View Source public_key (public_key v1.16.3)

API module for public-key infrastructure.

Provides functions to handle public-key infrastructure, for details see public_key application.

Note

All records used in this Reference Manual are generated from ASN.1 specifications and are documented in the User's Guide. See Public-key Records.

Use the following include directive to get access to the records and constant macros described here and in the User's Guide:

 -include_lib("public_key/include/public_key.hrl").

Summary

Types: Common

ASN.1 type present in the Public Key applications ASN.1 specifications.

ASN.1 DER encoded entity.

Hash function used to create a message digest

Object identifier, a tuple of integers as generated by the ASN.1 compiler.

Types: Keys

Can be provided together with a custom private key, that specifies a key fun, to provide additional options understood by the fun.

ASN.1 defined private key format for the DSA algorithm.

ASN.1 defined public key format for the DSA algorithm.

ASN.1 defined public key format for the DSS algorithm (part of DSA key).

ASN.1 defined private key format for the ECDSA algorithm.

ASN.1 defined public key format for the ECDSA algorithm.

ASN.1 defined private key format for the EDDSA algorithm, possible oids: ?'id-Ed25519' | ?'id-Ed448'

ASN.1 defined public key format for the EDDSA algorithm, possible oids: ?'id-Ed25519' | ?'id-Ed448'

ASN.1 defined parameters for public key algorithms.

Supported private keys

Supported public keys

ASN.1 defined private key format plain RSA algorithm or customization fun.

ASN.1 defined private key format the RSSASSA-PSS algorithm or customization fun.

ASN.1 defined public key format for the RSSASSA-PSS algorithm.

ASN.1 defined public key format for plain RSA algorithm.

Types: PEM files

Possible Ciphers are "RC2-CBC" | "DES-CBC" | "DES-EDE3-CBC" Salt could be generated with crypto:strong_rand_bytes(8).

ASN.1 type that can be found in PEM files that can be decode by the public_key application.

Types: Certificates

The reason that a certifcate gets rejected by the certificate path validation.

An encoded or decode certificate.

A certificate is identified by its serial-number and Issuer Name.

A record that can be used to provide the certificate on both the DER encoded and the OTP decode format.

The value of the issuer part of a certificate.

Certificate policy information.

Information a certificates public key.

Types: Certificate Revocation

The reason that a certifcate has been revoked as define by RFC 5280.

Types: Test Data

Options to customize generated test certificates

Certificate customize options for diffrent parts of the certificate test chain.

Configuration options for the generated certificate test chain.

PEM API

Decodes PEM binary data and returns entries as ASN.1 DER encoded entities.

Creates a PEM binary.

Decodes a PEM entry. pem_decode/1 returns a list of PEM entries. Notice that if the PEM entry is of type 'SubjectPublickeyInfo', it is further decoded to an rsa_public_key/0 or dsa_public_key/0.

Creates a PEM entry that can be feed to pem_encode/1.

Key API

Computes shared secret.

Selects a group for Diffie-Hellman key exchange with the key size in the range MinSize...MaxSize and as close to SuggestedSize as possible. If Groups == undefined a default set will be used, otherwise the group is selected from Groups.

Generates a new key pair. Note that except for Diffie-Hellman the public key is included in the private key structure. See also crypto:generate_key/2

Sign/Verify API

Signs an 'OTPTBSCertificate'. Returns the corresponding DER-encoded certificate.

Verifies PKIX x.509 certificate signature.

Creates a digital signature.

Verifies a digital signature.

Certificate API

Clears any loaded CA certificates, returns true if any was loaded.

Returns the trusted CA certificates if any are loaded, otherwise uses cacerts_load/0 to load them. The function fails if no cacerts could be loaded.

Loads the OS supplied trusted CA certificates.

Loads the trusted CA certificates from a file.

Decodes an ASN.1 DER-encoded PKIX certificate.

DER encodes a PKIX x509 certificate or part of such a certificate.

Translates OID to Erlang digest type

Checks if a certificate is a fixed Diffie-Hellman certificate.

Checks if IssuerCert issued Cert.

Checks if a certificate is self-signed.

Returns the x509 certificate issuer id, if it can be determined.

Normalizes an issuer name so that it can be easily compared to another issuer name.

Performs a basic path validation according to RFC 5280.

Translates signature algorithm OID to Erlang digest and signature types.

Returns the X509 certificate subject id.

This function checks that the Presented Identifier (e.g hostname) in a peer certificate is in agreement with at least one of the Reference Identifier that the client expects to be connected to.

The return value of calling this function is intended to be used in the match_fun option in pkix_verify_hostname/3.

Certificate Revocation API

Returns the issuer of the CRL.

Verify that Cert is the CRL signer.

Performs CRL validation. It is intended to be called from the verify fun of pkix_path_validation/3 .

Creates a distribution point for CRLs issued by the same issuer as Cert. Can be used as input to pkix_crls_validate/3

Extracts distribution points from the certificates extensions.

Checks whether the given distribution point matches the Issuing Distribution Point of the CRL, as described in RFC 5280.

Perform OCSP response validation according to RFC 6960. Returns {'ok', Details} when OCSP response is successfully validated and {error, {bad_cert, Reason}} otherwise.

Generates a short hash of an issuer name. The hash is returned as a string containing eight hexadecimal digits.

ASN.1 Encoding API

Decodes a public-key ASN.1 DER encoded entity.

Encodes a public-key entity with ASN.1 DER encoding.

Test Data API

Creates certificate configuration(s) consisting of certificate and its private key plus CA certificate bundle, for a client and a server, intended to facilitate automated testing of applications using X509-certificates, often through SSL/TLS. The test data can be used when you have control over both the client and the server in a test scenario.

Generates a root certificate that can be used in multiple calls to pkix_test_data/1 when you want the same root certificate for several generated certificates.

Types: Common

-type asn1_type() :: atom().

ASN.1 type present in the Public Key applications ASN.1 specifications.

-type der_encoded() :: binary().

ASN.1 DER encoded entity.

-type digest_type() :: crypto:sha2() | crypto:sha1() | md5 | none.

Hash function used to create a message digest

-type oid() :: tuple().

Object identifier, a tuple of integers as generated by the ASN.1 compiler.

Types: Keys

-type custom_key_opts() :: [term()].

Can be provided together with a custom private key, that specifies a key fun, to provide additional options understood by the fun.

