我写的是Client / Server加密程序,想要发送ECIES公钥.为此我必须将公钥序列化为文件,将文件读取到字节数组,发送此字节数组.另一方面：接收字节数组,将其写入文件,从文件反序列化公钥.所以,我写了一些测试项目,尝试与伟大的系统分开进行,并且(当所有这个模块都能成功运行时)只需将它插入我的项目中.该项目的代码是：

class EncoderRSA
{
    public:
        EncoderRSA();
        void keyGeneration();
        std::string encrypt(std::string plainText);
        std::string decrypt(std::string cypher);
        void setRsaPublicKey(char *publicKeyInCharArray);
        char *getRsaPublicKey();
    private:
        AutoSeededRandomPool prng;  // Pseudo Random Number Generator
        ECIES<ECP>::Decryptor rsaDecryptor;
        ECIES<ECP>::Encryptor rsaEncryptor;
};

而且,严格来说,素数(问题)方法：

char *EncoderRSA::getRsaPublicKey() {
    std::string file = "publicKey.txt";

    //Save public key in file
    FileSink sink(file.c_str());
    this->rsaEncryptor.GetPublicKey().Save(sink);

    //Read file with public key into the buffer
    std::ifstream infile (file.c_str(),std::ifstream::binary);

    if (!infile.is_open()) {
        std::cout << "Can't open file to write" << std::endl;
        exit(1);
    }

    // get size of file
    infile.seekg (0,infile.end);
    long size = infile.tellg();
    infile.seekg (0);

    // allocate memory for file content
    char* buffer = new char[size];
    infile.read (buffer,size);
    infile.close();

    return buffer;
}

void EncoderRSA::setRsaPublicKey(char *publicKeyInCharArray) {
    std::string file = "publicKey.txt";

    int size = strlen(publicKeyInCharArray);

    //Write received public key in file
    std::ofstream outfile (file.c_str(),std::ofstream::binary);

    if (!outfile.is_open()) {
        std::cout << "Can't open file to write" << std::endl;
        exit(1);
    }

    outfile.write (publicKeyInCharArray,size);
    outfile.close();

    // release dynamically-allocated memory
    delete[] publicKeyInCharArray;

    //Load public key from file
    FileSource source(file.c_str(), true);
    this->rsaEncryptor.AccessPublicKey().Load(source);
}

main.cpp代码：

int main() {
    char *buffer = keysEncoder.getRsaPublicKey();
    cout << "buffer: " << buffer << endl;
    //...
    //send buffer
    //receive buffer from other side
    //..
    keysEncoder.setRsaPublicKey(buffer);

    string decoded = keysEncoder.decrypt(cypher);
    cout << "decoded: " << decoded << endl;

    return 0;
}

但它因错误而崩溃：

terminate called after throwing an instance of 'CryptoPP::BERDecoderErr'
wait(): BER decode error
Aborted (core dumped)

Process returned 134 (0x86)    execution time: 2.891

为什么？

最佳答案 我删除了对RSA的引用,因为它看起来像是在使用ECIES.干得好.

terminate called after throwing an instance of ‘CryptoPP::BERDecoderErr’

显然,你需要设置一个try / catch：

try
{
    ...
}
catch(const BERDecoderErr& ex)
{
    cerr << ex.what() << endl;
}

06001

ASN.1 / DER编码可能会嵌入NULL,因此您无法使用传统的C字符串对其进行操作.

这可能应该返回一个std :: string,因此输出不会在第一个NULL字符处被截断：

// get size of file
infile.seekg (0,infile.end);
long size = infile.tellg();
infile.seekg (0);

// allocate memory for file content
string buffer(size, '0');
infile.read (&buffer[0], size);
infile.close();

return buffer;

可以在Read whole ASCII file into C++ std::string找到另一种从文件执行读取的方法：

std::ifstream infile (file.c_str(), std::ifstream::binary);
std::string buffer((std::istreambuf_iterator<char>(infile)),
                    std::istreambuf_iterator<char>());

另一种方法是确保输出和输入中不存在NULL：

string Encoder::getPublicKey() {
    string encodedKey;
    HexEncoder sink(new StringSink(encodedKey));
    Encryptor.GetPublicKey().Save(sink);
    return encodedKey;
}

和：

void Encoder::setPublicKey(const string& encodedKey) {
    StringSource source(encodedKey, new HexDecoder());
    Encryptor.AccessPublicKey().Load(source);
}

上面的代码使用StringSource和StringSink,因此它可以在内存中运行.如果您确实需要磁盘上的中间文件,请使用FileSource和FileSink.