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Boggartfly/rt_linux.h

Created December 1, 2014 06:00
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patched rt_linux.h file for mt7601u driver
Raw
rt_linux.h
/*
*************************************************************************
* Ralink Tech Inc.
* 5F., No.36, Taiyuan St., Jhubei City,
* Hsinchu County 302,
* Taiwan, R.O.C.
*
* (c) Copyright 2002-2010, Ralink Technology, Inc.
*
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
* *
*************************************************************************/
//Patched by Parth Sane
#ifndef __RT_LINUX_H__
#define __RT_LINUX_H__
#include <linux/module.h>
#include <linux/version.h>
#include <linux/kernel.h>
#include <linux/spinlock.h>
#include <linux/init.h>
#include <linux/string.h>
#include <linux/timer.h>
#include <linux/errno.h>
#include <linux/slab.h>
#include <linux/interrupt.h>
#include <linux/pci.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>
#include <linux/skbuff.h>
#include <linux/ethtool.h>
#include <linux/wireless.h>
#include <linux/proc_fs.h>
#include <linux/delay.h>
#include <linux/if_arp.h>
#include <linux/ctype.h>
#include <linux/vmalloc.h>
#ifdef RTMP_USB_SUPPORT
#include <linux/usb.h>
#endif /* RTMP_USB_SUPPORT */
#include <linux/wireless.h>
#include <net/iw_handler.h>
#ifdef INF_PPA_SUPPORT
#include <net/ifx_ppa_api.h>
#include <net/ifx_ppa_hook.h>
#endif /* INF_PPA_SUPPORT */
/* load firmware */
#define __KERNEL_SYSCALLS__
#include <linux/unistd.h>
#include <asm/uaccess.h>
#include <asm/types.h>
#include <asm/unaligned.h> /* for get_unaligned() */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27)
#include <linux/pid.h>
#endif
#ifdef RT_CFG80211_SUPPORT
#if (LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,28))
#include <net/mac80211.h>
#define EXT_BUILD_CHANNEL_LIST /* must define with CRDA */
#else /* LINUX_VERSION_CODE */
#undef RT_CFG80211_SUPPORT
#endif /* LINUX_VERSION_CODE */
#endif /* RT_CFG80211_SUPPORT */
/* must put the definition before include "os/rt_linux_cmm.h" */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,29)
#define KTHREAD_SUPPORT 1
#endif /* LINUX_VERSION_CODE */
#ifdef KTHREAD_SUPPORT
#include <linux/err.h>
#include <linux/kthread.h>
#endif /* KTHREAD_SUPPORT */
#include "os/rt_linux_cmm.h"
#ifdef RT_CFG80211_SUPPORT
#include "cfg80211.h"
#endif /* RT_CFG80211_SUPPORT */
#undef AP_WSC_INCLUDED
#undef STA_WSC_INCLUDED
#undef WSC_INCLUDED
#ifdef CONFIG_STA_SUPPORT
#endif /* CONFIG_STA_SUPPORT */
#ifdef KTHREAD_SUPPORT
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,4)
#error "This kerne version doesn't support kthread!!"
#endif
#endif /* KTHREAD_SUPPORT */
/*#ifdef RTMP_USB_SUPPORT // os abl move */
typedef struct usb_device *PUSB_DEV;
typedef struct urb *purbb_t;
typedef struct usb_ctrlrequest devctrlrequest;
/*#endif */
/***********************************************************************************
* Profile related sections
***********************************************************************************/
#ifdef CONFIG_STA_SUPPORT
#ifdef RTMP_MAC_USB
#define STA_PROFILE_PATH "/etc/Wireless/RT2870STA/RT2870STA.dat"
#define STA_DRIVER_VERSION "3.0.0.3"
#ifdef MULTIPLE_CARD_SUPPORT
#define CARD_INFO_PATH "/etc/Wireless/RT2870STA/RT2870STACard.dat"
#endif /* MULTIPLE_CARD_SUPPORT */
#endif /* RTMP_MAC_USB */
extern const struct iw_handler_def rt28xx_iw_handler_def;
#ifdef SINGLE_SKU_V2
#define SINGLE_SKU_TABLE_FILE_NAME "/etc/Wireless/RT2870STA/SingleSKU.dat"
#endif /* SINGLE_SKU_V2 */
#endif /* CONFIG_STA_SUPPORT */
#ifdef CONFIG_APSTA_MIXED_SUPPORT
extern const struct iw_handler_def rt28xx_ap_iw_handler_def;
#endif /* CONFIG_APSTA_MIXED_SUPPORT */
/***********************************************************************************
* Compiler related definitions
***********************************************************************************/
#undef __inline
#define __inline static inline
#define IN
#define OUT
#define INOUT
#define NDIS_STATUS INT
/***********************************************************************************
* OS Specific definitions and data structures
***********************************************************************************/
typedef struct net_device_stats NET_DEV_STATS;
typedef struct pci_dev * PPCI_DEV;
typedef struct net_device * PNET_DEV;
typedef void * PNDIS_PACKET;
typedef char NDIS_PACKET;
typedef PNDIS_PACKET * PPNDIS_PACKET;
typedef ra_dma_addr_t NDIS_PHYSICAL_ADDRESS;
typedef ra_dma_addr_t * PNDIS_PHYSICAL_ADDRESS;
typedef void * NDIS_HANDLE;
typedef char * PNDIS_BUFFER;
typedef struct ifreq NET_IOCTL;
typedef struct ifreq * PNET_IOCTL;
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27)
typedef struct pid * RTMP_OS_PID;
#else
typedef pid_t RTMP_OS_PID;
#endif
typedef struct semaphore OS_SEM;
typedef int (*HARD_START_XMIT_FUNC)(struct sk_buff *skb, struct net_device *net_dev);
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RT_MOD_INC_USE_COUNT() \
if (!try_module_get(THIS_MODULE)) \
{ \
DBGPRINT(RT_DEBUG_ERROR, ("%s: cannot reserve module\n", __FUNCTION__)); \
return -1; \
}
#define RT_MOD_DEC_USE_COUNT() module_put(THIS_MODULE);
#else
#define RT_MOD_INC_USE_COUNT() MOD_INC_USE_COUNT;
#define RT_MOD_DEC_USE_COUNT() MOD_DEC_USE_COUNT;
#endif
#define RTMP_INC_REF(_A) 0
#define RTMP_DEC_REF(_A) 0
#define RTMP_GET_REF(_A) 0
#if WIRELESS_EXT >= 12
/* This function will be called when query /proc */
struct iw_statistics *rt28xx_get_wireless_stats(
IN struct net_device *net_dev);
#endif
/***********************************************************************************
* Network related constant definitions
***********************************************************************************/
#ifndef IFNAMSIZ
#define IFNAMSIZ 16
#endif
#define ETH_LENGTH_OF_ADDRESS 6
#define NDIS_STATUS_SUCCESS 0x00
#define NDIS_STATUS_FAILURE 0x01
#define NDIS_STATUS_INVALID_DATA 0x02
#define NDIS_STATUS_RESOURCES 0x03
#define NDIS_SET_PACKET_STATUS(_p, _status) do{} while(0)
#define NdisWriteErrorLogEntry(_a, _b, _c, _d) do{} while(0)
/* statistics counter */
#define STATS_INC_RX_PACKETS(_pAd, _dev)
#define STATS_INC_TX_PACKETS(_pAd, _dev)
#define STATS_INC_RX_BYTESS(_pAd, _dev, len)
#define STATS_INC_TX_BYTESS(_pAd, _dev, len)
#define STATS_INC_RX_ERRORS(_pAd, _dev)
#define STATS_INC_TX_ERRORS(_pAd, _dev)
#define STATS_INC_RX_DROPPED(_pAd, _dev)
#define STATS_INC_TX_DROPPED(_pAd, _dev)
