mirror of
https://github.com/cwyark/ameba-sdk-gcc-make.git
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547 lines
19 KiB
C
Executable file
547 lines
19 KiB
C
Executable file
/******************************************************************************
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*
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* Copyright(c) 2007 - 2011 Realtek Corporation. All rights reserved.
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*
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* This program is free software; you can redistribute it and/or modify it
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* under the terms of version 2 of the GNU General Public License as
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* published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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* more details.
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*
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* You should have received a copy of the GNU General Public License along with
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* this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110, USA
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*
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*
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******************************************************************************/
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#ifndef __OSDEP_SERVICE_H_
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#define __OSDEP_SERVICE_H_
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/* OS dep feature enable */
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#define CONFIG_LITTLE_ENDIAN
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#if defined(CONFIG_PLATFORM_8195A) || defined(CONFIG_PLATFORM_8711B)
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#define CONFIG_PLATFORM_AMEBA_X
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#endif
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#if defined(CONFIG_PLATFORM_8195A)
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#define CONFIG_USE_TCM_HEAP 1 /* USE TCM HEAP */
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#define USE_MUTEX_FOR_SPINLOCK 1
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#endif
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#if defined(CONFIG_PLATFORM_AMEBA_X)
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#define CONFIG_MEM_MONITOR MEM_MONITOR_SIMPLE
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#else
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#define CONFIG_MEM_MONITOR MEM_MONITOR_LEAK
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#endif
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/* Define compilor specific symbol */
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//
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// inline function
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//
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#if defined ( __ICCARM__ )
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#define __inline__ inline
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#define __inline inline
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#define __inline_definition //In dialect C99, inline means that a function's definition is provided
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//only for inlining, and that there is another definition
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//(without inline) somewhere else in the program.
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//That means that this program is incomplete, because if
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//add isn't inlined (for example, when compiling without optimization),
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//then main will have an unresolved reference to that other definition.
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// Do not inline function is the function body is defined .c file and this
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// function will be called somewhere else, otherwise there is compile error
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#elif defined ( __CC_ARM )
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#define __inline__ __inline //__linine__ is not supported in keil compilor, use __inline instead
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#define inline __inline
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#define __inline_definition // for dialect C99
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#elif defined ( __GNUC__ )
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#define __inline__ inline
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#define __inline inline
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#define __inline_definition inline
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#endif
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#include <stdio.h>
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#include "platform_autoconf.h"
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#if defined( PLATFORM_FREERTOS)
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#include "freertos_service.h"
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#elif defined( PLATFORM_ECOS)
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#include "ecos/ecos_service.h"
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#endif
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#define RTW_MAX_DELAY 0xFFFFFFFF
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#define RTW_WAIT_FOREVER 0xFFFFFFFF
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struct timer_list {
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_timerHandle timer_hdl;
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unsigned long data;
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void (*function)(void *);
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};
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typedef thread_return (*thread_func_t)(thread_context context);
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typedef void (*TIMER_FUN)(void *context);
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typedef int (*event_handler_t)(char *buf, int buf_len, int flags, void *user_data);
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#define CONFIG_THREAD_COMM_SEMA
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struct task_struct {
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const char *task_name;
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_thread_hdl_ task; /* I: workqueue thread */