-type dsa_private_key() ::
          #'DSAPrivateKey'{version :: term(),
                           p :: term(),
                           q :: term(),
                           g :: term(),
                           y :: term(),
                           x :: term()}.

ASN.1 defined private key format for the DSA algorithm.

-type dsa_public_key() :: {dss_public_key(), #'Dss-Parms'{p :: term(), q :: term(), g :: term()}}.

ASN.1 defined public key format for the DSA algorithm.

Link to this type

dss_public_key()

View Source (not exported)
-type dss_public_key() :: pos_integer().

ASN.1 defined public key format for the DSS algorithm (part of DSA key).

-type ecdsa_private_key() ::
          #'ECPrivateKey'{version :: term(),
                          privateKey :: term(),
                          parameters :: term(),
                          publicKey :: term(),
                          attributes :: term()}.

ASN.1 defined private key format for the ECDSA algorithm.

-type ecdsa_public_key() ::
          {#'ECPoint'{point :: term()},
           {namedCurve, oid()} |
           #'ECParameters'{version :: term(),
                           fieldID :: term(),
                           curve :: term(),
                           base :: term(),
                           order :: term(),
                           cofactor :: term()}}.

ASN.1 defined public key format for the ECDSA algorithm.

-type eddsa_private_key() ::
          #'ECPrivateKey'{parameters :: {namedCurve, oid()},
                          version :: term(),
                          privateKey :: term(),
                          publicKey :: term(),
                          attributes :: term()}.

ASN.1 defined private key format for the EDDSA algorithm, possible oids: ?'id-Ed25519' | ?'id-Ed448'

-type eddsa_public_key() :: {#'ECPoint'{point :: term()}, {namedCurve, oid()}}.

ASN.1 defined public key format for the EDDSA algorithm, possible oids: ?'id-Ed25519' | ?'id-Ed448'

-type key_params() ::
          'NULL' |
          #'RSASSA-PSS-params'{hashAlgorithm :: term(),
                               maskGenAlgorithm :: term(),
                               saltLength :: term(),
                               trailerField :: term()} |
          {namedCurve, oid()} |
          #'ECParameters'{version :: term(),
                          fieldID :: term(),
                          curve :: term(),
                          base :: term(),
                          order :: term(),
                          cofactor :: term()} |
          #'Dss-Parms'{p :: term(), q :: term(), g :: term()}.

ASN.1 defined parameters for public key algorithms.

-type private_key() ::
          rsa_private_key() |
          rsa_pss_private_key() |
          dsa_private_key() |
          ecdsa_private_key() |
          eddsa_private_key() |
          #{algorithm := eddsa | rsa_pss_pss | ecdsa | rsa | dsa, sign_fun => fun()}.

Supported private keys

Supported public keys

-type rsa_private_key() ::
          #'RSAPrivateKey'{version :: term(),
                           modulus :: term(),
                           publicExponent :: term(),
                           privateExponent :: term(),
                           prime1 :: term(),
                           prime2 :: term(),
                           exponent1 :: term(),
                           exponent2 :: term(),
                           coefficient :: term(),
                           otherPrimeInfos :: term()} |
          #{algorithm := rsa, encrypt_fun => fun()}.

ASN.1 defined private key format plain RSA algorithm or customization fun.

-type rsa_pss_private_key() ::
          {#'RSAPrivateKey'{version :: term(),
                            modulus :: term(),
                            publicExponent :: term(),
                            privateExponent :: term(),
                            prime1 :: term(),
                            prime2 :: term(),
                            exponent1 :: term(),
                            exponent2 :: term(),
                            coefficient :: term(),
                            otherPrimeInfos :: term()},
           #'RSASSA-PSS-params'{hashAlgorithm :: term(),
                                maskGenAlgorithm :: term(),
                                saltLength :: term(),
                                trailerField :: term()}}.

ASN.1 defined private key format the RSSASSA-PSS algorithm or customization fun.

-type rsa_pss_public_key() ::
          {rsa_public_key(),
           #'RSASSA-PSS-params'{hashAlgorithm :: term(),
                                maskGenAlgorithm :: term(),
                                saltLength :: term(),
                                trailerField :: term()}}.

ASN.1 defined public key format for the RSSASSA-PSS algorithm.

-type rsa_public_key() :: #'RSAPublicKey'{modulus :: term(), publicExponent :: term()}.

ASN.1 defined public key format for plain RSA algorithm.

Types: PEM files

-type pem_entry() ::
          {pki_asn1_type(),
           DerOrDerEncrypted :: binary(),
           not_encrypted |
           {Cipher :: iodata(),
            Salt ::
                binary() |
                {#'PBEParameter'{salt :: term(), iterationCount :: term()}, digest_type()} |
                #'PBES2-params'{keyDerivationFunc :: term(), encryptionScheme :: term()}}}.

Possible Ciphers are "RC2-CBC" | "DES-CBC" | "DES-EDE3-CBC" Salt could be generated with crypto:strong_rand_bytes(8).

-type pki_asn1_type() ::
          'Certificate' | 'RSAPrivateKey' | 'RSAPublicKey' | 'SubjectPublicKeyInfo' | 'DSAPrivateKey' |
          'DHParameter' | 'PrivateKeyInfo' | 'CertificationRequest' | 'ContentInfo' |
          'CertificateList' | 'ECPrivateKey' | 'OneAsymmetricKey' | 'EcpkParameters'.

ASN.1 type that can be found in PEM files that can be decode by the public_key application.

Types: Certificates

-type bad_cert_reason() ::
          cert_expired | invalid_issuer | invalid_signature | name_not_permitted |
          missing_basic_constraint | invalid_key_usage | duplicate_cert_in_path |
          {policy_requirement_not_met, term()} |
          {invalid_policy_mapping, term()} |
          {revoked, crl_reason()} |
          invalid_validity_dates |
          {revocation_status_undetermined, term()} |
          atom().

The reason that a certifcate gets rejected by the certificate path validation.

-type cert() ::
          der_encoded() |
          #'OTPCertificate'{tbsCertificate :: term(), signatureAlgorithm :: term(), signature :: term()}.

An encoded or decode certificate.

-type cert_id() :: {SerialNr :: integer(), issuer_name()}.

A certificate is identified by its serial-number and Issuer Name.

-type combined_cert() ::
          #cert{der :: public_key:der_encoded(),
                otp ::
                    #'OTPCertificate'{tbsCertificate :: term(),
                                      signatureAlgorithm :: term(),
                                      signature :: term()}}.

