4746f25ac6
[skip ci] Reviewed-by: Matt Caswell <matt@openssl.org> (Merged from https://github.com/openssl/openssl/pull/7829)
651 lines
25 KiB
Text
651 lines
25 KiB
Text
=pod
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=head1 NAME
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EVP_CIPHER_CTX_new,
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EVP_CIPHER_CTX_reset,
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EVP_CIPHER_CTX_free,
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EVP_EncryptInit_ex,
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EVP_EncryptUpdate,
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EVP_EncryptFinal_ex,
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EVP_DecryptInit_ex,
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EVP_DecryptUpdate,
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EVP_DecryptFinal_ex,
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EVP_CipherInit_ex,
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EVP_CipherUpdate,
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EVP_CipherFinal_ex,
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EVP_CIPHER_CTX_set_key_length,
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EVP_CIPHER_CTX_ctrl,
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EVP_EncryptInit,
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EVP_EncryptFinal,
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EVP_DecryptInit,
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EVP_DecryptFinal,
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EVP_CipherInit,
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EVP_CipherFinal,
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EVP_get_cipherbyname,
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EVP_get_cipherbynid,
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EVP_get_cipherbyobj,
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EVP_CIPHER_nid,
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EVP_CIPHER_block_size,
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EVP_CIPHER_key_length,
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EVP_CIPHER_iv_length,
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EVP_CIPHER_flags,
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EVP_CIPHER_mode,
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EVP_CIPHER_type,
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EVP_CIPHER_CTX_cipher,
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EVP_CIPHER_CTX_nid,
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EVP_CIPHER_CTX_block_size,
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EVP_CIPHER_CTX_key_length,
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EVP_CIPHER_CTX_iv_length,
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EVP_CIPHER_CTX_get_app_data,
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EVP_CIPHER_CTX_set_app_data,
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EVP_CIPHER_CTX_type,
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EVP_CIPHER_CTX_flags,
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EVP_CIPHER_CTX_mode,
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EVP_CIPHER_param_to_asn1,
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EVP_CIPHER_asn1_to_param,
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EVP_CIPHER_CTX_set_padding,
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EVP_enc_null
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- EVP cipher routines
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=head1 SYNOPSIS
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=for comment generic
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#include <openssl/evp.h>
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EVP_CIPHER_CTX *EVP_CIPHER_CTX_new(void);
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int EVP_CIPHER_CTX_reset(EVP_CIPHER_CTX *ctx);
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void EVP_CIPHER_CTX_free(EVP_CIPHER_CTX *ctx);
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int EVP_EncryptInit_ex(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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ENGINE *impl, const unsigned char *key, const unsigned char *iv);
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int EVP_EncryptUpdate(EVP_CIPHER_CTX *ctx, unsigned char *out,
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int *outl, const unsigned char *in, int inl);
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int EVP_EncryptFinal_ex(EVP_CIPHER_CTX *ctx, unsigned char *out, int *outl);
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int EVP_DecryptInit_ex(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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ENGINE *impl, const unsigned char *key, const unsigned char *iv);
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int EVP_DecryptUpdate(EVP_CIPHER_CTX *ctx, unsigned char *out,
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int *outl, const unsigned char *in, int inl);
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int EVP_DecryptFinal_ex(EVP_CIPHER_CTX *ctx, unsigned char *outm, int *outl);
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int EVP_CipherInit_ex(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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ENGINE *impl, const unsigned char *key, const unsigned char *iv, int enc);
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int EVP_CipherUpdate(EVP_CIPHER_CTX *ctx, unsigned char *out,
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int *outl, const unsigned char *in, int inl);
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int EVP_CipherFinal_ex(EVP_CIPHER_CTX *ctx, unsigned char *outm, int *outl);
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int EVP_EncryptInit(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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const unsigned char *key, const unsigned char *iv);
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int EVP_EncryptFinal(EVP_CIPHER_CTX *ctx, unsigned char *out, int *outl);
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int EVP_DecryptInit(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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const unsigned char *key, const unsigned char *iv);
