2 // X509Certificates.cs: Handles X.509 certificates.
5 // Sebastien Pouliot <sebastien@ximian.com>
7 // (C) 2002, 2003 Motus Technologies Inc. (http://www.motus.com)
8 // Copyright (C) 2004-2006 Novell, Inc (http://www.novell.com)
10 // Permission is hereby granted, free of charge, to any person obtaining
11 // a copy of this software and associated documentation files (the
12 // "Software"), to deal in the Software without restriction, including
13 // without limitation the rights to use, copy, modify, merge, publish,
14 // distribute, sublicense, and/or sell copies of the Software, and to
15 // permit persons to whom the Software is furnished to do so, subject to
16 // the following conditions:
18 // The above copyright notice and this permission notice shall be
19 // included in all copies or substantial portions of the Software.
21 // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
22 // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
23 // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
24 // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
25 // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
26 // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
27 // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
31 using System.Runtime.Serialization;
32 using System.Security.Cryptography;
33 using SSCX = System.Security.Cryptography.X509Certificates;
34 using System.Security.Permissions;
37 namespace Mono.Security.X509 {
40 // a. Internet X.509 Public Key Infrastructure Certificate and CRL Profile
41 // http://www.ietf.org/rfc/rfc3280.txt
42 // b. ITU ASN.1 standards (free download)
43 // http://www.itu.int/ITU-T/studygroups/com17/languages/
46 internal class X509Certificate : ISerializable {
48 public class X509Certificate : ISerializable {
53 private byte[] m_encodedcert;
54 private DateTime m_from;
55 private DateTime m_until;
57 private string m_issuername;
58 private string m_keyalgo;
59 private byte[] m_keyalgoparams;
61 private string m_subject;
62 private byte[] m_publickey;
63 private byte[] signature;
64 private string m_signaturealgo;
65 private byte[] m_signaturealgoparams;
66 private byte[] certhash;
70 // from http://www.ietf.org/rfc/rfc2459.txt
72 //Certificate ::= SEQUENCE {
73 // tbsCertificate TBSCertificate,
74 // signatureAlgorithm AlgorithmIdentifier,
75 // signature BIT STRING }
77 //TBSCertificate ::= SEQUENCE {
78 // version [0] Version DEFAULT v1,
79 // serialNumber CertificateSerialNumber,
80 // signature AlgorithmIdentifier,
84 // subjectPublicKeyInfo SubjectPublicKeyInfo,
85 // issuerUniqueID [1] IMPLICIT UniqueIdentifier OPTIONAL,
86 // -- If present, version shall be v2 or v3
87 // subjectUniqueID [2] IMPLICIT UniqueIdentifier OPTIONAL,
88 // -- If present, version shall be v2 or v3
89 // extensions [3] Extensions OPTIONAL
90 // -- If present, version shall be v3 -- }
92 private byte[] serialnumber;
94 private byte[] issuerUniqueID;
95 private byte[] subjectUniqueID;
96 private X509ExtensionCollection extensions;
98 private static string encoding_error = Locale.GetText ("Input data cannot be coded as a valid certificate.");
101 // that's were the real job is!
