PHP 8.4.1 Released!

openssl_private_encrypt

(PHP 4 >= 4.0.6, PHP 5, PHP 7, PHP 8)

openssl_private_encryptCriptografa dados com chave privada

Descrição

openssl_private_encrypt(
    #[\SensitiveParameter] string $data,
    string &$encrypted_data,
    #[\SensitiveParameter] OpenSSLAsymmetricKey|OpenSSLCertificate|array|string $private_key,
    int $padding = OPENSSL_PKCS1_PADDING
): bool

openssl_private_encrypt() criptografa os dados em data com a chave privada private_key e armazena o resultado em encrypted_data. Dados criptografados podem ser descriptografados pela função openssl_public_decrypt().

Esta função pode ser usada, por exemplo, para assinar dados (ou seu hash) para provar que não foram escritos por outra pessoa.

Parâmetros

data

encrypted_data

private_key

private_key deve ser a chave privada que corresponde à chave pública que foi usada para criptografar os dados.

padding

padding pode ser uma das constantes OPENSSL_PKCS1_PADDING ou OPENSSL_NO_PADDING.

Valor Retornado

Retorna true em caso de sucesso ou false em caso de falha.

Registro de Alterações

Versão Descrição
8.0.0 private_key agora aceita uma instância de OpenSSLAsymmetricKey ou OpenSSLCertificate; anteriormente, um resource do tipo OpenSSL key ou OpenSSL X.509 era aceito.

Veja Também

adicione uma nota

Notas Enviadas por Usuários (em inglês) 5 notes

up
10
Hernanibus
8 years ago
Just a little note on [P.Peyremorte]'s note.

"- openssl_private_encrypt can encrypt a maximum of 117 chars at one time."

This depends on the length of $key:

- For a 1024 bit key length => max number of chars (bytes) to encrypt = 1024/8 - 11(when padding used) = 117 chars (bytes).
- For a 2048 bit key length => max number of chars (bytes) to encrypt = 2048/8 - 11(when padding used) = 245 chars (bytes).
... and so on

By the way, if openssl_private_encrypt fails because of data size you won't get anything but just false as returned value, the same for openssl_public_decrypt() on decryption.

"- the encrypted output string is always 129 char length. If you use base64_encode on the encrypted output, it will give always 172 chars, with the last always "=" (filler)"

This again depends on the length of $key:

- For a 1024 bit key length => encrypted number of raw bytes is always a block of 128 bytes (1024 bits) by RSA design.
- For a 2048 bit key length => encrypted number of raw bytes is always a block of 256 bytes (2048 bits) by RSA design.
... and so on

About base64_encode output length, it depends on what you encode (meaning it depends on the bytes resulting after encryption), but in general the resulting encoded string will be about a 33% bigger (for 128 bytes bout 170 bytes and for 256 bytes about 340 bytes).

I would then generalize a little [P.Peyremorte]'s note by:
<?php
// given the variables as constants:

//Block size for encryption block cipher
private $ENCRYPT_BLOCK_SIZE = 200;// this for 2048 bit key for example, leaving some room

//Block size for decryption block cipher
private $DECRYPT_BLOCK_SIZE = 256;// this again for 2048 bit key

//For encryption we would use:
function encrypt_RSA($plainData, $privatePEMKey)
{
$encrypted = '';
$plainData = str_split($plainData, $this->ENCRYPT_BLOCK_SIZE);
foreach(
$plainData as $chunk)
{
$partialEncrypted = '';

//using for example OPENSSL_PKCS1_PADDING as padding
$encryptionOk = openssl_private_encrypt($chunk, $partialEncrypted, $privatePEMKey, OPENSSL_PKCS1_PADDING);

if(
$encryptionOk === false){return false;}//also you can return and error. If too big this will be false
$encrypted .= $partialEncrypted;
}
return
base64_encode($encrypted);//encoding the whole binary String as MIME base 64
}

//For decryption we would use:
protected function decrypt_RSA($publicPEMKey, $data)
{
$decrypted = '';

//decode must be done before spliting for getting the binary String
$data = str_split(base64_decode($data), $this->DECRYPT_BLOCK_SIZE);

foreach(
$data as $chunk)
{
$partial = '';

//be sure to match padding
$decryptionOK = openssl_public_decrypt($chunk, $partial, $publicPEMKey, OPENSSL_PKCS1_PADDING);

if(
$decryptionOK === false){return false;}//here also processed errors in decryption. If too big this will be false
$decrypted .= $partial;
}
return
$decrypted;
}
?>
up
5
wfredkNOSPAM at L5DevelopmentNOSPAM dot com
22 years ago
Encrypt using private key, decrypt using public key.

Use this for posting signed messages: Anyone with access to
your public key can read it, but they can't create one with
your signature.

