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[chromium-blink-merge.git] / net / tools / testserver / minica.py
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1 # Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 # Use of this source code is governed by a BSD-style license that can be
3 # found in the LICENSE file.
5 import asn1
6 import hashlib
7 import os
10 # This file implements very minimal certificate and OCSP generation. It's
11 # designed to test revocation checking.
13 def RandomNumber(length_in_bytes):
14 '''RandomNumber returns a random number of length 8*|length_in_bytes| bits'''
15 rand = os.urandom(length_in_bytes)
16 n = 0
17 for x in rand:
18 n <<= 8
19 n |= ord(x)
20 return n
23 def ModExp(n, e, p):
24 '''ModExp returns n^e mod p'''
25 r = 1
26 while e != 0:
27 if e & 1:
28 r = (r*n) % p
29 e >>= 1
30 n = (n*n) % p
31 return r
33 # PKCS1v15_SHA256_PREFIX is the ASN.1 prefix for a SHA256 signature.
34 PKCS1v15_SHA256_PREFIX = '3031300d060960864801650304020105000420'.decode('hex')
36 class RSA(object):
37 def __init__(self, modulus, e, d):
38 self.m = modulus
39 self.e = e
40 self.d = d
42 self.modlen = 0
43 m = modulus
44 while m != 0:
45 self.modlen += 1
46 m >>= 8
48 def Sign(self, message):
49 digest = hashlib.sha256(message).digest()
50 prefix = PKCS1v15_SHA256_PREFIX
52 em = ['\xff'] * (self.modlen - 1 - len(prefix) - len(digest))
53 em[0] = '\x00'
54 em[1] = '\x01'
55 em += "\x00" + prefix + digest
57 n = 0
58 for x in em:
59 n <<= 8
60 n |= ord(x)
62 s = ModExp(n, self.d, self.m)
63 out = []
64 while s != 0:
65 out.append(s & 0xff)
66 s >>= 8
67 out.reverse()
68 return '\x00' * (self.modlen - len(out)) + asn1.ToBytes(out)
70 def ToDER(self):
71 return asn1.ToDER(asn1.SEQUENCE([self.m, self.e]))
74 def Name(cn = None, c = None, o = None):
75 names = asn1.SEQUENCE([])
77 if cn is not None:
78 names.children.append(
79 asn1.SET([
80 asn1.SEQUENCE([
81 COMMON_NAME, cn,
86 if c is not None:
87 names.children.append(
88 asn1.SET([
89 asn1.SEQUENCE([
90 COUNTRY, c,
95 if o is not None:
96 names.children.append(
97 asn1.SET([
98 asn1.SEQUENCE([
99 ORGANIZATION, o,
104 return names
107 # The private key and root certificate name are hard coded here:
109 # This is the private key
110 KEY = RSA(0x00a71998f2930bfe73d031a87f133d2f378eeeeed52a77e44d0fc9ff6f07ff32cbf3da999de4ed65832afcb0807f98787506539d258a0ce3c2c77967653099a9034a9b115a876c39a8c4e4ed4acd0c64095946fb39eeeb47a0704dbb018acf48c3a1c4b895fc409fb4a340a986b1afc45519ab9eca47c30185c771c64aa5ecf07d,
