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[dumload.git] / src / com / jcraft / jsch / KeyPairRSA.java
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1/* -*-mode:java; c-basic-offset:2; indent-tabs-mode:nil -*- */
2/*
3Copyright (c) 2002-2010 ymnk, JCraft,Inc. All rights reserved.
4
5Redistribution and use in source and binary forms, with or without
6modification, are permitted provided that the following conditions are met:
7
8 1. Redistributions of source code must retain the above copyright notice,
9 this list of conditions and the following disclaimer.
10
11 2. Redistributions in binary form must reproduce the above copyright
12 notice, this list of conditions and the following disclaimer in
13 the documentation and/or other materials provided with the distribution.
14
15 3. The names of the authors may not be used to endorse or promote products
16 derived from this software without specific prior written permission.
17
18THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED WARRANTIES,
19INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
20FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL JCRAFT,
21INC. OR ANY CONTRIBUTORS TO THIS SOFTWARE BE LIABLE FOR ANY DIRECT, INDIRECT,
22INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
23LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
24OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
25LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
26NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
27EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
28*/
29
30package com.jcraft.jsch;
31
32public class KeyPairRSA extends KeyPair{
33 private byte[] prv_array;
34 private byte[] pub_array;
35 private byte[] n_array;
36
37 private byte[] p_array; // prime p
38 private byte[] q_array; // prime q
39 private byte[] ep_array; // prime exponent p
40 private byte[] eq_array; // prime exponent q
41 private byte[] c_array; // coefficient
42
43 //private int key_size=0;
44 private int key_size=1024;
45
46 public KeyPairRSA(JSch jsch){
47 super(jsch);
48 }
49
50 void generate(int key_size) throws JSchException{
51 this.key_size=key_size;
52 try{
53 Class c=Class.forName(jsch.getConfig("keypairgen.rsa"));
54 KeyPairGenRSA keypairgen=(KeyPairGenRSA)(c.newInstance());
55 keypairgen.init(key_size);
56 pub_array=keypairgen.getE();
57 prv_array=keypairgen.getD();
58 n_array=keypairgen.getN();
59
60 p_array=keypairgen.getP();
61 q_array=keypairgen.getQ();
62 ep_array=keypairgen.getEP();
63 eq_array=keypairgen.getEQ();
64 c_array=keypairgen.getC();
65
66 keypairgen=null;
67 }
68 catch(Exception e){
69 //System.err.println("KeyPairRSA: "+e);
70 if(e instanceof Throwable)
71 throw new JSchException(e.toString(), (Throwable)e);
72 throw new JSchException(e.toString());
73 }
74 }
75
76 private static final byte[] begin=Util.str2byte("-----BEGIN RSA PRIVATE KEY-----");
77 private static final byte[] end=Util.str2byte("-----END RSA PRIVATE KEY-----");
78
79 byte[] getBegin(){ return begin; }
80 byte[] getEnd(){ return end; }
81
82 byte[] getPrivateKey(){
83 int content=
84 1+countLength(1) + 1 + // INTEGER
85 1+countLength(n_array.length) + n_array.length + // INTEGER N
86 1+countLength(pub_array.length) + pub_array.length + // INTEGER pub
87 1+countLength(prv_array.length) + prv_array.length+ // INTEGER prv
88 1+countLength(p_array.length) + p_array.length+ // INTEGER p
89 1+countLength(q_array.length) + q_array.length+ // INTEGER q
90 1+countLength(ep_array.length) + ep_array.length+ // INTEGER ep
91 1+countLength(eq_array.length) + eq_array.length+ // INTEGER eq
92 1+countLength(c_array.length) + c_array.length; // INTEGER c
93
94 int total=
95 1+countLength(content)+content; // SEQUENCE
96
97 byte[] plain=new byte[total];
98 int index=0;
99 index=writeSEQUENCE(plain, index, content);
100 index=writeINTEGER(plain, index, new byte[1]); // 0
101 index=writeINTEGER(plain, index, n_array);
102 index=writeINTEGER(plain, index, pub_array);
103 index=writeINTEGER(plain, index, prv_array);
104 index=writeINTEGER(plain, index, p_array);
105 index=writeINTEGER(plain, index, q_array);
106 index=writeINTEGER(plain, index, ep_array);
107 index=writeINTEGER(plain, index, eq_array);
108 index=writeINTEGER(plain, index, c_array);
109 return plain;
110 }
111
112 boolean parse(byte [] plain){
113 /*
114 byte[] p_array;
115 byte[] q_array;
116 byte[] dmp1_array;
117 byte[] dmq1_array;
118 byte[] iqmp_array;
119 */
120 try{
121 int index=0;
122 int length=0;
123
124 if(vendor==VENDOR_FSECURE){
125 if(plain[index]!=0x30){ // FSecure
126 Buffer buf=new Buffer(plain);
127 pub_array=buf.getMPIntBits();
128 prv_array=buf.getMPIntBits();
129 n_array=buf.getMPIntBits();
130 byte[] u_array=buf.getMPIntBits();
131 p_array=buf.getMPIntBits();
132 q_array=buf.getMPIntBits();
133 return true;
134 }
135 return false;
136 }
137
138 index++; // SEQUENCE
139 length=plain[index++]&0xff;
140 if((length&0x80)!=0){
141 int foo=length&0x7f; length=0;
142 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
