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@@ -23,230 +23,542 @@
<title>crypto</title>
</header>
- <module>crypto</module>
+ <module since="">crypto</module>
<modulesummary>Crypto Functions</modulesummary>
<description>
<p>This module provides a set of cryptographic functions.
</p>
- <list type="bulleted">
- <item>
- <p>Hash functions -
- <url href="http://csrc.nist.gov/publications/fips/fips180-4/fips-180-4.pdf"> Secure Hash Standard</url>,
- <url href="http://www.ietf.org/rfc/rfc1321.txt"> The MD5 Message Digest Algorithm (RFC 1321)</url> and
- <url href="http://www.ietf.org/rfc/rfc1320.txt">The MD4 Message Digest Algorithm (RFC 1320)</url>
- </p>
- </item>
- <item>
- <p>Hmac functions - <url href="http://www.ietf.org/rfc/rfc2104.txt"> Keyed-Hashing for Message Authentication (RFC 2104) </url></p>
- </item>
- <item>
- <p>Cmac functions - <url href="http://www.ietf.org/rfc/rfc4493.txt">The AES-CMAC Algorithm (RFC 4493)</url></p>
- </item>
- <item>
- <p>Block ciphers - <url href="http://csrc.nist.gov/groups/ST/toolkit/block_ciphers.html"> </url> DES and AES in
- Block Cipher Modes - <url href="http://csrc.nist.gov/groups/ST/toolkit/BCM/index.html"> ECB, CBC, CFB, OFB, CTR and GCM </url></p>
- </item>
- <item>
- <p><url href="http://www.ietf.org/rfc/rfc1321.txt"> RSA encryption RFC 1321 </url> </p>
- </item>
- <item>
- <p>Digital signatures <url href="http://csrc.nist.gov/publications/drafts/fips186-3/fips_186-3.pdf">Digital Signature Standard (DSS)</url> and<url href="http://csrc.nist.gov/groups/STM/cavp/documents/dss2/ecdsa2vs.pdf"> Elliptic Curve Digital
- Signature Algorithm (ECDSA) </url> </p>
- </item>
- <item>
- <p><url href="http://www.ietf.org/rfc/rfc2945.txt"> Secure Remote Password Protocol (SRP - RFC 2945) </url></p>
- </item>
- <item>
- <p>gcm: Dworkin, M., "Recommendation for Block Cipher Modes of
- Operation: Galois/Counter Mode (GCM) and GMAC",
- National Institute of Standards and Technology SP 800-
- 38D, November 2007.</p>
- </item>
- </list>
- </description>
+ <taglist>
+ <tag>Hash functions</tag>
+ <item>
+ <p></p>
+ <taglist>
+ <tag>SHA1, SHA2</tag>
+ <item>
+ <url href="https://nvlpubs.nist.gov/nistpubs/FIPS/NIST.FIPS.180-4.pdf">
+ Secure Hash Standard [FIPS PUB 180-4]
+ </url>
+ </item>
+ <tag>SHA3</tag>
+ <item>
+ <url href="https://www.nist.gov/publications/sha-3-standard-permutation-based-hash-and-extendable-output-functions?pub_id=919061">
+ SHA-3 Standard: Permutation-Based Hash and Extendable-Output Functions [FIPS PUB 202]
+ </url>
+ </item>
+ <tag>MD5</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc1321.txt">The MD5 Message Digest Algorithm [RFC 1321]</url>
+ </item>
+ <tag>MD4</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc1320.txt">The MD4 Message Digest Algorithm [RFC 1320]</url>
+ </item>
+ </taglist>
+ <p></p>
+ </item>
+
+ <tag>MACs - Message Authentication Codes</tag>
+ <item>
+ <p></p>
+ <taglist>
+ <tag>Hmac functions</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc2104.txt">
+ Keyed-Hashing for Message Authentication [RFC 2104]
+ </url>
+ </item>
+ <tag>Cmac functions</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc4493.txt">
+ The AES-CMAC Algorithm [RFC 4493]
+ </url>
+ </item>
+ <tag>POLY1305</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc7539.txt">
+ ChaCha20 and Poly1305 for IETF Protocols [RFC 7539]
+ </url>
+ </item>
+ </taglist>
+ <p></p>
+ </item>
+
+ <tag>Symmetric Ciphers</tag>
+ <item>
+ <p></p>
+ <taglist>
+ <tag>DES, 3DES and AES</tag>
+ <item>
+ <url href="https://csrc.nist.gov/projects/block-cipher-techniques">Block Cipher Techniques [NIST]</url>
+ </item>
+ <tag>Blowfish</tag>
+ <item>
+ <url href="https://www.schneier.com/academic/archives/1994/09/description_of_a_new.html">
+ Fast Software Encryption, Cambridge Security Workshop Proceedings (December 1993), Springer-Verlag, 1994, pp. 191-204.
+ </url>
+ </item>
+ <tag>Chacha20</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc7539.txt">
+ ChaCha20 and Poly1305 for IETF Protocols [RFC 7539]
+ </url>
+ </item>
+ <tag>Chacha20_poly1305</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc7539.txt">
+ ChaCha20 and Poly1305 for IETF Protocols [RFC 7539]
+ </url>
+ </item>
+ </taglist>
+ <p></p>
+ </item>
+
+ <tag>Modes</tag>
+ <item>
+ <p></p>
+ <taglist>
+ <tag>ECB, CBC, CFB, OFB and CTR</tag>
+ <item>
+ <url href="https://csrc.nist.gov/publications/detail/sp/800-38a/final">
+ Recommendation for Block Cipher Modes of Operation: Methods and Techniques [NIST SP 800-38A]
+ </url>
+ </item>
+ <tag>GCM</tag>
+ <item>
+ <url href="https://csrc.nist.gov/publications/detail/sp/800-38d/final">
+ Recommendation for Block Cipher Modes of Operation: Galois/Counter Mode (GCM) and GMAC [NIST SP 800-38D]
+ </url>
+ </item>
+ <tag>CCM</tag>
+ <item>
+ <url href="https://nvlpubs.nist.gov/nistpubs/legacy/sp/nistspecialpublication800-38c.pdf">
+ Recommendation for Block Cipher Modes of Operation:
+ The CCM Mode for Authentication and Confidentiality [NIST SP 800-38C]
+ </url>
+ </item>
+ </taglist>
+ <p></p>
+ </item>
+
+ <tag>Asymetric Ciphers - Public Key Techniques</tag>
+ <item>
+ <p></p>
+ <taglist>
+ <tag>RSA</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc3447.txt">
+ PKCS #1: RSA Cryptography Specifications [RFC 3447]
+ </url>
+ </item>
+ <tag>DSS</tag>
+ <item>
+ <url href="https://csrc.nist.gov/publications/detail/fips/186/4/final">
+ Digital Signature Standard (DSS) [FIPS 186-4]
+ </url>
+ </item>
+ <tag>ECDSA</tag>
+ <item>
+ <url href="http://csrc.nist.gov/groups/STM/cavp/documents/dss2/ecdsa2vs.pdf">
+ Elliptic Curve Digital Signature Algorithm [ECDSA]
+ </url>
+ </item>
+ <tag>SRP</tag>
+ <item>
+ <url href="http://www.ietf.org/rfc/rfc2945.txt">
+ The SRP Authentication and Key Exchange System [RFC 2945]
+ </url>
+ </item>
+ </taglist>
+ <p></p>
+ </item>
+ </taglist>
+
+ <note>
+ <p>The actual supported algorithms and features depends on their availability in the actual libcrypto used.
+ See the <seealso marker="crypto:crypto_app">crypto (App)</seealso> about dependencies.
+ </p>
+ <p>Enabling FIPS mode will also disable algorithms and features.
+ </p>
+ </note>
- <section>
- <title>DATA TYPES </title>
+ <p>The <seealso marker="users_guide">CRYPTO User's Guide</seealso> has more information on
+ FIPS, Engines and Algorithm Details like key lengths.
+ </p>
+ </description>
- <code>key_value() = integer() | binary() </code>
- <p>Always <c>binary()</c> when used as return value</p>
+ <datatypes>
+ <datatype_title>Ciphers</datatype_title>
+ <datatype>
+ <name name="stream_cipher"/>
+ <desc>
+ <p>Stream ciphers for
+ <seealso marker="#stream_encrypt-2">stream_encrypt/2</seealso> and
+ <seealso marker="#stream_decrypt-2">stream_decrypt/2</seealso> .
+ </p>
+ </desc>
+ </datatype>
- <code>rsa_public() = [key_value()] = [E, N] </code>
- <p> Where E is the public exponent and N is public modulus. </p>
+ <datatype>
+ <name name="block_cipher_with_iv"/>
+ <name name="cbc_cipher"/>
+ <name name="cfb_cipher"/>
+ <desc>
+ <p>Block ciphers with initialization vector for
+ <seealso marker="#block_encrypt-4">block_encrypt/4</seealso> and
+ <seealso marker="#block_decrypt-4">block_decrypt/4</seealso> .
+ </p>
+ </desc>
+ </datatype>
- <code>rsa_private() = [key_value()] = [E, N, D] | [E, N, D, P1, P2, E1, E2, C] </code>
- <p>Where E is the public exponent, N is public modulus and D is
- the private exponent. The longer key format contains redundant
- information that will make the calculation faster. P1,P2 are first
- and second prime factors. E1,E2 are first and second exponents. C
- is the CRT coefficient. Terminology is taken from <url href="http://www.ietf.org/rfc/rfc3477.txt"> RFC 3447</url>.</p>
+ <datatype>
+ <name name="block_cipher_without_iv"/>
+ <name name="ecb_cipher"/>
+ <desc>
+ <p>Block ciphers without initialization vector for
+ <seealso marker="#block_encrypt-3">block_encrypt/3</seealso> and
+ <seealso marker="#block_decrypt-3">block_decrypt/3</seealso> .