112 0x6f6665f70cb2a9a28acbc5aa0cd374cfb49f49e371a542de0a86aa4a0554cc87f7e71113edf399021ca875aaffbafaf8aee268c3b15ded2c84fb9a4375bbc6011d841e57833bc6f998d25daf6fa7f166b233e3e54a4bae7a5aaaba21431324967d5ff3e1d4f413827994262115ca54396e7068d0afa7af787a5782bc7040e6d3)
114 # And the same thing in PEM format
115 KEY_PEM = '''-----BEGIN RSA PRIVATE KEY-----
116 MIICXAIBAAKBgQCnGZjykwv+c9AxqH8TPS83ju7u1Sp35E0Pyf9vB/8yy/PamZ3k
117 7WWDKvywgH+YeHUGU50ligzjwsd5Z2UwmakDSpsRWodsOajE5O1KzQxkCVlG+znu
118 60egcE27AYrPSMOhxLiV/ECftKNAqYaxr8RVGaueykfDAYXHccZKpezwfQIBAwKB
119 gG9mZfcMsqmiisvFqgzTdM+0n0njcaVC3gqGqkoFVMyH9+cRE+3zmQIcqHWq/7r6
120 +K7iaMOxXe0shPuaQ3W7xgEdhB5XgzvG+ZjSXa9vp/FmsjPj5UpLrnpaqrohQxMk
121 ln1f8+HU9BOCeZQmIRXKVDlucGjQr6eveHpXgrxwQObTAkEA2wBAfuduw5G0/VfN
122 Wx66D5fbPccfYFqLM5LuTimLmNqzK2gIKXckB2sm44gJZ6wVlumaB1CSNug2LNYx
123 3cAjUwJBAMNUo1hbI8ugqqwI9kpxv9+2Heea4BlnXbS6tYF8pvkHMoliuxNbXmmB
124 u4zNB5iZ6V0ZZ4nvtUNo2cGr/h/Lcu8CQQCSACr/RPSCYSNTj948vya1D+d+hL+V
125 kbIiYfQ0G7Jl5yIc8AVw+hgE8hntBVuacrkPRmaviwwkms7IjsvpKsI3AkEAgjhs
126 5ZIX3RXHHVtO3EvVP86+mmdAEO+TzdHOVlMZ+1ohsOx8t5I+8QEnszNaZbvw6Lua
127 W/UjgkXmgR1UFTJMnwJBAKErmAw21/g3SST0a4wlyaGT/MbXL8Ouwnb5IOKQVe55
128 CZdeVeSh6cJ4hAcQKfr2s1JaZTJFIBPGKAif5HqpydA=
129 -----END RSA PRIVATE KEY-----
132 # Root certificate CN
133 ISSUER_CN = "Testing CA"
135 # All certificates are issued under this policy OID, in the Google arc:
136 CERT_POLICY_OID = asn1.OID([1, 3, 6, 1, 4, 1, 11129, 2, 4, 1])
138 # These result in the following root certificate:
139 # -----BEGIN CERTIFICATE-----
140 # MIIB0TCCATqgAwIBAgIBATANBgkqhkiG9w0BAQUFADAVMRMwEQYDVQQDEwpUZXN0aW5nIENBMB4X
141 # DTEwMDEwMTA2MDAwMFoXDTMyMTIwMTA2MDAwMFowFTETMBEGA1UEAxMKVGVzdGluZyBDQTCBnTAN
142 # BgkqhkiG9w0BAQEFAAOBiwAwgYcCgYEApxmY8pML/nPQMah/Ez0vN47u7tUqd+RND8n/bwf/Msvz
143 # 2pmd5O1lgyr8sIB/mHh1BlOdJYoM48LHeWdlMJmpA0qbEVqHbDmoxOTtSs0MZAlZRvs57utHoHBN
144 # uwGKz0jDocS4lfxAn7SjQKmGsa/EVRmrnspHwwGFx3HGSqXs8H0CAQOjMzAxMBIGA1UdEwEB/wQI
145 # MAYBAf8CAQAwGwYDVR0gAQEABBEwDzANBgsrBgEEAdZ5AgHODzANBgkqhkiG9w0BAQUFAAOBgQA/
146 # STb40A6D+93jMfLGQzXc997IsaJZdoPt7tYa8PqGJBL62EiTj+erd/H5pDZx/2/bcpOG4m9J56yg
147 # wOohbllw2TM+oeEd8syzV6X+1SIPnGI56JRrm3UXcHYx1Rq5loM9WKAiz/WmIWmskljsEQ7+542p
148 # q0pkHjs8nuXovSkUYA==
149 # -----END CERTIFICATE-----
151 # If you update any of the above, you can generate a new root with the
152 # following line:
153 # print DERToPEM(MakeCertificate(ISSUER_CN, ISSUER_CN, 1, KEY, KEY, None))
156 # Various OIDs
158 AIA_OCSP = asn1.OID([1, 3, 6, 1, 5, 5, 7, 48, 1])
159 AUTHORITY_INFORMATION_ACCESS = asn1.OID([1, 3, 6, 1, 5, 5, 7, 1, 1])