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int EVP_DecryptFinal(EVP_CIPHER_CTX *ctx, unsigned char *outm, int *outl);
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int EVP_CipherInit(EVP_CIPHER_CTX *ctx, const EVP_CIPHER *type,
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const unsigned char *key, const unsigned char *iv, int enc);
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int EVP_CipherFinal(EVP_CIPHER_CTX *ctx, unsigned char *outm, int *outl);
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int EVP_CIPHER_CTX_set_padding(EVP_CIPHER_CTX *x, int padding);
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int EVP_CIPHER_CTX_set_key_length(EVP_CIPHER_CTX *x, int keylen);
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int EVP_CIPHER_CTX_ctrl(EVP_CIPHER_CTX *ctx, int type, int arg, void *ptr);
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int EVP_CIPHER_CTX_rand_key(EVP_CIPHER_CTX *ctx, unsigned char *key);
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const EVP_CIPHER *EVP_get_cipherbyname(const char *name);
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const EVP_CIPHER *EVP_get_cipherbynid(int nid);
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const EVP_CIPHER *EVP_get_cipherbyobj(const ASN1_OBJECT *a);
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int EVP_CIPHER_nid(const EVP_CIPHER *e);
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int EVP_CIPHER_block_size(const EVP_CIPHER *e);
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int EVP_CIPHER_key_length(const EVP_CIPHER *e);
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int EVP_CIPHER_iv_length(const EVP_CIPHER *e);
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unsigned long EVP_CIPHER_flags(const EVP_CIPHER *e);
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unsigned long EVP_CIPHER_mode(const EVP_CIPHER *e);
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int EVP_CIPHER_type(const EVP_CIPHER *ctx);
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const EVP_CIPHER *EVP_CIPHER_CTX_cipher(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_CTX_nid(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_CTX_block_size(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_CTX_key_length(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_CTX_iv_length(const EVP_CIPHER_CTX *ctx);
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void *EVP_CIPHER_CTX_get_app_data(const EVP_CIPHER_CTX *ctx);
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void EVP_CIPHER_CTX_set_app_data(const EVP_CIPHER_CTX *ctx, void *data);
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int EVP_CIPHER_CTX_type(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_CTX_mode(const EVP_CIPHER_CTX *ctx);
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int EVP_CIPHER_param_to_asn1(EVP_CIPHER_CTX *c, ASN1_TYPE *type);
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int EVP_CIPHER_asn1_to_param(EVP_CIPHER_CTX *c, ASN1_TYPE *type);
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=head1 DESCRIPTION
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The EVP cipher routines are a high level interface to certain
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symmetric ciphers.
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EVP_CIPHER_CTX_new() creates a cipher context.
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EVP_CIPHER_CTX_free() clears all information from a cipher context
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and free up any allocated memory associate with it, including B<ctx>
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itself. This function should be called after all operations using a
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cipher are complete so sensitive information does not remain in
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memory.
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EVP_EncryptInit_ex() sets up cipher context B<ctx> for encryption
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with cipher B<type> from ENGINE B<impl>. B<ctx> must be created
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before calling this function. B<type> is normally supplied
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by a function such as EVP_aes_256_cbc(). If B<impl> is NULL then the
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default implementation is used. B<key> is the symmetric key to use
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and B<iv> is the IV to use (if necessary), the actual number of bytes
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used for the key and IV depends on the cipher. It is possible to set
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all parameters to NULL except B<type> in an initial call and supply
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the remaining parameters in subsequent calls, all of which have B<type>
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set to NULL. This is done when the default cipher parameters are not
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appropriate.
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EVP_EncryptUpdate() encrypts B<inl> bytes from the buffer B<in> and
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writes the encrypted version to B<out>. This function can be called
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multiple times to encrypt successive blocks of data. The amount
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of data written depends on the block alignment of the encrypted data:
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as a result the amount of data written may be anything from zero bytes
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to (inl + cipher_block_size - 1) so B<out> should contain sufficient
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room. The actual number of bytes written is placed in B<outl>. It also
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checks if B<in> and B<out> are partially overlapping, and if they are
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0 is returned to indicate failure.
