/* SPDX-License-Identifier: GPL-2.0 */ /* * Support for Intel Camera Imaging ISP subsystem. * Copyright (c) 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 __CSI_RX_PRIVATE_H_INCLUDED__ #define __CSI_RX_PRIVATE_H_INCLUDED__ #include "rx_csi_defs.h" #include "mipi_backend_defs.h" #include "csi_rx.h" #include "device_access.h" /* ia_css_device_load_uint32 */ #include "assert_support.h" /* assert */ #include "print_support.h" /* print */ /***************************************************** * * Device level interface (DLI). * *****************************************************/ /** * @brief Load the register value. * Refer to "csi_rx_public.h" for details. */ static inline hrt_data csi_rx_fe_ctrl_reg_load( const csi_rx_frontend_ID_t ID, const hrt_address reg) { assert(ID < N_CSI_RX_FRONTEND_ID); assert(CSI_RX_FE_CTRL_BASE[ID] != (hrt_address)-1); return ia_css_device_load_uint32(CSI_RX_FE_CTRL_BASE[ID] + reg * sizeof( hrt_data)); } /** * @brief Store a value to the register. * Refer to "ibuf_ctrl_public.h" for details. */ static inline void csi_rx_fe_ctrl_reg_store( const csi_rx_frontend_ID_t ID, const hrt_address reg, const hrt_data value) { assert(ID < N_CSI_RX_FRONTEND_ID); assert(CSI_RX_FE_CTRL_BASE[ID] != (hrt_address)-1); ia_css_device_store_uint32(CSI_RX_FE_CTRL_BASE[ID] + reg * sizeof(hrt_data), value); } /** * @brief Load the register value. * Refer to "csi_rx_public.h" for details. */ static inline hrt_data csi_rx_be_ctrl_reg_load( const csi_rx_backend_ID_t ID, const hrt_address reg) { assert(ID < N_CSI_RX_BACKEND_ID); assert(CSI_RX_BE_CTRL_BASE[ID] != (hrt_address)-1); return ia_css_device_load_uint32(CSI_RX_BE_CTRL_BASE[ID] + reg * sizeof( hrt_data)); } /** * @brief Store a value to the register. * Refer to "ibuf_ctrl_public.h" for details. */ static inline void csi_rx_be_ctrl_reg_store( const csi_rx_backend_ID_t ID, const hrt_address reg, const hrt_data value) { assert(ID < N_CSI_RX_BACKEND_ID); assert(CSI_RX_BE_CTRL_BASE[ID] != (hrt_address)-1); ia_css_device_store_uint32(CSI_RX_BE_CTRL_BASE[ID] + reg * sizeof(hrt_data), value); } /* end of DLI */ /***************************************************** * * Native command interface (NCI). * *****************************************************/ /** * @brief Get the state of the csi rx fe dlane process. * Refer to "csi_rx_public.h" for details. */ static inline void csi_rx_fe_ctrl_get_dlane_state( const csi_rx_frontend_ID_t ID, const u32 lane, csi_rx_fe_ctrl_lane_t *dlane_state) { dlane_state->termen = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_DLY_CNT_TERMEN_DLANE_REG_IDX(lane)); dlane_state->settle = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_DLY_CNT_SETTLE_DLANE_REG_IDX(lane)); } /** * @brief Get the csi rx fe state. * Refer to "csi_rx_public.h" for details. */ static inline void csi_rx_fe_ctrl_get_state( const csi_rx_frontend_ID_t ID, csi_rx_fe_ctrl_state_t *state) { u32 i; state->enable = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_ENABLE_REG_IDX); state->nof_enable_lanes = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_NOF_ENABLED_LANES_REG_IDX); state->error_handling = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_ERROR_HANDLING_REG_IDX); state->status = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_STATUS_REG_IDX); state->status_dlane_hs = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_STATUS_DLANE_HS_REG_IDX); state->status_dlane_lp = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_STATUS_DLANE_LP_REG_IDX); state->clane.termen = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_DLY_CNT_TERMEN_CLANE_REG_IDX); state->clane.settle = csi_rx_fe_ctrl_reg_load(ID, _HRT_CSI_RX_DLY_CNT_SETTLE_CLANE_REG_IDX); /* * Get the values of the register-set per * dlane. */ for (i = 0; i < N_CSI_RX_FE_CTRL_DLANES[ID]; i++) { csi_rx_fe_ctrl_get_dlane_state( ID, i, &state->dlane[i]); } } /** * @brief dump the csi rx fe state. * Refer to "csi_rx_public.h" for details. */ static inline void csi_rx_fe_ctrl_dump_state( const csi_rx_frontend_ID_t ID, csi_rx_fe_ctrl_state_t *state) { u32 i; ia_css_print("CSI RX FE STATE Controller %d Enable state 0x%x\n", ID, state->enable); ia_css_print("CSI RX FE STATE Controller %d No Of enable lanes 0x%x\n", ID, state->nof_enable_lanes); ia_css_print("CSI RX FE STATE Controller %d Error handling 0x%x\n", ID, state->error_handling); ia_css_print("CSI RX FE STATE Controller %d Status 0x%x\n", ID, state->status); ia_css_print("CSI RX FE STATE Controller %d Status Dlane HS 0x%x\n", ID, state->status_dlane_hs); ia_css_print("CSI