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Using the Certificate Database Tool
The Certificate Database Tool is a command-line utility that can create and modify the Netscape Communicator cert8.db
and key3.db
database files. It can also list, generate, modify, or delete certificates within the cert8.db
file and create or change the password, generate new public and private key pairs, display the contents of the key database, or delete key pairs within the key3.db
file.
Starting from NSS 3.35, the database format was upgraded to support SQLite as described in this document. It means that cert9.db
and key4.db
files may be targeted instead.
The key and certificate management process generally begins with creating keys in the key database, then generating and managing certificates in the certificate database.
This document discusses certificate and key database management. For information security module database management, see Using the Security Module Database Tool.
Availability
See the release notes for the platforms this tool is available on.
Syntax
To run the Certificate Database Tool, type the command
where options and arguments are combinations of the options and arguments listed in the following section. Each command takes one option. Each option may take zero or more arguments. To see a usage string, issue the command without options, or with the -H
option.
Options and Arguments
Options specify an action and are uppercase. Option arguments modify an action and are lowercase. Certificate Database Tool command options and their arguments are defined as follows:
Options | |
| Create new certificate and key databases. |
| Create an individual certificate and add it to a certificate database. |
| Create a certificate-request file that can be submitted to a Certificate Authority (CA) for processing into a finished certificate. Output defaults to standard out unless you use |
| Create a new binary certificate file from a binary certificate-request file. Use the |
| Generate a new public and private key pair within a key database. The key database should already exist; if one is not present, this option will initialize one by default. Some smart cards (for example, the Litronic card) can store only one key pair. If you create a new key pair for such a card, the previous pair is overwritten. |
| Delete a private key from a key database. Specify the key to delete with the Use the When you delete keys, be sure to also remove any certificates associated with those keys from the certificate database, by using Some smart cards (for example, the Litronic card) do not let you remove a public key you have generated. In such a case, only the private key is deleted from the key pair. You can display the public key with the command |
| List the keyID of keys in the key database. A keyID is the modulus of the RSA key or the |
| Add an existing certificate to a certificate database. The certificate database should already exist; if one is not present, this option will initialize one by default. |
| Delete a certificate from the certificate database. |
| List all the certificates, or display information about a named certificate, in a certificate database. Use the |
| Check the validity of a certificate and its attributes. |
| Modify a certificate's trust attributes using the values of the |
| Display a list of the options and arguments used by the Certificate Database Tool. |
| Change the password to a key database. |
| List all available modules or print a single named module. |
Arguments | |
| Use ASCII format or allow the use of ASCII format for input or output. This formatting follows RFC 1113. For certificate requests, ASCII output defaults to standard output unless redirected. |
| Specify a time at which a certificate is required to be valid. Use when checking certificate validity with the |
| Identify the certificate of the CA from which a new certificate will derive its authenticity. Use the exact nickname or alias of the CA certificate, or use the CA's email address. Bracket theissuer string with quotation marks if it contains spaces. |
| Specify the database directory containing the certificate and key database files. On Unix the Certificate Database Tool defaults to The |
| Specify the prefix used on the |
| Check a certificate's signature during the process of validating a certificate. |
| Specify a file that will automatically supply the password to include in a certificate or to access a certificate database. This is a plain-text file containing one password. Be sure to prevent unauthorized access to this file. |
| Set a key size to use when generating new public and private key pairs. The minimum is 512 bits and the maximum is 8192 bits. The default is 1024 bits. Any size that is a multiple of 8 between the minimum and maximum is allowed. |
| Specify the name of a token to use or act on. Unless specified otherwise the default token is an internal slot (specifically, internal slot 2). This slot can also be explicitly named with the string |
| Specify a specific certificate, or a certificate-request file. |
| Specify the type of a key: RSA, DSA or both. The default value is |
| Display detailed information when validating a certificate with the |
| Assign a unique serial number to a certificate being created. This operation should be performed by a CA. The default serial number is 0 (zero). Serial numbers are limited to integers. |
| Specify the nickname of a certificate or key to list, create, add to a database, modify, or validate. Bracket the nickname string with quotation marks if it contains spaces. |
| Specify the output file name for new certificates or binary certificate requests. Bracket theoutput-file string with quotation marks if it contains spaces. If this argument is not used the output destination defaults to standard output. |
| Specify a contact telephone number to include in new certificates or certificate requests. Bracket this string with quotation marks if it contains spaces. |