102 private void Parse (byte[] data)
105 decoder = new ASN1 (data);
107 if (decoder.Tag != 0x30)
108 throw new CryptographicException (encoding_error);
109 // Certificate / TBSCertificate
110 if (decoder [0].Tag != 0x30)
111 throw new CryptographicException (encoding_error);
113 ASN1 tbsCertificate = decoder [0];
116 // Certificate / TBSCertificate / Version
117 ASN1 v = decoder [0][tbs];
118 version = 1; // DEFAULT v1
119 if ((v.Tag == 0xA0) && (v.Count > 0)) {
120 // version (optional) is present only in v2+ certs
121 version += v [0].Value [0]; // zero based
125 // Certificate / TBSCertificate / CertificateSerialNumber
126 ASN1 sn = decoder [0][tbs++];
128 throw new CryptographicException (encoding_error);
129 serialnumber = sn.Value;
130 Array.Reverse (serialnumber, 0, serialnumber.Length);
132 // Certificate / TBSCertificate / AlgorithmIdentifier
134 // ASN1 signatureAlgo = tbsCertificate.Element (tbs++, 0x30);
136 issuer = tbsCertificate.Element (tbs++, 0x30);
137 m_issuername = X501.ToString (issuer);
139 ASN1 validity = tbsCertificate.Element (tbs++, 0x30);
140 ASN1 notBefore = validity [0];
141 m_from = ASN1Convert.ToDateTime (notBefore);
142 ASN1 notAfter = validity [1];
143 m_until = ASN1Convert.ToDateTime (notAfter);
145 subject = tbsCertificate.Element (tbs++, 0x30);
146 m_subject = X501.ToString (subject);
148 ASN1 subjectPublicKeyInfo = tbsCertificate.Element (tbs++, 0x30);
150 ASN1 algorithm = subjectPublicKeyInfo.Element (0, 0x30);
151 ASN1 algo = algorithm.Element (0, 0x06);
152 m_keyalgo = ASN1Convert.ToOid (algo);
153 // parameters ANY DEFINED BY algorithm OPTIONAL
154 // so we dont ask for a specific (Element) type and return DER
155 ASN1 parameters = algorithm [1];
156 m_keyalgoparams = ((algorithm.Count > 1) ? parameters.GetBytes () : null);
158 ASN1 subjectPublicKey = subjectPublicKeyInfo.Element (1, 0x03);
159 // we must drop th first byte (which is the number of unused bits
161 int n = subjectPublicKey.Length - 1;
162 m_publickey = new byte [n];
163 Buffer.BlockCopy (subjectPublicKey.Value, 1, m_publickey, 0, n);
165 // signature processing
166 byte[] bitstring = decoder [2].Value;
167 // first byte contains unused bits in first byte
168 signature = new byte [bitstring.Length - 1];
169 Buffer.BlockCopy (bitstring, 1, signature, 0, signature.Length);
171 algorithm = decoder [1];
172 algo = algorithm.Element (0, 0x06);
173 m_signaturealgo = ASN1Convert.ToOid (algo);
174 parameters = algorithm [1];
175 if (parameters != null)
176 m_signaturealgoparams = parameters.GetBytes ();
178 m_signaturealgoparams = null;
180 // Certificate / TBSCertificate / issuerUniqueID
181 ASN1 issuerUID = tbsCertificate.Element (tbs, 0x81);
182 if (issuerUID != null) {
184 issuerUniqueID = issuerUID.Value;
187 // Certificate / TBSCertificate / subjectUniqueID
188 ASN1 subjectUID = tbsCertificate.Element (tbs, 0x82);
189 if (subjectUID != null) {
191 subjectUniqueID = subjectUID.Value;
194 // Certificate / TBSCertificate / Extensions
195 ASN1 extns = tbsCertificate.Element (tbs, 0xA3);
196 if ((extns != null) && (extns.Count == 1))
197 extensions = new X509ExtensionCollection (extns [0]);
199 extensions = new X509ExtensionCollection (null);
201 // keep a copy of the original data
202 m_encodedcert = (byte[]) data.Clone ();
204 catch (Exception ex) {
205 throw new CryptographicException (encoding_error, ex);
211 public X509Certificate (byte[] data)
214 // does it looks like PEM ?
215 if ((data.Length > 0) && (data [0] != 0x30)) {
217 data = PEM ("CERTIFICATE", data);
219 catch (Exception ex) {
220 throw new CryptographicException (encoding_error, ex);
227 private byte[] GetUnsignedBigInteger (byte[] integer)
229 if (integer [0] == 0x00) {
230 // this first byte is added so we're sure it's an unsigned integer
231 // however we can't feed it into RSAParameters or DSAParameters
232 int length = integer.Length - 1;
233 byte[] uinteger = new byte [length];
234 Buffer.BlockCopy (integer, 1, uinteger, 0, length);
245 if (m_keyalgoparams == null)
246 throw new CryptographicException ("Missing key algorithm parameters.");
249 DSAParameters dsaParams = new DSAParameters ();
250 // for DSA m_publickey contains 1 ASN.1 integer - Y
251 ASN1 pubkey = new ASN1 (m_publickey);
252 if ((pubkey == null) || (pubkey.Tag != 0x02))
254 dsaParams.Y = GetUnsignedBigInteger (pubkey.Value);
256 ASN1 param = new ASN1 (m_keyalgoparams);
257 if ((param == null) || (param.Tag != 0x30) || (param.Count < 3))
259 if ((param [0].Tag != 0x02) || (param [1].Tag != 0x02) || (param [2].Tag != 0x02))
261 dsaParams.P = GetUnsignedBigInteger (param [0].Value);
262 dsaParams.Q = GetUnsignedBigInteger (param [1].Value);
263 dsaParams.G = GetUnsignedBigInteger (param [2].Value);
265 // BUG: MS BCL 1.0 can't import a key which
266 // isn't the same size as the one present in
268 _dsa = (DSA) new DSACryptoServiceProvider (dsaParams.Y.Length << 3);
269 _dsa.ImportParameters (dsaParams);
281 public X509ExtensionCollection Extensions {
282 get { return extensions; }
287 if (certhash == null) {
288 HashAlgorithm hash = null;
289 switch (m_signaturealgo) {
290 case "1.2.840.113549.1.1.2": // MD2 with RSA encryption
291 // maybe someone installed MD2 ?
