be5fc053ed
Reviewed-by: Tomas Mraz <tmraz@fedoraproject.org> GH: #7651
372 lines
12 KiB
Text
372 lines
12 KiB
Text
=pod
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=head1 NAME
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EVP_MAC, EVP_MAC_CTX, EVP_MAC_CTX_new, EVP_MAC_CTX_new_id, EVP_MAC_CTX_free,
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EVP_MAC_CTX_dup, EVP_MAC_CTX_mac, EVP_MAC_size, EVP_MAC_init, EVP_MAC_update,
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EVP_MAC_final, EVP_MAC_ctrl, EVP_MAC_vctrl, EVP_MAC_ctrl_str,
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EVP_MAC_str2ctrl, EVP_MAC_hex2ctrl, EVP_MAC_nid, EVP_MAC_name,
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EVP_get_macbyname, EVP_get_macbynid, EVP_get_macbyobj - EVP MAC routines
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=head1 SYNOPSIS
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#include <openssl/evp.h>
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typedef struct evp_mac_st EVP_MAC;
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typedef struct evp_mac_ctx_st EVP_MAC_CTX;
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EVP_MAC_CTX *EVP_MAC_CTX_new(const EVP_MAC *mac);
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EVP_MAC_CTX *EVP_MAC_CTX_new_id(int nid);
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void EVP_MAC_CTX_free(EVP_MAC_CTX *ctx);
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EVP_MAC_CTX *EVP_MAC_CTX_dup(const EVP_MAC_CTX *src);
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const EVP_MAC *EVP_MAC_CTX_mac(EVP_MAC_CTX *ctx);
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size_t EVP_MAC_size(EVP_MAC_CTX *ctx);
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int EVP_MAC_init(EVP_MAC_CTX *ctx);
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int EVP_MAC_update(EVP_MAC_CTX *ctx, const unsigned char *data, size_t datalen);
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int EVP_MAC_final(EVP_MAC_CTX *ctx, unsigned char *out, size_t *poutlen);
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int EVP_MAC_ctrl(EVP_MAC_CTX *ctx, int cmd, ...);
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int EVP_MAC_vctrl(EVP_MAC_CTX *ctx, int cmd, va_list args);
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int EVP_MAC_ctrl_str(EVP_MAC_CTX *ctx, const char *type, const char *value);
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int EVP_MAC_str2ctrl(EVP_MAC_CTX *ctx, int cmd, const char *value);
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int EVP_MAC_hex2ctrl(EVP_MAC_CTX *ctx, int cmd, const char *value);
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int EVP_MAC_nid(const EVP_MAC *mac);
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const char *EVP_MAC_name(const EVP_MAC *mac);
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const EVP_MAC *EVP_get_macbyname(const char *name);
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const EVP_MAC *EVP_get_macbynid(int nid);
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const EVP_MAC *EVP_get_macbyobj(const ASN1_OBJECT *o);
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=head1 DESCRIPTION
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These types and functions help the application to calculate MACs of
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different types and with different underlying algorithms if there are
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any.
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MACs are a bit complex insofar that some of them use other algorithms
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for actual computation. HMAC uses a digest, and CMAC uses a cipher.
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Therefore, there are sometimes two contexts to keep track of, one for
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the MAC algorithm itself and one for the underlying computation
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algorithm if there is one.
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To make things less ambiguous, this manual talks about a "context" or
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"MAC context", which is to denote the MAC level context, and about a
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"underlying context", or "computation context", which is to denote the
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context for the underlying computation algorithm if there is one.
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=head2 Types
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B<EVP_MAC> is a type that holds the implementation of a MAC.
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B<EVP_MAC_CTX> is a context type that holds internal MAC information
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as well as a reference to a computation context, for those MACs that
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rely on an underlying computation algorithm.
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=head2 Context manipulation functions
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EVP_MAC_CTX_new() creates a new context for the MAC type C<mac>.
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EVP_MAC_CTX_new_id() creates a new context for the numerical MAC
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identity <nid>.
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The created context can then be used with most other functions
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described here.
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EVP_MAC_CTX_free() frees the contents of the context, including an
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underlying context if there is one, as well as the context itself.
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B<NULL> is a valid parameter, for which this function is a no-op.
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EVP_MAC_CTX_dup() duplicates the C<src> context and returns a newly allocated
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context.
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EVP_MAC_CTX_mac() returns the B<EVP_MAC> associated with the context
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C<ctx>.
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=head2 Computing functions
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EVP_MAC_init() sets up the underlying context with information given
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through diverse controls.
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This should be called before calling EVP_MAC_update() and
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EVP_MAC_final().
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EVP_MAC_update() adds C<datalen> bytes from C<data> to the MAC input.
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EVP_MAC_final() does the final computation and stores the result in
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the memory pointed at by C<out>, and sets its size in the B<size_t>
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the C<poutlen> points at.
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If C<out> is B<NULL>, then no computation is made.
