetric-Key) may precede a Symmetrically
* Encrypted Data Packet, which holds an encrypted message. The message
* is encrypted with the session key, and the session key is itself
* encrypted and stored in the Encrypted Session Key packet(s). The
* Symmetrically Encrypted Data Packet is preceded by one Public-Key
* Encrypted Session Key packet for each OpenPGP key to which the
* message is encrypted. The recipient of the message finds a session
* key that is encrypted to their public key, decrypts the session key,
* and then uses the session key to decrypt the message.
*
* The body of this packet consists of:
* - A one-octet number giving the version number of the packet type.
* The currently defined value for packet version is 3. An
* implementation should accept, but not generate a version of 2,
* which is equivalent to V3 in all other respects.
* - An eight-octet number that gives the key ID of the public key
* that the session key is encrypted to.
* - A one-octet number giving the public key algorithm used.
* - A string of octets that is the encrypted session key. This string
* takes up the remainder of the packet, and its contents are
* dependent on the public key algorithm used.
*
* Algorithm Specific Fields for RSA encryption
* - multiprecision integer (MPI) of RSA encrypted value m**e mod n.
*
* Algorithm Specific Fields for Elgamal encryption:
* - MPI of Elgamal (Diffie-Hellman) value g**k mod p.
* - MPI of Elgamal (Diffie-Hellman) value m * y**k mod p.
*/
typedef struct pgpPktPubkey_s {
uint8_t version; /*!< version number (generate 3, accept 2). */
pgpKeyID_t keyid; /*!< key ID of the public key for session key. */
uint8_t algo; /*!< public key algorithm used. */
} pgpPktPubkey;
/** \ingroup rpmpgp
* 5.2.1. Signature Types
*
* There are a number of possible meanings for a signature, which are
* specified in a signature type octet in any given signature.
*/
typedef enum pgpSigType_e {
PGPSIGTYPE_BINARY = 0x00, /*!< Binary document */
PGPSIGTYPE_TEXT = 0x01, /*!< Canonical text document */
PGPSIGTYPE_STANDALONE = 0x02, /*!< Standalone */
PGPSIGTYPE_GENERIC_CERT = 0x10,
/*!< Generic certification of a User ID & Public Key */
PGPSIGTYPE_PERSONA_CERT = 0x11,
/*!< Persona certification of a User ID & Public Key */
PGPSIGTYPE_CASUAL_CERT = 0x12,
/*!< Casual certification of a User ID & Public Key */
PGPSIGTYPE_POSITIVE_CERT = 0x13,
/*!< Positive certification of a User ID & Public Key */
PGPSIGTYPE_SUBKEY_BINDING = 0x18, /*!< Subkey Binding */
PGPSIGTYPE_SIGNED_KEY = 0x1F, /*!< Signature directly on a key */
PGPSIGTYPE_KEY_REVOKE = 0x20, /*!< Key revocation */
PGPSIGTYPE_SUBKEY_REVOKE = 0x28, /*!< Subkey revocation */
PGPSIGTYPE_CERT_REVOKE = 0x30, /*!< Certification revocation */
PGPSIGTYPE_TIMESTAMP = 0x40 /*!< Timestamp */
} pgpSigType;
/** \ingroup rpmpgp
* 9.1. Public Key Algorithms
*
\verbatim
ID Algorithm
-- ---------
1 - RSA (Encrypt or Sign)
2 - RSA Encrypt-Only
3 - RSA Sign-Only
16 - Elgamal (Encrypt-Only), see [ELGAMAL]
17 - DSA (Digital Signature Standard)
18 - Reserved for Elliptic Curve
19 - Reserved for ECDSA
20 - Elgamal (Encrypt or Sign)
21 - Reserved for Diffie-Hellman (X9.42,
as defined for IETF-S/MIME)
100 to 110 - Private/Experimental algorithm.
\endverbatim
*
* Implementations MUST implement DSA for signatures, and Elgamal for
* encryption. Implementations SHOULD implement RSA keys.
* Implementations MAY implement any other algorithm.
*/
typedef enum pgpPubkeyAlgo_e {
PGPPUBKEYALGO_RSA = 1, /*!< RSA */
PGPPUBKEYALGO_RSA_ENCRYPT = 2, /*!< RSA(Encrypt-Only) */
PGPPUBKEYALGO_RSA_SIGN = 3, /*!< RSA(Sign-Only) */
PGPPUBKEYALGO_ELGAMAL_ENCRYPT = 16, /*!< Elgamal(Encrypt-Only) */
PGPPUBKEYALGO_DSA = 17, /*!< DSA */
PGPPUBKEYALGO_EC = 18, /*!< Elliptic Curve */
PGPPUBKEYALGO_ECDSA = 19, /*!< ECDSA */
PGPPUBKEYALGO_ELGAMAL = 20, /*!< Elgamal */
PGPPUBKEYALGO_DH = 21 /*!< Diffie-Hellman (X9.42) */
} pgpPubkeyAlgo;
/** \ingroup rpmpgp
* 9.2. Symmetric Key Algorithms
*
\verbatim
ID Algorithm
-- ---------
0 - Plaintext or unencrypted data
1 - IDEA [IDEA]
2 - Triple-DES (DES-EDE, as per spec -
168 bit key derived from 192)
3 - CAST5 (128 bit key, as per RFC 2144)
4 - Blowfish (128 bit key, 16 rounds) [BLOWFISH]
5 - SAFER-SK128 (13 rounds) [SAFER]
6 - Reserved for DES/SK
7 - Reserved for AES with 128-bit key
8 - Reserved for AES with 192-bit key
9 - Reserved for AES with 256-bit key
100 to 110 - Private/Experimental algorithm.
\endverbatim
*
* Implementations MUST implement Triple-DES. Implementations SHOULD
* implement IDEA and CAST5. Implementations MAY implement any other
* algorithm.
