如何 AES-128 在 Delphi 中使用密码加密字符串并在 C# 中解密?
问题描述:
我想在 Delphi 中使用密码 AES-128 加密一个字符串.我想将它上传到我的服务器,并且能够在 C# 中给定相同的密码进行解密.
I'd like to AES-128 encrypt a string in Delphi with a password. I'd like to upload this to my server and be able to decrypt given the same password in C#.
在 Delphi 中,我使用的是 TurboPower LockBox 3:
In Delp I'm using TurboPower LockBox 3:
function EncryptText_AES_128(input: string; password: string): string;
var
Codec: TCodec;
CipherText: AnsiString;
begin
Codec := TCodec.Create(nil);
try
Codec.CryptoLibrary := TCryptographicLibrary.Create(Codec);
//
Codec.StreamCipherId := BlockCipher_ProgID;
Codec.BlockCipherId := Format(AES_ProgId, [128]);
Codec.ChainModeId := CBC_ProgId;
//
Codec.Password := Password;
Codec.EncryptString(input, CipherText);
//
Result := string(CipherText);
finally
Codec.Free;
end;
end;
如何在 C# 中解密生成的字符串? 我可以更改 Delphi 代码.还没有任何东西在生产中.我什至没有坚持使用 LockBox.但是,我想避免将它放在 P/Invoke 的 DLL 中.
How can I decrypt the resulting string in C#? I can change the Delphi code. Nothing is in production yet. I'm not even stuck on using LockBox. But, I would like to avoid putting this in a DLL for P/Invoke.
(我的例子表明我的加密序列本身就是一个字符串.这对我来说不是必需的.字节流就可以了.)
(My example shows that my encrypted sequence is itself a string. This is not a requirement for me. A stream of bytes is fine.)
答
我终于找到了 Delphi 和 C# 之间针对 AES-128 的兼容解决方案.它也适用于 Wine.这是我的 Delphi 代码:
I finally found a compatible solution between Delphi and C# for AES-128. It's also works on Wine. Here's my Delphi code:
unit TntLXCryptoUtils;
interface
function AES128_Encrypt(Value, Password: string): string;
function AES128_Decrypt(Value, Password: string): string;
implementation
uses
SysUtils, Windows, IdCoderMIME, TntLXUtils;
//-------------------------------------------------------------------------------------------------------------------------
// Base64 Encode/Decode
//-------------------------------------------------------------------------------------------------------------------------
function Base64_Encode(Value: TBytes): string;
var
Encoder: TIdEncoderMIME;
begin
Encoder := TIdEncoderMIME.Create(nil);
try
Result := Encoder.EncodeBytes(Value);
finally
Encoder.Free;
end;
end;
function Base64_Decode(Value: string): TBytes;
var
Encoder: TIdDecoderMIME;
begin
Encoder := TIdDecoderMIME.Create(nil);
try
Result := Encoder.DecodeBytes(Value);
finally
Encoder.Free;
end;
end;
//-------------------------------------------------------------------------------------------------------------------------
// WinCrypt.h
//-------------------------------------------------------------------------------------------------------------------------
type
HCRYPTPROV = Cardinal;
HCRYPTKEY = Cardinal;
ALG_ID = Cardinal;
HCRYPTHASH = Cardinal;
const
_lib_ADVAPI32 = 'ADVAPI32.dll';
CALG_SHA_256 = 32780;
CALG_AES_128 = 26126;
CRYPT_NEWKEYSET = $00000008;
PROV_RSA_AES = 24;
KP_MODE = 4;
CRYPT_MODE_CBC = 1;
function CryptAcquireContext(var Prov: HCRYPTPROV; Container: PChar; Provider: PChar; ProvType: LongWord; Flags: LongWord): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptAcquireContextW';
function CryptDeriveKey(Prov: HCRYPTPROV; Algid: ALG_ID; BaseData: HCRYPTHASH; Flags: LongWord; var Key: HCRYPTKEY): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptDeriveKey';
function CryptSetKeyParam(hKey: HCRYPTKEY; dwParam: LongInt; pbData: PBYTE; dwFlags: LongInt): LongBool stdcall; stdcall; external _lib_ADVAPI32 name 'CryptSetKeyParam';
function CryptEncrypt(Key: HCRYPTKEY; Hash: HCRYPTHASH; Final: LongBool; Flags: LongWord; pbData: PBYTE; var Len: LongInt; BufLen: LongInt): LongBool;stdcall;external _lib_ADVAPI32 name 'CryptEncrypt';
function CryptDecrypt(Key: HCRYPTKEY; Hash: HCRYPTHASH; Final: LongBool; Flags: LongWord; pbData: PBYTE; var Len: LongInt): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptDecrypt';
function CryptCreateHash(Prov: HCRYPTPROV; Algid: ALG_ID; Key: HCRYPTKEY; Flags: LongWord; var Hash: HCRYPTHASH): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptCreateHash';
function CryptHashData(Hash: HCRYPTHASH; Data: PChar; DataLen: LongWord; Flags: LongWord): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptHashData';
