laipower/wp-content/plugins/wp-webauthn/wp-webauthn-vendor/thecodingmachine/safe/generated/openssl.php

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<?php
namespace Safe;
use Safe\Exceptions\OpensslException;
/**
* Gets the cipher initialization vector (iv) length.
*
* @param string $method The cipher method, see openssl_get_cipher_methods for a list of potential values.
* @return int Returns the cipher length on success.
* @throws OpensslException
*
*/
function openssl_cipher_iv_length(string $method): int
{
error_clear_last();
$result = \openssl_cipher_iv_length($method);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_csr_export_to_file takes the Certificate
* Signing Request represented by csr and saves it
* in PEM format into the file named by outfilename.
*
* @param string|resource $csr See CSR parameters for a list of valid values.
* @param string $outfilename Path to the output file.
* @param bool $notext
* The optional parameter notext affects
* the verbosity of the output; if it is FALSE, then additional human-readable
* information is included in the output. The default value of
* notext is TRUE.
* @throws OpensslException
*
*/
function openssl_csr_export_to_file($csr, string $outfilename, bool $notext = true): void
{
error_clear_last();
$result = \openssl_csr_export_to_file($csr, $outfilename, $notext);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_csr_export takes the Certificate Signing
* Request represented by csr and stores it in
* PEM format in out, which is passed by
* reference.
*
* @param string|resource $csr See CSR parameters for a list of valid values.
* @param string|null $out on success, this string will contain the PEM encoded CSR
* @param bool $notext
* The optional parameter notext affects
* the verbosity of the output; if it is FALSE, then additional human-readable
* information is included in the output. The default value of
* notext is TRUE.
* @throws OpensslException
*
*/
function openssl_csr_export($csr, ?string &$out, bool $notext = true): void
{
error_clear_last();
$result = \openssl_csr_export($csr, $out, $notext);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_csr_get_subject returns subject
* distinguished name information encoded in the csr
* including fields commonName (CN), organizationName (O), countryName (C) etc.
*
* @param string|resource $csr See CSR parameters for a list of valid values.
* @param bool $use_shortnames shortnames controls how the data is indexed in the
* array - if shortnames is TRUE (the default) then
* fields will be indexed with the short name form, otherwise, the long name
* form will be used - e.g.: CN is the shortname form of commonName.
* @return array Returns an associative array with subject description.
* @throws OpensslException
*
*/
function openssl_csr_get_subject($csr, bool $use_shortnames = true): array
{
error_clear_last();
$result = \openssl_csr_get_subject($csr, $use_shortnames);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_csr_new generates a new CSR (Certificate Signing Request)
* based on the information provided by dn.
*
* @param array $dn The Distinguished Name or subject fields to be used in the certificate.
* @param resource $privkey privkey should be set to a private key that was
* previously generated by openssl_pkey_new (or
* otherwise obtained from the other openssl_pkey family of functions).
* The corresponding public portion of the key will be used to sign the
* CSR.
* @param array $configargs By default, the information in your system openssl.conf
* is used to initialize the request; you can specify a configuration file
* section by setting the config_section_section key of
* configargs. You can also specify an alternative
* openssl configuration file by setting the value of the
* config key to the path of the file you want to use.
* The following keys, if present in configargs
* behave as their equivalents in the openssl.conf, as
* listed in the table below.
*
* Configuration overrides
*
*
*
* configargs key
* type
* openssl.conf equivalent
* description
*
*
*
*
* digest_alg
* string
* default_md
* Digest method or signature hash, usually one of openssl_get_md_methods
*
*
* x509_extensions
* string
* x509_extensions
* Selects which extensions should be used when creating an x509
* certificate
*
*
* req_extensions
* string
* req_extensions
* Selects which extensions should be used when creating a CSR
*
*
* private_key_bits
* integer
* default_bits
* Specifies how many bits should be used to generate a private
* key
*
*
* private_key_type
* integer
* none
* Specifies the type of private key to create. This can be one
* of OPENSSL_KEYTYPE_DSA,
* OPENSSL_KEYTYPE_DH,
* OPENSSL_KEYTYPE_RSA or
* OPENSSL_KEYTYPE_EC.