*/
typedef enum pgpSymkeyAlgo_e {
PGPSYMKEYALGO_PLAINTEXT = 0, /*!< Plaintext */
PGPSYMKEYALGO_IDEA = 1, /*!< IDEA */
PGPSYMKEYALGO_TRIPLE_DES = 2, /*!< 3DES */
PGPSYMKEYALGO_CAST5 = 3, /*!< CAST5 */
PGPSYMKEYALGO_BLOWFISH = 4, /*!< BLOWFISH */
PGPSYMKEYALGO_SAFER = 5, /*!< SAFER */
PGPSYMKEYALGO_DES_SK = 6, /*!< DES/SK */
PGPSYMKEYALGO_AES_128 = 7, /*!< AES(128-bit key) */
PGPSYMKEYALGO_AES_192 = 8, /*!< AES(192-bit key) */
PGPSYMKEYALGO_AES_256 = 9, /*!< AES(256-bit key) */
PGPSYMKEYALGO_TWOFISH = 10, /*!< TWOFISH(256-bit key) */
PGPSYMKEYALGO_NOENCRYPT = 110 /*!< no encryption */
} pgpSymkeyAlgo;
/** \ingroup rpmpgp
* 9.3. Compression Algorithms
*
\verbatim
ID Algorithm
-- ---------
0 - Uncompressed
1 - ZIP (RFC 1951)
2 - ZLIB (RFC 1950)
100 to 110 - Private/Experimental algorithm.
\endverbatim
*
* Implementations MUST implement uncompressed data. Implementations
* SHOULD implement ZIP. Implementations MAY implement ZLIB.
*/
typedef enum pgpCompressAlgo_e {
PGPCOMPRESSALGO_NONE = 0, /*!< Uncompressed */
PGPCOMPRESSALGO_ZIP = 1, /*!< ZIP */
PGPCOMPRESSALGO_ZLIB = 2, /*!< ZLIB */
PGPCOMPRESSALGO_BZIP2 = 3 /*!< BZIP2 */
} pgpCompressAlgo;
/** \ingroup rpmpgp
* 9.4. Hash Algorithms
*
\verbatim
ID Algorithm Text Name
-- --------- ---- ----
1 - MD5 "MD5"
2 - SHA-1 "SHA1"
3 - RIPE-MD/160 "RIPEMD160"
4 - Reserved for double-width SHA (experimental)
5 - MD2 "MD2"
6 - Reserved for TIGER/192 "TIGER192"
7 - Reserved for HAVAL (5 pass, 160-bit) "HAVAL-5-160"
8 - SHA-256 "SHA256"
9 - SHA-384 "SHA384"
10 - SHA-512 "SHA512"
11 - SHA-224 "SHA224"
100 to 110 - Private/Experimental algorithm.
\endverbatim
*
* Implementations MUST implement SHA-1. Implementations SHOULD
* implement MD5.
*/
typedef enum pgpHashAlgo_e {
PGPHASHALGO_MD5 = 1, /*!< MD5 */
PGPHASHALGO_SHA1 = 2, /*!< SHA1 */
PGPHASHALGO_RIPEMD160 = 3, /*!< RIPEMD160 */
PGPHASHALGO_MD2 = 5, /*!< MD2 */
PGPHASHALGO_TIGER192 = 6, /*!< TIGER192 */
PGPHASHALGO_HAVAL_5_160 = 7, /*!< HAVAL-5-160 */
PGPHASHALGO_SHA256 = 8, /*!< SHA256 */
PGPHASHALGO_SHA384 = 9, /*!< SHA384 */
PGPHASHALGO_SHA512 = 10, /*!< SHA512 */
PGPHASHALGO_SHA224 = 11, /*!< SHA224 */
} pgpHashAlgo;
/** \ingroup rpmpgp
* 5.2.2. Version 3 Signature Packet Format
*
* The body of a version 3 Signature Packet contains:
* - One-octet version number (3).
* - One-octet length of following hashed material. MUST be 5.
* - One-octet signature type.
* - Four-octet creation time.
* - Eight-octet key ID of signer.
* - One-octet public key algorithm.
* - One-octet hash algorithm.
* - Two-octet field holding left 16 bits of signed hash value.
* - One or more multi-precision integers comprising the signature.
*
* Algorithm Specific Fields for RSA signatures:
* - multiprecision integer (MPI) of RSA signature value m**d.
*
* Algorithm Specific Fields for DSA signatures:
* - MPI of DSA value r.
* - MPI of DSA value s.
*/
typedef struct pgpPktSigV3_s {
uint8_t version; /*!< version number (3). */
uint8_t hashlen; /*!< length of following hashed material. MUST be 5. */
uint8_t sigtype; /*!< signature type. */
pgpTime_t time; /*!< 4 byte creation time. */
pgpKeyID_t signid; /*!< key ID of signer. */
uint8_t pubkey_algo; /*!< public key algorithm. */
uint8_t hash_algo; /*!< hash algorithm. */
uint8_t signhash16[2]; /*!< left 16 bits of signed hash value. */
} * pgpPktSigV3;
/** \ingroup rpmpgp
* 5.2.3. Version 4 Signature Packet Format
*
* The body of a version 4 Signature Packet contains:
* - One-octet version number (4).
* - One-octet signature type.
* - One-octet public key algorithm.
* - One-octet hash algorithm.
* - Two-octet scalar octet count for following hashed subpacket
* data. Note that this is the length in octets of all of the hashed
* subpackets; a pointer incremented by this number will skip over
* the hashed subpackets.
* - Hashed subpacket data. (zero or more subpackets)
* - Two-octet scalar octet count for following unhashed subpacket
* data. Note that this is the length in octets of all of the
* unhashed subpackets; a pointer incremented by this number will
* skip over the unhashed subpackets.
* - Unhashed subpacket data. (zero or more subpackets)
* - Two-octet field holding left 16 bits of signed hash value.
* - One or more multi-precision integers comprising the signature.
*/
typedef struct pgpPktSigV4_s {
uint8_t version; /*!< version number (4). */
uint8_t sigtype; /*!< signature type. */
uint8_t pubkey_algo; /*!< public key algorithm. */
uint8_t hash_algo; /*!< hash algorithm. */
uint8_t hashlen[2]; /*!< length of following hashed material. */
} * pgpPktSigV4;
/** \ingroup rpmpgp
* 5.2.3.1. Signature Subpacket Specification
*
* The subpacket fields consist of zero or more signature subpackets.
