Re: [Qemu-devel] [PATCH v9 1/2] virtio-crypto: Add virtio crypto device specification

[Michael S. Tsirkin]

On Thu, Sep 08, 2016 at 06:05:14PM +0800, Gonglei wrote:
> The virtio crypto device is a virtual crypto device (ie. hardware
> crypto accelerator card). The virtio crypto device can provide
> five crypto services: CIPHER, MAC, HASH, AEAD, KDF, ASYM, PRIMITIVE.
> 
> In this patch, CIPHER, MAC, HASH, AEAD services are introduced.
> 
> Signed-off-by: Gonglei <address@hidden>
> CC: Michael S. Tsirkin <address@hidden>
> CC: Cornelia Huck <address@hidden>
> CC: Stefan Hajnoczi <address@hidden>
> CC: Lingli Deng <address@hidden>
> CC: Jani Kokkonen <address@hidden>
> CC: Ola Liljedahl <address@hidden>
> CC: Varun Sethi <address@hidden>
> CC: Zeng Xin <address@hidden>
> CC: Keating Brian <address@hidden>
> CC: Ma Liang J <address@hidden>
> CC: Griffin John <address@hidden>
> CC: Hanweidong <address@hidden>
> CC: Mihai Claudiu Caraman <address@hidden>

I mostly looked at the conformance clauses.
Here are some comments worth addressing.

Thanks!

> ---
>  content.tex       |   2 +
>  virtio-crypto.tex | 926 
> ++++++++++++++++++++++++++++++++++++++++++++++++++++++
>  2 files changed, 928 insertions(+)
>  create mode 100644 virtio-crypto.tex
> 
> diff --git a/content.tex b/content.tex
> index 4b45678..ab75f78 100644
> --- a/content.tex
> +++ b/content.tex
> @@ -5750,6 +5750,8 @@ descriptor for the \field{sense_len}, \field{residual},
>  \field{status_qualifier}, \field{status}, \field{response} and
>  \field{sense} fields.
>  
> +\input{virtio-crypto.tex}
> +
>  \chapter{Reserved Feature Bits}\label{sec:Reserved Feature Bits}
>  
>  Currently there are three device-independent feature bits defined:
> diff --git a/virtio-crypto.tex b/virtio-crypto.tex
> new file mode 100644
> index 0000000..eec4741
> --- /dev/null
> +++ b/virtio-crypto.tex
> @@ -0,0 +1,926 @@
> +\section{Crypto Device}\label{sec:Device Types / Crypto Device}
> +
> +The virtio crypto device is a virtual crypto device, and is a kind of
> +virtual hardware accelerator for virtual machines.  The encryption and
> +decryption requests are placed in the data queue, and handled by the
> +real crypto accelerators finally. The second queue is the control queue,
> +which is used to create or destroy sessions for symmetric algorithms, and
> +control some advanced features in the future. The virtio crypto
> +device can provide seven crypto services: CIPHER, MAC, HASH, AEAD,
> +KDF, ASYM, PRIMITIVE.
> +
> +\subsection{Device ID}\label{sec:Device Types / Crypto Device / Device ID}
> +
> +20
> +
> +\subsection{Virtqueues}\label{sec:Device Types / Crypto Device / Virtqueues}
> +
> +\begin{description}
> +\item[0] dataq1
> +\item[\ldots]
> +\item[N-1] dataqN
> +\item[N] controlq
> +\end{description}
> +
> +N is set by \field{max_dataqueues}.
> +
> +\subsection{Feature bits}\label{sec:Device Types / Crypto Device / Feature 
> bits}
> +  None currently defined
> +
> +\subsection{Device configuration layout}\label{sec:Device Types / Crypto 
> Device / Device configuration layout}
> +
> +The following driver-read-only configuration fields are currently defined.
> +
> +\begin{lstlisting}
> +struct virtio_crypto_config {
> +    le32  status;
> +    le32  max_dataqueues;
> +    le32  crypto_services;
> +    /* detailed algorithms mask */
> +    le32 cipher_algo_l;
> +    le32 cipher_algo_h;
> +    le32 hash_algo;
> +    le32 mac_algo_l;
> +    le32 mac_algo_h;
> +    le32 asym_algo;
> +    le32 kdf_algo;
> +    le32 aead_algo;
> +    le32 primitive_algo;
> +};
> +\end{lstlisting}
> +
> +The first field, \field{status} is currently defined: 
> VIRTIO_CRYPTO_S_HW_READY
> +and VIRTIO_CRYPTO_S_STARTED.
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_S_HW_READY  (1 << 0)
> +#define VIRTIO_CRYPTO_S_STARTED  (1 << 1)
> +\end{lstlisting}
> +
> +The following driver-read-only field, \field{max_dataqueuess} specifies the
> +maximum number of data virtqueues (dataq1\ldots dataqN). The 
> \field{crypto_services}
> +shows the crypto service the virtio crypto supports. The service currently
> +defined are:

I'm not a native english speaker myself but I can tell there are some
mistakes in english in this text. Could you pls get a native speaker go
over the text for you? We'll likely get it corrected during public
review anyway, but it's better to fix them early.


> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_SERVICE_CIPHER (0) /* cipher service */
> +#define VIRTIO_CRYPTO_SERVICE_HASH   (1) /* hash service */

You write cipher and hash here, but elsewhere in text you
refer to them as CIPHER and HASH.

> +#define VIRTIO_CRYPTO_SERVICE_MAC    (2) /* MAC (Message Authentication 
> Codes) service */
> +#define VIRTIO_CRYPTO_SERVICE_AEAD   (3) /* AEAD (Authenticated Encryption 
> with Associated Data) service */
> +\end{lstlisting}
> +
> +The last driver-read-only fields specify detailed algorithms masks which
> +the device offers for corresponding services. The below CIPHER algorithms
> +are defined currently:

... are currently defined
Similarly "finally" etc elsewhere.
Or better just drop "currently", it adds no value, here and
elsewhere.
 

> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_NO_CIPHER                 0
> +#define VIRTIO_CRYPTO_CIPHER_ARC4               1
> +#define VIRTIO_CRYPTO_CIPHER_AES_ECB            2
> +#define VIRTIO_CRYPTO_CIPHER_AES_CBC            3
> +#define VIRTIO_CRYPTO_CIPHER_AES_CTR            4
> +#define VIRTIO_CRYPTO_CIPHER_DES_ECB            5
> +#define VIRTIO_CRYPTO_CIPHER_DES_CBC            6
> +#define VIRTIO_CRYPTO_CIPHER_3DES_ECB           7
> +#define VIRTIO_CRYPTO_CIPHER_3DES_CBC           8
> +#define VIRTIO_CRYPTO_CIPHER_3DES_CTR           9
> +#define VIRTIO_CRYPTO_CIPHER_KASUMI_F8          10
> +#define VIRTIO_CRYPTO_CIPHER_SNOW3G_UEA2        11
> +#define VIRTIO_CRYPTO_CIPHER_AES_F8             12
> +#define VIRTIO_CRYPTO_CIPHER_AES_XTS            13
> +#define VIRTIO_CRYPTO_CIPHER_ZUC_EEA3           14
> +\end{lstlisting}
> +
> +The below HASH algorithms are defined currently:
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_NO_HASH            0
> +#define VIRTIO_CRYPTO_HASH_MD5           1
> +#define VIRTIO_CRYPTO_HASH_SHA1          2
> +#define VIRTIO_CRYPTO_HASH_SHA_224       3
> +#define VIRTIO_CRYPTO_HASH_SHA_256       4
> +#define VIRTIO_CRYPTO_HASH_SHA_384       5
> +#define VIRTIO_CRYPTO_HASH_SHA_512       6
> +#define VIRTIO_CRYPTO_HASH_SHA3_224      7
> +#define VIRTIO_CRYPTO_HASH_SHA3_256      8
> +#define VIRTIO_CRYPTO_HASH_SHA3_384      9
> +#define VIRTIO_CRYPTO_HASH_SHA3_512      10
> +#define VIRTIO_CRYPTO_HASH_SHA3_SHAKE128      11
> +#define VIRTIO_CRYPTO_HASH_SHA3_SHAKE256      12
> +\end{lstlisting}
> +
> +The below MAC algorithms are defined currently:
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_NO_MAC                       0
> +#define VIRTIO_CRYPTO_MAC_HMAC_MD5                 1
> +#define VIRTIO_CRYPTO_MAC_HMAC_SHA1                2
> +#define VIRTIO_CRYPTO_MAC_HMAC_SHA_224             3
> +#define VIRTIO_CRYPTO_MAC_HMAC_SHA_256             4
> +#define VIRTIO_CRYPTO_MAC_HMAC_SHA_384             5
> +#define VIRTIO_CRYPTO_MAC_HMAC_SHA_512             6
> +#define VIRTIO_CRYPTO_MAC_CMAC_3DES                25
> +#define VIRTIO_CRYPTO_MAC_CMAC_AES                 26
> +#define VIRTIO_CRYPTO_MAC_KASUMI_F9                27
> +#define VIRTIO_CRYPTO_MAC_SNOW3G_UIA2              28
> +#define VIRTIO_CRYPTO_MAC_GMAC_AES                 41
> +#define VIRTIO_CRYPTO_MAC_GMAC_TWOFISH             42
> +#define VIRTIO_CRYPTO_MAC_CBCMAC_AES               49
> +#define VIRTIO_CRYPTO_MAC_CBCMAC_KASUMI_F9         50
> +#define VIRTIO_CRYPTO_MAC_XCBC_AES                 53
> +#define VIRTIO_CRYPTO_MAC_ZUC_EIA3                 54
> +\end{lstlisting}
> +
> +The below AEAD algorithms are defined currently:
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_NO_AEAD     0
> +#define VIRTIO_CRYPTO_AEAD_GCM    1
> +#define VIRTIO_CRYPTO_AEAD_CCM    2
> +#define VIRTIO_CRYPTO_AEAD_CHACHA20_POLY1305  3
> +\end{lstlisting}

Maybe clarify that more will be defined in the future,
and that drivers are expected to ignore the algorithms they
do not know how to handle.

> +
> +\devicenormative{\subsection}{Device Requirements: Device configuration 
> layout}\label{sec:Device Types / Crypto Device / Device configuration layout 
> / Device Requirements: Device configuration layout}
> +
> +\begin{itemize*}
> +\item The device MUST set \field{max_dataqueues} to between 1 and 65535 
> inclusive.
> +\item The device SHOULD set \field{status} according to the status of the 
> hardware-backed implementation.

Is the requirement here to be able to handle some activity
once ready is set? which exactly?

> +\item The device MUST set \field{crypto_services} according to the crypto 
> services which the device offered.

Why offered in the past? Generally please try to use the simple tense as
much as possible.

> +\item The device MUST set detailed algorithms mask according to 
> \field{crypto_services} field.

and what does this mean?

> +\end{itemize*}
> +
> +\drivernormative{\subsection}{Driver Requirements: Device configuration 
> layout}\label{sec:Device Types / Crypto Device / Device configuration layout 
> / Driver Requirements: Device configuration layout}
> +
> +\begin{itemize*}
> +\item The driver MUST read the ready \field{status} from the bottom bit of 
> status to
> +      check whether the hardware-backed implementation is ready or not.

And then what? What is and what is not legal to do before ready is set?
Is it legal to access any other fields before ready is set?

Also, does ready get cleared on reset? Does driver have to
re-read it after reset?

> +\item The driver MAY read \field{max_dataqueues} field to discover how many 
> data queues the device supports.

looks more like a device requirement to me

> +\item The driver MUST read \field{crypto_services} field to discover which 
> services the device is able to offer.
> +\item The driver MUST read the detailed \field{algorithms} field according 
> to \field{crypto_services} field.

Is the requirement that drivers MUST ignore
algorithms that they do not know how to handle?
If yes say so.


> +\end{itemize*}
> +
> +\subsection{Device Initialization}\label{sec:Device Types / Crypto Device / 
> Device Initialization}
> +
> +\subsubsection{Driver Requirements: Device Initialization}\label{sec:Device 
> Types / Crypto Device / Device Initialization / Driver Requirements: Device 
> Initialization}
> +
> +\begin{itemize*}
> +\item The driver MUST identify and initialize up to \field{max_dataqueues} 
> data virtqueues.
> +\item The driver MUST identify the control virtqueue.

identify and then what? is it required to initialize it?

