common/ih264_list.c - platform/external/libavc - Git at Google

 /******************************************************************************
  *
  * Copyright (C) 2015 The Android Open Source Project
  *
  * 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.
  *
  *****************************************************************************
  * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
 */
 /**
 *******************************************************************************
 * @file
 *  ih264_list.c
 *
 * @brief
 *  Contains functions for buf queue
 *
 * @author
 *  Harish
 *
 * @par List of Functions:
 *  ih264_list_size()
 *  ih264_list_lock()
 *  ih264_list_unlock()
 *  ih264_list_yield()
 *  ih264_list_free()
 *  ih264_list_init()
 *  ih264_list_reset()
 *  ih264_list_deinit()
 *  ih264_list_terminate()
 *  ih264_list_queue()
 *  ih264_list_dequeue()
 *
 * @remarks
 *  None
 *
 *******************************************************************************
 */
 /*****************************************************************************/
 /* File Includes                                                             */
 /*****************************************************************************/
 #include <stdio.h>
 #include <stddef.h>
 #include <stdlib.h>
 #include <string.h>
 #include <assert.h>

 #include "ih264_typedefs.h"
 #include "ithread.h"
 #include "ih264_platform_macros.h"
 #include "ih264_macros.h"
 #include "ih264_debug.h"
 #include "ih264_error.h"
 #include "ih264_list.h"

 /**
 *******************************************************************************
 *
 * @brief Returns size for buf queue context. Does not include buf queue buffer
 * requirements
 *
 * @par   Description
 * Returns size for buf queue context. Does not include buf queue buffer
 * requirements. Buffer size required to store the bufs should be allocated in
 * addition to the value returned here.
 *
 * @returns Size of the buf queue context
 *
 * @remarks
 *
 *******************************************************************************
 */
 WORD32 ih264_list_size(WORD32 num_entries, WORD32 entry_size)
 {
     WORD32 size;
     WORD32 clz;
     size = sizeof(list_t);
     size += ithread_get_mutex_lock_size();

     /* Use next power of two number of entries*/
     clz = CLZ(num_entries);
     num_entries = 1 << (32 - clz);

     size  += num_entries * entry_size;
     return size;
 }

 /**
 *******************************************************************************
 *
 * @brief
 *   Locks the list context
 *
 * @par   Description
 *   Locks the list context by calling ithread_mutex_lock()
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if mutex lock fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_lock(list_t *ps_list)
 {
     WORD32 retval;
     retval = ithread_mutex_lock(ps_list->pv_mutex);
     if(retval)
     {
         return IH264_FAIL;
     }
     return IH264_SUCCESS;
 }

 /**
 *******************************************************************************
 *
 * @brief
 *   Unlocks the list context
 *
 * @par   Description
 *   Unlocks the list context by calling ithread_mutex_unlock()
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if mutex unlock fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */

 IH264_ERROR_T ih264_list_unlock(list_t *ps_list)
 {
     WORD32 retval;
     retval = ithread_mutex_unlock(ps_list->pv_mutex);
     if(retval)
     {
         return IH264_FAIL;
     }
     return IH264_SUCCESS;

 }
 /**
 *******************************************************************************
 *
 * @brief
 *   Yields the thread
 *
 * @par   Description
 *   Unlocks the list context by calling
 * ih264_list_unlock(), ithread_yield() and then ih264_list_lock()
 * list is unlocked before to ensure the list can be accessed by other threads
 * If unlock is not done before calling yield then no other thread can access
 * the list functions and update list.
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if mutex lock unlock or yield fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_yield(list_t *ps_list)
 {

     IH264_ERROR_T ret = IH264_SUCCESS;

     IH264_ERROR_T rettmp;
     rettmp = ih264_list_unlock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

     ithread_yield();

     if(ps_list->i4_yeild_interval_us > 0)
         ithread_usleep(ps_list->i4_yeild_interval_us);

     rettmp = ih264_list_lock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);
     return ret;
 }


 /**
 *******************************************************************************
 *
 * @brief free the buf queue pointers
 *
 * @par   Description
 * Frees the list context
 *
 * @param[in] pv_buf
 * Memory for buf queue buffer and buf queue context
 *
 * @returns Pointer to buf queue context
 *
 * @remarks
 * Since it will be called only once by master thread this is not thread safe.
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_free(list_t *ps_list)
 {
     WORD32 ret;
     ret = ithread_mutex_destroy(ps_list->pv_mutex);

     if(0 == ret)
         return IH264_SUCCESS;
     else
         return IH264_FAIL;
 }

