void test_get_slice(void) { unsigned int utime1 = 0; unsigned int u64time2[2] = {0}; unsigned int uresult = 0; utime1 = omTimerGet(); printk("\nom slice is %d, bbp slice is %d %d, result = %d\n", utime1, u64time2[0],u64time2[1],uresult); }
static void tele_mntn_acpu_ddr_freqlink(unsigned int qos_id, unsigned int new_freq) { PWC_TELE_MNTN_ACPU_DFS_DDR_QOS_STRU *qos = NULL; PWC_TELE_MNTN_ACPU_DFS_DDR_QOSINFO_STRU * info = NULL; if(!g_pPwcAcpuLog) return; qos = &(g_pPwcAcpuLog->dfsDdr.qos); info = &(qos->info); info->cmd_id = (short)PM_QOS_UPDATE_REQ; info->qos_id = (short)qos_id; if(current) { info->pid = current->pid; if(current->parent) info->ppid = current->parent->pid; } info->tag_val = new_freq; info->new_freq = new_freq; qos->qosSliceTime = omTimerGet(); (void)tele_mntn_write_log(TELE_MNTN_QOS_DDR_ACPU, sizeof(PWC_TELE_MNTN_ACPU_DFS_BOOST_STRU), (void *)qos); }
/*********************************************************************************** Function: BSP_ICC_Errlog_Save Description: 将ICC发送和接受时的失败消息 调用OM的回调函数输出 Calls: BSP_MNTN_OmDrvTraceSend Input: module_id prim_id buffer Output: NA Return: NA ************************************************************************************/ void BSP_ICC_Errlog_Save( BSP_U16 module_id, BSP_U16 prim_id, void *buffer) { BSP_U32 record_valid = 0x0; if(NULL == g_drv_icc_buf) { printk("#####not init#######\n"); return; } if (!g_icc_errlog_init_flag) { printk("########drv icc mntn not init####### \n"); return; } if (NULL == buffer) { printk("#######buffer is null#######\n"); return; } down(&g_drv_icc_mntn_mutex); memset((void *)g_icc_mntn_info_header, 0, sizeof(icc_mntn_info_header)); if (((ICC_PRIMID)prim_id >= DRV_PRIM_ICC_ERRLOG) && ((ICC_PRIMID)prim_id <= DRV_PRIM_ICC_ERRLOG)) { g_icc_mntn_info_header->header_flag = DRV_MNTN_HEADER_FLAG; g_icc_mntn_info_header->u32ChanID = ((icc_mntn_info_t *)buffer)->u32ChanID; g_icc_mntn_info_header->s32Errlog = ((icc_mntn_info_t *)buffer)->s32Errlog; g_icc_mntn_info_header->module_id = module_id; g_icc_mntn_info_header->prim_id = prim_id; g_icc_mntn_info_header->s32Datesize = ((icc_mntn_info_t *)buffer)->s32Datesize; g_icc_mntn_info_header->time_stamp = omTimerGet(); printk("ICC_Errlog_Save:header_flag:%d,u32ChanID:%d,s32Errlog:%d,module_id:%d,prim_id:%d,s32Datesize:%d,time_stamp:%d\n",g_icc_mntn_info_header->header_flag,\ g_icc_mntn_info_header->u32ChanID,g_icc_mntn_info_header->s32Errlog,g_icc_mntn_info_header->module_id,g_icc_mntn_info_header->prim_id,g_icc_mntn_info_header->s32Datesize,g_icc_mntn_info_header->time_stamp );//test record_valid = 1; } else { printk("invalid prim_id\n"); } printk("#######record_valid:%d#######\n",record_valid); /************om, now delete*************/ /* if (record_valid) { trace_pri_check_flag=icc_trace_pri_check(prim_id); if(TRUE==trace_pri_check_flag) { printk("#######BSP_MNTN_OmDrvTraceSend#######\n"); BSP_MNTN_OmDrvTraceSend(prim_id, module_id, (BSP_U8 *)g_icc_mntn_info_header, sizeof(icc_mntn_info_header)); } } else { printk("error invalid record \n "); } */ up(&g_drv_icc_mntn_mutex); #ifdef MNTN_DBG printk("######GO out BSP_ICC_Errlog_Save#######\n"); #endif }
static inline void __ipc_track_set(void __iomem *base, int mdev, int phase) { unsigned int slice = omTimerGet(); writel(slice , base + MDEV_TRACK(mdev, phase)); }