160 BASIC_CONSTRAINTS = asn1.OID([2, 5, 29, 19])
161 CERT_POLICIES = asn1.OID([2, 5, 29, 32])
162 COMMON_NAME = asn1.OID([2, 5, 4, 3])
163 COUNTRY = asn1.OID([2, 5, 4, 6])
164 HASH_SHA1 = asn1.OID([1, 3, 14, 3, 2, 26])
165 OCSP_TYPE_BASIC = asn1.OID([1, 3, 6, 1, 5, 5, 7, 48, 1, 1])
166 ORGANIZATION = asn1.OID([2, 5, 4, 10])
167 PUBLIC_KEY_RSA = asn1.OID([1, 2, 840, 113549, 1, 1, 1])
168 SHA256_WITH_RSA_ENCRYPTION = asn1.OID([1, 2, 840, 113549, 1, 1, 11])
171 def MakeCertificate(
172 issuer_cn, subject_cn, serial, pubkey, privkey, ocsp_url = None):
173 '''MakeCertificate returns a DER encoded certificate, signed by privkey.'''
174 extensions = asn1.SEQUENCE([])
176 # Default subject name fields
177 c = "XX"
178 o = "Testing Org"
180 if issuer_cn == subject_cn:
181 # Root certificate.
182 c = None
183 o = None
184 extensions.children.append(
185 asn1.SEQUENCE([
186 basic_constraints,
187 True,
188 asn1.OCTETSTRING(asn1.ToDER(asn1.SEQUENCE([
189 True, # IsCA
190 0, # Path len
191 ]))),
194 if ocsp_url is not None:
195 extensions.children.append(
196 asn1.SEQUENCE([
197 AUTHORITY_INFORMATION_ACCESS,
198 False,
199 asn1.OCTETSTRING(asn1.ToDER(asn1.SEQUENCE([
200 asn1.SEQUENCE([
201 AIA_OCSP,
202 asn1.Raw(asn1.TagAndLength(0x86, len(ocsp_url)) + ocsp_url),
204 ]))),
207 extensions.children.append(
208 asn1.SEQUENCE([
209 CERT_POLICIES,
210 False,
211 asn1.OCTETSTRING(asn1.ToDER(asn1.SEQUENCE([
212 asn1.SEQUENCE([ # PolicyInformation
213 CERT_POLICY_OID,
215 ]))),
219 tbsCert = asn1.ToDER(asn1.SEQUENCE([
220 asn1.Explicit(0, 2), # Version
221 serial,
222 asn1.SEQUENCE([SHA256_WITH_RSA_ENCRYPTION, None]), # SignatureAlgorithm
223 Name(cn = issuer_cn), # Issuer
224 asn1.SEQUENCE([ # Validity
225 asn1.UTCTime("100101060000Z"), # NotBefore
226 asn1.UTCTime("321201060000Z"), # NotAfter
228 Name(cn = subject_cn, c = c, o = o), # Subject
229 asn1.SEQUENCE([ # SubjectPublicKeyInfo
230 asn1.SEQUENCE([ # Algorithm
231 PUBLIC_KEY_RSA,
232 None,
234 asn1.BitString(asn1.ToDER(pubkey)),
236 asn1.Explicit(3, extensions),
239 return asn1.ToDER(asn1.SEQUENCE([
240 asn1.Raw(tbsCert),
241 asn1.SEQUENCE([
242 SHA256_WITH_RSA_ENCRYPTION,
243 None,
245 asn1.BitString(privkey.Sign(tbsCert)),
249 def MakeOCSPResponse(issuer_cn, issuer_key, serial, ocsp_state):
250 # https://tools.ietf.org/html/rfc2560
251 issuer_name_hash = asn1.OCTETSTRING(
252 hashlib.sha1(asn1.ToDER(Name(cn = issuer_cn))).digest())
254 issuer_key_hash = asn1.OCTETSTRING(
255 hashlib.sha1(asn1.ToDER(issuer_key)).digest())
257 cert_status = None
258 if ocsp_state == OCSP_STATE_REVOKED:
