This set of interfaces puts resource initialization operations into the init2 interface, simplifying the initialization operations when users use the rsa algorithm.
Signed-off-by: Weili Qian qianweili@huawei.com --- include/wd_rsa.h | 28 ++++++++++++ libwd_crypto.map | 3 ++ wd_rsa.c | 109 ++++++++++++++++++++++++++++++++++++++--------- 3 files changed, 121 insertions(+), 19 deletions(-)
diff --git a/include/wd_rsa.h b/include/wd_rsa.h index e16171f..733d0b7 100644 --- a/include/wd_rsa.h +++ b/include/wd_rsa.h @@ -120,6 +120,34 @@ int wd_rsa_init(struct wd_ctx_config *config, struct wd_sched *sched); */ void wd_rsa_uninit(void);
+/** + * wd_rsa_init2_() - A simplify interface to initializate rsa. + * This interface keeps most functions of + * wd_rsa_init(). Users just need to descripe the deployment of + * business scenarios. Then the initialization will request appropriate + * resources to support the business scenarios. + * To make the initializate simpler, ctx_params support set NULL. + * And then the function will set them as default. + * Please do not use this interface with wd_rsa_init() together, or + * some resources may be leak. + * + * @alg: The algorithm users want to use. + * @sched_type: The scheduling type users want to use. + * @task_type: Reserved. + * @ctx_params: The ctxs resources users want to use. Include per operation + * type ctx numbers and business process run numa. + * + * Return 0 if succeed and others if fail. + */ +int wd_rsa_init2_(char *alg, __u32 sched_type, int task_type, struct wd_ctx_params *ctx_params); + +#define wd_rsa_init2(alg, sched_type, task_type) \ + wd_rsa_init2_(alg, sched_type, task_type, NULL) + +/** + * wd_rsa_uninit2() - Uninitialise ctx configuration and scheduler. + */ +void wd_rsa_uninit2(void);
/** * wd_rsa_alloc_sess() - Allocate a wd rsa session. diff --git a/libwd_crypto.map b/libwd_crypto.map index 2983f20..871ef36 100644 --- a/libwd_crypto.map +++ b/libwd_crypto.map @@ -81,6 +81,9 @@ global: wd_rsa_set_kg_out_psz; wd_rsa_init; wd_rsa_uninit; + wd_rsa_init2; + wd_rsa_init2_; + wd_rsa_uninit2; wd_rsa_alloc_sess; wd_rsa_free_sess; wd_do_rsa_async; diff --git a/wd_rsa.c b/wd_rsa.c index 0b76c48..99bfe48 100644 --- a/wd_rsa.c +++ b/wd_rsa.c @@ -82,6 +82,17 @@ static struct wd_rsa_setting { } wd_rsa_setting;
struct wd_env_config wd_rsa_env_config; +static struct wd_init_attrs wd_rsa_init_attrs; + +static struct wd_ctx_nums wd_rsa_ctx_num[] = { + {1, 1}, {} +}; + +static struct wd_ctx_params wd_rsa_ctx_params = { + .op_type_num = 1, + .ctx_set_num = wd_rsa_ctx_num, + .bmp = NULL, +};
#ifdef WD_STATIC_DRV static void wd_rsa_set_static_drv(void) @@ -120,30 +131,19 @@ static void wd_rsa_clear_status(void) wd_alg_clear_init(&wd_rsa_setting.status); }
-int wd_rsa_init(struct wd_ctx_config *config, struct wd_sched *sched) +static int wd_rsa_common_init(struct wd_ctx_config *config, struct wd_sched *sched) { void *priv; - bool flag; int ret;
- pthread_atfork(NULL, NULL, wd_rsa_clear_status); - - flag = wd_alg_try_init(&wd_rsa_setting.status); - if (!flag) - return 0; - - ret = wd_init_param_check(config, sched); - if (ret) - goto out_clear_init; - ret = wd_set_epoll_en("WD_RSA_EPOLL_EN", &wd_rsa_setting.config.epoll_en); if (ret < 0) - goto out_clear_init; + return ret;
ret = wd_init_ctx_config(&wd_rsa_setting.config, config); if (ret < 0) - goto out_clear_init; + return ret;
ret = wd_init_sched(&wd_rsa_setting.sched, sched); if (ret < 0) @@ -175,8 +175,6 @@ int wd_rsa_init(struct wd_ctx_config *config, struct wd_sched *sched) goto out_free_priv; }
- wd_alg_set_init(&wd_rsa_setting.status); - return 0;
out_free_priv: @@ -188,12 +186,10 @@ out_clear_sched: wd_clear_sched(&wd_rsa_setting.sched); out_clear_ctx_config: wd_clear_ctx_config(&wd_rsa_setting.config); -out_clear_init: - wd_alg_clear_init(&wd_rsa_setting.status); return ret; }
-void wd_rsa_uninit(void) +static void wd_rsa_common_uninit(void) { if (!wd_rsa_setting.priv) { WD_ERR("invalid: repeat uninit rsa!\n"); @@ -211,6 +207,81 @@ void wd_rsa_uninit(void) /* unset config, sched, driver */ wd_clear_sched(&wd_rsa_setting.sched); wd_clear_ctx_config(&wd_rsa_setting.config); +} + +int wd_rsa_init(struct wd_ctx_config *config, struct wd_sched *sched) +{ + bool flag; + int ret; + + pthread_atfork(NULL, NULL, wd_rsa_clear_status); + + flag = wd_alg_try_init(&wd_rsa_setting.status); + if (!flag) + return 0; + + ret = wd_init_param_check(config, sched); + if (ret) + goto out_clear_init; + + ret = wd_rsa_common_init(config, sched); + if (ret) + goto out_clear_init; + + wd_alg_set_init(&wd_rsa_setting.status); + + return 0; + +out_clear_init: + wd_alg_clear_init(&wd_rsa_setting.status); + return ret; +} + +void wd_rsa_uninit(void) +{ + wd_rsa_common_uninit(); + wd_alg_clear_init(&wd_rsa_setting.status); +} + +int wd_rsa_init2_(char *alg, __u32 sched_type, int task_type, struct wd_ctx_params *ctx_params) +{ + bool flag; + int ret; + + pthread_atfork(NULL, NULL, wd_rsa_clear_status); + + flag = wd_alg_try_init(&wd_rsa_setting.status); + if (!flag) + return 0; + + if (!alg || sched_type > SCHED_POLICY_BUTT || task_type < 0 || task_type > TASK_MAX_TYPE) { + WD_ERR("invalid: input param is wrong!\n"); + ret = -WD_EINVAL; + goto out_clear_init; + } + + wd_rsa_init_attrs.alg = alg; + wd_rsa_init_attrs.sched_type = sched_type; + wd_rsa_init_attrs.ctx_params = ctx_params ? ctx_params : &wd_rsa_ctx_params; + wd_rsa_init_attrs.alg_init = wd_rsa_common_init; + wd_rsa_init_attrs.alg_poll_ctx = wd_rsa_poll_ctx; + ret = wd_alg_attrs_init(&wd_rsa_init_attrs); + if (ret) + goto out_clear_init; + + wd_alg_set_init(&wd_rsa_setting.status); + + return 0; + +out_clear_init: + wd_alg_clear_init(&wd_rsa_setting.status); + return ret; +} + +void wd_rsa_uninit2(void) +{ + wd_rsa_common_uninit(); + wd_alg_attrs_uninit(&wd_rsa_init_attrs); wd_alg_clear_init(&wd_rsa_setting.status); }