//------------------------------------------------------------------------------ // This file contains the definitions of the basic atheros data types. // It is used to map the data types in atheros files to a platform specific // type. // ISC License (ISC) // // Copyright (c) 2004-2010, The Linux Foundation // All rights reserved. // Software was previously licensed under ISC license by Qualcomm Atheros, Inc. // // // // Permission to use, copy, modify, and/or distribute this software for any // purpose with or without fee is hereby granted, provided that the above // copyright notice and this permission notice appear in all copies. // // THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES // WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF // MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR // ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES // WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN // ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF // OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. // // // // Author(s): ="Atheros" //------------------------------------------------------------------------------ #ifndef _OSAPI_LINUX_H_ #define _OSAPI_LINUX_H_ #ifdef __KERNEL__ #include #include #include #include #include #include #include #if LINUX_VERSION_CODE >= KERNEL_VERSION(2, 6, 24) #include #endif /*************************************/ #if LINUX_VERSION_CODE >= KERNEL_VERSION(2,6,0) #include #endif #include #include #include #ifdef KERNEL_2_4 #include #include #endif #include #ifdef __GNUC__ #define __ATTRIB_PACK __attribute__ ((packed)) #define __ATTRIB_PRINTF __attribute__ ((format (printf, 1, 2))) #define __ATTRIB_NORETURN __attribute__ ((noreturn)) #ifndef INLINE #define INLINE __inline__ #endif #else /* Not GCC */ #define __ATTRIB_PACK #define __ATTRIB_PRINTF #define __ATTRIB_NORETURN #ifndef INLINE #define INLINE __inline #endif #endif /* End __GNUC__ */ #define PREPACK #define POSTPACK __ATTRIB_PACK /* * Endianes macros */ #define A_BE2CPU8(x) ntohb(x) #define A_BE2CPU16(x) ntohs(x) #define A_BE2CPU32(x) ntohl(x) #define A_LE2CPU8(x) (x) #define A_LE2CPU16(x) (x) #define A_LE2CPU32(x) (x) #define A_CPU2BE8(x) htonb(x) #define A_CPU2BE16(x) htons(x) #define A_CPU2BE32(x) htonl(x) #define A_MEMCPY(dst, src, len) memcpy((A_UINT8 *)(dst), (src), (len)) #define A_MEMZERO(addr, len) memset(addr, 0, len) #define A_MEMCMP(addr1, addr2, len) memcmp((addr1), (addr2), (len)) #ifdef AR6K_ALLOC_DEBUG #define a_meminfo_add(p, s) __a_meminfo_add(p, s, __func__, __LINE) void __a_meminfo_add(void *ptr, size_t msize, const char *func, int lineno); void a_meminfo_del(void *ptr); void* a_mem_alloc(size_t msize, int type, const char *func, int lineno); void a_mem_free(void *ptr); void a_meminfo_report(int clear); A_BOOL a_meminfo_find(void *ptr); #define A_MALLOC(size) a_mem_alloc((size), GFP_KERNEL, __func__, __LINE__) #define