259 cert_status = asn1.Explicit(1, asn1.GeneralizedTime("20100101060000Z"))
260 elif ocsp_state == OCSP_STATE_UNKNOWN:
261 cert_status = asn1.Raw(asn1.TagAndLength(0x80 | 2, 0))
262 elif ocsp_state == OCSP_STATE_GOOD:
263 cert_status = asn1.Raw(asn1.TagAndLength(0x80 | 0, 0))
264 else:
265 raise ValueError('Bad OCSP state: ' + str(ocsp_state))
267 basic_resp_data_der = asn1.ToDER(asn1.SEQUENCE([
268 asn1.Explicit(2, issuer_key_hash),
269 asn1.GeneralizedTime("20100101060000Z"), # producedAt
270 asn1.SEQUENCE([
271 asn1.SEQUENCE([ # SingleResponse
272 asn1.SEQUENCE([ # CertID
273 asn1.SEQUENCE([ # hashAlgorithm
274 HASH_SHA1,
275 None,
277 issuer_name_hash,
278 issuer_key_hash,
279 serial,
281 cert_status,
282 asn1.GeneralizedTime("20100101060000Z"), # thisUpdate
283 asn1.Explicit(0, asn1.GeneralizedTime("20300101060000Z")), # nextUpdate
288 basic_resp = asn1.SEQUENCE([
289 asn1.Raw(basic_resp_data_der),
290 asn1.SEQUENCE([
291 SHA256_WITH_RSA_ENCRYPTION,
292 None,
294 asn1.BitString(issuer_key.Sign(basic_resp_data_der)),
297 resp = asn1.SEQUENCE([
298 asn1.ENUMERATED(0),
299 asn1.Explicit(0, asn1.SEQUENCE([
300 OCSP_TYPE_BASIC,
301 asn1.OCTETSTRING(asn1.ToDER(basic_resp)),
305 return asn1.ToDER(resp)
308 def DERToPEM(der):
309 pem = '-----BEGIN CERTIFICATE-----\n'
310 pem += der.encode('base64')
311 pem += '-----END CERTIFICATE-----\n'
312 return pem
314 OCSP_STATE_GOOD = 1
315 OCSP_STATE_REVOKED = 2
316 OCSP_STATE_INVALID = 3
317 OCSP_STATE_UNAUTHORIZED = 4
318 OCSP_STATE_UNKNOWN = 5
320 # unauthorizedDER is an OCSPResponse with a status of 6:
321 # SEQUENCE { ENUM(6) }
322 unauthorizedDER = '30030a0106'.decode('hex')
324 def GenerateCertKeyAndOCSP(subject = "127.0.0.1",
325 ocsp_url = "http://127.0.0.1",
326 ocsp_state = OCSP_STATE_GOOD,
327 serial = 0):
328 '''GenerateCertKeyAndOCSP returns a (cert_and_key_pem, ocsp_der) where:
329 * cert_and_key_pem contains a certificate and private key in PEM format
330 with the given subject common name and OCSP URL.
331 * ocsp_der contains a DER encoded OCSP response or None if ocsp_url is
332 None'''
334 if serial == 0:
335 serial = RandomNumber(16)
336 cert_der = MakeCertificate(ISSUER_CN, bytes(subject), serial, KEY, KEY,
337 bytes(ocsp_url))
338 cert_pem = DERToPEM(cert_der)
340 ocsp_der = None
341 if ocsp_url is not None:
342 if ocsp_state == OCSP_STATE_UNAUTHORIZED:
343 ocsp_der = unauthorizedDER
344 elif ocsp_state == OCSP_STATE_INVALID:
345 ocsp_der = '3'
346 else:
347 ocsp_der = MakeOCSPResponse(ISSUER_CN, KEY, serial, ocsp_state)
349 return (cert_pem + KEY_PEM, ocsp_der)