/****************************************************************************** * * Copyright (C) 2012 Ittiam Systems Pvt Ltd, Bangalore * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ /** ******************************************************************************* * @file * ihevcd_job_queue.c * * @brief * Contains functions for job queue * * @author * Harish * * @par List of Functions: * * @remarks * None * ******************************************************************************* */ /*****************************************************************************/ /* File Includes */ /*****************************************************************************/ #include #include #include #include #include #include "ihevc_typedefs.h" #include "iv.h" #include "ivd.h" #include "ihevcd_cxa.h" #include "ithread.h" #include "ihevc_platform_macros.h" #include "ihevc_macros.h" #include "ihevcd_error.h" #include "ihevcd_job_queue.h" /** ******************************************************************************* * * @brief Returns size for job queue context. Does not include job queue buffer * requirements * * @par Description * Returns size for job queue context. Does not include job queue buffer * requirements. Buffer size required to store the jobs should be allocated in * addition to the value returned here. * * @returns Size of the job queue context * * @remarks * ******************************************************************************* */ WORD32 ihevcd_jobq_ctxt_size() { WORD32 size; size = sizeof(jobq_t); size += ithread_get_mutex_lock_size(); return size; } /** ******************************************************************************* * * @brief * Locks the jobq conext * * @par Description * Locks the jobq conext by calling ithread_mutex_lock() * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if mutex lock fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_lock(jobq_t *ps_jobq) { WORD32 retval; retval = ithread_mutex_lock(ps_jobq->pv_mutex); if(retval) { return (IHEVCD_ERROR_T)IHEVCD_FAIL; } return (IHEVCD_ERROR_T)IHEVCD_SUCCESS; } /** ******************************************************************************* * * @brief * Unlocks the jobq conext * * @par Description * Unlocks the jobq conext by calling ithread_mutex_unlock() * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if mutex unlock fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_unlock(jobq_t *ps_jobq) { WORD32 retval; retval = ithread_mutex_unlock(ps_jobq->pv_mutex); if(retval) { return (IHEVCD_ERROR_T)IHEVCD_FAIL; } return (IHEVCD_ERROR_T)IHEVCD_SUCCESS; } /** ******************************************************************************* * * @brief * Yeilds the thread * * @par Description * Unlocks the jobq conext by calling * ihevcd_jobq_unlock(), ithread_yield() and then ihevcd_jobq_lock() * jobq is unlocked before to ensure the jobq can be accessed by other threads * If unlock is not done before calling yield then no other thread can access * the jobq functions and update jobq. * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if mutex lock unlock or yield fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_yield(jobq_t *ps_jobq) { IHEVCD_ERROR_T ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; IHEVCD_ERROR_T rettmp; rettmp = ihevcd_jobq_unlock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); //NOP(1024 * 8); ithread_yield(); rettmp = ihevcd_jobq_lock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); return ret; } /** ******************************************************************************* * * @brief free the job queue pointers * * @par Description * Frees the jobq context * * @param[in] pv_buf * Memoy for job queue buffer and job queue context * * @returns Pointer to job queue context * * @remarks * Since it will be called only once by master thread this is not thread safe. * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_free(jobq_t *ps_jobq) { WORD32 ret; ret = ithread_mutex_destroy(ps_jobq->pv_mutex); if(0 == ret) return (IHEVCD_ERROR_T)IHEVCD_SUCCESS; else return (IHEVCD_ERROR_T)IHEVCD_FAIL; } /** ******************************************************************************* * * @brief Initialize the job queue * * @par Description * Initializes the jobq context and sets write and read pointers to start of * job queue buffer * * @param[in] pv_buf * Memoy for job queue buffer and job queue context * * @param[in] buf_size * Size of the total memory allocated * * @returns Pointer to job queue context * * @remarks * Since it will be called only once by master thread this is not thread safe. * ******************************************************************************* */ void* ihevcd_jobq_init(void *pv_buf, WORD32 buf_size) { jobq_t *ps_jobq; UWORD8 *pu1_buf; pu1_buf = (UWORD8 *)pv_buf; ps_jobq = (jobq_t *)pu1_buf; pu1_buf += sizeof(jobq_t); buf_size -= sizeof(jobq_t); ps_jobq->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_jobq->pv_mutex); ps_jobq->pv_buf_base = pu1_buf; ps_jobq->pv_buf_wr = pu1_buf; ps_jobq->pv_buf_rd = pu1_buf; ps_jobq->pv_buf_end = pu1_buf + buf_size; ps_jobq->i4_terminate = 0; return ps_jobq; } /** ******************************************************************************* * * @brief * Resets the jobq conext * * @par Description * Resets the jobq conext by initilizing job queue context elements * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if lock unlock fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_reset(jobq_t *ps_jobq) { IHEVCD_ERROR_T ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; ret = ihevcd_jobq_lock(ps_jobq); RETURN_IF((ret != