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121286d9d1
* doc/gpgsm.texi, doc/howto-create-a-server-cert.texi: : update
default to 3072 bits.
* sm/certreqgen-ui.c (gpgsm_gencertreq_tty): update default to
3072 bits.
* sm/certreqgen.c (proc_parameters): update default to 3072 bits.
* sm/gpgsm.c (main): print correct default_pubkey_algo.
--
3072-bit RSA is widely considered to be 128-bit-equivalent security.
This is a sensible default in 2017.
Signed-off-by: Daniel Kahn Gillmor <dkg@fifthhorseman.net>
Gbp-Pq: Topic update-defaults
Gbp-Pq: Name 0014-gpgsm-default-to-3072-bit-keys.patch
(cherry picked from commit 7955262151
)
275 lines
8.5 KiB
Plaintext
275 lines
8.5 KiB
Plaintext
@node Howto Create a Server Cert
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@section Creating a TLS server certificate
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Here is a brief run up on how to create a server certificate. It has
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actually been done this way to get a certificate from CAcert to be used
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on a real server. It has only been tested with this CA, but there
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shouldn't be any problem to run this against any other CA.
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We start by generating an X.509 certificate signing request. As there
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is no need for a configuration file, you may simply enter:
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@cartouche
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@example
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$ gpgsm --generate-key >example.com.cert-req.pem
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Please select what kind of key you want:
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(1) RSA
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(2) Existing key
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(3) Existing key from card
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Your selection? 1
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@end example
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@end cartouche
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I opted for creating a new RSA key. The other option is to use an
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already existing key, by selecting @kbd{2} and entering the so-called
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keygrip. Running the command @samp{gpgsm --dump-secret-key USERID}
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shows you this keygrip. Using @kbd{3} offers another menu to create a
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certificate directly from a smart card based key.
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Let's continue:
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@cartouche
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@example
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What keysize do you want? (3072)
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Requested keysize is 3072 bits
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@end example
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@end cartouche
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Hitting enter chooses the default RSA key size of 3072 bits. Keys
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smaller than 2048 bits are too weak on the modern Internet. If you
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choose a larger (stronger) key, your server will need to do more work.
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@cartouche
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@example
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Possible actions for a RSA key:
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(1) sign, encrypt
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(2) sign
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(3) encrypt
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Your selection? 1
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@end example
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@end cartouche
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Selecting ``sign'' enables use of the key for Diffie-Hellman key
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exchange mechanisms (DHE and ECDHE) in TLS, which are preferred
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because they offer forward secrecy. Selecting ``encrypt'' enables RSA
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key exchange mechanisms, which are still common in some places.
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Selecting both enables both key exchange mechanisms.
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Now for some real data:
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@cartouche
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@example
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Enter the X.509 subject name: CN=example.com
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@end example
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@end cartouche
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This is the most important value for a server certificate. Enter here
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the canonical name of your server machine. You may add other virtual
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server names later.
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@cartouche
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@example
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E-Mail addresses (end with an empty line):
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>
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@end example
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@end cartouche
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We don't need email addresses in a TLS server certificate and CAcert
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would anyway ignore such a request. Thus just hit enter.
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If you want to create a client certificate for email encryption, this
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would be the place to enter your mail address
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(e.g. @email{joe@@example.org}). You may enter as many addresses as you like,
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however the CA may not accept them all or reject the entire request.
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@cartouche
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@example
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Enter DNS names (optional; end with an empty line):
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> example.com
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> www.example.com
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>
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@end example
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@end cartouche
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Here I entered the names of the services which the machine actually
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provides. You almost always want to include the canonical name here
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too. The browser will accept a certificate for any of these names. As
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usual the CA must approve all of these names.
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@cartouche
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@example
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URIs (optional; end with an empty line):
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>
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@end example
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@end cartouche
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It is possible to insert arbitrary URIs into a certificate; for a server
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certificate this does not make sense.
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@cartouche
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@example
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Create self-signed certificate? (y/N)
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@end example
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@end cartouche
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Since we are creating a certificate signing request, and not a full
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certificate, we answer no here, or just hit enter for the default.
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We have now entered all required information and @command{gpgsm} will
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display what it has gathered and ask whether to create the certificate
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request:
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@cartouche
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@example
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These parameters are used:
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Key-Type: RSA
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Key-Length: 3072
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Key-Usage: sign, encrypt
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Name-DN: CN=example.com
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Name-DNS: example.com
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Name-DNS: www.example.com
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Proceed with creation? (y/N) y
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@end example
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@end cartouche
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@command{gpgsm} will now start working on creating the request. As this
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includes the creation of an RSA key it may take a while. During this
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time you will be asked 3 times for a passphrase to protect the created
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private key on your system. A pop up window will appear to ask for
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it. The first two prompts are for the new passphrase and for re-entering it;
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the third one is required to actually create the certificate signing request.
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When it is ready, you should see the final notice:
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@cartouche
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@example
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Ready. You should now send this request to your CA.
