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/**
* @file IxOsal.h
*
* @brief Top include file for OSAL
*
*
* @par
* IXP400 SW Release version 2.0
*
* -- Copyright Notice --
*
* @par
* Copyright 2001-2005, Intel Corporation.
* All rights reserved.
*
* @par
* SPDX-License-Identifier: BSD-3-Clause
* @par
* -- End of Copyright Notice --
*/
#ifndef IxOsal_H
#define IxOsal_H
/* Basic types */
#include "IxOsalTypes.h"
/* Include assert */
#include "IxOsalAssert.h"
/*
* Config header gives users option to choose IO MEM
* and buffer management modules
*/
#include "IxOsalConfig.h"
/*
* Symbol file needed by some OS.
*/
#include "IxOsalUtilitySymbols.h"
/* OS-specific header */
#include "IxOsalOs.h"
/**
* @defgroup IxOsal Operating System Abstraction Layer (IxOsal) API
*
* @brief This service provides a thin layer of OS dependency services.
*
* This file contains the API to the functions which are some what OS dependant and would
* require porting to a particular OS.
* A primary focus of the component development is to make them as OS independent as possible.
* All other components should abstract their OS dependency to this module.
* Services overview
* -# Data types, constants, defines
* -# Interrupts
* - bind interrupts to handlers
* - unbind interrupts from handlers
* - disables all interrupts
* - enables all interrupts
* - selectively disables interrupts
* - enables an interrupt level
* - disables an interrupt level
* -# Memory
* - allocates memory
* - frees memory
* - copies memory zones
* - fills a memory zone
* - allocates cache-safe memory
* - frees cache-safe memory
* - physical to virtual address translation
* - virtual to physical address translation
* - cache to memory flush
* - cache line invalidate
* -# Threads
* - creates a new thread
* - starts a newly created thread
* - kills an existing thread
* - exits a running thread
* - sets the priority of an existing thread
* - suspends thread execution
* - resumes thread execution
* -# IPC
* - creates a message queue
* - deletes a message queue
* - sends a message to a message queue
* - receives a message from a message queue
* -# Thread Synchronisation
* - initializes a mutex
* - locks a mutex
* - unlocks a mutex
* - non-blocking attempt to lock a mutex
* - destroys a mutex object
* - initializes a fast mutex
* - non-blocking attempt to lock a fast mutex
* - unlocks a fast mutex
* - destroys a fast mutex object
* - initializes a semaphore
* - posts to (increments) a semaphore
* - waits on (decrements) a semaphore
* - non-blocking wait on semaphore
* - gets semaphore value
* - destroys a semaphore object
* - yields execution of current thread
* -# Time functions
* - yielding sleep for a number of milliseconds
* - busy sleep for a number of microseconds
* - value of the timestamp counter
* - resolution of the timestamp counter
* - system clock rate, in ticks
* - current system time
* - converts ixOsalTimeVal into ticks
* - converts ticks into ixOsalTimeVal
* - converts ixOsalTimeVal to milliseconds
* - converts milliseconds to IxOsalTimeval
* - "equal" comparison for IxOsalTimeval
* - "less than" comparison for IxOsalTimeval
* - "greater than" comparison for IxOsalTimeval
* - "add" operator for IxOsalTimeval
* - "subtract" operator for IxOsalTimeval
* -# Logging
* - sets the current logging verbosity level
* - interrupt-safe logging function
* -# Timer services
* - schedules a repeating timer
* - schedules a single-shot timer
* - cancels a running timer
* - displays all the running timers
* -# Optional Modules
* - Buffer management module
* - I/O memory and endianess support module
*
* @{
*/
/*
* Prototypes
*/
/* ========================== Interrupts ================================
*
*/
/**
* @ingroup IxOsal
*
* @brief Binds an interrupt handler to an interrupt level
*
* @param irqLevel (in) - interrupt level
* @param irqHandler (in) - interrupt handler
* @param parameter (in) - custom parameter to be passed to the
* interrupt handler
*
* Binds an interrupt handler to an interrupt level. The operation will
* fail if the wrong level is selected, if the handler is NULL, or if the
* interrupt is already bound. This functions binds the specified C
* routine to an interrupt level. When called, the "parameter" value will
* be passed to the routine.
