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692 lines
24 KiB
Plaintext
692 lines
24 KiB
Plaintext
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This is some preliminary documentation for OpenSSL.
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==============================================================================
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BUFFER Library
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==============================================================================
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The buffer library handles simple character arrays. Buffers are used for various
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purposes in the library, most notably memory BIOs.
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The library uses the BUF_MEM structure defined in buffer.h:
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typedef struct buf_mem_st
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{
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int length; /* current number of bytes */
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char *data;
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int max; /* size of buffer */
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} BUF_MEM;
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'length' is the current size of the buffer in bytes, 'max' is the amount of
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memory allocated to the buffer. There are three functions which handle these
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and one "miscelanous" function.
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BUF_MEM *BUF_MEM_new()
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This allocates a new buffer of zero size. Returns the buffer or NULL on error.
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void BUF_MEM_free(BUF_MEM *a)
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This frees up an already existing buffer. The data is zeroed before freeing
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up in case the buffer contains sensitive data.
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int BUF_MEM_grow(BUF_MEM *str, int len)
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This changes the size of an already existing buffer. It returns zero on error
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or the new size (i.e. 'len'). Any data already in the buffer is preserved if
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it increases in size.
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char * BUF_strdup(char *str)
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This is the previously mentioned strdup function: like the standard library
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strdup() it copies a null terminated string into a block of allocated memory
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and returns a pointer to the allocated block.
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Unlike the standard C library strdup() this function uses Malloc() and so
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should be used in preference to the standard library strdup() because it can
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be used for memory leak checking or replacing the malloc() function.
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The memory allocated from BUF_strdup() should be freed up using the Free()
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function.
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==============================================================================
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OpenSSL X509V3 extension configuration
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==============================================================================
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OpenSSL X509V3 extension configuration: preliminary documentation.
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INTRODUCTION.
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For OpenSSL 0.9.2 the extension code has be considerably enhanced. It is now
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possible to add and print out common X509 V3 certificate and CRL extensions.
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For more information about the meaning of extensions see:
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http://www.imc.org/ietf-pkix/
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http://home.netscape.com/eng/security/certs.html
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PRINTING EXTENSIONS.
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Extension values are automatically printed out for supported extensions.
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openssl x509 -in cert.pem -text
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openssl crl -in crl.pem -text
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will give information in the extension printout, for example:
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X509v3 extensions:
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X509v3 Basic Constraints:
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CA:TRUE
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X509v3 Subject Key Identifier:
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73:FE:F7:59:A7:E1:26:84:44:D6:44:36:EE:79:1A:95:7C:B1:4B:15
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X509v3 Authority Key Identifier:
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keyid:73:FE:F7:59:A7:E1:26:84:44:D6:44:36:EE:79:1A:95:7C:B1:4B:15, DirName:/C=AU/ST=Some-State/O=Internet Widgits Pty Ltd/Email=email@1.address/Email=email@2.address, serial:00
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X509v3 Key Usage:
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Certificate Sign, CRL Sign
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X509v3 Subject Alternative Name:
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email:email@1.address, email:email@2.address
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CONFIGURATION FILES.
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The OpenSSL utilities 'ca' and 'req' can now have extension sections listing
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which certificate extensions to include. In each case a line:
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x509_extensions = extension_section
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indicates which section contains the extensions. In the case of 'req' the
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extension section is used when the -x509 option is present to create a
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self signed root certificate.
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You can also add extensions to CRLs: a line
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crl_extensions = crl_extension_section
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will include extensions when the -gencrl option is used with the 'ca' utility.
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You can add any extension to a CRL but of the supported extensions only
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issuerAltName and authorityKeyIdentifier make any real sense. Note: these are
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CRL extensions NOT CRL *entry* extensions which cannot currently be generated.
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CRL entry extensions can be displayed.
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EXTENSION SYNTAX.
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Extensions have the basic form:
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extension_name=[critical,] extension_options
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the use of the critical option makes the extension critical. Extreme caution
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should be made when using the critical flag. If an extension is marked
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as critical then any client that does not understand the extension should
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reject it as invalid. Some broken software will reject certificates which
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have *any* critical extensions (these violates PKIX but we have to live
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with it).
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There are three main types of extension, string extensions, multi valued
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extensions, and raw extensions.
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String extensions simply have a string which defines the value of the or how
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it is obtained.