* The default value is OPENSSL_KEYTYPE_RSA.
*
*
*
* encrypt_key
* boolean
* encrypt_key
* Should an exported key (with passphrase) be encrypted?
*
*
* encrypt_key_cipher
* integer
* none
*
* One of cipher constants.
*
*
*
* curve_name
* string
* none
*
* One of openssl_get_curve_names.
*
*
*
* config
* string
* N/A
*
* Path to your own alternative openssl.conf file.
*
*
*
*
*
* @param array $extraattribs extraattribs is used to specify additional
* configuration options for the CSR. Both dn and
* extraattribs are associative arrays whose keys are
* converted to OIDs and applied to the relevant part of the request.
* @return resource Returns the CSR.
* @throws OpensslException
*
*/
function openssl_csr_new(array $dn, &$privkey, array $configargs = null, array $extraattribs = null)
{
error_clear_last();
if ($extraattribs !== null) {
$result = \openssl_csr_new($dn, $privkey, $configargs, $extraattribs);
} elseif ($configargs !== null) {
$result = \openssl_csr_new($dn, $privkey, $configargs);
} else {
$result = \openssl_csr_new($dn, $privkey);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_csr_sign generates an x509 certificate
* resource from the given CSR.
*
* @param string|resource $csr A CSR previously generated by openssl_csr_new.
* It can also be the path to a PEM encoded CSR when specified as
* file://path/to/csr or an exported string generated
* by openssl_csr_export.
* @param mixed $cacert The generated certificate will be signed by cacert.
* If cacert is NULL, the generated certificate
* will be a self-signed certificate.
* @param string|resource|array $priv_key priv_key is the private key that corresponds to
* cacert.
* @param int $days days specifies the length of time for which the
* generated certificate will be valid, in days.
* @param array $configargs You can finetune the CSR signing by configargs.
* See openssl_csr_new for more information about
* configargs.
* @param int $serial An optional the serial number of issued certificate. If not specified
* it will default to 0.
* @return resource Returns an x509 certificate resource on success, FALSE on failure.
* @throws OpensslException
*
*/
function openssl_csr_sign($csr, $cacert, $priv_key, int $days, array $configargs = null, int $serial = 0)
{
error_clear_last();
if ($serial !== 0) {
$result = \openssl_csr_sign($csr, $cacert, $priv_key, $days, $configargs, $serial);
} elseif ($configargs !== null) {
$result = \openssl_csr_sign($csr, $cacert, $priv_key, $days, $configargs);
} else {
$result = \openssl_csr_sign($csr, $cacert, $priv_key, $days);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* Takes a raw or base64 encoded string and decrypts it using a given method and key.
*
* @param string $data The encrypted message to be decrypted.
* @param string $method The cipher method. For a list of available cipher methods, use
* openssl_get_cipher_methods.
* @param string $key The key.
* @param int $options options can be one of
* OPENSSL_RAW_DATA,
* OPENSSL_ZERO_PADDING.
* @param string $iv A non-NULL Initialization Vector.
* @param string $tag The authentication tag in AEAD cipher mode. If it is incorrect, the authentication fails and the function returns FALSE.
* @param string $aad Additional authentication data.
* @return string The decrypted string on success.
* @throws OpensslException
*
*/
function openssl_decrypt(string $data, string $method, string $key, int $options = 0, string $iv = "", string $tag = "", string $aad = ""): string
{
error_clear_last();
$result = \openssl_decrypt($data, $method, $key, $options, $iv, $tag, $aad);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* The shared secret returned by openssl_dh_compute_key is
* often used as an encryption key to secretly communicate with a remote party.
* This is known as the Diffie-Hellman key exchange.
*
* @param string $pub_key DH Public key of the remote party.
* @param resource $dh_key A local DH private key, corresponding to the public key to be shared with the remote party.
* @return string Returns shared secret on success.
* @throws OpensslException
*
*/
function openssl_dh_compute_key(string $pub_key, $dh_key): string
{
error_clear_last();
$result = \openssl_dh_compute_key($pub_key, $dh_key);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* Computes a digest hash value for the given data using a given method,
* and returns a raw or binhex encoded string.
*
* @param string $data The data.
