rt-thread/components/libc/posix/libdl/dlmodule.c

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/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
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*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2018/08/29 Bernard first version
*/
#include <rthw.h>
#include "dlfcn.h"
#include "dlmodule.h"
#include "dlelf.h"
#ifdef RT_USING_POSIX_FS
#include <stdio.h>
#include <fcntl.h>
#include <unistd.h>
#include <sys/stat.h>
#include <sys/statfs.h>
#endif
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#define DBG_TAG "DLMD"
#define DBG_LVL DBG_INFO
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#include <rtdbg.h> // must after of DEBUG_ENABLE or some other options
static struct rt_module_symtab *_rt_module_symtab_begin = RT_NULL;
static struct rt_module_symtab *_rt_module_symtab_end = RT_NULL;
#if defined(__IAR_SYSTEMS_ICC__) /* for IAR compiler */
#pragma section="RTMSymTab"
#endif
/* set the name of module */
static void _dlmodule_set_name(struct rt_dlmodule *module, const char *path)
{
int size;
struct rt_object *object;
const char *first, *end, *ptr;
object = &(module->parent);
ptr = first = (char *)path;
end = path + rt_strlen(path);
while (*ptr != '\0')
{
if (*ptr == '/')
first = ptr + 1;
if (*ptr == '.')
end = ptr - 1;
ptr ++;
}
size = end - first + 1;
if (size > RT_NAME_MAX) size = RT_NAME_MAX;
rt_strncpy(object->name, first, size);
object->name[size] = '\0';
}
#define RT_MODULE_ARG_MAX 8
static int _rt_module_split_arg(char *cmd, rt_size_t length, char *argv[])
{
int argc = 0;
char *ptr = cmd;
while ((ptr - cmd) < length)
{
/* strip bank and tab */
while ((*ptr == ' ' || *ptr == '\t') && (ptr - cmd) < length)
*ptr++ = '\0';
/* check whether it's the end of line */
if ((ptr - cmd) >= length) break;
/* handle string with quote */
if (*ptr == '"')
{
argv[argc++] = ++ptr;
/* skip this string */
while (*ptr != '"' && (ptr - cmd) < length)
if (*ptr ++ == '\\') ptr ++;
if ((ptr - cmd) >= length) break;
/* skip '"' */
*ptr ++ = '\0';
}
else
{
argv[argc++] = ptr;
while ((*ptr != ' ' && *ptr != '\t') && (ptr - cmd) < length)
ptr ++;
}
if (argc >= RT_MODULE_ARG_MAX) break;
}
return argc;
}
/* invoked by main thread for exit */
static void _dlmodule_exit(void)
{
struct rt_dlmodule *module;
module = dlmodule_self();
if (!module) return; /* not a module thread */
rt_enter_critical();
if (module->stat == RT_DLMODULE_STAT_RUNNING)
{
struct rt_object *object = RT_NULL;
struct rt_list_node *node = RT_NULL;
/* set stat to closing */
module->stat = RT_DLMODULE_STAT_CLOSING;
/* suspend all threads in this module */
for (node = module->object_list.next; node != &(module->object_list); node = node->next)
{
object = rt_list_entry(node, struct rt_object, list);
if ((object->type & ~RT_Object_Class_Static) == RT_Object_Class_Thread)
{
rt_thread_t thread = (rt_thread_t)object;
/* stop timer and suspend thread*/
if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_CLOSE &&
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(thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_INIT)
{
rt_timer_stop(&(thread->thread_timer));
rt_thread_suspend(thread);
}
}
}
}
rt_exit_critical();
return;
}
static void _dlmodule_thread_entry(void* parameter)
{
int argc = 0;
char *argv[RT_MODULE_ARG_MAX];
struct rt_dlmodule *module = (struct rt_dlmodule*)parameter;
if (module == RT_NULL || module->cmd_line == RT_NULL)
/* malloc for module_cmd_line failed. */
return;
if (module->cmd_line)
{
rt_memset(argv, 0x00, sizeof(argv));
argc = _rt_module_split_arg((char *)module->cmd_line, rt_strlen(module->cmd_line), argv);
if (argc == 0) goto __exit;
}
/* set status of module */
module->stat = RT_DLMODULE_STAT_RUNNING;
LOG_D("run main entry: 0x%p with %s",
module->entry_addr,
module->cmd_line);
if (module->entry_addr)
module->entry_addr(argc, argv);
__exit:
_dlmodule_exit();
return ;
}
struct rt_dlmodule *dlmodule_create(void)