| Read an alternate PQG value from the specified file when generating DSA key pairs. If this argument is not used, the Key Database Tool generates its own PQG value. PQG files are created with a separate DSA utility. |
| Display a certificate's binary DER encoding when listing information about that certificate with the |
| Identify a particular certificate owner for new certificates or certificate requests. Bracket this string with quotation marks if it contains spaces. The subject identification format follows RFC 1485. |
| Specify the trust attributes to modify in an existing certificate or to apply to a certificate when creating it or adding it to a database. There are three available trust categories for each certificate, expressed in this order: 'SSL ,email ,object signing '. In each category position use zero or more of the following attribute codes:
The attribute codes for the categories are separated by commas, and the entire set of attributes enclosed by quotation marks. For example:
Use the |
| Specify a usage context to apply when validating a certificate with the
|
| Set the number of months a new certificate will be valid. The validity period begins at the current system time unless an offset is added or subtracted with the |
| Set an offset from the current system time, in months, for the beginning of a certificate's validity period. Use when creating the certificate or adding it to a database. Express the offset in integers, using a minus sign ( |
| Use the Certificate Database Tool to generate the signature for a certificate being created or added to a database, rather than obtaining a signature from a separate CA. |
| Set an alternate exponent value to use in generating a new RSA public key for the database, instead of the default value of 65537. The available alternate values are 3 and 17. |
| Read a seed value from the specified binary file to use in generating a new RSA private and public key pair. This argument makes it possible to use hardware-generated seed values and unnecessary to manually create a value from the keyboard. The minimum file size is 20 bytes. |
| Add a key usage extension to a certificate that is being created or added to a database. This extension allows a certificate's key to be dedicated to supporting specific operations such as SSL server or object signing. The Certificate Database Tool will prompt you to select a particular usage for the certificate's key. These usages are described under Standard X.509 v3 Certificate Extensions in Appendix A.3 of theRed Hat Certificate System Administration Guide. |
| Add a basic constraint extension to a certificate that is being created or added to a database. This extension supports the certificate chain verification process. The Certificate Database Tool will prompt you to select the certificate constraint extension. Constraint extensions are described in Standard X.509 v3 Certificate Extensions in Appendix A.3 of theRed Hat Certificate System Administration Guide. |
| Add an authority keyID extension to a certificate that is being created or added to a database. This extension supports the identification of a particular certificate, from among multiple certificates associated with one subject name, as the correct issuer of a certificate. The Certificate Database Tool will prompt you to select the authority keyID extension. Authority key ID extensions are described under Standard X.509 v3 Certificate Extensions in Appendix B.3 of theRed Hat Certificate System Administration Guide. |
| Add a CRL distribution point extension to a certificate that is being created or added to a database. This extension identifies the URL of a certificate's associated certificate revocation list (CRL). The Certificate Database Tool prompts you to enter the URL. CRL distribution point extensions are described in Standard X.509 v3 Certificate Extensions in Appendix A.3 of theRed Hat Certificate System Administration Guide. |
| Add a Netscape certificate type extension to a certificate that is being created or added to the database. Netscape certificate type extensions are described in Standard X.509 v3 Certificate Extensions in Appendix A.3 of theRed Hat Certificate System Administration Guide. |
| Add an extended key usage extension to a certificate that is being created or added to the database. Extended key usage extensions are described in Standard X.509 v3 Certificate Extensions in Appendix A.3 of theRed Hat Certificate System Administration Guide. |
| Add a comma-separated list of email addresses to the subject alternative name extension of a certificate or certificate request that is being created or added to the database. Subject alternative name extensions are described in Section 4.2.1.7 of RFC 32800. |
| Add a comma-separated list of DNS names to the subject alternative name extension of a certificate or certificate request that is being created or added to the database. Subject alternative name extensions are described in Section 4.2.1.7 of RFC 32800 |
Usage
The Certificate Database Tool's capabilities are grouped as follows, using these combinations of options and arguments. Options and arguments in square brackets are optional, those without square brackets are required.
- Creating a new
cert8.db
file: - Creating a new certificate and adding it to the database with one command:
- Making a separate certificate request:
- Creating a new binary certificate from a binary certificate request:
- Adding a certificate to an existing database:
- Listing all certificates or a named certificate:
- Validating a certificate:
- Modifying a certificate's trust attribute:
- Displaying a list of the options and arguments used by the Certificate Database Tool:
Examples
Creating a New Certificate Database
This example creates a new certificate database (cert8.db
file) in the specified directory:
You must generate the associated key3.db
and secmod.db
files by using the Key Database Tool or other tools.
