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[gnutls.git] / src / ocsptool-args.def
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1 AutoGen Definitions options;
2 prog-name = ocsptool;
3 prog-title = "GnuTLS OCSP tool";
4 prog-desc = "Program to handle OCSP request/responses.";
5 detail = "Ocsptool is a program that can parse and print information about
6 OCSP requests/responses, generate requests and verify responses.
7 ";
8 short-usage = "ocsptool [options]\nocsptool --help for usage instructions.\n";
9 explain = "";
11 #define INFILE_OPT 1
12 #define OUTFILE_OPT 1
13 #define VERBOSE_OPT 1
14 #include args-std.def
16 flag = {
17 name = ask;
18 arg-type = string;
19 arg-name = "server name|url";
20 arg-optional;
21 descrip = "Ask an OCSP/HTTP server on a certificate validity";
22 flags-must = load-cert;
23 flags-must = load-issuer;
24 doc = "Connects to the specified HTTP OCSP server and queries on the validity of the loaded certificate.";
27 flag = {
28 name = verify-response;
29 value = e;
30 descrip = "Verify response";
31 doc = "";
34 flag = {
35 name = request-info;
36 value = i;
37 descrip = "Print information on a OCSP request";
38 doc = "";
41 flag = {
42 name = response-info;
43 value = j;
44 descrip = "Print information on a OCSP response";
45 doc = "";
48 flag = {
49 name = generate-request;
50 value = q;
51 descrip = "Generate an OCSP request";
52 doc = "";
55 flag = {
56 name = nonce;
57 disabled = yes;
58 disable = "no";
59 descrip = "Don't add nonce to OCSP request";
60 doc = "";
63 flag = {
64 name = load-issuer;
65 arg-type = file;
66 file-exists = yes;
67 descrip = "Read issuer certificate from file";
68 doc = "";
71 flag = {
72 name = load-cert;
73 arg-type = file;
74 file-exists = yes;
75 descrip = "Read certificate to check from file";
76 doc = "";
79 flag = {
80 name = load-trust;
81 arg-type = file;
82 file-exists = yes;
83 descrip = "Read OCSP trust anchors from file";
84 flags-cant = load-signer;
85 doc = "";
88 flag = {
89 name = load-signer;
90 arg-type = file;
91 file-exists = yes;
92 descrip = "Read OCSP response signer from file";
93 flags-cant = load-trust;
94 doc = "";
97 flag = {
98 name = inder;
99 disabled;
100 disable = "no";
101 descrip = "Use DER format for input certificates and private keys";
102 doc = "";
105 flag = {
106 name = load-request;
107 value = Q;
108 arg-type = file;
109 file-exists = yes;
110 descrip = "Read DER encoded OCSP request from file";
111 doc = "";
114 flag = {
115 name = load-response;
116 value = S;
117 arg-type = file;
118 file-exists = yes;
119 descrip = "Read DER encoded OCSP response from file";
120 doc = "";
123 doc-section = {
124 ds-type = 'SEE ALSO';
125 ds-format = 'texi';
126 ds-text = <<-_EOT_
127 certtool (1)
128 _EOT_;
131 doc-section = {
132 ds-type = 'EXAMPLES';
133 ds-format = 'texi';
134 ds-text = <<-_EOF_
135 @subheading Print information about an OCSP request
137 To parse an OCSP request and print information about the content, the
138 @code{-i} or @code{--request-info} parameter may be used as follows.
139 The @code{-Q} parameter specify the name of the file containing the
140 OCSP request, and it should contain the OCSP request in binary DER
141 format.
143 @example
144 $ ocsptool -i -Q ocsp-request.der
145 @end example
147 The input file may also be sent to standard input like this:
149 @example
150 $ cat ocsp-request.der | ocsptool --request-info
151 @end example
153 @subheading Print information about an OCSP response
155 Similar to parsing OCSP requests, OCSP responses can be parsed using
156 the @code{-j} or @code{--response-info} as follows.