*
* Reentrant: no
* IRQ safe: no
*
* @return IX_SUCCESS if the operation succeeded or IX_FAIL otherwise
*/
PUBLIC IX_STATUS ixOsalIrqBind (UINT32 irqLevel,
IxOsalVoidFnVoidPtr irqHandler,
void *parameter);
/**
* @ingroup IxOsal
*
* @brief Unbinds an interrupt handler from an interrupt level
*
* @param irqLevel (in) - interrupt level
*
* Unbinds the selected interrupt level from any previously registered
* handler
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return IX_SUCCESS if the operation succeeded or IX_FAIL otherwise
*/
PUBLIC IX_STATUS ixOsalIrqUnbind (UINT32 irqLevel);
/**
* @ingroup IxOsal
*
* @brief Disables all interrupts
*
* @param - none
*
* Disables all the interrupts and prevents tasks scheduling
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return interrupt enable status prior to locking
*/
PUBLIC UINT32 ixOsalIrqLock (void);
/**
* @ingroup IxOsal
*
* @brief Enables all interrupts
*
* @param irqEnable (in) - interrupt enable status, prior to interrupt
* locking
*
* Enables the interrupts and task scheduling, cancelling the effect
* of ixOsalIrqLock()
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return IX_SUCCESS if the operation succeeded or IX_FAIL otherwise
*/
PUBLIC void ixOsalIrqUnlock (UINT32 irqEnable);
/**
* @ingroup IxOsal
*
* @brief Selectively disables interrupts
*
* @param irqLevel - new interrupt level
*
* Disables the interrupts below the specified interrupt level
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @note Depending on the implementation this function can disable all
* the interrupts
*
* @return previous interrupt level
*/
PUBLIC UINT32 ixOsalIrqLevelSet (UINT32 irqLevel);
/**
* @ingroup IxOsal
*
* @brief Enables an interrupt level
*
* @param irqLevel - interrupt level to enable
*
* Enables the specified interrupt level
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - none
*/
PUBLIC void ixOsalIrqEnable (UINT32 irqLevel);
/**
* @ingroup IxOsal
*
* @brief Disables an interrupt level
*
* @param irqLevel - interrupt level to disable
*
* Disables the specified interrupt level
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - none
*/
PUBLIC void ixOsalIrqDisable (UINT32 irqLevel);
/* ============================= Memory =================================
*
*/
/**
* @ingroup IxOsal
*
* @brief Allocates memory
*
* @param size - memory size to allocate, in bytes
*
* Allocates a memory zone of a given size
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return Pointer to the allocated zone or NULL if the allocation failed
*/
PUBLIC void *ixOsalMemAlloc (UINT32 size);
/**
* @ingroup IxOsal
*
* @brief Frees memory
*
* @param ptr - pointer to the memory zone
*
* Frees a previously allocated memory zone
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*/
PUBLIC void ixOsalMemFree (void *ptr);
/**
* @ingroup IxOsal
*
* @brief Copies memory zones
*
* @param dest - destination memory zone
* @param src - source memory zone
* @param count - number of bytes to copy
*
* Copies count bytes from the source memory zone pointed by src into the
* memory zone pointed by dest.