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For example:
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nsComment="This is a Comment"
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Multi valued extensions have a short form and a long form. The short form
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is a list of names and values:
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basicConstraints=critical,CA:true,pathlen:1
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The long form allows the values to be placed in a separate section:
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basicConstraints=critical,@bs_section
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[bs_section]
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CA=true
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pathlen=1
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Both forms are equivalent. However it should be noted that in some cases the
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same name can appear multiple times, for example,
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subjectAltName=email:steve@here,email:steve@there
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in this case an equivalent long form is:
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subjectAltName=@alt_section
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[alt_section]
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email.1=steve@here
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email.2=steve@there
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This is because the configuration file code cannot handle the same name
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occurring twice in the same extension.
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Raw extensions allow arbitrary data to be placed in an extension. For
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example
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1.2.3.4=critical,RAW:01:02:03:04
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1.2.3.4=RAW:01020304
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The value following RAW is a hex dump of the extension contents. Any extension
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can be placed in this form to override the default behaviour. For example:
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basicConstraints=critical,RAW:00:01:02:03
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WARNING: raw extensions should be used with caution. It is possible to create
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totally invalid extensions unless care is taken.
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CURRENTLY SUPPORTED EXTENSIONS.
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Literal String extensions.
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In each case the 'value' of the extension is placed directly in the extension.
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Currently supported extensions in this category are: nsBaseUrl, nsRevocationUrl
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nsCaRevocationUrl, nsRenewalUrl, nsCaPolicyUrl, nsSslServerName and nsComment.
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For example:
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nsComment="This is a test comment"
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Bit Strings.
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Bit string extensions just consist of a list of suppported bits, currently
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two extensions are in this category: PKIX keyUsage and the Netscape specific
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nsCertType.
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nsCertType (netscape certificate type) takes the flags: client, server, email,
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objsign, reserved, sslCA, emailCA, objCA.
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keyUsage (PKIX key usage) takes the flags: digitalSignature, nonRepudiation,
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keyEncipherment, dataEncipherment, keyAgreement, keyCertSign, cRLSign,
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encipherOnly, decipherOnly.
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For example:
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nsCertType=server
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keyUsage=critical, digitalSignature, nonRepudiation
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Basic Constraints.
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Basic constraints is a multi valued extension that supports a CA and an
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optional pathlen option. The CA option takes the values true and false and
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pathlen takes an integer. Note if the CA option is false the pathlen option
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should be omitted.
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Examples:
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basicConstraints=CA:TRUE
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basicConstraints=critical,CA:TRUE, pathlen:10
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NOTE: for a CA to be considered valid it must have the CA option set to
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TRUE. An end user certificate MUST NOT have the CA value set to true.
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According to PKIX recommendations it should exclude the extension entirely,
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however some software may require CA set to FALSE for end entity certificates.
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Subject Key Identifier.
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This is really a string extension and can take two possible values. Either
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a hex string giving details of the extension value to include or the word
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'hash' which then automatically follow PKIX guidelines in selecting and
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appropriate key identifier. The use of the hex string is strongly discouraged.
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Example: subjectKeyIdentifier=hash
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Authority Key Identifier.
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The authority key identifier extension permits two options. keyid and issuer:
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both can take the optional value "always".
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If the keyid option is present an attempt is made to copy the subject key
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identifier from the parent certificate. If the value "always" is present
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then an error is returned if the option fails.
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The issuer option copies the issuer and serial number from the issuer
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certificate. Normally this will only be done if the keyid option fails or
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is not included: the "always" flag will always include the value.
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Subject Alternative Name.
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The subject alternative name extension allows various literal values to be
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included in the configuration file. These include "email" (an email address)
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"URI" a uniform resource indicator, "DNS" (a DNS domain name), RID (a
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registered ID: OBJECT IDENTIFIER) and IP (and IP address).
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Also the email option include a special 'copy' value. This will automatically
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include and email addresses contained in the certificate subject name in
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the extension.
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Examples:
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subjectAltName=email:copy,email:my@other.address,URL:http://my.url.here/
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subjectAltName=email:my@other.address,RID:1.2.3.4
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Issuer Alternative Name.
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The issuer alternative name option supports all the literal options of
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subject alternative name. It does *not* support the email:copy option because
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that would not make sense. It does support an additional issuer:copy option
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that will copy all the subject alternative name values from the issuer
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certificate (if possible).