/***********************************************************************************
* Ralink Specific network related constant definitions
***********************************************************************************/
#define MIN_NET_DEVICE_FOR_MBSSID 0x00 /*0x00,0x10,0x20,0x30 */
#define MIN_NET_DEVICE_FOR_WDS 0x10 /*0x40,0x50,0x60,0x70 */
#define MIN_NET_DEVICE_FOR_APCLI 0x20
#define MIN_NET_DEVICE_FOR_MESH 0x30
#ifdef CONFIG_STA_SUPPORT
#define MIN_NET_DEVICE_FOR_DLS 0x40
#define MIN_NET_DEVICE_FOR_TDLS 0x50
#endif /* CONFIG_STA_SUPPORT */
#define NET_DEVICE_REAL_IDX_MASK 0x0f /* for each operation mode, we maximum support 15 entities. */
#ifdef CONFIG_STA_SUPPORT
#define NDIS_PACKET_TYPE_DIRECTED 0
#define NDIS_PACKET_TYPE_MULTICAST 1
#define NDIS_PACKET_TYPE_BROADCAST 2
#define NDIS_PACKET_TYPE_ALL_MULTICAST 3
#define NDIS_PACKET_TYPE_PROMISCUOUS 4
#endif /* CONFIG_STA_SUPPORT */
/***********************************************************************************
* OS signaling related constant definitions
***********************************************************************************/
/***********************************************************************************
* OS file operation related data structure definitions
***********************************************************************************/
typedef struct file* RTMP_OS_FD;
typedef struct _OS_FS_INFO_
{
kuid_t fsuid; //was int. Patch applied here
kgid_t fsgid; //was int. Patch applied here
mm_segment_t fs;
} OS_FS_INFO;
#define IS_FILE_OPEN_ERR(_fd) ((_fd == NULL) || IS_ERR((_fd)))
/***********************************************************************************
* OS semaphore related data structure and definitions
***********************************************************************************/
struct os_lock {
spinlock_t lock;
unsigned long flags;
};
typedef spinlock_t OS_NDIS_SPIN_LOCK;
/* */
/* spin_lock enhanced for Nested spin lock */
/* */
#define OS_NdisAllocateSpinLock(__lock) \
{ \
spin_lock_init((spinlock_t *)(__lock)); \
}
#define OS_NdisFreeSpinLock(lock) \
do{}while(0)
#define OS_SEM_LOCK(__lock) \
{ \
spin_lock_bh((spinlock_t *)(__lock)); \
}
#define OS_SEM_UNLOCK(__lock) \
{ \
spin_unlock_bh((spinlock_t *)(__lock)); \
}
/* sample, use semaphore lock to replace IRQ lock, 2007/11/15 */
#ifdef MULTI_CORE_SUPPORT
#define OS_IRQ_LOCK(__lock, __irqflags) \
{ \
__irqflags = 0; \
spin_lock_irqsave((spinlock_t *)(__lock), __irqflags); \
}
#define OS_IRQ_UNLOCK(__lock, __irqflag) \
{ \
spin_unlock_irqrestore((spinlock_t *)(__lock), __irqflag); \
}
#else
#define OS_IRQ_LOCK(__lock, __irqflags) \
{ \
__irqflags = 0; \
spin_lock_bh((spinlock_t *)(__lock)); \
}
#define OS_IRQ_UNLOCK(__lock, __irqflag) \
{ \
spin_unlock_bh((spinlock_t *)(__lock)); \
}
#endif // MULTI_CORE_SUPPORT //
#define OS_INT_LOCK(__lock, __irqflags) \
{ \
spin_lock_irqsave((spinlock_t *)__lock, __irqflags); \
}
#define OS_INT_UNLOCK(__lock, __irqflag) \
{ \
spin_unlock_irqrestore((spinlock_t *)(__lock), ((unsigned long)__irqflag)); \
}
#define OS_NdisAcquireSpinLock OS_SEM_LOCK
#define OS_NdisReleaseSpinLock OS_SEM_UNLOCK
/*
Following lock/unlock definition used for BBP/RF register read/write.
Currently we don't use it to protect MAC register access.
For USB:
we use binary semaphore to do the protection because all register
access done in kernel thread and should allow task go sleep when
in protected status.
For PCI/PCI-E/RBUS:
We use interrupt to do the protection because the register may accessed
in thread/tasklet/timer/inteerupt, so we use interrupt_disable to protect
the access.
*/
#define RTMP_MCU_RW_LOCK(_pAd, _irqflags) \
do{ \
if (_pAd->infType == RTMP_DEV_INF_USB) \
{\
RTMP_SEM_EVENT_WAIT(&_pAd->McuCmdSem, _irqflags);\
}\
else\
{\
RTMP_SEM_LOCK(&_pAd->McuCmdLock, _irqflags);\
}\
}while(0)
#define RTMP_MCU_RW_UNLOCK(_pAd, _irqflags) \
do{ \
if(_pAd->infType == RTMP_DEV_INF_USB)\
{ \
RTMP_SEM_EVENT_UP(&_pAd->McuCmdSem);\
} \
else\
{\
RTMP_SEM_UNLOCK(&_pAd->McuCmdLock, _irqflags);\
}\
}while(0)
#ifndef wait_event_interruptible_timeout
#define __wait_event_interruptible_timeout(wq, condition, ret) \
do { \
wait_queue_t __wait; \
init_waitqueue_entry(&__wait, current); \
add_wait_queue(&wq, &__wait); \
for (;;) { \
set_current_state(TASK_INTERRUPTIBLE); \
if (condition) \
break; \
if (!signal_pending(current)) { \
ret = schedule_timeout(ret); \
if (!ret) \
break; \
continue; \
} \
ret = -ERESTARTSYS; \
break; \
} \
current->state = TASK_RUNNING; \
remove_wait_queue(&wq, &__wait); \
} while (0)
#define wait_event_interruptible_timeout(wq, condition, timeout) \
({ \
long __ret = timeout; \
if (!(condition)) \
__wait_event_interruptible_timeout(wq, condition, __ret); \
__ret; \
})
#endif
#define OS_SEM_EVENT_INIT_LOCKED(_pSema) sema_init((_pSema), 0)
#define OS_SEM_EVENT_INIT(_pSema) sema_init((_pSema), 1)
#define OS_SEM_EVENT_DESTORY(_pSema) do{}while(0)
#define OS_SEM_EVENT_WAIT(_pSema, _status) ((_status) = down_interruptible((_pSema)))
#define OS_SEM_EVENT_UP(_pSema) up(_pSema)
#define RTCMDUp OS_RTCMDUp
#ifdef KTHREAD_SUPPORT
#define RTMP_WAIT_EVENT_INTERRUPTIBLE(_Status, _pTask) \
do { \
wait_event_interruptible(_pTask->kthread_q, \
_pTask->kthread_running || kthread_should_stop()); \
_pTask->kthread_running = FALSE; \
if (kthread_should_stop()) \
{ \
(_Status) = -1; \
break; \
} \
else (_Status) = 0; \
} while(0)
#endif
#ifdef KTHREAD_SUPPORT
#define WAKE_UP(_pTask) \
do{ \
if ((_pTask)->kthread_task) \
{ \
(_pTask)->kthread_running = TRUE; \
wake_up(&(_pTask)->kthread_q); \
} \
}while(0)
#endif
/***********************************************************************************
* OS Memory Access related data structure and definitions
***********************************************************************************/
#define MEM_ALLOC_FLAG (GFP_ATOMIC) /*(GFP_DMA | GFP_ATOMIC) */
#define NdisMoveMemory(Destination, Source, Length) memmove(Destination, Source, Length)
#define NdisCopyMemory(Destination, Source, Length) memcpy(Destination, Source, Length)
#define NdisZeroMemory(Destination, Length) memset(Destination, 0, Length)
#define NdisFillMemory(Destination, Length, Fill) memset(Destination, Fill, Length)
#define NdisCmpMemory(Destination, Source, Length) memcmp(Destination, Source, Length)
#define NdisEqualMemory(Source1, Source2, Length) (!memcmp(Source1, Source2, Length))
#define RTMPEqualMemory(Source1, Source2, Length) (!memcmp(Source1, Source2, Length))