RX FE STATE Controller %d Status Dlane LP 0x%x\n", ID, state->status_dlane_lp); ia_css_print("CSI RX FE STATE Controller %d Status term enable LP 0x%x\n", ID, state->clane.termen); ia_css_print("CSI RX FE STATE Controller %d Status term settle LP 0x%x\n", ID, state->clane.settle); /* * Get the values of the register-set per * dlane. */ for (i = 0; i < N_CSI_RX_FE_CTRL_DLANES[ID]; i++) { ia_css_print("CSI RX FE STATE Controller %d DLANE ID %d termen 0x%x\n", ID, i, state->dlane[i].termen); ia_css_print("CSI RX FE STATE Controller %d DLANE ID %d settle 0x%x\n", ID, i, state->dlane[i].settle); } } /** * @brief Get the csi rx be state. * Refer to "csi_rx_public.h" for details. */ static inline void csi_rx_be_ctrl_get_state( const csi_rx_backend_ID_t ID, csi_rx_be_ctrl_state_t *state) { u32 i; state->enable = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_ENABLE_REG_IDX); state->status = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_STATUS_REG_IDX); for (i = 0; i < N_CSI_RX_BE_MIPI_COMP_FMT_REG ; i++) { state->comp_format_reg[i] = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_COMP_FORMAT_REG0_IDX + i); } state->raw16 = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_RAW16_CONFIG_REG_IDX); state->raw18 = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_RAW18_CONFIG_REG_IDX); state->force_raw8 = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_FORCE_RAW8_REG_IDX); state->irq_status = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_IRQ_STATUS_REG_IDX); #if 0 /* device access error for these registers */ /* ToDo: rootcause this failure */ state->custom_mode_enable = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_CUST_EN_REG_IDX); state->custom_mode_data_state = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_CUST_DATA_STATE_REG_IDX); for (i = 0; i < N_CSI_RX_BE_MIPI_CUSTOM_PEC ; i++) { state->pec[i] = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_CUST_PIX_EXT_S0P0_REG_IDX + i); } state->custom_mode_valid_eop_config = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_CUST_PIX_VALID_EOP_REG_IDX); #endif state->global_lut_disregard_reg = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_GLOBAL_LUT_DISREGARD_REG_IDX); state->packet_status_stall = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_PKT_STALL_STATUS_REG_IDX); /* * Get the values of the register-set per * lut. */ for (i = 0; i < N_SHORT_PACKET_LUT_ENTRIES[ID]; i++) { state->short_packet_lut_entry[i] = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_SP_LUT_ENTRY_0_REG_IDX + i); } for (i = 0; i < N_LONG_PACKET_LUT_ENTRIES[ID]; i++) { state->long_packet_lut_entry[i] = csi_rx_be_ctrl_reg_load(ID, _HRT_MIPI_BACKEND_LP_LUT_ENTRY_0_REG_IDX + i); } } /** * @brief Dump the csi rx be state. * Refer to "csi_rx_public.h" for details. */ static inline void csi_rx_be_ctrl_dump_state( const csi_rx_backend_ID_t ID, csi_rx_be_ctrl_state_t *state) { u32 i; ia_css_print("CSI RX BE STATE Controller %d Enable 0x%x\n", ID, state->enable); ia_css_print("CSI RX BE STATE Controller %d Status 0x%x\n", ID, state->status); for (i = 0; i < N_CSI_RX_BE_MIPI_COMP_FMT_REG ; i++) { ia_css_print("CSI RX BE STATE Controller %d comp format reg vc%d value 0x%x\n", ID, i, state->status); } ia_css_print("CSI RX BE STATE Controller %d RAW16 0x%x\n", ID, state->raw16); ia_css_print("CSI RX BE STATE Controller %d RAW18 0x%x\n", ID, state->raw18); ia_css_print("CSI RX BE STATE Controller %d Force RAW8 0x%x\n", ID, state->force_raw8); ia_css_print("CSI RX BE STATE Controller %d IRQ state 0x%x\n", ID, state->irq_status); #if 0 /* ToDo:Getting device access error for this register */ for (i = 0; i < N_CSI_RX_BE_MIPI_CUSTOM_PEC ; i++) { ia_css_print("CSI RX BE STATE Controller %d PEC ID %d custom pec 0x%x\n", ID, i, state->pec[i]); } #endif ia_css_print("CSI RX BE STATE Controller %d Global LUT disregard reg 0x%x\n", ID, state->global_lut_disregard_reg); ia_css_print("CSI RX BE STATE Controller %d packet stall reg 0x%x\n", ID, state->packet_status_stall); /* * Get the values of the register-set per * lut. */ for (i = 0; i < N_SHORT_PACKET_LUT_ENTRIES[ID]; i++) { ia_css_print("CSI RX BE STATE Controller ID %d Short packet entry %d short packet lut id 0x%x\n", ID, i, state->short_packet_lut_entry[i]); } for (i = 0; i < N_LONG_PACKET_LUT_ENTRIES[ID]; i++) { ia_css_print("CSI RX BE STATE Controller ID %d Long packet entry %d long packet lut id 0x%x\n", ID, i, state->long_packet_lut_entry[i]); } } /* end of NCI */ #endif /* __CSI_RX_PRIVATE_H_INCLUDED__ */