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301 lines
12 KiB
Plaintext
301 lines
12 KiB
Plaintext
GOST ENGINE
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This engine provides implementation of Russian cryptography standard.
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This is also an example of adding new cryptoalgorithms into OpenSSL
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without changing its core. If OpenSSL is compiled with dynamic engine
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support, new algorithms can be added even without recompilation of
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OpenSSL and applications which use it.
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ALGORITHMS SUPPORTED
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GOST R 34.10-94 and GOST R 34.10-2001 - digital signature algorithms.
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Also support key exchange based on public keys. See RFC 4357 for
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details of VKO key exchange algorithm. These algorithms use
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256 bit private keys. Public keys are 1024 bit for 94 and 512 bit for
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2001 (which is elliptic-curve based). Key exchange algorithms
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(VKO R 34.10) are supported on these keys too.
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GOST R 34.11-94 Message digest algorithm. 256-bit hash value
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GOST 28147-89 - Symmetric cipher with 256-bit key. Various modes are
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defined in the standard, but only CFB and CNT modes are implemented
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in the engine. To make statistical analysis more difficult, key
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meshing is supported (see RFC 4357).
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GOST 28147-89 MAC mode. Message authentication code. While most MAC
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algorithms out there are based on hash functions using HMAC
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algorithm, this algoritm is based on symmetric cipher.
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It has 256-bit symmetric key and only 32 bits of MAC value
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(while HMAC has same key size and value size).
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It is implemented as combination of EVP_PKEY type and EVP_MD type.
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USAGE OF THESE ALGORITHMS
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This engine is designed to allow usage of this algorithms in the
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high-level openssl functions, such as PKI, S/MIME and TLS.
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See RFC 4490 for S/MIME with GOST algorithms and RFC 4491 for PKI.
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TLS support is implemented according IETF
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draft-chudov-cryptopro-cptls-03.txt and is compatible with
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CryptoPro CSP 3.0 and 3.6 as well as with MagPro CSP.
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GOST ciphersuites implemented in CryptoPro CSP 2.0 are not supported
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because they use ciphersuite numbers used now by AES ciphersuites.
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To use the engine you have to load it via openssl configuration
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file. Applications should read openssl configuration file or provide
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their own means to load engines. Also, applications which operate with
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private keys, should use generic EVP_PKEY API instead of using RSA or
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other algorithm-specific API.
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CONFIGURATION FILE
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Configuration file should include following statement in the global
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section, i.e. before first bracketed section header (see config(5) for details)
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openssl_conf = openssl_def
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where openssl_def is name of the section in configuration file which
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describes global defaults.
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This section should contain following statement:
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[openssl_def]
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engines = engine_section
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which points to the section which describes list of the engines to be
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loaded. This section should contain:
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[engine_section]
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gost = gost_section
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And section which describes configuration of the engine should contain
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[gost_section]
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engine_id = gost
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dynamic_path = /usr/lib/ssl/engines/libgost.so
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default_algorithms = ALL
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CRYPT_PARAMS = id-Gost28147-89-CryptoPro-A-ParamSet
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Where engine_id parameter specifies name of engine (should be "gost").
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dynamic_path is a location of the loadable shared library implementing the
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engine. If the engine is compiled statically or is located in the OpenSSL
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engines directory, this line can be omitted.
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default_algorithms parameter specifies that all algorithms, provided by
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engine, should be used.
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The CRYPT_PARAMS parameter is engine-specific. It allows the user to choose
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between different parameter sets of symmetric cipher algorithm. RFC 4357
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specifies several parameters for the GOST 28147-89 algorithm, but OpenSSL
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doesn't provide user interface to choose one when encrypting. So use engine
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configuration parameter instead.
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Value of this parameter can be either short name, defined in OpenSSL
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obj_dat.h header file or numeric representation of OID, defined in RFC
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4357.
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USAGE WITH COMMAND LINE openssl UTILITY
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1. Generation of private key
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openssl genpkey -algorithm gost2001 -pkeyopt paramset:A -out seckey.pem
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Use -algorithm option to specify algorithm.
