drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter_local.h - linux/kernel/git/gregkh/driver-core - Git at Google

 /*
  * Support for Intel Camera Imaging ISP subsystem.
  * Copyright (c) 2010-2015, Intel Corporation.
  *
  * This program is free software; you can redistribute it and/or modify it
  * under the terms and conditions of the GNU General Public License,
  * version 2, as published by the Free Software Foundation.
  *
  * This program is distributed in the hope it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
  * more details.
  */

 #ifndef __INPUT_FORMATTER_LOCAL_H_INCLUDED__
 #define __INPUT_FORMATTER_LOCAL_H_INCLUDED__

 #include "input_formatter_global.h"

 #include "isp.h"		/* ISP_VEC_ALIGN */

 typedef struct input_formatter_switch_state_s	input_formatter_switch_state_t;
 typedef struct input_formatter_state_s			input_formatter_state_t;
 typedef struct input_formatter_bin_state_s		input_formatter_bin_state_t;

 #define HIVE_IF_FSM_SYNC_STATUS                 0x100
 #define HIVE_IF_FSM_SYNC_COUNTER                0x104
 #define HIVE_IF_FSM_DEINTERLEAVING_IDX          0x114
 #define HIVE_IF_FSM_DECIMATION_H_COUNTER        0x118
 #define HIVE_IF_FSM_DECIMATION_V_COUNTER        0x11C
 #define HIVE_IF_FSM_DECIMATION_BLOCK_V_COUNTER  0x120
 #define HIVE_IF_FSM_PADDING_STATUS              0x124
 #define HIVE_IF_FSM_PADDING_ELEMENT_COUNTER     0x128
 #define HIVE_IF_FSM_VECTOR_SUPPORT_ERROR        0x12C
 #define HIVE_IF_FSM_VECTOR_SUPPORT_BUFF_FULL    0x130
 #define HIVE_IF_FSM_VECTOR_SUPPORT              0x134
 #define HIVE_IF_FIFO_SENSOR_STATUS              0x138

 /*
  * The switch LUT's coding defines a sink for each
  * single channel ID + channel format type. Conversely
  * the sink (i.e. an input formatter) can be reached
  * from multiple channel & format type combinations
  *
  * LUT[0,1] channel=0, format type {0,1,...31}
  * LUT[2,3] channel=1, format type {0,1,...31}
  * LUT[4,5] channel=2, format type {0,1,...31}
  * LUT[6,7] channel=3, format type {0,1,...31}
  *
  * Each register hold 16 2-bit fields encoding the sink
  * {0,1,2,3}, "0" means unconnected.
  *
  * The single FSYNCH register uses four 3-bit fields of 1-hot
  * encoded sink information, "0" means unconnected.
  *
  * The encoding is redundant. The FSYNCH setting will connect
  * a channel to a sink. At that point the LUT's belonging to
  * that channel can be directed to another sink. Thus the data
  * goes to another place than the synch
  */
 struct input_formatter_switch_state_s {
 	int	if_input_switch_lut_reg[8];
 	int	if_input_switch_fsync_lut;
 	int	if_input_switch_ch_id_fmt_type;
 	bool if_input_switch_map[HIVE_SWITCH_N_CHANNELS][HIVE_SWITCH_N_FORMATTYPES];
 };

 struct input_formatter_state_s {
 	/*	int	reset; */
 	int	start_line;
 	int	start_column;
 	int	cropped_height;
 	int	cropped_width;
 	int	ver_decimation;
 	int	hor_decimation;
 	int	ver_deinterleaving;
 	int	hor_deinterleaving;
 	int	left_padding;
 	int	eol_offset;
 	int	vmem_start_address;
 	int	vmem_end_address;
 	int	vmem_increment;
 	int	is_yuv420;
 	int	vsync_active_low;
 	int	hsync_active_low;
 	int	allow_fifo_overflow;
 	int block_fifo_when_no_req;
 	int	fsm_sync_status;
 	int	fsm_sync_counter;
 	int	fsm_crop_status;
 	int	fsm_crop_line_counter;
 	int	fsm_crop_pixel_counter;
 	int	fsm_deinterleaving_index;
 	int	fsm_dec_h_counter;
 	int	fsm_dec_v_counter;
 	int	fsm_dec_block_v_counter;
 	int	fsm_padding_status;
 	int	fsm_padding_elem_counter;
 	int	fsm_vector_support_error;
 	int	fsm_vector_buffer_full;
 	int	vector_support;
 	int	sensor_data_lost;
 };

 struct input_formatter_bin_state_s {
 	u32	reset;
 	u32	input_endianness;
 	u32	output_endianness;
 	u32	bitswap;
 	u32	block_synch;
 	u32	packet_synch;
 	u32	readpostwrite_synch;
 	u32	is_2ppc;
 	u32	en_status_update;
 };

 static const unsigned int input_formatter_alignment[N_INPUT_FORMATTER_ID] = {
 	ISP_VEC_ALIGN, ISP_VEC_ALIGN, HIVE_ISP_CTRL_DATA_BYTES
 };