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If padding is enabled (the default) then EVP_EncryptFinal_ex() encrypts
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the "final" data, that is any data that remains in a partial block.
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It uses standard block padding (aka PKCS padding) as described in
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the NOTES section, below. The encrypted
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final data is written to B<out> which should have sufficient space for
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one cipher block. The number of bytes written is placed in B<outl>. After
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this function is called the encryption operation is finished and no further
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calls to EVP_EncryptUpdate() should be made.
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If padding is disabled then EVP_EncryptFinal_ex() will not encrypt any more
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data and it will return an error if any data remains in a partial block:
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that is if the total data length is not a multiple of the block size.
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EVP_DecryptInit_ex(), EVP_DecryptUpdate() and EVP_DecryptFinal_ex() are the
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corresponding decryption operations. EVP_DecryptFinal() will return an
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error code if padding is enabled and the final block is not correctly
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formatted. The parameters and restrictions are identical to the encryption
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operations except that if padding is enabled the decrypted data buffer B<out>
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passed to EVP_DecryptUpdate() should have sufficient room for
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(B<inl> + cipher_block_size) bytes unless the cipher block size is 1 in
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which case B<inl> bytes is sufficient.
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EVP_CipherInit_ex(), EVP_CipherUpdate() and EVP_CipherFinal_ex() are
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functions that can be used for decryption or encryption. The operation
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performed depends on the value of the B<enc> parameter. It should be set
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to 1 for encryption, 0 for decryption and -1 to leave the value unchanged
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(the actual value of 'enc' being supplied in a previous call).
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EVP_CIPHER_CTX_reset() clears all information from a cipher context
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and free up any allocated memory associate with it, except the B<ctx>
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itself. This function should be called anytime B<ctx> is to be reused
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for another EVP_CipherInit() / EVP_CipherUpdate() / EVP_CipherFinal()
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series of calls.
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EVP_EncryptInit(), EVP_DecryptInit() and EVP_CipherInit() behave in a
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similar way to EVP_EncryptInit_ex(), EVP_DecryptInit_ex() and
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EVP_CipherInit_ex() except they always use the default cipher implementation.
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EVP_EncryptFinal(), EVP_DecryptFinal() and EVP_CipherFinal() are
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identical to EVP_EncryptFinal_ex(), EVP_DecryptFinal_ex() and
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EVP_CipherFinal_ex(). In previous releases they also cleaned up
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the B<ctx>, but this is no longer done and EVP_CIPHER_CTX_clean()
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must be called to free any context resources.
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EVP_get_cipherbyname(), EVP_get_cipherbynid() and EVP_get_cipherbyobj()
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return an EVP_CIPHER structure when passed a cipher name, a NID or an
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ASN1_OBJECT structure.
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EVP_CIPHER_nid() and EVP_CIPHER_CTX_nid() return the NID of a cipher when
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passed an B<EVP_CIPHER> or B<EVP_CIPHER_CTX> structure. The actual NID
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value is an internal value which may not have a corresponding OBJECT
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IDENTIFIER.
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EVP_CIPHER_CTX_set_padding() enables or disables padding. This
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function should be called after the context is set up for encryption
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or decryption with EVP_EncryptInit_ex(), EVP_DecryptInit_ex() or
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EVP_CipherInit_ex(). By default encryption operations are padded using
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standard block padding and the padding is checked and removed when
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decrypting. If the B<pad> parameter is zero then no padding is
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performed, the total amount of data encrypted or decrypted must then
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be a multiple of the block size or an error will occur.