> +\item The driver MUST identify the ready status of hardware-backend from 
> \field{status} field.

How is this different from requirement above?

> +\item The driver MUST read the supported crypto services from bits of 
> \field{crypto_servies}. 

Do we really need it to read them? When?
Probably the real requirement is not to use any not listed in
crypto_services?

> +\item The driver MUST read the supported algorithms according to 
> \field{crypto_services} field.

Same question.

> +\end{itemize*}
> +
> +\subsubsection{Device Requirements: Device Initialization}\label{sec:Device 
> Types / Crypto Device / Device Initialization / Device Requirements: Device 
> Initialization}
> +
> +\begin{itemize*}
> +\item The device MUST be configured at least one accelerator which executes 
> real crypto operations.
> +\item The device MUST write the \field{crypto_services} field according to 
> the capacities of the backend accelerator.
> +\end{itemize*}
> +
> +\subsection{Device Operation}\label{sec:Device Types / Crypto Device / 
> Device Operation}
> +
> +Packets can be transmitted by placing them in both the controlq and dataq.
> +Packets consist of a generic header and a service-specific request.
> +Where 'general header' is for all crypto requests, 'service specific 
> requests'
> +are composed of operation parameter + output data + input data in general.
> +Operation parameters are algorithm-specific parameters, output data is the
> +data should be operated, input data is the "operation result + result 
> buffer".
> +The general header of controlq:
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_OPCODE(service, op)   ((service << 8) | (op))
> +
> +struct virtio_crypto_ctrl_header {
> +#define VIRTIO_CRYPTO_CIPHER_CREATE_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_CIPHER, 0x02)
> +#define VIRTIO_CRYPTO_CIPHER_DESTROY_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_CIPHER, 0x03)
> +#define VIRTIO_CRYPTO_HASH_CREATE_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_HASH, 0x02)
> +#define VIRTIO_CRYPTO_HASH_DESTROY_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_HASH, 0x03)
> +#define VIRTIO_CRYPTO_MAC_CREATE_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_MAC, 0x02)
> +#define VIRTIO_CRYPTO_MAC_DESTROY_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_MAC, 0x03)
> +#define VIRTIO_CRYPTO_AEAD_CREATE_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_AEAD, 0x02)
> +#define VIRTIO_CRYPTO_AEAD_DESTROY_SESSION \
> +       VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_AEAD, 0x03)
> +    __virtio32 opcode;
> +    __virtio32 algo;
> +    __virtio32 flag;
> +    /* data virtqueue id */
> +    __virtio32 queue_id;
> +};
> +\end{lstlisting}
> +
> +The general header of dataq:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_op_header {
> +#define VIRTIO_CRYPTO_CIPHER_ENCRYPT \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_CIPHER, 0x00)
> +#define VIRTIO_CRYPTO_CIPHER_DECRYPT \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_CIPHER, 0x01)
> +#define VIRTIO_CRYPTO_HASH \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_HASH, 0x00)
> +#define VIRTIO_CRYPTO_MAC \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_MAC, 0x00)
> +#define VIRTIO_CRYPTO_AEAD_ENCRYPT \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_AEAD, 0x00)
> +#define VIRTIO_CRYPTO_AEAD_DECRYPT \
> +    VIRTIO_CRYPTO_OPCODE(VIRTIO_CRYPTO_SERVICE_AEAD, 0x01)
> +    __virtio32 opcode;
> +    /* algo should be service-specific algorithms */
> +    __virtio32 algo;
> +    /* session_id should be service-specific algorithms */
> +    __virtio64 session_id;
> +    /* control flag to control the request */
> +    __virtio32 flag;
> +    __virtio32 padding;
> +};
> +\end{lstlisting}
> +
> +The device CAN set the status of operation as follows:

Please do not capitalize CAN - I don't think CAN is an RFC 2119 keyword.
Also FYI text using RFC 2119 keywords should go into conformance statements,
other text should avoid them to avoid confusion.