 /**
 *******************************************************************************
 *
 * @brief Initialize the buf queue
 *
 * @par   Description
 * Initializes the list context and sets write and read pointers to start of
 * buf queue buffer
 *
 * @param[in] pv_buf
 * Memoy for buf queue buffer and buf queue context
 *
 * @param[in] buf_size
 * Size of the total memory allocated
 *
 * @returns Pointer to buf queue context
 *
 * @remarks
 * Since it will be called only once by master thread this is not thread safe.
 *
 *******************************************************************************
 */
 void* ih264_list_init(void *pv_buf,
                       WORD32 buf_size,
                       WORD32 num_entries,
                       WORD32 entry_size,
                       WORD32 yeild_interval_us)
 {
     list_t *ps_list;
     UWORD8 *pu1_buf;

     pu1_buf = (UWORD8 *)pv_buf;

     ps_list = (list_t *)pu1_buf;
     pu1_buf += sizeof(list_t);
     buf_size -= sizeof(list_t);

     ps_list->pv_mutex = pu1_buf;
     pu1_buf += ithread_get_mutex_lock_size();
     buf_size -= ithread_get_mutex_lock_size();

     if (buf_size <= 0)
       return NULL;

     ithread_mutex_init(ps_list->pv_mutex);

     /* Ensure num_entries is power of two */
     ASSERT(0 == (num_entries & (num_entries - 1)));

     /* Ensure remaining buffer is large enough to hold given number of entries */
     ASSERT((num_entries * entry_size) <= buf_size);

     ps_list->pv_buf_base = pu1_buf;
     ps_list->i4_terminate = 0;
     ps_list->i4_entry_size = entry_size;
     ps_list->i4_buf_rd_idx = 0;
     ps_list->i4_buf_wr_idx = 0;
     ps_list->i4_log2_buf_max_idx = 32 - CLZ(num_entries);
     ps_list->i4_buf_max_idx = num_entries;
     ps_list->i4_yeild_interval_us = yeild_interval_us;

     return ps_list;
 }
 /**
 *******************************************************************************
 *
 * @brief
 *   Resets the list context
 *
 * @par   Description
 *   Resets the list context by initializing buf queue context elements
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_reset(list_t *ps_list)
 {
     IH264_ERROR_T ret = IH264_SUCCESS;
     ret = ih264_list_lock(ps_list);
     RETURN_IF((ret != IH264_SUCCESS), ret);

     ps_list->i4_terminate  = 0;
     ps_list->i4_buf_rd_idx = 0;
     ps_list->i4_buf_wr_idx = 0;

     ret = ih264_list_unlock(ps_list);
     RETURN_IF((ret != IH264_SUCCESS), ret);

     return ret;
 }

 /**
 *******************************************************************************
 *
 * @brief
 *   Deinitializes the list context
 *
 * @par   Description
 *   Deinitializes the list context by calling ih264_list_reset()
 * and then destrying the mutex created
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_deinit(list_t *ps_list)
 {
     WORD32 retval;
     IH264_ERROR_T ret = IH264_SUCCESS;

     ret = ih264_list_reset(ps_list);
     RETURN_IF((ret != IH264_SUCCESS), ret);

     retval = ithread_mutex_destroy(ps_list->pv_mutex);
     if(retval)
     {
         return IH264_FAIL;
     }

     return IH264_SUCCESS;
 }


 /**
 *******************************************************************************
 *
 * @brief
 *   Terminates the list
 *
 * @par   Description
 *   Terminates the list by setting a flag in context.
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
 *
 * @remarks
 *
 *******************************************************************************
 */

 IH264_ERROR_T ih264_list_terminate(list_t *ps_list)
 {
     IH264_ERROR_T ret = IH264_SUCCESS;
     ret = ih264_list_lock(ps_list);
     RETURN_IF((ret != IH264_SUCCESS), ret);

     ps_list->i4_terminate = 1;

     ret = ih264_list_unlock(ps_list);
     RETURN_IF((ret != IH264_SUCCESS), ret);
     return ret;
 }