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#ifdef CONFIG_THREAD_COMM_SIGNAL
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const char *name; /* I: workqueue thread name */
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u32 queue_num; /* total signal num */
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u32 cur_queue_num; /* cur signal num should < queue_num */
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#elif defined(CONFIG_THREAD_COMM_SEMA)
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_sema wakeup_sema;
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_sema terminate_sema;
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// _queue work_queue; //TODO
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#endif
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u32 blocked;
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u32 callback_running;
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};
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typedef struct {
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_xqueue event_queue;
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struct task_struct thread;
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}rtw_worker_thread_t;
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typedef struct
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{
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event_handler_t function;
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char *buf;
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int buf_len;
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int flags;
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void *user_data;
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} rtw_event_message_t;
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struct worker_timer_entry {
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struct list_head list;
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_timerHandle timer_hdl;
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rtw_event_message_t message;
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rtw_worker_thread_t *worker_thread;
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u32 timeout;
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};
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#ifdef CONFIG_THREAD_COMM_SIGNAL
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struct work_struct;
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typedef void (*work_func_t)(void *context);
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struct work_struct {
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_list list;
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u32 data;
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work_func_t func;
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void *context;
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struct task_struct *used_wq;
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};
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struct delayed_work {
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struct work_struct work;
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struct timer_list timer;
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};
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#endif
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#ifdef CONFIG_MEM_MONITOR
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//----- ------------------------------------------------------------------
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// Memory Monitor
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//----- ------------------------------------------------------------------
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#define MEM_MONITOR_SIMPLE 0x1
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#define MEM_MONITOR_LEAK 0x2
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#define MEM_MONITOR_FLAG_WIFI_DRV 0x1
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#define MEM_MONITOR_FLAG_WPAS 0x2
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#if CONFIG_MEM_MONITOR & MEM_MONITOR_LEAK
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struct mem_entry {
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struct list_head list;
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int size;
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void *ptr;
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};
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#endif
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void init_mem_monitor(_list *pmem_table, int *used_num);
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void deinit_mem_monitor(_list *pmem_table, int *used_num);
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void add_mem_usage(_list *pmem_table, void *ptr, int size, int *used_num, int flag);
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void del_mem_usage(_list *pmem_table, void *ptr, int *used_num, int flag);
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int get_mem_usage(_list *pmem_table);
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#endif
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/*********************************** OSDEP API *****************************************/
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u8* _rtw_vmalloc(u32 sz);
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u8* _rtw_zvmalloc(u32 sz);
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void _rtw_vmfree(u8 *pbuf, u32 sz);
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u8* _rtw_zmalloc(u32 sz);
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u8* _rtw_malloc(u32 sz);
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void _rtw_mfree(u8 *pbuf, u32 sz);
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#ifdef CONFIG_MEM_MONITOR
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u8* rtw_vmalloc(u32 sz);
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u8* rtw_zvmalloc(u32 sz);
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void rtw_vmfree(u8 *pbuf, u32 sz);
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u8* rtw_zmalloc(u32 sz);
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u8* rtw_malloc(u32 sz);
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void rtw_mfree(u8 *pbuf, u32 sz);
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#else
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#define rtw_vmalloc _rtw_vmalloc
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#define rtw_zvmalloc _rtw_zvmalloc
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#define rtw_vmfree _rtw_vmfree
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#define rtw_zmalloc _rtw_zmalloc
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#define rtw_malloc _rtw_malloc