143 }
144
145 if(plain[index]!=0x02)return false;
146 index++; // INTEGER
147 length=plain[index++]&0xff;
148 if((length&0x80)!=0){
149 int foo=length&0x7f; length=0;
150 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
151 }
152 index+=length;
153
154//System.err.println("int: len="+length);
155//System.err.print(Integer.toHexString(plain[index-1]&0xff)+":");
156//System.err.println("");
157
158 index++;
159 length=plain[index++]&0xff;
160 if((length&0x80)!=0){
161 int foo=length&0x7f; length=0;
162 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
163 }
164 n_array=new byte[length];
165 System.arraycopy(plain, index, n_array, 0, length);
166 index+=length;
167/*
168System.err.println("int: N len="+length);
169for(int i=0; i<n_array.length; i++){
170System.err.print(Integer.toHexString(n_array[i]&0xff)+":");
171}
172System.err.println("");
173*/
174 index++;
175 length=plain[index++]&0xff;
176 if((length&0x80)!=0){
177 int foo=length&0x7f; length=0;
178 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
179 }
180 pub_array=new byte[length];
181 System.arraycopy(plain, index, pub_array, 0, length);
182 index+=length;
183/*
184System.err.println("int: E len="+length);
185for(int i=0; i<pub_array.length; i++){
186System.err.print(Integer.toHexString(pub_array[i]&0xff)+":");
187}
188System.err.println("");
189*/
190 index++;
191 length=plain[index++]&0xff;
192 if((length&0x80)!=0){
193 int foo=length&0x7f; length=0;
194 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
195 }
196 prv_array=new byte[length];
197 System.arraycopy(plain, index, prv_array, 0, length);
198 index+=length;
199/*
200System.err.println("int: prv len="+length);
201for(int i=0; i<prv_array.length; i++){
202System.err.print(Integer.toHexString(prv_array[i]&0xff)+":");
203}
204System.err.println("");
205*/
206
207 index++;
208 length=plain[index++]&0xff;
209 if((length&0x80)!=0){
210 int foo=length&0x7f; length=0;
211 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
212 }
213 p_array=new byte[length];
214 System.arraycopy(plain, index, p_array, 0, length);
215 index+=length;
216/*
217System.err.println("int: P len="+length);
218for(int i=0; i<p_array.length; i++){
219System.err.print(Integer.toHexString(p_array[i]&0xff)+":");
220}
221System.err.println("");
222*/
223 index++;
224 length=plain[index++]&0xff;
225 if((length&0x80)!=0){
226 int foo=length&0x7f; length=0;
227 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
228 }
229 q_array=new byte[length];
230 System.arraycopy(plain, index, q_array, 0, length);
231 index+=length;
232/*
233System.err.println("int: q len="+length);
234for(int i=0; i<q_array.length; i++){
235System.err.print(Integer.toHexString(q_array[i]&0xff)+":");
236}
237System.err.println("");
238*/
239 index++;
240 length=plain[index++]&0xff;
241 if((length&0x80)!=0){
242 int foo=length&0x7f; length=0;
243 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
244 }
245 ep_array=new byte[length];
246 System.arraycopy(plain, index, ep_array, 0, length);
247 index+=length;
248/*
249System.err.println("int: ep len="+length);
250for(int i=0; i<ep_array.length; i++){
251System.err.print(Integer.toHexString(ep_array[i]&0xff)+":");
252}
253System.err.println("");
254*/
255 index++;
256 length=plain[index++]&0xff;
257 if((length&0x80)!=0){
258 int foo=length&0x7f; length=0;
259 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
260 }
261 eq_array=new byte[length];
262 System.arraycopy(plain, index, eq_array, 0, length);
263 index+=length;
264/*
265System.err.println("int: eq len="+length);
266for(int i=0; i<eq_array.length; i++){
267System.err.print(Integer.toHexString(eq_array[i]&0xff)+":");
268}
269System.err.println("");
270*/
271 index++;
272 length=plain[index++]&0xff;
273 if((length&0x80)!=0){
274 int foo=length&0x7f; length=0;
275 while(foo-->0){ length=(length<<8)+(plain[index++]&0xff); }
276 }
277 c_array=new byte[length];
278 System.arraycopy(plain, index, c_array, 0, length);
279 index+=length;
280/*
281System.err.println("int: c len="+length);
282for(int i=0; i<c_array.length; i++){
283System.err.print(Integer.toHexString(c_array[i]&0xff)+":");
284}
285System.err.println("");
286*/
287 }
288 catch(Exception e){
289 //System.err.println(e);
290 return false;
291 }
292 return true;
293 }
294
295
296 public byte[] getPublicKeyBlob(){
297 byte[] foo=super.getPublicKeyBlob();
298 if(foo!=null) return foo;
299
300 if(pub_array==null) return null;
301
302 Buffer buf=new Buffer(sshrsa.length+4+
303 pub_array.length+4+
304 n_array.length+4);
305 buf.putString(sshrsa);
306 buf.putString(pub_array);
307 buf.putString(n_array);
308 return buf.buffer;
309 }
310
311 private static final byte[] sshrsa=Util.str2byte("ssh-rsa");
312 byte[] getKeyTypeName(){return sshrsa;}
313 public int getKeyType(){return RSA;}
314
315 public int getKeySize(){return key_size; }
316 public void dispose(){
317 super.dispose();
318 Util.bzero(prv_array);
319 }
320}
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