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EVP_CIPHER_key_length() and EVP_CIPHER_CTX_key_length() return the key
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length of a cipher when passed an B<EVP_CIPHER> or B<EVP_CIPHER_CTX>
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structure. The constant B<EVP_MAX_KEY_LENGTH> is the maximum key length
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for all ciphers. Note: although EVP_CIPHER_key_length() is fixed for a
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given cipher, the value of EVP_CIPHER_CTX_key_length() may be different
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for variable key length ciphers.
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EVP_CIPHER_CTX_set_key_length() sets the key length of the cipher ctx.
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If the cipher is a fixed length cipher then attempting to set the key
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length to any value other than the fixed value is an error.
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EVP_CIPHER_iv_length() and EVP_CIPHER_CTX_iv_length() return the IV
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length of a cipher when passed an B<EVP_CIPHER> or B<EVP_CIPHER_CTX>.
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It will return zero if the cipher does not use an IV. The constant
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B<EVP_MAX_IV_LENGTH> is the maximum IV length for all ciphers.
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EVP_CIPHER_block_size() and EVP_CIPHER_CTX_block_size() return the block
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size of a cipher when passed an B<EVP_CIPHER> or B<EVP_CIPHER_CTX>
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structure. The constant B<EVP_MAX_BLOCK_LENGTH> is also the maximum block
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length for all ciphers.
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EVP_CIPHER_type() and EVP_CIPHER_CTX_type() return the type of the passed
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cipher or context. This "type" is the actual NID of the cipher OBJECT
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IDENTIFIER as such it ignores the cipher parameters and 40 bit RC2 and
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128 bit RC2 have the same NID. If the cipher does not have an object
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identifier or does not have ASN1 support this function will return
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B<NID_undef>.
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EVP_CIPHER_CTX_cipher() returns the B<EVP_CIPHER> structure when passed
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an B<EVP_CIPHER_CTX> structure.
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EVP_CIPHER_mode() and EVP_CIPHER_CTX_mode() return the block cipher mode:
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EVP_CIPH_ECB_MODE, EVP_CIPH_CBC_MODE, EVP_CIPH_CFB_MODE, EVP_CIPH_OFB_MODE,
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EVP_CIPH_CTR_MODE, EVP_CIPH_GCM_MODE, EVP_CIPH_CCM_MODE, EVP_CIPH_XTS_MODE,
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EVP_CIPH_WRAP_MODE or EVP_CIPH_OCB_MODE. If the cipher is a stream cipher then
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EVP_CIPH_STREAM_CIPHER is returned.
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EVP_CIPHER_param_to_asn1() sets the AlgorithmIdentifier "parameter" based
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on the passed cipher. This will typically include any parameters and an
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IV. The cipher IV (if any) must be set when this call is made. This call
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should be made before the cipher is actually "used" (before any
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EVP_EncryptUpdate(), EVP_DecryptUpdate() calls for example). This function
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may fail if the cipher does not have any ASN1 support.
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EVP_CIPHER_asn1_to_param() sets the cipher parameters based on an ASN1
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AlgorithmIdentifier "parameter". The precise effect depends on the cipher
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In the case of RC2, for example, it will set the IV and effective key length.
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This function should be called after the base cipher type is set but before
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the key is set. For example EVP_CipherInit() will be called with the IV and
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key set to NULL, EVP_CIPHER_asn1_to_param() will be called and finally
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EVP_CipherInit() again with all parameters except the key set to NULL. It is
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possible for this function to fail if the cipher does not have any ASN1 support
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or the parameters cannot be set (for example the RC2 effective key length
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is not supported.
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EVP_CIPHER_CTX_ctrl() allows various cipher specific parameters to be determined
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and set.
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EVP_CIPHER_CTX_rand_key() generates a random key of the appropriate length
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based on the cipher context. The EVP_CIPHER can provide its own random key
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generation routine to support keys of a specific form. B<Key> must point to a
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buffer at least as big as the value returned by EVP_CIPHER_CTX_key_length().
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=head1 RETURN VALUES
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EVP_CIPHER_CTX_new() returns a pointer to a newly created
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B<EVP_CIPHER_CTX> for success and B<NULL> for failure.
