ToLive

ppt 발표 업로드

#include <openssl/pem.h>
#include <openssl/ssl.h>
#include <openssl/rsa.h>
#include <openssl/evp.h>
#include <openssl/bio.h>
#include <openssl/err.h>
#include <stdio.h>
int padding = RSA_PKCS1_PADDING;
RSA *createRSA(unsigned char *key, int public)
{
RSA *rsa = NULL;
BIO *keybio;
keybio = BIO_new_mem_buf(key, -1);
if (keybio == NULL)
{
printf("Failed to create key BIO");
return 0;
}
if (public)
{
rsa = PEM_read_bio_RSA_PUBKEY(keybio, &rsa, NULL, NULL);
}
else
{
rsa = PEM_read_bio_RSAPrivateKey(keybio, &rsa, NULL, NULL);
}
if (rsa == NULL)
{
printf("Failed to create RSA");
}
return rsa;
}
int public_encrypt(unsigned char *data, int data_len, unsigned char *key, unsigned char *encrypted)
{
RSA *rsa = createRSA(key, 1);
int result = RSA_public_encrypt(data_len, data, encrypted, rsa, padding);
return result;
}
int private_decrypt(unsigned char *enc_data, int data_len, unsigned char *key, unsigned char *decrypted)
{
RSA *rsa = createRSA(key, 0);
int result = RSA_private_decrypt(data_len, enc_data, decrypted, rsa, padding);
return result;
}
int private_encrypt(unsigned char *data, int data_len, unsigned char *key, unsigned char *encrypted)
{
RSA *rsa = createRSA(key, 0);
int result = RSA_private_encrypt(data_len, data, encrypted, rsa, padding);
return result;
}
int public_decrypt(unsigned char *enc_data, int data_len, unsigned char *key, unsigned char *decrypted)
{
RSA *rsa = createRSA(key, 1);
int result = RSA_public_decrypt(data_len, enc_data, decrypted, rsa, padding);
return result;
}
void printLastError(char *msg)
{
char *err = malloc(130);
;
ERR_load_crypto_strings();
ERR_error_string(ERR_get_error(), err);
printf("%s ERROR: %s\n", msg, err);
free(err);
}
int main()
{
char plainText[2048 / 8] = "Hello this is Ravi"; //key length : 2048
char publicKey[] = "-----BEGIN PUBLIC KEY-----\n"
"MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAy8Dbv8prpJ/0kKhlGeJY\n"
"ozo2t60EG8L0561g13R29LvMR5hyvGZlGJpmn65+A4xHXInJYiPuKzrKUnApeLZ+\n"
"vw1HocOAZtWK0z3r26uA8kQYOKX9Qt/DbCdvsF9wF8gRK0ptx9M6R13NvBxvVQAp\n"
"fc9jB9nTzphOgM4JiEYvlV8FLhg9yZovMYd6Wwf3aoXK891VQxTr/kQYoq1Yp+68\n"
"i6T4nNq7NWC+UNVjQHxNQMQMzU6lWCX8zyg3yH88OAQkUXIXKfQ+NkvYQ1cxaMoV\n"
"PpY72+eVthKzpMeyHkBn7ciumk5qgLTEJAfWZpe4f4eFZj/Rc8Y8Jj2IS5kVPjUy\n"
"wQIDAQAB\n"
"-----END PUBLIC KEY-----\n";
char privateKey[] = "-----BEGIN RSA PRIVATE KEY-----\n"
"MIIEowIBAAKCAQEAy8Dbv8prpJ/0kKhlGeJYozo2t60EG8L0561g13R29LvMR5hy\n"
"vGZlGJpmn65+A4xHXInJYiPuKzrKUnApeLZ+vw1HocOAZtWK0z3r26uA8kQYOKX9\n"
"Qt/DbCdvsF9wF8gRK0ptx9M6R13NvBxvVQApfc9jB9nTzphOgM4JiEYvlV8FLhg9\n"
"yZovMYd6Wwf3aoXK891VQxTr/kQYoq1Yp+68i6T4nNq7NWC+UNVjQHxNQMQMzU6l\n"