* Each set of subpackets is preceded by a two-octet scalar count of the
* length of the set of subpackets.
*
* Each subpacket consists of a subpacket header and a body. The header
* consists of:
* - the subpacket length (1, 2, or 5 octets)
* - the subpacket type (1 octet)
* and is followed by the subpacket specific data.
*
* The length includes the type octet but not this length. Its format is
* similar to the "new" format packet header lengths, but cannot have
* partial body lengths. That is:
\verbatim
if the 1st octet < 192, then
lengthOfLength = 1
subpacketLen = 1st_octet
if the 1st octet >= 192 and < 255, then
lengthOfLength = 2
subpacketLen = ((1st_octet - 192) << 8) + (2nd_octet) + 192
if the 1st octet = 255, then
lengthOfLength = 5
subpacket length = [four-octet scalar starting at 2nd_octet]
\endverbatim
*
* The value of the subpacket type octet may be:
*
\verbatim
2 = signature creation time
3 = signature expiration time
4 = exportable certification
5 = trust signature
6 = regular expression
7 = revocable
9 = key expiration time
10 = placeholder for backward compatibility
11 = preferred symmetric algorithms
12 = revocation key
16 = issuer key ID
20 = notation data
21 = preferred hash algorithms
22 = preferred compression algorithms
23 = key server preferences
24 = preferred key server
25 = primary user id
26 = policy URL
27 = key flags
28 = signer's user id
29 = reason for revocation
100 to 110 = internal or user-defined
\endverbatim
*
* An implementation SHOULD ignore any subpacket of a type that it does
* not recognize.
*
* Bit 7 of the subpacket type is the "critical" bit. If set, it
* denotes that the subpacket is one that is critical for the evaluator
* of the signature to recognize. If a subpacket is encountered that is
* marked critical but is unknown to the evaluating software, the
* evaluator SHOULD consider the signature to be in error.
*/
typedef enum pgpSubType_e {
PGPSUBTYPE_NONE = 0, /*!< none */
PGPSUBTYPE_SIG_CREATE_TIME = 2, /*!< signature creation time */
PGPSUBTYPE_SIG_EXPIRE_TIME = 3, /*!< signature expiration time */
PGPSUBTYPE_EXPORTABLE_CERT = 4, /*!< exportable certification */
PGPSUBTYPE_TRUST_SIG = 5, /*!< trust signature */
PGPSUBTYPE_REGEX = 6, /*!< regular expression */
PGPSUBTYPE_REVOCABLE = 7, /*!< revocable */
PGPSUBTYPE_KEY_EXPIRE_TIME = 9, /*!< key expiration time */
PGPSUBTYPE_ARR = 10, /*!< additional recipient request */
PGPSUBTYPE_PREFER_SYMKEY = 11, /*!< preferred symmetric algorithms */
PGPSUBTYPE_REVOKE_KEY = 12, /*!< revocation key */
PGPSUBTYPE_ISSUER_KEYID = 16, /*!< issuer key ID */
PGPSUBTYPE_NOTATION = 20, /*!< notation data */
PGPSUBTYPE_PREFER_HASH = 21, /*!< preferred hash algorithms */
PGPSUBTYPE_PREFER_COMPRESS = 22, /*!< preferred compression algorithms */
PGPSUBTYPE_KEYSERVER_PREFERS= 23, /*!< key server preferences */
PGPSUBTYPE_PREFER_KEYSERVER = 24, /*!< preferred key server */
PGPSUBTYPE_PRIMARY_USERID = 25, /*!< primary user id */
PGPSUBTYPE_POLICY_URL = 26, /*!< policy URL */
PGPSUBTYPE_KEY_FLAGS = 27, /*!< key flags */
PGPSUBTYPE_SIGNER_USERID = 28, /*!< signer's user id */
PGPSUBTYPE_REVOKE_REASON = 29, /*!< reason for revocation */
PGPSUBTYPE_FEATURES = 30, /*!< feature flags (gpg) */
PGPSUBTYPE_EMBEDDED_SIG = 32, /*!< embedded signature (gpg) */
PGPSUBTYPE_INTERNAL_100 = 100, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_101 = 101, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_102 = 102, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_103 = 103, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_104 = 104, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_105 = 105, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_106 = 106, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_107 = 107, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_108 = 108, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_109 = 109, /*!< internal or user-defined */
PGPSUBTYPE_INTERNAL_110 = 110, /*!< internal or user-defined */
PGPSUBTYPE_CRITICAL = 128 /*!< critical subpacket marker */
} pgpSubType;
/** \ingroup rpmpgp
* 5.2. Signature Packet (Tag 2)
*
* A signature packet describes a binding between some public key and
* some data. The most common signatures are a signature of a file or a
* block of text, and a signature that is a certification of a user ID.
*
* Two versions of signature packets are defined. Version 3 provides
* basic signature information, while version 4 provides an expandable
* format with subpackets that can specify more information about the
* signature. PGP 2.6.x only accepts version 3 signatures.
*
* Implementations MUST accept V3 signatures. Implementations SHOULD
* generate V4 signatures. Implementations MAY generate a V3 signature
* that can be verified by PGP 2.6.x.
*
* Note that if an implementation is creating an encrypted and signed
* message that is encrypted to a V3 key, it is reasonable to create a
* V3 signature.
*/
typedef union pgpPktSig_u {
struct pgpPktSigV3_s v3;
struct pgpPktSigV4_s v4;
} * pgpPktSig;
/**
* 5.3. Symmetric-Key Encrypted Session-Key Packets (Tag 3)
*
* The Symmetric-Key Encrypted Session Key packet holds the symmetric-
* key encryption of a session key used to encrypt a message. Zero or
* more Encrypted Session Key packets and/or Symmetric-Key Encrypted
* Session Key packets may precede a Symmetrically Encrypted Data Packet
* that holds an encrypted message. The message is encrypted with a
* session key, and the session key is itself encrypted and stored in
* the Encrypted Session Key packet or the Symmetric-Key Encrypted
* Session Key packet.
*
* If the Symmetrically Encrypted Data Packet is preceded by one or more
* Symmetric-Key Encrypted Session Key packets, each specifies a
* passphrase that may be used to decrypt the message. This allows a
* message to be encrypted to a number of public keys, and also to one
* or more pass phrases. This packet type is new, and is not generated
* by PGP 2.x or PGP 5.0.
