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192.168.1.100 / T800_MD / 04730939d77d4b1fce91df3083777d88f0b04c4a / . / mcu / interface / l1 / idc / idc_uart_str.h
blob: 33f0f20571212fd95c43c4bc452302c0ec6a187a [file] [log] [blame]
/*****************************************************************************
* Copyright Statement:
* --------------------
* This software is protected by Copyright and the information contained
* herein is confidential. The software may not be copied and the information
* contained herein may not be used or disclosed except with the written
* permission of MediaTek Inc. (C) 2012
*
* BY OPENING THIS FILE, BUYER HEREBY UNEQUIVOCALLY ACKNOWLEDGES AND AGREES
* THAT THE SOFTWARE/FIRMWARE AND ITS DOCUMENTATIONS ("MEDIATEK SOFTWARE")
* RECEIVED FROM MEDIATEK AND/OR ITS REPRESENTATIVES ARE PROVIDED TO BUYER ON
* AN "AS-IS" BASIS ONLY. MEDIATEK EXPRESSLY DISCLAIMS ANY AND ALL WARRANTIES,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT.
* NEITHER DOES MEDIATEK PROVIDE ANY WARRANTY WHATSOEVER WITH RESPECT TO THE
* SOFTWARE OF ANY THIRD PARTY WHICH MAY BE USED BY, INCORPORATED IN, OR
* SUPPLIED WITH THE MEDIATEK SOFTWARE, AND BUYER AGREES TO LOOK ONLY TO SUCH
* THIRD PARTY FOR ANY WARRANTY CLAIM RELATING THERETO. MEDIATEK SHALL ALSO
* NOT BE RESPONSIBLE FOR ANY MEDIATEK SOFTWARE RELEASES MADE TO BUYER'S
* SPECIFICATION OR TO CONFORM TO A PARTICULAR STANDARD OR OPEN FORUM.
*
* BUYER'S SOLE AND EXCLUSIVE REMEDY AND MEDIATEK'S ENTIRE AND CUMULATIVE
* LIABILITY WITH RESPECT TO THE MEDIATEK SOFTWARE RELEASED HEREUNDER WILL BE,
* AT MEDIATEK'S OPTION, TO REVISE OR REPLACE THE MEDIATEK SOFTWARE AT ISSUE,
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*
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* THE RULES OF THE INTERNATIONAL CHAMBER OF COMMERCE (ICC).
*
*****************************************************************************/
/*******************************************************************************
* Filename:
* ---------
* _el1_uart_str.h
*
* Project:
* --------
* UMOLYA
*
* Description:
* ------------
* Local header file of EL1_IDC
*
* Author:
* -------
* -------
*
****************************************************************************/
#ifndef _IDC_UART_STR_
#define _IDC_UART_STR_
#include "kal_general_types.h"
#include "kal_public_defs.h"
#include "kal_public_api.h"
#include "el1_llisth.h"
#include "idc_def.h"
#include "idc_lte_def.h"
#include "idc_nr_def.h"
#ifdef __MTK_TARGET__
#include "idc_internal.h"
#include "dcl_idc.h"
#include "drv_idc.h"
#endif
/****************************************/
/* Interface between IDC and IDC Driver */
/****************************************/
typedef enum
{
IDC_MD_LTE_DRX_IND = 2,
IDC_MD_NR_DRX_IND = 3,
IDC_MD_LTE_INT_DETECT_IND = 4,
IDC_MD_NR_INT_DETECT_IND = 5,
IDC_MD_LTE_PHASE_IND = 6,
IDC_MD_NR_PHASE_IND = 7,
IDC_MD_LTE_STATE_IND = 8,
IDC_MD_NR_STATE_IND = 9,
IDC_MD_LTE_SUSPEND_PTA_AP_IND = 10,
IDC_MD_NR_SUSPEND_PTA_AP_IND = 11,
IDC_MD_LTE_GNSS_BLANK_IND = 12,
IDC_MD_NR_GNSS_BLANK_IND = 13,
IDC_MD_TX_SUSP_IND = 14,
IDC_MD_EXTEND_LEN_TYPE = 15,
IDC_MD_NORMAL_HW_SIGNAL_IND = 16
}idc_md_normal_hw_signal_type_enum;
typedef enum
{
IDC_SUBTYPE_MD_LTE_RX_IND = 1,
IDC_SUBTYPE_MD_LTE_TX_IND = 2,
IDC_SUBTYPE_MD_LTE_SLP_DUR_IND = 4,
IDC_SUBTYPE_MD_LTE_BLOCK_CONSYS_TX_IND = 5,
IDC_SUBTYPE_MD_SEND_HW_SIGNAL_ACK_IND = 7,
IDC_SUBTYPE_MD_LTE_SCELL_ACTIVATE_IND = 8,
IDC_SUBTYPE_MD_TX_BWP_IND = 9,
IDC_SUBTYPE_MD_RX_BWP_IND = 10,
IDC_SUBTYPE_MD_PATTERN_SYNC_IND = 11,
IDC_SUBTYPE_MD_NR_RX_IND = 12,
IDC_SUBTYPE_MD_NR_TX_IND = 13,
IDC_SUBTYPE_MD_NR_SLP_DUR_IND = 14,
IDC_SUBTYPE_MD_NR_BLOCK_CONSYS_TX_IND = 15,
IDC_SUBTYPE_MD_EXPECT_CONSYS_TX_PWR_LIMIT_IND = 16,
IDC_SUBTYPE_MD_LTE_TX_IND_1 = 17,
IDC_SUBTYPE_MD_LTE_TX_IND_2 = 18,
IDC_SUBTYPE_MD_NR_TX_IND_1 = 19,
IDC_SUBTYPE_MD_NR_TX_IND_2 = 20,
IDC_SUBTYPE_MD_NR_SCELL_ACTIVATE_IND = 21,
IDC_SUBTYPE_MD_TX_BWP_FW_IND = 22,
IDC_SUBTYPE_MD_RX_BWP_FW_IND = 23,
IDC_SUBTYPE_MD_LTE_TX_FW_IND = 24,
IDC_SUBTYPE_MD_NR_TX_FW_IND = 25,
IDC_MD_EXTEND_HW_SIGNAL_IND = 26
}idc_md_extend_hw_signal_subtype_enum;
typedef enum
{
IDC_CONSYS_RESEND_NTF = 2,
IDC_CONSYS_BT_MAX_PWR_BACKOFF_NTF = 5,
IDC_CONSYS_ACTIVE_BSS_NTF = 6,
IDC_CONSYS_WIFI_MAX_PWR_BACKOFF_NTF = 7,
IDC_CONSYS_INT_DETECT_IND = 8,
IDC_CONSYS_WIFI_RSSI_IND = 9,
IDC_CONSYS_BT_RSSI_IND = 10,
IDC_CONSYS_WIFI_RX_IND = 11,
IDC_CONSYS_BT_TX_IND = 12,