 /**
 *******************************************************************************
 *
 * @brief Adds a buf to the queue
 *
 * @par   Description
 * Adds a buf to the queue and updates wr address to next location.
 * Format/content of the buf structure is abstracted and hence size of the buf
 * buffer is being passed.
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @param[in] pv_buf
 *   Pointer to the location that contains details of the buf to be added
 *
 * @param[in] buf_size
 *   Size of the buf buffer
 *
 * @param[in] blocking
 *   To signal if the write is blocking or non-blocking.
 *
 * @returns
 *
 * @remarks
 * Job Queue buffer is assumed to be allocated to handle worst case number of bufs
 * Wrap around is not supported
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_queue(list_t *ps_list, void *pv_buf, WORD32 blocking)
 {
     IH264_ERROR_T ret = IH264_SUCCESS;
     IH264_ERROR_T rettmp;

     WORD32 diff;
     void *pv_buf_wr;

     volatile WORD32 *pi4_wr_idx, *pi4_rd_idx;
     WORD32 buf_size = ps_list->i4_entry_size;


     rettmp = ih264_list_lock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);


     while(1)
     {
         /* Ensure wr idx does not go beyond rd idx by more than number of entries
          */
         pi4_wr_idx = &ps_list->i4_buf_wr_idx;
         pi4_rd_idx = &ps_list->i4_buf_rd_idx;
         diff = *pi4_wr_idx - *pi4_rd_idx;

         if(diff < ps_list->i4_buf_max_idx)
         {
             WORD32 wr_idx;
             wr_idx = ps_list->i4_buf_wr_idx & (ps_list->i4_buf_max_idx - 1);
             pv_buf_wr = (UWORD8 *)ps_list->pv_buf_base + wr_idx * buf_size;

             memcpy(pv_buf_wr, pv_buf, buf_size);
             ps_list->i4_buf_wr_idx++;
             break;
         }
         else
         {
             /* wr is ahead, so wait for rd to consume */
             if(blocking)
             {
                 ih264_list_yield(ps_list);
             }
             else
             {
                 ret = IH264_FAIL;
                 break;
             }
         }

     }
     ps_list->i4_terminate = 0;

     rettmp = ih264_list_unlock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

     return ret;
 }
 /**
 *******************************************************************************
 *
 * @brief Gets next from the Job queue
 *
 * @par   Description
 * Gets next buf from the buf queue and updates rd address to next location.
 * Format/content of the buf structure is abstracted and hence size of the buf
 * buffer is being passed. If it is a blocking call and if there is no new buf
 * then this functions unlocks the mutex and calls yield and then locks it back.
 * and continues till a buf is available or terminate is set
 *
 * @param[in] ps_list
 *   Job Queue context
 *
 * @param[out] pv_buf
 *   Pointer to the location that contains details of the buf to be written
 *
 * @param[in] buf_size
 *   Size of the buf buffer
 *
 * @param[in] blocking
 *   To signal if the read is blocking or non-blocking.
 *
 * @returns
 *
 * @remarks
 * Job Queue buffer is assumed to be allocated to handle worst case number of bufs
 * Wrap around is not supported
 *
 *******************************************************************************
 */
 IH264_ERROR_T ih264_list_dequeue(list_t *ps_list, void *pv_buf, WORD32 blocking)
 {
     IH264_ERROR_T ret = IH264_SUCCESS;
     IH264_ERROR_T rettmp;
     WORD32 buf_size = ps_list->i4_entry_size;
     WORD32 diff;

     void *pv_buf_rd;
     volatile WORD32 *pi4_wr_idx, *pi4_rd_idx;

     rettmp = ih264_list_lock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

     while(1)
     {
         /* Ensure wr idx is ahead of rd idx and
          * wr idx does not go beyond rd idx by more than number of entries
          */
         pi4_wr_idx = &ps_list->i4_buf_wr_idx;
         pi4_rd_idx = &ps_list->i4_buf_rd_idx;
         diff = *pi4_wr_idx - *pi4_rd_idx;


         if(diff > 0)
         {
             WORD32 rd_idx;
             rd_idx = ps_list->i4_buf_rd_idx & (ps_list->i4_buf_max_idx - 1);
             pv_buf_rd = (UWORD8 *)ps_list->pv_buf_base + rd_idx * buf_size;

             memcpy(pv_buf, pv_buf_rd, buf_size);
             ps_list->i4_buf_rd_idx++;
             break;
         }
         else
         {
             /* If terminate is signaled then break */
             if(ps_list->i4_terminate)
             {
                 ret = IH264_FAIL;
                 break;
             }
             /* wr is ahead, so wait for rd to consume */
             if(blocking)
             {
                 ih264_list_yield(ps_list);
             }
             else
             {
                 ret = IH264_FAIL;
                 break;
             }
         }