#define MlmeAllocateMemory(_pAd, _ppVA) os_alloc_mem(_pAd, _ppVA, MGMT_DMA_BUFFER_SIZE)
#define MlmeFreeMemory(_pAd, _pVA) os_free_mem(_pAd, _pVA)
#define COPY_MAC_ADDR(Addr1, Addr2) memcpy((Addr1), (Addr2), MAC_ADDR_LEN)
/***********************************************************************************
* OS task related data structure and definitions
***********************************************************************************/
#define RTMP_OS_MGMT_TASK_FLAGS CLONE_VM
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,27)
/*typedef struct pid * THREAD_PID; // no use */
#define THREAD_PID_INIT_VALUE NULL
/* TODO: Use this IOCTL carefully when linux kernel version larger than 2.6.27, because the PID only correct when the user space task do this ioctl itself. */
/*#define RTMP_GET_OS_PID(_x, _y) _x = get_task_pid(current, PIDTYPE_PID); */
#define RT_GET_OS_PID(_x, _y) do{rcu_read_lock(); _x=(ULONG)current->pids[PIDTYPE_PID].pid; rcu_read_unlock();}while(0)
#ifdef OS_ABL_FUNC_SUPPORT
#define RTMP_GET_OS_PID(_a, _b) RtmpOsGetPid(&_a, _b)
#else
#define RTMP_GET_OS_PID(_a, _b) RT_GET_OS_PID(_a, _b)
#endif
#define GET_PID_NUMBER(_v) pid_nr((_v))
#define CHECK_PID_LEGALITY(_pid) if (pid_nr((_pid)) > 0)
#define KILL_THREAD_PID(_A, _B, _C) kill_pid((_A), (_B), (_C))
#else
/*typedef pid_t THREAD_PID; // no use */
#define THREAD_PID_INIT_VALUE -1
#define RT_GET_OS_PID(_x, _pid) _x = _pid
#define RTMP_GET_OS_PID(_x, _pid) _x = _pid
#define GET_PID_NUMBER(_v) (_v)
#define CHECK_PID_LEGALITY(_pid) if ((_pid) >= 0)
#define KILL_THREAD_PID(_A, _B, _C) kill_proc((_A), (_B), (_C))
#endif
#define ATE_KILL_THREAD_PID(PID) KILL_THREAD_PID(PID, SIGTERM, 1)
typedef int (*cast_fn)(void *);
typedef INT (*RTMP_OS_TASK_CALLBACK)(ULONG);
#ifdef WORKQUEUE_BH
typedef struct work_struct OS_NET_TASK_STRUCT;
typedef struct work_struct *POS_NET_TASK_STRUCT;
#else
typedef struct tasklet_struct OS_NET_TASK_STRUCT;
typedef struct tasklet_struct *POS_NET_TASK_STRUCT;
#endif /* WORKQUEUE_BH */
/***********************************************************************************
* Timer related definitions and data structures.
**********************************************************************************/
#define OS_HZ HZ
typedef struct timer_list OS_NDIS_MINIPORT_TIMER;
typedef struct timer_list OS_TIMER;
typedef void (*TIMER_FUNCTION)(unsigned long);
#define OS_WAIT(_time) \
{ \
if (in_interrupt()) \
{\
RTMPusecDelay(_time * 1000);\
}else \
{\
int _i; \
long _loop = ((_time)/(1000/OS_HZ)) > 0 ? ((_time)/(1000/OS_HZ)) : 1;\
wait_queue_head_t _wait; \
init_waitqueue_head(&_wait); \
for (_i=0; _i<(_loop); _i++) \
wait_event_interruptible_timeout(_wait, 0, ONE_TICK); \
}\
}
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RTMP_TIME_AFTER(a,b) \
(typecheck(unsigned long, (unsigned long)a) && \
typecheck(unsigned long, (unsigned long)b) && \
((long)(b) - (long)(a) < 0))
#define RTMP_TIME_AFTER_EQ(a,b) \
(typecheck(unsigned long, (unsigned long)a) && \
typecheck(unsigned long, (unsigned long)b) && \
((long)(a) - (long)(b) >= 0))
#define RTMP_TIME_BEFORE(a,b) RTMP_TIME_AFTER_EQ(b,a)
#else
#define typecheck(type,x) \
({ type __dummy; \
typeof(x) __dummy2; \
(void)(&__dummy == &__dummy2); \
1; \
})
#define RTMP_TIME_AFTER_EQ(a,b) \
(typecheck(unsigned long, (unsigned long)a) && \
typecheck(unsigned long, (unsigned long)b) && \
((long)(a) - (long)(b) >= 0))
#define RTMP_TIME_BEFORE(a,b) RTMP_TIME_AFTER_EQ(b,a)
#define RTMP_TIME_AFTER(a,b) time_after(a, b)
#endif
#define ONE_TICK 1
static inline void NdisGetSystemUpTime(ULONG *time)
{
*time = jiffies;
}
/***********************************************************************************
* OS specific cookie data structure binding to RTMP_ADAPTER
***********************************************************************************/
struct os_cookie {
#ifdef RTMP_MAC_USB
struct usb_device *pUsb_Dev;
#ifdef CONFIG_STA_SUPPORT
struct usb_interface *intf;
#endif /* CONFIG_STA_SUPPORT */
#endif /* RTMP_MAC_USB */
#ifdef WORKQUEUE_BH
UINT32 pAd_va;
#endif /* WORKQUEUE_BH */
RTMP_NET_TASK_STRUCT rx_done_task;
RTMP_NET_TASK_STRUCT cmd_rsp_event_task;
RTMP_NET_TASK_STRUCT mgmt_dma_done_task;
RTMP_NET_TASK_STRUCT ac0_dma_done_task;
#ifdef RALINK_ATE
RTMP_NET_TASK_STRUCT ate_ac0_dma_done_task;
#endif /* RALINK_ATE */
RTMP_NET_TASK_STRUCT ac1_dma_done_task;
RTMP_NET_TASK_STRUCT ac2_dma_done_task;
RTMP_NET_TASK_STRUCT ac3_dma_done_task;
RTMP_NET_TASK_STRUCT hcca_dma_done_task;
RTMP_NET_TASK_STRUCT tbtt_task;
#ifdef UAPSD_SUPPORT
RTMP_NET_TASK_STRUCT uapsd_eosp_sent_task;
#endif /* UAPSD_SUPPORT */
#ifdef RTMP_MAC_USB
RTMP_NET_TASK_STRUCT null_frame_complete_task;
RTMP_NET_TASK_STRUCT pspoll_frame_complete_task;
#endif /* RTMP_MAC_USB */
#ifdef CONFIG_MULTI_CHANNEL
RTMP_NET_TASK_STRUCT hcca_null_frame_complete_task;
#endif /* CONFIG_MULTI_CHANNEL */
RTMP_OS_PID apd_pid; /*802.1x daemon pid */
unsigned long apd_pid_nr;
INT ioctl_if_type;
INT ioctl_if;
};
typedef struct os_cookie * POS_COOKIE;
/***********************************************************************************
* OS debugging and printing related definitions and data structure
***********************************************************************************/
#define PRINT_MAC(addr) \
addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]
#ifdef DBG
extern ULONG RTDebugLevel;
extern ULONG RTDebugFunc;
#define DBGPRINT_RAW(Level, Fmt) \
do{ \
ULONG __gLevel = (Level) & 0xff;\
ULONG __fLevel = ((Level)>>8) & 0xffffff;\
if (__gLevel <= RTDebugLevel) \
{ \
if ((RTDebugFunc == 0) || \
((RTDebugFunc != 0) && (((__fLevel & RTDebugFunc)!= 0) || (__gLevel <= RT_DEBUG_ERROR))))\
printk Fmt; \
} \
}while(0)
#define DBGPRINT(Level, Fmt) DBGPRINT_RAW(Level, Fmt)
#define DBGPRINT_ERR(Fmt) \
{ \
printk("ERROR!!! "); \
printk Fmt; \
}
#define DBGPRINT_S(Status, Fmt) \
{ \
printk Fmt; \
}
#else
#define DBGPRINT(Level, Fmt)
#define DBGPRINT_RAW(Level, Fmt)
#define DBGPRINT_S(Status, Fmt)
#define DBGPRINT_ERR(Fmt)
#endif
#undef ASSERT
#ifdef DBG
#define ASSERT(x) \
{ \
if (!(x)) \
{ \
printk(KERN_WARNING __FILE__ ":%d assert " #x "failed\n", __LINE__); \
} \
}
#else
#define ASSERT(x)
#endif /* DBG */
void hex_dump(char *str, unsigned char *pSrcBufVA, unsigned int SrcBufLen);
/*********************************************************************************************************
The following code are not revised, temporary put it here.
