public static void test() { JSch jsch = new JSch(); DH dh1 = null; DH dh2 = null; try { Type t = Type.GetType(jsch.getConfig("dh")); dh1 = (DH)(Activator.CreateInstance(t)); dh1.init(); dh2 = (DH)(Activator.CreateInstance(t)); dh2.init(); } catch (Exception ee) { Console.WriteLine(ee); } dh1.setP(DHG1.p); dh1.setG(DHG1.g); dh2.setP(DHG1.p); dh2.setG(DHG1.g); // The client responds with: // byte SSH_MSG_KEXDH_INIT(30) // mpint e <- g^x mod p // x is a random number (1 < x < (p-1)/2) byte[] e = dh1.getE(); byte[] f = dh2.getE(); Console.WriteLine("Private1 = {0}", hex(e)); Console.WriteLine(); Console.WriteLine("Private2 = {0}", hex(f)); Console.WriteLine(); dh1.setF(f); dh2.setF(e); byte[] k1 = dh1.getK(); byte[] k2 = dh2.getK(); Console.WriteLine("Public1 = {0}", hex(k1)); Console.WriteLine(); Console.WriteLine("Public2 = {0}", hex(k2)); Console.WriteLine(); }
public override bool next(Buffer _buf) { int i, j; bool result = false; switch (state) { case SSH_MSG_KEXDH_REPLY: // The server responds with: // byte SSH_MSG_KEXDH_REPLY(31) // string server public host key and certificates (K_S) // mpint f // string signature of H j = _buf.ReadInt(); j = _buf.ReadByte(); j = _buf.ReadByte(); if (j != 31) { Console.WriteLine("type: must be 31 " + j); result = false; break; } K_S = _buf.ReadString(); // K_S is server_key_blob, which includes .... // string ssh-dss // impint p of dsa // impint q of dsa // impint g of dsa // impint pub_key of dsa //System.out.print("K_S: "); //dump(K_S, 0, K_S.length); byte[] f = _buf.ReadMPInt(); byte[] sig_of_H = _buf.ReadString(); /* * for(int ii=0; ii<sig_of_H.length;ii++){ * System.out.print(Integer.toHexString(sig_of_H[ii]&0xff)); * System.out.print(": "); * } * Console.WriteLine(""); */ dh.setF(f); K = dh.getK(); //The hash H is computed as the HASH hash of the concatenation of the //following: // string V_C, the client's version string (CR and NL excluded) // string V_S, the server's version string (CR and NL excluded) // string I_C, the payload of the client's SSH_MSG_KEXINIT // string I_S, the payload of the server's SSH_MSG_KEXINIT // string K_S, the host key // mpint e, exchange value sent by the client // mpint f, exchange value sent by the server // mpint K, the shared secret // This value is called the exchange hash, and it is used to authenti- // cate the key exchange. buf.Reset(); buf.WriteString(V_C); buf.WriteString(V_S); buf.WriteString(I_C); buf.WriteString(I_S); buf.WriteString(K_S); buf.WriteMPInt(e); buf.WriteMPInt(f); buf.WriteMPInt(K); byte[] foo = new byte[buf.Length]; buf.ReadByte(foo); sha.update(foo, 0, foo.Length); H = sha.digest(); //System.out.print("H -> "); //dump(H, 0, H.length); i = 0; j = 0; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); String alg = Util.getString(K_S, i, j); i += j; result = false; if (alg.Equals("ssh-rsa")) { byte[] tmp; byte[] ee; byte[] n; type = RSA; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; ee = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; n = tmp; // SignatureRSA sig=new SignatureRSA(); // sig.init(); SignatureRSA sig = null; try { Type t = Type.GetType(session.getConfig("signature.rsa")); sig = (SignatureRSA)(Activator.CreateInstance(t)); sig.init(); } catch (Exception eee) { Console.WriteLine(eee); } sig.setPubKey(ee, n); sig.update(H); result = sig.verify(sig_of_H); //MainClass.dump(ee, n, sig_of_H, H); } else if (alg.Equals("ssh-dss")) { byte[] q = null; byte[] tmp; byte[] p; byte[] g; type = DSS; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; p = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; q = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; g = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; f = tmp; // SignatureDSA sig=new SignatureDSA(); // sig.init(); SignatureDSA sig = null; try { Type t = Type.GetType(session.getConfig("signature.dss")); sig = (SignatureDSA)(Activator.CreateInstance(t)); sig.init(); } catch (Exception ee) { Console.WriteLine(ee); } sig.setPubKey(f, p, q, g); sig.update(H); result = sig.verify(sig_of_H); } else { Console.WriteLine("unknow alg"); } state = STATE_END; break; } return(result); }
