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#include "module_manager_interna.h"
#include "stellar/utils.h"
#include <dlfcn.h>
#include <stdbool.h>
#include <assert.h>
#include <string.h>
#include "toml/toml.h"
#include "uthash/utlist.h"
/*******************************************
* module manager API *
*******************************************/
struct module_manager *module_manager_new(struct module_hooks mod_hooks[], size_t n_mod, int max_thread_num, const char *toml_path, struct logger *logger)
{
struct module_manager *mod_mgr = CALLOC(struct module_manager, 1);
mod_mgr->config.max_thread_num=max_thread_num;
mod_mgr->config.logger=logger;
if(toml_path)mod_mgr->config.toml_path=strdup(toml_path);
if(mod_hooks==NULL || n_mod==0)return mod_mgr;
mod_mgr->descriptors = CALLOC(struct module_descriptor, n_mod);
mod_mgr->n_descriptor = n_mod;
for (size_t i = 0; i < n_mod; i++)
{
mod_mgr->descriptors[i].hooks = mod_hooks[i];
if (mod_hooks[i].on_instance_init_cb)
{
mod_mgr->descriptors[i].mod = mod_hooks[i].on_instance_init_cb(mod_mgr);
if (module_manager_get_module(mod_mgr, mod_mgr->descriptors[i].mod->name) == NULL)
{
mod_mgr->descriptors[i].initialized = true;
}
else
{
fprintf(stderr, "Module %s already exists\n", mod_mgr->descriptors[i].mod->name);
if (mod_hooks[i].on_instance_exit_cb)
mod_hooks[i].on_instance_exit_cb(mod_mgr, mod_mgr->descriptors[i].mod);
}
}
}
return mod_mgr;
}
struct module_manager *module_manager_new_with_toml(const char *toml_path, int max_thread_num, struct logger *logger)
{
FILE *fp=fopen(toml_path, "r");
if(!fp)return module_manager_new(NULL, 0, max_thread_num, toml_path,logger);
toml_table_t *conf = toml_parse_file(fp, NULL, 0);
fclose(fp);
if(conf==NULL)return module_manager_new(NULL, 0, max_thread_num, toml_path, logger);
toml_array_t* mod_array = toml_array_in(conf, "module");
if(mod_array==NULL)
{
toml_free(conf);
return module_manager_new(NULL, 0, max_thread_num, toml_path, logger);
}
int mod_num = toml_array_nelem(mod_array);
struct module_hooks mod_hooks[mod_num];
memset(mod_hooks, 0, sizeof(mod_hooks));
char *path = NULL;
char *instance_init_cb_name = NULL, *instance_exit_cb_name = NULL, *thread_init_cb_name = NULL,
*thread_exit_cb_name = NULL;
for (int i = 0; i < mod_num; i++)
{
toml_table_t* toml_mod = toml_table_at(mod_array, i);
const char *path_raw = toml_raw_in(toml_mod, "path");
const char *init_func_name_raw = toml_raw_in(toml_mod, "init");
const char *exit_func_name_raw = toml_raw_in(toml_mod, "exit");
const char *thread_init_func_name_raw = toml_raw_in(toml_mod, "thread_init");
const char *thread_exit_func_name_raw = toml_raw_in(toml_mod, "thread_exit");
toml_rtos(path_raw, &path);
void* handle = dlopen(path, RTLD_NOW|RTLD_LAZY|RTLD_GLOBAL);
if(path)FREE(path);
if (!handle)
{
break;
}
toml_rtos(init_func_name_raw, &instance_init_cb_name);
if (instance_init_cb_name)
{
mod_hooks[i].on_instance_init_cb =
(module_on_instance_init_func *)dlsym(handle, instance_init_cb_name);
//TODO: logger error
FREE(instance_init_cb_name);
}
toml_rtos(exit_func_name_raw, &instance_exit_cb_name);
if (instance_exit_cb_name)
{
mod_hooks[i].on_instance_exit_cb =
(module_on_instance_exit_func *)dlsym(handle, instance_exit_cb_name);
FREE(instance_exit_cb_name);
}
toml_rtos(thread_init_func_name_raw, &thread_init_cb_name);
if (thread_init_cb_name)
{
mod_hooks[i].on_thread_init_cb =
(module_on_thread_init_func *)dlsym(handle, thread_init_cb_name);
FREE(thread_init_cb_name);
}
toml_rtos(thread_exit_func_name_raw, &thread_exit_cb_name);
if (thread_exit_cb_name)
{
mod_hooks[i].on_thread_exit_cb =
(module_on_thread_exit_func *)dlsym(handle, thread_exit_cb_name);
FREE(thread_exit_cb_name);
}
}
toml_free(conf);
return module_manager_new(mod_hooks, mod_num, max_thread_num, toml_path, logger);
}
void module_manager_free(struct module_manager *mod_mgr)
{
if(mod_mgr==NULL)return;
if(mod_mgr->config.toml_path)FREE(mod_mgr->config.toml_path);
if (mod_mgr->descriptors)
{
for (int i = 0; i < mod_mgr->n_descriptor; i++)