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), ret); ps_jobq->pv_buf_wr = ps_jobq->pv_buf_base; ps_jobq->pv_buf_rd = ps_jobq->pv_buf_base; ps_jobq->i4_terminate = 0; ret = ihevcd_jobq_unlock(ps_jobq); RETURN_IF((ret != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), ret); return ret; } /** ******************************************************************************* * * @brief * Deinitializes the jobq conext * * @par Description * Deinitializes the jobq conext by calling ihevc_jobq_reset() * and then destrying the mutex created * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if lock unlock fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_deinit(jobq_t *ps_jobq) { WORD32 retval; IHEVCD_ERROR_T ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; ret = ihevcd_jobq_reset(ps_jobq); RETURN_IF((ret != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), ret); retval = ithread_mutex_destroy(ps_jobq->pv_mutex); if(retval) { return (IHEVCD_ERROR_T)IHEVCD_FAIL; } return (IHEVCD_ERROR_T)IHEVCD_SUCCESS; } /** ******************************************************************************* * * @brief * Terminates the jobq * * @par Description * Terminates the jobq by setting a flag in context. * * @param[in] ps_jobq * Job Queue context * * @returns IHEVCD_FAIL if lock unlock fails else IHEVCD_SUCCESS * * @remarks * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_terminate(jobq_t *ps_jobq) { IHEVCD_ERROR_T ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; ret = ihevcd_jobq_lock(ps_jobq); RETURN_IF((ret != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), ret); ps_jobq->i4_terminate = 1; ret = ihevcd_jobq_unlock(ps_jobq); RETURN_IF((ret != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), ret); return ret; } /** ******************************************************************************* * * @brief Adds a job to the queue * * @par Description * Adds a job to the queue and updates wr address to next location. * Format/content of the job structure is abstracted and hence size of the job * buffer is being passed. * * @param[in] ps_jobq * Job Queue context * * @param[in] pv_job * Pointer to the location that contains details of the job to be added * * @param[in] job_size * Size of the job 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 jobs * Wrap around is not supported * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_queue(jobq_t *ps_jobq, void *pv_job, WORD32 job_size, WORD32 blocking) { IHEVCD_ERROR_T ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; IHEVCD_ERROR_T rettmp; UWORD8 *pu1_buf; UNUSED(blocking); rettmp = ihevcd_jobq_lock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); pu1_buf = (UWORD8 *)ps_jobq->pv_buf_wr; if((UWORD8 *)ps_jobq->pv_buf_end >= (pu1_buf + job_size)) { memcpy(ps_jobq->pv_buf_wr, pv_job, job_size); ps_jobq->pv_buf_wr = (UWORD8 *)ps_jobq->pv_buf_wr + job_size; ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; } else { /* Handle wrap around case */ /* Wait for pv_buf_rd to consume first job_size number of bytes * from the beginning of job queue */ ret = (IHEVCD_ERROR_T)IHEVCD_FAIL; } ps_jobq->i4_terminate = 0; rettmp = ihevcd_jobq_unlock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); return ret; } /** ******************************************************************************* * * @brief Gets next from the Job queue * * @par Description * Gets next job from the job queue and updates rd address to next location. * Format/content of the job structure is abstracted and hence size of the job * buffer is being passed. If it is a blocking call and if there is no new job * then this functions unlocks the mutext and calls yield and then locks it back. * and continues till a job is available or terminate is set * * @param[in] ps_jobq * Job Queue context * * @param[out] pv_job * Pointer to the location that contains details of the job to be written * * @param[in] job_size * Size of the job 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 jobs * Wrap around is not supported * ******************************************************************************* */ IHEVCD_ERROR_T ihevcd_jobq_dequeue(jobq_t *ps_jobq, void *pv_job, WORD32 job_size, WORD32 blocking) { IHEVCD_ERROR_T ret; IHEVCD_ERROR_T rettmp; volatile UWORD8 *pu1_buf; rettmp = ihevcd_jobq_lock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); pu1_buf = (UWORD8 *)ps_jobq->pv_buf_rd; if((UWORD8 *)ps_jobq->pv_buf_end >= (pu1_buf + job_size)) { while(1) { pu1_buf = (UWORD8 *)ps_jobq->pv_buf_rd; if((UWORD8 *)ps_jobq->pv_buf_wr >= (pu1_buf + job_size)) { memcpy(pv_job, ps_jobq->pv_buf_rd, job_size); ps_jobq->pv_buf_rd = (UWORD8 *)ps_jobq->pv_buf_rd + job_size; ret = (IHEVCD_ERROR_T)IHEVCD_SUCCESS; break; } else { /* If all the entries have been dequeued, then break and return */ if(1 == ps_jobq->i4_terminate) { ret = (IHEVCD_ERROR_T)IHEVCD_FAIL; break; } if(1 == blocking) { ihevcd_jobq_yield(ps_jobq); } else { /* If there is no job available, * and this is non blocking call then return fail */ ret = (IHEVCD_ERROR_T)IHEVCD_FAIL; } } } } else { /* Handle wrap around case */ /* Wait for pv_buf_rd to consume first job_size number of bytes * from the beginning of job queue */ ret = (IHEVCD_ERROR_T)IHEVCD_FAIL; } rettmp = ihevcd_jobq_unlock(ps_jobq); RETURN_IF((rettmp != (IHEVCD_ERROR_T)IHEVCD_SUCCESS), rettmp); return ret; }