+ </p>
+ </desc>
+ </datatype>
- <code>dss_public() = [key_value()] = [P, Q, G, Y] </code>
- <p>Where P, Q and G are the dss parameters and Y is the public key.</p>
+ <datatype>
+ <name name="aead_cipher"/>
+ <desc>
+ <p>Ciphers with simultaneous MAC-calculation or MAC-checking.
+ <seealso marker="#block_encrypt-4">block_encrypt/4</seealso> and
+ <seealso marker="#block_decrypt-4">block_decrypt/4</seealso> .
+ </p>
+ </desc>
+ </datatype>
- <code>dss_private() = [key_value()] = [P, Q, G, X] </code>
- <p>Where P, Q and G are the dss parameters and X is the private key.</p>
+ <datatype_title>Digests</datatype_title>
+ <datatype>
+ <name name="sha1"/>
+ <name name="sha2"/>
+ <name name="sha3"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>srp_public() = key_value() </code>
- <p>Where is <c>A</c> or <c>B</c> from <url href="http://srp.stanford.edu/design.html">SRP design</url></p>
+ <datatype>
+ <name name="compatibility_only_hash"/>
+ <desc>
+ <p>The <c>compatibility_only_hash()</c> algorithms are recommended only for compatibility with existing applications.</p>
+ </desc>
+ </datatype>
- <code>srp_private() = key_value() </code>
- <p>Where is <c>a</c> or <c>b</c> from <url href="http://srp.stanford.edu/design.html">SRP design</url></p>
+ <datatype>
+ <name name="rsa_digest_type"/>
+ <desc>
+ </desc>
+ </datatype>
- <p>Where Verifier is <c>v</c>, Generator is <c>g</c> and Prime is<c> N</c>, DerivedKey is <c>X</c>, and Scrambler is
- <c>u</c> (optional will be generated if not provided) from <url href="http://srp.stanford.edu/design.html">SRP design</url>
- Version = '3' | '6' | '6a'
- </p>
+ <datatype>
+ <name name="dss_digest_type"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>dh_public() = key_value() </code>
+ <datatype>
+ <name name="ecdsa_digest_type"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>dh_private() = key_value() </code>
+ <datatype_title>Elliptic Curves</datatype_title>
+ <datatype>
+ <name name="ec_named_curve"/>
+ <name name="edwards_curve_dh"/>
+ <name name="edwards_curve_ed"/>
+ <desc>
+ <p>Note that some curves are disabled if FIPS is enabled.</p>
+ </desc>
+ </datatype>
- <code>dh_params() = [key_value()] = [P, G] | [P, G, PrivateKeyBitLength]</code>
+ <datatype>
+ <name name="ec_explicit_curve"/>
+ <name name="ec_field"/>
+ <name name="ec_curve"/>
+ <desc>
+ <p>Parametric curve definition.</p>
+ </desc>
+ </datatype>
- <code>ecdh_public() = key_value() </code>
+ <datatype>
+ <name name="ec_prime_field"/>
+ <name name="ec_characteristic_two_field"/>
+ <name name="ec_basis"/>
+ <desc>
+ <p>Curve definition details.</p>
+ </desc>
+ </datatype>
- <code>ecdh_private() = key_value() </code>
+ <datatype_title>Keys</datatype_title>
+ <datatype>
+ <name name="key"/>
+ <name name="des3_key"/>
+ <desc>
+ <p>For keylengths, iv-sizes and blocksizes see the
+ <seealso marker="crypto:algorithm_details#ciphers">User's Guide</seealso>.
+ </p>
+ <p>A key for des3 is a list of three iolists</p>
+ </desc>
+ </datatype>
- <code>ecdh_params() = ec_named_curve() | ec_explicit_curve()</code>
+ <datatype>
+ <name name="key_integer"/>
+ <desc>
+ <p>Always <c>binary()</c> when used as return value</p>
+ </desc>
+ </datatype>
- <code>ec_explicit_curve() =
- {ec_field(), Prime :: key_value(), Point :: key_value(), Order :: integer(),
- CoFactor :: none | integer()} </code>
+ <datatype_title>Public/Private Keys</datatype_title>
+ <datatype>
+ <name name="rsa_public"/>
+ <name name="rsa_private"/>
+ <name name="rsa_params"/>
+ <desc>
+ <code>rsa_public() = [E, N]</code>
+ <code>rsa_private() = [E, N, D] | [E, N, D, P1, P2, E1, E2, C]</code>
+ <p>Where E is the public exponent, N is public modulus and D is
+ the private exponent. The longer key format contains redundant
+ information that will make the calculation faster. P1,P2 are first
+ and second prime factors. E1,E2 are first and second exponents. C
+ is the CRT coefficient. Terminology is taken from <url href="http://www.ietf.org/rfc/rfc3477.txt"> RFC 3447</url>.</p>
+ </desc>
+ </datatype>
- <code>ec_field() = {prime_field, Prime :: integer()} |
- {characteristic_two_field, M :: integer(), Basis :: ec_basis()}</code>
+ <datatype>
+ <name name="dss_public"/>
+ <name name="dss_private"/>
+ <desc>
+ <code>dss_public() = [P, Q, G, Y] </code>
+ <p>Where P, Q and G are the dss parameters and Y is the public key.</p>
- <code>ec_basis() = {tpbasis, K :: non_neg_integer()} |
- {ppbasis, K1 :: non_neg_integer(), K2 :: non_neg_integer(), K3 :: non_neg_integer()} |
- onbasis</code>
+ <code>dss_private() = [P, Q, G, X] </code>
+ <p>Where P, Q and G are the dss parameters and X is the private key.</p>
+ </desc>
+ </datatype>
- <code>ec_named_curve() ->
- sect571r1| sect571k1| sect409r1| sect409k1| secp521r1| secp384r1| secp224r1| secp224k1|
- secp192k1| secp160r2| secp128r2| secp128r1| sect233r1| sect233k1| sect193r2| sect193r1|
- sect131r2| sect131r1| sect283r1| sect283k1| sect163r2| secp256k1| secp160k1| secp160r1|
- secp112r2| secp112r1| sect113r2| sect113r1| sect239k1| sect163r1| sect163k1| secp256r1|
- secp192r1|
- brainpoolP160r1| brainpoolP160t1| brainpoolP192r1| brainpoolP192t1| brainpoolP224r1|
- brainpoolP224t1| brainpoolP256r1| brainpoolP256t1| brainpoolP320r1| brainpoolP320t1|
- brainpoolP384r1| brainpoolP384t1| brainpoolP512r1| brainpoolP512t1
- </code>
- <p>Note that the <em>sect</em> curves are GF2m (characteristic two) curves and are only supported if the
- underlying OpenSSL has support for them.
- See also <seealso marker="#supports-0">crypto:supports/0</seealso>
- </p>
+ <datatype>
+ <name name="ecdsa_public"/>
+ <name name="ecdsa_private"/>
+ <name name="ecdsa_params"/>
+ <desc>
+ </desc>
+ </datatype>
- <marker id="engine_key_ref_type"/>
- <code>engine_key_ref() = #{engine := engine_ref(),
- key_id := key_id(),
- password => password()}</code>
+ <datatype>
+ <name name="eddsa_public"/>
+ <name name="eddsa_private"/>
+ <name name="eddsa_params"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>engine_ref() = term()</code>
- <p>The result of a call to for example <seealso marker="#engine_load-3">engine_load/3</seealso>.
- </p>
+ <datatype>
+ <name name="srp_public"/>
+ <name name="srp_private"/>
+ <desc>
+ <code>srp_public() = key_integer() </code>
+ <p>Where is <c>A</c> or <c>B</c> from <url href="http://srp.stanford.edu/design.html">SRP design</url></p>
+
+ <code>srp_private() = key_integer() </code>
+ <p>Where is <c>a</c> or <c>b</c> from <url href="http://srp.stanford.edu/design.html">SRP design</url></p>
+ </desc>
+ </datatype>
- <code>key_id() = string() | binary()</code>
- <p>Identifies the key to be used. The format depends on the loaded engine. It is passed to
- the <c>ENGINE_load_(private|public)_key</c> functions in libcrypto.
- </p>
+ <datatype>
+ <name name="srp_gen_params"/>
+ <name name="srp_comp_params"/>
+ <desc>
+ <marker id="type-srp_user_gen_params"/>
+ <code>srp_user_gen_params() = [DerivedKey::binary(), Prime::binary(), Generator::binary(), Version::atom()]</code>
+ <marker id="type-srp_host_gen_params"/>
+ <code>srp_host_gen_params() = [Verifier::binary(), Prime::binary(), Version::atom() ]</code>
+ <marker id="type-srp_user_comp_params"/>
+ <code>srp_user_comp_params() = [DerivedKey::binary(), Prime::binary(), Generator::binary(), Version::atom() | ScramblerArg::list()]</code>
+ <marker id="type-srp_host_comp_params"/>
+ <code>srp_host_comp_params() = [Verifier::binary(), Prime::binary(), Version::atom() | ScramblerArg::list()]</code>
+ <p>Where Verifier is <c>v</c>, Generator is <c>g</c> and Prime is<c> N</c>, DerivedKey is <c>X</c>, and Scrambler is
+ <c>u</c> (optional will be generated if not provided) from <url href="http://srp.stanford.edu/design.html">SRP design</url>
+ Version = '3' | '6' | '6a'
+ </p>
+ </desc>
+ </datatype>
- <code>password() = string() | binary()</code>
- <p>The key's password
- </p>
+ <datatype_title>Public Key Ciphers</datatype_title>
- <code>stream_cipher() = rc4 | aes_ctr </code>
+ <datatype>
+ <name name="pk_encrypt_decrypt_algs"/>
+ <desc>
+ <p>Algorithms for public key encrypt/decrypt. Only RSA is supported.</p>
+ </desc>
+ </datatype>
- <code>block_cipher() = aes_cbc | aes_cfb8 | aes_cfb128 | aes_ige256 | blowfish_cbc |
- blowfish_cfb64 | des_cbc | des_cfb | des3_cbc | des3_cfb | des_ede3 | rc2_cbc </code>
+ <datatype>
+ <name name="pk_encrypt_decrypt_opts"/>
+ <name name="rsa_opt"/>
+ <name name="rsa_padding"/>
+ <desc>
+ <p>Options for public key encrypt/decrypt. Only RSA is supported.</p>
+ <warning>
+ <!-- In RefMan rsa_opt(), rsa_sign_verify_opt() and User's man RSA -->
+ <p>The RSA options are experimental.