* @param string $method The digest method to use, e.g. "sha256", see openssl_get_md_methods for a list of available digest methods.
* @param bool $raw_output Setting to TRUE will return as raw output data, otherwise the return
* value is binhex encoded.
* @return string Returns the digested hash value on success.
* @throws OpensslException
*
*/
function openssl_digest(string $data, string $method, bool $raw_output = false): string
{
error_clear_last();
$result = \openssl_digest($data, $method, $raw_output);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_open opens (decrypts)
* sealed_data using the private key associated with
* the key identifier priv_key_id and the envelope key
* env_key, and fills
* open_data with the decrypted data.
* The envelope key is generated when the
* data are sealed and can only be used by one specific private key. See
* openssl_seal for more information.
*
* @param string $sealed_data
* @param string|null $open_data If the call is successful the opened data is returned in this
* parameter.
* @param string $env_key
* @param string|array|resource $priv_key_id
* @param string $method The cipher method.
* @param string $iv The initialization vector.
* @throws OpensslException
*
*/
function openssl_open(string $sealed_data, ?string &$open_data, string $env_key, $priv_key_id, string $method = "RC4", string $iv = null): void
{
error_clear_last();
if ($iv !== null) {
$result = \openssl_open($sealed_data, $open_data, $env_key, $priv_key_id, $method, $iv);
} else {
$result = \openssl_open($sealed_data, $open_data, $env_key, $priv_key_id, $method);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pbkdf2 computes PBKDF2 (Password-Based Key Derivation Function 2),
* a key derivation function defined in PKCS5 v2.
*
* @param string $password Password from which the derived key is generated.
* @param string $salt PBKDF2 recommends a crytographic salt of at least 64 bits (8 bytes).
* @param int $key_length Length of desired output key.
* @param int $iterations The number of iterations desired. NIST
* recommends at least 10,000.
* @param string $digest_algorithm Optional hash or digest algorithm from openssl_get_md_methods. Defaults to SHA-1.
* @return string Returns raw binary string.
* @throws OpensslException
*
*/
function openssl_pbkdf2(string $password, string $salt, int $key_length, int $iterations, string $digest_algorithm = "sha1"): string
{
error_clear_last();
$result = \openssl_pbkdf2($password, $salt, $key_length, $iterations, $digest_algorithm);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_pkcs12_export_to_file stores
* x509 into a file named by
* filename in a PKCS#12 file format.
*
* @param string|resource $x509 See Key/Certificate parameters for a list of valid values.
* @param string $filename Path to the output file.
* @param string|array|resource $priv_key Private key component of PKCS#12 file.
* See Public/Private Key parameters for a list of valid values.
* @param string $pass Encryption password for unlocking the PKCS#12 file.
* @param array $args Optional array, other keys will be ignored.
*
*
*
*
* Key
* Description
*
*
*
*
* "extracerts"
* array of extra certificates or a single certificate to be included in the PKCS#12 file.
*
*
* "friendlyname"
* string to be used for the supplied certificate and key
*
*
*
*
* @throws OpensslException
*
*/
function openssl_pkcs12_export_to_file($x509, string $filename, $priv_key, string $pass, array $args = null): void
{
error_clear_last();
if ($args !== null) {
$result = \openssl_pkcs12_export_to_file($x509, $filename, $priv_key, $pass, $args);
} else {
$result = \openssl_pkcs12_export_to_file($x509, $filename, $priv_key, $pass);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkcs12_export stores
* x509 into a string named by
* out in a PKCS#12 file format.
*
* @param string|resource $x509 See Key/Certificate parameters for a list of valid values.
* @param string|null $out On success, this will hold the PKCS#12.
* @param string|array|resource $priv_key Private key component of PKCS#12 file.
* See Public/Private Key parameters for a list of valid values.
* @param string $pass Encryption password for unlocking the PKCS#12 file.
* @param array $args Optional array, other keys will be ignored.
*
*
*
*
* Key
* Description
*
*
*
*
* "extracerts"
* array of extra certificates or a single certificate to be included in the PKCS#12 file.