A record that can be used to provide the certificate on both the DER encoded and the OTP decode format.

Such a construct can be useful to avoid conversions and problems that can arise due to relaxed decoding rules.

-type issuer_name() :: {rdnSequence, [[#'AttributeTypeAndValue'{type :: term(), value :: term()}]]}.

The value of the issuer part of a certificate.

-type policy_node() ::
          #{valid_policy := oid(),
            qualifier_set :=
                [#'UserNotice'{noticeRef :: term(), explicitText :: term()} | {uri, string()}],
            expected_policy_set := [oid()]}.

Certificate policy information.

-type public_key_info() ::
          {oid(), rsa_public_key() | #'ECPoint'{point :: term()} | dss_public_key(), key_params()}.

Information a certificates public key.

Possible oids: ?'rsaEncryption' | ?'id-RSASSA-PSS' | ?'id-ecPublicKey' | ?'id-Ed25519' | ?'id-Ed448' | ?'id-dsa'

Types: Certificate Revocation

Link to this type

crl_reason()

View Source (not exported)
-type crl_reason() ::
          unspecified | keyCompromise | cACompromise | affiliationChanged | superseded |
          cessationOfOperation | certificateHold | privilegeWithdrawn | aACompromise.

The reason that a certifcate has been revoked as define by RFC 5280.

Types: Test Data

-type cert_opt() ::
          {digest, digest_type()} |
          {key,
           {namedCurve, oid()} |
           #'ECParameters'{version :: term(),
                           fieldID :: term(),
                           curve :: term(),
                           base :: term(),
                           order :: term(),
                           cofactor :: term()} |
           {rsa, Size :: pos_integer(), Prime :: pos_integer()} |
           private_key()} |
          {validity, {From :: erlang:timestamp(), To :: erlang:timestamp()}} |
          {extensions, [#'Extension'{extnID :: term(), critical :: term(), extnValue :: term()}]}.

Options to customize generated test certificates

-type chain_opts() :: #{root := [cert_opt()], intermediates => [[cert_opt()]], peer := [cert_opt()]}.

Certificate customize options for diffrent parts of the certificate test chain.

-type conf_opt() :: {cert, der_encoded()} | {key, private_key()} | {cacerts, [der_encoded()]}.

Configuration options for the generated certificate test chain.

PEM API

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pem_decode(PemBin)

View Source (since OTP R14B)
-spec pem_decode(binary()) -> [pem_entry()].

Decodes PEM binary data and returns entries as ASN.1 DER encoded entities.

Example {ok, PemBin} = file:read_file("cert.pem"). PemEntries = public_key:pem_decode(PemBin).

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pem_encode(PemEntries)

View Source (since OTP R14B)
-spec pem_encode([pem_entry()]) -> binary().

Creates a PEM binary.

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pem_entry_decode(PemEntry)

View Source (since OTP R14B)
-spec pem_entry_decode(PemEntry) -> term() when PemEntry :: pem_entry().

Equivalent to pem_entry_decode(PemEntry, "").

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pem_entry_decode(PemEntry, Password)

View Source (since OTP R14B)
-spec pem_entry_decode(PemEntry, Password) -> term()
                          when PemEntry :: pem_entry(), Password :: iodata() | fun(() -> iodata()).

Decodes a PEM entry. pem_decode/1 returns a list of PEM entries. Notice that if the PEM entry is of type 'SubjectPublickeyInfo', it is further decoded to an rsa_public_key/0 or dsa_public_key/0.

Password can be either an octet string or function which returns same type.

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pem_entry_encode(Asn1Type, Entity)

View Source (since OTP R14B)
-spec pem_entry_encode(Asn1Type, Entity) -> pem_entry()
                          when Asn1Type :: pki_asn1_type(), Entity :: term().

Equivalent to pem_entry_encode/3.

Link to this function

pem_entry_encode(Asn1Type, Entity, InfoPwd)

View Source (since OTP R14B)
-spec pem_entry_encode(Asn1Type, Entity, InfoPwd) -> pem_entry()
                          when
                              Asn1Type :: pki_asn1_type(),
                              Entity :: term(),
                              InfoPwd :: {CipherInfo, Password},
                              CipherInfo ::
                                  {Cipher :: iodata(),
                                   Salt ::
                                       binary() |
                                       {#'PBEParameter'{salt :: term(), iterationCount :: term()},
                                        digest_type()} |
                                       #'PBES2-params'{keyDerivationFunc :: term(),
                                                       encryptionScheme :: term()}},
                              Password :: iodata().

Creates a PEM entry that can be feed to pem_encode/1.

If Asn1Type is 'SubjectPublicKeyInfo', Entity must be either an rsa_public_key/0, dsa_public_key/0 or an ecdsa_public_key/0 and this function creates the appropriate 'SubjectPublicKeyInfo' entry.

Key API

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compute_key(OthersECDHkey, MyECDHkey)

View Source (since OTP R16B01)
-spec compute_key(OthersECDHkey, MyECDHkey) -> SharedSecret
                     when
                         OthersECDHkey :: #'ECPoint'{point :: term()},
                         MyECDHkey ::
                             #'ECPrivateKey'{version :: term(),
                                             privateKey :: term(),
                                             parameters :: term(),
                                             publicKey :: term(),
                                             attributes :: term()},
                         SharedSecret :: binary().

Computes shared secret.

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compute_key(OthersDHkey, MyDHkey, DHparms)

View Source (since OTP R16B01)
-spec compute_key(OthersDHkey, MyDHkey, DHparms) -> SharedSecret
                     when
                         OthersDHkey :: crypto:dh_public(),
                         MyDHkey :: crypto:dh_private(),
                         DHparms ::
                             #'DHParameter'{prime :: term(),
                                            base :: term(),
                                            privateValueLength :: term()},
                         SharedSecret :: binary().

Computes shared secret.

Link to this function

dh_gex_group(MinSize, SuggestedSize, MaxSize, Groups)

View Source (since OTP 18.2)
-spec dh_gex_group(MinSize, SuggestedSize, MaxSize, Groups) -> {ok, {Size, Group}} | {error, term()}
                      when
                          MinSize :: pos_integer(),
                          SuggestedSize :: pos_integer(),
                          MaxSize :: pos_integer(),
                          Groups :: undefined | [{Size, [Group]}],
                          Size :: pos_integer(),
                          Group :: {G, P},
                          G :: pos_integer(),
                          P :: pos_integer().