+ </p>
+ <p>The exact set of options and there syntax <em>may</em> be changed
+ without prior notice.</p>
+ </warning>
+ </desc>
+ </datatype>
- <code>aead_cipher() = aes_gcm | chacha20_poly1305 </code>
+ <datatype>
+ <name name="rsa_compat_opts"/>
+ <desc>
+ <p>Those option forms are kept only for compatibility and should not be used in new code.</p>
+ </desc>
+ </datatype>
- <code>stream_key() = aes_key() | rc4_key() </code>
+ <datatype_title>Public Key Sign and Verify</datatype_title>
- <code>block_key() = aes_key() | blowfish_key() | des_key()| des3_key() </code>
+ <datatype>
+ <name name="pk_sign_verify_algs"/>
+ <desc>
+ <p>Algorithms for sign and verify.</p>
+ </desc>
+ </datatype>
- <code>aes_key() = iodata() </code> <p>Key length is 128, 192 or 256 bits</p>
+ <datatype>
+ <name name="pk_sign_verify_opts"/>
+ <name name="rsa_sign_verify_opt"/>
+ <name name="rsa_sign_verify_padding"/>
+ <desc>
+ <p>Options for sign and verify.</p>
+ <warning>
+ <!-- In RefMan rsa_opt(), rsa_sign_verify_opt() and User's man RSA -->
+ <p>The RSA options are experimental.
+ </p>
+ <p>The exact set of options and there syntax <em>may</em> be changed
+ without prior notice.</p>
+ </warning>
+ </desc>
+ </datatype>
- <code>rc4_key() = iodata() </code> <p>Variable key length from 8 bits up to 2048 bits (usually between 40 and 256)</p>
+ <datatype_title>Diffie-Hellman Keys and parameters</datatype_title>
+ <datatype>
+ <name name="dh_public"/>
+ <name name="dh_private"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>blowfish_key() = iodata() </code> <p>Variable key length from 32 bits up to 448 bits</p>
+ <datatype>
+ <name name="dh_params"/>
+ <desc>
+ <code>dh_params() = [P, G] | [P, G, PrivateKeyBitLength]</code>
+ </desc>
+ </datatype>
- <code>des_key() = iodata() </code> <p>Key length is 64 bits (in CBC mode only 8 bits are used)</p>
+ <datatype>
+ <name name="ecdh_public"/>
+ <name name="ecdh_private"/>
+ <name name="ecdh_params"/>
+ <desc>
+ </desc>
+ </datatype>
- <code>des3_key() = [binary(), binary(), binary()] </code> <p>Each key part is 64 bits (in CBC mode only 8 bits are used)</p>
+ <datatype_title>Types for Engines</datatype_title>
- <code>digest_type() = md5 | sha | sha224 | sha256 | sha384 | sha512</code>
+ <datatype>
+ <name name="engine_key_ref"/>
+ <name name="engine_ref"/>
+ <desc>
+ <p>The result of a call to <seealso marker="#engine_load-3">engine_load/3</seealso>.
+ </p>
+ </desc>
+ </datatype>
- <code>rsa_digest_type() = md5 | ripemd160 | sha | sha224 | sha256 | sha384 | sha512</code>
+ <datatype>
+ <name name="key_id"/>
+ <desc>
+ <p>Identifies the key to be used. The format depends on the loaded engine. It is passed to
+ the <c>ENGINE_load_(private|public)_key</c> functions in libcrypto.
+ </p>
+ </desc>
+ </datatype>
- <code>dss_digest_type() = sha | sha224 | sha256 | sha384 | sha512</code> <p>Note that the actual supported
- dss_digest_type depends on the underlying crypto library. In OpenSSL version >= 1.0.1 the listed digest are supported, while in 1.0.0 only sha, sha224 and sha256 are supported. In version 0.9.8 only sha is supported.</p>
+ <datatype>
+ <name name="password"/>
+ <desc>
+ <p>The password of the key stored in an engine.
+ </p>
+ </desc>
+ </datatype>
- <code>ecdsa_digest_type() = sha | sha224 | sha256 | sha384 | sha512</code>
+ <datatype>
+ <name name="engine_method_type"/>
+ </datatype>
- <code>sign_options() = [{rsa_pad, rsa_sign_padding()} | {rsa_pss_saltlen, integer()}]</code>
+ <datatype>
+ <name name="engine_cmnd"/>
+ <desc>
+ <p>Pre and Post commands for <seealso marker="#engine_load-3">engine_load/3 and /4</seealso>.
+ </p>
+ </desc>
+ </datatype>
- <code>rsa_sign_padding() = rsa_pkcs1_padding | rsa_pkcs1_pss_padding</code>
+ <datatype_title>Internal data types</datatype_title>
- <code> hash_algorithms() = md5 | ripemd160 | sha | sha224 | sha256 | sha384 | sha512 </code> <p>md4 is also supported for hash_init/1 and hash/2.
- Note that both md4 and md5 are recommended only for compatibility with existing applications.
- </p>
- <code> cipher_algorithms() = aes_cbc | aes_cfb8 | aes_cfb128 | aes_ctr | aes_gcm |
- aes_ige256 | blowfish_cbc | blowfish_cfb64 | chacha20_poly1305 | des_cbc |
- des_cfb | des3_cbc | des3_cfb | des_ede3 | rc2_cbc | rc4 </code>
- <code> mac_algorithms() = hmac | cmac</code>
- <code> public_key_algorithms() = rsa |dss | ecdsa | dh | ecdh | ec_gf2m</code>
- <p>Note that ec_gf2m is not strictly a public key algorithm, but a restriction on what curves are supported
- with ecdsa and ecdh.
- </p>
- <code>engine_method_type() = engine_method_rsa | engine_method_dsa | engine_method_dh |
- engine_method_rand | engine_method_ecdh | engine_method_ecdsa |
- engine_method_ciphers | engine_method_digests | engine_method_store |
- engine_method_pkey_meths | engine_method_pkey_asn1_meths</code>
+ <datatype>
+ <name name="stream_state"/>
+ <name name="hmac_state"/>
+ <name name="hash_state"/>
+ <desc>
+ <p>Contexts with an internal state that should not be manipulated but passed between function calls.
+ </p>
+ </desc>
+ </datatype>
- </section>
+ </datatypes>
+ <!--================ FUNCTIONS ================-->
<funcs>
<func>
- <name>block_encrypt(Type, Key, PlainText) -> CipherText</name>
+ <name name="block_encrypt" arity="3" since="OTP 18.0"/>
<fsummary>Encrypt <c>PlainText</c> according to <c>Type</c> block cipher</fsummary>
- <type>
- <v>Type = des_ecb | blowfish_ecb | aes_ecb </v>
- <v>Key = block_key() </v>
- <v>PlainText = iodata() </v>
- </type>
<desc>
- <p>Encrypt <c>PlainText</c> according to <c>Type</c> block cipher.</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>Encrypt <c>PlainText</c> according to <c>Type</c> block cipher.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
+ <p>For keylengths and blocksizes see the
+ <seealso marker="crypto:algorithm_details#ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>block_decrypt(Type, Key, CipherText) -> PlainText</name>
+ <name name="block_decrypt" arity="3" since="OTP 18.0"/>
<fsummary>Decrypt <c>CipherText</c> according to <c>Type</c> block cipher</fsummary>
- <type>
- <v>Type = des_ecb | blowfish_ecb | aes_ecb </v>
- <v>Key = block_key() </v>
- <v>PlainText = iodata() </v>
- </type>
<desc>
<p>Decrypt <c>CipherText</c> according to <c>Type</c> block cipher.</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
+ <p>For keylengths and blocksizes see the
+ <seealso marker="crypto:algorithm_details#ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>block_encrypt(Type, Key, Ivec, PlainText) -> CipherText</name>
- <name>block_encrypt(AeadType, Key, Ivec, {AAD, PlainText}) -> {CipherText, CipherTag}</name>
- <name>block_encrypt(aes_gcm, Key, Ivec, {AAD, PlainText, TagLength}) -> {CipherText, CipherTag}</name>
+ <name since="OTP R16B01">block_encrypt(Type, Key, Ivec, PlainText) -> CipherText</name>
+ <name since="OTP R16B01">block_encrypt(AeadType, Key, Ivec, {AAD, PlainText}) -> {CipherText, CipherTag}</name>
+ <name since="OTP R16B01">block_encrypt(aes_gcm | aes_ccm, Key, Ivec, {AAD, PlainText, TagLength}) -> {CipherText, CipherTag}</name>
<fsummary>Encrypt <c>PlainText</c> according to <c>Type</c> block cipher</fsummary>
<type>
- <v>Type = block_cipher() </v>
- <v>AeadType = aead_cipher() </v>
- <v>Key = block_key() </v>
- <v>PlainText = iodata() </v>
+ <v>Type = <seealso marker="#type-block_cipher_with_iv">block_cipher_with_iv()</seealso></v>
+ <v>AeadType = <seealso marker="#type-aead_cipher">aead_cipher()</seealso></v>
+ <v>Key = <seealso marker="#type-key">key()</seealso> | <seealso marker="#type-des3_key">des3_key()</seealso></v>
+ <v>PlainText = iodata()</v>
<v>AAD = IVec = CipherText = CipherTag = binary()</v>
<v>TagLength = 1..16</v>
</type>
@@ -256,20 +568,23 @@
<p>In AEAD (Authenticated Encryption with Associated Data) mode, encrypt
<c>PlainText</c>according to <c>Type</c> block cipher and calculate
<c>CipherTag</c> that also authenticates the <c>AAD</c> (Associated Authenticated Data).</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
+ <p>For keylengths, iv-sizes and blocksizes see the
+ <seealso marker="crypto:algorithm_details#ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>block_decrypt(Type, Key, Ivec, CipherText) -> PlainText</name>
- <name>block_decrypt(AeadType, Key, Ivec, {AAD, CipherText, CipherTag}) -> PlainText | error</name>
+ <name since="OTP R16B01">block_decrypt(Type, Key, Ivec, CipherText) -> PlainText</name>
+ <name since="OTP R16B01">block_decrypt(AeadType, Key, Ivec, {AAD, CipherText, CipherTag}) -> PlainText | error</name>
<fsummary>Decrypt <c>CipherText</c> according to <c>Type</c> block cipher</fsummary>
<type>
- <v>Type = block_cipher() </v>
- <v>AeadType = aead_cipher() </v>
- <v>Key = block_key() </v>
- <v>PlainText = iodata() </v>
+ <v>Type = <seealso marker="#type-block_cipher_with_iv">block_cipher_with_iv()</seealso></v>
+ <v>AeadType = <seealso marker="#type-aead_cipher">aead_cipher()</seealso></v>
+ <v>Key = <seealso marker="#type-key">key()</seealso> | <seealso marker="#type-des3_key">des3_key()</seealso></v>
+ <v>PlainText = iodata()</v>
<v>AAD = IVec = CipherText = CipherTag = binary()</v>
</type>
<desc>
@@ -279,19 +594,17 @@
<c>CipherText</c>according to <c>Type</c> block cipher and check the authenticity
the <c>PlainText</c> and <c>AAD</c> (Associated Authenticated Data) using the
<c>CipherTag</c>. May return <c>error</c> if the decryption or validation fail's</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
+ <p>For keylengths, iv-sizes and blocksizes see the
+ <seealso marker="crypto:algorithm_details#ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>bytes_to_integer(Bin) -> Integer </name>
+ <name name="bytes_to_integer" arity="1" since="OTP R16B01"/>
<fsummary>Convert binary representation, of an integer, to an Erlang integer.</fsummary>
- <type>
- <v>Bin = binary() - as returned by crypto functions</v>
-
- <v>Integer = integer() </v>
- </type>
<desc>
<p>Convert binary representation, of an integer, to an Erlang integer.