<?php
echo "Source: $source";
$fp=fopen("/path/to/private.key","r");
$priv_key=fread($fp,8192);
fclose($fp);
// $passphrase is required if your key is encoded (suggested)
$res = openssl_get_privatekey($priv_key,$passphrase);
/*
* NOTE: Here you use the returned resource value
*/
openssl_private_encrypt($source,$crypttext,$res);
echo
"String crypted: $crypttext";

$fp=fopen ("/path/to/certificate.crt","r");
$pub_key=fread($fp,8192);
fclose($fp);
openssl_get_publickey($pub_key);
/*
* NOTE: Here you use the $pub_key value (converted, I guess)
*/
openssl_public_decrypt($crypttext,$newsource,$pub_key);
echo
"String decrypt : $newsource";
?>
up
2
adityasingh at techknowtrends dot com
12 years ago
Here is a over simplified version of using the crypt capabilities for getting started:

$res = openssl_pkey_new();

// Get private key
openssl_pkey_export($res, $privkey);

// Get public key
$pubkey = openssl_pkey_get_details($res);
$pubkey = $pubkey["key"];
var_dump($privkey);
var_dump($pubkey);

// get some text from command line to work with
$tocrypt = trim(fgets(STDIN));

// some variables to work with
$encryptedviaprivatekey = ""; //holds text encrypted with the private key
$decryptedviapublickey = ""; // holds text which was decrypted by the public key after being encrypted with the private key, should be same as $tocrypt
$encryptedviapublickey = ""; // holds text that was encrypted with the public key
$decryptedviaprivatekey = ""; // holds text that was decrypted with the private key after being encrypted with the public key, should be the same as $tocrypt

openssl_private_encrypt($tocrypt, $encryptedviaprivatekey, $privkey);
echo $tocrypt . "->" . $encryptedviaprivatekey;
echo "\n\n";
openssl_public_decrypt($encryptedviaprivatekey, $decryptedviapublickey, $pubkey);
echo $encryptedviaprivatekey . "->" . $decryptedviapublickey;
echo "\n\n";

openssl_public_encrypt($tocrypt,$encryptedviapublickey, $pubkey);
echo $tocrypt . "->" . $encryptedviapublickey;
echo "\n\n";
openssl_private_decrypt($encryptedviapublickey, $decryptedviaprivatekey, $privkey);
echo $encryptedviapublickey . "->" . $decryptedviaprivatekey;

Output:

string(887) "-----BEGIN RSA PRIVATE KEY-----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-----END RSA PRIVATE KEY-----
"
string(272) "-----BEGIN PUBLIC KEY-----
MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQCy745x8AqGKlTWBu2Ub80boPaQ
xo/midZ4LHZ0zbPpiCAfkADNVYSe8OckPKutdjPX7SNAx66PgQRH1xrz1gysbRrf
8K/mA0LQ00MKBFaFottWt5cCIaUS9zvCgPw7prwng3hkGShnvTSMXiKFyt1E3RTv
pXRk0u46D6hKiy+TSQIDAQAB
-----END PUBLIC KEY-----
"
this is a test for crypting
( ¦E@n¥u?7Fëµ¥+-M¼ìk?7¥;t?8[j¼ñrƒ¦ª-TÜ++ßYG?-úö¦}9+k8OJn_?¦x?¦
dó+aév.cå?-ï`,¦?·5u¦p%Z²¤ÜI?û ¼

( ¦E@n¥u?7Fëµ¥+-M¼ìk?7¥;t?8[j¼ñrƒ¦ª-TÜ++ßYG?-úö¦}9+k8OJn_?¦x?¦
dó+aév.cå?-ï`,¦?·5u¦p%Z²¤ÜI?û ¼->this is a test for crypting

this is a test for crypting->hT!¡_
#+£-íßÿo»¢äSs+üSnäÖ-(¦ëIkl[¤¦=?í?Ç+Uy·N,=b=+¦TàmeNo¦A~ùÑtü¦@ÿ½»¦SV5Ѫ*¦?·UÿoPÖFq
-? O{²¦á|,äIN)+_-öF+*¦{|??G-??£/?¬±"PFL

hT!¡_
#+£-íßÿo»¢äSs+üSnäÖ-(¦ëIkl[¤¦=?í?Ç+Uy·N,=b=+¦TàmeNo¦A~ùÑtü¦@ÿ½»¦SV5Ѫ*¦?·UÿoPÖFq
-? O{²¦á|,äIN)+_-öF+*¦{|??G-??£/?¬±"PFL->this is a test for crypting
up
1
P.Peyremorte
8 years ago
A trick not mentioned in manual to know :

- openssl_private_encrypt can encrypt a maximum of 117 chars at one time.
- the encrypted output string is always 129 char length. If you use base64_encode on the encrypted output, it will give always 172 chars, with the last always "=" (filler).

So, to encode a longer stream input you have to use something like :
<?php
$RawData
= ... ; //Your input data to encode

$PartialData = '';
$EncodedData = '';
$Split = str_split($RawData , 117);
ForEach(
$Split as $Part)
{
openssl_private_encrypt($Part, $PartialData, $PrivateKey);
$EncodedData .= base64_encode($PartialData);
}
?>

and then, to decode :

<?php
$OriginalData
= '';
$Split = str_split($EncodedData , 172);
ForEach(
$Split as $Part)
{
openssl_private_decrypt(base64_decode($Part), $PartialData, $PublicKey);
$OriginalData .= $PartialData;
}
?>
up
1
billnet at tiscalinet dot it
22 years ago
<?php
$fp
=fopen ("/path/to/key.pem","r");
$priv_key=fread ($fp,8192);
fclose($fp);
openssl_get_privatekey ($priv_key);
openssl_private_encrypt($source,$finaltext,$priv_key);
echo
"String crypted: $finaltext";
?>

CIAO !
To Top