PHP Extension
PHP Extension
AES GCM Encrypt and Decrypt a File
See more Encryption Examples
Demonstrates how to AES GCM encrypt and decrypt a file.Chilkat PHP Extension Downloads
<?php
include("chilkat.php");
$success = false;
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
$crypt = new CkCrypt2();
// Set the encryption algorithm to "AES"
$crypt->put_CryptAlgorithm('aes');
// Indicate that the Galois/Counter Mode (GCM) should be used:
$crypt->put_CipherMode('gcm');
// KeyLength may be 128, 192, 256
$crypt->put_KeyLength(256);
// This is the 256-bit AES secret key (in hex format)
$K = '000102030405060708090A0B0C0D0E0F000102030405060708090A0B0C0D0E0F';
// This is the 16-byte initialization vector (in hex format)
$IV = '000102030405060708090A0B0C0D0E0F';
// This is the OPTIONAL additional data (in hex format) to be used as input to the GCM AEAD algorithm,
// but is not included in the output. It plays a role in the computation of the
// resulting authenticated tag.
$AAD = 'feedfacedeadbeeffeedfacedeadbeefabaddad2';
// Set the secret key and IV
$crypt->SetEncodedIV($IV,'hex');
$crypt->SetEncodedKey($K,'hex');
// Set the additional authenticated data (AAD)
$success = $crypt->SetEncodedAad($AAD,'hex');
// Encrypt a file.
$inFile = 'qa_data/hamlet.xml';
$outFile = 'c:/temp/qa_output/hamlet_aes_gcm.enc';
$success = $crypt->CkEncryptFile($inFile,$outFile);
if ($success == false) {
print $crypt->lastErrorText() . "\n";
exit;
}
// Get the authentication tag in hex format
$authTag = $crypt->getEncodedAuthTag('hex');
print 'authentication tag = ' . $authTag . "\n";
// Decrypt..
// Before decrypting, you must provide the expected authentication tag.
// The decrypt will fail if the resulting authentication tag computed while decrypting is not equal to the
// expected authentication tag.
$crypt->SetEncodedAuthTag($authTag,'hex');
$inFile = $outFile;
$outFile = 'c:/temp/qa_output/hamlet_restored.xml';
$success = $crypt->CkDecryptFile($inFile,$outFile);
if ($success == false) {
print $crypt->lastErrorText() . "\n";
exit;
}
print 'Success.' . "\n";
// --------------------------------------------------------------------------------------------
// About AES-GCM:
// AES-GCM (Advanced Encryption Standard - Galois/Counter Mode) is a widely-used
// encryption mode that provides both confidentiality (encryption) and
// integrity/authentication (data integrity verification) in one operation. It is
// commonly used in secure communications due to its efficiency and strong security
// properties.
//
// Key Concepts:
//
// AES (Advanced Encryption Standard):
//
// AES is a symmetric encryption algorithm, meaning the same key is used
// for both encryption and decryption.
//
// It operates on fixed-size blocks of data (128 bits) using key sizes of
// 128, 192, or 256 bits.
//
// In AES-GCM, AES is used to perform the actual data encryption.
//
// GCM (Galois/Counter Mode):
//
// Counter Mode (CTR): GCM uses counter mode for encryption. In this mode,
// a nonce (or initialization vector, IV) and a counter are combined and encrypted
// with AES. The result is XORed with the plaintext to produce the ciphertext.
//
// Galois Mode (GMAC): GCM also includes an authentication mechanism based
// on a Galois field. It generates an authentication tag, which ensures the
// integrity of both the ciphertext and any additional data (called AAD -
// Additional Authenticated Data). This tag is verified during decryption to ensure
// that the data hasn't been tampered with.
//
// Key Features:
//
// Confidentiality (Encryption):
//
// The plaintext is encrypted using AES in counter mode. Each block of
// plaintext is XORed with the output of AES applied to a combination of the IV and
// an incremented counter.
//
// Integrity (Authentication):
//
// In addition to encryption, GCM provides authentication for both the
// encrypted data (ciphertext) and any Additional Authenticated Data (AAD), such as
// headers or metadata that need to be protected but not encrypted.
//
// The authentication tag is generated using a Galois field multiplication
// of the ciphertext and AAD. This ensures that any changes to the encrypted
// message or the AAD will be detected during decryption.
//
// Key Components:
//
// - Plaintext: The data you want to encrypt.
// - Ciphertext: The encrypted data.
// - Key: A symmetric key used for both encryption and decryption.
// - Nonce/IV: A unique value used for each encryption to ensure security. It is not secret but should never be reused with the same key.
// - AAD (Additional Authenticated Data): Optional data that is not encrypted but needs to be authenticated (e.g., headers).
// - Authentication Tag: A tag generated to verify the integrity and authenticity of the ciphertext and AAD
?>