*
* The body of this packet consists of:
* - A one-octet version number. The only currently defined version
* is 4.
* - A one-octet number describing the symmetric algorithm used.
* - A string-to-key (S2K) specifier, length as defined above.
* - Optionally, the encrypted session key itself, which is decrypted
* with the string-to-key object.
*
*/
typedef struct pgpPktSymkey_s {
uint8_t version; /*!< version number (4). */
uint8_t symkey_algo;
uint8_t s2k[1];
} pgpPktSymkey;
/** \ingroup rpmpgp
* 5.4. One-Pass Signature Packets (Tag 4)
*
* The One-Pass Signature packet precedes the signed data and contains
* enough information to allow the receiver to begin calculating any
* hashes needed to verify the signature. It allows the Signature
* Packet to be placed at the end of the message, so that the signer can
* compute the entire signed message in one pass.
*
* A One-Pass Signature does not interoperate with PGP 2.6.x or earlier.
*
* The body of this packet consists of:
* - A one-octet version number. The current version is 3.
* - A one-octet signature type. Signature types are described in
* section 5.2.1.
* - A one-octet number describing the hash algorithm used.
* - A one-octet number describing the public key algorithm used.
* - An eight-octet number holding the key ID of the signing key.
* - A one-octet number holding a flag showing whether the signature
* is nested. A zero value indicates that the next packet is
* another One-Pass Signature packet that describes another
* signature to be applied to the same message data.
*
* Note that if a message contains more than one one-pass signature,
* then the signature packets bracket the message; that is, the first
* signature packet after the message corresponds to the last one-pass
* packet and the final signature packet corresponds to the first one-
* pass packet.
*/
typedef struct pgpPktOnepass_s {
uint8_t version; /*!< version number (3). */
uint8_t sigtype; /*!< signature type. */
uint8_t hash_algo; /*!< hash algorithm. */
uint8_t pubkey_algo; /*!< public key algorithm. */
pgpKeyID_t signid; /*!< key ID of signer. */
uint8_t nested;
} * pgpPktOnepass;
/** \ingroup rpmpgp
* 5.5.1. Key Packet Variants
*
* 5.5.1.1. Public Key Packet (Tag 6)
*
* A Public Key packet starts a series of packets that forms an OpenPGP
* key (sometimes called an OpenPGP certificate).
*
* 5.5.1.2. Public Subkey Packet (Tag 14)
*
* A Public Subkey packet (tag 14) has exactly the same format as a
* Public Key packet, but denotes a subkey. One or more subkeys may be
* associated with a top-level key. By convention, the top-level key
* provides signature services, and the subkeys provide encryption
* services.
*
* Note: in PGP 2.6.x, tag 14 was intended to indicate a comment packet.
* This tag was selected for reuse because no previous version of PGP
* ever emitted comment packets but they did properly ignore them.
* Public Subkey packets are ignored by PGP 2.6.x and do not cause it to
* fail, providing a limited degree of backward compatibility.
*
* 5.5.1.3. Secret Key Packet (Tag 5)
*
* A Secret Key packet contains all the information that is found in a
* Public Key packet, including the public key material, but also
* includes the secret key material after all the public key fields.
*
* 5.5.1.4. Secret Subkey Packet (Tag 7)
*
* A Secret Subkey packet (tag 7) is the subkey analog of the Secret Key
* packet, and has exactly the same format.
*
* 5.5.2. Public Key Packet Formats
*
* There are two versions of key-material packets. Version 3 packets
* were first generated by PGP 2.6. Version 2 packets are identical in
* format to Version 3 packets, but are generated by PGP 2.5 or before.
* V2 packets are deprecated and they MUST NOT be generated. PGP 5.0
* introduced version 4 packets, with new fields and semantics. PGP
* 2.6.x will not accept key-material packets with versions greater than
* 3.
*
* OpenPGP implementations SHOULD create keys with version 4 format. An
* implementation MAY generate a V3 key to ensure interoperability with
* old software; note, however, that V4 keys correct some security
* deficiencies in V3 keys. These deficiencies are described below. An
* implementation MUST NOT create a V3 key with a public key algorithm
* other than RSA.
*
* A version 3 public key or public subkey packet contains:
* - A one-octet version number (3).
* - A four-octet number denoting the time that the key was created.
* - A two-octet number denoting the time in days that this key is
* valid. If this number is zero, then it does not expire.
* - A one-octet number denoting the public key algorithm of this key
* - A series of multi-precision integers comprising the key
* material:
* - a multiprecision integer (MPI) of RSA public modulus n;
* - an MPI of RSA public encryption exponent e.
*
* V3 keys SHOULD only be used for backward compatibility because of
* three weaknesses in them. First, it is relatively easy to construct a
* V3 key that has the same key ID as any other key because the key ID
* is simply the low 64 bits of the public modulus. Secondly, because
* the fingerprint of a V3 key hashes the key material, but not its
* length, which increases the opportunity for fingerprint collisions.
* Third, there are minor weaknesses in the MD5 hash algorithm that make
* developers prefer other algorithms. See below for a fuller discussion
* of key IDs and fingerprints.
*
*/
typedef struct pgpPktKeyV3_s {
uint8_t version; /*!< version number (3). */
pgpTime_t time; /*!< time that the key was created. */
uint8_t valid[2]; /*!< time in days that this key is valid. */
uint8_t pubkey_algo; /*!< public key algorithm. */
} * pgpPktKeyV3;
/** \ingroup rpmpgp
* The version 4 format is similar to the version 3 format except for
* the absence of a validity period. This has been moved to the
* signature packet. In addition, fingerprints of version 4 keys are
* calculated differently from version 3 keys, as described in section
* "Enhanced Key Formats."
*
* A version 4 packet contains:
* - A one-octet version number (4).
* - A four-octet number denoting the time that the key was created.
* - A one-octet number denoting the public key algorithm of this key
* - A series of multi-precision integers comprising the key
* material. This algorithm-specific portion is:
*
* Algorithm Specific Fields for RSA public keys:
* - multiprecision integer (MPI) of RSA public modulus n;
* - MPI of RSA public encryption exponent e.