IDC_CONSYS_BT_RX_IND = 13,
IDC_CONSYS_NORMAL_HW_SIGNAL_IND = 15
}idc_consys_normal_hw_signal_type_enum;
typedef enum
{
IDC_SUBTYPE_CONSYS_RX_GRANT_NTF = 0,
IDC_SUBTYPE_CONSYS_TX_GRANT_NTF = 1,
IDC_SUBTYPE_CONSYS_TDM_NTF = 2,
IDC_SUBTYPE_CONSYS_SEND_HW_SIGNAL_ACK_NTF = 3,
IDC_SUBTYPE_CONSYS_WIFI_TX_IND = 4,
IDC_SUBTYPE_CONSYS_BT_PRE_TX_IND = 5,
IDC_SUBTYPE_CONSYS_TDM_ON_IND = 6,
IDC_SUBTYPE_CONSYS_TIMEOUT_DROP_NTF = 7,
IDC_CONSYS_EXTEND_HW_SIGNAL_IND = 8
}idc_consys_extend_hw_signal_subtype_enum;
/************************/
/***** LTE to CONSYS ****/
/************************/
/***** IDC MD Normal HW Signal *****/
typedef struct _idc_md_normal_hw_signal_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 data :7;
}idc_md_normal_hw_signal_ind;
typedef struct _idc_md_lte_drx_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 isLTEDRX :1;
kal_uint16 rsvd :6;
}idc_md_lte_drx_ind;
typedef struct _idc_md_nr_drx_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 isNRDRX :1;
kal_uint16 rsvd :6;
}idc_md_nr_drx_ind;
typedef struct _idc_md_lte_int_detect_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 solType :2; // FDM: 0, PWR: 1, TDM: 2
kal_uint16 rsvd :5;
}idc_md_lte_int_detect_ind;
typedef struct _idc_md_nr_int_detect_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 solType :2; // FDM: 0, PWR: 1, TDM: 2
kal_uint16 rsvd :5;
}idc_md_nr_int_detect_ind;
typedef struct _idc_md_lte_phase_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 ltePhaseEnd :1; // Always be 1
kal_uint16 rsvd :6;
}idc_md_lte_phase_ind;
typedef struct _idc_md_nr_phase_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 nrPhaseEnd :1; // Always be 1
kal_uint16 rsvd :6;
}idc_md_nr_phase_ind;
typedef struct _idc_md_lte_state_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 lteEnterConn :1;
kal_uint16 rsvd :6;
}idc_md_lte_state_ind;
typedef struct _idc_md_nr_state_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 nrEnterConn :1;
kal_uint16 rsvd :6;
}idc_md_nr_state_ind;
typedef struct _idc_md_lte_suspend_pta_ap_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 rxGroupSusp :3; // 0: resume proactive protection, 1: suspend proactive protection, bit0: group0, bit1: group2, bit2: group4
kal_uint16 rsvd :4;
}idc_md_lte_suspend_pta_ap_ind;
typedef struct _idc_md_nr_suspend_pta_ap_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 rxGroupSusp :3; // 0: resume proactive protection, 1: suspend proactive protection, bit0: group1, bit1: group3, bit2: group5
kal_uint16 rsvd :4;
}idc_md_nr_suspend_pta_ap_ind;
typedef struct _idc_md_lte_gnss_blank_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 l1Blank :1;
kal_uint16 l5Blank :1;
kal_uint16 rsvd :5;
}idc_md_lte_gnss_blank_ind;
typedef struct _idc_md_nr_gnss_blank_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 l1Blank :1;
kal_uint16 l5Blank :1;
kal_uint16 rsvd :5;
}idc_md_nr_gnss_blank_ind;
typedef struct _idc_md_tx_susp_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 priority :2; // default is 3
kal_uint16 txSuspFDM :2; // 0: allow CONSYS TX which adopt FDM, 1: LTE stop CONSYS TX, 2: NR stop CONSYS TX, 3: Both RATs stop CONSYS TX
kal_uint16 txSuspTDM :2; // 0: allow CONSYS TX which adopt TDM, 1: LTE stop CONSYS TX, 2: NR stop CONSYS TX, 3: Both RATs stop CONSYS TX
kal_uint16 rsvd :1;
}idc_md_tx_susp_ind;
/***** IDC MD Extend HW Signal *****/
typedef struct _idc_md_ext_cmd_struct
{
kal_uint8 byte[9];
}idc_md_ext_cmd_struct;
typedef struct _idc_md_ext_hw_signal_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 data_0 :3;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 data_1 :6;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 data_2 :6;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 data_3 :6;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 data_4 :6;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 data_5 :6;
/* ninth Byte */
kal_uint8 ninthBit :1; // Always be 1
kal_uint8 ext8thBit :1; // Always be 1
kal_uint8 data_6 :6;
}idc_md_ext_hw_signal_ind;
typedef struct _idc_md_lte_rx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 rxGroupStatus_0 :1; // 0: RX of group0 is off, 1: RX of group0 is on
kal_uint8 rxGroupPrio_0 :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 timerType_0 :1; // 0: short timer, 1: long timer (carried by SW MSG)
kal_uint8 patt_ovwrt_0 :1; // 0: PTA keeps UL/DL config., 1: PTA overwrites UL/DL config.