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return Pointer to the destination memory zone
*/
PUBLIC void *ixOsalMemCopy (void *dest, void *src, UINT32 count);
/**
* @ingroup IxOsal
*
* @brief Fills a memory zone
*
* @param ptr - pointer to the memory zone
* @param filler - byte to fill the memory zone with
* @param count - number of bytes to fill
*
* Fills a memory zone with a given constant byte
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return Pointer to the memory zone
*/
PUBLIC void *ixOsalMemSet (void *ptr, UINT8 filler, UINT32 count);
/**
* @ingroup IxOsal
*
* @brief Allocates cache-safe memory
*
* @param size - size, in bytes, of the allocated zone
*
* Allocates a cache-safe memory zone of at least "size" bytes and returns
* the pointer to the memory zone. This memory zone, depending on the
* platform, is either uncached or aligned on a cache line boundary to make
* the CACHE_FLUSH and CACHE_INVALIDATE macros safe to use. The memory
* allocated with this function MUST be freed with ixOsalCacheDmaFree(),
* otherwise memory corruption can occur.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return Pointer to the memory zone or NULL if allocation failed
*
* @note It is important to note that cache coherence is maintained in
* software by using the IX_OSAL_CACHE_FLUSH and IX_OSAL_CACHE_INVALIDATE
* macros to maintain consistency between cache and external memory.
*/
PUBLIC void *ixOsalCacheDmaMalloc (UINT32 size);
/* Macros for ixOsalCacheDmaMalloc*/
#define IX_OSAL_CACHE_DMA_MALLOC(size) ixOsalCacheDmaMalloc(size)
/**
* @ingroup IxOsal
*
* @brief Frees cache-safe memory
*
* @param ptr - pointer to the memory zone
*
* Frees a memory zone previously allocated with ixOsalCacheDmaMalloc()
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*/
PUBLIC void ixOsalCacheDmaFree (void *ptr);
#define IX_OSAL_CACHE_DMA_FREE(ptr) ixOsalCacheDmaFree(ptr)
/**
* @ingroup IxOsal
*
* @brief physical to virtual address translation
*
* @param physAddr - physical address
*
* Converts a physical address into its equivalent MMU-mapped virtual address
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return Corresponding virtual address, as UINT32
*/
#define IX_OSAL_MMU_PHYS_TO_VIRT(physAddr) \
IX_OSAL_OS_MMU_PHYS_TO_VIRT(physAddr)
/**
* @ingroup IxOsal
*
* @brief virtual to physical address translation
*
* @param virtAddr - virtual address
*
* Converts a virtual address into its equivalent MMU-mapped physical address
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return Corresponding physical address, as UINT32
*/
#define IX_OSAL_MMU_VIRT_TO_PHYS(virtAddr) \
IX_OSAL_OS_MMU_VIRT_TO_PHYS(virtAddr)
/**
* @ingroup IxOsal
*
* @brief cache to memory flush
*
* @param addr - memory address to flush from cache
* @param size - number of bytes to flush (rounded up to a cache line)
*
* Flushes the cached value of the memory zone pointed by "addr" into memory,
* rounding up to a cache line. Use before the zone is to be read by a
* processing unit which is not cache coherent with the main CPU.
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - none
*/
#define IX_OSAL_CACHE_FLUSH(addr, size) IX_OSAL_OS_CACHE_FLUSH(addr, size)
/**
* @ingroup IxOsal
*
* @brief cache line invalidate
*
* @param addr - memory address to invalidate in cache
* @param size - number of bytes to invalidate (rounded up to a cache line)
*
* Invalidates the cached value of the memory zone pointed by "addr",
* rounding up to a cache line. Use before reading the zone from the main
* CPU, if the zone has been updated by a processing unit which is not cache
* coherent with the main CPU.
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - none
*/
#define IX_OSAL_CACHE_INVALIDATE(addr, size) IX_OSAL_OS_CACHE_INVALIDATE(addr, size)
/* ============================= Threads =================================
*
*/
/**
* @ingroup IxOsal
*
* @brief Creates a new thread
*
* @param thread - handle of the thread to be created
* @param threadAttr - pointer to a thread attribute object
* @param startRoutine - thread entry point
* @param arg - argument given to the thread
*
* Creates a thread given a thread handle and a thread attribute object. The
* same thread attribute object can be used to create separate threads. "NULL"
* can be specified as the attribute, in which case the default values will
* be used. The thread needs to be explicitly started using ixOsalThreadStart().