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#define rtw_mfree _rtw_mfree
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#endif
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#define rtw_free(buf) rtw_mfree((u8 *)buf, 0)
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void* rtw_malloc2d(int h, int w, int size);
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void rtw_mfree2d(void *pbuf, int h, int w, int size);
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void rtw_memcpy(void* dst, void* src, u32 sz);
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int rtw_memcmp(void *dst, void *src, u32 sz);
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void rtw_memset(void *pbuf, int c, u32 sz);
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void rtw_init_listhead(_list *list);
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u32 rtw_is_list_empty(_list *phead);
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void rtw_list_insert_head(_list *plist, _list *phead);
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void rtw_list_insert_tail(_list *plist, _list *phead);
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void rtw_list_delete(_list *plist);
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void rtw_init_sema(_sema *sema, int init_val);
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void rtw_free_sema(_sema *sema);
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void rtw_up_sema(_sema *sema);
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void rtw_up_sema_from_isr(_sema *sema);
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u32 rtw_down_sema(_sema *sema);
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u32 rtw_down_timeout_sema(_sema *sema, u32 timeout);
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void rtw_mutex_init(_mutex *pmutex);
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void rtw_mutex_free(_mutex *pmutex);
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void rtw_mutex_put(_mutex *pmutex);
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void rtw_mutex_get(_mutex *pmutex);
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void rtw_enter_critical(_lock *plock, _irqL *pirqL);
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void rtw_exit_critical(_lock *plock, _irqL *pirqL);
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void rtw_enter_critical_bh(_lock *plock, _irqL *pirqL);
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void rtw_exit_critical_bh(_lock *plock, _irqL *pirqL);
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int rtw_enter_critical_mutex(_mutex *pmutex, _irqL *pirqL);
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void rtw_exit_critical_mutex(_mutex *pmutex, _irqL *pirqL);
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void rtw_spinlock_init(_lock *plock);
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void rtw_spinlock_free(_lock *plock);
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void rtw_spinlock_init(_lock *plock);
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void rtw_spinlock_free(_lock *plock);
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void rtw_spin_lock(_lock *plock);
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void rtw_spin_unlock(_lock *plock);
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void rtw_spinlock_irqsave(_lock *plock, _irqL *irqL);
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void rtw_spinunlock_irqsave(_lock *plock, _irqL *irqL);
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int rtw_init_xqueue( _xqueue* queue, const char* name, u32 message_size, u32 number_of_messages );
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int rtw_push_to_xqueue( _xqueue* queue, void* message, u32 timeout_ms );
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int rtw_pop_from_xqueue( _xqueue* queue, void* message, u32 timeout_ms );
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int rtw_deinit_xqueue( _xqueue* queue );
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void rtw_init_queue(_queue *pqueue);
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void rtw_deinit_queue(_queue *pqueue);
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u32 rtw_is_queue_empty(_queue *pqueue);
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u32 rtw_queue_empty(_queue *pqueue);
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u32 rtw_end_of_queue_search(_list *queue, _list *pelement);
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_list* rtw_get_queue_head(_queue *queue);
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u32 rtw_get_current_time(void);
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u32 rtw_systime_to_ms(u32 systime);
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u32 rtw_systime_to_sec(u32 systime);
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u32 rtw_ms_to_systime(u32 ms);
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u32 rtw_sec_to_systime(u32 sec);
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s32 rtw_get_passing_time_ms(u32 start);
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s32 rtw_get_time_interval_ms(u32 start, u32 end);
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void rtw_msleep_os(int ms);
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void rtw_usleep_os(int us);
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u32 rtw_atoi(u8* s);
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void rtw_mdelay_os(int ms);
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void rtw_udelay_os(int us);
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void rtw_yield_os(void);
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void rtw_init_timer(_timer *ptimer, void *adapter, TIMER_FUN pfunc,void* cntx, const char *name);
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void rtw_set_timer(_timer *ptimer,u32 delay_time);
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u8 rtw_cancel_timer(_timer *ptimer);
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void rtw_del_timer(_timer *ptimer);
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//Atomic integer operations
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void ATOMIC_SET(ATOMIC_T *v, int i);
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int ATOMIC_READ(ATOMIC_T *v);
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void ATOMIC_ADD(ATOMIC_T *v, int i);
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void ATOMIC_SUB(ATOMIC_T *v, int i);
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void ATOMIC_INC(ATOMIC_T *v);
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void ATOMIC_DEC(ATOMIC_T *v);
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int ATOMIC_ADD_RETURN(ATOMIC_T *v, int i);