Listing Certificates in a Database
This example lists all the certificates in the cert8.db
file in the specified directory:
The Certificate Database Tool displays output similar to the following:
Certificate Name Trust Attributes
Uptime Group Plc. Class 1 CA C,C,
VeriSign Class 1 Primary CA ,C,
VeriSign Class 2 Primary CA C,C,C
AT&T Certificate Services C,C,
GTE CyberTrust Secure Server CA C,
Verisign/RSA Commercial CA C,C,
AT&T Directory Services C,C,
BelSign Secure Server CA C,
Verisign/RSA Secure Server CA C,C,
GTE CyberTrust Root CA C,C,
Uptime Group Plc. Class 4 CA ,C,
VeriSign Class 3 Primary CA C,C,C
Canada Post Corporation CA C,C,
Integrion CA C,C,C
IBM World Registry CA C,C,C
GTIS/PWGSC, Canada Gov. Web CA C,C,
GTIS/PWGSC, Canada Gov. Secure CA C,C,C
MCI Mall CA C,C,
VeriSign Class 4 Primary CA C,C,C
KEYWITNESS, Canada CA C,C,
BelSign Object Publishing CA ,C
BBN Certificate Services CA Root 1 C,C,
p prohibited (explicitly distrusted)
P Trusted peer
c Valid CA
T Trusted CA to issue client certs (implies c)
C Trusted CA to issue server certs(for ssl only) (implies c)
u User cert
w Send warning
Creating a Certificate Request
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This example generates a binary certificate request file named e95c.req
in the specified directory:
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Before it creates the request file, the Certificate Database Tool prompts you for a password:
Creating a Certificate
A valid certificate must be issued by a trusted CA. If a CA key pair is not available, you can create a self-signed certificate (for purposes of illustration) with the -x
argument. This example creates a new binary, self-signed CA certificate named myissuer
, in the specified directory.
The following example creates a new binary certificate named mycert.crt
, from a binary certificate request named mycert.req
, in the specified directory. It is issued by the self-signed certificate created above, myissuer
.
Adding a Certificate to the Database
This example adds a certificate to the certificate database:
You can see this certificate in the database with this command:
The Certificate Database Tool displays output similar to the following:
Certificate:
Data:
Version: 3 (0x2)
Serial Number: 0 (0x0)
Signature Algorithm: PKCS #1 MD5 With RSA Encryption
Issuer: CN=John Smith, O=Netscape, L=Mountain View, ST=California, C=US
Validity:
Not Before: Thu Mar 12 00:10:40 1998
Not After: Sat Sep 12 00:10:40 1998
Subject: CN=John Smith, O=Netscape, L=Mountain View, ST=California, C=US Subject Public Key Info:
Public Key Algorithm: PKCS #1 RSA Encryption
RSA Public Key:
Modulus:
00:da:53:23:58:00:91:6a:d1:a2:39:26:2f:06:3a:
38:eb:d4:c1:54:a3:62:00:b9:f0:7f:d6:00:76:aa:
18:da:6b:79:71:5b:d9:8a:82:24:07:ed:49:5b:33:
bf:c5:79:7c:f6:22:a7:18:66:9f:ab:2d:33:03:ec:
63:eb:9d:0d:02:1b:da:32:ae:6c:d4:40:95:9f:b3:
44:8b:8e:8e:a3:ae:ad:08:38:4f:2e:53:e9:e1:3f:
8e:43:7f:51:61:b9:0f:f3:a6:25:1e:0b:93:74:8f:
c6:13:a3:cd:51:40:84:0e:79:ea:b7:6b:d1:cc:6b:
78:d0:5d:da:be:2b:57:c2:6f
Exponent: 65537 (0x10001)
Signature Algorithm: PKCS #1 MD5 With RSA Encryption
Signature:
44:15:e5:ae:c4:30:2c:cd:60:89:f1:1d:22:ed:5e:5b:10:c8:
7e:5f:56:8c:b4:00:12:ed:5f:a4:6a:12:c3:0d:01:03:09:f2:
2f:e7:fd:95:25:47:80:ea:c1:25:5a:33:98:16:52:78:24:80:
c9:53:11:40:99:f5:bd:b8:e9:35:0e:5d:3e:38:6a:5c:10:d1:
c6:f9:54:af:28:56:62:f4:2f:b3:9b:50:e1:c3:a2:ba:27:ee:
07:9f:89:2e:78:5c:6d:46:b6:5e:99:de:e6:9d:eb:d9:ff:b2:
5f:c6:f6:c6:52:4a:d4:67:be:8d:fc:dd:52:51:8e:a2:d7:15:
71:3e Certificate Trust Flags:
SSL Flags:
Valid CA
Trusted CA
Email Flags:
Valid CA
Trusted CA
Object Signing Flags:
Valid CA
Trusted CA
Validating a Certificate
This example validates a certificate:
The Certificate Database Tool shows results similar to
or
or