forked from Minki/linux
77ebdabe8d
Extend the user-space RNG interface: 1. Add entropy input via ALG_SET_DRBG_ENTROPY setsockopt option; 2. Add additional data input via sendmsg syscall. This allows DRBG to be tested with test vectors, for example for the purpose of CAVP testing, which otherwise isn't possible. To prevent erroneous use of entropy input, it is hidden under CRYPTO_USER_API_RNG_CAVP config option and requires CAP_SYS_ADMIN to succeed. Signed-off-by: Elena Petrova <lenaptr@google.com> Acked-by: Stephan Müller <smueller@chronox.de> Reviewed-by: Eric Biggers <ebiggers@google.com> Signed-off-by: Herbert Xu <herbert@gondor.apana.org.au>
402 lines
15 KiB
ReStructuredText
402 lines
15 KiB
ReStructuredText
User Space Interface
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====================
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Introduction
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------------
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The concepts of the kernel crypto API visible to kernel space is fully
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applicable to the user space interface as well. Therefore, the kernel
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crypto API high level discussion for the in-kernel use cases applies
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here as well.
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The major difference, however, is that user space can only act as a
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consumer and never as a provider of a transformation or cipher
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algorithm.
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The following covers the user space interface exported by the kernel
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crypto API. A working example of this description is libkcapi that can
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be obtained from [1]. That library can be used by user space
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applications that require cryptographic services from the kernel.
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Some details of the in-kernel kernel crypto API aspects do not apply to
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user space, however. This includes the difference between synchronous
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and asynchronous invocations. The user space API call is fully
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synchronous.
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[1] https://www.chronox.de/libkcapi.html
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User Space API General Remarks
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------------------------------
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The kernel crypto API is accessible from user space. Currently, the
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following ciphers are accessible:
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- Message digest including keyed message digest (HMAC, CMAC)
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- Symmetric ciphers
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- AEAD ciphers
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- Random Number Generators
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The interface is provided via socket type using the type AF_ALG. In
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addition, the setsockopt option type is SOL_ALG. In case the user space
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header files do not export these flags yet, use the following macros:
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::
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#ifndef AF_ALG
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#define AF_ALG 38
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#endif
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#ifndef SOL_ALG
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#define SOL_ALG 279
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#endif
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A cipher is accessed with the same name as done for the in-kernel API
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calls. This includes the generic vs. unique naming schema for ciphers as
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well as the enforcement of priorities for generic names.
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To interact with the kernel crypto API, a socket must be created by the
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user space application. User space invokes the cipher operation with the
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send()/write() system call family. The result of the cipher operation is
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obtained with the read()/recv() system call family.
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The following API calls assume that the socket descriptor is already
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opened by the user space application and discusses only the kernel
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crypto API specific invocations.
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To initialize the socket interface, the following sequence has to be
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performed by the consumer:
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1. Create a socket of type AF_ALG with the struct sockaddr_alg
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parameter specified below for the different cipher types.
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2. Invoke bind with the socket descriptor
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3. Invoke accept with the socket descriptor. The accept system call
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returns a new file descriptor that is to be used to interact with the
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particular cipher instance. When invoking send/write or recv/read
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system calls to send data to the kernel or obtain data from the
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kernel, the file descriptor returned by accept must be used.
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In-place Cipher operation
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-------------------------
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Just like the in-kernel operation of the kernel crypto API, the user
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space interface allows the cipher operation in-place. That means that
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the input buffer used for the send/write system call and the output
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buffer used by the read/recv system call may be one and the same. This
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is of particular interest for symmetric cipher operations where a
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copying of the output data to its final destination can be avoided.
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If a consumer on the other hand wants to maintain the plaintext and the
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ciphertext in different memory locations, all a consumer needs to do is
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to provide different memory pointers for the encryption and decryption
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operation.
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Message Digest API
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------------------
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The message digest type to be used for the cipher operation is selected
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when invoking the bind syscall. bind requires the caller to provide a
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filled struct sockaddr data structure. This data structure must be
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filled as follows:
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::
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struct sockaddr_alg sa = {
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.salg_family = AF_ALG,
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.salg_type = "hash", /* this selects the hash logic in the kernel */
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.salg_name = "sha1" /* this is the cipher name */
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};
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The salg_type value "hash" applies to message digests and keyed message
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digests. Though, a keyed message digest is referenced by the appropriate
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salg_name. Please see below for the setsockopt interface that explains
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how the key can be set for a keyed message digest.
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Using the send() system call, the application provides the data that
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should be processed with the message digest. The send system call allows
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the following flags to be specified:
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- MSG_MORE: If this flag is set, the send system call acts like a
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message digest update function where the final hash is not yet
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calculated. If the flag is not set, the send system call calculates
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the final message digest immediately.