Selects a group for Diffie-Hellman key exchange with the key size in the range MinSize...MaxSize and as close to SuggestedSize as possible. If Groups == undefined a default set will be used, otherwise the group is selected from Groups.

First a size, as close as possible to SuggestedSize, is selected. Then one group with that key size is randomly selected from the specified set of groups. If no size within the limits of MinSize and MaxSize is available, {error,no_group_found} is returned.

The default set of groups is listed in lib/public_key/priv/moduli. This file may be regenerated like this:

	$> cd $ERL_TOP/lib/public_key/priv/
	$> generate
         ---- wait until all background jobs has finished. It may take several days !
	$> cat moduli-* > moduli
	$> cd ..; make
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generate_key/1

View Source (since OTP R16B01)
-spec generate_key(DHparams | ECparams | RSAparams) -> DHkeys | ECkey | RSAkey
                      when
                          DHparams ::
                              #'DHParameter'{prime :: term(),
                                             base :: term(),
                                             privateValueLength :: term()},
                          DHkeys :: {PublicDH :: binary(), PrivateDH :: binary()},
                          ECparams ::
                              {namedCurve, oid() | atom()} |
                              #'ECParameters'{version :: term(),
                                              fieldID :: term(),
                                              curve :: term(),
                                              base :: term(),
                                              order :: term(),
                                              cofactor :: term()},
                          ECkey ::
                              #'ECPrivateKey'{version :: term(),
                                              privateKey :: term(),
                                              parameters :: term(),
                                              publicKey :: term(),
                                              attributes :: term()},
                          RSAparams :: {rsa, Size, PubExp},
                          Size :: pos_integer(),
                          PubExp :: pos_integer(),
                          RSAkey ::
                              #'RSAPrivateKey'{version :: term(),
                                               modulus :: term(),
                                               publicExponent :: term(),
                                               privateExponent :: term(),
                                               prime1 :: term(),
                                               prime2 :: term(),
                                               exponent1 :: term(),
                                               exponent2 :: term(),
                                               coefficient :: term(),
                                               otherPrimeInfos :: term()}.

Generates a new key pair. Note that except for Diffie-Hellman the public key is included in the private key structure. See also crypto:generate_key/2

Sign/Verify API

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pkix_sign(Cert, Key)

View Source (since OTP R14B)
-spec pkix_sign(Cert, Key) -> Der
                   when
                       Cert ::
                           #'OTPTBSCertificate'{version :: term(),
                                                serialNumber :: term(),
                                                signature :: term(),
                                                issuer :: term(),
                                                validity :: term(),
                                                subject :: term(),
                                                subjectPublicKeyInfo :: term(),
                                                issuerUniqueID :: term(),
                                                subjectUniqueID :: term(),
                                                extensions :: term()},
                       Key :: private_key(),
                       Der :: der_encoded().

Signs an 'OTPTBSCertificate'. Returns the corresponding DER-encoded certificate.

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pkix_verify(Cert, Key)

View Source (since OTP R14B)
-spec pkix_verify(Cert, Key) -> boolean() when Cert :: der_encoded(), Key :: public_key().

Verifies PKIX x.509 certificate signature.

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sign(Msg, DigestType, Key)

View Source
-spec sign(Msg, DigestType, Key) -> Signature
              when
                  Msg :: binary() | {digest, binary()},
                  DigestType :: digest_type(),
                  Key :: private_key(),
                  Signature :: binary().

Equivalent to sign(Msg, DigestType, Key, []).

Link to this function

sign(Msg, DigestType, Key, Options)

View Source (since OTP 20.1)
-spec sign(Msg, DigestType, Key, Options) -> Signature
              when
                  Msg :: binary() | {digest, binary()},
                  DigestType :: digest_type(),
                  Key :: private_key(),
                  Options :: crypto:pk_sign_verify_opts() | custom_key_opts(),
                  Signature :: binary().

Creates a digital signature.

The Msg is either the binary "plain text" data to be signed or it is the hashed value of "plain text", that is, the digest. The key, can besides a standard key, be a map specifing a key algorithm and a fun that should handle the signing. This may be used for customized signing with for instance hardware security modules (HSM) or trusted platform modules (TPM).

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verify(Msg, DigestType, Signature, Key)

View Source (since OTP R14B)
-spec verify(Msg, DigestType, Signature, Key) -> boolean()
                when
                    Msg :: binary() | {digest, binary()},
                    DigestType :: digest_type(),
                    Signature :: binary(),
                    Key :: public_key().

Equivalent to verify(Msg, DigestType, Signature, Key, []).

Link to this function

verify(Msg, DigestType, Signature, Key, Options)

View Source (since OTP 20.1)
-spec verify(Msg, DigestType, Signature, Key, Options) -> boolean()
                when
                    Msg :: binary() | {digest, binary()},
                    DigestType :: digest_type(),
                    Signature :: binary(),
                    Key :: public_key(),
                    Options :: crypto:pk_sign_verify_opts().

Verifies a digital signature.

The Msg is either the binary "plain text" data or it is the hashed value of "plain text", that is, the digest.

Certificate API

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cacerts_clear()

View Source (since OTP 25.0)
-spec cacerts_clear() -> boolean().

Clears any loaded CA certificates, returns true if any was loaded.

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cacerts_get()

View Source (since OTP 25.0)
-spec cacerts_get() -> [combined_cert()].

Returns the trusted CA certificates if any are loaded, otherwise uses cacerts_load/0 to load them. The function fails if no cacerts could be loaded.

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cacerts_load()

View Source (since OTP 25.0)
-spec cacerts_load() -> ok | {error, Reason :: term()}.

Loads the OS supplied trusted CA certificates.

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cacerts_load(File)

View Source (since OTP 25.0)
-spec cacerts_load(File :: file:filename_all()) -> ok | {error, Reason :: term()}.

Loads the trusted CA certificates from a file.

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pkix_decode_cert(Cert, Type)

View Source
-spec pkix_decode_cert(Cert, Type) ->
                          #'Certificate'{tbsCertificate :: term(),
                                         signatureAlgorithm :: term(),
                                         signature :: term()} |
                          #'OTPCertificate'{tbsCertificate :: term(),
                                            signatureAlgorithm :: term(),
                                            signature :: term()}
                          when Cert :: der_encoded(), Type :: plain | otp.

Decodes an ASN.1 DER-encoded PKIX certificate.

Option otp uses the customized ASN.1 specification OTP-PKIX.asn1 for decoding and also recursively decode most of the standard parts.