kal_uint8 rxGroupStatus_2 :1;
kal_uint8 rxGroupPrio_2 :2;
kal_uint8 timerType_2 :1;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 patt_ovwrt_2 :1;
kal_uint8 rxGroupStatus_4 :1;
kal_uint8 rxGroupPrio_4 :2;
kal_uint8 timerType_4 :1;
kal_uint8 patt_ovwrt_4 :1;
/* Sixth Byte */
kal_uint8 rsvd0 :8;
/* Seventh Byte */
kal_uint8 rsvd1 :8;
/* Eighth Byte */
kal_uint8 rsvd2 :8;
/* ninth Byte */
kal_uint8 rsvd3 :8;
}idc_md_lte_rx_ind;
typedef struct _idc_md_lte_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 valid_tx_bmp_l :3; // 0: the TX group does not belong to LTE, 1: the TX group belongs to LTE
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 valid_tx_bmp_h :3;
kal_uint8 txGroupStatus_0 :1; // 0: TX of group0 is off, 1: TX of group0 is on
kal_uint8 txGroupPrio_0 :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 narrow_band_0 :1; // 0: wide band TX, 1: narrow band TX
kal_uint8 txGroupStatus_1 :1;
kal_uint8 txGroupPrio_1 :2;
kal_uint8 narrow_band_1 :1;
kal_uint8 txGroupStatus_2 :1;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 txGroupPrio_2 :2;
kal_uint8 narrow_band_2 :1;
kal_uint8 txGroupStatus_3 :1;
kal_uint8 txGroupPrio_3 :2;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 narrow_band_3 :1;
kal_uint8 txGroupStatus_4 :1;
kal_uint8 txGroupPrio_4 :2;
kal_uint8 narrow_band_4 :1;
kal_uint8 txGroupStatus_5 :1;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 txGroupPrio_5 :2;
kal_uint8 narrow_band_5 :1;
kal_uint8 rsvd0 :3;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_lte_tx_ind;
typedef struct _idc_md_lte_slp_dur_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 dur_l :3; // range from 0~2560(ms), 12'b111111111111: infinite duration
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 dur_m :6;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 dur_h :3;
kal_uint8 rsvd0 :3;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_lte_slp_dur_ind;
typedef struct _idc_md_lte_block_consys_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 wifiTx0 :1; // 0: TX of WF active freq. in band0 is not blocked, 1: TX of WF active freq. in band0 is blocked
kal_uint8 wifiTx1 :1; // 0: TX of WF active freq. in band1 is not blocked, 1: TX of WF active freq. in band1 is blocked
kal_uint8 btTx :1; // 0: TX of BT is not blocked, 1: TX of BT is blocked
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 extTx0 :1;
kal_uint8 extTx1 :1;
kal_uint8 lteRxPrio :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
kal_uint8 rsvd0 :2;
/* Fifth Byte */
kal_uint8 rsvd1 :8;
/* Sixth Byte */
kal_uint8 rsvd2 :8;
/* Seventh Byte */
kal_uint8 rsvd3 :8;
/* Eighth Byte */
kal_uint8 rsvd4 :8;
/* ninth Byte */
kal_uint8 rsvd5 :8;
}idc_md_lte_block_consys_tx_ind;
typedef struct _idc_md_send_hw_signal_ack_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 ack_num :3; // Carry the SSN of targeted HW signal from CONSYS
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 targetType :6; // Indicate HW signal Type or SubType depends on the param. 'isExtCmd'
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 isExtCmd :1; // Indicate whether the Ack is for the extend HW signal sent from CONSYS or not
kal_uint8 isWiFiB0 :1; // Indicate whether the Ack is for wifi b0 or not
kal_uint8 isWiFiB1 :1; // Indicate whether the Ack is for wifi b1 or not
kal_uint8 isIgnoreTdm :1; // Indicate modem is at tdm drx on dur mode, bypass tdm
kal_uint8 rsvd0 :2;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_send_hw_signal_ack_ind;
typedef struct _idc_md_lte_scell_activate_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 cellBmp_l :3; // 0: LTE serving cell i is de-active, 1: LTE serving cell i is active
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 cellBmp_h :5;
kal_uint8 rsvd0 :1;
/* Fifth Byte */
kal_uint8 rsvd1 :8;
/* Sixth Byte */
kal_uint8 rsvd2 :8;
/* Seventh Byte */
kal_uint8 rsvd3 :8;
/* Eighth Byte */
kal_uint8 rsvd4 :8;
/* ninth Byte */
kal_uint8 rsvd5 :8;
}idc_md_lte_scell_activate_ind;
typedef struct _idc_md_tx_bwp_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 bwpCC0 :2; // Index of MD TX BWP (0-3), NR: CC0-CC8, LTE: CC9-CC15
kal_uint8 bwpCC1_l :1;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 bwpCC1_h :1;
kal_uint8 bwpCC2 :2;
kal_uint8 bwpCC3 :2;
kal_uint8 bwpCC4_l :1;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 bwpCC4_h :1;
kal_uint8 bwpCC5 :2;
kal_uint8 bwpCC6 :2;
kal_uint8 bwpCC7_l :1;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 bwpCC7_h :1;
kal_uint8 bwpCC8 :2;
kal_uint8 bwpCC9 :2;
kal_uint8 bwpCC10_l :1;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 bwpCC10_h :1;
kal_uint8 bwpCC11 :2;
kal_uint8 bwpCC12 :2;
kal_uint8 bwpCC13_l :1;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 bwpCC13_h :1;
kal_uint8 bwpCC14 :2;