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Use -pkeyopt option to pass paramset to algorithm. The following paramsets
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are supported by
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gost94: 0,A,B,C,D,XA,XB,XC
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gost2001: 0,A,B,C,XA,XB
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You can also use numeric representation of OID as to destinate
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paramset.
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Paramsets starting with X are intended to use for key exchange keys.
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Paramsets without X are for digital signature keys.
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Paramset for both algorithms 0 is the test paramset which should be used
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only for test purposes.
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There are no algorithm-specific things with generation of certificate
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request once you have a private key.
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2. Generation of certificate request along with private/public keypar
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openssl req -newkey gost2001 -pkeyopt paramset:A
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Syntax of -pkeyopt parameter is identical with genpkey command.
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You can also use oldstyle syntax -newkey gost2001:paramfile, but in
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this case you should create parameter file first.
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It can be created with
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openssl genpkey -genparam -algorithm gost2001 -pkeyopt paramset:A\
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-out paramfile.
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3. S/MIME operations
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If you want to send encrypted mail using GOST algorithms, don't forget
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to specify -gost89 as encryption algorithm for OpenSSL smime command.
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While OpenSSL is clever enough to find out that GOST R 34.11-94 digest
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must be used for digital signing with GOST private key, it have no way
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to derive symmetric encryption algorithm from key exchange keys.
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4. TLS operations
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OpenSSL supports all four ciphersuites defined in the IETF draft.
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Once you've loaded GOST key and certificate into your TLS server,
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ciphersuites which use GOST 28147-89 encryption are enabled.
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Ciphersuites with NULL encryption should be enabled explicitely if
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needed.
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GOST2001-GOST89-GOST89 Uses GOST R 34.10-2001 for auth and key exchange
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GOST 28147-89 for encryption and GOST 28147-89 MAC
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GOST94-GOST89-GOST89 Uses GOST R 34.10-94 for auth and key exchange
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GOST 28147-89 for encryption and GOST 28147-89 MAC
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GOST2001-NULL-GOST94 Uses GOST R 34.10-2001 for auth and key exchange,
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no encryption and HMAC, based on GOST R 34.11-94
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GOST94-NULL-GOST94 Uses GOST R 34.10-94 for auth and key exchange,
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no encryption and HMAC, based on GOST R 34.11-94
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Gost 94 and gost 2001 keys can be used simultaneously in the TLS server.
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RSA, DSA and EC keys can be used simultaneously with GOST keys, if
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server implementation supports loading more than two private
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key/certificate pairs. In this case ciphersuites which use any of loaded
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keys would be supported and clients can negotiate ones they wish.
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This allows creation of TLS servers which use GOST ciphersuites for
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Russian clients and RSA/DSA ciphersuites for foreign clients.
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5. Calculation of digests and symmetric encryption
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OpenSSL provides specific commands (like sha1, aes etc) for calculation
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of digests and symmetric encryption. Since such commands cannot be
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added dynamically, no such commands are provided for GOST algorithms.
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Use generic commands 'dgst' and 'enc'.
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Calculation of GOST R 34.11-94 message digest
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openssl dgst -md_gost94 datafile
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Note that GOST R 34.11-94 specifies that digest value should be
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interpreted as little-endian number, but OpenSSL outputs just hex dump
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of digest value.
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So, to obtain correct digest value, such as produced by gostsum utility
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included in the engine distribution, bytes of output should be
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reversed.
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Calculation of HMAC based on GOST R 34.11-94
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openssl dgst -md_gost94 -mac hmac -macopt key:<32 bytes of key> datafile
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(or use hexkey if key contain NUL bytes)
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Calculation of GOST 28147 MAC
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openssl dgst -mac gost-mac -macopt key:<32 bytes of key> datafile
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Note absense of an option that specifies digest algorithm. gost-mac
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algorithm supports only one digest (which is actually part of
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implementation of this mac) and OpenSSL is clever enough to find out
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this.