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pkix_encode(Asn1Type, Entity, Type)

View Source (since OTP R14B)
-spec pkix_encode(Asn1Type, Entity, Type) -> Der
                     when
                         Asn1Type :: asn1_type(),
                         Entity :: term(),
                         Type :: otp | plain,
                         Der :: der_encoded().

DER encodes a PKIX x509 certificate or part of such a certificate.

This function must be used for encoding certificates or parts of certificates that are decoded/created in the otp format, whereas for the plain format this function directly calls der_encode/2.

Note

Subtle ASN-1 encoding errors in certificates may be worked around when decoding, this may have the affect that the encoding a certificate back to DER may generate different bytes then the supplied original.

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pkix_hash_type(HashOid)

View Source (since OTP 23.0)
-spec pkix_hash_type(HashOid :: oid()) -> DigestType :: md5 | crypto:sha1() | crypto:sha2().

Translates OID to Erlang digest type

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pkix_is_fixed_dh_cert(Cert)

View Source (since OTP R14B)
-spec pkix_is_fixed_dh_cert(Cert) -> boolean() when Cert :: cert().

Checks if a certificate is a fixed Diffie-Hellman certificate.

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pkix_is_issuer(CertorCRL, IssuerCert)

View Source (since OTP R14B)
-spec pkix_is_issuer(CertorCRL, IssuerCert) -> boolean()
                        when
                            CertorCRL ::
                                cert() |
                                #'CertificateList'{tbsCertList :: term(),
                                                   signatureAlgorithm :: term(),
                                                   signature :: term()},
                            IssuerCert :: cert().

Checks if IssuerCert issued Cert.

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pkix_is_self_signed(Cert)

View Source (since OTP R14B)
-spec pkix_is_self_signed(Cert) -> boolean() when Cert :: cert().

Checks if a certificate is self-signed.

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pkix_issuer_id(Cert, IssuedBy)

View Source (since OTP R14B)
-spec pkix_issuer_id(Cert, IssuedBy) -> {ok, ID :: cert_id()} | {error, Reason}
                        when Cert :: cert(), IssuedBy :: self | other, Reason :: term().

Returns the x509 certificate issuer id, if it can be determined.

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pkix_normalize_name(Issuer)

View Source (since OTP R14B)
-spec pkix_normalize_name(Issuer) -> Normalized
                             when Issuer :: issuer_name() | der_encoded(), Normalized :: issuer_name().

Normalizes an issuer name so that it can be easily compared to another issuer name.

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pkix_path_validation(Cert, CertChain, Options)

View Source (since OTP R16B)
-spec pkix_path_validation(Cert, CertChain, Options) ->
                              {ok, {PublicKeyInfo, ConstrainedPolicyNodes}} |
                              {error, {bad_cert, Reason :: bad_cert_reason()}}
                              when
                                  Cert :: cert() | combined_cert() | atom(),
                                  CertChain :: [cert() | combined_cert()],
                                  Options ::
                                      [{max_path_length, integer()} | {verify_fun, {fun(), term()}}],
                                  PublicKeyInfo :: public_key_info(),
                                  ConstrainedPolicyNodes :: [policy_node()].

Performs a basic path validation according to RFC 5280.

However, CRL validation is done separately by pkix_crls_validate/3 and is to be called from the supplied verify_fun. The policy tree check was added in OTP-26.2 and if the certificates include policies the constrained policy set with potential qualifiers will be returned, these values are derived from the policy tree created as part of the path validation algorithm. The constrained set can be constrained only by the Certificate Authorities or also by the user when the option policy_set is provided to this function. The qualifiers convey information about the valid policy and is intended as information to end users.

Available options:

  • {verify_fun, {fun(), UserState::term()} - The fun must be defined as:

    fun(OtpCert :: #'OTPCertificate'{},
        Event :: {bad_cert, Reason :: atom() | {revoked, atom()}} |
                 {extension, #'Extension'{}},
        UserState :: term()) ->
      {valid, UserState :: term()} |
      {valid_peer, UserState :: term()} |
      {fail, Reason :: term()} |
      {unknown, UserState :: term()}.

    or as:

    fun(OtpCert :: #'OTPCertificate'{},
        DerCert :: der_encoded(),
        Event :: {bad_cert, Reason :: atom() | {revoked, atom()}} |
                 {extension, #'Extension'{}},
        UserState :: term()) ->
      {valid, UserState :: term()} |
      {valid_peer, UserState :: term()} |
      {fail, Reason :: term()} |
      {unknown, UserState :: term()}.

    The verify callback can have 3 or 4 arguments in case the DER encoded version is needed by the callback.

    If the verify callback fun returns {fail, Reason}, the verification process is immediately stopped. If the verify callback fun returns {valid, UserState}, the verification process is continued. This can be used to accept specific path validation errors, such as selfsigned_peer, as well as verifying application-specific extensions. If called with an extension unknown to the user application, the return value {unknown, UserState} is to be used.

    Note

    If you need the DER encoded version of the certificate and have the OTP decoded version encoding it back can fail to give the correct result, due to work arounds for common misbehaving encoders. So it is recommended to call pkix_path_validation with Cert and CertChain arguments as der_encoded() | #cert{} and [der_encoded() | #cert{}]. Also note that the path validation itself needs both the encoded and the decoded version of the certificate.

    Warning

    Note that user defined custom verify_fun may alter original path validation error (e.g selfsigned_peer). Use with caution.

  • {max_path_length, integer()} - The max_path_length is the maximum number of non-self-issued intermediate certificates that can follow the peer certificate in a valid certification path. So, if max_path_length is 0, the PEER must be signed by the trusted ROOT-CA directly, if it is 1, the path can be PEER, CA, ROOT-CA, if it is 2, the path can be PEER, CA, CA, ROOT-CA, and so on.

  • {policy_set, [oid()]}(Since OTP 26.2)
    The set of policies that will be accepted, defaults to the special value [?anyPolicy] that will accept all policies.

  • {explicit_policy, boolean()}(Since OTP 26.2)
    Explicitly require that each certificate in the path must include at least one of the certificate policies in the policy_set.

  • {inhibit_policy_mapping, boolean()}(Since OTP 26.2)
    Prevent policies to be mapped to other policies.

  • {inhibit_any_policy, boolean()}(Since OTP 26.2)
    Prevent the special policy ?anyPolicy from being accepted.