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CRL distribution points.
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This is a multivalued extension that supports all the literal options of
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subject alternative name. Of the few software packages that currently interpret
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this extension most only interpret the URI option.
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Currently each option will set a new DistributionPoint with the fullName
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field set to the given value.
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Other fields like cRLissuer and reasons cannot currently be set or displayed:
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at this time no examples were available that used these fields.
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If you see this extension with <UNSUPPORTED> when you attempt to print it out
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or it doesn't appear to display correctly then let me know, including the
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certificate (mail me at steve@openssl.org) .
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Examples:
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crlDistributionPoints=URI:http://www.myhost.com/myca.crl
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crlDistributionPoints=URI:http://www.my.com/my.crl,URI:http://www.oth.com/my.crl
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Certificate Policies.
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This is a RAW extension. It attempts to display the contents of this extension:
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unfortuntately this extension is often improperly encoded.
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The certificate policies extension will rarely be used in practice: few
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software packages interpret it correctly or at all.
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All the fields of this extension can be set by using the appropriate syntax.
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If you follow the PKIX recommendations of not including any qualifiers and just
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using only one OID then you just include the value of that OID. Multiple OIDs
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can be set separated by commas, for example:
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certificatePolicies= 1.2.4.5, 1.1.3.4
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If you wish to include qualifiers then the policy OID and qualifiers need to
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be specified in a separate section: this is done by using the @section syntax
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instead of a literal OID value.
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The section referred to must include the policy OID using the name
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policyIdentifier, cPSuri qualifiers can be included using the syntax:
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CPS.nnn=value
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userNotice qualifiers can be set using the syntax:
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userNotice.nnn=@notice
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The value of the userNotice qualifier is specified in the relevant section. This
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section can include explicitText, organization and noticeNumbers options.
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explicitText and organization are text strings, noticeNumbers is a comma
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separated list of numbers. The organization and noticeNumbers options (if
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included) must BOTH be present.
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Example:
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certificatePolicies=1.2.3.4,1.5.6.7.8,@polsect
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[polsect]
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policyIdentifier = 1.3.5.8
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CPS.1="http://my.host.name/"
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CPS.2="http://my.your.name/"
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userNotice.1=@notice
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[notice]
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explicitText="Explicit Text Here"
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organization="Organisation Name"
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noticeNumbers=1,2,3,4
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Display only extensions.
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Some extensions are only partially supported and currently are only displayed
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but cannot be set. These include private key usage period, CRL number, and
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CRL reason.
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==============================================================================
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PKCS#12 Library
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==============================================================================
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This section describes the internal PKCS#12 support. There are very few
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differences between the old external library and the new internal code at
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present. This may well change because the external library will not be updated
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much in future.
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This version now includes a couple of high level PKCS#12 functions which
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generally "do the right thing" and should make it much easier to handle PKCS#12
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structures.
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HIGH LEVEL FUNCTIONS.
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For most applications you only need concern yourself with the high level
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functions. They can parse and generate simple PKCS#12 files as produced by
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Netscape and MSIE or indeed any compliant PKCS#12 file containing a single
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private key and certificate pair.
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1. Initialisation and cleanup.
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No special initialisation is needed for the internal PKCS#12 library: the
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standard SSLeay_add_all_algorithms() is sufficient. If you do not wish to
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add all algorithms then you can manually initialise the PKCS#12 library with:
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PKSC12_PBE_add();
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The memory allocated by the PKCS#12 libray is freed up when EVP_cleanup() is
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called or it can be directly freed with:
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EVP_PBE_cleanup();
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after this call (or EVP_cleanup() ) no more PKCS#12 library functions should
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be called.
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2. I/O functions.
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i2d_PKCS12_bio(bp, p12)
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This writes out a PKCS12 structure to a BIO.
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i2d_PKCS12_fp(fp, p12)
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This is the same but for a FILE pointer.
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d2i_PKCS12_bio(bp, p12)
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This reads in a PKCS12 structure from a BIO.
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d2i_PKCS12_fp(fp, p12)
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This is the same but for a FILE pointer.
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3. Parsing and creation functions.
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3.1 Parsing with PKCS12_parse().