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int ATOMIC_SUB_RETURN(ATOMIC_T *v, int i);
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int ATOMIC_INC_RETURN(ATOMIC_T *v);
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int ATOMIC_DEC_RETURN(ATOMIC_T *v);
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int ATOMIC_DEC_AND_TEST(ATOMIC_T *v);
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u64 rtw_modular64(u64 x, u64 y);
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int rtw_get_random_bytes(void* dst, u32 size);
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u32 rtw_getFreeHeapSize(void);
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void flush_signals_thread(void);
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void rtw_acquire_wakelock(void);
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void rtw_release_wakelock(void);
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/*********************************** Thread related *****************************************/
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int rtw_create_task(struct task_struct *task, const char *name, u32 stack_size, u32 priority, thread_func_t func, void *thctx);
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void rtw_delete_task(struct task_struct * task);
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void rtw_wakeup_task(struct task_struct *task);
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int rtw_create_worker_thread( rtw_worker_thread_t* worker_thread, u8 priority, u32 stack_size, u32 event_queue_size );
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int rtw_delete_worker_thread( rtw_worker_thread_t* worker_thread );
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#if 0 //TODO
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void rtw_init_delayed_work(struct delayed_work *dwork, work_func_t func, const char *name);
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void rtw_deinit_delayed_work(struct delayed_work *dwork);
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int rtw_queue_delayed_work(struct workqueue_struct *wq, struct delayed_work *dwork, u32 delay, void* context);
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BOOLEAN rtw_cancel_delayed_work(struct delayed_work *dwork);
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#endif
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void rtw_thread_enter(char *name);
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void rtw_thread_exit(void);
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#ifdef PLATFORM_LINUX
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#define rtw_warn_on(condition) WARN_ON(condition)
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#else
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#define rtw_warn_on(condition) do {} while (0)
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#endif
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/*********************************** Timer related *****************************************/
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_timerHandle rtw_timerCreate( const signed char *pcTimerName,
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osdepTickType xTimerPeriodInTicks,
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u32 uxAutoReload,
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void * pvTimerID,
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TIMER_FUN pxCallbackFunction );
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u32 rtw_timerDelete( _timerHandle xTimer,
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osdepTickType xBlockTime );
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u32 rtw_timerIsTimerActive( _timerHandle xTimer );
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u32 rtw_timerStop( _timerHandle xTimer,
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osdepTickType xBlockTime );
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u32 rtw_timerChangePeriod( _timerHandle xTimer,
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osdepTickType xNewPeriod,
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osdepTickType xBlockTime );
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/*********************************** OSDEP API end *****************************************/
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#define LIST_CONTAINOR(ptr, type, member) \
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((type *)((char *)(ptr)-(SIZE_T)((char *)&((type *)ptr)->member - (char *)ptr)))
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#define time_after(a,b) ((long)(b) - (long)(a) < 0)
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#define time_before(a,b) time_after(b,a)
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#define time_after_eq(a,b) ((long)(a) - (long)(b) >= 0)
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#define time_before_eq(a,b) time_after_eq(b,a)
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#define _RND(sz, r) ((((sz)+((r)-1))/(r))*(r))
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#define RND4(x) (((x >> 2) + (((x & 3) == 0) ? 0: 1)) << 2)
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__inline static u32 _RND4(u32 sz)
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{
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u32 val;
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val = ((sz >> 2) + ((sz & 3) ? 1: 0)) << 2;
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return val;
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}
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__inline static u32 _RND8(u32 sz)
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{
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u32 val;
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val = ((sz >> 3) + ((sz & 7) ? 1: 0)) << 3;
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return val;
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}
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__inline static u32 _RND128(u32 sz)
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{
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u32 val;
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val = ((sz >> 7) + ((sz & 127) ? 1: 0)) << 7;
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return val;
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}
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__inline static u32 _RND256(u32 sz)
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{
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u32 val;
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val = ((sz >> 8) + ((sz & 255) ? 1: 0)) << 8;
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return val;
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}