</p>
@@ -299,17 +612,8 @@
</func>
<func>
- <name>compute_key(Type, OthersPublicKey, MyKey, Params) -> SharedSecret</name>
+ <name name="compute_key" arity="4" since="OTP R16B01"/>
<fsummary>Computes the shared secret</fsummary>
- <type>
- <v> Type = dh | ecdh | srp </v>
- <v>OthersPublicKey = dh_public() | ecdh_public() | srp_public() </v>
- <v>MyKey = dh_private() | ecdh_private() | {srp_public(),srp_private()}</v>
- <v>Params = dh_params() | ecdh_params() | SrpUserParams | SrpHostParams</v>
- <v>SrpUserParams = {user, [DerivedKey::binary(), Prime::binary(), Generator::binary(), Version::atom() | [Scrambler:binary()]]} </v>
- <v>SrpHostParams = {host, [Verifier::binary(), Prime::binary(), Version::atom() | [Scrambler::binary]]} </v>
- <v>SharedSecret = binary()</v>
- </type>
<desc>
<p>Computes the shared secret from the private key and the other party's public key.
See also <seealso marker="public_key:public_key#compute_key-2">public_key:compute_key/2</seealso>
@@ -318,85 +622,61 @@
</func>
<func>
- <name>exor(Data1, Data2) -> Result</name>
+ <name name="exor" arity="2" since=""/>
<fsummary>XOR data</fsummary>
- <type>
- <v>Data1, Data2 = iodata()</v>
- <v>Result = binary()</v>
- </type>
<desc>
<p>Performs bit-wise XOR (exclusive or) on the data supplied.</p>
</desc>
</func>
- <func>
- <name>generate_key(Type, Params) -> {PublicKey, PrivKeyOut} </name>
- <name>generate_key(Type, Params, PrivKeyIn) -> {PublicKey, PrivKeyOut} </name>
+
+ <func>
+ <name name="generate_key" arity="2" since="OTP R16B01"/>
+ <name name="generate_key" arity="3" since="OTP R16B01"/>
<fsummary>Generates a public key of type <c>Type</c></fsummary>
- <type>
- <v> Type = dh | ecdh | rsa | srp </v>
- <v>Params = dh_params() | ecdh_params() | RsaParams | SrpUserParams | SrpHostParams </v>
- <v>RsaParams = {ModulusSizeInBits::integer(), PublicExponent::key_value()}</v>
- <v>SrpUserParams = {user, [Generator::binary(), Prime::binary(), Version::atom()]}</v>
- <v>SrpHostParams = {host, [Verifier::binary(), Generator::binary(), Prime::binary(), Version::atom()]}</v>
- <v>PublicKey = dh_public() | ecdh_public() | rsa_public() | srp_public() </v>
- <v>PrivKeyIn = undefined | dh_private() | ecdh_private() | srp_private() </v>
- <v>PrivKeyOut = dh_private() | ecdh_private() | rsa_private() | srp_private() </v>
- </type>
<desc>
<p>Generates a public key of type <c>Type</c>.
See also <seealso marker="public_key:public_key#generate_key-1">public_key:generate_key/1</seealso>.
- May throw exception an exception of class <c>error</c>:
+ May raise exception:
</p>
<list type="bulleted">
- <item><c>badarg</c>: an argument is of wrong type or has an illegal value,</item>
- <item><c>low_entropy</c>: the random generator failed due to lack of secure "randomness",</item>
- <item><c>computation_failed</c>: the computation fails of another reason than <c>low_entropy</c>.</item>
+ <item><c>error:badarg</c>: an argument is of wrong type or has an illegal value,</item>
+ <item><c>error:low_entropy</c>: the random generator failed due to lack of secure "randomness",</item>
+ <item><c>error:computation_failed</c>: the computation fails of another reason than <c>low_entropy</c>.</item>
</list>
<note>
<p>RSA key generation is only available if the runtime was
built with dirty scheduler support. Otherwise, attempting to
- generate an RSA key will throw exception <c>error:notsup</c>.</p>
+ generate an RSA key will raise exception <c>error:notsup</c>.</p>
</note>
</desc>
</func>
<func>
- <name>hash(Type, Data) -> Digest</name>
+ <name name="hash" arity="2" since="OTP R15B02"/>
<fsummary></fsummary>
- <type>
- <v>Type = md4 | hash_algorithms()</v>
- <v>Data = iodata()</v>
- <v>Digest = binary()</v>
- </type>
<desc>
<p>Computes a message digest of type <c>Type</c> from <c>Data</c>.</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
</desc>
</func>
<func>
- <name>hash_init(Type) -> Context</name>
+ <name name="hash_init" arity="1" since="OTP R15B02"/>
<fsummary></fsummary>
- <type>
- <v>Type = md4 | hash_algorithms()</v>
- </type>
<desc>
<p>Initializes the context for streaming hash operations. <c>Type</c> determines
which digest to use. The returned context should be used as argument
to <seealso marker="#hash_update-2">hash_update</seealso>.</p>
- <p>May throw exception <c>notsup</c> in case the chosen <c>Type</c>
- is not supported by the underlying OpenSSL implementation.</p>
+ <p>May raise exception <c>error:notsup</c> in case the chosen <c>Type</c>
+ is not supported by the underlying libcrypto implementation.</p>
</desc>
</func>
<func>
- <name>hash_update(Context, Data) -> NewContext</name>
+ <name name="hash_update" arity="2" since="OTP R15B02"/>
<fsummary></fsummary>
- <type>
- <v>Data = iodata()</v>
- </type>
<desc>
<p>Updates the digest represented by <c>Context</c> using the given <c>Data</c>. <c>Context</c>
must have been generated using <seealso marker="#hash_init-1">hash_init</seealso>
@@ -405,12 +685,10 @@
or <seealso marker="#hash_final-1">hash_final</seealso>.</p>
</desc>
</func>
+
<func>
- <name>hash_final(Context) -> Digest</name>
+ <name name="hash_final" arity="1" since="OTP R15B02"/>
<fsummary></fsummary>
- <type>
- <v>Digest = binary()</v>
- </type>
<desc>
<p>Finalizes the hash operation referenced by <c>Context</c> returned
from a previous call to <seealso marker="#hash_update-2">hash_update</seealso>.
@@ -420,16 +698,9 @@
</func>
<func>
- <name>hmac(Type, Key, Data) -> Mac</name>
- <name>hmac(Type, Key, Data, MacLength) -> Mac</name>
+ <name name="hmac" arity="3" since="OTP R16B"/>
+ <name name="hmac" arity="4" since="OTP R16B"/>
<fsummary></fsummary>
- <type>
- <v>Type = hash_algorithms() - except ripemd160</v>
- <v>Key = iodata()</v>
- <v>Data = iodata()</v>
- <v>MacLength = integer()</v>
- <v>Mac = binary()</v>
- </type>
<desc>
<p>Computes a HMAC of type <c>Type</c> from <c>Data</c> using
<c>Key</c> as the authentication key.</p> <p><c>MacLength</c>
@@ -438,13 +709,8 @@
</func>
<func>
- <name>hmac_init(Type, Key) -> Context</name>
+ <name name="hmac_init" arity="2" since="OTP R14B03"/>
<fsummary></fsummary>
- <type>
- <v>Type = hash_algorithms() - except ripemd160</v>
- <v>Key = iodata()</v>
- <v>Context = binary()</v>
- </type>
<desc>
<p>Initializes the context for streaming HMAC operations. <c>Type</c> determines
which hash function to use in the HMAC operation. <c>Key</c> is the authentication
@@ -453,12 +719,8 @@
</func>
<func>
- <name>hmac_update(Context, Data) -> NewContext</name>
+ <name name="hmac_update" arity="2" since="OTP R14B03"/>
<fsummary></fsummary>
- <type>
- <v>Context = NewContext = binary()</v>
- <v>Data = iodata()</v>
- </type>
<desc>
<p>Updates the HMAC represented by <c>Context</c> using the given <c>Data</c>. <c>Context</c>
must have been generated using an HMAC init function (such as
@@ -471,16 +733,13 @@
call to hmac_update or hmac_final. The semantics of reusing old contexts
in any way is undefined and could even crash the VM in earlier releases.
