The current uadk initialization process is: 1.Call wd_request_ctx() to request ctxs from devices. 2.Call wd_sched_rr_alloc() to create a sched(or some other scheduler alloc function if exits). 3.Initialize the sched. 4.Call wd_<alg>_init() with ctx_config and sched.
Logic is reasonable. But in practice, the step of `wd_ request_ Ctx() ` and `wd_ sched_ rr_alloc() ` are very tedious. This makes it difficult for users to use the interface. One of the main reasons for this is that uadk has made a lot of configurations in the scheduler in order to provide users with better performance. Based on this consideration, the current uadk requires the user to arrange the division of hardware resources according to the device topology during initialization. Therefore, as a high-level interface, this scheme can provide customized scheme configuration for users with deep needs.
All algorithm initialization interfaces have the same input parameters and behavioral logic. The pre-processing of the wd_<alg>_init is actually the configuration of `struct wd_ctx_config` and `struct wd_sched`. Therefore, the next thing to be done is to use limited and easy-to-use input parameters to describe users' requirements on the two input parameters, ensuring that the functions of the new interface init2 are the same as those of init. For ease of description, v1 is used to refer to the existing interface, and v2 is used to refer to the layer of encapsulation.
At present, at least 4 parameters are required to meet the user configuration requirements with the V1 interface function remains unchanged. @alg: The algorithm users wanted. @sched_type: Scheduling type the user wants to use. @task_tp: Reserved. @wd_ctx_params: op_type_num and ctx_set_num means the requested ctx number for each numa node. Due to users may have different requirements for different types of ctx numbers, needs a two-dimensional array as input. The bitmask provided by libnuma. Users can use this parameter to control requesting ctxs devices in the bind NUMA scenario. This parameter is mainly convenient for users to use in the binding cpu scenario. It can avoid resource waste or initialization failure caused by insufficient resources. Libnuma provides a complete operation interface which can be found in numa.h.
Changelog:
v4->v5: - Update wd_comp_init2() and wd_comp_init2_() parameters.
v3->v4: - Resume the wd_comp_init2() parameters and rename it to wd_comp_init2_(). Then add a macro named wd_comp_init2() which has a simpler parameters.
v2->v3: - Update the wd_comp_init2() parameters.
v1->v2: - Update the desdescription about wd_<alg>_init in wd_design.md.
Yang Shen (6): uadk - support algorithms initialization reentry protect uadk/doc - update wd_alg_init support reentrancy uadk - support return error number as pointer uadk - mv some function to header file uadk/comp - add wd_comp_init2 uadk/docs - support a simple interface for initialization
Makefile.am | 4 +- docs/wd_alg_init2.md | 156 ++++++++++++++++++++++++ docs/wd_design.md | 5 +- include/wd.h | 54 ++++++++- include/wd_alg_common.h | 27 +++++ include/wd_comp.h | 28 +++++ include/wd_util.h | 56 +++++++++ wd.c | 97 ++++++++++++--- wd_aead.c | 33 +++-- wd_cipher.c | 35 ++++-- wd_comp.c | 122 +++++++++++++++++-- wd_dh.c | 34 ++++-- wd_digest.c | 33 +++-- wd_ecc.c | 33 +++-- wd_rsa.c | 33 +++-- wd_util.c | 260 +++++++++++++++++++++++++++++++++++++++- 16 files changed, 904 insertions(+), 106 deletions(-) create mode 100644 docs/wd_alg_init2.md
-- 2.24.0