 #endif /* __INPUT_FORMATTER_LOCAL_H_INCLUDED__ */
	/*
	* Support for Intel Camera Imaging ISP subsystem.
	* Copyright (c) 2010-2015, Intel Corporation.
	*
	* This program is free software; you can redistribute it and/or modify it
	* under the terms and conditions of the GNU General Public License,
	* version 2, as published by the Free Software Foundation.
	*
	* This program is distributed in the hope it will be useful, but WITHOUT
	* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
	* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
	* more details.
	*/

	#ifndef __INPUT_FORMATTER_LOCAL_H_INCLUDED__
	#define __INPUT_FORMATTER_LOCAL_H_INCLUDED__

	#include "input_formatter_global.h"

	#include "isp.h" /* ISP_VEC_ALIGN */

	typedef struct input_formatter_switch_state_s input_formatter_switch_state_t;
	typedef struct input_formatter_state_s input_formatter_state_t;
	typedef struct input_formatter_bin_state_s input_formatter_bin_state_t;

	#define HIVE_IF_FSM_SYNC_STATUS 0x100
	#define HIVE_IF_FSM_SYNC_COUNTER 0x104
	#define HIVE_IF_FSM_DEINTERLEAVING_IDX 0x114
	#define HIVE_IF_FSM_DECIMATION_H_COUNTER 0x118
	#define HIVE_IF_FSM_DECIMATION_V_COUNTER 0x11C
	#define HIVE_IF_FSM_DECIMATION_BLOCK_V_COUNTER 0x120
	#define HIVE_IF_FSM_PADDING_STATUS 0x124
	#define HIVE_IF_FSM_PADDING_ELEMENT_COUNTER 0x128
	#define HIVE_IF_FSM_VECTOR_SUPPORT_ERROR 0x12C
	#define HIVE_IF_FSM_VECTOR_SUPPORT_BUFF_FULL 0x130
	#define HIVE_IF_FSM_VECTOR_SUPPORT 0x134
	#define HIVE_IF_FIFO_SENSOR_STATUS 0x138

	/*
	* The switch LUT's coding defines a sink for each
	* single channel ID + channel format type. Conversely
	* the sink (i.e. an input formatter) can be reached
	* from multiple channel & format type combinations
	*
	* LUT[0,1] channel=0, format type {0,1,...31}
	* LUT[2,3] channel=1, format type {0,1,...31}
	* LUT[4,5] channel=2, format type {0,1,...31}
	* LUT[6,7] channel=3, format type {0,1,...31}
	*
	* Each register hold 16 2-bit fields encoding the sink
	* {0,1,2,3}, "0" means unconnected.
	*
	* The single FSYNCH register uses four 3-bit fields of 1-hot
	* encoded sink information, "0" means unconnected.
	*
	* The encoding is redundant. The FSYNCH setting will connect
	* a channel to a sink. At that point the LUT's belonging to
	* that channel can be directed to another sink. Thus the data
	* goes to another place than the synch
	*/
	struct input_formatter_switch_state_s {
	int if_input_switch_lut_reg[8];
	int if_input_switch_fsync_lut;
	int if_input_switch_ch_id_fmt_type;
	bool if_input_switch_map[HIVE_SWITCH_N_CHANNELS][HIVE_SWITCH_N_FORMATTYPES];
	};

	struct input_formatter_state_s {
	/* int reset; */
	int start_line;
	int start_column;
	int cropped_height;
	int cropped_width;
	int ver_decimation;
	int hor_decimation;
	int ver_deinterleaving;
	int hor_deinterleaving;
	int left_padding;
	int eol_offset;
	int vmem_start_address;
	int vmem_end_address;
	int vmem_increment;
	int is_yuv420;
	int vsync_active_low;
	int hsync_active_low;
	int allow_fifo_overflow;
	int block_fifo_when_no_req;
	int fsm_sync_status;
	int fsm_sync_counter;
	int fsm_crop_status;
	int fsm_crop_line_counter;
	int fsm_crop_pixel_counter;
	int fsm_deinterleaving_index;
	int fsm_dec_h_counter;
	int fsm_dec_v_counter;
	int fsm_dec_block_v_counter;
	int fsm_padding_status;
	int fsm_padding_elem_counter;
	int fsm_vector_support_error;
	int fsm_vector_buffer_full;
	int vector_support;
	int sensor_data_lost;
	};

	struct input_formatter_bin_state_s {
	u32 reset;
	u32 input_endianness;
	u32 output_endianness;
	u32 bitswap;
	u32 block_synch;
	u32 packet_synch;
	u32 readpostwrite_synch;
	u32 is_2ppc;
	u32 en_status_update;
	};

	static const unsigned int input_formatter_alignment[N_INPUT_FORMATTER_ID] = {
	ISP_VEC_ALIGN, ISP_VEC_ALIGN, HIVE_ISP_CTRL_DATA_BYTES
	};

	#endif /* __INPUT_FORMATTER_LOCAL_H_INCLUDED__ */