     }


     rettmp = ih264_list_unlock(ps_list);
     RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

     return ret;
 }
	/******************************************************************************
	*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* 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.
	*
	*****************************************************************************
	* Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore
	*/
	/**
	*******************************************************************************
	* @file
	* ih264_list.c
	*
	* @brief
	* Contains functions for buf queue
	*
	* @author
	* Harish
	*
	* @par List of Functions:
	* ih264_list_size()
	* ih264_list_lock()
	* ih264_list_unlock()
	* ih264_list_yield()
	* ih264_list_free()
	* ih264_list_init()
	* ih264_list_reset()
	* ih264_list_deinit()
	* ih264_list_terminate()
	* ih264_list_queue()
	* ih264_list_dequeue()
	*
	* @remarks
	* None
	*
	*******************************************************************************
	*/
	/*****************************************************************************/
	/* File Includes */
	/*****************************************************************************/
	#include <stdio.h>
	#include <stddef.h>
	#include <stdlib.h>
	#include <string.h>
	#include <assert.h>

	#include "ih264_typedefs.h"
	#include "ithread.h"
	#include "ih264_platform_macros.h"
	#include "ih264_macros.h"
	#include "ih264_debug.h"
	#include "ih264_error.h"
	#include "ih264_list.h"

	/**
	*******************************************************************************
	*
	* @brief Returns size for buf queue context. Does not include buf queue buffer
	* requirements
	*
	* @par Description
	* Returns size for buf queue context. Does not include buf queue buffer
	* requirements. Buffer size required to store the bufs should be allocated in
	* addition to the value returned here.
	*
	* @returns Size of the buf queue context
	*
	* @remarks
	*
	*******************************************************************************
	*/
	WORD32 ih264_list_size(WORD32 num_entries, WORD32 entry_size)
	{
	WORD32 size;
	WORD32 clz;
	size = sizeof(list_t);
	size += ithread_get_mutex_lock_size();

	/* Use next power of two number of entries*/
	clz = CLZ(num_entries);
	num_entries = 1 << (32 - clz);

	size += num_entries * entry_size;
	return size;
	}

	/**
	*******************************************************************************
	*
	* @brief
	* Locks the list context
	*
	* @par Description
	* Locks the list context by calling ithread_mutex_lock()
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if mutex lock fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_lock(list_t *ps_list)
	{
	WORD32 retval;
	retval = ithread_mutex_lock(ps_list->pv_mutex);
	if(retval)
	{
	return IH264_FAIL;
	}
	return IH264_SUCCESS;
	}

	/**
	*******************************************************************************
	*
	* @brief
	* Unlocks the list context
	*
	* @par Description
	* Unlocks the list context by calling ithread_mutex_unlock()
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if mutex unlock fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/

	IH264_ERROR_T ih264_list_unlock(list_t *ps_list)
	{
	WORD32 retval;
	retval = ithread_mutex_unlock(ps_list->pv_mutex);
	if(retval)
	{
	return IH264_FAIL;
	}
	return IH264_SUCCESS;

	}
	/**
	*******************************************************************************
	*
	* @brief
	* Yields the thread
	*
	* @par Description
	* Unlocks the list context by calling
	* ih264_list_unlock(), ithread_yield() and then ih264_list_lock()
	* list is unlocked before to ensure the list can be accessed by other threads
	* If unlock is not done before calling yield then no other thread can access
	* the list functions and update list.
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if mutex lock unlock or yield fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_yield(list_t *ps_list)
	{

	IH264_ERROR_T ret = IH264_SUCCESS;

	IH264_ERROR_T rettmp;
	rettmp = ih264_list_unlock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

	ithread_yield();

	if(ps_list->i4_yeild_interval_us > 0)
	ithread_usleep(ps_list->i4_yeild_interval_us);

	rettmp = ih264_list_lock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);
	return ret;
	}


