/* * Copyright (C) 2010-2012 ARM Limited. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @file ump_osu.h * Defines the OS abstraction layer for the base driver */ #ifndef __UMP_OSU_H__ #define __UMP_OSU_H__ #include #ifdef __cplusplus extern "C" { #endif typedef unsigned int u32; #ifdef _MSC_VER typedef unsigned __int64 u64; typedef signed __int64 s64; #else typedef unsigned long long u64; typedef signed long long s64; #endif #ifndef NULL #define NULL ((void*)0) #endif typedef unsigned long ump_bool; #ifndef UMP_TRUE #define UMP_TRUE ((ump_bool)1) #endif #ifndef UMP_FALSE #define UMP_FALSE ((ump_bool)0) #endif #define UMP_STATIC static /** * @addtogroup ump_user_space_api Unified Device Driver (UDD) APIs used by UMP * * @{ */ /** * @defgroup ump_osuapi UDD OS Abstraction for User-side (OSU) APIs for UMP * * @{ */ /* The following is necessary to prevent the _ump_osk_errcode_t doxygen from * becoming unreadable: */ /** @cond OSU_COPY_OF__UMP_OSU_ERRCODE_T */ /** * @brief OSU/OSK Error codes. * * Each OS may use its own set of error codes, and may require that the * User/Kernel interface take certain error code. This means that the common * error codes need to be sufficiently rich to pass the correct error code * through from the OSK/OSU to U/K layer, across all OSs. * * The result is that some error codes will appear redundant on some OSs. * Under all OSs, the OSK/OSU layer must translate native OS error codes to * _ump_osk/u_errcode_t codes. Similarly, the U/K layer must translate from * _ump_osk/u_errcode_t codes to native OS error codes. * */ typedef enum { _UMP_OSK_ERR_OK = 0, /**< Success. */ _UMP_OSK_ERR_FAULT = -1, /**< General non-success */ _UMP_OSK_ERR_INVALID_FUNC = -2, /**< Invalid function requested through User/Kernel interface (e.g. bad IOCTL number) */ _UMP_OSK_ERR_INVALID_ARGS = -3, /**< Invalid arguments passed through User/Kernel interface */ _UMP_OSK_ERR_NOMEM = -4, /**< Insufficient memory */ _UMP_OSK_ERR_TIMEOUT = -5, /**< Timeout occured */ _UMP_OSK_ERR_RESTARTSYSCALL = -6, /**< Special: On certain OSs, must report when an interruptable mutex is interrupted. Ignore otherwise. */ _UMP_OSK_ERR_ITEM_NOT_FOUND = -7, /**< Table Lookup failed */ _UMP_OSK_ERR_BUSY = -8, /**< Device/operation is busy. Try again later */ _UMP_OSK_ERR_UNSUPPORTED = -9, /**< Optional part of the interface used, and is unsupported */ } _ump_osk_errcode_t; /** @endcond */ /* end cond OSU_COPY_OF__UMP_OSU_ERRCODE_T */ /** * @brief OSU Error codes. * * OSU error codes - enum values intentionally same as OSK */ typedef enum { _UMP_OSU_ERR_OK = 0, /**< Success. */ _UMP_OSU_ERR_FAULT = -1, /**< General non-success */ _UMP_OSU_ERR_TIMEOUT = -2, /**< Timeout occured */ } _ump_osu_errcode_t; /** @brief Translate OSU error code to base driver error code. * * The _UMP_OSU_TRANSLATE_ERROR macro translates an OSU error code to the * error codes in use by the base driver. */ #define _UMP_OSU_TRANSLATE_ERROR(_ump_osu_errcode) ( ( _UMP_OSU_ERR_OK == (_ump_osu_errcode) ) ? UMP_ERR_NO_ERROR : UMP_ERR_FUNCTION_FAILED) /** @defgroup _ump_osu_lock OSU Mutual Exclusion Locks * @{ */ /** @brief OSU Mutual Exclusion Lock flags type. * * This is made to look like and function identically to the OSK locks (refer * to \ref _ump_osk_lock). However, please note the following \b important * differences: * - the OSU default lock is a Sleeping, non-interruptible mutex. * - the OSU adds the ANYUNLOCK type of lock which allows a thread which doesn't * own the lock to release the lock. * - the order parameter when creating a lock is currently unused * * @note Pay careful attention to the difference in default locks for OSU and * OSK locks; OSU locks are always non-interruptible, but OSK locks are by * default, interruptible. This has implications for systems