{
if (mod_mgr->descriptors[i].hooks.on_instance_exit_cb != NULL &&
mod_mgr->descriptors[i].initialized)
{
mod_mgr->descriptors[i].hooks.on_instance_exit_cb(mod_mgr, mod_mgr->descriptors[i].mod);
}
}
FREE(mod_mgr->descriptors);
}
struct polling_node *node, *tmp;
LL_FOREACH_SAFE(mod_mgr->node_list, node, tmp)
{
LL_DELETE(mod_mgr->node_list, node);
FREE(node);
}
FREE(mod_mgr);
return;
}
int module_manager_get_max_thread_num(struct module_manager*mod_mgr)
{
if(mod_mgr==NULL)return -1;
return mod_mgr->config.max_thread_num;
}
struct logger *module_manager_get_logger(struct module_manager *mod_mgr)
{
if(mod_mgr==NULL)return NULL;
return mod_mgr->config.logger;
}
const char *module_manager_get_toml_path(struct module_manager *mod_mgr)
{
if(mod_mgr==NULL)return NULL;
return mod_mgr->config.toml_path;
}
__thread int local_thread_id=-1;
__thread struct mq_runtime *local_mq_rt=NULL;
int module_manager_get_thread_id(struct module_manager* mod_mgr __unused)
{
return local_thread_id;
}
struct mq_runtime *module_manager_get_mq_runtime(struct module_manager *mod_mgr __unused)
{
return local_mq_rt;
}
void module_manager_register_thread(struct module_manager* mod_mgr, int thread_id)
{
local_thread_id=thread_id;
for(int i=0; i<mod_mgr->n_descriptor; i++)
{
if(mod_mgr->descriptors[i].mod == NULL)break;
if(mod_mgr->descriptors[i].hooks.on_thread_init_cb && mod_mgr->descriptors[i].initialized)
{
mod_mgr->descriptors[i].hooks.on_thread_init_cb(mod_mgr, thread_id, mod_mgr->descriptors[i].mod);
}
}
return;
}
void module_manager_unregister_thread(struct module_manager *mod_mgr, int thread_id)
{
assert(local_thread_id==thread_id);
for(int i=0; i<mod_mgr->n_descriptor; i++)
{
if(mod_mgr->descriptors[i].mod == NULL)break;
if(mod_mgr->descriptors[i].hooks.on_thread_exit_cb && mod_mgr->descriptors[i].initialized)
{
mod_mgr->descriptors[i].hooks.on_thread_exit_cb(mod_mgr, thread_id, mod_mgr->descriptors[i].mod);
}
}
local_thread_id=-1;
local_mq_rt=NULL;
return;
}
struct module *module_manager_get_module(struct module_manager *mod_mgr, const char *module_name)
{
if(mod_mgr==NULL || module_name == NULL)return NULL;
if (mod_mgr->descriptors)
{
for(int i=0; i<mod_mgr->n_descriptor; i++)
{
if(mod_mgr->descriptors[i].mod == NULL)continue;
if(strcmp(mod_mgr->descriptors[i].mod->name, module_name)==0 && mod_mgr->descriptors[i].initialized)
{
return mod_mgr->descriptors[i].mod;
}
}
}
return NULL;
}
/*******************************************
* stellar module API *
*******************************************/
struct module *module_new(const char *name, void *ctx)
{
struct module *mod = CALLOC(struct module, 1);
memcpy(mod->name, name, MIN(NAME_MAX, strlen(name)));
mod->ctx=ctx;
return mod;
}
void module_free(struct module *mod)
{
if(mod==NULL)return;
FREE(mod);
return;
}
void * module_get_ctx(struct module *mod)
{
if(mod==NULL)return NULL;
return mod->ctx;
}
void module_set_ctx(struct module *mod, void *ctx)
{
if(mod==NULL)return;
mod->ctx=ctx;
return;
}
const char *module_get_name(struct module* mod)
{
if(mod==NULL)return NULL;
return mod->name;
}
void module_set_name(struct module* mod, const char *name)
{
if(mod==NULL)return;
memcpy(mod->name, name, MIN(NAME_MAX, strlen(name)));
return;
}
/*******************************************
* polling API *
*******************************************/
int module_manager_register_polling_node(struct module_manager *mod_mgr, on_polling_callback *on_polling, void *polling_arg)
{
if(mod_mgr == NULL|| on_polling == NULL)return -1;
struct polling_node *node = CALLOC(struct polling_node, 1);
node->on_polling = on_polling;
node->polling_arg = polling_arg;
LL_APPEND(mod_mgr->node_list, node);
return 0;
}
void module_manager_polling_dispatch(struct module_manager *mod_mgr)
{
if(mod_mgr==NULL)return;
struct polling_node *node;
LL_FOREACH(mod_mgr->node_list, node) {
if (node->on_polling) {
node->on_polling(mod_mgr, node->polling_arg);
}
}
return;
}
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