*********************************************************************************************************/
/***********************************************************************************
* Device DMA Access related definitions and data structures.
**********************************************************************************/
ra_dma_addr_t linux_pci_map_single(void *handle, void *ptr, size_t size, int sd_idx, int direction);
void linux_pci_unmap_single(void *handle, ra_dma_addr_t dma_addr, size_t size, int direction);
#define PCI_MAP_SINGLE_DEV(_handle, _ptr, _size, _sd_idx, _dir) \
linux_pci_map_single(_handle, _ptr, _size, _sd_idx, _dir)
#define PCI_UNMAP_SINGLE(_pAd, _ptr, _size, _dir) \
linux_pci_unmap_single(((POS_COOKIE)(_pAd->OS_Cookie))->pci_dev, _ptr, _size, _dir)
#define PCI_ALLOC_CONSISTENT(_pci_dev, _size, _ptr) \
pci_alloc_consistent(_pci_dev, _size, _ptr)
#define PCI_FREE_CONSISTENT(_pci_dev, _size, _virtual_addr, _physical_addr) \
pci_free_consistent(_pci_dev, _size, _virtual_addr, _physical_addr)
#ifdef VENDOR_FEATURE2_SUPPORT
#define DEV_ALLOC_SKB(_pAd, _Pkt, _length) \
_Pkt = dev_alloc_skb(_length); \
if (_Pkt != NULL) {MEM_DBG_PKT_ALLOC_INC(_Pkt);};
#else
#define DEV_ALLOC_SKB(_pAd, _Pkt, _length) \
_Pkt = dev_alloc_skb(_length);
#endif /* VENDOR_FEATURE2_SUPPORT */
/*#define PCI_MAP_SINGLE(_handle, _ptr, _size, _dir) (ULONG)0 */
/*#define PCI_UNMAP_SINGLE(_handle, _ptr, _size, _dir) */
/*
* ULONG
* RTMP_GetPhysicalAddressLow(
* IN NDIS_PHYSICAL_ADDRESS PhysicalAddress);
*/
#define RTMP_GetPhysicalAddressLow(PhysicalAddress) (PhysicalAddress)
/*
* ULONG
* RTMP_GetPhysicalAddressHigh(
* IN NDIS_PHYSICAL_ADDRESS PhysicalAddress);
*/
#define RTMP_GetPhysicalAddressHigh(PhysicalAddress) (0)
/*
* VOID
* RTMP_SetPhysicalAddressLow(
* IN NDIS_PHYSICAL_ADDRESS PhysicalAddress,
* IN ULONG Value);
*/
#define RTMP_SetPhysicalAddressLow(PhysicalAddress, Value) \
PhysicalAddress = Value;
/*
* VOID
* RTMP_SetPhysicalAddressHigh(
* IN NDIS_PHYSICAL_ADDRESS PhysicalAddress,
* IN ULONG Value);
*/
#define RTMP_SetPhysicalAddressHigh(PhysicalAddress, Value)
#define NdisMIndicateStatus(_w, _x, _y, _z)
/***********************************************************************************
* Device Register I/O Access related definitions and data structures.
**********************************************************************************/
#ifdef RTMP_MAC_USB
#define RTMP_IO_FORCE_READ32(_A, _R, _pV) \
RTUSBReadMACRegister((_A), (_R), (PUINT32) (_pV))
#define RTMP_IO_READ32(_A, _R, _pV) \
RTUSBReadMACRegister((_A), (_R), (PUINT32) (_pV))
#define RTMP_IO_FORCE_WRITE32(_A, _R, _V) \
do{\
/*if ((_R) != 0x404)*/ /* TODO:shiang-6590, depends on sw porting guide, don't acccess it now */\
RTUSBWriteMACRegister((_A), (_R), (UINT32) (_V), FALSE); \
}while(0)
#define RTMP_IO_READ8(_A, _R, _pV) \
{ \
}
#define RTMP_IO_WRITE32(_A, _R, _V) \
RTUSBWriteMACRegister((_A), (_R), (UINT32) (_V), FALSE)
#define RTMP_IO_WRITE8(_A, _R, _V) \
{ \
USHORT _Val = _V; \
RTUSBSingleWrite((_A), (_R), (USHORT) (_Val), FALSE); \
}
#define RTMP_IO_WRITE16(_A, _R, _V) \
{ \
RTUSBSingleWrite((_A), (_R), (USHORT) (_V), FALSE); \
}
#define RTMP_SYS_IO_READ32
#define RTMP_SYS_IO_WRITE32
#endif /* RTMP_MAC_USB */
#define RTMP_USB_URB_DATA_GET(__pUrb) ((purbb_t)__pUrb)->context
#define RTMP_USB_URB_STATUS_GET(__pUrb) ((purbb_t)__pUrb)->status
#define RTMP_USB_URB_LEN_GET(__pUrb) ((purbb_t)__pUrb)->actual_length
/***********************************************************************************
* Network Related data structure and marco definitions
***********************************************************************************/
#define PKTSRC_NDIS 0x7f
#define PKTSRC_DRIVER 0x0f
#define RTMP_OS_NETDEV_STATE_RUNNING(_pNetDev) ((_pNetDev)->flags & IFF_UP)
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,29)
#define _RTMP_OS_NETDEV_GET_PRIV(_pNetDev) ((_pNetDev)->ml_priv)
#define _RTMP_OS_NETDEV_SET_PRIV(_pNetDev, _pPriv) ((_pNetDev)->ml_priv = (_pPriv))
#else
#define _RTMP_OS_NETDEV_GET_PRIV(_pNetDev) ((_pNetDev)->priv)
#define _RTMP_OS_NETDEV_SET_PRIV(_pNetDev, _pPriv) ((_pNetDev)->priv = (_pPriv))
#endif
#define RTMP_OS_NETDEV_GET_DEVNAME(_pNetDev) ((_pNetDev)->name)
#define RTMP_OS_NETDEV_GET_PHYADDR(_pNetDev) ((_pNetDev)->dev_addr)
/* Get & Set NETDEV interface hardware type */
#define RTMP_OS_NETDEV_GET_TYPE(_pNetDev) ((_pNetDev)->type)
#define RTMP_OS_NETDEV_SET_TYPE(_pNetDev, _type) ((_pNetDev)->type = (_type))
#define RTMP_OS_NETDEV_SET_TYPE_MONITOR(_pNetDev) RTMP_OS_NETDEV_SET_TYPE(_pNetDev, ARPHRD_IEEE80211_PRISM)
#define RTMP_OS_NETDEV_START_QUEUE(_pNetDev) netif_start_queue((_pNetDev))
#define RTMP_OS_NETDEV_STOP_QUEUE(_pNetDev) netif_stop_queue((_pNetDev))
#define RTMP_OS_NETDEV_WAKE_QUEUE(_pNetDev) netif_wake_queue((_pNetDev))
#define RTMP_OS_NETDEV_CARRIER_OFF(_pNetDev) netif_carrier_off((_pNetDev))
#define QUEUE_ENTRY_TO_PACKET(pEntry) \
(PNDIS_PACKET)(pEntry)
#define PACKET_TO_QUEUE_ENTRY(pPacket) \
(PQUEUE_ENTRY)(pPacket)
#ifdef CONFIG_5VT_ENHANCE
#define BRIDGE_TAG 0x35564252 /* depends on 5VT define in br_input.c */
#endif
#define GET_SG_LIST_FROM_PACKET(_p, _sc) \
rt_get_sg_list_from_packet(_p, _sc)
#define RELEASE_NDIS_PACKET(_pAd, _pPacket, _Status) \
{ \
RTMPFreeNdisPacket(_pAd, _pPacket); \
}
/*
* packet helper
* - convert internal rt packet to os packet or
* os packet to rt packet
*/
#define RTPKT_TO_OSPKT(_p) ((struct sk_buff *)(_p))
#define OSPKT_TO_RTPKT(_p) ((PNDIS_PACKET)(_p))
#define GET_OS_PKT_DATAPTR(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->data)
#define SET_OS_PKT_DATAPTR(_pkt, _dataPtr) \
(RTPKT_TO_OSPKT(_pkt)->data) = (_dataPtr)
#define GET_OS_PKT_LEN(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->len)
#define SET_OS_PKT_LEN(_pkt, _len) \
(RTPKT_TO_OSPKT(_pkt)->len) = (_len)
#define GET_OS_PKT_DATATAIL(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->tail)
#define SET_OS_PKT_DATATAIL(_pkt, _start, _len) \