that do not * distinguish between user and kernel mode. */ typedef enum { _UMP_OSU_LOCKFLAG_DEFAULT = 0, /**< Default lock type. */ /** @enum _ump_osu_lock_flags_t * * Flags from 0x0--0x8000 are RESERVED for Kernel-mode */ _UMP_OSU_LOCKFLAG_ANYUNLOCK = 0x10000, /**< Mutex that guarantees that any thread can unlock it when locked. Otherwise, this will not be possible. */ /** @enum _ump_osu_lock_flags_t * * Flags from 0x10000 are RESERVED for User-mode */ _UMP_OSU_LOCKFLAG_STATIC = 0x20000, /* Flag in OSU reserved range to identify lock as a statically initialized lock */ } _ump_osu_lock_flags_t; typedef enum { _UMP_OSU_LOCKMODE_UNDEF = -1, /**< Undefined lock mode. For internal use only */ _UMP_OSU_LOCKMODE_RW = 0x0, /**< Default. Lock is used to protect data that is read from and written to */ /** @enum _ump_osu_lock_mode_t * * Lock modes 0x1--0x3F are RESERVED for Kernel-mode */ } _ump_osu_lock_mode_t; /** @brief Private type for Mutual Exclusion lock objects. */ typedef struct _ump_osu_lock_t_struct _ump_osu_lock_t; /** @brief The number of static locks supported in _ump_osu_lock_static(). */ #define UMP_OSU_STATIC_LOCK_COUNT (sizeof(_ump_osu_static_locks) / sizeof(_ump_osu_lock_t)) /** @} */ /* end group _ump_osu_lock */ /** @defgroup _ump_osu_memory OSU Memory Allocation * @{ */ /** @brief Allocate zero-initialized memory. * * Returns a buffer capable of containing at least \a n elements of \a size * bytes each. The buffer is initialized to zero. * * The buffer is suitably aligned for storage and subsequent access of every * type that the compiler supports. Therefore, the pointer to the start of the * buffer may be cast into any pointer type, and be subsequently accessed from * such a pointer, without loss of information. * * When the buffer is no longer in use, it must be freed with _ump_osu_free(). * Failure to do so will cause a memory leak. * * @note Most toolchains supply memory allocation functions that meet the * compiler's alignment requirements. * * @param n Number of elements to allocate * @param size Size of each element * @return On success, the zero-initialized buffer allocated. NULL on failure */ void *_ump_osu_calloc( u32 n, u32 size ); /** @brief Allocate memory. * * Returns a buffer capable of containing at least \a size bytes. The * contents of the buffer are undefined. * * The buffer is suitably aligned for storage and subsequent access of every * type that the compiler supports. Therefore, the pointer to the start of the * buffer may be cast into any pointer type, and be subsequently accessed from * such a pointer, without loss of information. * * When the buffer is no longer in use, it must be freed with _ump_osu_free(). * Failure to do so will cause a memory leak. * * @note Most toolchains supply memory allocation functions that meet the * compiler's alignment requirements. * * Remember to free memory using _ump_osu_free(). * @param size Number of bytes to allocate * @return On success, the buffer allocated. NULL on failure. */ void *_ump_osu_malloc( u32 size ); /** @brief Free memory. * * Reclaims the buffer pointed to by the parameter \a ptr for the system. * All memory returned from _ump_osu_malloc(), _ump_osu_calloc() and * _ump_osu_realloc() must be freed before the application exits. Otherwise, * a memory leak will occur. * * Memory must be freed once. It is an error to free the same non-NULL pointer * more than once. * * It is legal to free the NULL pointer. * * @param ptr Pointer to buffer to free */ void _ump_osu_free( void *ptr ); /** @brief Copies memory. * * Copies the \a len bytes from the buffer pointed by the parameter \a src * directly to the buffer pointed by \a dst. * * It is an error for \a src to overlap \a dst anywhere in \a len bytes. * * @param dst Pointer to the destination array