The reason for this limitation is a lack of support in the underlying
- OpenSSL API.</p></warning>
+ libcrypto API.</p></warning>
</desc>
</func>
<func>
- <name>hmac_final(Context) -> Mac</name>
+ <name name="hmac_final" arity="1" since="OTP R14B03"/>
<fsummary></fsummary>
- <type>
- <v>Context = Mac = binary()</v>
- </type>
<desc>
<p>Finalizes the HMAC operation referenced by <c>Context</c>. The size of the resultant MAC is
determined by the type of hash function used to generate it.</p>
@@ -488,12 +747,8 @@
</func>
<func>
- <name>hmac_final_n(Context, HashLen) -> Mac</name>
+ <name name="hmac_final_n" arity="2" since="OTP R14B03"/>
<fsummary></fsummary>
- <type>
- <v>Context = Mac = binary()</v>
- <v>HashLen = non_neg_integer()</v>
- </type>
<desc>
<p>Finalizes the HMAC operation referenced by <c>Context</c>. <c>HashLen</c> must be greater than
zero. <c>Mac</c> will be a binary with at most <c>HashLen</c> bytes. Note that if HashLen is greater than the actual number of bytes returned from the underlying hash, the returned hash will have fewer than <c>HashLen</c> bytes.</p>
@@ -501,16 +756,9 @@
</func>
<func>
- <name>cmac(Type, Key, Data) -> Mac</name>
- <name>cmac(Type, Key, Data, MacLength) -> Mac</name>
+ <name name="cmac" arity="3" since="OTP 20.0"/>
+ <name name="cmac" arity="4" since="OTP 20.0"/>
<fsummary>Calculates the Cipher-based Message Authentication Code.</fsummary>
- <type>
- <v>Type = block_cipher()</v>
- <v>Key = iodata()</v>
- <v>Data = iodata()</v>
- <v>MacLength = integer()</v>
- <v>Mac = binary()</v>
- </type>
<desc>
<p>Computes a CMAC of type <c>Type</c> from <c>Data</c> using
<c>Key</c> as the authentication key.</p> <p><c>MacLength</c>
@@ -519,20 +767,21 @@
</func>
<func>
- <name>info_fips() -> Status</name>
+ <name name="info_fips" arity="0" since="OTP 20.0"/>
<fsummary>Provides information about the FIPS operating status.</fsummary>
- <type>
- <v>Status = enabled | not_enabled | not_supported</v>
- </type>
<desc>
<p>Provides information about the FIPS operating status of
- crypto and the underlying OpenSSL library. If crypto was built
+ crypto and the underlying libcrypto library. If crypto was built
with FIPS support this can be either <c>enabled</c> (when
running in FIPS mode) or <c>not_enabled</c>. For other builds
- this value is always <c>not_supported</c>.</p>
+ this value is always <c>not_supported</c>.
+ </p>
+ <p>See <seealso marker="#enable_fips_mode-1">enable_fips_mode/1</seealso> about how to enable
+ FIPS mode.
+ </p>
<warning>
<p>In FIPS mode all non-FIPS compliant algorithms are
- disabled and throw exception <c>not_supported</c>. Check
+ disabled and raise exception <c>error:notsup</c>. Check
<seealso marker="#supports-0">supports</seealso> that in
FIPS mode returns the restricted list of available
algorithms.</p>
@@ -541,13 +790,23 @@
</func>
<func>
- <name>info_lib() -> [{Name,VerNum,VerStr}]</name>
+ <name name="enable_fips_mode" arity="1" since="OTP 21.1"/>
+ <fsummary>Change FIPS mode.</fsummary>
+ <desc>
+ <p>Enables (<c>Enable = true</c>) or disables (<c>Enable = false</c>) FIPS mode. Returns <c>true</c> if
+ the operation was successful or <c>false</c> otherwise.
+ </p>
+ <p>Note that to enable FIPS mode succesfully, OTP must be built with the configure option <c>--enable-fips</c>,
+ and the underlying libcrypto must also support FIPS.
+ </p>
+ <p>See also <seealso marker="#info_fips-0">info_fips/0</seealso>.
+ </p>
+ </desc>
+ </func>
+
+ <func>
+ <name name="info_lib" arity="0" since=""/>
<fsummary>Provides information about the libraries used by crypto.</fsummary>
- <type>
- <v>Name = binary()</v>
- <v>VerNum = integer()</v>
- <v>VerStr = binary()</v>
- </type>
<desc>
<p>Provides the name and version of the libraries used by crypto.</p>
<p><c>Name</c> is the name of the library. <c>VerNum</c> is
@@ -560,52 +819,45 @@
<note><p>
From OTP R16 the <em>numeric version</em> represents the version of the OpenSSL
<em>header files</em> (<c>openssl/opensslv.h</c>) used when crypto was compiled.
- The text variant represents the OpenSSL library used at runtime.
+ The text variant represents the libcrypto library used at runtime.
In earlier OTP versions both numeric and text was taken from the library.
</p></note>
</desc>
</func>
<func>
- <name>mod_pow(N, P, M) -> Result</name>
+ <name name="mod_pow" arity="3" since="OTP R16B01"/>
<fsummary>Computes the function: N^P mod M</fsummary>
- <type>
- <v>N, P, M = binary() | integer()</v>
- <v>Result = binary() | error</v>
- </type>
<desc>
<p>Computes the function <c>N^P mod M</c>.</p>
</desc>
</func>
<func>
- <name>next_iv(Type, Data) -> NextIVec</name>
- <name>next_iv(Type, Data, IVec) -> NextIVec</name>
- <fsummary></fsummary>
- <type>
- <v>Type = des_cbc | des3_cbc | aes_cbc | des_cfb</v>
- <v>Data = iodata()</v>
- <v>IVec = NextIVec = binary()</v>
- </type>
- <desc>
- <p>Returns the initialization vector to be used in the next
- iteration of encrypt/decrypt of type <c>Type</c>. <c>Data</c> is the
- encrypted data from the previous iteration step. The <c>IVec</c>
- argument is only needed for <c>des_cfb</c> as the vector used
- in the previous iteration step.</p>
- </desc>
+ <name name="next_iv" arity="2" since="OTP R16B01"/>
+ <name name="next_iv" arity="3" since="OTP R16B01"/>
+ <fsummary></fsummary>
+ <desc>
+ <p>Returns the initialization vector to be used in the next
+ iteration of encrypt/decrypt of type <c>Type</c>. <c>Data</c> is the
+ encrypted data from the previous iteration step. The <c>IVec</c>
+ argument is only needed for <c>des_cfb</c> as the vector used
+ in the previous iteration step.</p>
+ </desc>
</func>
<func>
- <name>private_decrypt(Type, CipherText, PrivateKey, Padding) -> PlainText</name>
+ <name name="poly1305" arity="2" since="OTP 21.1"/>
+ <fsummary></fsummary>
+ <desc>
+ <p>Computes a POLY1305 message authentication code (<c>Mac</c>) from <c>Data</c> using
+ <c>Key</c> as the authentication key.</p>
+ </desc>
+ </func>
+
+ <func>
+ <name name="private_decrypt" arity="4" since="OTP R16B01"/>
<fsummary>Decrypts CipherText using the private Key.</fsummary>
- <type>
- <v>Type = rsa</v>
- <v>CipherText = binary()</v>
- <v>PrivateKey = rsa_private() | engine_key_ref()</v>
- <v>Padding = rsa_pkcs1_padding | rsa_pkcs1_oaep_padding | rsa_no_padding</v>
- <v>PlainText = binary()</v>
- </type>
<desc>
<p>Decrypts the <c>CipherText</c>, encrypted with
<seealso marker="#public_encrypt-4">public_encrypt/4</seealso> (or equivalent function)
@@ -618,34 +870,8 @@
</func>
<func>
- <name>privkey_to_pubkey(Type, EnginePrivateKeyRef) -> PublicKey</name>
- <fsummary>Fetches a public key from an Engine stored private key.</fsummary>
- <type>
- <v>Type = rsa | dss</v>
- <v>EnginePrivateKeyRef = engine_key_ref()</v>
- <v>PublicKey = rsa_public() | dss_public()</v>
- </type>
- <desc>
- <p>Fetches the corresponding public key from a private key stored in an Engine.
- The key must be of the type indicated by the Type parameter.