kal_uint8 bwpCC15 :2;
kal_uint8 rsvd0 :1;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_tx_bwp_ind;
typedef struct _idc_md_rx_bwp_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 bwpCC0 :2; // Index of MD RX BWP (0-3), NR: CC0-CC8, LTE: CC9-CC15
kal_uint8 bwpCC1_l :1;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 bwpCC1_h :1;
kal_uint8 bwpCC2 :2;
kal_uint8 bwpCC3 :2;
kal_uint8 bwpCC4_l :1;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 bwpCC4_h :1;
kal_uint8 bwpCC5 :2;
kal_uint8 bwpCC6 :2;
kal_uint8 bwpCC7_l :1;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 bwpCC7_h :1;
kal_uint8 bwpCC8 :2;
kal_uint8 bwpCC9 :2;
kal_uint8 bwpCC10_l :1;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 bwpCC10_h :1;
kal_uint8 bwpCC11 :2;
kal_uint8 bwpCC12 :2;
kal_uint8 bwpCC13_l :1;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 bwpCC13_h :1;
kal_uint8 bwpCC14 :2;
kal_uint8 bwpCC15 :2;
kal_uint8 rsvd0 :1;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_rx_bwp_ind;
typedef struct _idc_md_pattern_sync_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 offset_l :3; // range from 0-19999(us)
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 offset_m :6;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 offset_h :6;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 rxGroupBmp :6; // 0: the sync is not for group n, 1: the sync is for group n
/* Seventh Byte */
kal_uint8 rsvd0 :8;
/* Eighth Byte */
kal_uint8 rsvd1 :8;
/* ninth Byte */
kal_uint8 rsvd2 :8;
}idc_md_pattern_sync_ind;
typedef struct _idc_md_nr_rx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 rxGroupStatus_1 :1; // 0: RX of group1 is off, 1: RX of group1 is on
kal_uint8 rxGroupPrio_1 :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 timerType_1 :1; // 0: short timer, 1: long timer (carried by SW MSG)
kal_uint8 patt_ovwrt_1 :1; // 0: PTA keeps UL/DL config., 1: PTA overwrites UL/DL config.
kal_uint8 rxGroupStatus_3 :1;
kal_uint8 rxGroupPrio_3 :2;
kal_uint8 timerType_3 :1;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 patt_ovwrt_3 :1;
kal_uint8 rxGroupStatus_5 :1;
kal_uint8 rxGroupPrio_5 :2;
kal_uint8 timerType_5 :1;
kal_uint8 patt_ovwrt_5 :1;
/* Sixth Byte */
kal_uint8 rsvd0 :8;
/* Seventh Byte */
kal_uint8 rsvd1 :8;
/* Eighth Byte */
kal_uint8 rsvd2 :8;
/* ninth Byte */
kal_uint8 rsvd3 :8;
}idc_md_nr_rx_ind;
typedef struct _idc_md_nr_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 valid_tx_bmp_l :3; // 0: the TX group does not belong to NR, 1: the TX group belongs to NR
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 valid_tx_bmp_h :3;
kal_uint8 txGroupStatus_0 :1; // 0: TX of group0 is off, 1: TX of group0 is on
kal_uint8 txGroupPrio_0 :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 narrow_band_0 :1; // 0: wide band TX, 1: narrow band TX
kal_uint8 txGroupStatus_1 :1;
kal_uint8 txGroupPrio_1 :2;
kal_uint8 narrow_band_1 :1;
kal_uint8 txGroupStatus_2 :1;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 txGroupPrio_2 :2;
kal_uint8 narrow_band_2 :1;
kal_uint8 txGroupStatus_3 :1;
kal_uint8 txGroupPrio_3 :2;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 narrow_band_3 :1;
kal_uint8 txGroupStatus_4 :1;
kal_uint8 txGroupPrio_4 :2;
kal_uint8 narrow_band_4 :1;
kal_uint8 txGroupStatus_5 :1;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 txGroupPrio_5 :2;
kal_uint8 narrow_band_5 :1;
kal_uint8 rsvd0 :3;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_nr_tx_ind;
typedef struct _idc_md_nr_slp_dur_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 dur_l :3; // range from 0~2560(ms), 12'b111111111111: infinite duration
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 dur_m :6;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 dur_h :3;
kal_uint8 rsvd0 :3;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_nr_slp_dur_ind;
typedef struct _idc_md_nr_block_consys_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 wifiTx0 :1; // 0: TX of WF active freq. in band0 is not blocked, 1: TX of WF active freq. in band0 is blocked
kal_uint8 wifiTx1 :1; // 0: TX of WF active freq. in band1 is not blocked, 1: TX of WF active freq. in band1 is blocked
kal_uint8 btTx :1; // 0: TX of BT is not blocked, 1: TX of BT is blocked
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 extTx0 :1;
kal_uint8 extTx1 :1;
kal_uint8 nrRxPrio :2; // 2'b11 > 2'b10 > 2'b01 > 2'b00
kal_uint8 rsvd0 :2;
/* Fifth Byte */
kal_uint8 rsvd1 :8;
/* Sixth Byte */
kal_uint8 rsvd2 :8;
/* Seventh Byte */
kal_uint8 rsvd3 :8;
/* Eighth Byte */
kal_uint8 rsvd4 :8;
/* ninth Byte */
kal_uint8 rsvd5 :8;
}idc_md_nr_block_consys_tx_ind;
typedef struct _idc_md_expect_consys_tx_pwr_limit_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 txPwrGroup0_l :3; // the expected CONSYS TX power for MD RX group 0
