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Diffstat (limited to 'drivers/gpu/arm/utgard/common/mali_osk.h')
-rw-r--r-- | drivers/gpu/arm/utgard/common/mali_osk.h | 1397 |
1 files changed, 1397 insertions, 0 deletions
diff --git a/drivers/gpu/arm/utgard/common/mali_osk.h b/drivers/gpu/arm/utgard/common/mali_osk.h new file mode 100644 index 000000000000..4c9e57cba18f --- /dev/null +++ b/drivers/gpu/arm/utgard/common/mali_osk.h @@ -0,0 +1,1397 @@ +/* + * Copyright (C) 2010-2015 ARM Limited. All rights reserved. + * + * This program is free software and is provided to you under the terms of the GNU General Public License version 2 + * as published by the Free Software Foundation, and any use by you of this program is subject to the terms of such GNU licence. + * + * A copy of the licence is included with the program, and can also be obtained from Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +/** + * @file mali_osk.h + * Defines the OS abstraction layer for the kernel device driver (OSK) + */ + +#ifndef __MALI_OSK_H__ +#define __MALI_OSK_H__ + +#include "mali_osk_types.h" +#include "mali_osk_specific.h" /* include any per-os specifics */ +#include "mali_osk_locks.h" + +#ifdef __cplusplus +extern "C" { +#endif + +/** + * @addtogroup uddapi Unified Device Driver (UDD) APIs + * + * @{ + */ + +/** + * @addtogroup oskapi UDD OS Abstraction for Kernel-side (OSK) APIs + * + * @{ + */ + +/** @addtogroup _mali_osk_lock OSK Mutual Exclusion Locks + * @{ */ + +#ifdef DEBUG +/** @brief Macro for asserting that the current thread holds a given lock + */ +#define MALI_DEBUG_ASSERT_LOCK_HELD(l) MALI_DEBUG_ASSERT(_mali_osk_lock_get_owner((_mali_osk_lock_debug_t *)l) == _mali_osk_get_tid()); + +/** @brief returns a lock's owner (thread id) if debugging is enabled + */ +#else +#define MALI_DEBUG_ASSERT_LOCK_HELD(l) do {} while(0) +#endif + +/** @} */ /* end group _mali_osk_lock */ + +/** @addtogroup _mali_osk_miscellaneous + * @{ */ + +/** @brief Find the containing structure of another structure + * + * This is the reverse of the operation 'offsetof'. This means that the + * following condition is satisfied: + * + * ptr == _MALI_OSK_CONTAINER_OF( &ptr->member, type, member ) + * + * When ptr is of type 'type'. + * + * Its purpose it to recover a larger structure that has wrapped a smaller one. + * + * @note no type or memory checking occurs to ensure that a wrapper structure + * does in fact exist, and that it is being recovered with respect to the + * correct member. + * + * @param ptr the pointer to the member that is contained within the larger + * structure + * @param type the type of the structure that contains the member + * @param member the name of the member in the structure that ptr points to. + * @return a pointer to a \a type object which contains \a member, as pointed + * to by \a ptr. + */ +#define _MALI_OSK_CONTAINER_OF(ptr, type, member) \ + ((type *)( ((char *)ptr) - offsetof(type,member) )) + +/** @addtogroup _mali_osk_wq + * @{ */ + +/** @brief Initialize work queues (for deferred work) + * + * @return _MALI_OSK_ERR_OK on success, otherwise failure. + */ +_mali_osk_errcode_t _mali_osk_wq_init(void); + +/** @brief Terminate work queues (for deferred work) + */ +void _mali_osk_wq_term(void); + +/** @brief Create work in the work queue + * + * Creates a work object which can be scheduled in the work queue. When + * scheduled, \a handler will be called with \a data as the argument. + * + * Refer to \ref _mali_osk_wq_schedule_work() for details on how work + * is scheduled in the queue. + * + * The returned pointer must be freed with \ref _mali_osk_wq_delete_work() + * when no longer needed. + */ +_mali_osk_wq_work_t *_mali_osk_wq_create_work(_mali_osk_wq_work_handler_t handler, void *data); + +/** @brief A high priority version of \a _mali_osk_wq_create_work() + * + * Creates a work object which can be scheduled in the high priority work queue. + * + * This is unfortunately needed to get low latency scheduling of the Mali cores. Normally we would + * schedule the next job in hw_irq or tasklet, but often we can't since we need to synchronously map + * and unmap shared memory when a job is connected to external fences (timelines). And this requires + * taking a mutex. + * + * We do signal a lot of other (low priority) work also as part of the job being finished, and if we + * don't set this Mali scheduling thread as high priority, we see that the CPU scheduler often runs + * random things instead of starting the next GPU job when the GPU is idle. So setting the gpu + * scheduler to high priority does give a visually more responsive system. + * + * Start the high priority work with: \a _mali_osk_wq_schedule_work_high_pri() + */ +_mali_osk_wq_work_t *_mali_osk_wq_create_work_high_pri(_mali_osk_wq_work_handler_t handler, void *data); + +/** @brief Delete a work object + * + * This will flush the work queue to ensure that the work handler will not + * be called after deletion. + */ +void _mali_osk_wq_delete_work(_mali_osk_wq_work_t *work); + +/** @brief Delete a work object + * + * This will NOT flush the work queue, so only call this if you are sure that the work handler will + * not be called after deletion. + */ +void _mali_osk_wq_delete_work_nonflush(_mali_osk_wq_work_t *work); + +/** @brief Cause a queued, deferred call of the work handler + * + * _mali_osk_wq_schedule_work provides a mechanism for enqueuing deferred calls + * to the work handler. After calling \ref _mali_osk_wq_schedule_work(), the + * work handler will be scheduled to run at some point in the future. + * + * Typically this is called by the IRQ upper-half to defer further processing of + * IRQ-related work to the IRQ bottom-half handler. This is necessary for work + * that cannot be done in an IRQ context by the IRQ upper-half handler. Timer + * callbacks also use this mechanism, because they are treated as though they + * operate in an IRQ context. Refer to \ref _mali_osk_timer_t for more + * information. + * + * Code that operates in a kernel-process context (with no IRQ context + * restrictions) may also enqueue deferred calls to the IRQ bottom-half. The + * advantage over direct calling is that deferred calling allows the caller and + * IRQ bottom half to hold the same mutex, with a guarantee that they will not + * deadlock just by using this mechanism. + * + * _mali_osk_wq_schedule_work() places deferred call requests on a queue, to + * allow for more than one thread to make a deferred