where the content is to be * copied. * @param src Pointer to the source of data to be copied. * @param len Number of bytes to copy. * @return \a dst is always passed through unmodified. */ void *_ump_osu_memcpy( void *dst, const void *src, u32 len ); /** @brief Fills memory. * * Sets the first \a size bytes of the block of memory pointed to by \a ptr to * the specified value * @param ptr Pointer to the block of memory to fill. * @param chr Value to be set, passed as u32. Only the 8 Least Significant Bits (LSB) * are used. * @param size Number of bytes to be set to the value. * @return \a ptr is always passed through unmodified */ void *_ump_osu_memset( void *ptr, u32 chr, u32 size ); /** @} */ /* end group _ump_osu_memory */ /** @addtogroup _ump_osu_lock * @{ */ /** @brief Initialize a Mutual Exclusion Lock. * * Locks are created in the signalled (unlocked) state. * * The parameter \a initial must be zero. * * At present, the parameter \a order must be zero. It remains for future * expansion for mutex order checking. * * @param flags flags combined with bitwise OR ('|'), or zero. There are * restrictions on which flags can be combined, see \ref _ump_osu_lock_flags_t. * @param initial For future expansion into semaphores. SBZ. * @param order The locking order of the mutex. SBZ. * @return On success, a pointer to a \ref _ump_osu_lock_t object. NULL on failure. */ _ump_osu_lock_t *_ump_osu_lock_init( _ump_osu_lock_flags_t flags, u32 initial, u32 order ); /** @brief Obtain a statically initialized Mutual Exclusion Lock. * * Retrieves a reference to a statically initialized lock. Up to * _UMP_OSU_STATIC_LOCK_COUNT statically initialized locks are * available. Only _ump_osu_lock_wait(), _ump_osu_lock_trywait(), * _ump_osu_lock_signal() can be used with statically initialized locks. * _UMP_OSU_LOCKMODE_RW mode should be used when waiting and signalling * statically initialized locks. * * For the same \a nr a pointer to the same statically initialized lock is * returned. That is, given the following code: * @code * extern u32 n; * * _ump_osu_lock_t *locka = _ump_osu_lock_static(n); * _ump_osu_lock_t *lockb = _ump_osu_lock_static(n); * @endcode * Then (locka == lockb), for all 0 <= n < UMP_OSU_STATIC_LOCK_COUNT. * * @param nr index of a statically initialized lock [0..UMP_OSU_STATIC_LOCK_COUNT-1] * @return On success, a pointer to a _ump_osu_lock_t object. NULL on failure. */ _ump_osu_lock_t *_ump_osu_lock_static( u32 nr ); /** @brief Initialize a Mutual Exclusion Lock safely across multiple threads. * * The _ump_osu_lock_auto_init() function guarantees that the given lock will * be initialized once and precisely once, even in a situation involving * multiple threads. * * This is necessary because the first call to certain Public API functions must * initialize the API. However, there can be a race involved to call the first * library function in multi-threaded applications. To resolve this race, a * mutex can be used. This mutex must be initialized, but initialized only once * by any thread that might compete for its initialization. This function * guarantees the initialization to happen correctly, even when there is an * initialization race between multiple threads. * * Otherwise, the operation is identical to the _ump_osu_lock_init() function. * For more details, refer to _ump_osu_lock_init(). * * @param pplock pointer to storage for a _ump_osu_lock_t pointer. This * _ump_osu_lock_t pointer may point to a _ump_osu_lock_t that has been * initialized already * @param flags flags combined with bitwise OR ('|'), or zero. There are * restrictions on which flags can be combined. Refer to * \ref _ump_osu_lock_flags_t for more information. * The absence of any flags (the value 0) results in a sleeping-mutex, * which is non-interruptible. * @param