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To figure out what the output length will be and allocate space for it
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dynamically, simply call with C<out> being B<NULL> and C<poutlen>
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pointing at a valid location, then allocate space and make a second
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call with C<out> pointing at the allocated space.
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EVP_MAC_ctrl() is used to manipulate or get information on aspects of
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the MAC which may vary depending on the MAC algorithm or its
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implementation.
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This includes the MAC key, and for MACs that use other algorithms to
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do their computation, this is also the way to tell it which one to
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use.
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This functions takes variable arguments, the exact expected arguments
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depend on C<cmd>.
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EVP_MAC_ctrl() can be called both before and after EVP_MAC_init(), but
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the effect will depend on what control is being use.
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See L</CONTROLS> below for a description of standard controls.
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EVP_MAC_vctrl() is the variant of EVP_MAC_ctrl() that takes a
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C<va_list> argument instead of variadic arguments.
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EVP_MAC_ctrl_str() is an alternative to EVP_MAC_ctrl() to control the
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MAC implementation as E<lt> C<type>, C<value> E<gt> pairs.
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The MAC implementation documentation should specify what control type
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strings are accepted.
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EVP_MAC_str2ctrl() and EVP_MAC_hex2ctrl() are helper functions to
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control the MAC implementation with raw strings or with strings
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containing hexadecimal numbers.
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The latter are decoded into bitstrings that are sent on to
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EVP_MAC_ctrl().
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=head2 Information functions
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EVP_MAC_size() returns the MAC output size for the given context.
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EVP_MAC_nid() returns the numeric identity of the given MAC implementation.
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EVP_MAC_name() returns the name of the given MAC implementation.
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=head2 Object database functions
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EVP_get_macbyname() fetches a MAC implementation from the object
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database by name.
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EVP_get_macbynid() fetches a MAC implementation from the object
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database by numeric identity.
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EVP_get_macbyobj() fetches a MAC implementation from the object
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database by ASN.1 OBJECT (i.e. an encoded OID).
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=head1 CONTROLS
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The standard controls are:
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=over 4
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=item B<EVP_MAC_CTRL_SET_KEY>
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This control expects two arguments: C<unsigned char *key>, C<size_t keylen>
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These will set the MAC key from the given string of the given length.
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The string may be any bitstring, and can contain NUL bytes.
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For MACs that use an underlying computation algorithm, the algorithm
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I<must> be set first, see B<EVP_MAC_CTRL_SET_ENGINE>,
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B<EVP_MAC_CTRL_SET_MD> and B<EVP_MAC_CTRL_SET_CIPHER> below.
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=item B<EVP_MAC_CTRL_SET_IV>
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This control expects two arguments: C<unsigned char *key>, C<size_t keylen>
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Some MAC implementations require an IV, this control sets the IV.
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=item B<EVP_MAC_CTRL_SET_CUSTOM>
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This control expects two arguments: C<unsigned char *custom>, C<size_t customlen>
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Some MAC implementations (KMAC, BLAKE2) accept a Customization String,
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this control sets the Customization String. The default value is "".
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=item B<EVP_MAC_CTRL_SET_SALT>
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This control expects two arguments: C<unsigned char *salt>, C<size_t saltlen>
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This option is used by BLAKE2 MAC.
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=item B<EVP_MAC_CTRL_SET_XOF>
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This control expects one argument: C<int xof>
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This option is used by KMAC.
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=item B<EVP_MAC_CTRL_SET_FLAGS>
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This control expects one argument: C<unsigned long flags>
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These will set the MAC flags to the given numbers.
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Some MACs do not support this option.
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=item B<EVP_MAC_CTRL_SET_ENGINE>
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=item B<EVP_MAC_CTRL_SET_MD>
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=item B<EVP_MAC_CTRL_SET_CIPHER>
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For MAC implementations that use an underlying computation algorithm,
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these controls set what the algorithm should be, and the engine that
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implements the algorithm if needed.
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Note that not all algorithms may support all digests. HMAC does not support
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variable output length digests such as SHAKE128 or SHAKE256.
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B<EVP_MAC_CTRL_SET_ENGINE> takes one argument: C<ENGINE *>
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B<EVP_MAC_CTRL_SET_MD> takes one argument: C<EVP_MD *>
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B<EVP_MAC_CTRL_SET_CIPHER> takes one argument: C<EVP_CIPHER *>
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=item B<EVP_MAC_CTRL_SET_SIZE>
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For MAC implementations that support it, set the output size that
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EVP_MAC_final() should produce.
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The allowed sizes vary between MAC implementations.
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=back
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All these control should be used before the calls to any of
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EVP_MAC_init(), EVP_MAC_update() and EVP_MAC_final() for a full
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computation.
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Anything else may give undefined results.
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=head1 NOTES
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EVP_get_macbynid(), EVP_get_macbyobj() and EVP_MAC_name() are
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implemented as a macro.