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__inline static u32 _RND512(u32 sz)
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{
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u32 val;
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val = ((sz >> 9) + ((sz & 511) ? 1: 0)) << 9;
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return val;
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}
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__inline static u32 bitshift(u32 bitmask)
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{
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u32 i;
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for (i = 0; i <= 31; i++)
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if (((bitmask>>i) & 0x1) == 1) break;
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return i;
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}
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/* Macros for handling unaligned memory accesses */
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#define RTW_GET_BE16(a) ((u16) (((a)[0] << 8) | (a)[1]))
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#define RTW_PUT_BE16(a, val) \
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do { \
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(a)[0] = ((u16) (val)) >> 8; \
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(a)[1] = ((u16) (val)) & 0xff; \
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} while (0)
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#define RTW_GET_LE16(a) ((u16) (((a)[1] << 8) | (a)[0]))
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#define RTW_PUT_LE16(a, val) \
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do { \
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(a)[1] = ((u16) (val)) >> 8; \
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(a)[0] = ((u16) (val)) & 0xff; \
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} while (0)
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#define RTW_GET_BE24(a) ((((u32) (a)[0]) << 16) | (((u32) (a)[1]) << 8) | \
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((u32) (a)[2]))
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#define RTW_PUT_BE24(a, val) \
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do { \
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(a)[0] = (u8) ((((u32) (val)) >> 16) & 0xff); \
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(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff); \
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(a)[2] = (u8) (((u32) (val)) & 0xff); \
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} while (0)
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#define RTW_GET_BE32(a) ((((u32) (a)[0]) << 24) | (((u32) (a)[1]) << 16) | \
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(((u32) (a)[2]) << 8) | ((u32) (a)[3]))
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#define RTW_PUT_BE32(a, val) \
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do { \
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(a)[0] = (u8) ((((u32) (val)) >> 24) & 0xff); \
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(a)[1] = (u8) ((((u32) (val)) >> 16) & 0xff); \
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(a)[2] = (u8) ((((u32) (val)) >> 8) & 0xff); \
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(a)[3] = (u8) (((u32) (val)) & 0xff); \
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} while (0)
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#define RTW_GET_LE32(a) ((((u32) (a)[3]) << 24) | (((u32) (a)[2]) << 16) | \
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(((u32) (a)[1]) << 8) | ((u32) (a)[0]))
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#define RTW_PUT_LE32(a, val) \
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do { \
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(a)[3] = (u8) ((((u32) (val)) >> 24) & 0xff); \
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(a)[2] = (u8) ((((u32) (val)) >> 16) & 0xff); \
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(a)[1] = (u8) ((((u32) (val)) >> 8) & 0xff); \
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(a)[0] = (u8) (((u32) (val)) & 0xff); \
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} while (0)
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#define RTW_GET_BE64(a) ((((u64) (a)[0]) << 56) | (((u64) (a)[1]) << 48) | \
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(((u64) (a)[2]) << 40) | (((u64) (a)[3]) << 32) | \
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(((u64) (a)[4]) << 24) | (((u64) (a)[5]) << 16) | \
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(((u64) (a)[6]) << 8) | ((u64) (a)[7]))
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#define RTW_PUT_BE64(a, val) \
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do { \
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(a)[0] = (u8) (((u64) (val)) >> 56); \
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(a)[1] = (u8) (((u64) (val)) >> 48); \
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(a)[2] = (u8) (((u64) (val)) >> 40); \
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(a)[3] = (u8) (((u64) (val)) >> 32); \
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(a)[4] = (u8) (((u64) (val)) >> 24); \
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(a)[5] = (u8) (((u64) (val)) >> 16); \
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(a)[6] = (u8) (((u64) (val)) >> 8); \
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(a)[7] = (u8) (((u64) (val)) & 0xff); \
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} while (0)
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#define RTW_GET_LE64(a) ((((u64) (a)[7]) << 56) | (((u64) (a)[6]) << 48) | \
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(((u64) (a)[5]) << 40) | (((u64) (a)[4]) << 32) | \
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(((u64) (a)[3]) << 24) | (((u64) (a)[2]) << 16) | \
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(((u64) (a)[1]) << 8) | ((u64) (a)[0]))
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struct osdep_service_ops {
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u8* (*rtw_vmalloc)(u32 sz);
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u8* (*rtw_zvmalloc)(u32 sz);
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void (*rtw_vmfree)(u8 *pbuf, u32 sz);
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u8* (*rtw_malloc)(u32 sz);
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u8* (*rtw_zmalloc)(u32 sz);
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void (*rtw_mfree)(u8 *pbuf, u32 sz);
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void (*rtw_memcpy)(void* dst, void* src, u32 sz);