{
struct rt_dlmodule *module = RT_NULL;
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module = (struct rt_dlmodule*) rt_object_allocate(RT_Object_Class_Module, "module");
if (module)
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{
module->stat = RT_DLMODULE_STAT_INIT;
/* set initial priority and stack size */
module->priority = RT_THREAD_PRIORITY_MAX - 1;
module->stack_size = 2048;
rt_list_init(&(module->object_list));
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}
return module;
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}
void dlmodule_destroy_subthread(struct rt_dlmodule *module, rt_thread_t thread)
{
RT_ASSERT(thread->parent.module_id== module);
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/* lock scheduler to prevent scheduling in cleanup function. */
rt_enter_critical();
/* remove thread from thread_list (ready or defunct thread list) */
rt_list_remove(&RT_THREAD_LIST_NODE(thread));
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if ((thread->stat & RT_THREAD_STAT_MASK) != RT_THREAD_CLOSE &&
(thread->thread_timer.parent.type == (RT_Object_Class_Static | RT_Object_Class_Timer)))
{
/* release thread timer */
rt_timer_detach(&(thread->thread_timer));
}
/* change stat */
thread->stat = RT_THREAD_CLOSE;
/* invoke thread cleanup */
if (thread->cleanup != RT_NULL)
thread->cleanup(thread);
rt_exit_critical();
#ifdef RT_USING_SIGNALS
rt_thread_free_sig(thread);
#endif
if (thread->parent.type & RT_Object_Class_Static)
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{
/* detach object */
rt_object_detach((rt_object_t)thread);
}
#ifdef RT_USING_HEAP
else
{
/* release thread's stack */
RT_KERNEL_FREE(thread->stack_addr);
/* delete thread object */
rt_object_delete((rt_object_t)thread);
}
#endif
}
rt_err_t dlmodule_destroy(struct rt_dlmodule* module)
{
int i;
RT_DEBUG_NOT_IN_INTERRUPT;
/* check parameter */
if (module == RT_NULL)
return -RT_ERROR;
/* can not destroy a running module */
if (module->stat == RT_DLMODULE_STAT_RUNNING)
return -RT_EBUSY;
/* do module cleanup */
if (module->cleanup_func)
{
rt_enter_critical();
module->cleanup_func(module);
rt_exit_critical();
}
// list_object(&(module->object_list));
/* cleanup for all kernel objects inside module*/
{
struct rt_object *object = RT_NULL;
struct rt_list_node *node = RT_NULL;
/* detach/delete all threads in this module */
for (node = module->object_list.next; node != &(module->object_list); )
{
int object_type;
object = rt_list_entry(node, struct rt_object, list);
object_type = object->type & ~RT_Object_Class_Static;
/* to next node */
node = node->next;
if (object->type & RT_Object_Class_Static)
{
switch (object_type)
{
case RT_Object_Class_Thread:
dlmodule_destroy_subthread(module, (rt_thread_t)object);
break;
#ifdef RT_USING_SEMAPHORE
case RT_Object_Class_Semaphore:
rt_sem_detach((rt_sem_t)object);
break;
#endif
#ifdef RT_USING_MUTEX
case RT_Object_Class_Mutex:
rt_mutex_detach((rt_mutex_t)object);
break;
#endif
#ifdef RT_USING_EVENT
case RT_Object_Class_Event:
rt_event_detach((rt_event_t)object);
break;
#endif
#ifdef RT_USING_MAILBOX
case RT_Object_Class_MailBox:
rt_mb_detach((rt_mailbox_t)object);
break;
#endif
#ifdef RT_USING_MESSAGEQUEUE
case RT_Object_Class_MessageQueue:
rt_mq_detach((rt_mq_t)object);
break;
#endif
#ifdef RT_USING_MEMHEAP
case RT_Object_Class_MemHeap:
rt_memheap_detach((struct rt_memheap*)object);
break;
#endif
#ifdef RT_USING_MEMPOOL
case RT_Object_Class_MemPool:
rt_mp_detach((struct rt_mempool*)object);
break;
#endif
case RT_Object_Class_Timer:
rt_timer_detach((rt_timer_t)object);
break;
default:
LOG_E("Unsupported oject type in module.");
break;
}
}
else
{
switch (object_type)
{
case RT_Object_Class_Thread:
dlmodule_destroy_subthread(module, (rt_thread_t)object);
break;
#ifdef RT_USING_SEMAPHORE
case RT_Object_Class_Semaphore:
rt_sem_delete((rt_sem_t)object);
break;
#endif
#ifdef RT_USING_MUTEX
