(JavaScript) Example for both AES-128 and ChaCha20 to Encrypt Binary Data
Demonstrates the use of the new EncryptBd and DecryptBd methods introduced in Chilkat v9.5.0.67 to encrypt/decrypt binary bytes.
Note: This example requires Chilkat v9.5.0.67 or greater.
var success = false;
// This example assumes the Chilkat API to have been previously unlocked.
// See Global Unlock Sample for sample code.
// Load a small JPG file to be encrypted/decrypted.
var jpgBytes = new CkBinData();
success = jpgBytes.LoadFile("qa_data/jpg/starfish.jpg");
if (success !== true) {
console.log("Failed to load JPG file.");
return;
}
// Show the unencrypted JPG bytes in Base64 format.
// (The "base64_mime" encoding was added in Chilkat v9.5.0.67.
// The "base64" encoding emits a single line of base64, whereas
// "base64_mime" will emit multi-line base64 as it would appear
// in MIME.)
console.log(jpgBytes.GetEncoded("base64_mime"));
// Sample base64_mime JPG data:
// /9j/4AAQSkZJRgABAgEASABIAAD/7Q18UGhvdG9zaG9wIDMuMAA4QklNA+0AAAAAABAASAAAAAEA
// AQBIAAAAAQABOEJJTQPzAAAAAAAIAAAAAAAAAAE4QklNBAoAAAAAAAEAADhCSU0nEAAAAAAACgAB
// AAAAAAAAAAI4QklNA/UAAAAAAEgAL2ZmAAEAbGZmAAYAAAAAAAEAL2ZmAAEAoZmaAAYAAAAAAAEA
// MgAAAAEAWgAAAAYAAAAAAAEANQAAAAEALQAAAAYAAAAAAAE4QklNBBQAAAAAAAQAAAABOEJJTQQM
// ...
var crypt = new CkCrypt2();
// Specify the encryption to be used.
// First we'll do AES-128 CBC
crypt.CryptAlgorithm = "aes";
crypt.CipherMode = "cbc";
crypt.KeyLength = 128;
var ivHex = "000102030405060708090A0B0C0D0E0F";
crypt.SetEncodedIV(ivHex,"hex");
var keyHex = "000102030405060708090A0B0C0D0E0F101112131415161718191A1B1C1D1E1F";
crypt.SetEncodedKey(keyHex,"hex");
// Do the in-place 128-bit AES CBC encryption.
// The contents of jpgBytes are replaced with the encrypted bytes.
success = crypt.EncryptBd(jpgBytes);
if (success !== true) {
console.log(crypt.LastErrorText);
return;
}
// Examine the JPG bytes again. The bytes should be different because they are encrypted:
console.log(jpgBytes.GetEncoded("base64_mime"));
// Sample base64_mime encrypted JPG data:
// sbz0babt1WCkQf5xKMdg/baZAcUBO5GVUUDF2BjVqmd+HrqKN+t6hAcqakL/bdo0q9hYmow0Tp1e
// AQ9V9DOiifQUZqWVkR+kL/c45bq8JGFDvgNl0djPt+yYhV789IB/fPH0upx+/ad++WNOlv1IxGMr
// Y1x1oERU/IsiEzafUJdI4kZ6FQo2IPGMF/Rm1h79I7hP1yYUFxvJyz+PzaySAUH1nLsNHyDVY5VY
// O90aH3steRSYbz8C8UF9wQ3qqEIXQNnnixvoNDnmHyY39VoVBI5F6rnPwYDfAk2t8tmuryFqvwAu
// ...
// Decrypt to restore back to the original:
success = crypt.DecryptBd(jpgBytes);
if (success !== true) {
console.log(crypt.LastErrorText);
return;
}
console.log(jpgBytes.GetEncoded("base64_mime"));
// /9j/4AAQSkZJRgABAgEASABIAAD/7Q18UGhvdG9zaG9wIDMuMAA4QklNA+0AAAAAABAASAAAAAEA
// AQBIAAAAAQABOEJJTQPzAAAAAAAIAAAAAAAAAAE4QklNBAoAAAAAAAEAADhCSU0nEAAAAAAACgAB
// AAAAAAAAAAI4QklNA/UAAAAAAEgAL2ZmAAEAbGZmAAYAAAAAAAEAL2ZmAAEAoZmaAAYAAAAAAAEA
// MgAAAAEAWgAAAAYAAAAAAAEANQAAAAEALQAAAAYAAAAAAAE4QklNBBQAAAAAAAQAAAABOEJJTQQM
// ...
// ----------------------------------------------------------------------------------
// To do chacha20 encryption, just change the settings:
crypt.CryptAlgorithm = "chacha20";
crypt.KeyLength = 256;
// The initial count is the initial block counter for the chacha20 algorithm.
// It can be any integer, but must be set to the same when decrypting.
crypt.InitialCount = 22;
success = crypt.EncryptBd(jpgBytes);
// jpgBytes now contains chacha20 encrypted bytes.
success = crypt.DecryptBd(jpgBytes);
// jpgBytes is now restored back to the original unencrypted by bytes.
// Save the bytes to a file..
success = jpgBytes.WriteFile("qa_output/starfish.jpg");
console.log("Success.");
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