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Encryption with GOST 28147 CFB mode
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openssl enc -gost89 -out encrypted-file -in plain-text-file -k <passphrase>
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Encryption with GOST 28147 CNT mode
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openssl enc -gost89-cnt -out encrypted-file -in plain-text-file -k <passphrase>
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6. Encrypting private keys and PKCS12
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To produce PKCS12 files compatible with MagPro CSP, you need to use
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GOST algorithm for encryption of PKCS12 file and also GOST R 34.11-94
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hash to derive key from password.
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openssl pksc12 -export -inkey gost.pem -in gost_cert.pem -keypbe gost89\
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-certpbe gost89 -macalg md_gost94
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7. Testing speed of symmetric ciphers.
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To test performance of GOST symmetric ciphers you should use -evp switch
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of the openssl speed command. Engine-provided ciphers couldn't be
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accessed by cipher-specific functions, only via generic evp interface
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openssl speed -evp gost89
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openssl speed -evp gost89-cnt
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PROGRAMMING INTERFACES DETAILS
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Applications never should access engine directly. They only use provided
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EVP_PKEY API. But there are some details, which should be taken into
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account.
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EVP provides two kinds of API for key exchange:
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1. EVP_PKEY_encrypt/EVP_PKEY_decrypt functions, intended to use with
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RSA-like public key encryption algorithms
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2. EVP_PKEY_derive, intended to use with Diffie-Hellman-like shared key
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computing algorithms.
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Although VKO R 34.10 algorithms, described in the RFC 4357 are
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definitely second case, engine provides BOTH API for GOST R 34.10 keys.
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EVP_PKEY_derive just invokes appropriate VKO algorithm and computes
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256 bit shared key. VKO R 34.10-2001 requires 64 bits of random user key
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material (UKM). This UKM should be transmitted to other party, so it is
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not generated inside derive function.
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It should be set by EVP_PKEY_CTX_ctrl function using
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EVP_PKEY_CTRL_SET_IV command after call of EVP_PKEY_derive_init, but
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before EVP_PKEY_derive.
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unsigned char ukm[8];
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RAND_bytes(ukm,8);
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EVP_PKEY_CTX_ctrl(ctx, -1, EVP_PKEY_OP_DERIVE, 8, ukm)
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EVP_PKEY_encrypt encrypts provided session key with VKO shared key and
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packs it into GOST key transport structure, described in the RFC 4490.
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It typically uses ephemeral key pair to compute shared key and packs its
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public part along with encrypted key. So, for most cases use of
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EVP_PKEY_encrypt/EVP_PKEY_decrypt with GOST keys is almost same as with
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RSA.
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However, if peerkey field in the EVP_PKEY_CTX structure is set (using
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EVP_PKEY_derive_set_peerkey function) to EVP_PKEY structure which has private
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key and uses same parameters as the public key from which this EVP_PKEY_CTX is
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created, EVP_PKEY_encrypt will use this private key to compute shared key and
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set ephemeral key in the GOST_key_transport structure to NULL. In this case
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pkey and peerkey fields in the EVP_PKEY_CTX are used upside-down.
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If EVP_PKEY_decrypt encounters GOST_key_transport structure with NULL
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public key field, it tries to use peerkey field from the context to
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compute shared key. In this case peerkey field should really contain
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peer public key.
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Encrypt operation supports EVP_PKEY_CTRL_SET_IV operation as well.
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It can be used when some specific restriction on UKM are imposed by
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higher level protocol. For instance, description of GOST ciphersuites
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requires UKM to be derived from shared secret.
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If UKM is not set by this control command, encrypt operation would
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generate random UKM.
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This sources include implementation of GOST 28147-89 and GOST R 34.11-94
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which are completely indepentent from OpenSSL and can be used separately
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(files gost89.c, gost89.h, gosthash.c, gosthash.h) Utility gostsum (file
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gostsum.c) is provided as example of such separate usage. This is
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program, simular to md5sum and sha1sum utilities, but calculates GOST R
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34.11-94 hash.
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Makefile doesn't include rule for compiling gostsum.
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Use command
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$(CC) -o gostsum gostsum.c gost89.c gosthash.c
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where $(CC) is name of your C compiler.
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Implementations of GOST R 34.10-xx, including VKO algorithms heavily
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depends on OpenSSL BIGNUM and Elliptic Curve libraries.
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