*
* Algorithm Specific Fields for DSA public keys:
* - MPI of DSA prime p;
* - MPI of DSA group order q (q is a prime divisor of p-1);
* - MPI of DSA group generator g;
* - MPI of DSA public key value y (= g**x where x is secret).
*
* Algorithm Specific Fields for Elgamal public keys:
* - MPI of Elgamal prime p;
* - MPI of Elgamal group generator g;
* - MPI of Elgamal public key value y (= g**x where x is
* secret).
*
*/
typedef struct pgpPktKeyV4_s {
uint8_t version; /*!< version number (4). */
pgpTime_t time; /*!< time that the key was created. */
uint8_t pubkey_algo; /*!< public key algorithm. */
} * pgpPktKeyV4;
/** \ingroup rpmpgp
* 5.5.3. Secret Key Packet Formats
*
* The Secret Key and Secret Subkey packets contain all the data of the
* Public Key and Public Subkey packets, with additional algorithm-
* specific secret key data appended, in encrypted form.
*
* The packet contains:
* - A Public Key or Public Subkey packet, as described above
* - One octet indicating string-to-key usage conventions. 0
* indicates that the secret key data is not encrypted. 255
* indicates that a string-to-key specifier is being given. Any
* other value is a symmetric-key encryption algorithm specifier.
* - [Optional] If string-to-key usage octet was 255, a one-octet
* symmetric encryption algorithm.
* - [Optional] If string-to-key usage octet was 255, a string-to-key
* specifier. The length of the string-to-key specifier is implied
* by its type, as described above.
* - [Optional] If secret data is encrypted, eight-octet Initial
* Vector (IV).
* - Encrypted multi-precision integers comprising the secret key
* data. These algorithm-specific fields are as described below.
* - Two-octet checksum of the plaintext of the algorithm-specific
* portion (sum of all octets, mod 65536).
*
* Algorithm Specific Fields for RSA secret keys:
* - multiprecision integer (MPI) of RSA secret exponent d.
* - MPI of RSA secret prime value p.
* - MPI of RSA secret prime value q (p < q).
* - MPI of u, the multiplicative inverse of p, mod q.
*
* Algorithm Specific Fields for DSA secret keys:
* - MPI of DSA secret exponent x.
*
* Algorithm Specific Fields for Elgamal secret keys:
* - MPI of Elgamal secret exponent x.
*
* Secret MPI values can be encrypted using a passphrase. If a string-
* to-key specifier is given, that describes the algorithm for
* converting the passphrase to a key, else a simple MD5 hash of the
* passphrase is used. Implementations SHOULD use a string-to-key
* specifier; the simple hash is for backward compatibility. The cipher
* for encrypting the MPIs is specified in the secret key packet.
*
* Encryption/decryption of the secret data is done in CFB mode using
* the key created from the passphrase and the Initial Vector from the
* packet. A different mode is used with V3 keys (which are only RSA)
* than with other key formats. With V3 keys, the MPI bit count prefix
* (i.e., the first two octets) is not encrypted. Only the MPI non-
* prefix data is encrypted. Furthermore, the CFB state is
* resynchronized at the beginning of each new MPI value, so that the
* CFB block boundary is aligned with the start of the MPI data.
*
* With V4 keys, a simpler method is used. All secret MPI values are
* encrypted in CFB mode, including the MPI bitcount prefix.
*
* The 16-bit checksum that follows the algorithm-specific portion is
* the algebraic sum, mod 65536, of the plaintext of all the algorithm-
* specific octets (including MPI prefix and data). With V3 keys, the
* checksum is stored in the clear. With V4 keys, the checksum is
* encrypted like the algorithm-specific data. This value is used to
* check that the passphrase was correct.
*
*/
typedef union pgpPktKey_u {
struct pgpPktKeyV3_s v3;
struct pgpPktKeyV4_s v4;
} pgpPktKey;
/* \ingroup rpmpgp
* 5.6. Compressed Data Packet (Tag 8)
*
* The Compressed Data packet contains compressed data. Typically, this
* packet is found as the contents of an encrypted packet, or following
* a Signature or One-Pass Signature packet, and contains literal data
* packets.
*
* The body of this packet consists of:
* - One octet that gives the algorithm used to compress the packet.
* - The remainder of the packet is compressed data.
*
* A Compressed Data Packet's body contains an block that compresses
* some set of packets. See section "Packet Composition" for details on
* how messages are formed.
*
* ZIP-compressed packets are compressed with raw RFC 1951 DEFLATE
* blocks. Note that PGP V2.6 uses 13 bits of compression. If an
* implementation uses more bits of compression, PGP V2.6 cannot
* decompress it.
*
* ZLIB-compressed packets are compressed with RFC 1950 ZLIB-style
* blocks.
*/
typedef struct pgpPktCdata_s {
uint8_t compressalgo;
uint8_t data[1];
} pgpPktCdata;
/* \ingroup rpmpgp
* 5.7. Symmetrically Encrypted Data Packet (Tag 9)
*
* The Symmetrically Encrypted Data packet contains data encrypted with
* a symmetric-key algorithm. When it has been decrypted, it will
* typically contain other packets (often literal data packets or
* compressed data packets).
*
* The body of this packet consists of:
* - Encrypted data, the output of the selected symmetric-key cipher
* operating in PGP's variant of Cipher Feedback (CFB) mode.
*
* The symmetric cipher used may be specified in an Public-Key or
* Symmetric-Key Encrypted Session Key packet that precedes the
* Symmetrically Encrypted Data Packet. In that case, the cipher
* algorithm octet is prefixed to the session key before it is
* encrypted. If no packets of these types precede the encrypted data,
* the IDEA algorithm is used with the session key calculated as the MD5
* hash of the passphrase.
*
* The data is encrypted in CFB mode, with a CFB shift size equal to the
* cipher's block size. The Initial Vector (IV) is specified as all
* zeros. Instead of using an IV, OpenPGP prefixes a 10-octet string to
* the data before it is encrypted. The first eight octets are random,
* and the 9th and 10th octets are copies of the 7th and 8th octets,
* respectively. After encrypting the first 10 octets, the CFB state is
* resynchronized if the cipher block size is 8 octets or less. The
* last 8 octets of ciphertext are passed through the cipher and the
* block boundary is reset.