call. Therfore, if it is + * called 'K' times, then the IRQ bottom-half will be scheduled 'K' times too. + * 'K' is a number that is implementation-specific. + * + * _mali_osk_wq_schedule_work() is guaranteed to not block on: + * - enqueuing a deferred call request. + * - the completion of the work handler. + * + * This is to prevent deadlock. For example, if _mali_osk_wq_schedule_work() + * blocked, then it would cause a deadlock when the following two conditions + * hold: + * - The work handler callback (of type _mali_osk_wq_work_handler_t) locks + * a mutex + * - And, at the same time, the caller of _mali_osk_wq_schedule_work() also + * holds the same mutex + * + * @note care must be taken to not overflow the queue that + * _mali_osk_wq_schedule_work() operates on. Code must be structured to + * ensure that the number of requests made to the queue is bounded. Otherwise, + * work will be lost. + * + * The queue that _mali_osk_wq_schedule_work implements is a FIFO of N-writer, + * 1-reader type. The writers are the callers of _mali_osk_wq_schedule_work + * (all OSK-registered IRQ upper-half handlers in the system, watchdog timers, + * callers from a Kernel-process context). The reader is a single thread that + * handles all OSK-registered work. + * + * @param work a pointer to the _mali_osk_wq_work_t object corresponding to the + * work to begin processing. + */ +void _mali_osk_wq_schedule_work(_mali_osk_wq_work_t *work); + +/** @brief Cause a queued, deferred call of the high priority work handler + * + * Function is the same as \a _mali_osk_wq_schedule_work() with the only + * difference that it runs in a high (real time) priority on the system. + * + * Should only be used as a substitue for doing the same work in interrupts. + * + * This is allowed to sleep, but the work should be small since it will block + * all other applications. +*/ +void _mali_osk_wq_schedule_work_high_pri(_mali_osk_wq_work_t *work); + +/** @brief Flush the work queue + * + * This will flush the OSK work queue, ensuring all work in the queue has + * completed before returning. + * + * Since this blocks on the completion of work in the work-queue, the + * caller of this function \b must \b not hold any mutexes that are taken by + * any registered work handler. To do so may cause a deadlock. + * + */ +void _mali_osk_wq_flush(void); + +/** @brief Create work in the delayed work queue + * + * Creates a work object which can be scheduled in the work queue. When + * scheduled, a timer will be start and the \a handler will be called with + * \a data as the argument when timer out + * + * Refer to \ref _mali_osk_wq_delayed_schedule_work() for details on how work + * is scheduled in the queue. + * + * The returned pointer must be freed with \ref _mali_osk_wq_delayed_delete_work_nonflush() + * when no longer needed. + */ +_mali_osk_wq_delayed_work_t *_mali_osk_wq_delayed_create_work(_mali_osk_wq_work_handler_t handler, void *data); + +/** @brief Delete a work object + * + * This will NOT flush the work queue, so only call this if you are sure that the work handler will + * not be called after deletion. + */ +void _mali_osk_wq_delayed_delete_work_nonflush(_mali_osk_wq_delayed_work_t *work); + +/** @brief Cancel a delayed work without waiting for it to finish + * + * Note that the \a work callback function may still be running on return from + * _mali_osk_wq_delayed_cancel_work_async(). + * + * @param work The delayed work to be cancelled + */ +void _mali_osk_wq_delayed_cancel_work_async(_mali_osk_wq_delayed_work_t *work); + +/** @brief Cancel a delayed work and wait for it to finish + * + * When this function returns, the \a work was either cancelled or it finished running. + * + * @param work The delayed work to be cancelled + */ +void _mali_osk_wq_delayed_cancel_work_sync(_mali_osk_wq_delayed_work_t *work); + +/** @brief Put \a work task in global workqueue after delay + * + * After waiting for a given time this puts a job in the kernel-global + * workqueue. + * + * If \a work was already on a queue, this function will return without doing anything + * + * @param work job to be done + * @param delay number of jiffies to wait or 0 for immediate execution + */ +void _mali_osk_wq_delayed_schedule_work(_mali_osk_wq_delayed_work_t *work, u32 delay); + +/** @} */ /* end group _mali_osk_wq */ + + +/** @addtogroup _mali_osk_irq + * @{ */ + +/** @brief Initialize IRQ handling for a resource + * + * Registers an interrupt handler \a uhandler for the given IRQ number \a irqnum. + * \a data will be passed as argument to the handler when an interrupt occurs. + * + * If \a irqnum is -1, _mali_osk_irq_init will probe for the IRQ number using + * the supplied \a trigger_func and \a ack_func. These functions will also + * receive \a data as their argument. + * + * @param irqnum The IRQ number that the resource uses, as seen by the CPU. + * The value -1 has a special meaning which indicates the use of probing, and + * trigger_func and ack_func must be non-NULL. + * @param uhandler The interrupt handler, corresponding to a ISR handler for + * the resource + * @param int_data resource specific data, which will be passed to uhandler + * @param trigger_func Optional: a function to trigger the resource's irq, to + * probe for the interrupt. Use NULL if irqnum != -1. + * @param ack_func Optional: a function to acknowledge the resource's irq, to + * probe for the interrupt. Use NULL if irqnum != -1. + * @param probe_data resource-specific data, which will be passed to + * (if present) trigger_func and ack_func + * @param description textual description of the IRQ resource. + * @return on success, a pointer to a _mali_osk_irq_t object, which represents + * the IRQ handling on this resource. NULL on failure. + */ +_mali_osk_irq_t *_mali_osk_irq_init(u32 irqnum, _mali_osk_irq_uhandler_t uhandler, void *int_data, _mali_osk_irq_trigger_t trigger_func, _mali_osk_irq_ack_t ack_func, void *probe_data, const char *description); + +/** @brief Terminate IRQ handling on a resource. + * + * This will disable the interrupt from the device, and then waits for any + * currently executing IRQ handlers to complete. + * + * @note If work is deferred to an IRQ bottom-half handler through + * \ref _mali_osk_wq_schedule_work(), be sure to flush any remaining work + * with \ref _mali_osk_wq_flush() or (implicitly) with \ref _mali_osk_wq_delete_work() + * + * @param irq a pointer to the _mali_osk_irq_t object corresponding to the + * resource whose IRQ handling is to be terminated. + */ +void _mali_osk_irq_term(_mali_osk_irq_t *irq); + +/** @} */ /* end group _mali_osk_irq */ + + +/** @addtogroup _mali_osk_atomic + * @{ */ + +/** @brief Decrement an atomic counter + * + * @note It is an error to decrement the counter beyond -(1<<23) + * + * @param atom pointer to an atomic counter */ +void _mali_osk_atomic_dec(_mali_osk_atomic_t *atom); + +/** @brief Decrement an atomic counter, return new value + * + * @param atom pointer to an atomic counter + * @return The new value, after decrement */ +u32 _mali_osk_atomic_dec_return(_mali_osk_atomic_t *atom); + +/** @brief Increment an atomic counter + * + * @note It is an error to increment the counter beyond (1<<23)-1 + * + * @param atom pointer to an atomic counter */ +void _mali_osk_atomic_inc(_mali_osk_atomic_t *atom); + +/** @brief Increment an atomic counter, return new value + * + * @param atom pointer to an atomic counter */ +u32 _mali_osk_atomic_inc_return(_mali_osk_atomic_t *atom); + +/** @brief Initialize an atomic counter + * + * @note the parameter required is a u32, and so signed integers should be + * cast to u32. + * + * @param atom pointer to an atomic counter + * @param val the value to initialize the atomic counter. + */ +void _mali_osk_atomic_init(_mali_osk_atomic_t *atom, u32 val); + +/** @brief Read a value from an atomic counter + * + * This can only be safely used to determine the value of the counter when it + * is guaranteed that other threads will not be modifying the counter. This + * makes its usefulness limited. + * + * @param atom pointer to an atomic counter + */ +u32 _mali_osk_atomic_read(_mali_osk_atomic_t *atom); + +/** @brief Terminate an atomic counter + * + * @param atom pointer to an atomic counter + */ +void _mali_osk_atomic_term(_mali_osk_atomic_t *atom); + +/** @brief Assign a new val to atomic counter, and return the old atomic counter + * + * @param atom pointer to an atomic counter + * @param val the new value assign to the atomic counter + * @return the old value of the atomic counter + */ +u32 _mali_osk_atomic_xchg(_mali_osk_atomic_t *atom, u32 val); +/** @} */ /* end group _mali_osk_atomic */ + + +/** @defgroup _mali_osk_memory OSK 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. + * + * If there is a need for a bigger block of memory (16KB or bigger), then + * consider to use _mali_osk_vmalloc() instead, as this function might + * map down to a OS function with size limitations. + * + * 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 _mali_osk_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 *_mali_osk_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. + * + * If there is a need for a bigger block of memory (16KB or bigger), then + * consider to use _mali_osk_vmalloc() instead, as this function might + * map down to a OS function with size limitations. + * + * 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 _mali_osk_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 _mali_osk_free(). + * @param size Number of bytes to allocate + * @return On success, the buffer allocated. NULL on failure. + */ +void *_mali_osk_malloc(u32 size); + +/** @brief Free memory. + * + * Reclaims the buffer pointed to by the parameter \a ptr for the system. + * All memory returned from _mali_osk_malloc() and _mali_osk_calloc() + * 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 _mali_osk_free(void *ptr); + +/** @brief Allocate memory. + * + * Returns a buffer capable of containing at least \a size bytes. The + * contents of the buffer are undefined. + * + * This function is potentially slower than _mali_osk_malloc() and _mali_osk_calloc(), + * but do support bigger sizes. + * + * 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 _mali_osk_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 _mali_osk_free(). + * @param size Number of bytes to allocate + * @return On success, the buffer allocated. NULL on failure. + */ +void *_mali_osk_valloc(u32 size); + +/** @brief Free memory. + * + * Reclaims the buffer pointed to by the parameter \a ptr for the system. + * All memory returned from _mali_osk_valloc() 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 _mali_osk_vfree(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 *_mali_osk_memcpy(void *dst, const void *src, u32 len); + +/** @brief Fills memory. + * + * Sets the first \a n bytes of the block of memory pointed to by \a s to + * the specified value + * @param s Pointer to the block of memory to fill. + * @param c Value to be set, passed as u32. Only the 8 Least Significant Bits (LSB) + * are used. + * @param n Number of bytes to be set to the value. + * @return \a s is always passed through unmodified + */ +void *_mali_osk_memset(void *s, u32 c, u32 n); +/** @} */ /* end group _mali_osk_memory */ + + +/** @brief Checks the amount of memory allocated + * + * Checks that not more than \a max_allocated bytes are allocated. + * + * Some OS bring up an interactive out of memory dialogue when the + * system runs out of memory. This can stall non-interactive + * apps (e.g. automated test runs). This function can be used to + * not trigger the OOM dialogue by keeping allocations + * within a certain limit. + * + * @return MALI_TRUE when \a max_allocated bytes are not in use yet. MALI_FALSE + * when at least \a max_allocated bytes are in use. + */ +mali_bool _mali_osk_mem_check_allocated(u32 max_allocated); + + +/** @addtogroup _mali_osk_low_level_memory + * @{ */ + +/** @brief Issue a memory barrier + * + * This defines an arbitrary memory barrier operation, which forces an ordering constraint + * on memory read and write operations. + */ +void _mali_osk_mem_barrier(void); + +/** @brief Issue a write memory barrier + * + * This defines an write memory barrier operation which forces an ordering constraint + * on memory write operations. + */ +void _mali_osk_write_mem_barrier(void); + +/** @brief Map a physically contiguous region into kernel space + * + * This is primarily used for mapping in registers from resources, and Mali-MMU + * page tables. The mapping is only visable from kernel-space. + * + * Access has to go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32 + * + * @param phys CPU-physical base address of the memory to map in. This must + * be aligned to the system's page size, which is assumed to be 4K. + * @param size the number of bytes of physically contiguous address space to + * map in + * @param description A textual description of the memory being