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With the recv() system call, the application can read the message digest
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from the kernel crypto API. If the buffer is too small for the message
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digest, the flag MSG_TRUNC is set by the kernel.
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In order to set a message digest key, the calling application must use
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the setsockopt() option of ALG_SET_KEY. If the key is not set the HMAC
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operation is performed without the initial HMAC state change caused by
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the key.
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Symmetric Cipher API
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--------------------
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The operation is very similar to the message digest discussion. During
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initialization, the struct sockaddr data structure must be filled as
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follows:
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::
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struct sockaddr_alg sa = {
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.salg_family = AF_ALG,
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.salg_type = "skcipher", /* this selects the symmetric cipher */
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.salg_name = "cbc(aes)" /* this is the cipher name */
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};
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Before data can be sent to the kernel using the write/send system call
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family, the consumer must set the key. The key setting is described with
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the setsockopt invocation below.
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Using the sendmsg() system call, the application provides the data that
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should be processed for encryption or decryption. In addition, the IV is
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specified with the data structure provided by the sendmsg() system call.
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The sendmsg system call parameter of struct msghdr is embedded into the
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struct cmsghdr data structure. See recv(2) and cmsg(3) for more
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information on how the cmsghdr data structure is used together with the
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send/recv system call family. That cmsghdr data structure holds the
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following information specified with a separate header instances:
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- specification of the cipher operation type with one of these flags:
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- ALG_OP_ENCRYPT - encryption of data
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- ALG_OP_DECRYPT - decryption of data
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- specification of the IV information marked with the flag ALG_SET_IV
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The send system call family allows the following flag to be specified:
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- MSG_MORE: If this flag is set, the send system call acts like a
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cipher update function where more input data is expected with a
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subsequent invocation of the send system call.
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Note: The kernel reports -EINVAL for any unexpected data. The caller
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must make sure that all data matches the constraints given in
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/proc/crypto for the selected cipher.
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With the recv() system call, the application can read the result of the
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cipher operation from the kernel crypto API. The output buffer must be
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at least as large as to hold all blocks of the encrypted or decrypted
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data. If the output data size is smaller, only as many blocks are
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returned that fit into that output buffer size.
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AEAD Cipher API
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---------------
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The operation is very similar to the symmetric cipher discussion. During
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initialization, the struct sockaddr data structure must be filled as
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follows:
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::
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struct sockaddr_alg sa = {
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.salg_family = AF_ALG,
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.salg_type = "aead", /* this selects the symmetric cipher */
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.salg_name = "gcm(aes)" /* this is the cipher name */
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};
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Before data can be sent to the kernel using the write/send system call
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family, the consumer must set the key. The key setting is described with
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the setsockopt invocation below.
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In addition, before data can be sent to the kernel using the write/send
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system call family, the consumer must set the authentication tag size.
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To set the authentication tag size, the caller must use the setsockopt
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invocation described below.
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Using the sendmsg() system call, the application provides the data that
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should be processed for encryption or decryption. In addition, the IV is
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specified with the data structure provided by the sendmsg() system call.
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The sendmsg system call parameter of struct msghdr is embedded into the
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struct cmsghdr data structure. See recv(2) and cmsg(3) for more
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information on how the cmsghdr data structure is used together with the
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send/recv system call family. That cmsghdr data structure holds the
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following information specified with a separate header instances:
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- specification of the cipher operation type with one of these flags:
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- ALG_OP_ENCRYPT - encryption of data
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- ALG_OP_DECRYPT - decryption of data
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- specification of the IV information marked with the flag ALG_SET_IV
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- specification of the associated authentication data (AAD) with the
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flag ALG_SET_AEAD_ASSOCLEN. The AAD is sent to the kernel together
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with the plaintext / ciphertext. See below for the memory structure.
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The send system call family allows the following flag to be specified:
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- MSG_MORE: If this flag is set, the send system call acts like a
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cipher update function where more input data is expected with a
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subsequent invocation of the send system call.
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Note: The kernel reports -EINVAL for any unexpected data. The caller
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must make sure that all data matches the constraints given in
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/proc/crypto for the selected cipher.
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With the recv() system call, the application can read the result of the
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cipher operation from the kernel crypto API. The output buffer must be
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at least as large as defined with the memory structure below. If the
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output data size is smaller, the cipher operation is not performed.
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The authenticated decryption operation may indicate an integrity error.
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Such breach in integrity is marked with the -EBADMSG error code.