case RT_Object_Class_Mutex:
rt_mutex_delete((rt_mutex_t)object);
break;
#endif
#ifdef RT_USING_EVENT
case RT_Object_Class_Event:
rt_event_delete((rt_event_t)object);
break;
#endif
#ifdef RT_USING_MAILBOX
case RT_Object_Class_MailBox:
rt_mb_delete((rt_mailbox_t)object);
break;
#endif
#ifdef RT_USING_MESSAGEQUEUE
case RT_Object_Class_MessageQueue:
rt_mq_delete((rt_mq_t)object);
break;
#endif
#ifdef RT_USING_MEMHEAP
/* no delete operation */
#endif
#ifdef RT_USING_MEMPOOL
case RT_Object_Class_MemPool:
rt_mp_delete((struct rt_mempool*)object);
break;
#endif
case RT_Object_Class_Timer:
rt_timer_delete((rt_timer_t)object);
break;
default:
LOG_E("Unsupported oject type in module.");
break;
}
}
}
}
if (module->cmd_line) rt_free(module->cmd_line);
/* release module symbol table */
for (i = 0; i < module->nsym; i ++)
{
rt_free((void *)module->symtab[i].name);
}
if (module->symtab != RT_NULL)
{
rt_free(module->symtab);
}
/* destory module */
rt_free(module->mem_space);
/* delete module object */
rt_object_delete((rt_object_t)module);
return RT_EOK;
}
struct rt_dlmodule *dlmodule_self(void)
{
rt_thread_t tid;
struct rt_dlmodule *ret = RT_NULL;
tid = rt_thread_self();
if (tid)
{
ret = (struct rt_dlmodule*) tid->parent.module_id;
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}
return ret;
}
/*
* Compatible with old API
*/
struct rt_dlmodule *rt_module_self(void)
{
return dlmodule_self();
}
struct rt_dlmodule* dlmodule_load(const char* filename)
{
#ifdef RT_USING_POSIX_FS
int fd = -1, length = 0;
#endif
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rt_err_t ret = RT_EOK;
rt_uint8_t *module_ptr = RT_NULL;
struct rt_dlmodule *module = RT_NULL;
#ifdef RT_USING_POSIX_FS
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fd = open(filename, O_RDONLY, 0);
if (fd >= 0)
{
length = lseek(fd, 0, SEEK_END);
lseek(fd, 0, SEEK_SET);
if (length == 0) goto __exit;
module_ptr = (uint8_t*) rt_malloc (length);
if (!module_ptr) goto __exit;
if (read(fd, module_ptr, length) != length)
goto __exit;
/* close file and release fd */
close(fd);
fd = -1;
}
else
{
goto __exit;
}
#endif
if (!module_ptr) goto __exit;
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/* check ELF header */
if (rt_memcmp(elf_module->e_ident, RTMMAG, SELFMAG) != 0 &&
rt_memcmp(elf_module->e_ident, ELFMAG, SELFMAG) != 0)
{
rt_kprintf("Module: magic error\n");
goto __exit;
}
/* check ELF class */
if ((elf_module->e_ident[EI_CLASS] != ELFCLASS32)&&(elf_module->e_ident[EI_CLASS] != ELFCLASS64))
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{
rt_kprintf("Module: ELF class error\n");
goto __exit;
}
module = dlmodule_create();
if (!module) goto __exit;
/* set the name of module */
_dlmodule_set_name(module, filename);
LOG_D("rt_module_load: %.*s", RT_NAME_MAX, module->parent.name);
if (elf_module->e_type == ET_REL)
{
ret = dlmodule_load_relocated_object(module, module_ptr);
}
else if (elf_module->e_type == ET_DYN)
{
ret = dlmodule_load_shared_object(module, module_ptr);
}
else
{
rt_kprintf("Module: unsupported elf type\n");
goto __exit;
}
/* check return value */
if (ret != RT_EOK) goto __exit;
/* release module data */
rt_free(module_ptr);
/* increase module reference count */
module->nref ++;
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/* deal with cache */
#ifdef RT_USING_CACHE
rt_hw_cpu_dcache_ops(RT_HW_CACHE_FLUSH, module->mem_space, module->mem_size);
rt_hw_cpu_icache_ops(RT_HW_CACHE_INVALIDATE, module->mem_space, module->mem_size);
#endif
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/* set module initialization and cleanup function */
module->init_func = dlsym(module, "module_init");
module->cleanup_func = dlsym(module, "module_cleanup");
module->stat = RT_DLMODULE_STAT_INIT;
/* do module initialization */
if (module->init_func)
{
module->init_func(module);
}
return module;
__exit:
#ifdef RT_USING_POSIX_FS
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if (fd >= 0) close(fd);