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EVP_EncryptInit_ex(), EVP_EncryptUpdate() and EVP_EncryptFinal_ex()
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return 1 for success and 0 for failure.
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EVP_DecryptInit_ex() and EVP_DecryptUpdate() return 1 for success and 0 for failure.
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EVP_DecryptFinal_ex() returns 0 if the decrypt failed or 1 for success.
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EVP_CipherInit_ex() and EVP_CipherUpdate() return 1 for success and 0 for failure.
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EVP_CipherFinal_ex() returns 0 for a decryption failure or 1 for success.
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EVP_CIPHER_CTX_reset() returns 1 for success and 0 for failure.
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EVP_get_cipherbyname(), EVP_get_cipherbynid() and EVP_get_cipherbyobj()
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return an B<EVP_CIPHER> structure or NULL on error.
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EVP_CIPHER_nid() and EVP_CIPHER_CTX_nid() return a NID.
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EVP_CIPHER_block_size() and EVP_CIPHER_CTX_block_size() return the block
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size.
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EVP_CIPHER_key_length() and EVP_CIPHER_CTX_key_length() return the key
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length.
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EVP_CIPHER_CTX_set_padding() always returns 1.
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EVP_CIPHER_iv_length() and EVP_CIPHER_CTX_iv_length() return the IV
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length or zero if the cipher does not use an IV.
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EVP_CIPHER_type() and EVP_CIPHER_CTX_type() return the NID of the cipher's
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OBJECT IDENTIFIER or NID_undef if it has no defined OBJECT IDENTIFIER.
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EVP_CIPHER_CTX_cipher() returns an B<EVP_CIPHER> structure.
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EVP_CIPHER_param_to_asn1() and EVP_CIPHER_asn1_to_param() return greater
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than zero for success and zero or a negative number on failure.
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EVP_CIPHER_CTX_rand_key() returns 1 for success.
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=head1 CIPHER LISTING
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All algorithms have a fixed key length unless otherwise stated.
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Refer to L<SEE ALSO> for the full list of ciphers available through the EVP
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interface.
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=over 4
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=item EVP_enc_null()
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Null cipher: does nothing.
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=back
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=head1 AEAD Interface
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The EVP interface for Authenticated Encryption with Associated Data (AEAD)
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modes are subtly altered and several additional I<ctrl> operations are supported
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depending on the mode specified.
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To specify additional authenticated data (AAD), a call to EVP_CipherUpdate(),
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EVP_EncryptUpdate() or EVP_DecryptUpdate() should be made with the output
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parameter B<out> set to B<NULL>.
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When decrypting, the return value of EVP_DecryptFinal() or EVP_CipherFinal()
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indicates whether the operation was successful. If it does not indicate success,
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the authentication operation has failed and any output data B<MUST NOT> be used
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as it is corrupted.
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=head2 GCM and OCB Modes
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The following I<ctrl>s are supported in GCM and OCB modes.
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=over 4
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=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_IVLEN, ivlen, NULL)
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Sets the IV length. This call can only be made before specifying an IV. If
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not called a default IV length is used.
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For GCM AES and OCB AES the default is 12 (i.e. 96 bits). For OCB mode the
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maximum is 15.
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=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_GET_TAG, taglen, tag)
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Writes C<taglen> bytes of the tag value to the buffer indicated by C<tag>.
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This call can only be made when encrypting data and B<after> all data has been
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processed (e.g. after an EVP_EncryptFinal() call).
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For OCB, C<taglen> must either be 16 or the value previously set via
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B<EVP_CTRL_AEAD_SET_TAG>.
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=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_TAG, taglen, tag)
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Sets the expected tag to C<taglen> bytes from C<tag>.
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The tag length can only be set before specifying an IV.
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C<taglen> must be between 1 and 16 inclusive.
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For GCM, this call is only valid when decrypting data.