> VIRTIO_CRYPTO_OP_OK for success,
> +VIRTIO_CRYPTO_OP_ERR for failure or device error, VIRTIO_CRYPTO_OP_NOTSUPP 
> for not support,
> +VIRTIO_CRYPTO_OP_INVSESS for invalid session id when executing crypto 
> operations.
> +
> +\begin{lstlisting}
> +#define VIRTIO_CRYPTO_OP_OK        0
> +#define VIRTIO_CRYPTO_OP_ERR       1
> +#define VIRTIO_CRYPTO_OP_BADMSG    2
> +#define VIRTIO_CRYPTO_OP_NOTSUPP   3
> +#define VIRTIO_CRYPTO_OP_INVSESS   4
> +\end{lstlisting}
> +
> +\subsubsection{Control Virtqueue}\label{sec:Device Types / Crypto Device / 
> Device Operation / Control Virtqueue}
> +
> +The driver uses the control virtqueue to send control commands to the
> +device which handles the non-data plane operations, such as session
> +operations (See \ref{sec:Device Types / Crypto Device / Device Operation / 
> Control Virtqueue / Session operation}).
> +The packet of controlq:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_op_ctrl_req {
> +    struct virtio_crypto_ctrl_header header;
> +
> +    union {
> +        struct virtio_crypto_sym_create_session_req   sym_create_session;
> +        struct virtio_crypto_hash_create_session_req  hash_create_session;
> +        struct virtio_crypto_mac_create_session_req   mac_create_session;
> +        struct virtio_crypto_aead_create_session_req  aead_create_session;
> +        struct virtio_crypto_destroy_session_req      destroy_session;
> +    } u;
> +};
> +\end{lstlisting}
> +
> +The header is the general header, the union is an algorithm-specific type,
> +which is set by the driver. All the properties in the union will be shown as 
> follows.
> +
> +\paragraph{Session operation}\label{sec:Device Types / Crypto Device / 
> Device Operation / Control Virtqueue / Session operation}
> +
> +The symmetric algorithms have the concept of sessions. A session is a
> +handle which describes the cryptographic parameters to be applied to
> +a number of buffers. The data within a session handle includes the following:
> +
> +\begin{enumerate}
> +\item The operation (cipher, hash/mac or both, and if both, the order in
> +      which the algorithms should be applied).
> +\item The cipher set data, including the cipher algorithm and mode,
> +      the key and its length, and the direction (encrypt or decrypt).
> +\item The hash/mac setup data, including the hash algorithm or mac algorithm,
> +      and digest result length (to allow for truncation).
> +\begin{itemize*}
> +\item Authenticated mode can refer to MAC, which requires that the key and
> +      its length are also specified.
> +\item For nested mode, the inner and outer prefix data and length are 
> specified,
> +      as well as the outer hash algorithm.
> +\end{itemize*}
> +\end{enumerate}
> +
> +The below structure store the result of session creation which is set by the 
> device:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_session_input {
> +    /* Device-writable part */
> +    __virtio64 session_id;
> +    __virtio32 status;
> +    __virtio32 padding;
> +};
> +\end{lstlisting}
> +
> +A request which destroy a session including the following information:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_destroy_session_req {
> +    /* Device-readable part */
> +    __virtio64  session_id;
> +    /* Device-writable part */
> +    __virtio32  status;
> +    __virtio32  padding;
> +};
> +\end{lstlisting}
> +
> +\subparagraph{Session operation: HASH session}\label{sec:Device Types / 
> Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: HASH 
> session}
> +
> +The packet of HASH session is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_hash_session_para {
> +    /* See VIRTIO_CRYPTO_HASH_* above */
> +    le32 algo;
> +    /* hash result length */
> +    le32 hash_result_len;
> +};
> +struct virtio_crypto_hash_create_session_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_hash_session_para para;
> +    /* Device-writable part */
> +    struct virtio_crypto_session_input input;
> +};
> +\end{lstlisting}
> +
> +\subparagraph{Session operation: MAC session}\label{sec:Device Types / 
> Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: MAC 
> session}
> +
> +The packet of MAC session is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_mac_session_para {
> +    /* See VIRTIO_CRYPTO_MAC_* above */
> +    le32 algo;
> +    /* hash result length */
> +    le32 hash_result_len;
> +    /* length of authenticated key */
> +    le32 auth_key_len;
> +    __virtio32 padding;
> +};
> +struct virtio_crypto_mac_session_output {
> +    __virtio64 auth_key_addr; /* guest key physical address */
> +};
> +
> +struct virtio_crypto_mac_create_session_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_mac_session_para para;
> +    struct virtio_crypto_mac_session_output out;
> +    /* Device-writable part */
> +    struct virtio_crypto_session_input input;
> +};
> +\end{lstlisting}
> +
> +\subparagraph{Session operation: Symmetric algorithms 
> session}\label{sec:Device Types / Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: 
> Symmetric algorithms session}
> +
> +The request of symmetric session includes two parts, CIPHER algorithms and 
> chain
> +algorithms (chaining cipher and hash/mac). The packet of CIPHER session is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_cipher_session_para {
> +    /* See VIRTIO_CRYPTO_CIPHER* above */
> +    le32 algo;
> +    /* length of key */
> +    le32 keylen;
> +#define VIRTIO_CRYPTO_OP_ENCRYPT  1
> +#define VIRTIO_CRYPTO_OP_DECRYPT  2
> +    /* encrypt or decrypt */
> +    le32 op;
> +    le32 padding;
> +};
> +
> +struct virtio_crypto_cipher_session_output {
> +    __virtio64 key_addr; /* guest key physical address */
> +};
> +
> +struct virtio_crypto_cipher_session_req {
> +    struct virtio_crypto_cipher_session_para para;
> +    struct virtio_crypto_cipher_session_output out;
> +    struct virtio_crypto_session_input input;
> +};
> +\end{lstlisting}
> +
> +The packet of algorithm chaining is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_alg_chain_session_para {
> +#define VIRTIO_CRYPTO_SYM_ALG_CHAIN_ORDER_HASH_THEN_CIPHER  1
> +#define VIRTIO_CRYPTO_SYM_ALG_CHAIN_ORDER_CIPHER_THEN_HASH  2
> +    __virtio32 alg_chain_order;
> +/* Plain hash */
> +#define VIRTIO_CRYPTO_SYM_HASH_MODE_PLAIN    1
> +/* Authenticated hash (mac) */
> +#define VIRTIO_CRYPTO_SYM_HASH_MODE_AUTH     2
> +/* Nested hash */
> +#define VIRTIO_CRYPTO_SYM_HASH_MODE_NESTED   3
> +    __virtio32 hash_mode;
> +    struct virtio_crypto_cipher_session_para cipher_param;
> +    union {
> +        struct virtio_crypto_hash_session_para hash_param;
> +        struct virtio_crypto_mac_session_para mac_param;
> +    } u;
> +    /* length of the additional authenticated data (AAD) in bytes */
> +    __virtio32 aad_len;
> +    __virtio32 padding;
> +};
> +
> +struct virtio_crypto_alg_chain_session_output {
> +    struct virtio_crypto_cipher_session_output cipher;
> +    struct virtio_crypto_mac_session_output mac;
> +};
> +
> +struct virtio_crypto_alg_chain_session_req {
> +    struct virtio_crypto_alg_chain_session_para para;
> +    struct virtio_crypto_alg_chain_session_output out;
> +    struct virtio_crypto_session_input input;
> +};
> +\end{lstlisting}
> +
> +The packet of symmetric algorithm is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_sym_create_session_req {
> +    union {
> +        struct virtio_crypto_cipher_session_req cipher;
> +        struct virtio_crypto_alg_chain_session_req chain;
> +    } u;
> +
> +    /* Device-readable part */
> +
> +/* No operation */
> +#define VIRTIO_CRYPTO_SYM_OP_NONE  0
> +/* Cipher only operation on the data */
> +#define VIRTIO_CRYPTO_SYM_OP_CIPHER  1
> +/* Chain any cipher with any hash or mac operation. The order
> +   depends on the value of alg_chain_order param */
> +#define VIRTIO_CRYPTO_SYM_OP_ALGORITHM_CHAINING  2
> +    __virtio32 op_type;
> +    __virtio32 padding;
> +};
> +\end{lstlisting}
> +
> +\subparagraph{Session operation: AEAD session}\label{sec:Device Types / 
> Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: AEAD 
> session}
> +
> +The packet of AEAD session is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_aead_session_para {
> +    /* See VIRTIO_CRYPTO_AEAD_* above*/
> +    le32 algo;
> +    /* length of key */
> +    le32 key_len;
> +    /* digest result length */
> +    le32 digest_result_len;
> +    /* The length of the additional authenticated data (AAD) in bytes */
> +    le32 aad_len;
> +    /* encrypt or decrypt, See above VIRTIO_CRYPTO_OP_* */
> +    le32 op;
> +    le32 padding;
> +};
> +
> +struct virtio_crypto_aead_session_output {
> +    __virtio64 key_addr; /* guest key phycial address */
> +};
> +
> +struct virtio_crypto_aead_create_session_req {
> +    struct virtio_crypto_aead_session_para para;
> +    struct virtio_crypto_aead_session_output out;
> +    struct virtio_crypto_session_input input;
> +};
> +\end{lstlisting}
> +
> +\drivernormative{\subparagraph}{Session operation: create 
> session}\label{sec:Device Types / Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: 
> create session / Driver Requirements: Session operation: create session}
> +
> +The driver MUST set the control general header and corresponding property
> +of union in structure virtio_crypto_op_ctrl_req. See \ref{sec:Device Types / 
> Crypto Device / Device Operation / Control Virtqueue}.
> +Take the example of MAC service, the driver MUST set 
> VIRTIO_CRYPTO_MAC_CREATE_SESSION
> +for \field{opcode} field in struct virtio_crypto_op_ctrl_req, and set the 
> \field{queue_id}
> +to show dataq used.
> +
> +\devicenormative{\subparagraph}{Session operation: create 
> session}\label{sec:Device Types / Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: 
> create session / Device Requirements: Session operation: create session}
> +
> +The device MUST return a session identifier to the driver when the device
> +finishes the processing of session creation. The session creation request
> +MUST end by a \field{status} field and a \field{session_id} field:

Pls reword to say "device MUST ..."

> +
> +Both 

should be lower case both after :

>\field{status} and \field{session_id} are written by the device: either 
>VIRTIO_CRYPTO_OP_OK for success,
> +VIRTIO_CRYPTO_OP_ERR for creation failed or device error, 
> VIRTIO_CRYPTO_OP_NOTSUPP for not support,
> +VIRTIO_CRYPTO_OP_INVSESS for invalid session id when executing crypto 
> operations.
> +
> +\drivernormative{\subparagraph}{Session operation: destroy 
> session}\label{sec:Device Types / Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: 
> destroy session / Driver Requirements: Session operation: destroy session}
> +
> +The driver MUST set the control general header and corresponding property
> +of union in struct virtio_crypto_op_ctrl_req. See \ref{sec:Device Types / 
> Crypto Device / Device Operation / Control Virtqueue}.
> +Take the example of MAC service,

This isn't the place for examples. Either list all requirements or drop
this.

> the driver MUST set VIRTIO_CRYPTO_MAC_DESTROY_SESSION
> +for \field{opcode} field in struct virtio_crypto_op_ctrl_req, and set the 
> \field{queue_id} shows dataq used.
> +The driver MUST set the \field{session_id} which MUST be a valid value which 
> assigned by the
> +device when a session was created.

Two MUST in a single statement is one too many.
Something like
        The driver MUST set the \field{session_id} to a value assigned by the
        device at session creation.
?

> +
> +\devicenormative{\subparagraph}{Session operation: destroy 
> session}\label{sec:Device Types / Crypto Device / Device
> +Operation / Control Virtqueue / Session operation / Session operation: 
> destroy session / Device Requirements: Session operation: destroy session}
> +
> +\field{status} field is written by the device: either VIRTIO_CRYPTO_OP_OK 
> for success, VIRTIO_CRYPTO_OP_ERR for failure or device error.
> +
> +\subsubsection{Data Virtqueue}\label{sec:Device Types / Crypto Device / 
> Device Operation / Data Virtqueue}
> +
> +The driver uses the data virtqueue to transmit the requests of crypto 
> operation to the device,
> +and to finish the data plane operations (such as crypto operation).
> +
> +The packet of dataq:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_op_data_req {
> +    struct virtio_crypto_op_header header;
> +
> +    union {
> +        struct virtio_crypto_sym_data_req   sym_req;
> +        struct virtio_crypto_hash_data_req  hash_req;
> +        struct virtio_crypto_mac_data_req   mac_req;
> +        struct virtio_crypto_aead_data_req  aead_req;
> +    } u;
> +};
> +\end{lstlisting}
> +
> +The header is the general header, the union is algorithm-specific type,
> +which are set by the driver. All properties in the union will be shown as 
> follow.
> +
> +There is a unify idata structure for all symmetric algorithms, including 
> CIPHER, HASH, MAC, AEAD.
> +The structure is defined as:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_sym_input {
> +    /* Destination data guest address, it's useless for plain HASH and MAC */
> +    __virtio64 dst_data_addr;
> +    /* Digest result guest address, it's useless for plain cipher algos */
> +    __virtio64 digest_result_addr;
> +
> +    __virtio32 status;
> +    __virtio32 padding;
> +};
> +\end{lstlisting}
> +
> +\paragraph{HASH Service Operation}\label{sec:Device Types / Crypto Device / 
> Device Operation / Data Virtqueue / HASH Service Operation}
> +
> +\begin{lstlisting}
> +struct virtio_crypto_hash_input {
> +    struct virtio_crypto_sym_input input;
> +};
> +
> +struct virtio_crypto_hash_output {
> +    /* source data guest address */
> +    __virtio64 src_data_addr;
> +    /* length of source data */
> +    __virtio32 src_data_len;
> +    __virtio32 padding;
> +};
> +
> +struct virtio_crypto_hash_data_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_hash_output odata;
> +    /* Device-writable part */
> +    struct virtio_crypto_hash_input idata;
> +};
> +\end{lstlisting}
> +
> +Each data request uses virtio_crypto_hash_data_req structure to store 
> informations,
> +which are used to execute one HASH operation. The request only occupies one 
> entry
> +of the Vring descriptor table in virtio crypto device's dataq, which improves
> +the throughput of data transferring for HASH service, so that the virtio 
> crypto
> +device CAN get the better result of acceleration.
> +
> +The informations include the source data guest physical address stored by 
> \field{src_data_addr},
> +length of source data stored by \field{src_data_len}, digest result guest 
> physical address
> +stored by \field{digest_result_addr} which is used to save the result of 
> HASH operation.
> +The address and length CAN determine the specific content in the guest 
> memory.
> +
> +Note: The guest memory MUST be guaranteed to be allocated and 
> physically-contiguous
> +pointed by \field{digest_result_addr} in struct virtio_crypto_hash_input and
> +\field{src_data_addr} in struct virtio_crypto_hash_output.
> +
> +\drivernormative{\subparagraph}{HASH Service Operation}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / HASH Service Operation / Driver Requirements: 
> HASH Service Operation}
> +
> +The driver MUST set the \field{opcode}, \field{session_id} in struct 
> virtio_crypto_op_header.
> +The \field{opcode} is set to VIRTIO_CRYPTO_HASH, \field{session_id} MUST be 
> a valid value
> +which assigned by the device when a session was created.