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadCreate (IxOsalThread * thread,
IxOsalThreadAttr * threadAttr,
IxOsalVoidFnVoidPtr startRoutine,
void *arg);
/**
* @ingroup IxOsal
*
* @brief Starts a newly created thread
*
* @param thread - handle of the thread to be started
*
* Starts a thread given its thread handle. This function is to be called
* only once, following the thread initialization.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadStart (IxOsalThread * thread);
/**
* @ingroup IxOsal
*
* @brief Kills an existing thread
*
* @param thread - handle of the thread to be killed
*
* Kills a thread given its thread handle.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @note It is not possible to kill threads in Linux kernel mode. This
* function will only send a SIGTERM signal, and it is the responsibility
* of the thread to check for the presence of this signal with
* signal_pending().
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadKill (IxOsalThread * thread);
/**
* @ingroup IxOsal
*
* @brief Exits a running thread
*
* Terminates the calling thread
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - This function never returns
*/
PUBLIC void ixOsalThreadExit (void);
/**
* @ingroup IxOsal
*
* @brief Sets the priority of an existing thread
*
* @param thread - handle of the thread
* @param priority - new priority, between 0 and 255 (0 being the highest)
*
* Sets the thread priority
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadPrioritySet (IxOsalThread * thread,
UINT32 priority);
/**
* @ingroup IxOsal
*
* @brief Suspends thread execution
*
* @param thread - handle of the thread
*
* Suspends the thread execution
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadSuspend (IxOsalThread * thread);
/**
* @ingroup IxOsal
*
* @brief Resumes thread execution
*
* @param thread - handle of the thread
*
* Resumes the thread execution
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalThreadResume (IxOsalThread * thread);
/* ======================= Message Queues (IPC) ==========================
*
*/
/**
* @ingroup IxOsal
*
* @brief Creates a message queue
*
* @param queue - queue handle
* @param msgCount - maximum number of messages to hold in the queue
* @param msgLen - maximum length of each message, in bytes
*
* Creates a message queue of msgCount messages, each containing msgLen bytes
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMessageQueueCreate (IxOsalMessageQueue * queue,
UINT32 msgCount, UINT32 msgLen);
/**
* @ingroup IxOsal
*
* @brief Deletes a message queue
*
* @param queue - queue handle
*
* Deletes a message queue
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMessageQueueDelete (IxOsalMessageQueue * queue);
/**
* @ingroup IxOsal
*
* @brief Sends a message to a message queue
*
* @param queue - queue handle
* @param message - message to send
*
* Sends a message to the message queue. The message will be copied (at the
* configured size of the message) into the queue.
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMessageQueueSend (IxOsalMessageQueue * queue,
UINT8 * message);
/**
* @ingroup IxOsal
*
* @brief Receives a message from a message queue
*
* @param queue - queue handle
* @param message - pointer to where the message should be copied to
*
* Retrieves the first message from the message queue
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMessageQueueReceive (IxOsalMessageQueue * queue,
UINT8 * message);
/* ======================= Thread Synchronisation ========================
*
*/
/**
* @ingroup IxOsal
*
* @brief initializes a mutex
*
* @param mutex - mutex handle
*
* Initializes a mutex object
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMutexInit (IxOsalMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief locks a mutex
*
* @param mutex - mutex handle
* @param timeout - timeout in ms; IX_OSAL_WAIT_FOREVER (-1) to wait forever
* or IX_OSAL_WAIT_NONE to return immediately
*
* Locks a mutex object
*
* @li Reentrant: yes
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMutexLock (IxOsalMutex * mutex, INT32 timeout);
/**
* @ingroup IxOsal
*
* @brief Unlocks a mutex
*
* @param mutex - mutex handle
*
* Unlocks a mutex object
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMutexUnlock (IxOsalMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Non-blocking attempt to lock a mutex
*
* @param mutex - mutex handle
*
* Attempts to lock a mutex object, returning immediately with IX_SUCCESS if
* the lock was successful or IX_FAIL if the lock failed
*
* @li Reentrant: yes
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMutexTryLock (IxOsalMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Destroys a mutex object