	/**
	*******************************************************************************
	*
	* @brief free the buf queue pointers
	*
	* @par Description
	* Frees the list context
	*
	* @param[in] pv_buf
	* Memory for buf queue buffer and buf queue context
	*
	* @returns Pointer to buf queue context
	*
	* @remarks
	* Since it will be called only once by master thread this is not thread safe.
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_free(list_t *ps_list)
	{
	WORD32 ret;
	ret = ithread_mutex_destroy(ps_list->pv_mutex);

	if(0 == ret)
	return IH264_SUCCESS;
	else
	return IH264_FAIL;
	}

	/**
	*******************************************************************************
	*
	* @brief Initialize the buf queue
	*
	* @par Description
	* Initializes the list context and sets write and read pointers to start of
	* buf queue buffer
	*
	* @param[in] pv_buf
	* Memoy for buf queue buffer and buf queue context
	*
	* @param[in] buf_size
	* Size of the total memory allocated
	*
	* @returns Pointer to buf queue context
	*
	* @remarks
	* Since it will be called only once by master thread this is not thread safe.
	*
	*******************************************************************************
	*/
	void* ih264_list_init(void *pv_buf,
	WORD32 buf_size,
	WORD32 num_entries,
	WORD32 entry_size,
	WORD32 yeild_interval_us)
	{
	list_t *ps_list;
	UWORD8 *pu1_buf;

	pu1_buf = (UWORD8 *)pv_buf;

	ps_list = (list_t *)pu1_buf;
	pu1_buf += sizeof(list_t);
	buf_size -= sizeof(list_t);

	ps_list->pv_mutex = pu1_buf;
	pu1_buf += ithread_get_mutex_lock_size();
	buf_size -= ithread_get_mutex_lock_size();

	if (buf_size <= 0)
	return NULL;

	ithread_mutex_init(ps_list->pv_mutex);

	/* Ensure num_entries is power of two */
	ASSERT(0 == (num_entries & (num_entries - 1)));

	/* Ensure remaining buffer is large enough to hold given number of entries */
	ASSERT((num_entries * entry_size) <= buf_size);

	ps_list->pv_buf_base = pu1_buf;
	ps_list->i4_terminate = 0;
	ps_list->i4_entry_size = entry_size;
	ps_list->i4_buf_rd_idx = 0;
	ps_list->i4_buf_wr_idx = 0;
	ps_list->i4_log2_buf_max_idx = 32 - CLZ(num_entries);
	ps_list->i4_buf_max_idx = num_entries;
	ps_list->i4_yeild_interval_us = yeild_interval_us;

	return ps_list;
	}
	/**
	*******************************************************************************
	*
	* @brief
	* Resets the list context
	*
	* @par Description
	* Resets the list context by initializing buf queue context elements
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_reset(list_t *ps_list)
	{
	IH264_ERROR_T ret = IH264_SUCCESS;
	ret = ih264_list_lock(ps_list);
	RETURN_IF((ret != IH264_SUCCESS), ret);

	ps_list->i4_terminate = 0;
	ps_list->i4_buf_rd_idx = 0;
	ps_list->i4_buf_wr_idx = 0;

	ret = ih264_list_unlock(ps_list);
	RETURN_IF((ret != IH264_SUCCESS), ret);

	return ret;
	}

	/**
	*******************************************************************************
	*
	* @brief
	* Deinitializes the list context
	*
	* @par Description
	* Deinitializes the list context by calling ih264_list_reset()
	* and then destrying the mutex created
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_deinit(list_t *ps_list)
	{
	WORD32 retval;
	IH264_ERROR_T ret = IH264_SUCCESS;

	ret = ih264_list_reset(ps_list);
	RETURN_IF((ret != IH264_SUCCESS), ret);

	retval = ithread_mutex_destroy(ps_list->pv_mutex);
	if(retval)
	{
	return IH264_FAIL;
	}

	return IH264_SUCCESS;
	}


	/**
	*******************************************************************************
	*
	* @brief
	* Terminates the list
	*
	* @par Description
	* Terminates the list by setting a flag in context.
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @returns IH264_FAIL if lock unlock fails else IH264_SUCCESS
	*
	* @remarks
	*
	*******************************************************************************
	*/

	IH264_ERROR_T ih264_list_terminate(list_t *ps_list)
	{
	IH264_ERROR_T ret = IH264_SUCCESS;
	ret = ih264_list_lock(ps_list);
	RETURN_IF((ret != IH264_SUCCESS), ret);

	ps_list->i4_terminate = 1;

	ret = ih264_list_unlock(ps_list);
	RETURN_IF((ret != IH264_SUCCESS), ret);
	return ret;
	}


	/**
	*******************************************************************************
	*
	* @brief Adds a buf to the queue
	*
	* @par Description
	* Adds a buf to the queue and updates wr address to next location.
	* Format/content of the buf structure is abstracted and hence size of the buf
	* buffer is being passed.
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @param[in] pv_buf
	* Pointer to the location that contains details of the buf to be added
	*
	* @param[in] buf_size
	* Size of the buf buffer
	*
	* @param[in] blocking
	* To signal if the write is blocking or non-blocking.
	*
	* @returns
	*
	* @remarks
	* Job Queue buffer is assumed to be allocated to handle worst case number of bufs
	* Wrap around is not supported
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_queue(list_t ps_list, void pv_buf, WORD32 blocking)
	{
	IH264_ERROR_T ret = IH264_SUCCESS;
	IH264_ERROR_T rettmp;