Explanations of reasons for a bad certificate:

  • cert_expired - Certificate is no longer valid as its expiration date has passed.

  • invalid_issuer - Certificate issuer name does not match the name of the issuer certificate in the chain.

  • invalid_signature - Certificate was not signed by its issuer certificate in the chain.

  • name_not_permitted - Invalid Subject Alternative Name extension.

  • missing_basic_constraint - Certificate, required to have the basic constraints extension, does not have a basic constraints extension.

  • invalid_key_usage - Certificate key is used in an invalid way according to the key-usage extension.

  • {revoked, crl_reason()} - Certificate has been revoked.

  • invalid_validity_dates - The validity section of the X.509 certificate(s) contains invalid date formats not matching the RFC.

  • atom() - Application-specific error reason that is to be checked by the verify_fun.

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pkix_sign_types(AlgorithmId)

View Source (since OTP R16B01)
-spec pkix_sign_types(AlgorithmId) -> {DigestType, SignatureType}
                         when
                             AlgorithmId :: oid(),
                             DigestType :: digest_type(),
                             SignatureType :: rsa | dsa | ecdsa | eddsa.

Translates signature algorithm OID to Erlang digest and signature types.

The AlgorithmId is the signature OID from a certificate or a certificate revocation list.

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pkix_subject_id(Cert)

View Source (since OTP 23.1)
-spec pkix_subject_id(Cert) -> ID when Cert :: cert(), ID :: cert_id().

Returns the X509 certificate subject id.

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pkix_verify_hostname(Cert, ReferenceIDs)

View Source (since OTP 19.3)
-spec pkix_verify_hostname(Cert, ReferenceIDs) -> boolean()
                              when
                                  Cert :: cert(),
                                  ReferenceIDs ::
                                      [{uri_id | dns_id | ip | srv_id | atom() | oid(), string()} |
                                       {ip, inet:ip_address() | string()}].

Equivalent to pkix_verify_hostname(Cert, ReferenceIDs, []).

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pkix_verify_hostname(Cert, ReferenceIDs, Options)

View Source (since OTP 19.3)
-spec pkix_verify_hostname(Cert, ReferenceIDs, Options) -> boolean()
                              when
                                  Cert :: cert(),
                                  ReferenceIDs ::
                                      [{uri_id | dns_id | ip | srv_id | atom() | oid(), string()} |
                                       {ip, inet:ip_address() | string()}],
                                  Options :: [{match_fun | fail_callback | fqdn_fun, fun()}].

This function checks that the Presented Identifier (e.g hostname) in a peer certificate is in agreement with at least one of the Reference Identifier that the client expects to be connected to.

The function is intended to be added as an extra client check of the peer certificate when performing public_key:pkix_path_validation/3

See RFC 6125 for detailed information about hostname verification. The User's Guide and code examples describes this function more detailed.

The option funs are described here:

  • match_fun

    fun(ReferenceId::ReferenceId() | FQDN::string(),
        PresentedId::{dNSName,string()} | {uniformResourceIdentifier,string() |
                     {iPAddress,list(byte())} | {OtherId::atom()|oid(),term()}})

    This function replaces the default host name matching rules. The fun should return a boolean to tell if the Reference ID and Presented ID matches or not. The match fun can also return a third value, value, the atom default, if the default matching rules shall apply. This makes it possible to augment the tests with a special case:

    fun(....) -> true;   % My special case
       (_, _) -> default % all others falls back to the inherit tests
    end

    See pkix_verify_hostname_match_fun/1 for a function that takes a protocol name as argument and returns a fun/2 suitable for this option and Re-defining the match operation in the User's Guide for an example.

    Note

    Reference Id values given as binaries will be converted to strings, and ip references may be given in string format that is "10.0.1.1" or "1234::5678:9012" as well as on the format inet:ip_address/0

  • fail_callback - If a matching fails, there could be circumstances when the certificate should be accepted anyway. Think for example of a web browser where you choose to accept an outdated certificate. This option enables implementation of such an exception but for hostnames. This fun/1 is called when no ReferenceID matches. The return value of the fun (a boolean/0) decides the outcome. If true the the certificate is accepted otherwise it is rejected. See "Pinning" a Certificate in the User's Guide.

  • fqdn_fun - This option augments the host name extraction from URIs and other Reference IDs. It could for example be a very special URI that is not standardised. The fun takes a Reference ID as argument and returns one of:

    • the hostname
    • the atom default: the default host name extract function will be used
    • the atom undefined: a host name could not be extracted. The pkix_verify_hostname/3 will return false.

    For an example, see Hostname extraction in the User's Guide.

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pkix_verify_hostname_match_fun(Protocol)

View Source (since OTP 21.0)
-spec pkix_verify_hostname_match_fun(Protocol) -> Result when Protocol :: https, Result :: fun().

The return value of calling this function is intended to be used in the match_fun option in pkix_verify_hostname/3.

The returned fun augments the verify hostname matching according to the specific rules for the protocol in the argument.

Note

Currently supported https fun will allow wildcard certificate matching as specified by the HTTP standard. Note that for instance LDAP have a different set of wildcard matching rules. If you do not want to allow wildcard certificates (recommended from a security perspective) or otherwise customize the hostname match the default match function used by ssl application will be sufficient.

Certificate Revocation API

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pkix_crl_issuer(CRL)

View Source (since OTP 17.5)
-spec pkix_crl_issuer(CRL) -> Issuer
                         when
                             CRL ::
                                 der_encoded() |
                                 #'CertificateList'{tbsCertList :: term(),
                                                    signatureAlgorithm :: term(),
                                                    signature :: term()},
                             Issuer :: issuer_name().

Returns the issuer of the CRL.

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pkix_crl_verify(CRL, Cert)

View Source (since OTP 17.5)
-spec pkix_crl_verify(CRL, Cert) -> boolean()
                         when
                             CRL ::
                                 der_encoded() |
                                 #'CertificateList'{tbsCertList :: term(),
                                                    signatureAlgorithm :: term(),
                                                    signature :: term()},
                             Cert :: cert().

Verify that Cert is the CRL signer.