*
* @param mutex - mutex handle
* @param
*
* Destroys a mutex object; the caller should ensure that no thread is
* blocked on this mutex
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalMutexDestroy (IxOsalMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Initializes a fast mutex
*
* @param mutex - fast mutex handle
*
* Initializes a fast mutex object
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalFastMutexInit (IxOsalFastMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Non-blocking attempt to lock a fast mutex
*
* @param mutex - fast mutex handle
*
* Attempts to lock a fast mutex object, returning immediately with
* IX_SUCCESS if the lock was successful or IX_FAIL if the lock failed
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalFastMutexTryLock (IxOsalFastMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Unlocks a fast mutex
*
* @param mutex - fast mutex handle
*
* Unlocks a fast mutex object
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalFastMutexUnlock (IxOsalFastMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Destroys a fast mutex object
*
* @param mutex - fast mutex handle
*
* Destroys a fast mutex object
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalFastMutexDestroy (IxOsalFastMutex * mutex);
/**
* @ingroup IxOsal
*
* @brief Initializes a semaphore
*
* @param semaphore - semaphore handle
* @param value - initial semaphore value
*
* Initializes a semaphore object
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphoreInit (IxOsalSemaphore * semaphore,
UINT32 value);
/**
* @ingroup IxOsal
*
* @brief Posts to (increments) a semaphore
*
* @param semaphore - semaphore handle
*
* Increments a semaphore object
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphorePost (IxOsalSemaphore * semaphore);
/**
* @ingroup IxOsal
*
* @brief Waits on (decrements) a semaphore
*
* @param semaphore - semaphore handle
* @param timeout - timeout, in ms; IX_OSAL_WAIT_FOREVER (-1) if the thread
* is to block indefinitely or IX_OSAL_WAIT_NONE (0) if the thread is to
* return immediately even if the call fails
*
* Decrements a semaphore, blocking if the semaphore is
* unavailable (value is 0).
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphoreWait (IxOsalSemaphore * semaphore,
INT32 timeout);
/**
* @ingroup IxOsal
*
* @brief Non-blocking wait on semaphore
*
* @param semaphore - semaphore handle
*
* Decrements a semaphore, not blocking the calling thread if the semaphore
* is unavailable
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphoreTryWait (IxOsalSemaphore * semaphore);
/**
* @ingroup IxOsal
*
* @brief Gets semaphore value
*
* @param semaphore - semaphore handle
* @param value - location to store the semaphore value
*
* Retrieves the current value of a semaphore object
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphoreGetValue (IxOsalSemaphore * semaphore,
UINT32 * value);
/**
* @ingroup IxOsal
*
* @brief Destroys a semaphore object
*
* @param semaphore - semaphore handle
*
* Destroys a semaphore object; the caller should ensure that no thread is
* blocked on this semaphore
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalSemaphoreDestroy (IxOsalSemaphore * semaphore);
/**
* @ingroup IxOsal
*
* @brief Yields execution of current thread
*
* Yields the execution of the current thread
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*/
PUBLIC void ixOsalYield (void);
/* ========================== Time functions ===========================
*
*/
/**
* @ingroup IxOsal
*
* @brief Yielding sleep for a number of milliseconds
*
* @param milliseconds - number of milliseconds to sleep
*
* The calling thread will sleep for the specified number of milliseconds.
* This sleep is yielding, hence other tasks will be scheduled by the
* operating system during the sleep period. Calling this function with an
* argument of 0 will place the thread at the end of the current scheduling
* loop.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*/
PUBLIC void ixOsalSleep (UINT32 milliseconds);
/**
* @ingroup IxOsal
*
* @brief Busy sleep for a number of microseconds
*
* @param microseconds - number of microseconds to sleep
*
* Sleeps for the specified number of microseconds, without explicitly
* yielding thread execution to the OS scheduler
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - none
*/
PUBLIC void ixOsalBusySleep (UINT32 microseconds);
/**
* @ingroup IxOsal
*
* @brief XXX
*
* Retrieves the current timestamp
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - The current timestamp
*
* @note The implementation of this function is platform-specific. Not
* all the platforms provide a high-resolution timestamp counter.