- </p>
- </desc>
- </func>
-
- <func>
- <name>private_encrypt(Type, PlainText, PrivateKey, Padding) -> CipherText</name>
+ <name name="private_encrypt" arity="4" since="OTP R16B01"/>
<fsummary>Encrypts PlainText using the private Key.</fsummary>
- <type>
- <v>Type = rsa</v>
- <v>PlainText = binary()</v>
- <d> The size of the <c>PlainText</c> must be less
- than <c>byte_size(N)-11</c> if <c>rsa_pkcs1_padding</c> is
- used, and <c>byte_size(N)</c> if <c>rsa_no_padding</c> is
- used, where N is public modulus of the RSA key.</d>
- <v>PrivateKey = rsa_private() | engine_key_ref()</v>
- <v>Padding = rsa_pkcs1_padding | rsa_no_padding</v>
- <v>CipherText = binary()</v>
- </type>
<desc>
<p>Encrypts the <c>PlainText</c> using the <c>PrivateKey</c>
and returns the ciphertext. This is a low level signature operation
@@ -655,16 +881,10 @@
</p>
</desc>
</func>
+
<func>
- <name>public_decrypt(Type, CipherText, PublicKey, Padding) -> PlainText</name>
+ <name name="public_decrypt" arity="4" since="OTP R16B01"/>
<fsummary>Decrypts CipherText using the public Key.</fsummary>
- <type>
- <v>Type = rsa</v>
- <v>CipherText = binary()</v>
- <v>PublicKey = rsa_public() | engine_key_ref()</v>
- <v>Padding = rsa_pkcs1_padding | rsa_no_padding</v>
- <v>PlainText = binary()</v>
- </type>
<desc>
<p>Decrypts the <c>CipherText</c>, encrypted with
<seealso marker="#private_encrypt-4">private_encrypt/4</seealso>(or equivalent function)
@@ -677,19 +897,8 @@
</func>
<func>
- <name>public_encrypt(Type, PlainText, PublicKey, Padding) -> CipherText</name>
+ <name name="public_encrypt" arity="4" since="OTP R16B01"/>
<fsummary>Encrypts PlainText using the public Key.</fsummary>
- <type>
- <v>Type = rsa</v>
- <v>PlainText = binary()</v>
- <d> The size of the <c>PlainText</c> must be less
- than <c>byte_size(N)-11</c> if <c>rsa_pkcs1_padding</c> is
- used, and <c>byte_size(N)</c> if <c>rsa_no_padding</c> is
- used, where N is public modulus of the RSA key.</d>
- <v>PublicKey = rsa_public() | engine_key_ref()</v>
- <v>Padding = rsa_pkcs1_padding | rsa_pkcs1_oaep_padding | rsa_no_padding</v>
- <v>CipherText = binary()</v>
- </type>
<desc>
<p>Encrypts the <c>PlainText</c> (message digest) using the <c>PublicKey</c>
and returns the <c>CipherText</c>. This is a low level signature operation
@@ -700,23 +909,20 @@
</func>
<func>
- <name>rand_seed(Seed) -> ok</name>
+ <name name="rand_seed" arity="1" since="OTP 17.0"/>
<fsummary>Set the seed for random bytes generation</fsummary>
- <type>
- <v>Seed = binary()</v>
- </type>
<desc>
<p>Set the seed for PRNG to the given binary. This calls the
RAND_seed function from openssl. Only use this if the system
you are running on does not have enough "randomness" built in.
Normally this is when
<seealso marker="#strong_rand_bytes/1">strong_rand_bytes/1</seealso>
- throws <c>low_entropy</c></p>
+ raises <c>error:low_entropy</c></p>
</desc>
</func>
<func>
- <name>rand_uniform(Lo, Hi) -> N</name>
+ <name since="">rand_uniform(Lo, Hi) -> N</name>
<fsummary>Generate a random number</fsummary>
<type>
<v>Lo, Hi, N = integer()</v>
@@ -729,36 +935,15 @@
</func>
<func>
- <name>sign(Algorithm, DigestType, Msg, Key) -> binary()</name>
- <name>sign(Algorithm, DigestType, Msg, Key, Options) -> binary()</name>
- <fsummary> Create digital signature.</fsummary>
- <type>
- <v>Algorithm = rsa | dss | ecdsa </v>
- <v>Msg = binary() | {digest,binary()}</v>
- <d>The msg is either the binary "cleartext" data to be
- signed or it is the hashed value of "cleartext" i.e. the
- digest (plaintext).</d>
- <v>DigestType = rsa_digest_type() | dss_digest_type() | ecdsa_digest_type()</v>
- <v>Key = rsa_private() | dss_private() | [ecdh_private(),ecdh_params()] | engine_key_ref()</v>
- <v>Options = sign_options()</v>
- </type>
- <desc>
- <p>Creates a digital signature.</p>
- <p>Algorithm <c>dss</c> can only be used together with digest type
- <c>sha</c>.</p>
- <p>See also <seealso marker="public_key:public_key#sign-3">public_key:sign/3</seealso>.</p>
- </desc>
- </func>
-
- <func>
- <name>start() -> ok</name>
+ <name name="start" arity="0" since=""/>
<fsummary> Equivalent to application:start(crypto). </fsummary>
<desc>
<p> Equivalent to application:start(crypto).</p>
</desc>
</func>
+
<func>
- <name>stop() -> ok</name>
+ <name name="stop" arity="0" since=""/>
<fsummary> Equivalent to application:stop(crypto).</fsummary>
<desc>
<p> Equivalent to application:stop(crypto).</p>
@@ -766,23 +951,20 @@
</func>
<func>
- <name>strong_rand_bytes(N) -> binary()</name>
+ <name name="strong_rand_bytes" arity="1" since="OTP R14B03"/>
<fsummary>Generate a binary of random bytes</fsummary>
- <type>
- <v>N = integer()</v>
- </type>
<desc>
<p>Generates N bytes randomly uniform 0..255, and returns the
result in a binary. Uses a cryptographically secure prng seeded and
periodically mixed with operating system provided entropy. By default
this is the <c>RAND_bytes</c> method from OpenSSL.</p>
- <p>May throw exception <c>low_entropy</c> in case the random generator
+ <p>May raise exception <c>error:low_entropy</c> in case the random generator
failed due to lack of secure "randomness".</p>
</desc>
</func>
<func>
- <name>rand_seed() -> rand:state()</name>
+ <name name="rand_seed" arity="0" since="OTP 20.0"/>
<fsummary>Strong random number generation plugin state</fsummary>
<desc>
<p>
@@ -790,9 +972,16 @@
<seealso marker="stdlib:rand">random number generation</seealso>,
in order to generate cryptographically strong random numbers
(based on OpenSSL's <c>BN_rand_range</c>),
- and saves it on process dictionary before returning it as well.
+ and saves it in the process dictionary before returning it as well.
See also
- <seealso marker="stdlib:rand#seed-1">rand:seed/1</seealso>.
+ <seealso marker="stdlib:rand#seed-1">rand:seed/1</seealso> and
+ <seealso marker="#rand_seed_s-0">rand_seed_s/0</seealso>.
+ </p>
+ <p>
+ When using the state object from this function the
+ <seealso marker="stdlib:rand">rand</seealso> functions using it
+ may raise exception <c>error:low_entropy</c> in case the random generator
+ failed due to lack of secure "randomness".
</p>
<p><em>Example</em></p>
<pre>
@@ -803,7 +992,7 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>rand_seed_s() -> rand:state()</name>
+ <name name="rand_seed_s" arity="0" since="OTP 20.0"/>
<fsummary>Strong random number generation plugin state</fsummary>
<desc>
<p>
@@ -814,49 +1003,154 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
See also
<seealso marker="stdlib:rand#seed_s-1">rand:seed_s/1</seealso>.
</p>
+ <p>
+ When using the state object from this function the
+ <seealso marker="stdlib:rand">rand</seealso> functions using it
+ may raise exception <c>error:low_entropy</c> in case the random generator
+ failed due to lack of secure "randomness".
+ </p>
+ <note>
+ <p>
+ The state returned from this function can not be used
+ to get a reproducable random sequence as from
+ the other
+ <seealso marker="stdlib:rand">rand</seealso>
+ functions,
+ since reproducability does not match cryptographically safe.
+ </p>
+ <p>
+ The only supported usage is to generate one distinct
+ random sequence from this start state.
+ </p>
+ </note>
+ </desc>
+ </func>
+
+ <func>
+ <name since="OTP 21.0">rand_seed_alg(Alg) -> rand:state()</name>
+ <fsummary>Strong random number generation plugin state</fsummary>
+ <type>
+ <v>Alg = crypto | crypto_cache</v>
+ </type>
+ <desc>
+ <marker id="rand_seed_alg-1" />
+ <p>
+ Creates state object for
+ <seealso marker="stdlib:rand">random number generation</seealso>,
+ in order to generate cryptographically strong random numbers.
+ See also
+ <seealso marker="stdlib:rand#seed-1">rand:seed/1</seealso> and
+ <seealso marker="#rand_seed_alg_s-1">rand_seed_alg_s/1</seealso>.
+ </p>
+ <p>
+ When using the state object from this function the
+ <seealso marker="stdlib:rand">rand</seealso> functions using it
+ may raise exception <c>error:low_entropy</c> in case the random generator
+ failed due to lack of secure "randomness".
+ </p>
+ <p>
+ The cache size can be changed from its default value using the
+ <seealso marker="crypto_app">
+ crypto app's
+ </seealso> configuration parameter <c>rand_cache_size</c>.
+ </p>
+ <p><em>Example</em></p>
+ <pre>
+_ = crypto:rand_seed_alg(crypto_cache),
+_IntegerValue = rand:uniform(42), % [1; 42]
+_FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</desc>
</func>
<func>
- <name>stream_init(Type, Key) -> State</name>
- <fsummary></fsummary>
+ <name since="OTP 21.0">rand_seed_alg_s(Alg) -> rand:state()</name>
+ <fsummary>Strong random number generation plugin state</fsummary>
<type>
- <v>Type = rc4 </v>
- <v>State = opaque() </v>
- <v>Key = iodata()</v>
+ <v>Alg = crypto | crypto_cache</v>
</type>
<desc>
+ <marker id="rand_seed_alg_s-1" />
+ <p>
+ Creates state object for
+ <seealso marker="stdlib:rand">random number generation</seealso>,
+ in order to generate cryptographically strongly random numbers.
+ See also
+ <seealso marker="stdlib:rand#seed_s-1">rand:seed_s/1</seealso>.
+ </p>
+ <p>
+ If <c>Alg</c> is <c>crypto</c> this function behaves exactly like
+ <seealso marker="#rand_seed_s-0">rand_seed_s/0</seealso>.
+ </p>
+ <p>
+ If <c>Alg</c> is <c>crypto_cache</c> this function
+ fetches random data with OpenSSL's <c>RAND_bytes</c>
+ and caches it for speed using an internal word size
+ of 56 bits that makes calculations fast on 64 bit machines.
+ </p>
+ <p>
+ When using the state object from this function the
+ <seealso marker="stdlib:rand">rand</seealso> functions using it
+ may raise exception <c>error:low_entropy</c> in case the random generator
+ failed due to lack of secure "randomness".
+ </p>
+ <p>
+ The cache size can be changed from its default value using the
+ <seealso marker="crypto_app">
+ crypto app's
+ </seealso> configuration parameter <c>rand_cache_size</c>.