initial For future expansion into semaphores. SBZ. * @param order The locking order of the mutex. SBZ. * @return On success, _UMP_OSU_ERR_OK is returned and a pointer to an * initialized \ref _ump_osu_lock_t object is written into \a *pplock. * _UMP_OSU_ERR_FAULT is returned on failure. */ _ump_osu_errcode_t _ump_osu_lock_auto_init( _ump_osu_lock_t **pplock, _ump_osu_lock_flags_t flags, u32 initial, u32 order ); /** @brief Wait for a lock to be signalled (obtained). * * After a thread has successfully waited on the lock, the lock is obtained by * the thread, and is marked as unsignalled. The thread releases the lock by * signalling it. * * To prevent deadlock, locks must always be obtained in the same order. * * @param lock the lock to wait upon (obtain). * @param mode the mode in which the lock should be obtained. Currently this * must be _UMP_OSU_LOCKMODE_RW. * @return On success, _UMP_OSU_ERR_OK, _UMP_OSU_ERR_FAULT on error. */ _ump_osu_errcode_t _ump_osu_lock_wait( _ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode); /** @brief Wait for a lock to be signalled (obtained) with timeout * * After a thread has successfully waited on the lock, the lock is obtained by * the thread, and is marked as unsignalled. The thread releases the lock by * signalling it. * * To prevent deadlock, locks must always be obtained in the same order. * * This version can return early if it cannot obtain the lock within the given timeout. * * @param lock the lock to wait upon (obtain). * @param mode the mode in which the lock should be obtained. Currently this * must be _UMP_OSU_LOCKMODE_RW. * @param timeout Relative time in microseconds for the timeout * @return _UMP_OSU_ERR_OK if the lock was obtained, _UMP_OSU_ERR_TIMEOUT if the timeout expired or _UMP_OSU_ERR_FAULT on error. */ _ump_osu_errcode_t _ump_osu_lock_timed_wait( _ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode, u64 timeout); /** @brief Test for a lock to be signalled and obtains the lock when so. * * Obtains the lock only when it is in signalled state. The lock is then * marked as unsignalled. The lock is released again by signalling * it by _ump_osu_lock_signal(). * * If the lock could not be obtained immediately (that is, another thread * currently holds the lock), then this function \b does \b not wait for the * lock to be in a signalled state. Instead, an error code is immediately * returned to indicate that the thread could not obtain the lock. * * To prevent deadlock, locks must always be obtained in the same order. * * @param lock the lock to wait upon (obtain). * @param mode the mode in which the lock should be obtained. Currently this * must be _UMP_OSU_LOCKMODE_RW. * @return When the lock was obtained, _UMP_OSU_ERR_OK. If the lock could not * be obtained, _UMP_OSU_ERR_FAULT. */ _ump_osu_errcode_t _ump_osu_lock_trywait( _ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode); /** @brief Signal (release) a lock. * * Locks may only be signalled by the thread that originally waited upon the * lock, unless the lock was created using the _UMP_OSU_LOCKFLAG_ANYUNLOCK flag. * * @param lock the lock to signal (release). * @param mode the mode in which the lock should be obtained. This must match * the mode in which the lock was waited upon. */ void _ump_osu_lock_signal( _ump_osu_lock_t *lock, _ump_osu_lock_mode_t mode ); /** @brief Terminate a lock. * * This terminates a lock and frees all associated resources. * * It is a programming error to terminate the lock when it is held (unsignalled) * by a thread. * * @param lock the lock to terminate. */ void _ump_osu_lock_term( _ump_osu_lock_t *lock ); /** @} */ /* end group _ump_osu_lock */ /** @} */ /* end group osuapi */ /** @} */ /* end group uddapi */ #ifdef __cplusplus } #endif #endif /* __UMP_OSU_H__ */