Why repeat this for each opcode/session_id?

> +The driver SHOULD set the \field{queue_id} field to show dataq used in 
> struct virtio_crypto_op_header.

Do things still work if it doesn't?

> +The driver MUST fill out all fields in struct virtio_crypto_hash_data_req, 
> including \field{parameter},
> +\field{odata} and \field{idata} sub structures.
> +
> +\devicenormative{\subparagraph}{HASH Service Operation}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / HASH Service Operation / Device Requirements: 
> HASH Service Operation}
> +
> +The device MUST copy the result of hash operation recorded by 
> \field{digest_result_addr}
> +filed in struct virtio_crypto_hash_input.
> +The device MUST set the \field{status} in strut virtio_crypto_hash_input: 
> either VIRTIO_CRYPTO_OP_OK for success,
> +VIRTIO_CRYPTO_OP_ERR for creation failed or device error, 
> VIRTIO_CRYPTO_OP_NOTSUPP for not support.
> +
> +\paragraph{MAC Service Operation}\label{sec:Device Types / Crypto Device / 
> Device Operation / Data Virtqueue / MAC Service Operation}
> +
> +\begin{lstlisting}
> +struct virtio_crypto_mac_input {
> +    struct virtio_crypto_sym_input input;
> +};
> +
> +struct virtio_crypto_mac_output {
> +    struct virtio_crypto_hash_output hash_output;
> +};
> +
> +struct virtio_crypto_mac_data_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_mac_output odata;
> +    /* Device-writable part */
> +    struct virtio_crypto_mac_input idata;
> +};
> +\end{lstlisting}
> +
> +Each data request uses virtio_crypto_mac_data_req structure to store 
> informations,
> +which are used to execute one MAC operation. The request only occupies one 
> entry
> +of the Vring descriptor table in virtio crypto device's dataq, which improves
> +the throughput of data transferring for MAC service, so that the virtio 
> crypto
> +device CAN get the better result of acceleration.
> +
> +The informations include the source data guest physical address stored by 
> \field{src_data_addr},
> +length of source data stored by \field{src_data_len}, digest result guest 
> physical address
> +stored by \field{digest_result_addr} which is used to save the result of MAC 
> operation.
> +The address and length CAN determine the specific content in the guest 
> memory.

don't upper-case please

> +
> +Note: The guest memory MUST be guaranteed 

Pls put statemenets with RFC keywords, including MUST
in a conformance statement section.
Or reword to avoid this:

The guest memory is always guaranteed to be allocated and
physically-contiguous


>to be allocated and physically-contiguous
> +pointed by \field{digest_result_addr} in struct virtio_crypto_hash_input and
> +\field{src_data_addr} in struct virtio_crypto_hash_output.
> +
> +\drivernormative{\subparagraph}{MAC Service Operation}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / MAC Service Operation / Driver Requirements: 
> MAC Service Operation}
> +
> +Refer to the hash operation.

what does this mean? That same rules apply to all operations? Better just 
combine them in
one section then, and list the minor differences.