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For OCB, this call is valid when decrypting data to set the expected tag,
|
|
and before encryption to set the desired tag length.
|
|
|
|
In OCB mode, calling this before encryption with C<tag> set to C<NULL> sets the
|
|
tag length. If this is not called prior to encryption, a default tag length is
|
|
used.
|
|
|
|
For OCB AES, the default tag length is 16 (i.e. 128 bits). It is also the
|
|
maximum tag length for OCB.
|
|
|
|
=back
|
|
|
|
=head2 CCM Mode
|
|
|
|
The EVP interface for CCM mode is similar to that of the GCM mode but with a
|
|
few additional requirements and different I<ctrl> values.
|
|
|
|
For CCM mode, the total plaintext or ciphertext length B<MUST> be passed to
|
|
EVP_CipherUpdate(), EVP_EncryptUpdate() or EVP_DecryptUpdate() with the output
|
|
and input parameters (B<in> and B<out>) set to B<NULL> and the length passed in
|
|
the B<inl> parameter.
|
|
|
|
The following I<ctrl>s are supported in CCM mode.
|
|
|
|
=over 4
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_TAG, taglen, tag)
|
|
|
|
This call is made to set the expected B<CCM> tag value when decrypting or
|
|
the length of the tag (with the C<tag> parameter set to NULL) when encrypting.
|
|
The tag length is often referred to as B<M>. If not set a default value is
|
|
used (12 for AES).
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_CCM_SET_L, ivlen, NULL)
|
|
|
|
Sets the CCM B<L> value. If not set a default is used (8 for AES).
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_IVLEN, ivlen, NULL)
|
|
|
|
Sets the CCM nonce (IV) length. This call can only be made before specifying an
|
|
nonce value. The nonce length is given by B<15 - L> so it is 7 by default for
|
|
AES.
|
|
|
|
=back
|
|
|
|
=head2 ChaCha20-Poly1305
|
|
|
|
The following I<ctrl>s are supported for the ChaCha20-Poly1305 AEAD algorithm.
|
|
|
|
=over 4
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_IVLEN, ivlen, NULL)
|
|
|
|
Sets the nonce length. This call can only be made before specifying the nonce.
|
|
If not called a default nonce length of 12 (i.e. 96 bits) is used. The maximum
|
|
nonce length is 16 (B<CHACHA_CTR_SIZE>, i.e. 128-bits).
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_GET_TAG, taglen, tag)
|
|
|
|
Writes C<taglen> bytes of the tag value to the buffer indicated by C<tag>.
|
|
This call can only be made when encrypting data and B<after> all data has been
|
|
processed (e.g. after an EVP_EncryptFinal() call).
|
|
|
|
C<taglen> specified here must be 16 (B<POLY1305_BLOCK_SIZE>, i.e. 128-bits) or
|
|
less.
|
|
|
|
=item EVP_CIPHER_CTX_ctrl(ctx, EVP_CTRL_AEAD_SET_TAG, taglen, tag)
|
|
|
|
Sets the expected tag to C<taglen> bytes from C<tag>.
|
|
The tag length can only be set before specifying an IV.
|
|
C<taglen> must be between 1 and 16 (B<POLY1305_BLOCK_SIZE>) inclusive.
|
|
This call is only valid when decrypting data.
|
|
|
|
=back
|
|
|
|
=head1 NOTES
|
|
|
|
Where possible the B<EVP> interface to symmetric ciphers should be used in
|
|
preference to the low level interfaces. This is because the code then becomes
|
|
transparent to the cipher used and much more flexible. Additionally, the
|
|
B<EVP> interface will ensure the use of platform specific cryptographic
|
|
acceleration such as AES-NI (the low level interfaces do not provide the
|
|
guarantee).
|
|
|
|
PKCS padding works by adding B<n> padding bytes of value B<n> to make the total
|
|
length of the encrypted data a multiple of the block size. Padding is always
|
|
added so if the data is already a multiple of the block size B<n> will equal
|
|
the block size. For example if the block size is 8 and 11 bytes are to be
|
|
encrypted then 5 padding bytes of value 5 will be added.