*
*
* "friendlyname"
* string to be used for the supplied certificate and key
*
*
*
*
* @throws OpensslException
*
*/
function openssl_pkcs12_export($x509, ?string &$out, $priv_key, string $pass, array $args = null): void
{
error_clear_last();
if ($args !== null) {
$result = \openssl_pkcs12_export($x509, $out, $priv_key, $pass, $args);
} else {
$result = \openssl_pkcs12_export($x509, $out, $priv_key, $pass);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkcs12_read parses the PKCS#12 certificate store supplied by
* pkcs12 into a array named
* certs.
*
* @param string $pkcs12 The certificate store contents, not its file name.
* @param array|null $certs On success, this will hold the Certificate Store Data.
* @param string $pass Encryption password for unlocking the PKCS#12 file.
* @throws OpensslException
*
*/
function openssl_pkcs12_read(string $pkcs12, ?array &$certs, string $pass): void
{
error_clear_last();
$result = \openssl_pkcs12_read($pkcs12, $certs, $pass);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* Decrypts the S/MIME encrypted message contained in the file specified by
* infilename using the certificate and its
* associated private key specified by recipcert and
* recipkey.
*
* @param string $infilename
* @param string $outfilename The decrypted message is written to the file specified by
* outfilename.
* @param string|resource $recipcert
* @param string|resource|array $recipkey
* @throws OpensslException
*
*/
function openssl_pkcs7_decrypt(string $infilename, string $outfilename, $recipcert, $recipkey = null): void
{
error_clear_last();
if ($recipkey !== null) {
$result = \openssl_pkcs7_decrypt($infilename, $outfilename, $recipcert, $recipkey);
} else {
$result = \openssl_pkcs7_decrypt($infilename, $outfilename, $recipcert);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkcs7_encrypt takes the contents of the
* file named infile and encrypts them using an RC2
* 40-bit cipher so that they can only be read by the intended recipients
* specified by recipcerts.
*
* @param string $infile
* @param string $outfile
* @param string|resource|array $recipcerts Either a lone X.509 certificate, or an array of X.509 certificates.
* @param array $headers headers is an array of headers that
* will be prepended to the data after it has been encrypted.
*
* headers can be either an associative array
* keyed by header name, or an indexed array, where each element contains
* a single header line.
* @param int $flags flags can be used to specify options that affect
* the encoding process - see PKCS7
* constants.
* @param int $cipherid One of cipher constants.
* @throws OpensslException
*
*/
function openssl_pkcs7_encrypt(string $infile, string $outfile, $recipcerts, array $headers, int $flags = 0, int $cipherid = OPENSSL_CIPHER_RC2_40): void
{
error_clear_last();
$result = \openssl_pkcs7_encrypt($infile, $outfile, $recipcerts, $headers, $flags, $cipherid);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
*
*
* @param string $infilename
* @param array|null $certs
* @throws OpensslException
*
*/
function openssl_pkcs7_read(string $infilename, ?array &$certs): void
{
error_clear_last();
$result = \openssl_pkcs7_read($infilename, $certs);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkcs7_sign takes the contents of the file
* named infilename and signs them using the
* certificate and its matching private key specified by
* signcert and privkey
* parameters.
*
* @param string $infilename The input file you are intending to digitally sign.
* @param string $outfilename The file which the digital signature will be written to.
* @param string|resource $signcert The X.509 certificate used to digitally sign infilename.
* See Key/Certificate parameters for a list of valid values.
* @param string|resource|array $privkey privkey is the private key corresponding to signcert.
* See Public/Private Key parameters for a list of valid values.
* @param array $headers headers is an array of headers that
* will be prepended to the data after it has been signed (see
* openssl_pkcs7_encrypt for more information about
* the format of this parameter).
* @param int $flags flags can be used to alter the output - see PKCS7 constants.
* @param string $extracerts extracerts specifies the name of a file containing
* a bunch of extra certificates to include in the signature which can for
* example be used to help the recipient to verify the certificate that you used.