> +The driver MUST set the \field{opcode} field to VIRTIO_CRYPTO_MAC.
> +
> +\devicenormative{\subparagraph}{MAC Service Operation}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / MAC Service Operation / Device Requirements: 
> MAC Service Operation}
> +
> +Refer to the hash operation.
> +
> +\paragraph{Symmetric algorithms Operation}\label{sec:Device Types / Crypto 
> Device / Device Operation / Data Virtqueue / Symmetric algorithms Operation}
> +
> +The packet of plain CIPHER service is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_cipher_para {
> +    le32 iv_len;
> +    /* length of source data */
> +    le32 src_data_len;
> +    /* length of dst data */
> +    le32 dst_data_len;
> +    __virtio32 padding;
> +};
> +
> +struct virtio_crypto_cipher_input {
> +    struct virtio_crypto_sym_input input;
> +};
> +
> +struct virtio_crypto_cipher_output {
> +    __virtio64 iv_addr; /* iv guest address */
> +    __virtio64 src_data_addr; /* source data guest address */
> +};
> +
> +struct virtio_crypto_cipher_data_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_cipher_para para;
> +    struct virtio_crypto_cipher_output odata;
> +    /* Device-writable part */
> +    struct virtio_crypto_cipher_input idata;
> +};
> +\end{lstlisting}
> +
> +The packet of algorithm chaining is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_alg_chain_data_para {
> +    struct virtio_crypto_cipher_para cipher;
> +};
> +
> +struct virtio_crypto_alg_chain_data_output {
> +    struct virtio_crypto_cipher_output cipher;
> +
> +    /* Device-readable part */
> +    __virtio64 aad_data_addr; /* additional auth data guest address */
> +    __virtio32 aad_len; /* length of additional auth data */
> +    __virtio32 padding;
> +};
> +
> +struct virtio_crypto_alg_chain_data_input {
> +    struct virtio_crypto_sym_input input;
> +};
> +
> +struct virtio_crypto_alg_chain_data_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_alg_chain_data_para para;
> +    struct virtio_crypto_alg_chain_data_output odata;
> +    /* Device-writable part */
> +    struct virtio_crypto_alg_chain_data_input idata;
> +};
> +\end{lstlisting}
> +
> +The packet of symmetric algorithm is:
> +
> +\begin{lstlisting}
> +struct virtio_crypto_sym_data_req {
> +    union {
> +        struct virtio_crypto_cipher_data_req cipher;
> +        struct virtio_crypto_alg_chain_data_req chain;
> +    } u;
> +
> +    /* Device-readable part */
> +
> +    /* See above VIRTIO_CRYPTO_SYM_OP_* */
> +    __virtio32 op_type;
> +    __virtio32 padding;
> +};
> +\end{lstlisting}
> +
> +Each data request uses virtio_crypto_cipher_data_req structure to store 
> informations,
> +which are used to execute one CIPHER operation. The request only occupies 
> one entry
> +of the Vring descriptor table in virtio crypto device's dataq, which improves
> +the throughput of data transferring for CIPHER service, so that the virtio 
> crypto
> +device CAN get the better result of acceleration.
> +
> +In the first virtio_crypto_cipher_para structure, \field{iv_len} specifics 
> the length of initialization vector,
> +\field{src_data_len} specifics the length of source data, 
> \field{dst_data_len} specifics the
> +length of destination data.
> +
> +In the following virtio_crypto_cipher_input structure, \field{dst_data_addr} 
> specifics destination
> +data guest physical address which is used to store the result of CIPHER 
> operation. \field{status} special
> +the status of CIPHER operation, See \ref{sec:Device Types / Crypto Device / 
> Device Operation / Control Virtqueue / Session operation /
> +Session operation: create session / Device Requirements: Session operation: 
> create session}. 
> +
> +In the virtio_crypto_cipher_output structure, \field{iv_addr} specifics 
> guest physical address of initialization vector,
> +\field{src_data_addr} specifics source data guest physical address.
> +
> +The addresses and length CAN determine the specific content in the guest 
> memory.
> +
> +Note: The guest memory MUST be guaranteed to be allocated and 
> physically-contiguous
> +pointed by \field{dst_data_addr} in struct virtio_crypto_cipher_input, 
> +\field{iv_addr} and \field{src_data_addr} in struct 
> virtio_crypto_cipher_output.
> +
> +\drivernormative{\subparagraph}{Symmetric algorithms 
> Encryption}\label{sec:Device Types / Crypto Device / Device
> +Operation / Data Virtqueue / Symmetric algorithms Operation / Driver 
> Requirements: Symmetric algorithms Encryption}
> +
> +Refer to the hash operation.
> +
> +The driver MUST set the \field{opcode} field to VIRTIO_CRYPTO_CIPHER_ENCRYPT.
> +The driver MUST fill out the fields in struct virtio_crypto_sym_data_req 
> according to
> +the operation type of the session. 
> +
> +The driver SHOULD fill out fields of struct virtio_crypto_cipher_data_req in 
> struct virtio_crypto_sym_data_req
> +if the created session is based on VIRTIO_CRYPTO_SYM_OP_CIPHER
> +
> +The driver SHOULD fill out fields of both struct 
> virtio_crypto_cipher_data_req and struct
> +virtio_crypto_mac_data_req mac_req in struct virtio_crypto_sym_data_req if 
> the created session
> +is VIRTIO_CRYPTO_SYM_OP_ALGORITHM_CHAINING type and 
> VIRTIO_CRYPTO_SYM_HASH_MODE_AUTH mode.
> +
> +\devicenormative{\subparagraph}{Symmetric algorithms 
> Encryption}\label{sec:Device Types / Crypto Device / Device
> +Operation / Data Virtqueue / Symmetric algorithms Operation / Device 
> Requirements: Symmetric algorithms Encryption}
> +
> +The device MUST parse the virtio_crypto_sym_data_req according to the 
> session_id in general header.
> +
> +The device SHOULD only parsed fields of struct virtio_crypto_cipher_data_req 
> in
> +struct virtio_crypto_sym_data_req if the created session is 
> VIRTIO_CRYPTO_SYM_OP_CIPHER type.
> +
> +The driver SHOULD parse fields of both struct virtio_crypto_cipher_data_req 
> and struct
> +virtio_crypto_mac_data_req mac_req in struct virtio_crypto_sym_data_req if 
> the created
> +session is VIRTIO_CRYPTO_SYM_OP_ALGORITHM_CHAINING operation type and 
> VIRTIO_CRYPTO_SYM_HASH_MODE_AUTH mode.
> +
> +The device MUST copy the result of encryption operation recorded by 
> \filed{dst_data_addr} filed in struct virtio_crypto_cipher_input in plain 
> cipher mode.
> +The device MUST copy the result of hash operation recorded by 
> \filed{digest_result_addr} filed in struct virtio_crypto_hash_input in chain 
> hash/mac mode.
> +The device MUST set the \filed{status} field in strut 
> virtio_crypto_cipher_input: either VIRTIO_CRYPTO_OP_OK for success, 
> VIRTIO_CRYPTO_OP_ERR for creation
> +failed or device error, VIRTIO_CRYPTO_OP_NOTSUPP for not support.
> +
> +\subparagraph{Steps of Encryption}\label{sec:Device Types / Crypto Device / 
> Device
> +Operation / Data Virtqueue / Symmetric algorithms Operation / Steps of 
> Encryption}
> +
> +Step1: Creating a session:
> +\begin{enumerate}
> +\item The driver fills out informations in struct virtio_crypto_op_ctrl_req, 
> including algorithm name, key, keylen etc;
> +\item The driver puts the request of session creation into the controlq's 
> Vring descriptor table;