#endif
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if (module_ptr) rt_free(module_ptr);
if (module) dlmodule_destroy(module);
return RT_NULL;
}
struct rt_dlmodule* dlmodule_exec(const char* pgname, const char* cmd, int cmd_size)
{
struct rt_dlmodule *module = RT_NULL;
module = dlmodule_load(pgname);
if (module)
{
if (module->entry_addr)
{
/* exec this module */
rt_thread_t tid;
module->cmd_line = rt_strdup(cmd);
/* check stack size and priority */
if (module->priority > RT_THREAD_PRIORITY_MAX) module->priority = RT_THREAD_PRIORITY_MAX - 1;
if (module->stack_size < 2048 || module->stack_size > (1024 * 32)) module->stack_size = 2048;
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tid = rt_thread_create(module->parent.name, _dlmodule_thread_entry, (void*)module,
module->stack_size, module->priority, 10);
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if (tid)
{
tid->parent.module_id= module;
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module->main_thread = tid;
rt_thread_startup(tid);
}
else
{
/* destory dl module */
dlmodule_destroy(module);
module = RT_NULL;
}
}
}
return module;
}
#if defined(RT_USING_CUSTOM_DLMODULE)
struct rt_dlmodule* dlmodule_load_custom(const char* filename, struct rt_dlmodule_ops* ops)
{
#ifdef RT_USING_POSIX_FS
int fd = -1, length = 0;
#endif
rt_err_t ret = RT_EOK;
rt_uint8_t *module_ptr = RT_NULL;
struct rt_dlmodule *module = RT_NULL;
if (ops)
{
RT_ASSERT(ops->load);
RT_ASSERT(ops->unload);
module_ptr = ops->load(filename);
}
#ifdef RT_USING_POSIX_FS
else
{
fd = open(filename, O_RDONLY, 0);
if (fd >= 0)
{
length = lseek(fd, 0, SEEK_END);
lseek(fd, 0, SEEK_SET);
if (length == 0) goto __exit;
module_ptr = (uint8_t*) rt_malloc (length);
if (!module_ptr) goto __exit;
if (read(fd, module_ptr, length) != length)
goto __exit;
/* close file and release fd */
close(fd);
fd = -1;
}
else
{
goto __exit;
}
}
#endif
if (!module_ptr) goto __exit;
/* check ELF header */
if (rt_memcmp(elf_module->e_ident, RTMMAG, SELFMAG) != 0 &&
rt_memcmp(elf_module->e_ident, ELFMAG, SELFMAG) != 0)
{
rt_kprintf("Module: magic error\n");
goto __exit;
}
/* check ELF class */
if (elf_module->e_ident[EI_CLASS] != ELFCLASS32)
{
rt_kprintf("Module: ELF class error\n");
goto __exit;
}
module = dlmodule_create();
if (!module) goto __exit;
/* set the name of module */
_dlmodule_set_name(module, filename);
LOG_D("rt_module_load: %.*s", RT_NAME_MAX, module->parent.name);
if (elf_module->e_type == ET_REL)
{
ret = dlmodule_load_relocated_object(module, module_ptr);
}
else if (elf_module->e_type == ET_DYN)
{
ret = dlmodule_load_shared_object(module, module_ptr);
}
else
{
rt_kprintf("Module: unsupported elf type\n");
goto __exit;
}
/* check return value */
if (ret != RT_EOK) goto __exit;
/* release module data */
if (ops)
{
ops->unload(module_ptr);
}
else
{
rt_free(module_ptr);
}
/* increase module reference count */
module->nref ++;
/* deal with cache */
#ifdef RT_USING_CACHE
rt_hw_cpu_dcache_ops(RT_HW_CACHE_FLUSH, module->mem_space, module->mem_size);
rt_hw_cpu_icache_ops(RT_HW_CACHE_INVALIDATE, module->mem_space, module->mem_size);
#endif
/* set module initialization and cleanup function */
module->init_func = dlsym(module, "module_init");
module->cleanup_func = dlsym(module, "module_cleanup");
module->stat = RT_DLMODULE_STAT_INIT;
/* do module initialization */
if (module->init_func)
{
module->init_func(module);
}
return module;
__exit:
#ifdef RT_USING_POSIX_FS
if (fd >= 0) close(fd);
#endif
if (module_ptr)
{
if (ops)
{
ops->unload(module_ptr);
}
else
{
rt_free(module_ptr);
}
}
if (module) dlmodule_destroy(module);
return RT_NULL;
}
struct rt_dlmodule* dlmodule_exec_custom(const char* pgname, const char* cmd, int cmd_size, struct rt_dlmodule_ops* ops)
{
struct rt_dlmodule *module = RT_NULL;
module = dlmodule_load_custom(pgname, ops);
if (module)
{
if (module->entry_addr)
{
/* exec this module */
rt_thread_t tid;