* @throws OpensslException
*
*/
function openssl_pkcs7_sign(string $infilename, string $outfilename, $signcert, $privkey, array $headers, int $flags = PKCS7_DETACHED, string $extracerts = null): void
{
error_clear_last();
if ($extracerts !== null) {
$result = \openssl_pkcs7_sign($infilename, $outfilename, $signcert, $privkey, $headers, $flags, $extracerts);
} else {
$result = \openssl_pkcs7_sign($infilename, $outfilename, $signcert, $privkey, $headers, $flags);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkey_export_to_file saves an ascii-armoured
* (PEM encoded) rendition of key into the file named
* by outfilename.
*
* @param resource|string|array $key
* @param string $outfilename Path to the output file.
* @param string $passphrase The key can be optionally protected by a
* passphrase.
* @param array $configargs configargs can be used to fine-tune the export
* process by specifying and/or overriding options for the openssl
* configuration file. See openssl_csr_new for more
* information about configargs.
* @throws OpensslException
*
*/
function openssl_pkey_export_to_file($key, string $outfilename, string $passphrase = null, array $configargs = null): void
{
error_clear_last();
if ($configargs !== null) {
$result = \openssl_pkey_export_to_file($key, $outfilename, $passphrase, $configargs);
} elseif ($passphrase !== null) {
$result = \openssl_pkey_export_to_file($key, $outfilename, $passphrase);
} else {
$result = \openssl_pkey_export_to_file($key, $outfilename);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkey_export exports
* key as a PEM encoded string and stores it into
* out (which is passed by reference).
*
* @param resource $key
* @param string|null $out
* @param string $passphrase The key is optionally protected by passphrase.
* @param array $configargs configargs can be used to fine-tune the export
* process by specifying and/or overriding options for the openssl
* configuration file. See openssl_csr_new for more
* information about configargs.
* @throws OpensslException
*
*/
function openssl_pkey_export($key, ?string &$out, string $passphrase = null, array $configargs = null): void
{
error_clear_last();
if ($configargs !== null) {
$result = \openssl_pkey_export($key, $out, $passphrase, $configargs);
} elseif ($passphrase !== null) {
$result = \openssl_pkey_export($key, $out, $passphrase);
} else {
$result = \openssl_pkey_export($key, $out);
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_pkey_get_private parses
* key and prepares it for use by other functions.
*
* @param string $key key can be one of the following:
*
* a string having the format
* file://path/to/file.pem. The named file must
* contain a PEM encoded certificate/private key (it may contain both).
*
*
* A PEM formatted private key.
*
* @param string $passphrase The optional parameter passphrase must be used
* if the specified key is encrypted (protected by a passphrase).
* @return resource Returns a positive key resource identifier on success.
* @throws OpensslException
*
*/
function openssl_pkey_get_private(string $key, string $passphrase = "")
{
error_clear_last();
$result = \openssl_pkey_get_private($key, $passphrase);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_pkey_get_public extracts the public key from
* certificate and prepares it for use by other
* functions.
*
* @param resource|string $certificate certificate can be one of the following:
*
* an X.509 certificate resource
* a string having the format
* file://path/to/file.pem. The named file must
* contain a PEM encoded certificate/public key (it may contain both).
*
*
* A PEM formatted public key.
*
* @return resource Returns a positive key resource identifier on success.
* @throws OpensslException
*
*/
function openssl_pkey_get_public($certificate)
{
error_clear_last();
$result = \openssl_pkey_get_public($certificate);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_pkey_new generates a new private and public
* key pair. The public component of the key can be obtained using
* openssl_pkey_get_public.
*
* @param array $configargs You can finetune the key generation (such as specifying the number of
* bits) using configargs. See
* openssl_csr_new for more information about
* configargs.
* @return resource Returns a resource identifier for the pkey on success.
* @throws OpensslException
*
*/
function openssl_pkey_new(array $configargs = null)
{
error_clear_last();
if ($configargs !== null) {
$result = \openssl_pkey_new($configargs);
} else {
$result = \openssl_pkey_new();
}
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_private_decrypt decrypts
* data that was previously encrypted via
* openssl_public_encrypt and stores the result into
* decrypted.
*
* You can use this function e.g. to decrypt data which is supposed to only be available to you.
*
* @param string $data
* @param string|null $decrypted
* @param string|resource|array $key key must be the private key corresponding that
* was used to encrypt the data.