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int PKCS12_parse(PKCS12 *p12, char *pass, EVP_PKEY **pkey, X509 **cert,
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STACK **ca);
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This function takes a PKCS12 structure and a password (ASCII, null terminated)
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and returns the private key, the corresponding certificate and any CA
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certificates. If any of these is not required it can be passed as a NULL.
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The 'ca' parameter should be either NULL, a pointer to NULL or a valid STACK
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structure. Typically to read in a PKCS#12 file you might do:
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p12 = d2i_PKCS12_fp(fp, NULL);
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PKCS12_parse(p12, password, &pkey, &cert, NULL); /* CAs not wanted */
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PKCS12_free(p12);
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3.2 PKCS#12 creation with PKCS12_create().
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PKCS12 *PKCS12_create(char *pass, char *name, EVP_PKEY *pkey, X509 *cert,
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STACK *ca, int nid_key, int nid_cert, int iter,
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int mac_iter, int keytype);
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This function will create a PKCS12 structure from a given password, name,
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private key, certificate and optional STACK of CA certificates. The remaining
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5 parameters can be set to 0 and sensible defaults will be used.
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The parameters nid_key and nid_cert are the key and certificate encryption
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algorithms, iter is the encryption iteration count, mac_iter is the MAC
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iteration count and keytype is the type of private key. If you really want
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to know what these last 5 parameters do then read the low level section.
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Typically to create a PKCS#12 file the following could be used:
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p12 = PKCS12_create(pass, "My Certificate", pkey, cert, NULL, 0,0,0,0,0);
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i2d_PKCS12_fp(fp, p12);
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PKCS12_free(p12);
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LOW LEVEL FUNCTIONS.
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In some cases the high level functions do not provide the necessary
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functionality. For example if you want to generate or parse more complex PKCS#12
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files. The sample pkcs12 application uses the low level functions to display
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details about the internal structure of a PKCS#12 file.
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Introduction.
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This is a brief description of how a PKCS#12 file is represented internally:
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some knowledge of PKCS#12 is assumed.
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A PKCS#12 object contains several levels.
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At the lowest level is a PKCS12_SAFEBAG. This can contain a certificate, a
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CRL, a private key, encrypted or unencrypted, a set of safebags (so the
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structure can be nested) or other secrets (not documented at present).
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A safebag can optionally have attributes, currently these are: a unicode
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friendlyName (a Unicode string) or a localKeyID (a string of bytes).
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At the next level is an authSafe which is a set of safebags collected into
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a PKCS#7 ContentInfo. This can be just plain data, or encrypted itself.
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At the top level is the PKCS12 structure itself which contains a set of
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authSafes in an embedded PKCS#7 Contentinfo of type data. In addition it
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contains a MAC which is a kind of password protected digest to preserve
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integrity (so any unencrypted stuff below can't be tampered with).
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The reason for these levels is so various objects can be encrypted in various
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ways. For example you might want to encrypt a set of private keys with
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triple-DES and then include the related certificates either unencrypted or with
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lower encryption. Yes it's the dreaded crypto laws at work again which
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allow strong encryption on private keys and only weak encryption on other stuff.
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To build one of these things you turn all certificates and keys into safebags
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(with optional attributes). You collect the safebags into (one or more) STACKS
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and convert these into authsafes (encrypted or unencrypted). The authsafes are
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collected into a STACK and added to a PKCS12 structure. Finally a MAC inserted.
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Pulling one apart is basically the reverse process. The MAC is verified against
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the given password. The authsafes are extracted and each authsafe split into
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a set of safebags (possibly involving decryption). Finally the safebags are
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decomposed into the original keys and certificates and the attributes used to
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match up private key and certificate pairs.
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Anyway here are the functions that do the dirty work.
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1. Construction functions.
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1.1 Safebag functions.
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M_PKCS12_x5092certbag(x509)
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This macro takes an X509 structure and returns a certificate bag. The
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X509 structure can be freed up after calling this function.
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M_PKCS12_x509crl2certbag(crl)
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As above but for a CRL.
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PKCS8_PRIV_KEY_INFO *PKEY2PKCS8(EVP_PKEY *pkey)
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Take a private key and convert it into a PKCS#8 PrivateKeyInfo structure.
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Works for both RSA and DSA private keys. NB since the PKCS#8 PrivateKeyInfo
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structure contains a private key data in plain text form it should be free'd up
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as soon as it has been encrypted for security reasons (freeing up the structure
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zeros out the sensitive data). This can be done with PKCS8_PRIV_KEY_INFO_free().