module->cmd_line = rt_strdup(cmd);
/* check stack size and priority */
if (module->priority > RT_THREAD_PRIORITY_MAX) module->priority = RT_THREAD_PRIORITY_MAX - 1;
if (module->stack_size < 2048 || module->stack_size > (1024 * 32)) module->stack_size = 2048;
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tid = rt_thread_create(module->parent.name, _dlmodule_thread_entry, (void*)module,
module->stack_size, module->priority, 10);
if (tid)
{
tid->parent.module_id= module;
module->main_thread = tid;
rt_thread_startup(tid);
}
else
{
/* destory dl module */
dlmodule_destroy(module);
module = RT_NULL;
}
}
}
return module;
}
#endif
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void dlmodule_exit(int ret_code)
{
rt_thread_t thread;
struct rt_dlmodule *module;
module = dlmodule_self();
if (!module) return;
/* disable scheduling */
rt_enter_critical();
/* module is not running */
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if (module->stat != RT_DLMODULE_STAT_RUNNING)
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{
/* restore scheduling */
rt_exit_critical();
return;
}
/* set return code */
module->ret_code = ret_code;
/* do exit for this module */
_dlmodule_exit();
/* the stat of module was changed to CLOSING in _dlmodule_exit */
thread = module->main_thread;
if ((thread->stat & RT_THREAD_STAT_MASK) == RT_THREAD_CLOSE)
{
/* main thread already closed */
rt_exit_critical();
return ;
}
/* delete thread: insert to defunct thread list */
rt_thread_delete(thread);
/* enable scheduling */
rt_exit_critical();
}
rt_uint32_t dlmodule_symbol_find(const char *sym_str)
{
/* find in kernel symbol table */
struct rt_module_symtab *index;
for (index = _rt_module_symtab_begin; index != _rt_module_symtab_end; index ++)
{
if (rt_strcmp(index->name, sym_str) == 0)
return (rt_uint32_t)index->addr;
}
return 0;
}
int rt_system_dlmodule_init(void)
{
#if defined(__GNUC__) && !defined(__CC_ARM)
extern int __rtmsymtab_start;
extern int __rtmsymtab_end;
_rt_module_symtab_begin = (struct rt_module_symtab *)&__rtmsymtab_start;
_rt_module_symtab_end = (struct rt_module_symtab *)&__rtmsymtab_end;
#elif defined (__CC_ARM)
extern int RTMSymTab$$Base;
extern int RTMSymTab$$Limit;
_rt_module_symtab_begin = (struct rt_module_symtab *)&RTMSymTab$$Base;
_rt_module_symtab_end = (struct rt_module_symtab *)&RTMSymTab$$Limit;
#elif defined (__IAR_SYSTEMS_ICC__)
_rt_module_symtab_begin = __section_begin("RTMSymTab");
_rt_module_symtab_end = __section_end("RTMSymTab");
#endif
return 0;
}
INIT_COMPONENT_EXPORT(rt_system_dlmodule_init);
/**
* This function will find the specified module.
*
* @param name the name of module finding
*
* @return the module
*/
struct rt_dlmodule *dlmodule_find(const char *name)
{
rt_object_t object;
struct rt_dlmodule *ret = RT_NULL;
object = rt_object_find(name, RT_Object_Class_Module);
if (object)
{
ret = (struct rt_dlmodule*) object;
}
return ret;
}
RTM_EXPORT(dlmodule_find);
int list_symbols(void)
{
extern int __rtmsymtab_start;
extern int __rtmsymtab_end;
/* find in kernel symbol table */
struct rt_module_symtab *index;
for (index = _rt_module_symtab_begin;
index != _rt_module_symtab_end;
index ++)
{
rt_kprintf("%s => 0x%08x\n", index->name, index->addr);
}
return 0;
}
MSH_CMD_EXPORT(list_symbols, list symbols information);
int list_module(void)
{
struct rt_dlmodule *module;
struct rt_list_node *list, *node;
struct rt_object_information *info;
info = rt_object_get_information(RT_Object_Class_Module);
list = &info->object_list;
rt_kprintf("module ref address \n");
rt_kprintf("-------- -------- ------------\n");
for (node = list->next; node != list; node = node->next)
{
module = (struct rt_dlmodule *)(rt_list_entry(node, struct rt_object, list));
rt_kprintf("%-*.*s %-04d 0x%08x\n",
RT_NAME_MAX, RT_NAME_MAX, module->parent.name, module->nref, module->mem_space);
}
return 0;
}
MSH_CMD_EXPORT(list_module, list modules in system);