*
* The repetition of 16 bits in the 80 bits of random data prefixed to
* the message allows the receiver to immediately check whether the
* session key is incorrect.
*/
typedef struct pgpPktEdata_s {
uint8_t data[1];
} pgpPktEdata;
/* \ingroup rpmpgp
* 5.8. Marker Packet (Obsolete Literal Packet) (Tag 10)
*
* An experimental version of PGP used this packet as the Literal
* packet, but no released version of PGP generated Literal packets with
* this tag. With PGP 5.x, this packet has been re-assigned and is
* reserved for use as the Marker packet.
*
* The body of this packet consists of:
* - The three octets 0x50, 0x47, 0x50 (which spell "PGP" in UTF-8).
*
* Such a packet MUST be ignored when received. It may be placed at the
* beginning of a message that uses features not available in PGP 2.6.x
* in order to cause that version to report that newer software is
* necessary to process the message.
*/
/* \ingroup rpmpgp
* 5.9. Literal Data Packet (Tag 11)
*
* A Literal Data packet contains the body of a message; data that is
* not to be further interpreted.
*
* The body of this packet consists of:
* - A one-octet field that describes how the data is formatted.
*
* If it is a 'b' (0x62), then the literal packet contains binary data.
* If it is a 't' (0x74), then it contains text data, and thus may need
* line ends converted to local form, or other text-mode changes. RFC
* 1991 also defined a value of 'l' as a 'local' mode for machine-local
* conversions. This use is now deprecated.
* - File name as a string (one-octet length, followed by file name),
* if the encrypted data should be saved as a file.
*
* If the special name "_CONSOLE" is used, the message is considered to
* be "for your eyes only". This advises that the message data is
* unusually sensitive, and the receiving program should process it more
* carefully, perhaps avoiding storing the received data to disk, for
* example.
* - A four-octet number that indicates the modification date of the
* file, or the creation time of the packet, or a zero that
* indicates the present time.
* - The remainder of the packet is literal data.
*
* Text data is stored with <CR><LF> text endings (i.e. network-normal
* line endings). These should be converted to native line endings by
* the receiving software.
*/
typedef struct pgpPktLdata_s {
uint8_t format;
uint8_t filenamelen;
uint8_t filename[1];
} pgpPktLdata;
/* \ingroup rpmpgp
* 5.10. Trust Packet (Tag 12)
*
* The Trust packet is used only within keyrings and is not normally
* exported. Trust packets contain data that record the user's
* specifications of which key holders are trustworthy introducers,
* along with other information that implementing software uses for
* trust information.
*
* Trust packets SHOULD NOT be emitted to output streams that are
* transferred to other users, and they SHOULD be ignored on any input
* other than local keyring files.
*/
typedef struct pgpPktTrust_s {
uint8_t flag;
} pgpPktTrust;
/* \ingroup rpmpgp
* 5.11. User ID Packet (Tag 13)
*
* A User ID packet consists of data that is intended to represent the
* name and email address of the key holder. By convention, it includes
* an RFC 822 mail name, but there are no restrictions on its content.
* The packet length in the header specifies the length of the user id.
* If it is text, it is encoded in UTF-8.
*
*/
typedef struct pgpPktUid_s {
uint8_t userid[1];
} pgpPktUid;
/** \ingroup rpmpgp
*/
union pgpPktPre_u {
pgpPktPubkey pubkey; /*!< 5.1. Public-Key Encrypted Session Key */
pgpPktSig sig; /*!< 5.2. Signature */
pgpPktSymkey symkey; /*!< 5.3. Symmetric-Key Encrypted Session-Key */
pgpPktOnepass onepass; /*!< 5.4. One-Pass Signature */
pgpPktKey key; /*!< 5.5. Key Material */
pgpPktCdata cdata; /*!< 5.6. Compressed Data */
pgpPktEdata edata; /*!< 5.7. Symmetrically Encrypted Data */
/*!< 5.8. Marker (obsolete) */
pgpPktLdata ldata; /*!< 5.9. Literal Data */
pgpPktTrust tdata; /*!< 5.10. Trust */
pgpPktUid uid; /*!< 5.11. User ID */
};
/** \ingroup rpmpgp
*/
typedef enum pgpArmor_e {
PGPARMOR_ERR_CRC_CHECK = -7,
PGPARMOR_ERR_BODY_DECODE = -6,
PGPARMOR_ERR_CRC_DECODE = -5,
PGPARMOR_ERR_NO_END_PGP = -4,
PGPARMOR_ERR_UNKNOWN_PREAMBLE_TAG = -3,
PGPARMOR_ERR_UNKNOWN_ARMOR_TYPE = -2,
PGPARMOR_ERR_NO_BEGIN_PGP = -1,
#define PGPARMOR_ERROR PGPARMOR_ERR_NO_BEGIN_PGP
PGPARMOR_NONE = 0,
PGPARMOR_MESSAGE = 1, /*!< MESSAGE */
PGPARMOR_PUBKEY = 2, /*!< PUBLIC KEY BLOCK */
PGPARMOR_SIGNATURE = 3, /*!< SIGNATURE */
PGPARMOR_SIGNED_MESSAGE = 4, /*!< SIGNED MESSAGE */
PGPARMOR_FILE = 5, /*!< ARMORED FILE */
PGPARMOR_PRIVKEY = 6, /*!< PRIVATE KEY BLOCK */
PGPARMOR_SECKEY = 7 /*!< SECRET KEY BLOCK */
} pgpArmor;
/** \ingroup rpmpgp
*/
typedef enum pgpArmorKey_e {
PGPARMORKEY_VERSION = 1, /*!< Version: */
PGPARMORKEY_COMMENT = 2, /*!< Comment: */
PGPARMORKEY_MESSAGEID = 3, /*!< MessageID: */
PGPARMORKEY_HASH = 4, /*!< Hash: */
PGPARMORKEY_CHARSET = 5 /*!< Charset: */
} pgpArmorKey;
typedef enum pgpValType_e {
PGPVAL_TAG = 1,
PGPVAL_ARMORBLOCK = 2,
PGPVAL_ARMORKEY = 3,
PGPVAL_SIGTYPE = 4,
PGPVAL_SUBTYPE = 5,
PGPVAL_PUBKEYALGO = 6,
PGPVAL_SYMKEYALGO = 7,
PGPVAL_COMPRESSALGO = 8,
PGPVAL_HASHALGO = 9,
PGPVAL_SERVERPREFS = 10,
} pgpValType;
/** \ingroup rpmpgp
* Bit(s) to control digest operation.