* @param int $padding padding can be one of
* OPENSSL_PKCS1_PADDING,
* OPENSSL_SSLV23_PADDING,
* OPENSSL_PKCS1_OAEP_PADDING,
* OPENSSL_NO_PADDING.
* @throws OpensslException
*
*/
function openssl_private_decrypt(string $data, ?string &$decrypted, $key, int $padding = OPENSSL_PKCS1_PADDING): void
{
error_clear_last();
$result = \openssl_private_decrypt($data, $decrypted, $key, $padding);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_private_encrypt encrypts data
* with private key and stores the result into
* crypted. Encrypted data can be decrypted via
* openssl_public_decrypt.
*
* This function can be used e.g. to sign data (or its hash) to prove that it
* is not written by someone else.
*
* @param string $data
* @param string|null $crypted
* @param string|resource|array $key
* @param int $padding padding can be one of
* OPENSSL_PKCS1_PADDING,
* OPENSSL_NO_PADDING.
* @throws OpensslException
*
*/
function openssl_private_encrypt(string $data, ?string &$crypted, $key, int $padding = OPENSSL_PKCS1_PADDING): void
{
error_clear_last();
$result = \openssl_private_encrypt($data, $crypted, $key, $padding);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_public_decrypt decrypts
* data that was previous encrypted via
* openssl_private_encrypt and stores the result into
* decrypted.
*
* You can use this function e.g. to check if the message was written by the
* owner of the private key.
*
* @param string $data
* @param string|null $decrypted
* @param string|resource $key key must be the public key corresponding that
* was used to encrypt the data.
* @param int $padding padding can be one of
* OPENSSL_PKCS1_PADDING,
* OPENSSL_NO_PADDING.
* @throws OpensslException
*
*/
function openssl_public_decrypt(string $data, ?string &$decrypted, $key, int $padding = OPENSSL_PKCS1_PADDING): void
{
error_clear_last();
$result = \openssl_public_decrypt($data, $decrypted, $key, $padding);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_public_encrypt encrypts data
* with public key and stores the result into
* crypted. Encrypted data can be decrypted via
* openssl_private_decrypt.
*
* This function can be used e.g. to encrypt message which can be then read
* only by owner of the private key. It can be also used to store secure data
* in database.
*
* @param string $data
* @param string|null $crypted This will hold the result of the encryption.
* @param string|resource $key The public key.
* @param int $padding padding can be one of
* OPENSSL_PKCS1_PADDING,
* OPENSSL_SSLV23_PADDING,
* OPENSSL_PKCS1_OAEP_PADDING,
* OPENSSL_NO_PADDING.
* @throws OpensslException
*
*/
function openssl_public_encrypt(string $data, ?string &$crypted, $key, int $padding = OPENSSL_PKCS1_PADDING): void
{
error_clear_last();
$result = \openssl_public_encrypt($data, $crypted, $key, $padding);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* Generates a string of pseudo-random bytes, with the number of bytes
* determined by the length parameter.
*
* It also indicates if a cryptographically strong algorithm was used to produce the
* pseudo-random bytes, and does this via the optional crypto_strong
* parameter. It's rare for this to be FALSE, but some systems may be broken or old.
*
* @param int $length The length of the desired string of bytes. Must be a positive integer. PHP will
* try to cast this parameter to a non-null integer to use it.
* @param bool|null $crypto_strong If passed into the function, this will hold a boolean value that determines
* if the algorithm used was "cryptographically strong", e.g., safe for usage with GPG,
* passwords, etc. TRUE if it did, otherwise FALSE
* @return string Returns the generated string of bytes on success.
* @throws OpensslException
*
*/
function openssl_random_pseudo_bytes(int $length, ?bool &$crypto_strong = null): string
{
error_clear_last();
$result = \openssl_random_pseudo_bytes($length, $crypto_strong);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_seal seals (encrypts)
* data by using the given method with a randomly generated
* secret key. The key is encrypted with each of the public keys
* associated with the identifiers in pub_key_ids
* and each encrypted key is returned
* in env_keys. This means that one can send
* sealed data to multiple recipients (provided one has obtained their
* public keys). Each recipient must receive both the sealed data and
* the envelope key that was encrypted with the recipient's public key.