((RTPKT_TO_OSPKT(_pkt))->tail) = (PUCHAR)((_start) + (_len))
#define GET_OS_PKT_HEAD(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->head)
#define GET_OS_PKT_END(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->end)
#define GET_OS_PKT_NETDEV(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->dev)
#define SET_OS_PKT_NETDEV(_pkt, _pNetDev) \
(RTPKT_TO_OSPKT(_pkt)->dev) = (_pNetDev)
#define GET_OS_PKT_TYPE(_pkt) \
(RTPKT_TO_OSPKT(_pkt))
#define GET_OS_PKT_NEXT(_pkt) \
(RTPKT_TO_OSPKT(_pkt)->next)
#define OS_PKT_CLONED(_pkt) skb_cloned(RTPKT_TO_OSPKT(_pkt))
#define OS_PKT_COPY(_pkt) skb_copy(RTPKT_TO_OSPKT(_pkt), GFP_ATOMIC)
#define OS_PKT_TAIL_ADJUST(_pkt, _removedTagLen) \
SET_OS_PKT_DATATAIL(_pkt, GET_OS_PKT_DATATAIL(_pkt), (-_removedTagLen)); \
GET_OS_PKT_LEN(_pkt) -= _removedTagLen;
#define OS_PKT_HEAD_BUF_EXTEND(_pkt, _offset) \
skb_push(RTPKT_TO_OSPKT(_pkt), _offset)
#define OS_PKT_TAIL_BUF_EXTEND(_pkt, _Len) \
skb_put(RTPKT_TO_OSPKT(_pkt), _Len)
#define OS_PKT_RESERVE(_pkt, _Len) \
skb_reserve(RTPKT_TO_OSPKT(_pkt), _Len)
#define RTMP_OS_PKT_INIT(__pRxPacket, __pNetDev, __pData, __DataSize) \
{ \
PNDIS_PACKET __pRxPkt; \
__pRxPkt = RTPKT_TO_OSPKT(__pRxPacket); \
SET_OS_PKT_NETDEV(__pRxPkt, __pNetDev); \
SET_OS_PKT_DATAPTR(__pRxPkt, __pData); \
SET_OS_PKT_LEN(__pRxPkt, __DataSize); \
SET_OS_PKT_DATATAIL(__pRxPkt, __pData, __DataSize); \
}
#ifdef VENDOR_FEATURE2_SUPPORT
#define OS_PKT_CLONE(_pAd, _pkt, _src, _flag) \
_src = skb_clone(RTPKT_TO_OSPKT(_pkt), _flag); \
if (_src != NULL) OS_NumOfPktAlloc ++;
#else
#define OS_PKT_CLONE(_pAd, _pkt, _src, _flag) \
_src = skb_clone(RTPKT_TO_OSPKT(_pkt), _flag);
#endif /* VENDOR_FEATURE2_SUPPORT */
#define get_unaligned32 get_unaligned
#define get_unalignedlong get_unaligned
#define OS_NTOHS(_Val) \
(ntohs((_Val)))
#define OS_HTONS(_Val) \
(htons((_Val)))
#define OS_NTOHL(_Val) \
(ntohl((_Val)))
#define OS_HTONL(_Val) \
(htonl((_Val)))
#define CB_OFF 10
#define GET_OS_PKT_CB(_p) (RTPKT_TO_OSPKT(_p)->cb)
/* User Priority */
#define RTMP_SET_PACKET_UP(_p, _prio) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+0] = _prio)
#define RTMP_GET_PACKET_UP(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+0])
/* Fragment # */
#define RTMP_SET_PACKET_FRAGMENTS(_p, _num) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+1] = _num)
#define RTMP_GET_PACKET_FRAGMENTS(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+1])
/* 0x0 ~0x7f: TX to AP's own BSS which has the specified AID. if AID>127, set bit 7 in RTMP_SET_PACKET_EMACTAB too. */
/*(this value also as MAC(on-chip WCID) table index) */
/* 0x80~0xff: TX to a WDS link. b0~6: WDS index */
#define RTMP_SET_PACKET_WCID(_p, _wdsidx) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+2] = _wdsidx)
#define RTMP_GET_PACKET_WCID(_p) ((UCHAR)(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+2]))
/* 0xff: PKTSRC_NDIS, others: local TX buffer index. This value affects how to a packet */
#define RTMP_SET_PACKET_SOURCE(_p, _pktsrc) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+3] = _pktsrc)
#define RTMP_GET_PACKET_SOURCE(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+3])
/* RTS/CTS-to-self protection method */
#define RTMP_SET_PACKET_RTS(_p, _num) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+4] = _num)
#define RTMP_GET_PACKET_RTS(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+4])
/* see RTMP_S(G)ET_PACKET_EMACTAB */
/* TX rate index */
#define RTMP_SET_PACKET_TXRATE(_p, _rate) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+5] = _rate)
#define RTMP_GET_PACKET_TXRATE(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+5])
/* From which Interface */
#define RTMP_SET_PACKET_IF(_p, _ifdx) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+6] = _ifdx)
#define RTMP_GET_PACKET_IF(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+6])
#define RTMP_SET_PACKET_NET_DEVICE_MBSSID(_p, _bss) RTMP_SET_PACKET_IF((_p), (_bss))
#define RTMP_SET_PACKET_NET_DEVICE_WDS(_p, _bss) RTMP_SET_PACKET_IF((_p), ((_bss) + MIN_NET_DEVICE_FOR_WDS))
#define RTMP_SET_PACKET_NET_DEVICE_APCLI(_p, _idx) RTMP_SET_PACKET_IF((_p), ((_idx) + MIN_NET_DEVICE_FOR_APCLI))
#define RTMP_SET_PACKET_NET_DEVICE_MESH(_p, _idx) RTMP_SET_PACKET_IF((_p), ((_idx) + MIN_NET_DEVICE_FOR_MESH))
#define RTMP_SET_PACKET_NET_DEVICE_P2P(_p, _idx) RTMP_SET_PACKET_IF((_p), ((_idx) + MIN_NET_DEVICE_FOR_P2P_GO))
#define RTMP_GET_PACKET_NET_DEVICE_MBSSID(_p) RTMP_GET_PACKET_IF((_p))
#define RTMP_GET_PACKET_NET_DEVICE(_p) RTMP_GET_PACKET_IF((_p))
#define RTMP_SET_PACKET_MOREDATA(_p, _morebit) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+7] = _morebit)
#define RTMP_GET_PACKET_MOREDATA(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+7])
#ifdef UAPSD_SUPPORT
/* if we queue a U-APSD packet to any software queue, we will set the U-APSD
flag and its physical queue ID for it */
#define RTMP_SET_PACKET_UAPSD(_p, _flg_uapsd, _que_id) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9] = ((_flg_uapsd<<7) | _que_id))
#define RTMP_SET_PACKET_QOS_NULL(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9] = 0xff)
#define RTMP_GET_PACKET_QOS_NULL(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9])
#define RTMP_SET_PACKET_NON_QOS_NULL(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9] = 0x00)
#define RTMP_GET_PACKET_UAPSD_Flag(_p) (((RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9]) & 0x80) >> 7)
#define RTMP_GET_PACKET_UAPSD_QUE_ID(_p) ((RTPKT_TO_OSPKT(_p)->cb[CB_OFF+9]) & 0x7f)
#define RTMP_SET_PACKET_EOSP(_p, _flg) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+10] = _flg)
#define RTMP_GET_PACKET_EOSP(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+10])
#endif /* UAPSD_SUPPORT */
/* */
/* Sepcific Pakcet Type definition */
/* */
#define RTMP_PACKET_SPECIFIC_CB_OFFSET 11
#define RTMP_PACKET_SPECIFIC_DHCP 0x01
#define RTMP_PACKET_SPECIFIC_EAPOL 0x02
#define RTMP_PACKET_SPECIFIC_IPV4 0x04
#define RTMP_PACKET_SPECIFIC_WAI 0x08
#define RTMP_PACKET_SPECIFIC_VLAN 0x10