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PKCS8_add_keyusage(PKCS8_PRIV_KEY_INFO *p8, int usage)
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This sets the key type when a key is imported into MSIE or Outlook 98. Two
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values are currently supported: KEY_EX and KEY_SIG. KEY_EX is an exchange type
|
|
key that can also be used for signing but its size is limited in the export
|
|
versions of MS software to 512 bits, it is also the default. KEY_SIG is a
|
|
signing only key but the keysize is unlimited (well 16K is supposed to work).
|
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If you are using the domestic version of MSIE then you can ignore this because
|
|
KEY_EX is not limited and can be used for both.
|
|
|
|
PKCS12_SAFEBAG *PKCS12_MAKE_KEYBAG(PKCS8_PRIV_KEY_INFO *p8)
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|
|
|
Convert a PKCS8 private key structure into a keybag. This routine embeds the p8
|
|
structure in the keybag so p8 should not be freed up or used after it is called.
|
|
The p8 structure will be freed up when the safebag is freed.
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|
|
|
PKCS12_SAFEBAG *PKCS12_MAKE_SHKEYBAG(int pbe_nid, unsigned char *pass, int passlen, unsigned char *salt, int saltlen, int iter, PKCS8_PRIV_KEY_INFO *p8)
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|
|
Convert a PKCS#8 structure into a shrouded key bag (encrypted). p8 is not
|
|
embedded and can be freed up after use.
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|
|
|
int PKCS12_add_localkeyid(PKCS12_SAFEBAG *bag, unsigned char *name, int namelen)
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int PKCS12_add_friendlyname(PKCS12_SAFEBAG *bag, unsigned char *name, int namelen)
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|
|
Add a local key id or a friendlyname to a safebag.
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|
|
|
1.2 Authsafe functions.
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|
|
|
PKCS7 *PKCS12_pack_p7data(STACK *sk)
|
|
Take a stack of safebags and convert them into an unencrypted authsafe. The
|
|
stack of safebags can be freed up after calling this function.
|
|
|
|
PKCS7 *PKCS12_pack_p7encdata(int pbe_nid, unsigned char *pass, int passlen, unsigned char *salt, int saltlen, int iter, STACK *bags);
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|
|
|
As above but encrypted.
|
|
|
|
1.3 PKCS12 functions.
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|
|
|
PKCS12 *PKCS12_init(int mode)
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|
|
|
Initialise a PKCS12 structure (currently mode should be NID_pkcs7_data).
|
|
|
|
M_PKCS12_pack_authsafes(p12, safes)
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|
|
|
This macro takes a STACK of authsafes and adds them to a PKCS#12 structure.
|
|
|
|
int PKCS12_set_mac(PKCS12 *p12, unsigned char *pass, int passlen, unsigned char *salt, int saltlen, int iter, EVP_MD *md_type);
|
|
|
|
Add a MAC to a PKCS12 structure. If EVP_MD is NULL use SHA-1, the spec suggests
|
|
that SHA-1 should be used.
|
|
|
|
2. Extraction Functions.
|
|
|
|
2.1 Safebags.
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|
|
|
M_PKCS12_bag_type(bag)
|
|
|
|
Return the type of "bag". Returns one of the following
|
|
|
|
NID_keyBag
|
|
NID_pkcs8ShroudedKeyBag 7
|
|
NID_certBag 8
|
|
NID_crlBag 9
|
|
NID_secretBag 10
|
|
NID_safeContentsBag 11
|
|
|
|
M_PKCS12_cert_bag_type(bag)
|
|
|
|
Returns type of certificate bag, following are understood.
|
|
|
|
NID_x509Certificate 14
|
|
NID_sdsiCertificate 15
|
|
|
|
M_PKCS12_crl_bag_type(bag)
|
|
|
|
Returns crl bag type, currently only NID_crlBag is recognised.
|
|
|
|
M_PKCS12_certbag2x509(bag)
|
|
|
|
This macro extracts an X509 certificate from a certificate bag.
|
|
|
|
M_PKCS12_certbag2x509crl(bag)
|
|
|
|
As above but for a CRL.