mapped in. + * @return On success, a Mali IO address through which the mapped-in + * memory/registers can be accessed. NULL on failure. + */ +mali_io_address _mali_osk_mem_mapioregion(uintptr_t phys, u32 size, const char *description); + +/** @brief Unmap a physically contiguous address range from kernel space. + * + * The address range should be one previously mapped in through + * _mali_osk_mem_mapioregion. + * + * It is a programming error to do (but not limited to) the following: + * - attempt an unmap twice + * - unmap only part of a range obtained through _mali_osk_mem_mapioregion + * - unmap more than the range obtained through _mali_osk_mem_mapioregion + * - unmap an address range that was not successfully mapped using + * _mali_osk_mem_mapioregion + * - provide a mapping that does not map to phys. + * + * @param phys CPU-physical base address of the memory that was originally + * mapped in. This must be aligned to the system's page size, which is assumed + * to be 4K + * @param size The number of bytes that were originally mapped in. + * @param mapping The Mali IO address through which the mapping is + * accessed. + */ +void _mali_osk_mem_unmapioregion(uintptr_t phys, u32 size, mali_io_address mapping); + +/** @brief Allocate and Map a physically contiguous region into kernel space + * + * This is used for allocating physically contiguous regions (such as Mali-MMU + * page tables) and mapping them into kernel space. The mapping is only + * visible from kernel-space. + * + * The alignment of the returned memory is guaranteed to be at least + * _MALI_OSK_CPU_PAGE_SIZE. + * + * Access must go through _mali_osk_mem_ioread32 and _mali_osk_mem_iowrite32 + * + * @note This function is primarily to provide support for OSs that are + * incapable of separating the tasks 'allocate physically contiguous memory' + * and 'map it into kernel space' + * + * @param[out] phys CPU-physical base address of memory that was allocated. + * (*phys) will be guaranteed to be aligned to at least + * _MALI_OSK_CPU_PAGE_SIZE on success. + * + * @param[in] size the number of bytes of physically contiguous memory to + * allocate. This must be a multiple of _MALI_OSK_CPU_PAGE_SIZE. + * + * @return On success, a Mali IO address through which the mapped-in + * memory/registers can be accessed. NULL on failure, and (*phys) is unmodified. + */ +mali_io_address _mali_osk_mem_allocioregion(u32 *phys, u32 size); + +/** @brief Free a physically contiguous address range from kernel space. + * + * The address range should be one previously mapped in through + * _mali_osk_mem_allocioregion. + * + * It is a programming error to do (but not limited to) the following: + * - attempt a free twice on the same ioregion + * - free only part of a range obtained through _mali_osk_mem_allocioregion + * - free more than the range obtained through _mali_osk_mem_allocioregion + * - free an address range that was not successfully mapped using + * _mali_osk_mem_allocioregion + * - provide a mapping that does not map to phys. + * + * @param phys CPU-physical base address of the memory that was originally + * mapped in, which was aligned to _MALI_OSK_CPU_PAGE_SIZE. + * @param size The number of bytes that were originally mapped in, which was + * a multiple of _MALI_OSK_CPU_PAGE_SIZE. + * @param mapping The Mali IO address through which the mapping is + * accessed. + */ +void _mali_osk_mem_freeioregion(u32 phys, u32 size, mali_io_address mapping); + +/** @brief Request a region of physically contiguous memory + * + * This is used to ensure exclusive access to a region of physically contigous + * memory. + * + * It is acceptable to implement this as a stub. However, it is then the job + * of the System Integrator to ensure that no other device driver will be using + * the physical address ranges used by Mali, while the Mali device driver is + * loaded. + * + * @param phys CPU-physical base address of the memory to request. This must + * be aligned to the system's page size, which is assumed to be 4K. + * @param size the number of bytes of physically contiguous address space to + * request. + * @param description A textual description of the memory being requested. + * @return _MALI_OSK_ERR_OK on success. Otherwise, a suitable + * _mali_osk_errcode_t on failure. + */ +_mali_osk_errcode_t _mali_osk_mem_reqregion(uintptr_t phys, u32 size, const char *description); + +/** @brief Un-request a region of physically contiguous memory + * + * This is used to release a regious of physically contiguous memory previously + * requested through _mali_osk_mem_reqregion, so that other device drivers may + * use it. This will be called at time of Mali device driver termination. + * + * It is a programming error to attempt to: + * - unrequest a region twice + * - unrequest only part of a range obtained through _mali_osk_mem_reqregion + * - unrequest more than the range obtained through _mali_osk_mem_reqregion + * - unrequest an address range that was not successfully requested using + * _mali_osk_mem_reqregion + * + * @param phys CPU-physical base address of the memory to un-request. This must + * be aligned to the system's page size, which is assumed to be 4K + * @param size the number of bytes of physically contiguous address space to + * un-request. + */ +void _mali_osk_mem_unreqregion(uintptr_t phys, u32 size); + +/** @brief Read from a location currently mapped in through + * _mali_osk_mem_mapioregion + * + * This reads a 32-bit word from a 32-bit aligned location. It is a programming + * error to provide unaligned locations, or to read from memory that is not + * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or + * _mali_osk_mem_allocioregion(). + * + * @param mapping Mali IO address to read from + * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 + * @return the 32-bit word from the specified location. + */ +u32 _mali_osk_mem_ioread32(volatile mali_io_address mapping, u32 offset); + +/** @brief Write to a location currently mapped in through + * _mali_osk_mem_mapioregion without memory barriers + * + * This write a 32-bit word to a 32-bit aligned location without using memory barrier. + * It is a programming error to provide unaligned locations, or to write to memory that is not + * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or + * _mali_osk_mem_allocioregion(). + * + * @param mapping Mali IO address to write to + * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 + * @param val the 32-bit word to write. + */ +void _mali_osk_mem_iowrite32_relaxed(volatile mali_io_address addr, u32 offset, u32 val); + +/** @brief Write to a location currently mapped in through + * _mali_osk_mem_mapioregion with write memory barrier + * + * This write a 32-bit word to a 32-bit aligned location. It is a programming + * error to provide unaligned locations, or to write to memory that is not + * mapped in, or not mapped through either _mali_osk_mem_mapioregion() or + * _mali_osk_mem_allocioregion(). + * + * @param mapping Mali IO address to write to + * @param offset Byte offset from the given IO address to operate on, must be a multiple of 4 + * @param val the 32-bit word to write. + */ +void _mali_osk_mem_iowrite32(volatile mali_io_address mapping, u32 offset, u32 val); + +/** @brief Flush all CPU caches + * + * This should only be implemented if flushing of the cache is required for + * memory mapped in through _mali_osk_mem_mapregion. + */ +void _mali_osk_cache_flushall(void); + +/** @brief Flush any caches necessary for the CPU and MALI to have the same view of a range of uncached mapped memory + * + * This should only be implemented if your OS doesn't do a full cache flush (inner & outer) + * after allocating uncached mapped memory. + * + * Some OS do not perform a full cache flush (including all outer caches) for uncached mapped memory. + * They zero the memory through a cached mapping, then flush the inner caches but not the outer caches. + * This is required for MALI to have the correct view of the memory. + */ +void _mali_osk_cache_ensure_uncached_range_flushed(void *uncached_mapping, u32 offset, u32 size); + +/** @brief Safely copy as much data as possible from src to dest + * + * Do not crash if src or dest isn't available. + * + * @param dest Destination buffer (limited to user space mapped Mali memory) + * @param src Source buffer + * @param size Number of bytes to copy + * @return Number of bytes actually copied + */ +u32 _mali_osk_mem_write_safe(void *dest, const void *src, u32 size); + +/** @} */ /* end group _mali_osk_low_level_memory */ + + +/** @addtogroup _mali_osk_notification + * + * User space notification framework + * + * Communication with user space of asynchronous events is performed through a + * synchronous call to the \ref u_k_api. + * + * Since the events are asynchronous, the events have to be queued until a + * synchronous U/K API call can be made by user-space. A U/K API call might also + * be received before any event has happened. Therefore the notifications the + * different subsystems wants to send to user space has to be queued for later + * reception, or a U/K API call has to be blocked until an event has occured. + * + * Typical uses of notifications are after running of jobs on the hardware or + * when changes to the system is detected that needs to be relayed to user + * space. + * + * After an event has occured user space has to be notified using some kind of + * message. The notification framework supports sending messages to waiting + * threads or queueing of messages until a U/K API call is made. + * + * The notification queue is a FIFO. There are no restrictions on the numbers + * of readers or writers in the queue. + * + * A message contains what user space needs to identifiy how to handle an + * event. This includes a type field and a possible type specific payload. + * + * A notification to user space is represented by a + * \ref _mali_osk_notification_t object. A sender gets hold of such an object + * using _mali_osk_notification_create(). The buffer given by the + * _mali_osk_notification_t::result_buffer field in the object is used to store + * any type specific data. The other fields are internal to the queue system + * and should not be touched. + * + * @{ */ + +/** @brief Create a notification object + * + * Returns a notification object which can be added to the queue of + * notifications pending for user space transfer. + * + * The implementation will initialize all members of the + * \ref _mali_osk_notification_t object. In particular, the + * _mali_osk_notification_t::result_buffer member will be initialized to point + * to \a size bytes of storage, and that storage will be suitably aligned for + * storage of any structure. That is, the created buffer meets the same + * requirements as _mali_osk_malloc(). + * + * The notification object must be deleted when not in use. Use + * _mali_osk_notification_delete() for deleting it. + * + * @note You \b must \b not call _mali_osk_free() on a \ref _mali_osk_notification_t, + * object, or on a _mali_osk_notification_t::result_buffer. You must only use + * _mali_osk_notification_delete() to free the resources assocaited with a + * \ref _mali_osk_notification_t object. + * + * @param type The notification type + * @param size The size of the type specific buffer to send + * @return Pointer to a notification object with a suitable buffer, or NULL on error. + */ +_mali_osk_notification_t *_mali_osk_notification_create(u32 type, u32 size); + +/** @brief Delete a notification object + * + * This must be called to reclaim the resources of a notification object. This + * includes: + * - The _mali_osk_notification_t::result_buffer + * - The \ref _mali_osk_notification_t itself. + * + * A notification object \b must \b not be used after it has been deleted by + * _mali_osk_notification_delete(). + * + * In addition, the notification object may not be deleted while it is in a + * queue. That is, if it has been placed on a queue with + * _mali_osk_notification_queue_send(), then it must not be deleted until + * it has been received by a call to _mali_osk_notification_queue_receive(). + * Otherwise, the queue may be corrupted. + * + * @param object the notification object to delete. + */ +void _mali_osk_notification_delete(_mali_osk_notification_t *object); + +/** @brief Create a notification queue + * + * Creates a notification queue which can be used to queue messages for user + * delivery and get queued messages from + * + * The queue is a FIFO, and has no restrictions on the numbers of readers or + * writers. + * + * When the queue is no longer in use, it must be terminated with + * \ref _mali_osk_notification_queue_term(). Failure to do so will result in a + * memory leak. + * + * @return Pointer to a new notification queue or NULL on error. + */ +_mali_osk_notification_queue_t *_mali_osk_notification_queue_init(void); + +/** @brief Destroy a notification queue + * + * Destroys a notification queue and