*
* @param string $data The data to seal.
* @param string|null $sealed_data The sealed data.
* @param array $env_keys Array of encrypted keys.
* @param array $pub_key_ids Array of public key resource identifiers.
* @param string $method The cipher method.
* @param string $iv The initialization vector.
* @return int Returns the length of the sealed data on success.
* If successful the sealed data is returned in
* sealed_data, and the envelope keys in
* env_keys.
* @throws OpensslException
*
*/
function openssl_seal(string $data, ?string &$sealed_data, array &$env_keys, array $pub_key_ids, string $method = "RC4", string &$iv = null): int
{
error_clear_last();
$result = \openssl_seal($data, $sealed_data, $env_keys, $pub_key_ids, $method, $iv);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_sign computes a signature for the
* specified data by generating a cryptographic
* digital signature using the private key associated with
* priv_key_id. Note that the data itself is
* not encrypted.
*
* @param string $data The string of data you wish to sign
* @param string|null $signature If the call was successful the signature is returned in
* signature.
* @param resource|string $priv_key_id resource - a key, returned by openssl_get_privatekey
*
* string - a PEM formatted key
* @param int|string $signature_alg int - one of these Signature Algorithms.
*
* string - a valid string returned by openssl_get_md_methods example, "sha256WithRSAEncryption" or "sha384".
* @throws OpensslException
*
*/
function openssl_sign(string $data, ?string &$signature, $priv_key_id, $signature_alg = OPENSSL_ALGO_SHA1): void
{
error_clear_last();
$result = \openssl_sign($data, $signature, $priv_key_id, $signature_alg);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_x509_export_to_file stores
* x509 into a file named by
* outfilename in a PEM encoded format.
*
* @param string|resource $x509 See Key/Certificate parameters for a list of valid values.
* @param string $outfilename Path to the output file.
* @param bool $notext
* The optional parameter notext affects
* the verbosity of the output; if it is FALSE, then additional human-readable
* information is included in the output. The default value of
* notext is TRUE.
* @throws OpensslException
*
*/
function openssl_x509_export_to_file($x509, string $outfilename, bool $notext = true): void
{
error_clear_last();
$result = \openssl_x509_export_to_file($x509, $outfilename, $notext);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_x509_export stores
* x509 into a string named by
* output in a PEM encoded format.
*
* @param string|resource $x509 See Key/Certificate parameters for a list of valid values.
* @param string|null $output On success, this will hold the PEM.
* @param bool $notext
* The optional parameter notext affects
* the verbosity of the output; if it is FALSE, then additional human-readable
* information is included in the output. The default value of
* notext is TRUE.
* @throws OpensslException
*
*/
function openssl_x509_export($x509, ?string &$output, bool $notext = true): void
{
error_clear_last();
$result = \openssl_x509_export($x509, $output, $notext);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
}
/**
* openssl_x509_fingerprint returns the digest of
* x509 as a string.
*
* @param string|resource $x509 See Key/Certificate parameters for a list of valid values.
* @param string $hash_algorithm The digest method or hash algorithm to use, e.g. "sha256", one of openssl_get_md_methods.
* @param bool $raw_output When set to TRUE, outputs raw binary data. FALSE outputs lowercase hexits.
* @return string Returns a string containing the calculated certificate fingerprint as lowercase hexits unless raw_output is set to TRUE in which case the raw binary representation of the message digest is returned.
*
* Returns FALSE on failure.
* @throws OpensslException
*
*/
function openssl_x509_fingerprint($x509, string $hash_algorithm = "sha1", bool $raw_output = false): string
{
error_clear_last();
$result = \openssl_x509_fingerprint($x509, $hash_algorithm, $raw_output);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}
/**
* openssl_x509_read parses the certificate supplied by
* x509certdata and returns a resource identifier for
* it.
*
* @param string|resource $x509certdata X509 certificate. See Key/Certificate parameters for a list of valid values.
* @return resource Returns a resource identifier on success.
* @throws OpensslException
*
*/
function openssl_x509_read($x509certdata)
{
error_clear_last();
$result = \openssl_x509_read($x509certdata);
if ($result === false) {
throw OpensslException::createFromPhpError();
}
return $result;
}