|
|
|
|
When decrypting the final block is checked to see if it has the correct form.
|
|
|
|
Although the decryption operation can produce an error if padding is enabled,
|
|
it is not a strong test that the input data or key is correct. A random block
|
|
has better than 1 in 256 chance of being of the correct format and problems with
|
|
the input data earlier on will not produce a final decrypt error.
|
|
|
|
If padding is disabled then the decryption operation will always succeed if
|
|
the total amount of data decrypted is a multiple of the block size.
|
|
|
|
The functions EVP_EncryptInit(), EVP_EncryptFinal(), EVP_DecryptInit(),
|
|
EVP_CipherInit() and EVP_CipherFinal() are obsolete but are retained for
|
|
compatibility with existing code. New code should use EVP_EncryptInit_ex(),
|
|
EVP_EncryptFinal_ex(), EVP_DecryptInit_ex(), EVP_DecryptFinal_ex(),
|
|
EVP_CipherInit_ex() and EVP_CipherFinal_ex() because they can reuse an
|
|
existing context without allocating and freeing it up on each call.
|
|
|
|
EVP_get_cipherbynid(), and EVP_get_cipherbyobj() are implemented as macros.
|
|
|
|
=head1 BUGS
|
|
|
|
B<EVP_MAX_KEY_LENGTH> and B<EVP_MAX_IV_LENGTH> only refer to the internal
|
|
ciphers with default key lengths. If custom ciphers exceed these values the
|
|
results are unpredictable. This is because it has become standard practice to
|
|
define a generic key as a fixed unsigned char array containing
|
|
B<EVP_MAX_KEY_LENGTH> bytes.
|
|
|
|
The ASN1 code is incomplete (and sometimes inaccurate) it has only been tested
|
|
for certain common S/MIME ciphers (RC2, DES, triple DES) in CBC mode.
|
|
|
|
=head1 EXAMPLES
|
|
|
|
Encrypt a string using IDEA:
|
|
|
|
int do_crypt(char *outfile)
|
|
{
|
|
unsigned char outbuf[1024];
|
|
int outlen, tmplen;
|
|
/*
|
|
* Bogus key and IV: we'd normally set these from
|
|
* another source.
|
|
*/
|
|
unsigned char key[] = {0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15};
|
|
unsigned char iv[] = {1,2,3,4,5,6,7,8};
|
|
char intext[] = "Some Crypto Text";
|
|
EVP_CIPHER_CTX *ctx;
|
|
FILE *out;
|
|
|
|
ctx = EVP_CIPHER_CTX_new();
|
|
EVP_EncryptInit_ex(ctx, EVP_idea_cbc(), NULL, key, iv);
|
|
|
|
if (!EVP_EncryptUpdate(ctx, outbuf, &outlen, intext, strlen(intext))) {
|
|
/* Error */
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
return 0;
|
|
}
|
|
/*
|
|
* Buffer passed to EVP_EncryptFinal() must be after data just
|
|
* encrypted to avoid overwriting it.
|
|
*/
|
|
if (!EVP_EncryptFinal_ex(ctx, outbuf + outlen, &tmplen)) {
|
|
/* Error */
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
return 0;
|
|
}
|
|
outlen += tmplen;
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
/*
|
|
* Need binary mode for fopen because encrypted data is
|
|
* binary data. Also cannot use strlen() on it because
|
|
* it won't be NUL terminated and may contain embedded
|
|
* NULs.