frees associated resources from the queue. + * + * A notification queue \b must \b not be destroyed in the following cases: + * - while there are \ref _mali_osk_notification_t objects in the queue. + * - while there are writers currently acting upon the queue. That is, while + * a thread is currently calling \ref _mali_osk_notification_queue_send() on + * the queue, or while a thread may call + * \ref _mali_osk_notification_queue_send() on the queue in the future. + * - while there are readers currently waiting upon the queue. That is, while + * a thread is currently calling \ref _mali_osk_notification_queue_receive() on + * the queue, or while a thread may call + * \ref _mali_osk_notification_queue_receive() on the queue in the future. + * + * Therefore, all \ref _mali_osk_notification_t objects must be flushed and + * deleted by the code that makes use of the notification queues, since only + * they know the structure of the _mali_osk_notification_t::result_buffer + * (even if it may only be a flat sturcture). + * + * @note Since the queue is a FIFO, the code using notification queues may + * create its own 'flush' type of notification, to assist in flushing the + * queue. + * + * Once the queue has been destroyed, it must not be used again. + * + * @param queue The queue to destroy + */ +void _mali_osk_notification_queue_term(_mali_osk_notification_queue_t *queue); + +/** @brief Schedule notification for delivery + * + * When a \ref _mali_osk_notification_t object has been created successfully + * and set up, it may be added to the queue of objects waiting for user space + * transfer. + * + * The sending will not block if the queue is full. + * + * A \ref _mali_osk_notification_t object \b must \b not be put on two different + * queues at the same time, or enqueued twice onto a single queue before + * reception. However, it is acceptable for it to be requeued \em after reception + * from a call to _mali_osk_notification_queue_receive(), even onto the same queue. + * + * Again, requeuing must also not enqueue onto two different queues at the same + * time, or enqueue onto the same queue twice before reception. + * + * @param queue The notification queue to add this notification to + * @param object The entry to add + */ +void _mali_osk_notification_queue_send(_mali_osk_notification_queue_t *queue, _mali_osk_notification_t *object); + +/** @brief Receive a notification from a queue + * + * Receives a single notification from the given queue. + * + * If no notifciations are ready the thread will sleep until one becomes ready. + * Therefore, notifications may not be received into an + * IRQ or 'atomic' context (that is, a context where sleeping is disallowed). + * + * @param queue The queue to receive from + * @param result Pointer to storage of a pointer of type + * \ref _mali_osk_notification_t*. \a result will be written to such that the + * expression \a (*result) will evaluate to a pointer to a valid + * \ref _mali_osk_notification_t object, or NULL if none were received. + * @return _MALI_OSK_ERR_OK on success. _MALI_OSK_ERR_RESTARTSYSCALL if the sleep was interrupted. + */ +_mali_osk_errcode_t _mali_osk_notification_queue_receive(_mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result); + +/** @brief Dequeues a notification from a queue + * + * Receives a single notification from the given queue. + * + * If no notifciations are ready the function call will return an error code. + * + * @param queue The queue to receive from + * @param result Pointer to storage of a pointer of type + * \ref _mali_osk_notification_t*. \a result will be written to such that the + * expression \a (*result) will evaluate to a pointer to a valid + * \ref _mali_osk_notification_t object, or NULL if none were received. + * @return _MALI_OSK_ERR_OK on success, _MALI_OSK_ERR_ITEM_NOT_FOUND if queue was empty. + */ +_mali_osk_errcode_t _mali_osk_notification_queue_dequeue(_mali_osk_notification_queue_t *queue, _mali_osk_notification_t **result); + +/** @} */ /* end group _mali_osk_notification */ + + +/** @addtogroup _mali_osk_timer + * + * Timers use the OS's representation of time, which are 'ticks'. This is to + * prevent aliasing problems between the internal timer time, and the time + * asked for. + * + * @{ */ + +/** @brief Initialize a timer + * + * Allocates resources for a new timer, and initializes them. This does not + * start the timer. + * + * @return a pointer to the allocated timer object, or NULL on failure. + */ +_mali_osk_timer_t *_mali_osk_timer_init(void); + +/** @brief Start a timer + * + * It is an error to start a timer without setting the callback via + * _mali_osk_timer_setcallback(). + * + * It is an error to use this to start an already started timer. + * + * The timer will expire in \a ticks_to_expire ticks, at which point, the + * callback function will be invoked with the callback-specific data, + * as registered by _mali_osk_timer_setcallback(). + * + * @param tim the timer to start + * @param ticks_to_expire the amount of time in ticks for the timer to run + * before triggering. + */ +void _mali_osk_timer_add(_mali_osk_timer_t *tim, unsigned long ticks_to_expire); + +/** @brief Modify a timer + * + * Set the relative time at which a timer will expire, and start it if it is + * stopped. If \a ticks_to_expire 0 the timer fires immediately. + * + * It is an error to modify a timer without setting the callback via + * _mali_osk_timer_setcallback(). + * + * The timer will expire at \a ticks_to_expire from the time of the call, at + * which point, the callback function will be invoked with the + * callback-specific data, as set by _mali_osk_timer_setcallback(). + * + * @param tim the timer to modify, and start if necessary + * @param ticks_to_expire the \em absolute time in ticks at which this timer + * should trigger. + * + */ +void _mali_osk_timer_mod(_mali_osk_timer_t *tim, unsigned long ticks_to_expire); + +/** @brief Stop a timer, and block on its completion. + * + * Stop the timer. When the function returns, it is guaranteed that the timer's + * callback will not be running on any CPU core. + * + * Since stoping the timer blocks on compeletion of the callback, the callback + * may not obtain any mutexes that the caller holds. Otherwise, a deadlock will + * occur. + * + * @note While the callback itself is guaranteed to not be running, work + * enqueued on the work-queue by the timer (with + * \ref _mali_osk_wq_schedule_work()) may still run. The timer callback