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 txPwrGroup0_h :1;
kal_uint8 txPwrGroup1 :4;
kal_uint8 txPwrGroup2_l :1;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txPwrGroup2_h :3;
kal_uint8 txPwrGroup3_l :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 txPwrGroup3_h :1;
kal_uint8 txPwrGroup4 :4;
kal_uint8 txPwrGroup5_l :1;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 txPwrGroup5_h :3;
kal_uint8 rsvd0 :3;
/* Eighth Byte */
kal_uint8 rsvd1 :8;
/* ninth Byte */
kal_uint8 rsvd2 :8;
}idc_md_expect_consys_tx_pwr_limit_ind;
typedef struct _idc_md_lte_tx_pwr_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 txGroup :3; // Indicate the hw signal for which TX group
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 txPwrCC0 :3; // Updating TX power for CC0
kal_uint8 txPwrCC1 :3; // Updating TX power for CC1
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txPwrCC2 :3;
kal_uint8 txPwrCC3 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 txPwrCC4 :3;
kal_uint8 txPwrCC5 :3;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 txPwrCC6 :3;
kal_uint8 txPwrCC7 :3;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 txPwrCC8 :3;
kal_uint8 txPwrCC9 :3;
/* ninth Byte */
kal_uint8 ninthBit :1; // Always be 1
kal_uint8 ext8thBit :1; // Always be 1
kal_uint8 txPwrCC10 :3;
kal_uint8 rsvd0 :3;
}idc_md_lte_tx_pwr_ind;
typedef struct _idc_md_lte_tx_leadtime_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 txPwrCC11 :3; // Updating TX power for CC11
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 txPwrCC12 :3;
kal_uint8 txPwrCC13 :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txPwrCC14 :3;
kal_uint8 txPwrCC15 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 leadTime_l :6; // (us)
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 leadTime_h :4;
kal_uint8 rsvd0 :2;
/* Eighth Byte */
kal_uint8 rsvd1 :8;
/* ninth Byte */
kal_uint8 rsvd2 :8;
}idc_md_lte_tx_leadtime_ind;
typedef struct _idc_md_nr_tx_pwr_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 txGroup :3; // Indicate the hw signal for which TX group
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 txPwrCC0 :3; // Updating TX power for CC0
kal_uint8 txPwrCC1 :3; // Updating TX power for CC1
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txPwrCC2 :3;
kal_uint8 txPwrCC3 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 txPwrCC4 :3;
kal_uint8 txPwrCC5 :3;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 txPwrCC6 :3;
kal_uint8 txPwrCC7 :3;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 txPwrCC8 :3;
kal_uint8 txPwrCC9 :3;
/* ninth Byte */
kal_uint8 ninthBit :1; // Always be 1
kal_uint8 ext8thBit :1; // Always be 1
kal_uint8 txPwrCC10 :3;
kal_uint8 rsvd0 :3;
}idc_md_nr_tx_pwr_ind;
typedef struct _idc_md_nr_tx_leadtime_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 txPwrCC11 :3; // Updating TX power for CC11
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 txPwrCC12 :3;
kal_uint8 txPwrCC13 :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txPwrCC14 :3;
kal_uint8 txPwrCC15 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 leadTime_l :6; // (us)
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 leadTime_h :4;
kal_uint8 rsvd0 :2;
/* Eighth Byte */
kal_uint8 rsvd1 :8;
/* ninth Byte */
kal_uint8 rsvd2 :8;
}idc_md_nr_tx_leadtime_ind;
typedef struct _idc_md_nr_scell_activate_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 cellBmp_l :3; // 0: LTE serving cell i is de-active, 1: LTE serving cell i is active
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 cellBmp_h :6;
/* Fifth Byte */
kal_uint8 rsvd0 :8;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_nr_scell_activate_ind;
typedef struct _idc_md_tx_bwp_fw_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 bwpCC0 :3; // Index of MD TX BWP (0-4), NR: CC0-CC8
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 bwpCC1 :3;
kal_uint8 bwpCC2 :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 bwpCC3 :3;
kal_uint8 bwpCC4 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 bwpCC5 :3;
kal_uint8 bwpCC6 :3;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 bwpCC7 :3;
kal_uint8 bwpCC8 :3;
/* Eighth Byte */
kal_uint8 rsvd0 :8;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_tx_bwp_fw_ind;
typedef struct _idc_md_rx_bwp_fw_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 bwpCC0 :3; // Index of MD RX BWP (0-4), NR: CC0-CC8
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 bwpCC1 :3;
kal_uint8 bwpCC2 :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 bwpCC3 :3;
kal_uint8 bwpCC4 :3;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 bwpCC5 :3;
kal_uint8 bwpCC6 :3;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 bwpCC7 :3;