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pkix_crls_validate(OTPcertificate, DPandCRLs, Options)

View Source (since OTP R16B)
-spec pkix_crls_validate(OTPcertificate, DPandCRLs, Options) -> CRLstatus
                            when
                                OTPcertificate ::
                                    #'OTPCertificate'{tbsCertificate :: term(),
                                                      signatureAlgorithm :: term(),
                                                      signature :: term()},
                                DPandCRLs :: [DPandCRL],
                                DPandCRL :: {DP, {DerCRL, CRL}},
                                DP ::
                                    #'DistributionPoint'{distributionPoint :: term(),
                                                         reasons :: term(),
                                                         cRLIssuer :: term()},
                                DerCRL :: der_encoded(),
                                CRL ::
                                    #'CertificateList'{tbsCertList :: term(),
                                                       signatureAlgorithm :: term(),
                                                       signature :: term()},
                                Options :: [{atom(), term()}],
                                CRLstatus :: valid | {bad_cert, BadCertReason},
                                BadCertReason ::
                                    revocation_status_undetermined |
                                    {revocation_status_undetermined, Reason :: term()} |
                                    {revoked, crl_reason()}.

Performs CRL validation. It is intended to be called from the verify fun of pkix_path_validation/3 .

Available options:

  • {update_crl, fun()} - The fun has the following type specification:

     fun(#'DistributionPoint'{}, #'CertificateList'{}) ->
            #'CertificateList'{}

    The fun uses the information in the distribution point to access the latest possible version of the CRL. If this fun is not specified, Public Key uses the default implementation:

     fun(_DP, CRL) -> CRL end
  • {issuer_fun, {fun(), UserState::term()}} - The fun has the following type specification:

    fun(#'DistributionPoint'{}, #'CertificateList'{},
        {rdnSequence,[#'AttributeTypeAndValue'{}]}, UserState::term()) ->
      {ok, #'OTPCertificate'{}, [der_encoded]}

    The fun returns the root certificate and certificate chain that has signed the CRL.

     fun(DP, CRL, Issuer, UserState) -> {ok, RootCert, CertChain}
  • {undetermined_details, boolean()} - Defaults to false. When revocation status cannot be determined, and this option is set to true, details of why no CRLs where accepted are included in the return value.

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pkix_dist_point(Cert)

View Source (since OTP 17.5)
-spec pkix_dist_point(Cert) -> DistPoint
                         when
                             Cert :: cert(),
                             DistPoint ::
                                 #'DistributionPoint'{distributionPoint :: term(),
                                                      reasons :: term(),
                                                      cRLIssuer :: term()}.

Creates a distribution point for CRLs issued by the same issuer as Cert. Can be used as input to pkix_crls_validate/3

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pkix_dist_points(Cert)

View Source (since OTP 17.5)
-spec pkix_dist_points(Cert) -> DistPoints
                          when
                              Cert :: cert(),
                              DistPoints ::
                                  [#'DistributionPoint'{distributionPoint :: term(),
                                                        reasons :: term(),
                                                        cRLIssuer :: term()}].

Extracts distribution points from the certificates extensions.

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pkix_match_dist_point(CRL, DistPoint)

View Source (since OTP 19.0)
-spec pkix_match_dist_point(CRL, DistPoint) -> boolean()
                               when
                                   CRL ::
                                       der_encoded() |
                                       #'CertificateList'{tbsCertList :: term(),
                                                          signatureAlgorithm :: term(),
                                                          signature :: term()},
                                   DistPoint ::
                                       #'DistributionPoint'{distributionPoint :: term(),
                                                            reasons :: term(),
                                                            cRLIssuer :: term()}.

Checks whether the given distribution point matches the Issuing Distribution Point of the CRL, as described in RFC 5280.

If the CRL doesn't have an Issuing Distribution Point extension, the distribution point always matches.

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pkix_ocsp_validate(Cert, IssuerCert, OcspRespDer, NonceExt, Options)

View Source (since OTP 27.0)
-spec pkix_ocsp_validate(Cert, IssuerCert, OcspRespDer, NonceExt, Options) ->
                            {ok, Details} | {error, {bad_cert, Reason}}
                            when
                                Cert :: cert(),
                                IssuerCert :: cert(),
                                OcspRespDer :: der_encoded(),
                                NonceExt :: undefined | binary(),
                                Options ::
                                    [{is_trusted_responder_fun, fun((combined_cert()) -> boolean)}],
                                Details :: list(),
                                Reason :: bad_cert_reason().

Perform OCSP response validation according to RFC 6960. Returns {'ok', Details} when OCSP response is successfully validated and {error, {bad_cert, Reason}} otherwise.

Available options:

  • {is_trusted_responder_fun, fun()} - The fun has the following type specification:

     fun(#cert{}) ->
        boolean()

    The fun returns the true if certificate in the argument is trusted. If this fun is not specified, Public Key uses the default implementation:

     fun(_) -> false end

Note

OCSP response can be provided without a nonce value - even if it was requested by the client. In such cases {missing, ocsp_nonce} will be returned in Details list.

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short_name_hash(Name)

View Source (since OTP 19.0)
-spec short_name_hash(Name) -> string() when Name :: issuer_name().

Generates a short hash of an issuer name. The hash is returned as a string containing eight hexadecimal digits.

The return value of this function is the same as the result of the commands openssl crl -hash and openssl x509 -issuer_hash, when passed the issuer name of a CRL or a certificate, respectively. This hash is used by the c_rehash tool to maintain a directory of symlinks to CRL files, in order to facilitate looking up a CRL by its issuer name.

ASN.1 Encoding API

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der_decode(Asn1Type, Der)

View Source (since OTP R14B)
-spec der_decode(Asn1Type, Der) -> Entity
                    when Asn1Type :: asn1_type(), Der :: der_encoded(), Entity :: term().

Decodes a public-key ASN.1 DER encoded entity.

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der_encode(Asn1Type, Entity)

View Source (since OTP R14B)
-spec der_encode(Asn1Type, Entity) -> Der
                    when Asn1Type :: asn1_type(), Entity :: term(), Der :: binary().

Encodes a public-key entity with ASN.1 DER encoding.

Test Data API

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pkix_test_data(ChainConf)

View Source (since OTP 20.1)
-spec pkix_test_data(ChainConf) -> TestConf
                        when
                            ChainConf ::
                                #{server_chain := chain_opts(), client_chain := chain_opts()} |
                                chain_opts(),
                            TestConf ::
                                #{server_config := [conf_opt()], client_config := [conf_opt()]} |
                                [conf_opt()].

Creates certificate configuration(s) consisting of certificate and its private key plus CA certificate bundle, for a client and a server, intended to facilitate automated testing of applications using X509-certificates, often through SSL/TLS. The test data can be used when you have control over both the client and the server in a test scenario.