158 @example
159 $ ocsptool -j -Q ocsp-response.der
160 $ cat ocsp-response.der | ocsptool --response-info
161 @end example
163 @subheading Generate an OCSP request
165 The @code{-q} or @code{--generate-request} parameters are used to
166 generate an OCSP request. By default the OCSP request is written to
167 standard output in binary DER format, but can be stored in a file
168 using @code{--outfile}. To generate an OCSP request the issuer of the
169 certificate to check needs to be specified with @code{--load-issuer}
170 and the certificate to check with @code{--load-cert}. By default PEM
171 format is used for these files, although @code{--inder} can be used to
172 specify that the input files are in DER format.
174 @example
175 $ ocsptool -q --load-issuer issuer.pem --load-cert client.pem \
176 --outfile ocsp-request.der
177 @end example
179 When generating OCSP requests, the tool will add an OCSP extension
180 containing a nonce. This behaviour can be disabled by specifying
181 @code{--no-nonce}.
183 @subheading Verify signature in OCSP response
185 To verify the signature in an OCSP response the @code{-e} or
186 @code{--verify-response} parameter is used. The tool will read an
187 OCSP response in DER format from standard input, or from the file
188 specified by @code{--load-response}. The OCSP response is verified
189 against a set of trust anchors, which are specified using
190 @code{--load-trust}. The trust anchors are concatenated certificates
191 in PEM format. The certificate that signed the OCSP response needs to
192 be in the set of trust anchors, or the issuer of the signer
193 certificate needs to be in the set of trust anchors and the OCSP
194 Extended Key Usage bit has to be asserted in the signer certificate.
196 @example
197 $ ocsptool -e --load-trust issuer.pem \
198 --load-response ocsp-response.der
199 @end example
201 The tool will print status of verification.
203 @subheading Verify signature in OCSP response against given certificate
205 It is possible to override the normal trust logic if you know that a
206 certain certificate is supposed to have signed the OCSP response, and
207 you want to use it to check the signature. This is achieved using
208 @code{--load-signer} instead of @code{--load-trust}. This will load
209 one certificate and it will be used to verify the signature in the
210 OCSP response. It will not check the Extended Key Usage bit.
212 @example
213 $ ocsptool -e --load-signer ocsp-signer.pem \
214 --load-response ocsp-response.der
215 @end example
217 This approach is normally only relevant in two situations. The first
218 is when the OCSP response does not contain a copy of the signer
219 certificate, so the @code{--load-trust} code would fail. The second
220 is if you want to avoid the indirect mode where the OCSP response
221 signer certificate is signed by a trust anchor.
223 @subheading Real-world example
225 Here is an example of how to generate an OCSP request for a
226 certificate and to verify the response. For illustration we'll use
227 the @code{blog.josefsson.org} host, which (as of writing) uses a
228 certificate from CACert. First we'll use @code{gnutls-cli} to get a
229 copy of the server certificate chain. The server is not required to
230 send this information, but this particular one is configured to do so.
232 @example
233 $ echo | gnutls-cli -p 443 blog.josefsson.org --print-cert > chain.pem
234 @end example
236 Use a text editor on @code{chain.pem} to create three files for each
237 separate certificates, called @code{cert.pem} for the first
238 certificate for the domain itself, secondly @code{issuer.pem} for the
239 intermediate certificate and @code{root.pem} for the final root
240 certificate.
242 The domain certificate normally contains a pointer to where the OCSP
243 responder is located, in the Authority Information Access Information
244 extension. For example, from @code{certtool -i < cert.pem} there is
245 this information:
247 @example
248 Authority Information Access Information (not critical):
249 Access Method: 1.3.6.1.5.5.7.48.1 (id-ad-ocsp)
250 Access Location URI: http://ocsp.CAcert.org/
251 @end example
253 This means the CA support OCSP queries over HTTP. We are now ready to
254 create a OCSP request for the certificate.
256 @example
257 $ ocsptool --ask ocsp.CAcert.org --load-issuer issuer.pem \
258 --load-cert cert.pem --outfile ocsp-response.der
259 @end example
261 The request is sent via HTTP to the OCSP server address specified. If the
262 address is ommited ocsptool will use the address stored in the certificate.
264 _EOF_;