+ </p>
+ <note>
+ <p>
+ The state returned from this function can not be used
+ to get a reproducable random sequence as from
+ the other
+ <seealso marker="stdlib:rand">rand</seealso>
+ functions,
+ since reproducability does not match cryptographically safe.
+ </p>
+ <p>
+ In fact since random data is cached some numbers may
+ get reproduced if you try, but this is unpredictable.
+ </p>
+ <p>
+ The only supported usage is to generate one distinct
+ random sequence from this start state.
+ </p>
+ </note>
+ </desc>
+ </func>
+
+ <func>
+ <name name="stream_init" arity="2" since="OTP R16B01"/>
+ <fsummary></fsummary>
+ <desc>
<p>Initializes the state for use in RC4 stream encryption
<seealso marker="#stream_encrypt-2">stream_encrypt</seealso> and
<seealso marker="#stream_decrypt-2">stream_decrypt</seealso></p>
+ <p>For keylengths see the
+ <seealso marker="crypto:algorithm_details#stream-ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>stream_init(Type, Key, IVec) -> State</name>
+ <name name="stream_init" arity="3" since="OTP R16B01"/>
<fsummary></fsummary>
- <type>
- <v>Type = aes_ctr </v>
- <v>State = opaque() </v>
- <v>Key = iodata()</v>
- <v>IVec = binary()</v>
- </type>
<desc>
<p>Initializes the state for use in streaming AES encryption using Counter mode (CTR).
<c>Key</c> is the AES key and must be either 128, 192, or 256 bits long. <c>IVec</c> is
an arbitrary initializing vector of 128 bits (16 bytes). This state is for use with
<seealso marker="#stream_encrypt-2">stream_encrypt</seealso> and
<seealso marker="#stream_decrypt-2">stream_decrypt</seealso>.</p>
+ <p>For keylengths and iv-sizes see the
+ <seealso marker="crypto:algorithm_details#stream-ciphers">User's Guide</seealso>.
+ </p>
</desc>
</func>
<func>
- <name>stream_encrypt(State, PlainText) -> { NewState, CipherText}</name>
+ <name name="stream_encrypt" arity="2" since="OTP R16B01"/>
<fsummary></fsummary>
- <type>
- <v>Text = iodata()</v>
- <v>CipherText = binary()</v>
- </type>
<desc>
<p>Encrypts <c>PlainText</c> according to the stream cipher <c>Type</c> specified in stream_init/3.
<c>Text</c> can be any number of bytes. The initial <c>State</c> is created using
@@ -866,12 +1160,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>stream_decrypt(State, CipherText) -> { NewState, PlainText }</name>
+ <name name="stream_decrypt" arity="2" since="OTP R16B01"/>
<fsummary></fsummary>
- <type>
- <v>CipherText = iodata()</v>
- <v>PlainText = binary()</v>
- </type>
<desc>
<p>Decrypts <c>CipherText</c> according to the stream cipher <c>Type</c> specified in stream_init/3.
<c>PlainText</c> can be any number of bytes. The initial <c>State</c> is created using
@@ -881,60 +1171,57 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>supports() -> AlgorithmList </name>
+ <name name="supports" arity="0" since="OTP R16B01"/>
<fsummary>Provide a list of available crypto algorithms.</fsummary>
- <type>
- <v> AlgorithmList = [{hashs, [hash_algorithms()]},
- {ciphers, [cipher_algorithms()]},
- {public_keys, [public_key_algorithms()]},
- {macs, [mac_algorithms()]}]
- </v>
- </type>
<desc>
<p> Can be used to determine which crypto algorithms that are supported
- by the underlying OpenSSL library</p>
+ by the underlying libcrypto library</p>
+ <p>Note: the <c>rsa_opts</c> entry is in an experimental state and may change or be removed without notice.
+ No guarantee for the accuarcy of the rsa option's value list should be assumed.
+ </p>
</desc>
</func>
<func>
- <name>ec_curves() -> EllipticCurveList </name>
+ <name name="ec_curves" arity="0" since="OTP 17.0"/>
<fsummary>Provide a list of available named elliptic curves.</fsummary>
- <type>
- <v>EllipticCurveList = [ec_named_curve()]</v>
- </type>
<desc>
<p>Can be used to determine which named elliptic curves are supported.</p>
</desc>
</func>
<func>
- <name>ec_curve(NamedCurve) -> EllipticCurve </name>
+ <name name="ec_curve" arity="1" since="OTP 17.0"/>
<fsummary>Get the defining parameters of a elliptic curve.</fsummary>
- <type>
- <v>NamedCurve = ec_named_curve()</v>
- <v>EllipticCurve = ec_explicit_curve()</v>
- </type>
<desc>
<p>Return the defining parameters of a elliptic curve.</p>
</desc>
</func>
- <func>
- <name>verify(Algorithm, DigestType, Msg, Signature, Key) -> boolean()</name>
- <name>verify(Algorithm, DigestType, Msg, Signature, Key, Options) -> boolean()</name>
+ <func>
+ <name name="sign" arity="4" since="OTP R16B01"/>
+ <name name="sign" arity="5" since="OTP 20.1"/>
+ <fsummary> Create digital signature.</fsummary>
+ <desc>
+ <p>Creates a digital signature.</p>
+ <p>The msg is either the binary "cleartext" data to be
+ signed or it is the hashed value of "cleartext" i.e. the
+ digest (plaintext).</p>
+ <p>Algorithm <c>dss</c> can only be used together with digest type
+ <c>sha</c>.</p>
+ <p>See also <seealso marker="public_key:public_key#sign-3">public_key:sign/3</seealso>.</p>
+ </desc>
+ </func>
+
+ <func>
+ <name name="verify" arity="5" since="OTP R16B01"/>
+ <name name="verify" arity="6" since="OTP 20.1"/>
<fsummary>Verifies a digital signature.</fsummary>
- <type>
- <v> Algorithm = rsa | dss | ecdsa </v>
- <v>Msg = binary() | {digest,binary()}</v>
- <d>The msg is either the binary "cleartext" data
- or it is the hashed value of "cleartext" i.e. the digest (plaintext).</d>
- <v>DigestType = rsa_digest_type() | dss_digest_type() | ecdsa_digest_type()</v>
- <v>Signature = binary()</v>
- <v>Key = rsa_public() | dss_public() | [ecdh_public(),ecdh_params()] | engine_key_ref()</v>
- <v>Options = sign_options()</v>
- </type>
<desc>
<p>Verifies a digital signature</p>
+ <p>The msg is either the binary "cleartext" data to be
+ signed or it is the hashed value of "cleartext" i.e. the
+ digest (plaintext).</p>
<p>Algorithm <c>dss</c> can only be used together with digest type
<c>sha</c>.</p>
@@ -944,17 +1231,24 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
<!-- Engine functions -->
<func>
- <name>engine_get_all_methods() -> Result</name>
+ <name name="privkey_to_pubkey" arity="2" since="OTP 20.2"/>
+ <fsummary>Fetches a public key from an Engine stored private key.</fsummary>
+ <desc>
+ <p>Fetches the corresponding public key from a private key stored in an Engine.
+ The key must be of the type indicated by the Type parameter.
+ </p>
+ </desc>
+ </func>
+
+ <func>
+ <name name="engine_get_all_methods" arity="0" since="OTP 20.2"/>
<fsummary>Return list of all possible engine methods</fsummary>
- <type>
- <v>Result = [EngineMethod::atom()]</v>
- </type>
<desc>
<p>
Returns a list of all possible engine methods.
</p>
<p>
- May throw exception notsup in case there is
+ May raise exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -965,13 +1259,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>engine_load(EngineId, PreCmds, PostCmds) -> Result</name>
+ <name name="engine_load" arity="3" since="OTP 20.2"/>
<fsummary>Dynamical load an encryption engine</fsummary>
- <type>
- <v>EngineId = unicode:chardata()</v>
- <v>PreCmds, PostCmds = [{unicode:chardata(), unicode:chardata()}]</v>
- <v>Result = {ok, Engine::engine_ref()} | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Loads the OpenSSL engine given by <c>EngineId</c> if it is available and then returns ok and
@@ -980,8 +1269,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
returned if the engine can't be loaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -992,22 +1281,16 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>engine_load(EngineId, PreCmds, PostCmds, EngineMethods) -> Result</name>
+ <name name="engine_load" arity="4" since="OTP 20.2"/>
<fsummary>Dynamical load an encryption engine</fsummary>
- <type>
- <v>EngineId = unicode:chardata()</v>
- <v>PreCmds, PostCmds = [{unicode:chardata(), unicode:chardata()}]</v>
- <v>EngineMethods = [engine_method_type()]</v>
- <v>Result = {ok, Engine::engine_ref()} | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Loads the OpenSSL engine given by <c>EngineId</c> if it is available and then returns ok and
an engine handle. An error tuple is returned if the engine can't be loaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1018,20 +1301,16 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>engine_unload(Engine) -> Result</name>
+ <name name="engine_unload" arity="1" since="OTP 20.2"/>
<fsummary>Dynamical load an encryption engine</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Unloads the OpenSSL engine given by <c>Engine</c>.
An error tuple is returned if the engine can't be unloaded.
</p>
<p>
- The function throws a badarg if the parameter is in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameter is in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1042,20 +1321,16 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>engine_by_id(EngineId) -> Result</name>
+ <name name="engine_by_id" arity="1" since="OTP 21.0.6"/>
<fsummary>Get a reference to an already loaded engine</fsummary>
- <type>
- <v>EngineID = unicode:chardata()engine_ref()</v>
- <v>Result = {ok, Engine::engine_ref()} | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Get a reference to an already loaded engine with <c>EngineId</c>.
An error tuple is returned if the engine can't be unloaded.
</p>
<p>
- The function throws a badarg if the parameter is in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameter is in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1066,14 +1341,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>engine_ctrl_cmd_string(Engine, CmdName, CmdArg) -> Result</name>
+ <name name="engine_ctrl_cmd_string" arity="3" since="OTP 20.2"/>
<fsummary>Sends ctrl commands to an OpenSSL engine</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>CmdName = unicode:chardata()</v>
- <v>CmdArg = unicode:chardata()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Sends ctrl commands to the OpenSSL engine given by <c>Engine</c>.