"WCX8zyg3yH88OAQkUXIXKfQ+NkvYQ1cxaMoVPpY72+eVthKzpMeyHkBn7ciumk5q\n"
"gLTEJAfWZpe4f4eFZj/Rc8Y8Jj2IS5kVPjUywQIDAQABAoIBADhg1u1Mv1hAAlX8\n"
"omz1Gn2f4AAW2aos2cM5UDCNw1SYmj+9SRIkaxjRsE/C4o9sw1oxrg1/z6kajV0e\n"
"N/t008FdlVKHXAIYWF93JMoVvIpMmT8jft6AN/y3NMpivgt2inmmEJZYNioFJKZG\n"
"X+/vKYvsVISZm2fw8NfnKvAQK55yu+GRWBZGOeS9K+LbYvOwcrjKhHz66m4bedKd\n"
"gVAix6NE5iwmjNXktSQlJMCjbtdNXg/xo1/G4kG2p/MO1HLcKfe1N5FgBiXj3Qjl\n"
"vgvjJZkh1as2KTgaPOBqZaP03738VnYg23ISyvfT/teArVGtxrmFP7939EvJFKpF\n"
"1wTxuDkCgYEA7t0DR37zt+dEJy+5vm7zSmN97VenwQJFWMiulkHGa0yU3lLasxxu\n"
"m0oUtndIjenIvSx6t3Y+agK2F3EPbb0AZ5wZ1p1IXs4vktgeQwSSBdqcM8LZFDvZ\n"
"uPboQnJoRdIkd62XnP5ekIEIBAfOp8v2wFpSfE7nNH2u4CpAXNSF9HsCgYEA2l8D\n"
"JrDE5m9Kkn+J4l+AdGfeBL1igPF3DnuPoV67BpgiaAgI4h25UJzXiDKKoa706S0D\n"
"4XB74zOLX11MaGPMIdhlG+SgeQfNoC5lE4ZWXNyESJH1SVgRGT9nBC2vtL6bxCVV\n"
"WBkTeC5D6c/QXcai6yw6OYyNNdp0uznKURe1xvMCgYBVYYcEjWqMuAvyferFGV+5\n"
"nWqr5gM+yJMFM2bEqupD/HHSLoeiMm2O8KIKvwSeRYzNohKTdZ7FwgZYxr8fGMoG\n"
"PxQ1VK9DxCvZL4tRpVaU5Rmknud9hg9DQG6xIbgIDR+f79sb8QjYWmcFGc1SyWOA\n"
"SkjlykZ2yt4xnqi3BfiD9QKBgGqLgRYXmXp1QoVIBRaWUi55nzHg1XbkWZqPXvz1\n"
"I3uMLv1jLjJlHk3euKqTPmC05HoApKwSHeA0/gOBmg404xyAYJTDcCidTg6hlF96\n"
"ZBja3xApZuxqM62F6dV4FQqzFX0WWhWp5n301N33r0qR6FumMKJzmVJ1TA8tmzEF\n"
"yINRAoGBAJqioYs8rK6eXzA8ywYLjqTLu/yQSLBn/4ta36K8DyCoLNlNxSuox+A5\n"
"w6z2vEfRVQDq4Hm4vBzjdi3QfYLNkTiTqLcvgWZ+eX44ogXtdTDO7c+GeMKWz4XX\n"
"uJSUVL5+CVjKLjZEJ6Qc2WZLl94xSwL71E41H4YciVnSCQxVc4Jw\n"
"-----END RSA PRIVATE KEY-----\n";
unsigned char encrypted[4098] = {};
unsigned char decrypted[4098] = {};
int encrypted_length = public_encrypt(plainText, strlen(plainText), publicKey, encrypted);
if (encrypted_length == -1)
{
printLastError("Public Encrypt failed ");
exit(0);
}
printf("Encrypted length =%d\n", encrypted_length);
int decrypted_length = private_decrypt(encrypted, encrypted_length, privateKey, decrypted);
if (decrypted_length == -1)
{
printLastError("Private Decrypt failed ");
exit(0);
}
printf("Decrypted Text =%s\n", decrypted);
printf("Decrypted Length =%d\n", decrypted_length);
encrypted_length = private_encrypt(plainText, strlen(plainText), privateKey, encrypted);
if (encrypted_length == -1)
{
printLastError("Private Encrypt failed");
exit(0);
}
printf("Encrypted length =%d\n", encrypted_length);
decrypted_length = public_decrypt(encrypted, encrypted_length, publicKey, decrypted);
if (decrypted_length == -1)
{
printLastError("Public Decrypt failed");
exit(0);
}
printf("Decrypted Text =%s\n", decrypted);
printf("Decrypted Length =%d\n", decrypted_length);
}
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