*/
PUBLIC UINT32 ixOsalTimestampGet (void);
/**
* @ingroup IxOsal
*
* @brief Resolution of the timestamp counter
*
* Retrieves the resolution (frequency) of the timestamp counter.
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - The resolution of the timestamp counter
*
* @note The implementation of this function is platform-specific. Not all
* the platforms provide a high-resolution timestamp counter.
*/
PUBLIC UINT32 ixOsalTimestampResolutionGet (void);
/**
* @ingroup IxOsal
*
* @brief System clock rate, in ticks
*
* Retrieves the resolution (number of ticks per second) of the system clock
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - The system clock rate
*
* @note The implementation of this function is platform and OS-specific.
* The system clock rate is not always available - e.g. Linux does not
* provide this information in user mode
*/
PUBLIC UINT32 ixOsalSysClockRateGet (void);
/**
* @ingroup IxOsal
*
* @brief Current system time
*
* @param tv - pointer to an IxOsalTimeval structure to store the current
* time in
*
* Retrieves the current system time (real-time)
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*
* @note The implementation of this function is platform-specific. Not all
* platforms have a real-time clock.
*/
PUBLIC void ixOsalTimeGet (IxOsalTimeval * tv);
/* Internal function to convert timer val to ticks.
* NOTE - This should not be called by the user.
* Use the macro IX_OSAL_TIMEVAL_TO_TICKS
* OS-independent, implemented in framework.
*/
PUBLIC UINT32 ixOsalTimevalToTicks (IxOsalTimeval tv);
/**
* @ingroup IxOsal
*
* @brief Converts ixOsalTimeVal into ticks
*
* @param tv - an IxOsalTimeval structure
*
* Converts an IxOsalTimeval structure into OS ticks
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Corresponding number of ticks
*
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_TIMEVAL_TO_TICKS(tv) ixOsalTimevalToTicks(tv)
/* Internal function to convert ticks to timer val
* NOTE - This should not be called by the user.
* Use the macro IX_OSAL_TICKS_TO_TIMEVAL
*/
PUBLIC void ixOsalTicksToTimeval (UINT32 ticks, IxOsalTimeval * pTv);
/**
* @ingroup IxOsal
*
* @brief Converts ticks into ixOsalTimeVal
*
* @param ticks - number of ticks
* @param pTv - pointer to the destination structure
*
* Converts the specified number of ticks into an IxOsalTimeval structure
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Corresponding IxOsalTimeval structure
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_TICKS_TO_TIMEVAL(ticks, pTv) \
ixOsalTicksToTimeval(ticks, pTv)
/**
* @ingroup IxOsal
*
* @brief Converts ixOsalTimeVal to milliseconds
*
* @param tv - IxOsalTimeval structure to convert
*
* Converts an IxOsalTimeval structure into milliseconds
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Corresponding number of milliseconds
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_TIMEVAL_TO_MS(tv) ((tv.secs * 1000) + (tv.nsecs / 1000000))
/**
* @ingroup IxOsal
*
* @brief Converts milliseconds to IxOsalTimeval
*
* @param milliseconds - number of milliseconds to convert
* @param pTv - pointer to the destination structure
*
* Converts a millisecond value into an IxOsalTimeval structure
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Corresponding IxOsalTimeval structure
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_MS_TO_TIMEVAL(milliseconds, pTv) \
((IxOsalTimeval *) pTv)->secs = milliseconds / 1000; \
((IxOsalTimeval *) pTv)->nsecs = (milliseconds % 1000) * 1000000
/**
* @ingroup IxOsal
*
* @brief "equal" comparison for IxOsalTimeval
*
* @param tvA, tvB - IxOsalTimeval structures to compare
*
* Compares two IxOsalTimeval structures for equality
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - true if the structures are equal
* - false otherwise
* Note: This function is OS-independant
*/
#define IX_OSAL_TIME_EQ(tvA, tvB) \
((tvA).secs == (tvB).secs && (tvA).nsecs == (tvB).nsecs)
/**
* @ingroup IxOsal
*
* @brief "less than" comparison for IxOsalTimeval
*
* @param tvA, tvB - IxOsalTimeval structures to compare
*
* Compares two IxOsalTimeval structures to determine if the first one is
* less than the second one
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - true if tvA < tvB
* - false otherwise
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_TIME_LT(tvA,tvB) \
((tvA).secs < (tvB).secs || \
((tvA).secs == (tvB).secs && (tvA).nsecs < (tvB).nsecs))
/**
* @ingroup IxOsal
*
* @brief "greater than" comparison for IxOsalTimeval
*
* @param tvA, tvB - IxOsalTimeval structures to compare
*
* Compares two IxOsalTimeval structures to determine if the first one is
* greater than the second one
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - true if tvA > tvB
* - false otherwise
* Note: This function is OS-independent.