@@ -1081,23 +1350,16 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
<c>Optional</c> set to <c>false</c>.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_ctrl_cmd_string(Engine, CmdName, CmdArg, Optional) -> Result</name>
+ <name name="engine_ctrl_cmd_string" arity="4" since="OTP 20.2"/>
<fsummary>Sends ctrl commands to an OpenSSL engine</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>CmdName = unicode:chardata()</v>
- <v>CmdArg = unicode:chardata()</v>
- <v>Optional = boolean()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Sends ctrl commands to the OpenSSL engine given by <c>Engine</c>.
@@ -1109,91 +1371,72 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
<c>false</c>.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_add(Engine) -> Result</name>
+ <name name="engine_add" arity="1" since="OTP 21.0.6"/>
<fsummary>Add engine to OpenSSL internal list</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>Add the engine to OpenSSL's internal list.</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_remove(Engine) -> Result</name>
+ <name name="engine_remove" arity="1" since="OTP 21.0.6"/>
<fsummary>Remove engine to OpenSSL internal list</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>Remove the engine from OpenSSL's internal list.</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_get_id(Engine) -> EngineId</name>
+ <name name="engine_get_id" arity="1" since="OTP 21.0.6"/>
<fsummary>Fetch engine ID</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>EngineId = unicode:chardata()</v>
- </type>
<desc>
<p>Return the ID for the engine, or an empty binary if there is no id set.</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_get_name(Engine) -> EngineName</name>
+ <name name="engine_get_name" arity="1" since="OTP 21.0.6"/>
<fsummary>Fetch engine name</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>EngineName = unicode:chardata()</v>
- </type>
<desc>
<p>Return the name (eg a description) for the engine, or an empty binary if there is no name set.</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>engine_list() -> Result</name>
+ <name name="engine_list" arity="0" since="OTP 20.2"/>
<fsummary>List the known engine ids</fsummary>
- <type>
- <v>Result = [EngineId::unicode:chardata()]</v>
- </type>
<desc>
<p>List the id's of all engines in OpenSSL's internal list.</p>
<p>
- It may also throw the exception notsup in case there is
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1201,20 +1444,15 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
in the User's Guide.
</p>
<p>
- May throw exception notsup in case engine functionality is not supported by the underlying
+ May raise exception <c>error:notsup</c> in case engine functionality is not supported by the underlying
OpenSSL implementation.
</p>
</desc>
</func>
<func>
- <name>ensure_engine_loaded(EngineId, LibPath) -> Result</name>
+ <name name="ensure_engine_loaded" arity="2" since="OTP 21.0.6"/>
<fsummary>Ensure encryption engine just loaded once</fsummary>
- <type>
- <v>EngineId = unicode:chardata()</v>
- <v>LibPath = unicode:chardata()</v>
- <v>Result = {ok, Engine::engine_ref()} | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Loads the OpenSSL engine given by <c>EngineId</c> and the path to the dynamic library
@@ -1223,8 +1461,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
returned if the engine can't be loaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1235,14 +1473,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>ensure_engine_loaded(EngineId, LibPath, EngineMethods) -> Result</name>
+ <name name="ensure_engine_loaded" arity="3" since="OTP 21.0.6"/>
<fsummary>Ensure encryption engine just loaded once</fsummary>
- <type>
- <v>EngineId = unicode:chardata()</v>
- <v>LibPath = unicode:chardata()</v>
- <v>EngineMethods = [engine_method_type()]</v>
- <v>Result = {ok, Engine::engine_ref()} | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Loads the OpenSSL engine given by <c>EngineId</c> and the path to the dynamic library
@@ -1252,8 +1484,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
An error tuple is returned if the engine can't be loaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1264,12 +1496,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>ensure_engine_unloaded(Engine) -> Result</name>
+ <name name="ensure_engine_unloaded" arity="1" since="OTP 21.0.6"/>
<fsummary>Unload an engine loaded with the ensure function</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Unloads an engine loaded with the <c>ensure_engine_loaded</c> function.
@@ -1279,8 +1507,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
returned if the engine can't be unloaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1291,13 +1519,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</func>
<func>
- <name>ensure_engine_unloaded(Engine, EngineMethods) -> Result</name>
+ <name name="ensure_engine_unloaded" arity="2" since="OTP 21.0.6"/>
<fsummary>Unload an engine loaded with the ensure function</fsummary>
- <type>
- <v>Engine = engine_ref()</v>
- <v>EngineMethods = [engine_method_type()]</v>
- <v>Result = ok | {error, Reason::term()}</v>
- </type>
<desc>
<p>
Unloads an engine loaded with the <c>ensure_engine_loaded</c> function.
@@ -1305,8 +1528,8 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
An error tuple is returned if the engine can't be unloaded.
</p>
<p>
- The function throws a badarg if the parameters are in wrong format.
- It may also throw the exception notsup in case there is
+ The function raises a <c>error:badarg</c> if the parameters are in wrong format.
+ It may also raise the exception <c>error:notsup</c> in case there is
no engine support in the underlying OpenSSL implementation.
</p>
<p>
@@ -1318,75 +1541,5 @@ _FloatValue = rand:uniform(). % [0.0; 1.0[</pre>
</funcs>
- <!-- Maybe put this in the users guide -->
- <!-- <section> -->
- <!-- <title>DES in CBC mode</title> -->
- <!-- <p>The Data Encryption Standard (DES) defines an algorithm for -->
- <!-- encrypting and decrypting an 8 byte quantity using an 8 byte key -->
- <!-- (actually only 56 bits of the key is used). -->
- <!-- </p> -->
- <!-- <p>When it comes to encrypting and decrypting blocks that are -->
- <!-- multiples of 8 bytes various modes are defined (NIST SP -->
- <!-- 800-38A). One of those modes is the Cipher Block Chaining (CBC) -->
- <!-- mode, where the encryption of an 8 byte segment depend not only -->
- <!-- of the contents of the segment itself, but also on the result of -->
- <!-- encrypting the previous segment: the encryption of the previous -->
- <!-- segment becomes the initializing vector of the encryption of the -->
- <!-- current segment. -->
- <!-- </p> -->
- <!-- <p>Thus the encryption of every segment depends on the encryption -->
- <!-- key (which is secret) and the encryption of the previous -->
- <!-- segment, except the first segment which has to be provided with -->
- <!-- an initial initializing vector. That vector could be chosen at -->
- <!-- random, or be a counter of some kind. It does not have to be -->
- <!-- secret. -->
- <!-- </p> -->
- <!-- <p>The following example is drawn from the old FIPS 81 standard -->
- <!-- (replaced by NIST SP 800-38A), where both the plain text and the -->
- <!-- resulting cipher text is settled. The following code fragment -->
- <!-- returns `true'. -->
- <!-- </p> -->
- <!-- <pre><![CDATA[ -->
-
- <!-- Key = <<16#01,16#23,16#45,16#67,16#89,16#ab,16#cd,16#ef>>, -->
- <!-- IVec = <<16#12,16#34,16#56,16#78,16#90,16#ab,16#cd,16#ef>>, -->
- <!-- P = "Now is the time for all ", -->
- <!-- C = crypto:des_cbc_encrypt(Key, IVec, P), -->
- <!-- % Which is the same as -->
- <!-- P1 = "Now is t", P2 = "he time ", P3 = "for all ", -->
- <!-- C1 = crypto:des_cbc_encrypt(Key, IVec, P1), -->
- <!-- C2 = crypto:des_cbc_encrypt(Key, C1, P2), -->
- <!-- C3 = crypto:des_cbc_encrypt(Key, C2, P3), -->
-
- <!-- C = <<C1/binary, C2/binary, C3/binary>>, -->
- <!-- C = <<16#e5,16#c7,16#cd,16#de,16#87,16#2b,16#f2,16#7c, -->
- <!-- 16#43,16#e9,16#34,16#00,16#8c,16#38,16#9c,16#0f, -->
- <!-- 16#68,16#37,16#88,16#49,16#9a,16#7c,16#05,16#f6>>, -->
- <!-- <<"Now is the time for all ">> == -->
- <!-- crypto:des_cbc_decrypt(Key, IVec, C). -->
- <!-- ]]></pre> -->
- <!-- <p>The following is true for the DES CBC mode. For all -->
- <!-- decompositions <c>P1 ++ P2 = P</c> of a plain text message -->
- <!-- <c>P</c> (where the length of all quantities are multiples of 8 -->
- <!-- bytes), the encryption <c>C</c> of <c>P</c> is equal to <c>C1 ++ -->
- <!-- C2</c>, where <c>C1</c> is obtained by encrypting <c>P1</c> with -->
- <!-- <c>Key</c> and the initializing vector <c>IVec</c>, and where -->
- <!-- <c>C2</c> is obtained by encrypting <c>P2</c> with <c>Key</c> -->
- <!-- and the initializing vector <c>last8(C1)</c>, -->
- <!-- where <c>last(Binary)</c> denotes the last 8 bytes of the -->
- <!-- binary <c>Binary</c>. -->
- <!-- </p> -->
- <!-- <p>Similarly, for all decompositions <c>C1 ++ C2 = C</c> of a -->
- <!-- cipher text message <c>C</c> (where the length of all quantities -->
- <!-- are multiples of 8 bytes), the decryption <c>P</c> of <c>C</c> -->
- <!-- is equal to <c>P1 ++ P2</c>, where <c>P1</c> is obtained by -->
- <!-- decrypting <c>C1</c> with <c>Key</c> and the initializing vector -->
- <!-- <c>IVec</c>, and where <c>P2</c> is obtained by decrypting -->
- <!-- <c>C2</c> with <c>Key</c> and the initializing vector -->
- <!-- <c>last8(C1)</c>, where <c>last8(Binary)</c> is as above. -->
- <!-- </p> -->
- <!-- <p>For DES3 (which uses three 64 bit keys) the situation is the -->
- <!-- same. -->
- <!-- </p> -->
- <!-- </section> -->
+
</erlref>