kal_uint8 bwpCC8 :3;
/* Eighth Byte */
kal_uint8 rsvd0 :8;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_md_rx_bwp_fw_ind;
typedef struct _idc_md_lte_tx_fw_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 valid_tx_bmp_l :3; // 0: the TX group does not belong to LTE, 1: the TX group belongs to LTE
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 valid_tx_bmp_h :3;
kal_uint8 txGroupStatus_0 :1; // 0: TX of group0 is off, 1: TX of group0 is on
kal_uint8 txGroupStatus_1 :1; // 0: TX of group1 is off, 1: TX of group1 is on
kal_uint8 txGroupStatus_2 :1; // 0: TX of group2 is off, 1: TX of group2 is on
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txGroupStatus_3 :1; // 0: TX of group3 is off, 1: TX of group3 is on
kal_uint8 txGroupStatus_4 :1; // 0: TX of group4 is off, 1: TX of group4 is on
kal_uint8 txGroupStatus_5 :1; // 0: TX of group5 is off, 1: TX of group5 is on
kal_uint8 rsvd0 :3;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_lte_tx_fw_ind;
typedef struct _idc_md_nr_tx_fw_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 valid_tx_bmp_l :3; // 0: the TX group does not belong to NR, 1: the TX group belongs to NR
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 valid_tx_bmp_h :3;
kal_uint8 txGroupStatus_0 :1; // 0: TX of group0 is off, 1: TX of group0 is on
kal_uint8 txGroupStatus_1 :1; // 0: TX of group1 is off, 1: TX of group1 is on
kal_uint8 txGroupStatus_2 :1; // 0: TX of group2 is off, 1: TX of group2 is on
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 txGroupStatus_3 :1; // 0: TX of group3 is off, 1: TX of group3 is on
kal_uint8 txGroupStatus_4 :1; // 0: TX of group4 is off, 1: TX of group4 is on
kal_uint8 txGroupStatus_5 :1; // 0: TX of group5 is off, 1: TX of group5 is on
kal_uint8 rsvd0 :3;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_md_nr_tx_fw_ind;
/***** structure for filling extend command by byte *****/
typedef struct _idc_ext_cmd_byte_str_type_1
{
kal_uint8 field1 :1;
kal_uint8 field2 :4;
kal_uint8 field3 :3;
}idc_ext_cmd_byte_str_type_1;
typedef struct _idc_ext_cmd_byte_str_type_2
{
kal_uint8 field1 :1;
kal_uint8 field2 :1;
kal_uint8 field3 :6;
}idc_ext_cmd_byte_str_type_2;
typedef struct _idc_ext_cmd_byte_str_type_3
{
kal_uint8 field1 :1;
kal_uint8 field2 :1;
kal_uint8 field3 :3;
kal_uint8 field4 :3;
}idc_ext_cmd_byte_str_type_3;
typedef struct _idc_ext_cmd_byte_type
{
kal_uint8 data;
idc_ext_cmd_byte_str_type_1 data_type_1;
idc_ext_cmd_byte_str_type_2 data_type_2;
idc_ext_cmd_byte_str_type_3 data_type_3;
}idc_ext_cmd_byte_type;
typedef union _idc_md_normal_hw_signal
{
idc_md_normal_hw_signal_ind normalHwSignal;
idc_md_lte_drx_ind lteDrxInd;
idc_md_nr_drx_ind nrDrxInd;
idc_md_lte_int_detect_ind lteIntDetectInd;
idc_md_nr_int_detect_ind nrIntDetectInd;
idc_md_lte_phase_ind ltePhaseInd;
idc_md_nr_phase_ind nrPhaseInd;
idc_md_lte_state_ind lteStateInd;
idc_md_nr_state_ind nrStateInd;
idc_md_lte_suspend_pta_ap_ind lteSuspPtaApInd;
idc_md_nr_suspend_pta_ap_ind nrSuspPtaApInd;
idc_md_lte_gnss_blank_ind lteGnssBlankInd;
idc_md_nr_gnss_blank_ind nrGnssBlankInd;
idc_md_tx_susp_ind txSuspInd;
}idc_md_normal_hw_signal;
typedef union _idc_md_extend_hw_signal
{
idc_md_ext_cmd_struct extCmd;
idc_md_ext_hw_signal_ind extHwSignal;
idc_md_lte_rx_ind lteRxInd;
idc_md_lte_tx_ind lteTxInd;
idc_md_lte_slp_dur_ind lteSlpDurInd;
idc_md_lte_block_consys_tx_ind lteBlockConsysTxInd;
idc_md_send_hw_signal_ack_ind hwSignalAckInd;
idc_md_lte_scell_activate_ind lteScellActvInd;
idc_md_tx_bwp_ind txBwpInd;
idc_md_rx_bwp_ind rxBwpInd;
idc_md_pattern_sync_ind patternSyncInd;
idc_md_nr_rx_ind nrRxInd;
idc_md_nr_tx_ind nrTxInd;
idc_md_nr_slp_dur_ind nrSlpDurInd;
idc_md_nr_block_consys_tx_ind nrBlockConsysTxInd;
idc_md_expect_consys_tx_pwr_limit_ind consysTxPwrLimitInd;
idc_md_lte_tx_pwr_ind lteTxPwrInd;
idc_md_lte_tx_leadtime_ind lteTxLeadtimeInd;
idc_md_nr_tx_pwr_ind nrTxPwrInd;
idc_md_nr_tx_leadtime_ind nrTxLeadtimeInd;
idc_md_nr_scell_activate_ind nrScellActvInd;
idc_md_tx_bwp_fw_ind txBwpFwInd;
idc_md_rx_bwp_fw_ind rxBwpFwInd;
idc_md_lte_tx_fw_ind lteTxFwInd;
idc_md_nr_tx_fw_ind nrTxFwInd;
}idc_md_extend_hw_signal;
typedef struct _idc_dummy_consys_hw_sig_ack_ind_ilm_struct
{
LOCAL_PARA_HDR
idc_md_send_hw_signal_ack_ind hwSigAckInd;
}idc_dummy_consys_hw_sig_ack_ind_ilm_struct;
typedef struct _idc_scheduling_event
{
/* Link list pointer of idc event list */
llist_t link;
kal_bool isSleep;
kal_int64 localOffset;
kal_uint8 num;
idc_md_normal_hw_signal_type_enum EventType;
idc_md_normal_hw_signal IdcData;
idc_md_extend_hw_signal_subtype_enum EventSubType;
idc_md_extend_hw_signal IdcExtData;
}idc_scheduling_event;
/************************/
/***** CONSYS to LTE ****/
/************************/
/***** IDC CONSYS Normal HW Signal *****/