#define RTMP_PACKET_SPECIFIC_LLCSNAP 0x20
#define RTMP_PACKET_SPECIFIC_TDLS 0x40
/*Specific */
#define RTMP_SET_PACKET_SPECIFIC(_p, _flg) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] = _flg)
/*DHCP */
#define RTMP_SET_PACKET_DHCP(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_DHCP); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_DHCP); \
}while(0)
#define RTMP_GET_PACKET_DHCP(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_DHCP)
/*EAPOL */
#define RTMP_SET_PACKET_EAPOL(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_EAPOL); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_EAPOL); \
}while(0)
#define RTMP_GET_PACKET_EAPOL(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_EAPOL)
/*WAI */
#define RTMP_SET_PACKET_WAI(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_WAI); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_WAI); \
}while(0)
#define RTMP_GET_PACKET_WAI(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_WAI)
#define RTMP_GET_PACKET_LOWRATE(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & (RTMP_PACKET_SPECIFIC_EAPOL | RTMP_PACKET_SPECIFIC_DHCP | RTMP_PACKET_SPECIFIC_WAI))
/*VLAN */
#define RTMP_SET_PACKET_VLAN(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_VLAN); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_VLAN); \
}while(0)
#define RTMP_GET_PACKET_VLAN(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_VLAN)
/*LLC/SNAP */
#define RTMP_SET_PACKET_LLCSNAP(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_LLCSNAP); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_LLCSNAP); \
}while(0)
#define RTMP_GET_PACKET_LLCSNAP(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_LLCSNAP)
/* IP */
#define RTMP_SET_PACKET_IPV4(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_IPV4); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_IPV4); \
}while(0)
#define RTMP_GET_PACKET_IPV4(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_IPV4)
// TDLS
#define RTMP_SET_PACKET_TDLS(_p, _flg) \
do{ \
if (_flg) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) |= (RTMP_PACKET_SPECIFIC_TDLS); \
else \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11]) &= (~RTMP_PACKET_SPECIFIC_TDLS); \
}while(0)
#define RTMP_GET_PACKET_TDLS(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+11] & RTMP_PACKET_SPECIFIC_TDLS)
/* If this flag is set, it indicates that this EAPoL frame MUST be clear. */
#define RTMP_SET_PACKET_CLEAR_EAP_FRAME(_p, _flg) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+12] = _flg)
#define RTMP_GET_PACKET_CLEAR_EAP_FRAME(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+12])
#ifdef DOT11_VHT_AC
#define MAX_PACKETS_IN_QUEUE 1024 /*(512)*/
#else
#define MAX_PACKETS_IN_QUEUE (512)
#endif /* DOT11_VHT_AC */
/* use bit3 of cb[CB_OFF+16] */
#define RTMP_SET_PACKET_MGMT_PKT(_p, _flg) \
RTPKT_TO_OSPKT(_p)->cb[CB_OFF+16] = (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+16] & 0xF7) | ((_flg & 0x01) << 3);
#define RTMP_GET_PACKET_MGMT_PKT(_p) \
((RTPKT_TO_OSPKT(_p)->cb[CB_OFF+16] & 0x08) >> 3)
/* use bit0 of cb[CB_OFF+20] */
#define RTMP_SET_PACKET_MGMT_PKT_DATA_QUE(_p, _flg) \
RTPKT_TO_OSPKT(_p)->cb[CB_OFF+20] = (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+20] & 0xFE) | (_flg & 0x01);
#define RTMP_GET_PACKET_MGMT_PKT_DATA_QUE(_p) \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+20] & 0x01)
#define RTMP_SET_PACKET_5VT(_p, _flg) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+22] = _flg)
#define RTMP_GET_PACKET_5VT(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+22])
#define RTMP_SET_PACKET_PROTOCOL(_p, _protocol) {\
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+23] = (UINT8)((_protocol) & 0x00ff)); \
(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+24] = (UINT8)(((_protocol) & 0xff00) >> 8)); \
}
#define RTMP_GET_PACKET_PROTOCOL(_p) \
((((UINT16)(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+24]) & 0x00ff) << 8) \
| ((UINT16)(RTPKT_TO_OSPKT(_p)->cb[CB_OFF+23]) & 0x00ff))
#ifdef INF_AMAZON_SE
/* [CB_OFF+28], 1B, Iverson patch for WMM A5-T07 ,WirelessStaToWirelessSta do not bulk out aggregate */
#define RTMP_SET_PACKET_NOBULKOUT(_p, _morebit) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+28] = _morebit)
#define RTMP_GET_PACKET_NOBULKOUT(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+28])
#endif /* INF_AMAZON_SE */
#if defined(CONFIG_CSO_SUPPORT) || defined(CONFIG_RX_CSO_SUPPORT)
#define RTMP_SET_TCP_CHKSUM_FAIL(_p, _flg) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+30] = _flg);
#define RTMP_GET_TCP_CHKSUM_FAIL(_p) (RTPKT_TO_OSPKT(_p)->cb[CB_OFF+30])
#endif /* defined(CONFIG_CSO_SUPPORT) || defined(CONFIG_RX_CSO_SUPPORT) */
/* Max skb->cb = 48B = [CB_OFF+38] */
/***********************************************************************************
* Other function prototypes definitions
***********************************************************************************/
void RTMP_GetCurrentSystemTime(LARGE_INTEGER *time);
int rt28xx_packet_xmit(VOID *skb);
#if LINUX_VERSION_CODE <= 0x20402 /* Red Hat 7.1 */
struct net_device *alloc_netdev(int sizeof_priv, const char *mask, void (*setup)(struct net_device *));
#endif /* LINUX_VERSION_CODE */
INT rt28xx_ioctl(
IN PNET_DEV net_dev,
IN OUT struct ifreq *rq,
IN INT cmd);
extern int ra_mtd_write(int num, loff_t to, size_t len, const u_char *buf);
extern int ra_mtd_read(int num, loff_t from, size_t len, u_char *buf);
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,29)
#define _GET_PAD_FROM_NET_DEV(_pAd, _net_dev) (_pAd) = (_net_dev)->ml_priv;
#else
#define _GET_PAD_FROM_NET_DEV(_pAd, _net_dev) (_pAd) = (_net_dev)->priv;
#endif
#define GET_PAD_FROM_NET_DEV(_pAd, _net_dev) \
_pAd = RTMP_OS_NETDEV_GET_PRIV(_net_dev);
/*#ifdef RTMP_USB_SUPPORT */
/******************************************************************************
USB related definitions
******************************************************************************/
#define RTMP_USB_PKT_COPY(__pNetDev, __pNetPkt, __Len, __pData) \
