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https://github.com/moparisthebest/mailiverse
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152 lines
4.7 KiB
C++
152 lines
4.7 KiB
C++
/*
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* (C) 2002 Jack Lloyd
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*
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* Distributed under the terms of the Botan license
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*/
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/*
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Grab an RSA public key from the file given as an argument, grab a message
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from another file, and encrypt the message.
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Algorithms used:
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RSA with EME1(SHA-1) padding to encrypt the master key
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CAST-128 in CBC mode with PKCS#7 padding to encrypt the message.
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HMAC with SHA-1 is used to authenticate the message
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The keys+IV used are derived from the master key (the thing that's encrypted
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with RSA) using KDF2(SHA-1). The 3 outputs of KDF2 are parameterized by P,
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where P is "CAST", "IV" or "MAC", in order to make each key/IV unique.
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The format is:
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1) First line is the master key, encrypted with the recipients public key
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using EME1(SHA-1), and then base64 encoded.
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2) Second line is the first 96 bits (12 bytes) of the HMAC(SHA-1) of
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the _plaintext_
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3) Following lines are base64 encoded ciphertext (CAST-128 as described),
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each broken after ~72 characters.
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*/
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#include <iostream>
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#include <fstream>
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#include <string>
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#include <memory>
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#include <botan/botan.h>
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#include <botan/pubkey.h>
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#include <botan/rsa.h>
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using namespace Botan;
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std::string b64_encode(const SecureVector<byte>&);
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SymmetricKey derive_key(const std::string&, const SymmetricKey&, u32bit);
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int main(int argc, char* argv[])
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{
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if(argc != 3)
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{
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std::cout << "Usage: " << argv[0] << " keyfile messagefile" << std::endl;
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return 1;
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}
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std::ifstream message(argv[2], std::ios::binary);
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if(!message)
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{
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std::cout << "Couldn't read the message file." << std::endl;
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return 1;
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}
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Botan::LibraryInitializer init;
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std::string output_name(argv[2]);
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output_name += ".enc";
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std::ofstream ciphertext(output_name.c_str());
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if(!ciphertext)
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{
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std::cout << "Couldn't write the ciphertext to " << output_name
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<< std::endl;
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return 1;
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}
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try {
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std::auto_ptr<X509_PublicKey> key(X509::load_key(argv[1]));
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RSA_PublicKey* rsakey = dynamic_cast<RSA_PublicKey*>(key.get());
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if(!rsakey)
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{
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std::cout << "The loaded key is not a RSA key!\n";
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return 1;
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}
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AutoSeeded_RNG rng;
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PK_Encryptor_EME encryptor(*rsakey, "EME1(SHA-1)");
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/* Generate the master key (the other keys are derived from this)
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Basically, make the key as large as can be encrypted by this key, up
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to a limit of 256 bits. For 512 bit keys, the master key will be >160
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bits. A >600 bit key will use the full 256 bit master key.
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In theory, this is not enough, because we derive 16+16+8=40 bytes of
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secrets (if you include the IV) using the master key, so they are not
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statistically indepedent. Practically speaking I don't think this is
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a problem.
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*/
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SymmetricKey masterkey(rng,
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std::min<size_t>(32,
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encryptor.maximum_input_size()));
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SymmetricKey cast_key = derive_key("CAST", masterkey, 16);
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SymmetricKey mac_key = derive_key("MAC", masterkey, 16);
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SymmetricKey iv = derive_key("IV", masterkey, 8);
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SecureVector<byte> encrypted_key =
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encryptor.encrypt(masterkey.bits_of(), rng);
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ciphertext << b64_encode(encrypted_key) << std::endl;
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Pipe pipe(new Fork(
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new Chain(
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get_cipher("CAST-128/CBC/PKCS7", cast_key, iv,
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ENCRYPTION),
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new Base64_Encoder(true) // true == do linebreaking
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),
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new Chain(
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new MAC_Filter("HMAC(SHA-1)", mac_key, 12),
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new Base64_Encoder
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)
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)
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);
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pipe.start_msg();
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message >> pipe;
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pipe.end_msg();
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/* Write the MAC as the second line. That way we can pull it off right
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from the start, and feed the rest of the file right into a pipe on the
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decrypting end.
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*/
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ciphertext << pipe.read_all_as_string(1) << std::endl;
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ciphertext << pipe.read_all_as_string(0);
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}
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catch(std::exception& e)
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{
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std::cout << "Exception: " << e.what() << std::endl;
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}
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return 0;
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}
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std::string b64_encode(const SecureVector<byte>& in)
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{
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Pipe pipe(new Base64_Encoder);
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pipe.process_msg(in);
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return pipe.read_all_as_string();
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}
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SymmetricKey derive_key(const std::string& param,
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const SymmetricKey& masterkey,
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u32bit outputlength)
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{
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std::auto_ptr<KDF> kdf(get_kdf("KDF2(SHA-1)"));
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return kdf->derive_key(outputlength, masterkey.bits_of(), param);
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}
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