public override bool next(Buffer _buf) { int i, j; bool result = false; switch (state) { case SSH_MSG_KEX_DH_GEX_GROUP: // byte SSH_MSG_KEX_DH_GEX_GROUP(31) // mpint p, safe prime // mpint g, generator for subgroup in GF (p) _buf.getInt(); _buf.getByte(); j = _buf.getByte(); if (j != 31) { Console.WriteLine("type: must be 31 " + j); result = false; } p = _buf.getMPInt(); g = _buf.getMPInt(); /* * for(int iii=0; iii<p.length; iii++){ * System.out.println("0x"+Integer.toHexString(p[iii]&0xff)+","); * } * System.out.println(""); * for(int iii=0; iii<g.length; iii++){ * System.out.println("0x"+Integer.toHexString(g[iii]&0xff)+","); * } */ dh.setP(p); dh.setG(g); // The client responds with: // byte SSH_MSG_KEX_DH_GEX_INIT(32) // mpint e <- g^x mod p // x is a random number (1 < x < (p-1)/2) e = dh.getE(); packet.reset(); buf.putByte((byte)0x20); buf.putMPInt(e); session.write(packet); state = SSH_MSG_KEX_DH_GEX_REPLY; result = true; break; case SSH_MSG_KEX_DH_GEX_REPLY: // The server responds with: // byte SSH_MSG_KEX_DH_GEX_REPLY(33) // string server public host key and certificates (K_S) // mpint f // string signature of H j = _buf.getInt(); j = _buf.getByte(); j = _buf.getByte(); if (j != 33) { Console.WriteLine("type: must be 33 " + j); result = false; } K_S = _buf.getString(); // K_S is server_key_blob, which includes .... // string ssh-dss // impint p of dsa // impint q of dsa // impint g of dsa // impint pub_key of dsa //System.out.print("K_S: "); dump(K_S, 0, K_S.length); byte[] f = _buf.getMPInt(); byte[] sig_of_H = _buf.getString(); dh.setF(f); K = dh.getK(); //The hash H is computed as the HASH hash of the concatenation of the //following: // string V_C, the client's version string (CR and NL excluded) // string V_S, the server's version string (CR and NL excluded) // string I_C, the payload of the client's SSH_MSG_KEXINIT // string I_S, the payload of the server's SSH_MSG_KEXINIT // string K_S, the host key // uint32 min, minimal size in bits of an acceptable group // uint32 n, preferred size in bits of the group the server should send // uint32 max, maximal size in bits of an acceptable group // mpint p, safe prime // mpint g, generator for subgroup // mpint e, exchange value sent by the client // mpint f, exchange value sent by the server // mpint K, the shared secret // This value is called the exchange hash, and it is used to authenti- // cate the key exchange. buf.reset(); buf.putString(V_C); buf.putString(V_S); buf.putString(I_C); buf.putString(I_S); buf.putString(K_S); buf.putInt(min); buf.putInt(preferred); buf.putInt(max); buf.putMPInt(p); buf.putMPInt(g); buf.putMPInt(e); buf.putMPInt(f); buf.putMPInt(K); byte[] foo = new byte[buf.getLength()]; buf.getByte(foo); sha.update(foo, 0, foo.Length); H = sha.digest(); // System.out.print("H -> "); dump(H, 0, H.length); i = 0; j = 0; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); String alg = Util.getString(K_S, i, j); i += j; if (alg.Equals("ssh-rsa")) { byte[] tmp; byte[] ee; byte[] n; type = RSA; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; ee = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; n = tmp; // SignatureRSA sig=new SignatureRSA(); // sig.init(); SignatureRSA sig = null; try { Type t = Type.GetType(session.getConfig("signature.rsa")); sig = (SignatureRSA)(Activator.CreateInstance(t)); sig.init(); } catch (Exception eee) { Console.WriteLine(eee); } sig.setPubKey(ee, n); sig.update(H); result = sig.verify(sig_of_H); } else if (alg.Equals("ssh-dss")) { byte[] q = null; byte[] tmp; type = DSS; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; p = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; q = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; g = tmp; j = (int)((K_S[i++] << 24) & 0xff000000) | ((K_S[i++] << 16) & 0x00ff0000) | ((K_S[i++] << 8) & 0x0000ff00) | ((K_S[i++]) & 0x000000ff); tmp = new byte[j]; Array.Copy(K_S, i, tmp, 0, j); i += j; f = tmp; // SignatureDSA sig=new SignatureDSA(); // sig.init(); SignatureDSA sig = null; try { Type t = Type.GetType(session.getConfig("signature.dss")); sig = (SignatureDSA)(Activator.CreateInstance(t)); sig.init(); } catch (Exception ee) { Console.WriteLine(ee); } sig.setPubKey(f, p, q, g); sig.update(H); result = sig.verify(sig_of_H); } else { Console.WriteLine("unknow alg"); } state = STATE_END; break; } return(result); }