A_MALLOC_NOWAIT(size) a_mem_alloc((size), GFP_ATOMIC, __func__, __LINE__) #define A_FREE(addr) a_mem_free(addr) #define A_FREE_NOWAIT(addr) a_mem_free(addr) #define A_NETIF_RX(skb) do { a_meminfo_del(skb); netif_rx(skb); } while (0) #define A_NETIF_RX_NI(skb) do { a_meminfo_del(skb); netif_rx_ni(skb); } while (0) #define A_MEM_HELPER_INIT(void) #define A_MEM_HELPER_DESTROY(void) #else #define a_meminfo_report(_c) #define A_MALLOC(size) kmalloc((size), GFP_KERNEL) #define A_MALLOC_NOWAIT(size) kmalloc((size), GFP_ATOMIC) #define A_FREE(addr) kfree(addr);addr=NULL; #define A_FREE_NOWAIT(addr) kfree(addr);addr=NULL; #define A_NETIF_RX(skb) netif_rx(skb) #define A_NETIF_RX_NI(skb) netif_rx_ni(skb) #endif #if defined(ANDROID_ENV) && defined(CONFIG_ANDROID_LOGGER) extern unsigned int enablelogcat; extern int android_logger_lv(void* module, int mask); enum logidx { LOG_MAIN_IDX = 0 }; extern int logger_write(const enum logidx idx, const unsigned char prio, const char __kernel * const tag, const char __kernel * const fmt, ...); #define A_ANDROID_PRINTF(mask, module, tags, args...) do { \ if (enablelogcat) \ logger_write(LOG_MAIN_IDX, android_logger_lv(module, mask), tags, args); \ else \ printk(KERN_ALERT args); \ } while (0) #ifdef DEBUG #define A_LOGGER_MODULE_NAME(x) #x #define A_LOGGER(mask, mod, args...) \ A_ANDROID_PRINTF(mask, &GET_ATH_MODULE_DEBUG_VAR_NAME(mod), "ar6k_" A_LOGGER_MODULE_NAME(mod), args); #endif #define A_PRINTF(args...) A_ANDROID_PRINTF(ATH_DEBUG_INFO, NULL, "ar6k_driver", args) #else #define A_LOGGER(mask, mod, args...) printk(KERN_ALERT args) #define A_PRINTF(args...) printk(KERN_ALERT args) #endif /* ANDROID */ #define A_PRINTF_LOG(args...) printk(args) #define A_SPRINTF(buf, args...) sprintf (buf, args) /* Mutual Exclusion */ typedef spinlock_t A_MUTEX_T; #define A_MUTEX_INIT(mutex) spin_lock_init(mutex) #define A_MUTEX_LOCK(mutex) spin_lock_bh(mutex) #define A_MUTEX_UNLOCK(mutex) spin_unlock_bh(mutex) #define A_IS_MUTEX_VALID(mutex) TRUE /* okay to return true, since A_MUTEX_DELETE does nothing */ #define A_MUTEX_DELETE(mutex) /* spin locks are not kernel resources so nothing to free.. */ /* Get current time in ms adding a constant offset (in ms) */ #define A_GET_MS(offset) \ (((jiffies / HZ) * 1000) + (offset)) /* * Timer Functions */ #define A_MDELAY(msecs) mdelay(msecs) typedef struct timer_list A_TIMER; #define A_INIT_TIMER(pTimer, pFunction, pArg) do { \ init_timer(pTimer); \ (pTimer)->function = (pFunction); \ (pTimer)->data = (unsigned long)(pArg); \ } while (0) /* * Start a Timer that elapses after 'periodMSec' milli-seconds * Support is provided for a one-shot timer. The 'repeatFlag' is * ignored. */ #define A_TIMEOUT_MS(pTimer, periodMSec, repeatFlag) do { \ if (repeatFlag) { \ printk("\n" __FILE__ ":%d: Timer Repeat requested\n",__LINE__); \ panic("Timer Repeat"); \ } \ mod_timer((pTimer), jiffies + HZ * (periodMSec) / 1000); \ } while (0) /* * Cancel the Timer. */ #define