diff options
Diffstat (limited to 'drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter.c')
-rw-r--r-- | drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter.c | 246 |
1 files changed, 246 insertions, 0 deletions
diff --git a/drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter.c b/drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter.c new file mode 100644 index 000000000..5cd6136f2 --- /dev/null +++ b/drivers/staging/media/atomisp/pci/hive_isp_css_common/host/input_formatter.c @@ -0,0 +1,246 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * 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. + */ + +#include "system_global.h" + +#ifndef ISP2401 + +#include "input_formatter.h" +#include <type_support.h> +#include "gp_device.h" + +#include "assert_support.h" + +#ifndef __INLINE_INPUT_FORMATTER__ +#include "input_formatter_private.h" +#endif /* __INLINE_INPUT_FORMATTER__ */ + +static const unsigned int input_formatter_alignment[N_INPUT_FORMATTER_ID] = { + ISP_VEC_ALIGN, ISP_VEC_ALIGN, HIVE_ISP_CTRL_DATA_BYTES +}; + +const hrt_address HIVE_IF_SRST_ADDRESS[N_INPUT_FORMATTER_ID] = { + INPUT_FORMATTER0_SRST_OFFSET, + INPUT_FORMATTER1_SRST_OFFSET, + INPUT_FORMATTER2_SRST_OFFSET, + INPUT_FORMATTER3_SRST_OFFSET +}; + +const hrt_data HIVE_IF_SRST_MASK[N_INPUT_FORMATTER_ID] = { + INPUT_FORMATTER0_SRST_MASK, + INPUT_FORMATTER1_SRST_MASK, + INPUT_FORMATTER2_SRST_MASK, + INPUT_FORMATTER3_SRST_MASK +}; + +const u8 HIVE_IF_SWITCH_CODE[N_INPUT_FORMATTER_ID] = { + HIVE_INPUT_SWITCH_SELECT_IF_PRIM, + HIVE_INPUT_SWITCH_SELECT_IF_PRIM, + HIVE_INPUT_SWITCH_SELECT_IF_SEC, + HIVE_INPUT_SWITCH_SELECT_STR_TO_MEM +}; + +/* MW Should be part of system_global.h, where we have the main enumeration */ +static const bool HIVE_IF_BIN_COPY[N_INPUT_FORMATTER_ID] = { + false, false, false, true +}; + +void input_formatter_rst( + const input_formatter_ID_t ID) +{ + hrt_address addr; + hrt_data rst; + + assert(ID < N_INPUT_FORMATTER_ID); + + addr = HIVE_IF_SRST_ADDRESS[ID]; + rst = HIVE_IF_SRST_MASK[ID]; + + /* TEMPORARY HACK: THIS RESET BREAKS THE METADATA FEATURE + * WICH USES THE STREAM2MEMRY BLOCK. + * MUST BE FIXED PROPERLY + */ + if (!HIVE_IF_BIN_COPY[ID]) { + input_formatter_reg_store(ID, addr, rst); + } + + return; +} + +unsigned int input_formatter_get_alignment( + const input_formatter_ID_t ID) +{ + assert(ID < N_INPUT_FORMATTER_ID); + + return input_formatter_alignment[ID]; +} + +void input_formatter_set_fifo_blocking_mode( + const input_formatter_ID_t ID, + const bool enable) +{ + assert(ID < N_INPUT_FORMATTER_ID); + + /* cnd_input_formatter_reg_store() */ + if (!HIVE_IF_BIN_COPY[ID]) { + input_formatter_reg_store(ID, + HIVE_IF_BLOCK_FIFO_NO_REQ_ADDRESS, enable); + } + return; +} + +void input_formatter_get_switch_state( + const input_formatter_ID_t ID, + input_formatter_switch_state_t *state) +{ + assert(ID < N_INPUT_FORMATTER_ID); + assert(state); + + /* We'll change this into an intelligent function to get switch info per IF */ + (void)ID; + + state->if_input_switch_lut_reg[0] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg0); + state->if_input_switch_lut_reg[1] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg1); + state->if_input_switch_lut_reg[2] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg2); + state->if_input_switch_lut_reg[3] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg3); + state->if_input_switch_lut_reg[4] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg4); + state->if_input_switch_lut_reg[5] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg5); + state->if_input_switch_lut_reg[6] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg6); + state->if_input_switch_lut_reg[7] = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_lut_reg7); + state->if_input_switch_fsync_lut = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_fsync_lut); + state->if_input_switch_ch_id_fmt_type = gp_device_reg_load(GP_DEVICE0_ID, + _REG_GP_IFMT_input_switch_ch_id_fmt_type); + + return; +} + +void input_formatter_get_state( + const input_formatter_ID_t ID, + input_formatter_state_t *state) +{ + assert(ID < N_INPUT_FORMATTER_ID); + assert(state); + /* + state->reset = input_formatter_reg_load(ID, + HIVE_IF_RESET_ADDRESS); + */ + state->start_line = input_formatter_reg_load(ID, + HIVE_IF_START_LINE_ADDRESS); + state->start_column = input_formatter_reg_load(ID, + HIVE_IF_START_COLUMN_ADDRESS); + state->cropped_height = input_formatter_reg_load(ID, + HIVE_IF_CROPPED_HEIGHT_ADDRESS); + state->cropped_width = input_formatter_reg_load(ID, + HIVE_IF_CROPPED_WIDTH_ADDRESS); + state->ver_decimation = input_formatter_reg_load(ID, + HIVE_IF_VERTICAL_DECIMATION_ADDRESS); + state->hor_decimation = input_formatter_reg_load(ID, + HIVE_IF_HORIZONTAL_DECIMATION_ADDRESS); + state->hor_deinterleaving = input_formatter_reg_load(ID, + HIVE_IF_H_DEINTERLEAVING_ADDRESS); + state->left_padding = input_formatter_reg_load(ID, + HIVE_IF_LEFTPADDING_WIDTH_ADDRESS); + state->eol_offset = input_formatter_reg_load(ID, + HIVE_IF_END_OF_LINE_OFFSET_ADDRESS); + state->vmem_start_address = input_formatter_reg_load(ID, + HIVE_IF_VMEM_START_ADDRESS_ADDRESS); + state->vmem_end_address = input_formatter_reg_load(ID, + HIVE_IF_VMEM_END_ADDRESS_ADDRESS); + state->vmem_increment = input_formatter_reg_load(ID, + HIVE_IF_VMEM_INCREMENT_ADDRESS); + state->is_yuv420 = input_formatter_reg_load(ID, + HIVE_IF_YUV_420_FORMAT_ADDRESS); + state->vsync_active_low = input_formatter_reg_load(ID, + HIVE_IF_VSYNCK_ACTIVE_LOW_ADDRESS); + state->hsync_active_low = input_formatter_reg_load(ID, + HIVE_IF_HSYNCK_ACTIVE_LOW_ADDRESS); + state->allow_fifo_overflow = input_formatter_reg_load(ID, + HIVE_IF_ALLOW_FIFO_OVERFLOW_ADDRESS); + state->block_fifo_when_no_req = input_formatter_reg_load(ID, + HIVE_IF_BLOCK_FIFO_NO_REQ_ADDRESS); + state->ver_deinterleaving = input_formatter_reg_load(ID, + HIVE_IF_V_DEINTERLEAVING_ADDRESS); + /* FSM */ + state->fsm_sync_status = input_formatter_reg_load(ID, + HIVE_IF_FSM_SYNC_STATUS); + state->fsm_sync_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_SYNC_COUNTER); + state->fsm_crop_status = input_formatter_reg_load(ID, + HIVE_IF_FSM_CROP_STATUS); + state->fsm_crop_line_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_CROP_LINE_COUNTER); + state->fsm_crop_pixel_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_CROP_PIXEL_COUNTER); + state->fsm_deinterleaving_index = input_formatter_reg_load(ID, + HIVE_IF_FSM_DEINTERLEAVING_IDX); + state->fsm_dec_h_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_DECIMATION_H_COUNTER); + state->fsm_dec_v_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_DECIMATION_V_COUNTER); + state->fsm_dec_block_v_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_DECIMATION_BLOCK_V_COUNTER); + state->fsm_padding_status = input_formatter_reg_load(ID, + HIVE_IF_FSM_PADDING_STATUS); + state->fsm_padding_elem_counter = input_formatter_reg_load(ID, + HIVE_IF_FSM_PADDING_ELEMENT_COUNTER); + state->fsm_vector_support_error = input_formatter_reg_load(ID, + HIVE_IF_FSM_VECTOR_SUPPORT_ERROR); + state->fsm_vector_buffer_full = input_formatter_reg_load(ID, + HIVE_IF_FSM_VECTOR_SUPPORT_BUFF_FULL); + state->vector_support = input_formatter_reg_load(ID, + HIVE_IF_FSM_VECTOR_SUPPORT); + state->sensor_data_lost = input_formatter_reg_load(ID, + HIVE_IF_FIFO_SENSOR_STATUS); + + return; +} + +void input_formatter_bin_get_state( + const input_formatter_ID_t ID, + input_formatter_bin_state_t *state) +{ + assert(ID < N_INPUT_FORMATTER_ID); + assert(state); + + state->reset = input_formatter_reg_load(ID, + HIVE_STR2MEM_SOFT_RESET_REG_ADDRESS); + state->input_endianness = input_formatter_reg_load(ID, + HIVE_STR2MEM_INPUT_ENDIANNESS_REG_ADDRESS); + state->output_endianness = input_formatter_reg_load(ID, + HIVE_STR2MEM_OUTPUT_ENDIANNESS_REG_ADDRESS); + state->bitswap = input_formatter_reg_load(ID, + HIVE_STR2MEM_BIT_SWAPPING_REG_ADDRESS); + state->block_synch = input_formatter_reg_load(ID, + HIVE_STR2MEM_BLOCK_SYNC_LEVEL_REG_ADDRESS); + state->packet_synch = input_formatter_reg_load(ID, + HIVE_STR2MEM_PACKET_SYNC_LEVEL_REG_ADDRESS); + state->readpostwrite_synch = input_formatter_reg_load(ID, + HIVE_STR2MEM_READ_POST_WRITE_SYNC_ENABLE_REG_ADDRESS); + state->is_2ppc = input_formatter_reg_load(ID, + HIVE_STR2MEM_DUAL_BYTE_INPUTS_ENABLED_REG_ADDRESS); + state->en_status_update = input_formatter_reg_load(ID, + HIVE_STR2MEM_EN_STAT_UPDATE_ADDRESS); + return; +} +#endif |