|
|
*/
|
|
out = fopen(outfile, "wb");
|
|
if (out == NULL) {
|
|
/* Error */
|
|
return 0;
|
|
}
|
|
fwrite(outbuf, 1, outlen, out);
|
|
fclose(out);
|
|
return 1;
|
|
}
|
|
|
|
The ciphertext from the above example can be decrypted using the B<openssl>
|
|
utility with the command line (shown on two lines for clarity):
|
|
|
|
openssl idea -d \
|
|
-K 000102030405060708090A0B0C0D0E0F -iv 0102030405060708 <filename
|
|
|
|
General encryption and decryption function example using FILE I/O and AES128
|
|
with a 128-bit key:
|
|
|
|
int do_crypt(FILE *in, FILE *out, int do_encrypt)
|
|
{
|
|
/* Allow enough space in output buffer for additional block */
|
|
unsigned char inbuf[1024], outbuf[1024 + EVP_MAX_BLOCK_LENGTH];
|
|
int inlen, outlen;
|
|
EVP_CIPHER_CTX *ctx;
|
|
/*
|
|
* Bogus key and IV: we'd normally set these from
|
|
* another source.
|
|
*/
|
|
unsigned char key[] = "0123456789abcdeF";
|
|
unsigned char iv[] = "1234567887654321";
|
|
|
|
/* Don't set key or IV right away; we want to check lengths */
|
|
ctx = EVP_CIPHER_CTX_new();
|
|
EVP_CipherInit_ex(&ctx, EVP_aes_128_cbc(), NULL, NULL, NULL,
|
|
do_encrypt);
|
|
OPENSSL_assert(EVP_CIPHER_CTX_key_length(ctx) == 16);
|
|
OPENSSL_assert(EVP_CIPHER_CTX_iv_length(ctx) == 16);
|
|
|
|
/* Now we can set key and IV */
|
|
EVP_CipherInit_ex(ctx, NULL, NULL, key, iv, do_encrypt);
|
|
|
|
for (;;) {
|
|
inlen = fread(inbuf, 1, 1024, in);
|
|
if (inlen <= 0)
|
|
break;
|
|
if (!EVP_CipherUpdate(ctx, outbuf, &outlen, inbuf, inlen)) {
|
|
/* Error */
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
return 0;
|
|
}
|
|
fwrite(outbuf, 1, outlen, out);
|
|
}
|
|
if (!EVP_CipherFinal_ex(ctx, outbuf, &outlen)) {
|
|
/* Error */
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
return 0;
|
|
}
|
|
fwrite(outbuf, 1, outlen, out);
|
|
|
|
EVP_CIPHER_CTX_free(ctx);
|
|
return 1;
|
|
}
|
|
|
|
|
|
=head1 SEE ALSO
|
|
|
|
L<evp(7)>
|
|
|
|
Supported ciphers are listed in:
|
|
|
|
L<EVP_aes(3)>,
|
|
L<EVP_aria(3)>,
|
|
L<EVP_bf(3)>,
|
|
L<EVP_camellia(3)>,
|
|
L<EVP_cast5(3)>,
|
|
L<EVP_chacha20(3)>,
|
|
L<EVP_des(3)>,
|
|
L<EVP_desx(3)>,
|
|
L<EVP_idea(3)>,
|
|
L<EVP_rc2(3)>,
|
|
L<EVP_rc4(3)>,
|
|
L<EVP_rc5(3)>,
|
|
L<EVP_seed(3)>,
|
|
L<EVP_sm4(3)>
|
|
|
|
=head1 HISTORY
|
|
|
|
Support for OCB mode was added in OpenSSL 1.1.0
|
|
|
|
B<EVP_CIPHER_CTX> was made opaque in OpenSSL 1.1.0. As a result,
|
|
EVP_CIPHER_CTX_reset() appeared and EVP_CIPHER_CTX_cleanup()
|
|
disappeared. EVP_CIPHER_CTX_init() remains as an alias for
|
|
EVP_CIPHER_CTX_reset().
|
|
|
|
=head1 COPYRIGHT
|
|
|
|
Copyright 2000-2018 The OpenSSL Project Authors. All Rights Reserved.
|
|
|
|
Licensed under the Apache License 2.0 (the "License"). You may not use
|
|
this file except in compliance with the License. You can obtain a copy
|
|
in the file LICENSE in the source distribution or at
|
|
L<https://www.openssl.org/source/license.html>.
|
|
|
|
=cut
|