*/
#define IX_OSAL_TIME_GT(tvA, tvB) \
((tvA).secs > (tvB).secs || \
((tvA).secs == (tvB).secs && (tvA).nsecs > (tvB).nsecs))
/**
* @ingroup IxOsal
*
* @brief "add" operator for IxOsalTimeval
*
* @param tvA, tvB - IxOsalTimeval structures to add
*
* Adds the second IxOsalTimevalStruct to the first one (equivalent to
* tvA += tvB)
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - none
* Note: This function is OS-independent.
*/
#define IX_OSAL_TIME_ADD(tvA, tvB) \
(tvA).secs += (tvB).secs; \
(tvA).nsecs += (tvB).nsecs; \
if ((tvA).nsecs >= IX_OSAL_BILLION) \
{ \
(tvA).secs++; \
(tvA).nsecs -= IX_OSAL_BILLION; }
/**
* @ingroup IxOsal
*
* @brief "subtract" operator for IxOsalTimeval
*
* @param tvA, tvB - IxOsalTimeval structures to subtract
*
* Subtracts the second IxOsalTimevalStruct from the first one (equivalent
* to tvA -= tvB)
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - none
* Note: This function is OS-independent. Implemented by core.
*/
#define IX_OSAL_TIME_SUB(tvA, tvB) \
if ((tvA).nsecs >= (tvB).nsecs) \
{ \
(tvA).secs -= (tvB).secs; \
(tvA).nsecs -= (tvB).nsecs; \
} \
else \
{ \
(tvA).secs -= ((tvB).secs + 1); \
(tvA).nsecs += IX_OSAL_BILLION - (tvB).nsecs; \
}
/* ============================= Logging ==============================
*
*/
/**
* @ingroup IxOsal
*
* @brief Interrupt-safe logging function
*
* @param level - identifier prefix for the message
* @param device - output device
* @param format - message format, in a printf format
* @param ... - up to 6 arguments to be printed
*
* IRQ-safe logging function, similar to printf. Accepts up to 6 arguments
* to print (excluding the level, device and the format). This function will
* actually display the message only if the level is lower than the current
* verbosity level or if the IX_OSAL_LOG_USER level is used. An output device
* must be specified (see IxOsalTypes.h).
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Beside the exceptions documented in the note below, the returned
* value is the number of printed characters, or -1 if the parameters are
* incorrect (NULL format, unknown output device)
*
* @note The exceptions to the return value are:
* VxWorks: The return value is 32 if the specified level is 1 and 64
* if the specified level is greater than 1 and less or equal than 9.
* WinCE: If compiled for EBOOT then the return value is always 0.
*
* @note The given print format should take into account the specified
* output device. IX_OSAL_STDOUT supports all the usual print formats,
* however a custom hex display specified by IX_OSAL_HEX would support
* only a fixed number of hexadecimal digits.