|
|
|
|
EVP_PKEY * PKCS82PKEY(PKCS8_PRIV_KEY_INFO *p8)
|
|
|
|
Extract a private key from a PKCS8 private key info structure.
|
|
|
|
M_PKCS12_decrypt_skey(bag, pass, passlen)
|
|
|
|
Decrypt a shrouded key bag and return a PKCS8 private key info structure.
|
|
Works with both RSA and DSA keys
|
|
|
|
char *PKCS12_get_friendlyname(bag)
|
|
|
|
Returns the friendlyName of a bag if present or NULL if none. The returned
|
|
string is a null terminated ASCII string allocated with Malloc(). It should
|
|
thus be freed up with Free() after use.
|
|
|
|
2.2 AuthSafe functions.
|
|
|
|
M_PKCS12_unpack_p7data(p7)
|
|
|
|
Extract a STACK of safe bags from a PKCS#7 data ContentInfo.
|
|
|
|
#define M_PKCS12_unpack_p7encdata(p7, pass, passlen)
|
|
|
|
As above but for an encrypted content info.
|
|
|
|
2.3 PKCS12 functions.
|
|
|
|
M_PKCS12_unpack_authsafes(p12)
|
|
|
|
Extract a STACK of authsafes from a PKCS12 structure.
|
|
|
|
M_PKCS12_mac_present(p12)
|
|
|
|
Check to see if a MAC is present.
|
|
|
|
int PKCS12_verify_mac(PKCS12 *p12, unsigned char *pass, int passlen)
|
|
|
|
Verify a MAC on a PKCS12 structure. Returns an error if MAC not present.
|
|
|
|
|
|
Notes.
|
|
|
|
1. All the function return 0 or NULL on error.
|
|
2. Encryption based functions take a common set of parameters. These are
|
|
described below.
|
|
|
|
pass, passlen
|
|
ASCII password and length. The password on the MAC is called the "integrity
|
|
password" the encryption password is called the "privacy password" in the
|
|
PKCS#12 documentation. The passwords do not have to be the same. If -1 is
|
|
passed for the length it is worked out by the function itself (currently
|
|
this is sometimes done whatever is passed as the length but that may change).
|
|
|
|
salt, saltlen
|
|
A 'salt' if salt is NULL a random salt is used. If saltlen is also zero a
|
|
default length is used.
|
|
|
|
iter
|
|
Iteration count. This is a measure of how many times an internal function is
|
|
called to encrypt the data. The larger this value is the longer it takes, it
|
|
makes dictionary attacks on passwords harder. NOTE: Some implementations do
|
|
not support an iteration count on the MAC. If the password for the MAC and
|
|
encryption is the same then there is no point in having a high iteration
|
|
count for encryption if the MAC has no count. The MAC could be attacked
|
|
and the password used for the main decryption.
|
|
|
|
pbe_nid
|
|
This is the NID of the password based encryption method used. The following are
|
|
supported.
|
|
NID_pbe_WithSHA1And128BitRC4
|
|
NID_pbe_WithSHA1And40BitRC4
|
|
NID_pbe_WithSHA1And3_Key_TripleDES_CBC
|
|
NID_pbe_WithSHA1And2_Key_TripleDES_CBC
|
|
NID_pbe_WithSHA1And128BitRC2_CBC
|
|
NID_pbe_WithSHA1And40BitRC2_CBC
|
|
|
|
Which you use depends on the implementation you are exporting to. "Export grade"(i.e. cryptograhically challenged) products cannot support all algorithms.
|
|
Typically you may be able to use any encryption on shrouded key bags but they
|
|
must then be placed in an unencrypted authsafe. Other authsafes may only support
|
|
40bit encryption. Of course if you are using SSLeay throughout you can strongly
|
|
encrypt everything and have high iteration counts on everything.
|
|
|
|
3. For decryption routines only the password and length are needed.
|
|
|
|
4. Unlike the external version the nid's of objects are the values of the
|
|
constants: that is NID_certBag is the real nid, therefore there is no
|
|
PKCS12_obj_offset() function. Note the object constants are not the same as
|
|
those of the external version. If you use these constants then you will need
|
|
to recompile your code.
|
|
|
|
5. With the exception of PKCS12_MAKE_KEYBAG(), after calling any function or
|
|
macro of the form PKCS12_MAKE_SOMETHING(other) the "other" structure can be
|
|
reused or freed up safely.
|
|
|