When this function is called with a map containing client and server chain specifications; it generates both a client and a server certificate chain where the cacerts returned for the server contains the root cert the server should trust and the intermediate certificates the server should present to connecting clients. The root cert the server should trust is the one used as root of the client certificate chain. Vice versa applies to the cacerts returned for the client. The root cert(s) can either be pre-generated with pkix_test_root_cert/2 , or if options are specified; it is (they are) generated.

When this function is called with a list of certificate options; it generates a configuration with just one node certificate where cacerts contains the root cert and the intermediate certs that should be presented to a peer. In this case the same root cert must be used for all peers. This is useful in for example an Erlang distributed cluster where any node, towards another node, acts either as a server or as a client depending on who connects to whom. The generated certificate contains a subject altname, which is not needed in a client certificate, but makes the certificate useful for both roles.

Explanation of the options used to customize certificates in the generated chains:

  • {digest, digest_type()} - Hash algorithm to be used for signing the certificate together with the key option. Defaults to sha that is sha1.

  • {key, ec_params()| {rsa, Size:pos_integer(), Prime::pos_integer()} | private_key()} - Parameters to be used to call public_key:generate_key/1, to generate a key, or an existing key. Defaults to generating an ECDSA key. Note this could fail if Erlang/OTP is compiled with a very old cryptolib.

  • {validity, {From::erlang:timestamp(), To::erlang:timestamp()}} - The validity period of the certificate.

  • {extensions, [#'Extension'{}]} - Extensions to include in the certificate.

    Default extensions included in CA certificates if not otherwise specified are:

    [#'Extension'{extnID = ?'id-ce-keyUsage',
                  extnValue = [keyCertSign, cRLSign],
                  critical = false},
    #'Extension'{extnID = ?'id-ce-basicConstraints',
                 extnValue = #'BasicConstraints'{cA = true},
                 critical = true}]

    Default extensions included in the server peer cert if not otherwise specified are:

    [#'Extension'{extnID = ?'id-ce-keyUsage',
                  extnValue = [digitalSignature, keyAgreement],
                  critical = false},
    #'Extension'{extnID = ?'id-ce-subjectAltName',
                 extnValue = [{dNSName, Hostname}],
                 critical = false}]

    Hostname is the result of calling net_adm:localhost() in the Erlang node where this function is called.

Note

Note that the generated certificates and keys does not provide a formally correct PKIX-trust-chain and they cannot be used to achieve real security. This function is provided for testing purposes only.

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pkix_test_root_cert(Name, Options)

View Source (since OTP 20.2)
-spec pkix_test_root_cert(Name, Options) -> RootCertAndKey
                             when
                                 Name :: string(),
                                 Options :: [cert_opt()],
                                 RootCertAndKey :: #{cert := der_encoded(), key := private_key()}.

Generates a root certificate that can be used in multiple calls to pkix_test_data/1 when you want the same root certificate for several generated certificates.

Legacy RSA Encryption API

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decrypt_private(CipherText, Key)

View Source (since OTP R14B)
-spec decrypt_private(CipherText, Key) -> PlainText
                         when CipherText :: binary(), Key :: rsa_private_key(), PlainText :: binary().

Equivalent to decrypt_private(CipherText, Key, []).

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decrypt_private(CipherText, Key, Options)

View Source (since OTP R14B)
-spec decrypt_private(CipherText, Key, Options) -> PlainText
                         when
                             CipherText :: binary(),
                             Key :: rsa_private_key(),
                             Options :: crypto:pk_encrypt_decrypt_opts(),
                             PlainText :: binary().

Public-key decryption using the private key. See also crypto:private_decrypt/4

Warning

This is a legacy function, for security reasons do not use with rsa_pkcs1_padding.

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decrypt_public(CipherText, Key)

View Source (since OTP R14B)
-spec decrypt_public(CipherText, Key) -> PlainText
                        when CipherText :: binary(), Key :: rsa_public_key(), PlainText :: binary().

Equivalent to decrypt_public(CipherText, Key, []).

Link to this function

decrypt_public(CipherText, Key, Options)

View Source (since OTP R14B)
-spec decrypt_public(CipherText, Key, Options) -> PlainText
                        when
                            CipherText :: binary(),
                            Key :: rsa_public_key(),
                            Options :: crypto:pk_encrypt_decrypt_opts(),
                            PlainText :: binary().

Public-key decryption using the public key. See also crypto:public_decrypt/4

Warning

This is a legacy function, for security reasons do not use with rsa_pkcs1_padding. For digital signatures the use of verify/4 together with sign/3 is a prefered solution.

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encrypt_private(PlainText, Key)

View Source (since OTP R14B)
-spec encrypt_private(PlainText, Key) -> CipherText
                         when PlainText :: binary(), Key :: rsa_private_key(), CipherText :: binary().

Equivalent to encrypt_private(PlainText, Key, []).

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encrypt_private(PlainText, Key, Options)

View Source (since OTP 21.1)
-spec encrypt_private(PlainText, Key, Options) -> CipherText
                         when
                             PlainText :: binary(),
                             Key :: rsa_private_key(),
                             Options :: crypto:pk_encrypt_decrypt_opts() | custom_key_opts(),
                             CipherText :: binary().

Public-key encryption using the private key.

See also crypto:private_encrypt/4. The key, can besides a standard RSA key, be a map specifing the key algorithm rsa and a fun to handle the encryption operation. This may be used for customized the encryption operation with for instance hardware security modules (HSM) or trusted platform modules (TPM).

Warning

This is a legacy function, for security reasons do not use with rsa_pkcs1_padding. For digital signatures use of sign/3 together with verify/4 is the prefered solution.

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encrypt_public(PlainText, Key)

View Source (since OTP R14B)
-spec encrypt_public(PlainText, Key) -> CipherText
                        when PlainText :: binary(), Key :: rsa_public_key(), CipherText :: binary().

Equivalent to encrypt_public(PlainText, Key, []).

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encrypt_public(PlainText, Key, Options)

View Source (since OTP 21.1)
-spec encrypt_public(PlainText, Key, Options) -> CipherText
                        when
                            PlainText :: binary(),
                            Key :: rsa_public_key(),
                            Options :: crypto:pk_encrypt_decrypt_opts(),
                            CipherText :: binary().

Public-key encryption using the public key. See also crypto:public_encrypt/4.

Warning

This is a legacy function, for security reasons do not use with rsa_pkcs1_padding.