	WORD32 diff;
	void *pv_buf_wr;

	volatile WORD32 pi4_wr_idx, pi4_rd_idx;
	WORD32 buf_size = ps_list->i4_entry_size;


	rettmp = ih264_list_lock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);



	while(1)
	{
	/* Ensure wr idx does not go beyond rd idx by more than number of entries
	*/
	pi4_wr_idx = &ps_list->i4_buf_wr_idx;
	pi4_rd_idx = &ps_list->i4_buf_rd_idx;
	diff = pi4_wr_idx - pi4_rd_idx;

	if(diff < ps_list->i4_buf_max_idx)
	{
	WORD32 wr_idx;
	wr_idx = ps_list->i4_buf_wr_idx & (ps_list->i4_buf_max_idx - 1);
	pv_buf_wr = (UWORD8 )ps_list->pv_buf_base + wr_idx buf_size;

	memcpy(pv_buf_wr, pv_buf, buf_size);
	ps_list->i4_buf_wr_idx++;
	break;
	}
	else
	{
	/* wr is ahead, so wait for rd to consume */
	if(blocking)
	{
	ih264_list_yield(ps_list);
	}
	else
	{
	ret = IH264_FAIL;
	break;
	}
	}

	}
	ps_list->i4_terminate = 0;

	rettmp = ih264_list_unlock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

	return ret;
	}
	/**
	*******************************************************************************
	*
	* @brief Gets next from the Job queue
	*
	* @par Description
	* Gets next buf from the buf queue and updates rd address to next location.
	* Format/content of the buf structure is abstracted and hence size of the buf
	* buffer is being passed. If it is a blocking call and if there is no new buf
	* then this functions unlocks the mutex and calls yield and then locks it back.
	* and continues till a buf is available or terminate is set
	*
	* @param[in] ps_list
	* Job Queue context
	*
	* @param[out] pv_buf
	* Pointer to the location that contains details of the buf to be written
	*
	* @param[in] buf_size
	* Size of the buf buffer
	*
	* @param[in] blocking
	* To signal if the read is blocking or non-blocking.
	*
	* @returns
	*
	* @remarks
	* Job Queue buffer is assumed to be allocated to handle worst case number of bufs
	* Wrap around is not supported
	*
	*******************************************************************************
	*/
	IH264_ERROR_T ih264_list_dequeue(list_t ps_list, void pv_buf, WORD32 blocking)
	{
	IH264_ERROR_T ret = IH264_SUCCESS;
	IH264_ERROR_T rettmp;
	WORD32 buf_size = ps_list->i4_entry_size;
	WORD32 diff;

	void *pv_buf_rd;
	volatile WORD32 pi4_wr_idx, pi4_rd_idx;

	rettmp = ih264_list_lock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

	while(1)
	{
	/* Ensure wr idx is ahead of rd idx and
	* wr idx does not go beyond rd idx by more than number of entries
	*/
	pi4_wr_idx = &ps_list->i4_buf_wr_idx;
	pi4_rd_idx = &ps_list->i4_buf_rd_idx;
	diff = pi4_wr_idx - pi4_rd_idx;


	if(diff > 0)
	{
	WORD32 rd_idx;
	rd_idx = ps_list->i4_buf_rd_idx & (ps_list->i4_buf_max_idx - 1);
	pv_buf_rd = (UWORD8 )ps_list->pv_buf_base + rd_idx buf_size;

	memcpy(pv_buf, pv_buf_rd, buf_size);
	ps_list->i4_buf_rd_idx++;
	break;
	}
	else
	{
	/* If terminate is signaled then break */
	if(ps_list->i4_terminate)
	{
	ret = IH264_FAIL;
	break;
	}
	/* wr is ahead, so wait for rd to consume */
	if(blocking)
	{
	ih264_list_yield(ps_list);
	}
	else
	{
	ret = IH264_FAIL;
	break;
	}
	}

	}


	rettmp = ih264_list_unlock(ps_list);
	RETURN_IF((rettmp != IH264_SUCCESS), rettmp);

	return ret;
	}