typedef struct _idc_consys_resend_ntf
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 rsvd :7;
}idc_consys_resend_ntf;
typedef struct _idc_consys_bt_max_pwr_backoff_ntf
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 mdPwrBackoffEn :1; // 0: MD does not apply pwr backoff solution, 1: MD applies pwr backoff solution
kal_uint16 btPwrBackoffEn :1; // 0: BT does not apply pwr backoff solution, 1: BT applies pwr backoff solution
kal_uint16 rsvd :5;
}idc_consys_bt_max_pwr_backoff_ntf;
typedef struct _idc_consys_active_bss_ntf
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 actvBmp :4; // LSB -> MSB: WiFi BSS1 --> BSS4
kal_uint16 isWiFiSTA :1; // 0: SAP, 1: STA
kal_uint16 rsvd :2;
}idc_consys_active_bss_ntf;
typedef struct _idc_consys_wifi_max_pwr_backoff_ntf
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 mdPwrBackoffEn :1; // 0: MD does not apply pwr backoff solution, 1: MD applies pwr backoff solution
kal_uint16 wifi_0 :1; // MD do PWR backoff triggered by WF band0
kal_uint16 wifi_1 :1; // MD do PWR backoff triggered by WF band1
kal_uint16 wf0PwrBackoffEn :1; // 0: WF band0 does not apply pwr backoff solution, 1: WF band0 applies pwr backoff solution
kal_uint16 wf1PwrBackoffEn :1; // 0: WF band1 does not apply pwr backoff solution, 1: WF band1 applies pwr backoff solution
kal_uint16 isWfScan :1; // 0: WF Scan off, 1: WF scan on
kal_uint16 rsvd :1;
}idc_consys_wifi_max_pwr_backoff_ntf;
typedef struct _idc_consys_int_detect_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 solType :2; // 0: FDM, 1: PWR, 2: TDM
kal_uint16 rsvd :5;
}idc_consys_int_detect_ind;
typedef struct _idc_consys_wifi_rssi_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 rsvd :7;
}idc_consys_wifi_rssi_ind;
typedef struct _idc_consys_bt_rssi_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 rsvd :7;
}idc_consys_bt_rssi_ind;
typedef struct _idc_consys_wifi_rx_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 wifi0RxBmp :1; // 0: RX of WiFi band0 is inactive, 1: RX of WiFi band0 is active
kal_uint16 wifi1RxBmp :1; // 0: RX of WiFi band1 is inactive, 1: RX of WiFi band1 is active
kal_uint16 rsvd :5;
}idc_consys_wifi_rx_ind;
typedef struct _idc_consys_bt_tx_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 btTx :1; // 0: TX of BT is inactive, 1: TX of BT is active
kal_uint16 rsvd :6;
}idc_consys_bt_tx_ind;
typedef struct _idc_consys_bt_rx_ind
{
/* First Byte */
kal_uint16 firstBit :1; // Always be 0
kal_uint16 type :4;
kal_uint16 ssn :3;
/* Second Byte */
kal_uint16 secondBit :1; // Always be 1
kal_uint16 btRx :1; // 0: RX of BT is inactive, 1: RX of BT is active
kal_uint16 rsvd :6;
}idc_consys_bt_rx_ind;
/***** IDC CONSYS Extend HW Signal *****/
typedef struct _idc_consys_rx_grant_ntf
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 btTxReq :1; // 0: TX of BT does not request arbitration, 1: TX of BT request arbitration
kal_uint8 btTxPrio_l :2;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 btTxPrio_h :2;
kal_uint8 wifi0TxReq :1; // 0: TX of WiFi band0 does not request arbitration, 1: TX of WiFi band0 request arbitration
kal_uint8 wifi0TxPrio_l :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 wifi0TxPrio_h :1;
kal_uint8 wifi1TxReq :1;
kal_uint8 wifi1TxPrio :4;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 mdRx0Status :2; // 2'b00: MD RX group0 does not transmit data, 2'b01: MD RX group0 transmits data, but it is revoked, 2'b11: MD RX group0 transmits data, and it is granted
kal_uint8 mdRx1Status :2;
kal_uint8 mdRx2Status :2;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 mdRx3Status :2;
kal_uint8 mdRx4Status :2;
kal_uint8 mdRx5Status :2;
/* Eighth Byte */
kal_uint8 eighthBit :1; // Always be 1
kal_uint8 ext7thBit :1; // Always be 0
kal_uint8 mdRx6Status :2;
kal_uint8 mdRx7Status :2;
kal_uint8 rsvd0 :2;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_consys_rx_grant_ntf;
typedef struct _idc_consys_tx_grant_ntf
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 btRxReq :1; // 0: RX of BT does not request arbitration, 1: RX of BT request arbitration
kal_uint8 btRxPrio_l :2;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 btRxPrio_h :2;
kal_uint8 wifi0RxReq :1; // 0: RX of WiFi band0 does not request arbitration, 1: RX of WiFi band0 request arbitration
kal_uint8 wifi0RxPrio_l :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 wifi0RxPrio_h :1;
kal_uint8 wifi1RxReq :1;
kal_uint8 wifi1RxPrio :4;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 mdTx0Status :2; // 2'b00: MD TX group0 does not transmit data, 2'b01: MD TX group0 transmits data, but it is revoked, 2'b11: MD TX group0 transmits data, and it is granted
kal_uint8 mdTx1Status :2;
kal_uint8 mdTx2Status :2;
/* Seventh Byte */
kal_uint8 seventhBit :1; // Always be 1