293 hash = HashAlgorithm.Create ("MD2");
295 hash = Mono.Security.Cryptography.MD2.Create ();
298 case "1.2.840.113549.1.1.4": // MD5 with RSA encryption
299 hash = MD5.Create ();
301 case "1.2.840.113549.1.1.5": // SHA-1 with RSA Encryption
302 case "1.3.14.3.2.29": // SHA1 with RSA signature
303 case "1.2.840.10040.4.3": // SHA1-1 with DSA
304 hash = SHA1.Create ();
309 if ((decoder == null) || (decoder.Count < 1))
311 byte[] toBeSigned = decoder [0].GetBytes ();
312 certhash = hash.ComputeHash (toBeSigned, 0, toBeSigned.Length);
314 return (byte[]) certhash.Clone ();
318 public virtual string IssuerName {
319 get { return m_issuername; }
322 public virtual string KeyAlgorithm {
323 get { return m_keyalgo; }
326 public virtual byte[] KeyAlgorithmParameters {
328 if (m_keyalgoparams == null)
330 return (byte[]) m_keyalgoparams.Clone ();
332 set { m_keyalgoparams = value; }
335 public virtual byte[] PublicKey {
337 if (m_publickey == null)
339 return (byte[]) m_publickey.Clone ();
343 public virtual RSA RSA {
346 RSAParameters rsaParams = new RSAParameters ();
347 // for RSA m_publickey contains 2 ASN.1 integers
348 // the modulus and the public exponent
349 ASN1 pubkey = new ASN1 (m_publickey);
350 ASN1 modulus = pubkey [0];
351 if ((modulus == null) || (modulus.Tag != 0x02))
353 ASN1 exponent = pubkey [1];
354 if (exponent.Tag != 0x02)
357 rsaParams.Modulus = GetUnsignedBigInteger (modulus.Value);
358 rsaParams.Exponent = exponent.Value;
360 // BUG: MS BCL 1.0 can't import a key which
361 // isn't the same size as the one present in
363 int keySize = (rsaParams.Modulus.Length << 3);
364 _rsa = (RSA) new RSACryptoServiceProvider (keySize);
365 _rsa.ImportParameters (rsaParams);
377 public virtual byte[] RawData {
379 if (m_encodedcert == null)
381 return (byte[]) m_encodedcert.Clone ();
385 public virtual byte[] SerialNumber {
387 if (serialnumber == null)
389 return (byte[]) serialnumber.Clone ();
393 public virtual byte[] Signature {
395 if (signature == null)
398 switch (m_signaturealgo) {
399 case "1.2.840.113549.1.1.2": // MD2 with RSA encryption
400 case "1.2.840.113549.1.1.4": // MD5 with RSA encryption
401 case "1.2.840.113549.1.1.5": // SHA-1 with RSA Encryption
402 case "1.3.14.3.2.29": // SHA1 with RSA signature
403 return (byte[]) signature.Clone ();
405 case "1.2.840.10040.4.3": // SHA-1 with DSA
406 ASN1 sign = new ASN1 (signature);
407 if ((sign == null) || (sign.Count != 2))
409 byte[] part1 = sign [0].Value;
410 byte[] part2 = sign [1].Value;
411 byte[] sig = new byte [40];
412 // parts may be less than 20 bytes (i.e. first bytes were 0x00)
413 // parts may be more than 20 bytes (i.e. first byte > 0x80, negative)
414 int s1 = System.Math.Max (0, part1.Length - 20);
415 int e1 = System.Math.Max (0, 20 - part1.Length);
416 Buffer.BlockCopy (part1, s1, sig, e1, part1.Length - s1);
417 int s2 = System.Math.Max (0, part2.Length - 20);
418 int e2 = System.Math.Max (20, 40 - part2.Length);
419 Buffer.BlockCopy (part2, s2, sig, e2, part2.Length - s2);
423 throw new CryptographicException ("Unsupported hash algorithm: " + m_signaturealgo);
428 public virtual string SignatureAlgorithm {
429 get { return m_signaturealgo; }
432 public virtual byte[] SignatureAlgorithmParameters {
434 if (m_signaturealgoparams == null)