function CryptReleaseContext(hProv: HCRYPTPROV; dwFlags: LongWord): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptReleaseContext';
function CryptDestroyHash(hHash: HCRYPTHASH): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptDestroyHash';
function CryptDestroyKey(hKey: HCRYPTKEY): LongBool; stdcall; external _lib_ADVAPI32 name 'CryptDestroyKey';
//-------------------------------------------------------------------------------------------------------------------------
{$WARN SYMBOL_PLATFORM OFF}
function __CryptAcquireContext(ProviderType: Integer): HCRYPTPROV;
begin
if (not CryptAcquireContext(Result, nil, nil, ProviderType, 0)) then
begin
if HRESULT(GetLastError) = NTE_BAD_KEYSET then
Win32Check(CryptAcquireContext(Result, nil, nil, ProviderType, CRYPT_NEWKEYSET))
else
RaiseLastOSError;
end;
end;
function __AES128_DeriveKeyFromPassword(m_hProv: HCRYPTPROV; Password: string): HCRYPTKEY;
var
hHash: HCRYPTHASH;
Mode: DWORD;
begin
Win32Check(CryptCreateHash(m_hProv, CALG_SHA_256, 0, 0, hHash));
try
Win32Check(CryptHashData(hHash, PChar(Password), Length(Password) * SizeOf(Char), 0));
Win32Check(CryptDeriveKey(m_hProv, CALG_AES_128, hHash, 0, Result));
// Wine uses a different default mode of CRYPT_MODE_EBC
Mode := CRYPT_MODE_CBC;
Win32Check(CryptSetKeyParam(Result, KP_MODE, Pointer(@Mode), 0));
finally
CryptDestroyHash(hHash);
end;
end;
function AES128_Encrypt(Value, Password: string): string;
var
hCProv: HCRYPTPROV;
hKey: HCRYPTKEY;
lul_datalen: Integer;
lul_buflen: Integer;
Buffer: TBytes;
begin
Assert(Password <> '');
if (Value = '') then
Result := ''
else begin
hCProv := __CryptAcquireContext(PROV_RSA_AES);
try
hKey := __AES128_DeriveKeyFromPassword(hCProv, Password);
try
// allocate buffer space
lul_datalen := Length(Value) * SizeOf(Char);
Buffer := TEncoding.Unicode.GetBytes(Value + ' ');
lul_buflen := Length(Buffer);
// encrypt to buffer
Win32Check(CryptEncrypt(hKey, 0, True, 0, @Buffer[0], lul_datalen, lul_buflen));
SetLength(Buffer, lul_datalen);
// base 64 result
Result := Base64_Encode(Buffer);
finally
CryptDestroyKey(hKey);
end;
finally
CryptReleaseContext(hCProv, 0);
end;
end;
end;
function AES128_Decrypt(Value, Password: string): string;
var
hCProv: HCRYPTPROV;
hKey: HCRYPTKEY;
lul_datalen: Integer;
Buffer: TBytes;
begin
Assert(Password <> '');
if Value = '' then
Result := ''
else begin
hCProv := __CryptAcquireContext(PROV_RSA_AES);
try
hKey := __AES128_DeriveKeyFromPassword(hCProv, Password);
try
// decode base64
Buffer := Base64_Decode(Value);
// allocate buffer space
lul_datalen := Length(Buffer);
// decrypt buffer to to string
Win32Check(CryptDecrypt(hKey, 0, True, 0, @Buffer[0], lul_datalen));
Result := TEncoding.Unicode.GetString(Buffer, 0, lul_datalen);
finally
CryptDestroyKey(hKey);
end;
finally
CryptReleaseContext(hCProv, 0);
end;
end;
end;
end.
这是我的 C# 代码:
And here's my C# code:
public class TntCryptoUtils
{
private static ICryptoTransform __Get_AES128_Transform(string password, bool AsDecryptor)
{
const int KEY_SIZE = 16;
var sha256CryptoServiceProvider = new SHA256CryptoServiceProvider();
var hash = sha256CryptoServiceProvider.ComputeHash(Encoding.Unicode.GetBytes(password));
var key = new byte[KEY_SIZE];
var iv = new byte[KEY_SIZE];
Buffer.BlockCopy(hash, 0, key, 0, KEY_SIZE);
//Buffer.BlockCopy(hash, KEY_SIZE, iv, 0, KEY_SIZE); // On the Windows side, the IV is always 0 (zero)
//
if (AsDecryptor)
return new AesCryptoServiceProvider().CreateDecryptor(key, iv);
else
return new AesCryptoServiceProvider().CreateEncryptor(key, iv);
}
public static string AES128_Encrypt(string Value, string Password)
{
byte[] Buffer = Encoding.Unicode.GetBytes(Value);
//
using (ICryptoTransform transform = __Get_AES128_Transform(Password, false))
{
byte[] encyptedBlob = transform.TransformFinalBlock(Buffer, 0, Buffer.Length);
return Convert.ToBase64String(encyptedBlob);
}
}
public static string AES128_Decrypt(string Value, string Password)
{
byte[] Buffer = Convert.FromBase64String(Value);
//
using (ICryptoTransform transform = __Get_AES128_Transform(Password, true))
{
byte[] decyptedBlob = transform.TransformFinalBlock(Buffer, 0, Buffer.Length);
return Encoding.Unicode.GetString(decyptedBlob);
}
}
}