*/
enum rpmDigestFlags_e {
RPMDIGEST_NONE = 0
};
typedef rpmFlags rpmDigestFlags;
/** \ingroup rpmpgp
* Return string representation of am OpenPGP value.
* @param type type of value
* @param val byte value to lookup
* @return string value of byte
*/
const char * pgpValString(pgpValType type, uint8_t val);
/** \ingroup rpmpgp
* Return (native-endian) integer from big-endian representation.
* @param s pointer to big-endian integer
* @param nbytes no. of bytes
* @return native-endian integer
*/
static inline
unsigned int pgpGrab(const uint8_t *s, size_t nbytes)
{
size_t i = 0;
size_t nb = (nbytes <= sizeof(i) ? nbytes : sizeof(i));
while (nb--)
i = (i << 8) | *s++;
return i;
}
/** \ingroup rpmpgp
* Return hex formatted representation of bytes.
* @param p bytes
* @param plen no. of bytes
* @return hex formatted string (malloc'ed)
*/
char * pgpHexStr(const uint8_t *p, size_t plen);
/** \ingroup rpmpgp
* Calculate OpenPGP public key fingerprint.
* @param pkt OpenPGP packet (i.e. PGPTAG_PUBLIC_KEY)
* @param pktlen OpenPGP packet length (no. of bytes)
* @retval fp public key fingerprint
* @retval fplen public key fingerprint length
* @return 0 on success, else -1
*/
int pgpPubkeyFingerprint(const uint8_t * pkt, size_t pktlen,
uint8_t **fp, size_t *fplen);
/** \ingroup rpmpgp
* Calculate OpenPGP public key Key ID
* @param pkt OpenPGP packet (i.e. PGPTAG_PUBLIC_KEY)
* @param pktlen OpenPGP packet length (no. of bytes)
* @retval keyid public key Key ID
* @return 0 on success, else -1
*/
int pgpPubkeyKeyID(const uint8_t * pkt, size_t pktlen, pgpKeyID_t keyid);
/** \ingroup rpmpgp
* Parse a OpenPGP packet(s).
* @param pkts OpenPGP packet(s)
* @param pktlen OpenPGP packet(s) length (no. of bytes)
* @param pkttype Expected packet type (signature/key) or 0 for any
* @retval ret signature/pubkey packet parameters on success (alloced)
* @return -1 on error, 0 on success
*/
int pgpPrtParams(const uint8_t *pkts, size_t pktlen, unsigned int pkttype,
pgpDigParams * ret);
/** \ingroup rpmpgp
* Parse subkey parameters from OpenPGP packet(s).
* @param pkts OpenPGP packet(s)
* @param pktlen OpenPGP packet(s) length (no. of bytes)
* @param mainkey parameters of main key
* @param subkeys array of subkey parameters (alloced)
* @param subkeysCount count of subkeys
* @return -1 on error, 0 on success
*/
int pgpPrtParamsSubkeys(const uint8_t *pkts, size_t pktlen,
pgpDigParams mainkey, pgpDigParams **subkeys,
int *subkeysCount);
/** \ingroup rpmpgp
* Print/parse a OpenPGP packet(s).
* @param pkts OpenPGP packet(s)
* @param pktlen OpenPGP packet(s) length (no. of bytes)
* @retval dig parsed output of signature/pubkey packet parameters
* @param printing should packets be printed?
* @return -1 on error, 0 on success
*/
int pgpPrtPkts(const uint8_t *pkts, size_t pktlen, pgpDig dig, int printing);
/** \ingroup rpmpgp
* Parse armored OpenPGP packets from a file.
* @param fn file name
* @retval pkt dearmored OpenPGP packet(s) (malloced)
* @retval pktlen dearmored OpenPGP packet(s) length in bytes
* @return type of armor found
*/
pgpArmor pgpReadPkts(const char * fn, uint8_t ** pkt, size_t * pktlen);
/** \ingroup rpmpgp
* Parse armored OpenPGP packets from memory.
* @param armor armored OpenPGP packet string
* @retval pkt dearmored OpenPGP packet(s) (malloced)
* @retval pktlen dearmored OpenPGP packet(s) length in bytes
* @return type of armor found
*/
pgpArmor pgpParsePkts(const char *armor, uint8_t ** pkt, size_t * pktlen);
/** \ingroup rpmpgp
* Return a length of the first public key certificate in a buffer given
* by pkts that contains one or more certificates. A public key certificate
* consits of packets like Public key packet, User ID packet and so on.
* In a buffer every certificate starts with Public key packet and it ends
* with the start of the next certificate or with the end of the buffer.
*
* @param pkts pointer to a buffer with certificates
* @param pktslen length of the buffer with certificates
* @param certlen length of the first certificate in the buffer
* @return 0 on success
*/
int pgpPubKeyCertLen(const uint8_t *pkts, size_t pktslen, size_t *certlen);
/** \ingroup rpmpgp
* Wrap a OpenPGP packets in ascii armor for transport.
* @param atype type of armor
* @param s binary pkt data
* @param ns binary pkt data length
* @return formatted string
*/
char * pgpArmorWrap(int atype, const unsigned char * s, size_t ns);
/** \ingroup rpmpgp
* Create a container for parsed OpenPGP packet(s).
* @return container
*/
pgpDig pgpNewDig(void);
/** \ingroup rpmpgp
* Release (malloc'd) data from container.
* @param dig container
*/
void pgpCleanDig(pgpDig dig);
/** \ingroup rpmpgp
* Destroy a container for parsed OpenPGP packet(s).