435 return m_signaturealgoparams;
436 return (byte[]) m_signaturealgoparams.Clone ();
440 public virtual string SubjectName {
441 get { return m_subject; }
444 public virtual DateTime ValidFrom {
445 get { return m_from; }
448 public virtual DateTime ValidUntil {
449 get { return m_until; }
453 get { return version; }
456 public bool IsCurrent {
457 get { return WasCurrent (DateTime.UtcNow); }
460 public bool WasCurrent (DateTime instant)
462 return ((instant > ValidFrom) && (instant <= ValidUntil));
465 // uncommon v2 "extension"
466 public byte[] IssuerUniqueIdentifier {
468 if (issuerUniqueID == null)
470 return (byte[]) issuerUniqueID.Clone ();
474 // uncommon v2 "extension"
475 public byte[] SubjectUniqueIdentifier {
477 if (subjectUniqueID == null)
479 return (byte[]) subjectUniqueID.Clone ();
483 internal bool VerifySignature (DSA dsa)
485 // signatureOID is check by both this.Hash and this.Signature
486 DSASignatureDeformatter v = new DSASignatureDeformatter (dsa);
487 // only SHA-1 is supported
488 v.SetHashAlgorithm ("SHA1");
489 return v.VerifySignature (this.Hash, this.Signature);
492 internal bool VerifySignature (RSA rsa)
494 RSAPKCS1SignatureDeformatter v = new RSAPKCS1SignatureDeformatter (rsa);
495 switch (m_signaturealgo) {
496 // MD2 with RSA encryption
497 case "1.2.840.113549.1.1.2":
498 // maybe someone installed MD2 ?
499 v.SetHashAlgorithm ("MD2");
501 // MD5 with RSA encryption
502 case "1.2.840.113549.1.1.4":
503 v.SetHashAlgorithm ("MD5");
505 // SHA-1 with RSA Encryption
506 case "1.2.840.113549.1.1.5":
507 case "1.3.14.3.2.29":
508 v.SetHashAlgorithm ("SHA1");
511 throw new CryptographicException ("Unsupported hash algorithm: " + m_signaturealgo);
513 return v.VerifySignature (this.Hash, this.Signature);
516 public bool VerifySignature (AsymmetricAlgorithm aa)
519 throw new ArgumentNullException ("aa");
522 return VerifySignature (aa as RSA);
524 return VerifySignature (aa as DSA);
526 throw new NotSupportedException ("Unknown Asymmetric Algorithm " + aa.ToString ());
529 public bool CheckSignature (byte[] hash, string hashAlgorithm, byte[] signature)
531 RSACryptoServiceProvider r = (RSACryptoServiceProvider) RSA;
532 return r.VerifyHash (hash, hashAlgorithm, signature);
535 public bool IsSelfSigned {
537 if (m_issuername == m_subject)
538 return VerifySignature (RSA);
545 public ASN1 GetIssuerName ()
550 public ASN1 GetSubjectName ()
555 protected X509Certificate (SerializationInfo info, StreamingContext context)
557 Parse ((byte[]) info.GetValue ("raw", typeof (byte[])));
560 [SecurityPermission (SecurityAction.Demand, SerializationFormatter = true)]
561 public virtual void GetObjectData (SerializationInfo info, StreamingContext context)
563 info.AddValue ("raw", m_encodedcert);
564 // note: we NEVER serialize the private key
568 static byte[] PEM (string type, byte[] data)
570 string pem = Encoding.ASCII.GetString (data);
571 string header = String.Format ("-----BEGIN {0}-----", type);
572 string footer = String.Format ("-----END {0}-----", type);
573 int start = pem.IndexOf (header) + header.Length;
574 int end = pem.IndexOf (footer, start);
575 string base64 = pem.Substring (start, (end - start));
576 return Convert.FromBase64String (base64);
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