*/
PUBLIC INT32 ixOsalLog (IxOsalLogLevel level,
IxOsalLogDevice device,
char *format,
int arg1,
int arg2, int arg3, int arg4, int arg5, int arg6);
/**
* @ingroup IxOsal
*
* @brief sets the current logging verbosity level
*
* @param level - new log verbosity level
*
* Sets the log verbosity level. The default value is IX_OSAL_LOG_ERROR.
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* @return - Old log verbosity level
*/
PUBLIC UINT32 ixOsalLogLevelSet (UINT32 level);
/* ============================= Logging ==============================
*
*/
/**
* @ingroup IxOsal
*
* @brief Schedules a repeating timer
*
* @param timer - handle of the timer object
* @param period - timer trigger period, in milliseconds
* @param priority - timer priority (0 being the highest)
* @param callback - user callback to invoke when the timer triggers
* @param param - custom parameter passed to the callback
*
* Schedules a timer to be called every period milliseconds. The timer
* will invoke the specified callback function possibly in interrupt
* context, passing the given parameter. If several timers trigger at the
* same time contention issues are dealt according to the specified timer
* priorities.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalRepeatingTimerSchedule (IxOsalTimer * timer,
UINT32 period,
UINT32 priority,
IxOsalVoidFnVoidPtr callback,
void *param);
/**
* @ingroup IxOsal
*
* @brief Schedules a single-shot timer
*
* @param timer - handle of the timer object
* @param period - timer trigger period, in milliseconds
* @param priority - timer priority (0 being the highest)
* @param callback - user callback to invoke when the timer triggers
* @param param - custom parameter passed to the callback
*
* Schedules a timer to be called after period milliseconds. The timer
* will cease to function past its first trigger. The timer will invoke
* the specified callback function, possibly in interrupt context, passing
* the given parameter. If several timers trigger at the same time contention
* issues are dealt according to the specified timer priorities.
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS
ixOsalSingleShotTimerSchedule (IxOsalTimer * timer,
UINT32 period,
UINT32 priority,
IxOsalVoidFnVoidPtr callback, void *param);
/**
* @ingroup IxOsal
*
* @brief Cancels a running timer
*
* @param timer - handle of the timer object
*
* Cancels a single-shot or repeating timer.
*
* @li Reentrant: no
* @li IRQ safe: yes
*
* @return - IX_SUCCESS/IX_FAIL
*/
PUBLIC IX_STATUS ixOsalTimerCancel (IxOsalTimer * timer);
/**
* @ingroup IxOsal
*
* @brief displays all the running timers
*
* Displays a list with all the running timers and their parameters (handle,
* period, type, priority, callback and user parameter)
*
* @li Reentrant: no
* @li IRQ safe: no
*
* @return - none
*/
PUBLIC void ixOsalTimersShow (void);
/* ============================= Version ==============================
*
*/
/**
* @ingroup IxOsal
*
* @brief provides the name of the Operating System running
*
* @param osName - Pointer to a NULL-terminated string of characters
* that holds the name of the OS running.
* This is both an input and an ouput parameter
* @param maxSize - Input parameter that defines the maximum number of
* bytes that can be stored in osName
*
* Returns a string of characters that describe the Operating System name
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* return - IX_SUCCESS for successful retrieval
* - IX_FAIL if (osType == NULL | maxSize =< 0)
*/
PUBLIC IX_STATUS ixOsalOsNameGet (INT8* osName, INT32 maxSize);
/**
* @ingroup IxOsal
*
* @brief provides the version of the Operating System running
*
* @param osVersion - Pointer to a NULL terminated string of characters
* that holds the version of the OS running.
* This is both an input and an ouput parameter
* @param maxSize - Input parameter that defines the maximum number of
* bytes that can be stored in osVersion
*
* Returns a string of characters that describe the Operating System's version
*
* @li Reentrant: yes
* @li IRQ safe: yes
*
* return - IX_SUCCESS for successful retrieval
* - IX_FAIL if (osVersion == NULL | maxSize =< 0)
*/
PUBLIC IX_STATUS ixOsalOsVersionGet(INT8* osVersion, INT32 maxSize);
/**
* @} IxOsal
*/
#endif /* IxOsal_H */