> +\item The driver kicks the device;
> +\item The device gets the request from controlq;
> +\item The device parses informations of the request, determines the 
> informations of the backend crypto accelerator;
> +\item The device packages informations according to the API of the backend 
> crypto accelerator;
> +\item The device invokes the session creation API of the backend crypto 
> accelerator to create a session;
> +\item The device returns the session id to the driver.
> +\end{enumerate}
> +
> +Step2: Executing the detail encryption operation:
> +\begin{enumerate}
> +\item The driver fills out informations in struct virtio_crypto_op_data_req, 
> including struct virtio_crypto_op_header and struct 
> virtio_crypto_sym_data_req, See \ref{sec:Device Types / Crypto Device / Device
> +      Operation / Data Virtqueue / Symmetric algorithms Operation / Driver 
> Requirements: Symmetric algorithms Encryption};
> +\item The driver puts the request of encryption into the dataq's Vring 
> descriptor table;
> +\item The driver kicks the device (Or the device polls the dataq's Vring 
> descriptor table actively);
> +\item The device gets the request from dataq;
> +\item The device parses informations of the request, determines the 
> identifying informations of the backend crypto accelerator.
> +      For example, changing guest physical addresses to host physical 
> addresses;
> +\item The device packages identifying informations according to the API of 
> the backend crypto accelerator;
> +\item The device invokes the encryption API of the backend crypto 
> accelerator;
> +\item The backend crypto accelerator executes the encryption operation 
> implicitly;
> +\item The device gets the encryption result from the backend crypto 
> accelerator (synchronous or asynchronous);
> +\item The device set the \field{status} in struct virtio_crypto_cipher_input;
> +\tiem The device updates and flushes the Vring used table to return the 
> encryption result to the driver;
> +\item The device notifies the driver (Or the driver polls the dataq's Vring 
> used table actively);
> +\item The driver handles the encryption result.
> +\end{enumerate}
> +
> +Note: 
> +\begin{itemize*}
> +\item The driver MAY support both synchronous and asynchronous encryption. 
> Then the performance
> +      is poor in synchronous operation because frequent context switching 
> and virtualization overhead.
> +      The driver SHOULD by preference use asynchronous encryption.
> +\item For better performance, the device SHOULD by preference use vhost 
> scheme (user space or kernel space)
> +      as the backend crypto accelerator in real production environment.
> +\end{itemize*}
> +
> +\paragraph{AEAD Service Operation}\label{sec:Device Types / Crypto Device / 
> Device Operation / Data Virtqueue / AEAD Service Operation}
> +
> +\begin{lstlisting}
> +struct virtio_crypto_aead_para {
> +    __virtio32 iv_len;
> +    /* length of additional auth data */
> +    __virtio32 aad_len;
> +    /* length of source data */
> +    __virtio32 src_data_len;
> +    /* length of dst data */
> +    __virtio32 dst_data_len;
> +};
> +
> +struct virtio_crypto_aead_input {
> +    struct virtio_crypto_sym_input input;
> +};
> +
> +struct virtio_crypto_aead_output {
> +    __virtio64 iv_addr; /* iv guest address */
> +    __virtio64 src_data_addr; /* source data guest address */
> +    __virtio64 add_data_addr; /* additional auth data guest address */
> +};
> +
> +struct virtio_crypto_aead_data_req {
> +    /* Device-readable part */
> +    struct virtio_crypto_aead_para para;
> +    struct virtio_crypto_aead_output odata;
> +    /* Device-writable part */
> +    struct virtio_crypto_aead_input idata;
> +};
> +\end{lstlisting}
> +
> +Each data request uses virtio_crypto_aead_data_req structure to store 
> informations,
> +which are used to execute one CIPHER operation. The request only occupies 
> one entry
> +of the Vring descriptor table in virtio crypto device's dataq, which improves
> +the throughput of data transferring for AEAD service, so that the virtio 
> crypto
> +device CAN get the better result of acceleration.
> +
> +In the first virtio_crypto_aead_para structure, \field{iv_len} specifics the 
> length of initialization vector,
> +\field{aad_len} specifics the length of additional authentication data, 
> \field{src_data_len} specifics the
> +length of source data, \field{dst_data_len} specifics the length of 
> destination data.
> +
> +In the following virtio_crypto_aead_input structure, \field{dst_data_addr} 
> specifics destination
> +data guest physical address which is used to store the result of CIPHER 
> operation. \field{digest_result_addr} specifics
> +digest result guest physical address which is used to store the result of 
> HASH/MAC operation. \field{status} special
> +the status of AEAD operation, See \ref{sec:Device Types / Crypto Device / 
> Device Operation / Control Virtqueue / Session operation /
> +Session operation: create session / Device Requirements: Session operation: 
> create session}. 
> +
> +In the virtio_crypto_aead_output structure, \field{iv_addr} specifics guest 
> physical address of initialization vector,
> +\field{src_data_addr} specifics source data guest physical address, 
> \field{add_data_addr} specifics the guest physical address
> +of additional authentication data.
> +
> +The addresses and length CAN determine the specific content in the guest 
> memory.
> +
> +Note: The guest memory MUST be guaranteed to be allocated and 
> physically-contiguous
> +pointed by \field{dst_data_addr} and \field{digest_result_addr} in struct 
> virtio_crypto_aead_input, 
> +\field{iv_addr}, \field{add_data_addr} and \field{src_data_addr} in struct 
> virtio_crypto_aead_output.
> +
> +\drivernormative{\subparagraph}{AEAD Service Encryption}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / AEAD Service Operation / Device Requirements: 
> AEAD Service Encryption}
> +
> +Refer to the symmetric algorithms encryption operation.
> +The driver MUST set the \field{opcode} field to VIRTIO_CRYPTO_AEAD_ENCRYPT.
> +
> +\devicenormative{\subparagraph}{AEAD Service Encryption}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / AEAD Service Operation / Device Requirements: 
> AEAD Service Encryption}
> +
> +Refer to the symmetric algorithms encryption operation.
> +
> +\drivernormative{\subparagraph}{AEAD Service Decryption}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / AEAD Service Operation / Device Requirements: 
> AEAD Service Decryption}
> +
> +Refer to the symmetric algorithms encryption operation.
> +The driver MUST set the \field{opcode} field to VIRTIO_CRYPTO_AEAD_DECRYPT.
> +
> +\devicenormative{\subparagraph}{AEAD Service Decryption}\label{sec:Device 
> Types / Crypto Device / Device
> +Operation / Data Virtqueue / AEAD Service Operation / Device Requirements: 
> AEAD Service Decryption}
> +
> +The device MUST verify and return the verify result to the driver.
> +If the verify result is not correct, VIRTIO_CRYPTO_OP_BADMSG (bad message)
> +MUST be returned the driver.
> \ No newline at end of file
> -- 
> 1.7.12.4
>