kal_uint8 ext6thBit :1; // Always be 1
kal_uint8 mdTx3Status :2;
kal_uint8 mdTx4Status :2;
kal_uint8 mdTx5Status :2;
/* Eighth Byte */
kal_uint8 rsvd0 :8;
/* ninth Byte */
kal_uint8 rsvd1 :8;
}idc_consys_tx_grant_ntf;
typedef struct _idc_consys_tdm_ntf
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 wifi0 :1; // Activated freq. in WiFi band0 request TDM
kal_uint8 wifi1 :1; // Activated freq. in WiFi band1 request TDM
kal_uint8 bt :1; // BT request TDM
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 ext0 :1;
kal_uint8 ext1 :1;
kal_uint8 dur_l :4; // Range from 0~2560(ms), 12'b111111111111: infinite duration
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 dur_m :6;
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 dur_h :2;
kal_uint8 rsvd0 :4;
/* Seventh Byte */
kal_uint8 rsvd1 :8;
/* Eighth Byte */
kal_uint8 rsvd2 :8;
/* ninth Byte */
kal_uint8 rsvd3 :8;
}idc_consys_tdm_ntf;
typedef struct _idc_consys_hw_signal_ack_ntf
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 ack_num :3; // Carry the SSN of targeted HW signal from MD
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 targetType :6; // Indicate HW signal Type or SubType depends on the param. 'isExtCmd'
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 isExtCmd :1; // Indicate whether the Ack is for the extend HW signal sent from MD or not
kal_uint8 isFromWiFi :1; // 0: ACK from BT, 1: ACK from WiFi
kal_uint8 rsvd0 :4;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_consys_hw_signal_ack_ntf;
typedef struct _idc_consys_wifi_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 wifi0Tx :1; // 0: TX of WiFi band0 is inactive, 1: TX of WiFi band0 is active
kal_uint8 wifi1Tx :1; // 0: TX of WiFi band1 is inactive, 1: TX of WiFi band1 is active
kal_uint8 rsvd :1;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 wifi0TxPwr :4; // TX PWR of WiFi band0
kal_uint8 wifi1TxPwr_l :2;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 wifi1TxPwr_h :2;
kal_uint8 rsvd0 :4;
/* Sixth Byte */
kal_uint8 rsvd1 :8;
/* Seventh Byte */
kal_uint8 rsvd2 :8;
/* Eighth Byte */
kal_uint8 rsvd3 :8;
/* ninth Byte */
kal_uint8 rsvd4 :8;
}idc_consys_wifi_tx_ind;
typedef struct _idc_consys_bt_pre_tx_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 btRW_l :3; // BT remaining window, the unit is us
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 btRW_m :6;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 btRW_h :1;
kal_uint8 btTxPwr :4; // TX PWR of BT
kal_uint8 btCenter_l :1; // BT channel offset to 2.4G, the uint is Mhz
/* Sixth Byte */
kal_uint8 sixthBit :1; // Always be 1
kal_uint8 ext5thBit :1; // Always be 0
kal_uint8 btCenter_h :6;
/* Seventh Byte */
kal_uint8 rsvd0 :8;
/* Eighth Byte */
kal_uint8 rsvd1 :8;
/* ninth Byte */
kal_uint8 rsvd2 :8;
}idc_consys_bt_pre_tx_ind;
typedef struct _idc_consys_tdm_on_ind
{
/* First Byte */
kal_uint8 firstBit :1; // Always be 0
kal_uint8 type :4; // Always be 15
kal_uint8 len :3; // num. of byte for the data content
/* Second Byte */
kal_uint8 secondBit :1; // Always be 1
kal_uint8 ext1stBit :1; // Always be 0
kal_uint8 subType :6;
/* Third Byte */
kal_uint8 thirdBit :1; // Always be 1
kal_uint8 ext2ndBit :1; // Always be 1
kal_uint8 ssn :3;
kal_uint8 isTdmOn :1; // 0: TX of WiFi band0 is inactive, 1: TX of WiFi band0 is active
kal_uint8 wifi0 :1; // 0: TX of WiFi band1 is inactive, 1: TX of WiFi band1 is active
kal_uint8 wifi1 :1;
/* Fourth Byte */
kal_uint8 fourthBit :1; // Always be 1
kal_uint8 ext3rdBit :1; // Always be 0
kal_uint8 bt :1; // TX PWR of WiFi band0
kal_uint8 ext0 :1; // TX PWR of WiFi band0
kal_uint8 ext1 :1; // TX PWR of WiFi band0
kal_uint8 rsvd0 :3;
/* Fifth Byte */
kal_uint8 fifthBit :1; // Always be 1
kal_uint8 ext4thBit :1; // Always be 1
kal_uint8 leadTime :4;
kal_uint8 rsvd1 :2;
/* Sixth Byte */
kal_uint8 rsvd2 :8;
/* Seventh Byte */
kal_uint8 rsvd3 :8;
/* Eighth Byte */
kal_uint8 rsvd4 :8;
/* ninth Byte */
kal_uint8 rsvd5 :8;
}idc_consys_tdm_on_ind;
typedef union _idc_consys_normal_hw_signal
{
idc_consys_resend_ntf ResendNtf;
idc_consys_bt_max_pwr_backoff_ntf BTMaxPwrBackoffNtf;
idc_consys_active_bss_ntf ActvBssNtf;
idc_consys_wifi_max_pwr_backoff_ntf WiFiMaxPwrBackoffNtf;
idc_consys_int_detect_ind IntDetectInd;
idc_consys_wifi_rssi_ind WiFiRssiInd;
idc_consys_bt_rssi_ind BTRssiInd;
idc_consys_wifi_rx_ind WiFiRxInd;
idc_consys_bt_tx_ind BTTxInd;
idc_consys_bt_rx_ind BTRxInd;
}idc_consys_normal_hw_signal;
typedef union _idc_consys_extend_hw_signal
{
idc_consys_rx_grant_ntf RxGrantNtf;
idc_consys_tx_grant_ntf TxGrantNtf;
idc_consys_tdm_ntf TdmNtf;
idc_consys_hw_signal_ack_ntf HwSignalAckNtf;
idc_consys_wifi_tx_ind WiFiTxInd;
idc_consys_bt_pre_tx_ind BTPreTxInd;
idc_consys_tdm_on_ind TdmOnInd;
}idc_consys_extend_hw_signal;
#endif