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int (*rtw_memcmp)(void *dst, void *src, u32 sz);
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void (*rtw_memset)(void *pbuf, int c, u32 sz);
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void (*rtw_init_sema)(_sema *sema, int init_val);
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void (*rtw_free_sema)(_sema *sema);
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void (*rtw_up_sema)(_sema *sema);
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void (*rtw_up_sema_from_isr)(_sema *sema);
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u32 (*rtw_down_timeout_sema)(_sema *sema, u32 timeout);
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void (*rtw_mutex_init)(_mutex *pmutex);
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void (*rtw_mutex_free)(_mutex *pmutex);
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void (*rtw_mutex_get)(_mutex *pmutex);
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void (*rtw_mutex_put)(_mutex *pmutex);
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void (*rtw_enter_critical)(_lock *plock, _irqL *pirqL);
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void (*rtw_exit_critical)(_lock *plock, _irqL *pirqL);
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void (*rtw_enter_critical_bh)(_lock *plock, _irqL *pirqL);
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void (*rtw_exit_critical_bh)(_lock *plock, _irqL *pirqL);
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int (*rtw_enter_critical_mutex)(_mutex *pmutex, _irqL *pirqL);
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void (*rtw_exit_critical_mutex)(_mutex *pmutex, _irqL *pirqL);
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void (*rtw_spinlock_init)(_lock *plock);
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void (*rtw_spinlock_free)(_lock *plock);
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void (*rtw_spin_lock)(_lock *plock);
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void (*rtw_spin_unlock)(_lock *plock);
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void (*rtw_spinlock_irqsave)(_lock *plock, _irqL *irqL);
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void (*rtw_spinunlock_irqsave)(_lock *plock, _irqL *irqL);
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int (*rtw_init_xqueue)( _xqueue* queue, const char* name, u32 message_size, u32 number_of_messages );
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int (*rtw_push_to_xqueue)( _xqueue* queue, void* message, u32 timeout_ms );
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int (*rtw_pop_from_xqueue)( _xqueue* queue, void* message, u32 timeout_ms );
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|
int (*rtw_deinit_xqueue)( _xqueue* queue );
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|
u32 (*rtw_get_current_time)(void);
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|
u32 (*rtw_systime_to_ms)(u32 systime);
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|
u32 (*rtw_systime_to_sec)(u32 systime);
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|
u32 (*rtw_ms_to_systime)(u32 ms);
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|
u32 (*rtw_sec_to_systime)(u32 sec);
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|
void (*rtw_msleep_os)(int ms);
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|
void (*rtw_usleep_os)(int us);
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|
void (*rtw_mdelay_os)(int ms);
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|
void (*rtw_udelay_os)(int us);
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|
void (*rtw_yield_os)(void);
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|
void (*rtw_init_timer)(_timer *ptimer, void *adapter, TIMER_FUN pfunc,void* cntx, const char *name);
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|
void (*rtw_set_timer)(_timer *ptimer,u32 delay_time);
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|
u8 (*rtw_cancel_timer)(_timer *ptimer);
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|
void (*rtw_del_timer)(_timer *ptimer);
|
|
void (*ATOMIC_SET)(ATOMIC_T *v, int i);
|
|
int (*ATOMIC_READ)(ATOMIC_T *v);
|
|
void (*ATOMIC_ADD)(ATOMIC_T *v, int i);
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|
void (*ATOMIC_SUB)(ATOMIC_T *v, int i);
|
|
void (*ATOMIC_INC)(ATOMIC_T *v);
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|
void (*ATOMIC_DEC)(ATOMIC_T *v);
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|
int (*ATOMIC_ADD_RETURN)(ATOMIC_T *v, int i);
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|
int (*ATOMIC_SUB_RETURN)(ATOMIC_T *v, int i);
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|
int (*ATOMIC_INC_RETURN)(ATOMIC_T *v);
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|
int (*ATOMIC_DEC_RETURN)(ATOMIC_T *v);
|
|
u64 (*rtw_modular64)(u64 x, u64 y);
|
|
int (*rtw_get_random_bytes)(void* dst, u32 size);
|
|
u32 (*rtw_getFreeHeapSize)(void);
|
|
int (*rtw_create_task)(struct task_struct *task, const char *name, u32 stack_size, u32 priority, thread_func_t func, void *thctx);
|
|
void (*rtw_delete_task)(struct task_struct *task);
|
|
void (*rtw_wakeup_task)(struct task_struct *task);
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|
|
|
#if 0 //TODO
|
|
void (*rtw_init_delayed_work)(struct delayed_work *dwork, work_func_t func, const char *name);
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|
void (*rtw_deinit_delayed_work)(struct delayed_work *dwork);
|
|
int (*rtw_queue_delayed_work)(struct workqueue_struct *wq, struct delayed_work *dwork, unsigned long delay, void* context);
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|
BOOLEAN (*rtw_cancel_delayed_work)(struct delayed_work *dwork);
|
|
#endif
|
|
void (*rtw_thread_enter)(char *name);
|
|
void (*rtw_thread_exit)(void);
|
|
_timerHandle (*rtw_timerCreate)( const signed char *pcTimerName,
|
|
osdepTickType xTimerPeriodInTicks,
|
|
u32 uxAutoReload,
|
|
void * pvTimerID,
|
|
TIMER_FUN pxCallbackFunction );
|
|
u32 (*rtw_timerDelete)( _timerHandle xTimer,
|
|
osdepTickType xBlockTime );
|
|
u32 (*rtw_timerIsTimerActive)( _timerHandle xTimer );
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|
u32 (*rtw_timerStop)( _timerHandle xTimer,
|
|
osdepTickType xBlockTime );
|
|
u32 (*rtw_timerChangePeriod)( _timerHandle xTimer,
|
|
osdepTickType xNewPeriod,
|
|
osdepTickType xBlockTime );
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|
|
|
void (*rtw_acquire_wakelock)(void);
|
|
void (*rtw_release_wakelock)(void);
|
|
};
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/*********************************** OSDEP API end *****************************************/
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#endif //#ifndef __OSDEP_SERVICE_H_
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