A_UNTIMEOUT(pTimer) do { \ del_timer((pTimer)); \ } while (0) #define A_DELETE_TIMER(pTimer) do { \ } while (0) /* * Wait Queue related functions */ typedef wait_queue_head_t A_WAITQUEUE_HEAD; #define A_INIT_WAITQUEUE_HEAD(head) init_waitqueue_head(head) #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 /* wait_event_interruptible_timeout */ #define A_WAIT_EVENT_INTERRUPTIBLE_TIMEOUT(head, condition, timeout) do { \ wait_event_interruptible_timeout(head, condition, timeout); \ } while (0) #define A_WAKE_UP(head) wake_up(head) #ifdef DEBUG extern unsigned int panic_on_assert; #define A_ASSERT(expr) \ if (!(expr)) { \ printk(KERN_ALERT"Debug Assert Caught, File %s, Line: %d, Test:%s \n",__FILE__, __LINE__,#expr); \ if (panic_on_assert) panic(#expr); \ } #else #define A_ASSERT(expr) #endif /* DEBUG */ #define A_REQUEST_FIRMWARE(_ppf, _pfile, _dev) request_firmware(_ppf, _pfile, _dev) #define A_RELEASE_FIRMWARE(_pf) release_firmware(_pf) /* * Initialization of the network buffer subsystem */ #define A_NETBUF_INIT() /* * Network buffer queue support */ typedef struct sk_buff_head A_NETBUF_QUEUE_T; #define A_NETBUF_QUEUE_INIT(q) \ a_netbuf_queue_init(q) #define A_NETBUF_ENQUEUE(q, pkt) \ a_netbuf_enqueue((q), (pkt)) #define A_NETBUF_PREQUEUE(q, pkt) \ a_netbuf_prequeue((q), (pkt)) #define A_NETBUF_DEQUEUE(q) \ (a_netbuf_dequeue(q)) #define A_NETBUF_QUEUE_SIZE(q) \ a_netbuf_queue_size(q) #define A_NETBUF_QUEUE_EMPTY(q) \ a_netbuf_queue_empty(q) /* * Network buffer support */ #ifdef AR6K_ALLOC_DEBUG #define A_NETBUF_ALLOC(size) \ a_netbuf_alloc(size, __func__, __LINE__) #define A_NETBUF_ALLOC_RAW(size) \ a_netbuf_alloc_raw(size, __func__, __LINE__) #define A_NETBUF_CHECK(bufPtr) \ a_netbuf_check(bufPtr, __func__, __LINE__) #else #define A_NETBUF_ALLOC(size) \ a_netbuf_alloc(size) #define A_NETBUF_ALLOC_RAW(size) \ a_netbuf_alloc_raw(size) #endif /* AR6K_ALLOC_DEBUG */ #define A_NETBUF_FREE(bufPtr) \ a_netbuf_free(bufPtr) #define A_NETBUF_DATA(bufPtr) \ a_netbuf_to_data(bufPtr) #define A_NETBUF_LEN(bufPtr) \ a_netbuf_to_len(bufPtr) #define A_NETBUF_PUSH(bufPtr, len) \ a_netbuf_push(bufPtr, len) #define A_NETBUF_PUT(bufPtr, len) \ a_netbuf_put(bufPtr, len) #define A_NETBUF_TRIM(bufPtr,len) \ a_netbuf_trim(bufPtr, len) #define A_NETBUF_PULL(bufPtr, len) \ a_netbuf_pull(bufPtr, len) #define A_NETBUF_HEADROOM(bufPtr)\ a_netbuf_headroom(bufPtr) #define A_NETBUF_SETLEN(bufPtr,len) \ a_netbuf_setlen(bufPtr, len) /* Add data to end of a buffer */ #define A_NETBUF_PUT_DATA(bufPtr, srcPtr, len) \ a_netbuf_put_data(bufPtr, srcPtr, len) /* Add data to start of the buffer */ #define A_NETBUF_PUSH_DATA(bufPtr, srcPtr, len) \ a_netbuf_push_data(bufPtr, srcPtr, len) /* Remove data at start of the buffer */ #define A_NETBUF_PULL_DATA(bufPtr, dstPtr, len) \ a_netbuf_pull_data(bufPtr, dstPtr, len) /* Remove data from the end of the buffer */ #define A_NETBUF_TRIM_DATA(bufPtr, dstPtr, len) \ a_netbuf_trim_data(bufPtr, dstPtr, len) /* View data as "size" contiguous bytes of type "t" */ #define A_NETBUF_VIEW_DATA(bufPtr, t, size) \ (t )( ((struct skbuf *)(bufPtr))->data) /* return the beginning of the headroom for the buffer */ #define A_NETBUF_HEAD(bufPtr) \ ((((struct sk_buff *)(bufPtr))->head)) /* * OS specific network buffer access routines */ #ifdef AR6K_ALLOC_DEBUG void *a_netbuf_alloc(int size, const char *func, int lineno); void *a_netbuf_alloc_raw(int size, const char *func, int lineno); void a_netbuf_check(void *bufPtr, const char *func, int lineno); #else void *a_netbuf_alloc(int size); void *a_netbuf_alloc_raw(int size); #endif void a_netbuf_free(void *bufPtr); void *a_netbuf_to_data(void *bufPtr); A_UINT32 a_netbuf_to_len(void *bufPtr); A_STATUS a_netbuf_push(void *bufPtr, A_INT32 len); A_STATUS a_netbuf_push_data(void *bufPtr, char *srcPtr, A_INT32 len); A_STATUS a_netbuf_put(void *bufPtr, A_INT32 len); A_STATUS a_netbuf_put_data(void *bufPtr, char *srcPtr, A_INT32 len); A_STATUS a_netbuf_pull(void *bufPtr, A_INT32 len); A_STATUS a_netbuf_pull_data(void *bufPtr, char *dstPtr, A_INT32 len); A_STATUS a_netbuf_trim(void *bufPtr, A_INT32 len); A_STATUS a_netbuf_trim_data(void *bufPtr, char *dstPtr, A_INT32 len); A_STATUS a_netbuf_setlen(void *bufPtr, A_INT32 len); A_INT32 a_netbuf_headroom(void *bufPtr); void a_netbuf_enqueue(A_NETBUF_QUEUE_T *q, void *pkt); void a_netbuf_prequeue(A_NETBUF_QUEUE_T *q, void *pkt); void *a_netbuf_dequeue(A_NETBUF_QUEUE_T *q); int a_netbuf_queue_size(A_NETBUF_QUEUE_T *q); int a_netbuf_queue_empty(A_NETBUF_QUEUE_T *q); int a_netbuf_queue_empty(A_NETBUF_QUEUE_T *q); void a_netbuf_queue_init(A_NETBUF_QUEUE_T *q); /* * Kernel v.s User space functions */ A_UINT32 a_copy_to_user(void *to, const void *from, A_UINT32 n); A_UINT32 a_copy_from_user(void *to, const void *from, A_UINT32 n); /* In linux, WLAN Rx and Tx run in different contexts, so no need to check * for any commands/data queued for WLAN */ #define A_CHECK_DRV_TX() #define A_GET_CACHE_LINE_BYTES() L1_CACHE_BYTES #define A_CACHE_LINE_PAD 128 static inline void *A_ALIGN_TO_CACHE_LINE(void *ptr) { return (void *)L1_CACHE_ALIGN((unsigned long)ptr); } #else /* __KERNEL__ */ #ifdef __GNUC__ #define __ATTRIB_PACK __attribute__ ((packed)) #define __ATTRIB_PRINTF __attribute__ ((format (printf, 1, 2))) #define __ATTRIB_NORETURN __attribute__ ((noreturn)) #ifndef INLINE #define INLINE __inline__ #endif #else /* Not GCC */ #define __ATTRIB_PACK #define __ATTRIB_PRINTF #define __ATTRIB_NORETURN #ifndef INLINE #define INLINE __inline #endif #endif /* End __GNUC__ */ #define PREPACK #define POSTPACK __ATTRIB_PACK #define A_MEMCPY(dst, src, len) memcpy((dst), (src), (len)) #define A_MEMZERO(addr, len) memset((addr), 0, (len)) #define A_MEMCMP(addr1, addr2, len) memcmp((addr1), (addr2), (len)) #define A_MALLOC(size) malloc(size) #define A_FREE(addr) free(addr) #include #endif /* __KERNEL__ */ #endif /* _OSAPI_LINUX_H_ */