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@end example
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@end cartouche
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Now, you may look at the created request:
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@cartouche
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@example
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$ cat example.com.cert-req.pem
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-----BEGIN CERTIFICATE REQUEST-----
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MIIClTCCAX0CAQAwFjEUMBIGA1UEAxMLZXhhbXBsZS5jb20wggEiMA0GCSqGSIb3
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DQEBAQUAA4IBDwAwggEKAoIBAQDP1QEcbTvOLLCX4gAoOzH9AW7jNOMj7OSOL0uW
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h2bCdkK5YVpnX212Z6COTC3ZG0pJiCeGt1TbbDJUlTa4syQ6JXavjK66N8ASZsyC
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Rwcl0m6hbXp541t1dbgt2VgeGk25okWw3j+brw6zxLD2TnthJxOatID0lDIG47HW
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GqzZmA6WHbIBIONmGnReIHTpPAPCDm92vUkpKG1xLPszuRmsQbwEl870W/FHrsvm
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DPvVUUSdIvTV9NuRt7/WY6G4nPp9QlIuTf1ESPzIuIE91gKPdrRCAx0yuT708S1n
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xCv3ETQ/bKPoAQ67eE3mPBqkcVwv9SE/2/36Lz06kAizRgs5AgMBAAGgOjA4Bgkq
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hkiG9w0BCQ4xKzApMCcGA1UdEQQgMB6CC2V4YW1wbGUuY29tgg93d3cuZXhhbXBs
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ZS5jb20wDQYJKoZIhvcNAQELBQADggEBAEWD0Qqz4OENLYp6yyO/KqF0ig9FDsLN
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b5/R+qhms5qlhdB5+Dh+j693Sj0UgbcNKc6JT86IuBqEBZmRCJuXRoKoo5aMS1cJ
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hXga7N9IA3qb4VBUzBWvlL92U2Iptr/cEbikFlYZF2Zv3PBv8RfopVlI3OLbKV9D
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bJJTt/6kuoydXKo/Vx4G0DFzIKNdFdJk86o/Ziz8NOs9JjZxw9H9VY5sHKFM5LKk
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VcLwnnLRlNjBGB+9VK/Tze575eG0cJomTp7UGIB+1xzIQVAhUZOizRDv9tHDeaK3
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k+tUhV0kuJcYHucpJycDSrP/uAY5zuVJ0rs2QSjdnav62YrRgEsxJrU=
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-----END CERTIFICATE REQUEST-----
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$
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@end example
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@end cartouche
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You may now proceed by logging into your account at the CAcert website,
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choose @code{Server Certificates - New}, check @code{sign by class 3 root
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certificate}, paste the above request block into the text field and
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click on @code{Submit}.
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If everything works out fine, a certificate will be shown. Now run
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@cartouche
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@example
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$ gpgsm --import
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@end example
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@end cartouche
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and paste the certificate from the CAcert page into your terminal
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followed by a Ctrl-D
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@cartouche
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@example
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-----BEGIN CERTIFICATE-----
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MIIEIjCCAgqgAwIBAgIBTDANBgkqhkiG9w0BAQQFADBUMRQwEgYDVQQKEwtDQWNl
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[...]
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rUTFlNElRXCwIl0YcJkIaYYqWf7+A/aqYJCi8+51usZwMy3Jsq3hJ6MA3h1BgwZs
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Rtct3tIX
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-----END CERTIFICATE-----
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gpgsm: issuer certificate (#/CN=CAcert Class 3 Ro[...]) not found
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gpgsm: certificate imported
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gpgsm: total number processed: 1
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gpgsm: imported: 1
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@end example
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@end cartouche
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@command{gpgsm} tells you that it has imported the certificate. It is now
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associated with the key you used when creating the request. The root
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certificate has not been found, so you may want to import it from the
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CACert website.
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To see the content of your certificate, you may now enter:
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@cartouche
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@example
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$ gpgsm -K example.com
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/home/foo/.gnupg/pubring.kbx
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---------------------------
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Serial number: 4C
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Issuer: /CN=CAcert Class 3 Root/OU=http:\x2f\x2fwww.[...]
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Subject: /CN=example.com
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aka: (dns-name example.com)
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aka: (dns-name www.example.com)
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validity: 2015-07-01 16:20:51 through 2016-07-01 16:20:51
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key type: 3072 bit RSA
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key usage: digitalSignature keyEncipherment
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ext key usage: clientAuth (suggested), serverAuth (suggested), [...]
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fingerprint: 0F:9C:27:B2:DA:05:5F:CB:33:D8:19:E9:65:B9:4F:BD:B1:98:CC:57
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@end example
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@end cartouche
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I used @option{-K} above because this will only list certificates for
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which a private key is available. To see more details, you may use
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@option{--dump-secret-keys} instead of @option{-K}.
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To make actual use of the certificate you need to install it on your
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server. Server software usually expects a PKCS\#12 file with key and
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certificate. To create such a file, run:
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@cartouche
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@example
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$ gpgsm --export-secret-key-p12 -a >example.com-cert.pem
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@end example
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@end cartouche
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You will be asked for the passphrase as well as for a new passphrase to
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be used to protect the PKCS\#12 file. The file now contains the
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certificate as well as the private key:
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@cartouche
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@example
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$ cat example-cert.pem
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Issuer ...: /CN=CAcert Class 3 Root/OU=http:\x2f\x2fwww.CA[...]
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Serial ...: 4C
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Subject ..: /CN=example.com
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aka ..: (dns-name example.com)
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aka ..: (dns-name www.example.com)
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-----BEGIN PKCS12-----
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MIIHlwIBAzCCB5AGCSqGSIb37QdHAaCCB4EEggd9MIIHeTk1BJ8GCSqGSIb3DQEu
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[...many more lines...]
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-----END PKCS12-----
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$
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@end example
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@end cartouche
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Copy this file in a secure way to the server, install it there and
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delete the file then. You may export the file again at any time as long
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as it is available in GnuPG's private key database.
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