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AEAD Memory Structure
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~~~~~~~~~~~~~~~~~~~~~
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The AEAD cipher operates with the following information that is
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communicated between user and kernel space as one data stream:
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- plaintext or ciphertext
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- associated authentication data (AAD)
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- authentication tag
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The sizes of the AAD and the authentication tag are provided with the
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sendmsg and setsockopt calls (see there). As the kernel knows the size
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of the entire data stream, the kernel is now able to calculate the right
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offsets of the data components in the data stream.
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The user space caller must arrange the aforementioned information in the
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following order:
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- AEAD encryption input: AAD \|\| plaintext
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- AEAD decryption input: AAD \|\| ciphertext \|\| authentication tag
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The output buffer the user space caller provides must be at least as
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large to hold the following data:
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- AEAD encryption output: ciphertext \|\| authentication tag
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- AEAD decryption output: plaintext
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Random Number Generator API
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---------------------------
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Again, the operation is very similar to the other APIs. During
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initialization, the struct sockaddr data structure must be filled as
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follows:
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::
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struct sockaddr_alg sa = {
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.salg_family = AF_ALG,
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.salg_type = "rng", /* this selects the random number generator */
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.salg_name = "drbg_nopr_sha256" /* this is the RNG name */
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};
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Depending on the RNG type, the RNG must be seeded. The seed is provided
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using the setsockopt interface to set the key. For example, the
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ansi_cprng requires a seed. The DRBGs do not require a seed, but may be
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seeded. The seed is also known as a *Personalization String* in NIST SP 800-90A
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standard.
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Using the read()/recvmsg() system calls, random numbers can be obtained.
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The kernel generates at most 128 bytes in one call. If user space
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requires more data, multiple calls to read()/recvmsg() must be made.
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WARNING: The user space caller may invoke the initially mentioned accept
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system call multiple times. In this case, the returned file descriptors
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have the same state.
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Following CAVP testing interfaces are enabled when kernel is built with
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CRYPTO_USER_API_RNG_CAVP option:
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- the concatenation of *Entropy* and *Nonce* can be provided to the RNG via
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ALG_SET_DRBG_ENTROPY setsockopt interface. Setting the entropy requires
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CAP_SYS_ADMIN permission.
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- *Additional Data* can be provided using the send()/sendmsg() system calls,
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but only after the entropy has been set.
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Zero-Copy Interface
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-------------------
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In addition to the send/write/read/recv system call family, the AF_ALG
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interface can be accessed with the zero-copy interface of
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splice/vmsplice. As the name indicates, the kernel tries to avoid a copy
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operation into kernel space.
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The zero-copy operation requires data to be aligned at the page
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boundary. Non-aligned data can be used as well, but may require more
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operations of the kernel which would defeat the speed gains obtained
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from the zero-copy interface.
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The system-inherent limit for the size of one zero-copy operation is 16
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pages. If more data is to be sent to AF_ALG, user space must slice the
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input into segments with a maximum size of 16 pages.
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Zero-copy can be used with the following code example (a complete
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working example is provided with libkcapi):
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::
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int pipes[2];
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pipe(pipes);
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/* input data in iov */
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vmsplice(pipes[1], iov, iovlen, SPLICE_F_GIFT);
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/* opfd is the file descriptor returned from accept() system call */
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splice(pipes[0], NULL, opfd, NULL, ret, 0);
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read(opfd, out, outlen);
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Setsockopt Interface
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--------------------
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In addition to the read/recv and send/write system call handling to send
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and retrieve data subject to the cipher operation, a consumer also needs
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to set the additional information for the cipher operation. This
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additional information is set using the setsockopt system call that must
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be invoked with the file descriptor of the open cipher (i.e. the file
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descriptor returned by the accept system call).
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Each setsockopt invocation must use the level SOL_ALG.
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The setsockopt interface allows setting the following data using the
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mentioned optname:
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- ALG_SET_KEY -- Setting the key. Key setting is applicable to:
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- the skcipher cipher type (symmetric ciphers)
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- the hash cipher type (keyed message digests)
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- the AEAD cipher type
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- the RNG cipher type to provide the seed
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- ALG_SET_AEAD_AUTHSIZE -- Setting the authentication tag size for
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AEAD ciphers. For a encryption operation, the authentication tag of
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the given size will be generated. For a decryption operation, the
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provided ciphertext is assumed to contain an authentication tag of
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the given size (see section about AEAD memory layout below).
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- ALG_SET_DRBG_ENTROPY -- Setting the entropy of the random number generator.
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This option is applicable to RNG cipher type only.
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User space API example
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----------------------
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Please see [1] for libkcapi which provides an easy-to-use wrapper around
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the aforementioned Netlink kernel interface. [1] also contains a test
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application that invokes all libkcapi API calls.
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[1] https://www.chronox.de/libkcapi.html
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