Zephyr API Documentation 4.0.0-rc2
A Scalable Open Source RTOS
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Structure encoding session parameters. More...
#include <hash.h>
Data Fields | |
const struct device * | device |
The device driver instance this crypto context relates to. | |
void * | drv_sessn_state |
If the driver supports multiple simultaneously crypto sessions, this will identify the specific driver state this crypto session relates to. | |
hash_op_t | hash_hndlr |
Hash handler set up when the session begins. | |
bool | started |
If it has started a multipart hash operation. | |
uint16_t | flags |
How certain fields are to be interpreted for this session. | |
Structure encoding session parameters.
Refer to comments for individual fields to know the contract in terms of who fills what and when w.r.t begin_session() call.
const struct device* hash_ctx::device |
The device driver instance this crypto context relates to.
Will be populated by the begin_session() API.
void* hash_ctx::drv_sessn_state |
If the driver supports multiple simultaneously crypto sessions, this will identify the specific driver state this crypto session relates to.
Since dynamic memory allocation is not possible, it is suggested that at build time drivers allocate space for the max simultaneous sessions they intend to support. To be populated by the driver on return from begin_session().
uint16_t hash_ctx::flags |
How certain fields are to be interpreted for this session.
(A bitmask of CAP_* below.) To be populated by the app before calling hash_begin_session(). An app can obtain the capability flags supported by a hw/driver by calling crypto_query_hwcaps().
hash_op_t hash_ctx::hash_hndlr |
Hash handler set up when the session begins.
bool hash_ctx::started |
If it has started a multipart hash operation.