* @param dig container
* @return NULL always
*/
pgpDig pgpFreeDig(pgpDig dig);
/** \ingroup rpmpgp
* Retrieve parameters for parsed OpenPGP packet(s).
* @param dig container
* @param pkttype type of params to retrieve (signature / pubkey)
* @return pointer to OpenPGP parameters, NULL on error/not found
*/
pgpDigParams pgpDigGetParams(pgpDig dig, unsigned int pkttype);
/** \ingroup rpmpgp
* Compare OpenPGP packet parameters
* param p1 1st parameter container
* param p2 2nd parameter container
* return 1 if the parameters differ, 0 otherwise
*/
int pgpDigParamsCmp(pgpDigParams p1, pgpDigParams p2);
/** \ingroup rpmpgp
* Retrieve OpenPGP algorithm parameters
* param digp parameter container
* param algotype PGPVAL_HASHALGO / PGPVAL_PUBKEYALGO
* return algorithm value, 0 on error
*/
unsigned int pgpDigParamsAlgo(pgpDigParams digp, unsigned int algotype);
/** \ingroup rpmpgp
* Destroy parsed OpenPGP packet parameter(s).
* @param digp parameter container
* @return NULL always
*/
pgpDigParams pgpDigParamsFree(pgpDigParams digp);
/** \ingroup rpmpgp
* Verify a PGP signature.
* @param key public key
* @param sig signature
* @param hashctx digest context
* @return RPMRC_OK on success
*/
rpmRC pgpVerifySignature(pgpDigParams key, pgpDigParams sig, DIGEST_CTX hashctx);
/** \ingroup rpmpgp
* Verify a PGP signature.
* @deprecated use pgpVerifySignature() instead
*
* @param dig container
* @param hashctx digest context
* @return RPMRC_OK on success
*/
rpmRC pgpVerifySig(pgpDig dig, DIGEST_CTX hashctx);
/** \ingroup rpmpgp
* Return a string identification of a PGP signature/pubkey.
* @param digp signature/pubkey container
* @return string describing the item and parameters
*/
char *pgpIdentItem(pgpDigParams digp);
/** \ingroup rpmpgp
* Perform cryptography initialization.
* It must be called before any cryptography can be used within rpm.
* It's not normally necessary to call it directly as it's called in
* general rpm initialization routines.
* @return 0 on success, -1 on failure
*/
int rpmInitCrypto(void);
/** \ingroup rpmpgp
* Shutdown cryptography
*/
int rpmFreeCrypto(void);
/** \ingroup rpmpgp
* Duplicate a digest context.
* @param octx existing digest context
* @return duplicated digest context
*/
DIGEST_CTX rpmDigestDup(DIGEST_CTX octx);
/** \ingroup rpmpgp
* Obtain digest length in bytes.
* @param hashalgo type of digest
* @return digest length, zero on invalid algorithm
*/
size_t rpmDigestLength(int hashalgo);
/** \ingroup rpmpgp
* Initialize digest.
* Set bit count to 0 and buffer to mysterious initialization constants.
* @param hashalgo type of digest
* @param flags bit(s) to control digest operation
* @return digest context
*/
DIGEST_CTX rpmDigestInit(int hashalgo, rpmDigestFlags flags);
/** \ingroup rpmpgp
* Update context with next plain text buffer.
* @param ctx digest context
* @param data next data buffer
* @param len no. bytes of data
* @return 0 on success
*/
int rpmDigestUpdate(DIGEST_CTX ctx, const void * data, size_t len);
/** \ingroup rpmpgp
* Return digest and destroy context.
* Final wrapup - pad to 64-byte boundary with the bit pattern
* 1 0* (64-bit count of bits processed, MSB-first)
*
* @param ctx digest context
* @retval datap address of returned digest
* @retval lenp address of digest length
* @param asAscii return digest as ascii string?
* @return 0 on success
*/
int rpmDigestFinal(DIGEST_CTX ctx,
void ** datap,
size_t * lenp, int asAscii);
/** \ingroup rpmpgp
* Create a new digest bundle.
* @return New digest bundle
*/
rpmDigestBundle rpmDigestBundleNew(void);
/** \ingroup rpmpgp
* Free a digest bundle and all contained digest contexts.
* @param bundle digest bundle
* @return NULL always
*/
rpmDigestBundle rpmDigestBundleFree(rpmDigestBundle bundle);
/** \ingroup rpmpgp
* Add a new type of digest to a bundle. Same as calling
* rpmDigestBundleAddID() with algo == id value.
* @param bundle digest bundle
* @param algo type of digest
* @param flags bit(s) to control digest operation
* @return 0 on success
*/
int rpmDigestBundleAdd(rpmDigestBundle bundle, int algo,
rpmDigestFlags flags);
/** \ingroup rpmpgp
* Add a new type of digest to a bundle.
* @param bundle digest bundle
* @param algo type of digest
* @param id id of digest (arbitrary, must be > 0)
* @param flags bit(s) to control digest operation
* @return 0 on success
*/
int rpmDigestBundleAddID(rpmDigestBundle bundle, int algo, int id,
rpmDigestFlags flags);
/** \ingroup rpmpgp
* Update contexts within bundle with next plain text buffer.
* @param bundle digest bundle
* @param data next data buffer
* @param len no. bytes of data
* @return 0 on success
*/
int rpmDigestBundleUpdate(rpmDigestBundle bundle, const void *data, size_t len);
/** \ingroup rpmpgp
* Return digest from a bundle and destroy context, see rpmDigestFinal().
*
* @param bundle digest bundle
* @param id id of digest to return
* @retval datap address of returned digest
* @retval lenp address of digest length
* @param asAscii return digest as ascii string?
* @return 0 on success
*/
int rpmDigestBundleFinal(rpmDigestBundle bundle, int id,
void ** datap, size_t * lenp, int asAscii);
/** \ingroup rpmpgp
* Duplicate a digest context from a bundle.
* @param bundle digest bundle
* @param id id of digest to dup
* @return duplicated digest context
*/
DIGEST_CTX rpmDigestBundleDupCtx(rpmDigestBundle bundle, int id);
#ifdef __cplusplus
}
#endif
#endif /* H_RPMPGP */
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