and + * work handler must take this into account. + * + * It is legal to stop an already stopped timer. + * + * @param tim the timer to stop. + * + */ +void _mali_osk_timer_del(_mali_osk_timer_t *tim); + +/** @brief Stop a timer. + * + * Stop the timer. When the function returns, the timer's callback may still be + * running on any CPU core. + * + * It is legal to stop an already stopped timer. + * + * @param tim the timer to stop. + */ +void _mali_osk_timer_del_async(_mali_osk_timer_t *tim); + +/** @brief Check if timer is pending. + * + * Check if timer is active. + * + * @param tim the timer to check + * @return MALI_TRUE if time is active, MALI_FALSE if it is not active + */ +mali_bool _mali_osk_timer_pending(_mali_osk_timer_t *tim); + +/** @brief Set a timer's callback parameters. + * + * This must be called at least once before a timer is started/modified. + * + * After a timer has been stopped or expires, the callback remains set. This + * means that restarting the timer will call the same function with the same + * parameters on expiry. + * + * @param tim the timer to set callback on. + * @param callback Function to call when timer expires + * @param data Function-specific data to supply to the function on expiry. + */ +void _mali_osk_timer_setcallback(_mali_osk_timer_t *tim, _mali_osk_timer_callback_t callback, void *data); + +/** @brief Terminate a timer, and deallocate resources. + * + * The timer must first be stopped by calling _mali_osk_timer_del(). + * + * It is a programming error for _mali_osk_timer_term() to be called on: + * - timer that is currently running + * - a timer that is currently executing its callback. + * + * @param tim the timer to deallocate. + */ +void _mali_osk_timer_term(_mali_osk_timer_t *tim); +/** @} */ /* end group _mali_osk_timer */ + + +/** @defgroup _mali_osk_time OSK Time functions + * + * \ref _mali_osk_time use the OS's representation of time, which are + * 'ticks'. This is to prevent aliasing problems between the internal timer + * time, and the time asked for. + * + * OS tick time is measured as a u32. The time stored in a u32 may either be + * an absolute time, or a time delta between two events. Whilst it is valid to + * use math opeartors to \em change the tick value represented as a u32, it + * is often only meaningful to do such operations on time deltas, rather than + * on absolute time. However, it is meaningful to add/subtract time deltas to + * absolute times. + * + * Conversion between tick time and milliseconds (ms) may not be loss-less, + * and are \em implementation \em depenedant. + * + * Code use OS time must take this into account, since: + * - a small OS time may (or may not) be rounded + * - a large time may (or may not) overflow + * + * @{ */ + +/** @brief Return whether ticka occurs after or at the same time as tickb + * + * Systems where ticks can wrap must handle that. + * + * @param ticka ticka + * @param tickb tickb + * @return MALI_TRUE if ticka represents a time that occurs at or after tickb. + */ +mali_bool _mali_osk_time_after_eq(unsigned long ticka, unsigned long tickb); + +/** @brief Convert milliseconds to OS 'ticks' + * + * @param ms time interval in milliseconds + * @return the corresponding time interval in OS ticks. + */ +unsigned long _mali_osk_time_mstoticks(u32 ms); + +/** @brief Convert OS 'ticks' to milliseconds + * + * @param ticks time interval in OS ticks. + * @return the corresponding time interval in milliseconds + */ +u32 _mali_osk_time_tickstoms(unsigned long ticks); + + +/** @brief Get the current time in OS 'ticks'. + * @return the current time in OS 'ticks'. + */ +unsigned long _mali_osk_time_tickcount(void); + +/** @brief Cause a microsecond delay + * + * The delay will have microsecond resolution, and is necessary for correct + * operation of the driver. At worst, the delay will be \b at least \a usecs + * microseconds, and so may be (significantly) more. + * + * This function may be implemented as a busy-wait, which is the most sensible + * implementation. On OSs where there are situations in which a thread must not + * sleep, this is definitely implemented as a busy-wait. + * + * @param usecs the number of microseconds to wait for. + */ +void _mali_osk_time_ubusydelay(u32 usecs); + +/** @brief Return time in nano seconds, since any given reference. + * + * @return Time in nano seconds + */ +u64 _mali_osk_time_get_ns(void); + +/** @brief Return time in nano seconds, since boot time. + * + * @return Time in nano seconds + */ +u64 _mali_osk_boot_time_get_ns(void); + +/** @} */ /* end group _mali_osk_time */ + +/** @defgroup _mali_osk_math OSK Math + * @{ */ + +/** @brief Count Leading Zeros (Little-endian) + * + * @note This function must be implemented to support the reference + * implementation of _mali_osk_find_first_zero_bit, as defined in + * mali_osk_bitops.h. + * + * @param val 32-bit words to count leading zeros on + * @return the number of leading zeros. + */ +u32 _mali_osk_clz(u32 val); + +/** @brief find last (most-significant) bit set + * + * @param val 32-bit words to count last bit set on + * @return last bit set. + */ +u32 _mali_osk_fls(u32 val); + +/** @} */ /* end group _mali_osk_math */ + +/** @addtogroup _mali_osk_wait_queue OSK Wait Queue functionality + * @{ */ + +/** @brief Initialize an empty Wait Queue */ +_mali_osk_wait_queue_t *_mali_osk_wait_queue_init(void); + +/** @brief Sleep if condition is false + * + * @param queue the queue to use + * @param condition function pointer to a boolean function + * @param data data parameter for condition function + * + * Put thread to sleep if the given \a condition function returns false. When + * being asked to wake up again, the condition will be re-checked and the + * thread only woken up if the condition is now true. + */ +void _mali_osk_wait_queue_wait_event(_mali_osk_wait_queue_t *queue, mali_bool(*condition)(void *), void *data); + +/** @brief Sleep if condition is false + * + * @param queue the queue to use + * @param condition function pointer to a boolean function + * @param data data parameter for condition function + * @param timeout timeout in ms + * + * Put thread to sleep if the given \a condition function returns false. When + * being asked to wake up again, the condition will be re-checked and the + * thread only woken up if the condition is now true. Will return if time + * exceeds timeout. + */ +void _mali_osk_wait_queue_wait_event_timeout(_mali_osk_wait_queue_t *queue, mali_bool(*condition)(void *), void *data, u32 timeout); + +/** @brief Wake up all threads in wait queue if their respective conditions are + * true + * + * @param queue the queue whose threads should be woken up + * + * Wake up all threads in wait queue \a queue whose condition is now true. + */ +void _mali_osk_wait_queue_wake_up(_mali_osk_wait_queue_t *queue); + +/** @brief terminate a wait queue + * + * @param queue the queue to terminate. + */ +void _mali_osk_wait_queue_term(_mali_osk_wait_queue_t *queue); +/** @} */ /* end group _mali_osk_wait_queue */ + + +/** @addtogroup _mali_osk_miscellaneous + * @{ */ + +/** @brief Output a device driver debug message. + * + * The interpretation of \a fmt is the same as the \c format parameter in + * _mali_osu_vsnprintf(). + * + * @param fmt a _mali_osu_vsnprintf() style format string + * @param ... a variable-number of parameters suitable for \a fmt + */ +void _mali_osk_dbgmsg(const char *fmt, ...); + +/** @brief Print fmt into buf. + * + * The interpretation of \a fmt is the same as the \c format parameter in + * _mali_osu_vsnprintf(). + * + * @param buf a pointer to the result buffer + * @param size the total number of bytes allowed to write to \a buf + * @param fmt a _mali_osu_vsnprintf() style format string + * @param ... a variable-number of parameters suitable for \a fmt + * @return The number of bytes written to \a buf + */ +u32 _mali_osk_snprintf(char *buf, u32 size, const char *fmt, ...); + +/** @brief Print fmt into print_ctx. + * + * The interpretation of \a fmt is the same as the \c format parameter in + * _mali_osu_vsnprintf(). + * + * @param print_ctx a pointer to the result file buffer + * @param fmt a _mali_osu_vsnprintf() style format string + * @param ... a variable-number of parameters suitable for \a fmt + */ +void _mali_osk_ctxprintf(_mali_osk_print_ctx *print_ctx, const char *fmt, ...); + +/** @brief Abnormal process abort. + * + * Terminates the caller-process if this function is called. + * + * This function will be called from Debug assert-macros in mali_kernel_common.h. + * + * This function will never return - because to continue from a Debug assert + * could cause even more problems, and hinder debugging of the initial problem. + * + * This function is only used in Debug builds, and is not used in Release builds. + */ +void _mali_osk_abort(void); + +/** @brief Sets breakpoint at point where function is called. + * + * This function will be called from Debug assert-macros in mali_kernel_common.h, + * to assist in debugging. If debugging at this level is not required, then this + * function may be implemented as a stub. + * + * This function is only used in Debug builds, and is not used in Release builds. + */ +void _mali_osk_break(void); + +/** @brief Return an identificator for calling process. + * + * @return Identificator for calling process. + */ +u32 _mali_osk_get_pid(void); + +/** @brief Return an name for calling process. + * + * @return name for calling process. + */ +char *_mali_osk_get_comm(void); + +/** @brief Return an identificator for calling thread. + * + * @return Identificator for calling thread. + */ +u32 _mali_osk_get_tid(void); + + +/** @brief Take a reference to the power manager system for the Mali device (synchronously). + * + * When function returns successfully, Mali is ON. + * + * @note Call \a _mali_osk_pm_dev_ref_put() to release this reference. + */ +_mali_osk_errcode_t _mali_osk_pm_dev_ref_get_sync(void); + +/** @brief Take a reference to the external power manager system for the Mali device (asynchronously). + * + * Mali might not yet be on after this function as returned. + * Please use \a _mali_osk_pm_dev_barrier() or \a _mali_osk_pm_dev_ref_get_sync() + * to wait for Mali to be powered on. + * + * @note Call \a _mali_osk_pm_dev_ref_dec() to release this reference. + */ +_mali_osk_errcode_t _mali_osk_pm_dev_ref_get_async(void); + +/** @brief Release the reference to the external power manger system for the Mali device. + * + * When reference count reach zero, the cores can be off. + * + * @note This must be used to release references taken with + * \a _mali_osk_pm_dev_ref_get_sync() or \a _mali_osk_pm_dev_ref_get_sync(). + */ +void _mali_osk_pm_dev_ref_put(void); + +/** @brief Block until pending PM operations are done + */ +void _mali_osk_pm_dev_barrier(void); + +/** @} */ /* end group _mali_osk_miscellaneous */ + +/** @defgroup _mali_osk_bitmap OSK Bitmap + * @{ */ + +/** @brief Allocate a unique number from the bitmap object. + * + * @param bitmap Initialized bitmap object. + * @return An unique existence in the bitmap object. + */ +u32 _mali_osk_bitmap_alloc(struct _mali_osk_bitmap *bitmap); + +/** @brief Free a interger to the bitmap object. + * + * @param bitmap Initialized bitmap object. + * @param obj An number allocated from bitmap object. + */ +void _mali_osk_bitmap_free(struct _mali_osk_bitmap *bitmap, u32 obj); + +/** @brief Allocate continuous number from the bitmap object. + * + * @param bitmap Initialized bitmap object. + * @return start number of the continuous number block. + */ +u32 _mali_osk_bitmap_alloc_range(struct _mali_osk_bitmap *bitmap, int cnt); + +/** @brief Free a block of continuous number block to the bitmap object. + * + * @param bitmap Initialized bitmap object. + * @param obj Start number. + * @param cnt The size of the continuous number block. + */ +void _mali_osk_bitmap_free_range(struct _mali_osk_bitmap *bitmap, u32 obj, int cnt); + +/** @brief Available count could be used to allocate in the given bitmap object. + * + */ +u32 _mali_osk_bitmap_avail(struct _mali_osk_bitmap *bitmap); + +/** @brief Initialize an bitmap object.. + * + * @param bitmap An poiter of uninitialized bitmap object. + * @param num Size of thei bitmap object and decide the memory size allocated. + * @param reserve start number used to allocate. + */ +int _mali_osk_bitmap_init(struct _mali_osk_bitmap *bitmap, u32 num, u32 reserve); + +/** @brief Free the given bitmap object. + * + * @param bitmap Initialized bitmap object. + */ +void _mali_osk_bitmap_term(struct _mali_osk_bitmap *bitmap); +/** @} */ /* end group _mali_osk_bitmap */ + +/** @} */ /* end group osuapi */ + +/** @} */ /* end group uddapi */ + + + +#ifdef __cplusplus +} +#endif + +/* Check standard inlines */ +#ifndef MALI_STATIC_INLINE +#error MALI_STATIC_INLINE not defined on your OS +#endif + +#ifndef MALI_NON_STATIC_INLINE +#error MALI_NON_STATIC_INLINE not defined on your OS +#endif + +#endif /* __MALI_OSK_H__ */ |