{ \
memcpy(skb_put(__pNetPkt, __Len), __pData, __Len); \
GET_OS_PKT_NETDEV(__pNetPkt) = __pNetDev; \
RTMP_SET_PACKET_SOURCE(OSPKT_TO_RTPKT(__pNetPkt), PKTSRC_NDIS); \
}
typedef struct usb_device_id USB_DEVICE_ID;
#ifdef INF_AMAZON_SE
#define BULKAGGRE_SIZE 30
#else
#define BULKAGGRE_SIZE 60 /* 100 */
#endif /* INF_AMAZON_SE */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#ifndef OS_ABL_SUPPORT
/*#define RT28XX_PUT_DEVICE usb_put_dev */
#define RTUSB_ALLOC_URB(iso) usb_alloc_urb(iso, GFP_ATOMIC)
#define RTUSB_SUBMIT_URB(pUrb) usb_submit_urb(pUrb, GFP_ATOMIC)
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 5, 0)
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 35)
#define RTUSB_URB_ALLOC_BUFFER(_dev, _size, _dma) usb_alloc_coherent(_dev, _size, GFP_ATOMIC, _dma)
#define RTUSB_URB_FREE_BUFFER(_dev, _size, _addr, _dma) usb_free_coherent(_dev, _size, _addr, _dma)
#else
#define RTUSB_URB_ALLOC_BUFFER(_dev, _size, _dma) usb_buffer_alloc(_dev, _size, GFP_ATOMIC, _dma)
#define RTUSB_URB_FREE_BUFFER(_dev, _size, _addr, _dma) usb_buffer_free(_dev, _size, _addr, _dma)
#endif
#else
#define RTUSB_URB_ALLOC_BUFFER(_dev, _size, _dma) kmalloc(_size, GFP_ATOMIC)
#define RTUSB_URB_FREE_BUFFER(_dev, _size, _addr, _dma) kfree(_addr)
#endif
#else
/*#define RT28XX_PUT_DEVICE rausb_put_dev */
#define RTUSB_ALLOC_URB(iso) rausb_alloc_urb(iso)
#define RTUSB_SUBMIT_URB(pUrb) rausb_submit_urb(pUrb)
#define RTUSB_URB_ALLOC_BUFFER rausb_buffer_alloc
#define RTUSB_URB_FREE_BUFFER rausb_buffer_free
#endif /* OS_ABL_SUPPORT */
#else
#define RT28XX_PUT_DEVICE(dev_p)
#ifndef OS_ABL_SUPPORT
#define RTUSB_ALLOC_URB(iso) usb_alloc_urb(iso)
#define RTUSB_SUBMIT_URB(pUrb) usb_submit_urb(pUrb)
#else
#define RTUSB_ALLOC_URB(iso) rausb_alloc_urb(iso)
#define RTUSB_SUBMIT_URB(pUrb) rausb_submit_urb(pUrb)
#endif /* OS_ABL_SUPPORT */
#define RTUSB_URB_ALLOC_BUFFER(pUsb_Dev, BufSize, pDma_addr) kmalloc(BufSize, GFP_ATOMIC)
#define RTUSB_URB_FREE_BUFFER(pUsb_Dev, BufSize, pTransferBuf, Dma_addr) kfree(pTransferBuf)
#endif
#ifndef OS_ABL_SUPPORT
#define RTUSB_FREE_URB(pUrb) usb_free_urb(pUrb)
#else
#define RTUSB_FREE_URB(pUrb) rausb_free_urb(pUrb)
#endif /* OS_ABL_SUPPORT */
/* unlink urb */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,7)
#ifndef OS_ABL_SUPPORT
#define RTUSB_UNLINK_URB(pUrb) usb_kill_urb(pUrb)
#else
#define RTUSB_UNLINK_URB(pUrb) rausb_kill_urb(pUrb)
#endif /* OS_ABL_SUPPORT */
#else
#define RTUSB_UNLINK_URB(pUrb) usb_unlink_urb(pUrb)
#endif /* LINUX_VERSION_CODE */
/* Prototypes of completion funuc. */
#define RtmpUsbBulkOutDataPacketComplete RTUSBBulkOutDataPacketComplete
#define RtmpUsbBulkOutMLMEPacketComplete RTUSBBulkOutMLMEPacketComplete
#define RtmpUsbBulkOutNullFrameComplete RTUSBBulkOutNullFrameComplete
#ifdef CONFIG_MULTI_CHANNEL
#define RtmpUsbBulkOutHCCANullFrameComplete RTUSBBulkOutHCCANullFrameComplete
#endif /* CONFIG_MULTI_CHANNEL */
#define RtmpUsbBulkOutRTSFrameComplete RTUSBBulkOutRTSFrameComplete
#define RtmpUsbBulkOutPsPollComplete RTUSBBulkOutPsPollComplete
#define RtmpUsbBulkRxComplete RTUSBBulkRxComplete
#define RTUSBBulkCmdRspEventComplete(Status, pURB, pt_regs) RTUSBBulkCmdRspEventComplete(pURB)
#if ((LINUX_VERSION_CODE < KERNEL_VERSION(2, 5, 51)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18)))
#define RTUSBBulkOutDataPacketComplete(Status, pURB, pt_regs) RTUSBBulkOutDataPacketComplete(pURB)
#define RTUSBBulkOutMLMEPacketComplete(Status, pURB, pt_regs) RTUSBBulkOutMLMEPacketComplete(pURB)
#define RTUSBBulkOutNullFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutNullFrameComplete(pURB)
#ifdef CONFIG_MULTI_CHANNEL
#define RTUSBBulkOutHCCANullFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutHCCANullFrameComplete(pURB)
#endif /* CONFIG_MULTI_CHANNEL */
#define RTUSBBulkOutRTSFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutRTSFrameComplete(pURB)
#define RTUSBBulkOutPsPollComplete(Status, pURB, pt_regs) RTUSBBulkOutPsPollComplete(pURB)
#define RTUSBBulkRxComplete(Status, pURB, pt_regs) RTUSBBulkRxComplete(pURB)
#define RTUSBBulkCmdRspEventComplete(Status, pURB, pt_regs) RTUSBBulkCmdRspEventComplete(pURB)
#define USBUploadFWComplete(Status, pURB, pt_regs) USBUploadFWComplete(pURB)
#define USBKickOutCmdComplete(Status, pURB, pt_regs) USBKickOutCmdComplete(pURB)
#else
#define RTUSBBulkOutDataPacketComplete(Status, pURB, pt_regs) RTUSBBulkOutDataPacketComplete(pURB, pt_regs)
#define RTUSBBulkOutMLMEPacketComplete(Status, pURB, pt_regs) RTUSBBulkOutMLMEPacketComplete(pURB, pt_regs)
#define RTUSBBulkOutNullFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutNullFrameComplete(pURB, pt_regs)
#ifdef CONFIG_MULTI_CHANNEL
#define RTUSBBulkOutHCCANullFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutHCCANullFrameComplete(pURB, pt_regs)
#endif /* CONFIG_MULTI_CHANNEL */
#define RTUSBBulkOutRTSFrameComplete(Status, pURB, pt_regs) RTUSBBulkOutRTSFrameComplete(pURB, pt_regs)
#define RTUSBBulkOutPsPollComplete(Status, pURB, pt_regs) RTUSBBulkOutPsPollComplete(pURB, pt_regs)
#define RTUSBBulkRxComplete(Status, pURB, pt_regs) RTUSBBulkRxComplete(pURB, pt_regs)
#define RTUSBBulkCmdRspEventComplete(Status, pURB, pt_regs) RTUSBBulkCmdRspEventComplete(pURB, pt_regs)
#define USBUploadFWComplete(Status, pURB, pt_regs) USBUploadFWComplete(pURB, pt_regs)
#define USBKickOutCmdComplete(Status, pURB, pt_regs) USBKickOutCmdComplete(pURB, pt_regs)
#endif /* */
/*extern void dump_urb(struct urb *purb); */
#define InterlockedIncrement atomic_inc
#define NdisInterlockedIncrement atomic_inc
#define InterlockedDecrement atomic_dec
#define NdisInterlockedDecrement atomic_dec
#define InterlockedExchange atomic_set
typedef void USBHST_STATUS;
typedef INT32 URBCompleteStatus;
typedef struct pt_regs pregs;
USBHST_STATUS RTUSBBulkOutDataPacketComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS RTUSBBulkOutMLMEPacketComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS RTUSBBulkOutNullFrameComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