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=head1 RETURN VALUES
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EVP_MAC_CTX_new(), EVP_MAC_CTX_new_id() and EVP_MAC_CTX_dup() return a pointer
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to a newly created EVP_MAC_CTX, or NULL if allocation failed.
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EVP_MAC_CTX_free() returns nothing at all.
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EVP_MAC_init(), EVP_MAC_update(), and EVP_MAC_final() return 1 on success, 0 on error.
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EVP_MAC_ctrl(), EVP_MAC_ctrl_str(), EVP_MAC_str2ctrl() and
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EVP_MAC_hex2ctrl() return 1 on success and 0 or a negative value on
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error.
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In particular, the value -2 indicates that the given control type
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isn't supported by the MAC implementation.
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EVP_MAC_size() returns the expected output size, or 0 if it isn't
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set.
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If it isn't set, a call to EVP_MAC_init() should get it set.
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EVP_MAC_nid() returns the numeric identity for the given C<mac>.
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EVP_MAC_name() returns the name for the given C<mac>, if it has been
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added to the object database.
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EVP_add_mac() returns 1 if the given C<mac> was successfully added to
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the object database, otherwise 0.
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EVP_get_macbyname(), EVP_get_macbynid() and EVP_get_macbyobj() return
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the request MAC implementation, if it exists in the object database,
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otherwise B<NULL>.
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=head1 EXAMPLE
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <stdarg.h>
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#include <unistd.h>
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#include <openssl/evp.h>
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#include <openssl/err.h>
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int ctrl_ign_unsupported(EVP_MAC_CTX *ctx, int cmd, ...)
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{
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va_list args;
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int rv;
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va_start(args, cmd);
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rv = EVP_MAC_vctrl(ctx, cmd, args);
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va_end(args);
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if (rv == -2)
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rv = 1; /* Ignore unsupported, pretend it worked fine */
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return rv;
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}
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int main() {
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const EVP_MAC *mac =
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EVP_get_macbyname(getenv("MY_MAC"));
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const EVP_CIPHER *cipher =
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EVP_get_cipherbyname(getenv("MY_MAC_CIPHER"));
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const EVP_MD *digest =
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EVP_get_digestbyname(getenv("MY_MAC_DIGEST"));
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const char *key = getenv("MY_KEY");
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EVP_MAC_CTX *ctx = NULL;
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unsigned char buf[4096];
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ssize_t read_l;
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size_t final_l;
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size_t i;
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if (mac == NULL
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|| key == NULL
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|| (ctx = EVP_MAC_CTX_new(mac)) == NULL
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|| (cipher != NULL
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&& !ctrl_ign_unsupported(ctx, EVP_MAC_CTRL_SET_CIPHER, cipher))
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|| (digest != NULL
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&& !ctrl_ign_unsupported(ctx, EVP_MAC_CTRL_SET_MD, digest))
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|| EVP_MAC_ctrl(ctx, EVP_MAC_CTRL_SET_KEY, key, strlen(key)) <= 0)
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goto err;
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if (!EVP_MAC_init(ctx))
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goto err;
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while ( (read_l = read(STDIN_FILENO, buf, sizeof(buf))) < 0) {
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if (!EVP_MAC_update(ctx, buf, read_l))
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goto err;
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}
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if (!EVP_MAC_final(ctx, buf, &final_l))
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goto err;
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printf("Result: ");
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for (i = 0; i < final_l; i++)
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printf("%02X", buf[i]);
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printf("\n");
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EVP_MAC_CTX_free(ctx);
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exit(0);
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err:
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EVP_MAC_CTX_free(ctx);
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fprintf(stderr, "Something went wrong\n");
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ERR_print_errors_fp(stderr);
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exit (1);
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}
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A run of this program, called with correct environment variables, can
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look like this:
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$ MY_MAC=cmac MY_KEY=secret0123456789 MY_MAC_CIPHER=aes-128-cbc \
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LD_LIBRARY_PATH=. ./foo < foo.c
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Result: ECCAAFF041B22A2299EB90A1B53B6D45
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(in this example, that program was stored in F<foo.c> and compiled to
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F<./foo>)
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=head1 SEE ALSO
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L<EVP_MAC_BLAKE2(7)>,
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L<EVP_MAC_CMAC(7)>,
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L<EVP_MAC_GMAC(7)>,
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L<EVP_MAC_HMAC(7)>,
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L<EVP_MAC_KMAC(7)>,
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L<EVP_MAC_SIPHASH(7)>,
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L<EVP_MAC_POLY1305(7)>
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=head1 HISTORY
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These functions were added in OpenSSL 3.0.0.
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=head1 COPYRIGHT
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Copyright 2018 The OpenSSL Project Authors. All Rights Reserved.
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Licensed under the Apache License 2.0 (the "License"). You may not use
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this file except in compliance with the License. You can obtain a copy
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in the file LICENSE in the source distribution or at
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L<https://www.openssl.org/source/license.html>.
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=cut
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