#ifdef CONFIG_MULTI_CHANNEL
USBHST_STATUS RTUSBBulkOutHCCANullFrameComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
#endif /* CONFIG_MULTI_CHANNEL */
USBHST_STATUS RTUSBBulkOutRTSFrameComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS RTUSBBulkOutPsPollComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS RTUSBBulkRxComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS RTUSBBulkCmdRspEventComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS USBUploadFWComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
USBHST_STATUS USBKickOutCmdComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
/* Fill Bulk URB Macro */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RTUSB_FILL_TX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
usb_fill_bulk_urb(pUrb, pUsb_Dev, usb_sndbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
pUrb->transfer_dma = TransferDma; \
pUrb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP; \
}while(0)
#else
#define RTUSB_FILL_TX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
FILL_BULK_URB(pUrb, pUsb_Dev, usb_sndbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
}while(0)
#endif
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RTUSB_FILL_HTTX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
usb_fill_bulk_urb(pUrb, pUsb_Dev, usb_sndbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
pUrb->transfer_dma = TransferDma; \
pUrb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP; \
}while(0)
#else
#define RTUSB_FILL_HTTX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
FILL_BULK_URB(pUrb, pUsb_Dev, usb_sndbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
}while(0)
#endif
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RTUSB_FILL_RX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
usb_fill_bulk_urb(pUrb, pUsb_Dev, usb_rcvbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
pUrb->transfer_dma = TransferDma; \
pUrb->transfer_flags |= URB_NO_TRANSFER_DMA_MAP; \
}while(0)
/* pRxContext->data_dma + pAd->NextRxBulkInPosition; */
#else
#define RTUSB_FILL_RX_BULK_URB(pUrb, \
pUsb_Dev, \
uEndpointAddress, \
pTransferBuf, \
BufSize, \
Complete, \
pContext, \
TransferDma) \
do{ \
FILL_BULK_URB(pUrb, pUsb_Dev, usb_rcvbulkpipe(pUsb_Dev, uEndpointAddress), \
pTransferBuf, BufSize, Complete, pContext); \
}while(0)
#endif
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#define RTUSB_URB_DMA_MAPPING(pUrb) \
{ \
pUrb->transfer_dma = 0; \
pUrb->transfer_flags &= (~URB_NO_TRANSFER_DMA_MAP); \
}
#else
#define RTUSB_URB_DMA_MAPPING(pUrb)
#endif
#define RTUSB_CONTROL_MSG(pUsb_Dev, uEndpointAddress, Request, RequestType, Value,Index, tmpBuf, TransferBufferLength, timeout, ret) \
do{ \
if (RequestType == DEVICE_VENDOR_REQUEST_OUT) \
ret = USB_CONTROL_MSG(pUsb_Dev, usb_sndctrlpipe(pUsb_Dev, uEndpointAddress), Request, RequestType, Value, Index, tmpBuf, TransferBufferLength, timeout); \
else if (RequestType == DEVICE_VENDOR_REQUEST_IN) \
ret = USB_CONTROL_MSG(pUsb_Dev, usb_rcvctrlpipe(pUsb_Dev, uEndpointAddress), Request, RequestType, Value, Index, tmpBuf, TransferBufferLength, timeout); \
else \
{ \
DBGPRINT(RT_DEBUG_ERROR, ("vendor request direction is failed\n")); \
ret = -1; \
} \
}while(0)
#define rtusb_urb_context context
#define rtusb_urb_status status
#define RTMP_OS_USB_CONTEXT_GET(__pURB) __pURB->rtusb_urb_context
#define RTMP_OS_USB_STATUS_GET(__pURB) __pURB->rtusb_urb_status
#ifndef OS_ABL_SUPPORT
#define USB_CONTROL_MSG usb_control_msg
#else
#define USB_CONTROL_MSG rausb_control_msg
/*extern int rausb_register(struct usb_driver * new_driver); */
/*extern void rausb_deregister(struct usb_driver * driver); */
extern struct urb *rausb_alloc_urb(int iso_packets);
extern void rausb_free_urb(VOID *urb);
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
extern void rausb_put_dev(VOID *dev);
extern struct usb_device *rausb_get_dev(VOID *dev);
#endif /* LINUX_VERSION_CODE */
extern int rausb_submit_urb(VOID *urb);
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,5,0)
#ifndef gfp_t
#define gfp_t INT32
#endif /* gfp_t */
extern void *rausb_buffer_alloc(VOID *dev,
size_t size,
ra_dma_addr_t *dma);
extern void rausb_buffer_free(VOID *dev,
size_t size,
void *addr,
ra_dma_addr_t dma);
#endif /* LINUX_VERSION_CODE */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,7)
extern void rausb_kill_urb(VOID *urb);
#endif /* LINUX_VERSION_CODE */
extern int rausb_control_msg(VOID *dev,
unsigned int pipe,
__u8 request,
__u8 requesttype,
__u16 value,
__u16 index,
void *data,
__u16 size,
int timeout);
#endif /* OS_ABL_SUPPORT */
/*#endif // RTMP_USB_SUPPORT */
#ifdef RALINK_ATE
/******************************************************************************
ATE related definitions
******************************************************************************/
#define ate_print printk
#define ATEDBGPRINT DBGPRINT
#ifdef RTMP_MAC_USB
#ifdef CONFIG_STA_SUPPORT
#undef EEPROM_BIN_FILE_NAME /* Avoid APSTA mode re-define issue */
#define EEPROM_BIN_FILE_NAME "/etc/Wireless/RT2870STA/e2p.bin"
#endif /* CONFIG_STA_SUPPORT */
#endif /* RTMP_MAC_USB */
#ifdef RTMP_USB_SUPPORT
#if ((LINUX_VERSION_CODE < KERNEL_VERSION(2, 5, 51)) || (LINUX_VERSION_CODE > KERNEL_VERSION(2, 6, 18)))
/* Prototypes of completion funuc. */
#define ATE_RTUSBBulkOutDataPacketComplete(Status, pURB, pt_regs) ATE_RTUSBBulkOutDataPacketComplete(pURB)
#else
#define ATE_RTUSBBulkOutDataPacketComplete(Status, pURB, pt_regs) ATE_RTUSBBulkOutDataPacketComplete(pURB, pt_regs)
#endif /* LINUX_VERSION_CODE */
USBHST_STATUS ATE_RTUSBBulkOutDataPacketComplete(URBCompleteStatus Status, purbb_t pURB, pregs *pt_regs);
#endif /* RTMP_USB_SUPPORT */
#endif /* RALINK_ATE */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,31)
INT RtmpOSNetDevOpsAlloc(
IN PVOID *pNetDevOps);
#endif
#define RTMP_OS_MAX_SCAN_DATA_GET() IW_SCAN_MAX_DATA
#include "os/rt_os.h"
#endif /* __RT_LINUX_H__ */
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