| /* 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 _IA_CSS_ACC_TYPES_H |
| #define _IA_CSS_ACC_TYPES_H |
| |
| /* @file |
| * This file contains types used for acceleration |
| */ |
| |
| #include <system_local.h> /* HAS_IRQ_MAP_VERSION_# */ |
| #include <type_support.h> |
| #include <platform_support.h> |
| #include <debug_global.h> |
| |
| #include "ia_css_types.h" |
| #include "ia_css_frame_format.h" |
| |
| /* Should be included without the path. |
| However, that requires adding the path to numerous makefiles |
| that have nothing to do with isp parameters. |
| */ |
| #include "runtime/isp_param/interface/ia_css_isp_param_types.h" |
| |
| /* Types for the acceleration API. |
| * These should be moved to sh_css_internal.h once the old acceleration |
| * argument handling has been completed. |
| * After that, interpretation of these structures is no longer needed |
| * in the kernel and HAL. |
| */ |
| |
| /* Type of acceleration. |
| */ |
| enum ia_css_acc_type { |
| IA_CSS_ACC_NONE, /** Normal binary */ |
| IA_CSS_ACC_OUTPUT, /** Accelerator stage on output frame */ |
| IA_CSS_ACC_VIEWFINDER, /** Accelerator stage on viewfinder frame */ |
| IA_CSS_ACC_STANDALONE, /** Stand-alone acceleration */ |
| }; |
| |
| /* Cells types |
| */ |
| enum ia_css_cell_type { |
| IA_CSS_SP0 = 0, |
| IA_CSS_SP1, |
| IA_CSS_ISP, |
| MAX_NUM_OF_CELLS |
| }; |
| |
| /* Firmware types. |
| */ |
| enum ia_css_fw_type { |
| ia_css_sp_firmware, /** Firmware for the SP */ |
| ia_css_isp_firmware, /** Firmware for the ISP */ |
| ia_css_bootloader_firmware, /** Firmware for the BootLoader */ |
| ia_css_acc_firmware /** Firmware for accelrations */ |
| }; |
| |
| struct ia_css_blob_descr; |
| |
| /* Blob descriptor. |
| * This structure describes an SP or ISP blob. |
| * It describes the test, data and bss sections as well as position in a |
| * firmware file. |
| * For convenience, it contains dynamic data after loading. |
| */ |
| struct ia_css_blob_info { |
| /** Static blob data */ |
| u32 offset; /** Blob offset in fw file */ |
| struct ia_css_isp_param_memory_offsets |
| memory_offsets; /** offset wrt hdr in bytes */ |
| u32 prog_name_offset; /** offset wrt hdr in bytes */ |
| u32 size; /** Size of blob */ |
| u32 padding_size; /** total cummulative of bytes added due to section alignment */ |
| u32 icache_source; /** Position of icache in blob */ |
| u32 icache_size; /** Size of icache section */ |
| u32 icache_padding;/** bytes added due to icache section alignment */ |
| u32 text_source; /** Position of text in blob */ |
| u32 text_size; /** Size of text section */ |
| u32 text_padding; /** bytes added due to text section alignment */ |
| u32 data_source; /** Position of data in blob */ |
| u32 data_target; /** Start of data in SP dmem */ |
| u32 data_size; /** Size of text section */ |
| u32 data_padding; /** bytes added due to data section alignment */ |
| u32 bss_target; /** Start position of bss in SP dmem */ |
| u32 bss_size; /** Size of bss section */ |
| /** Dynamic data filled by loader */ |
| CSS_ALIGN(const void *code, |
| 8); /** Code section absolute pointer within fw, code = icache + text */ |
| CSS_ALIGN(const void *data, |
| 8); /** Data section absolute pointer within fw, data = data + bss */ |
| }; |
| |
| struct ia_css_binary_input_info { |
| u32 min_width; |
| u32 min_height; |
| u32 max_width; |
| u32 max_height; |
| u32 source; /* memory, sensor, variable */ |
| }; |
| |
| struct ia_css_binary_output_info { |
| u32 min_width; |
| u32 min_height; |
| u32 max_width; |
| u32 max_height; |
| u32 num_chunks; |
| u32 variable_format; |
| }; |
| |
| struct ia_css_binary_internal_info { |
| u32 max_width; |
| u32 max_height; |
| }; |
| |
| struct ia_css_binary_bds_info { |
| u32 supported_bds_factors; |
| }; |
| |
| struct ia_css_binary_dvs_info { |
| u32 max_envelope_width; |
| u32 max_envelope_height; |
| }; |
| |
| struct ia_css_binary_vf_dec_info { |
| u32 is_variable; |
| u32 max_log_downscale; |
| }; |
| |
| struct ia_css_binary_s3a_info { |
| u32 s3atbl_use_dmem; |
| u32 fixed_s3a_deci_log; |
| }; |
| |
| /* DPC related binary info */ |
| struct ia_css_binary_dpc_info { |
| u32 bnr_lite; /** bnr lite enable flag */ |
| }; |
| |
| struct ia_css_binary_iterator_info { |
| u32 num_stripes; |
| u32 row_stripes_height; |
| u32 row_stripes_overlap_lines; |
| }; |
| |
| struct ia_css_binary_address_info { |
| u32 isp_addresses; /* Address in ISP dmem */ |
| u32 main_entry; /* Address of entry fct */ |
| u32 in_frame; /* Address in ISP dmem */ |
| u32 out_frame; /* Address in ISP dmem */ |
| u32 in_data; /* Address in ISP dmem */ |
| u32 out_data; /* Address in ISP dmem */ |
| u32 sh_dma_cmd_ptr; /* In ISP dmem */ |
| }; |
| |
| struct ia_css_binary_uds_info { |
| u16 bpp; |
| u16 use_bci; |
| u16 use_str; |
| u16 woix; |
| u16 woiy; |
| u16 extra_out_vecs; |
| u16 vectors_per_line_in; |
| u16 vectors_per_line_out; |
| u16 vectors_c_per_line_in; |
| u16 vectors_c_per_line_out; |
| u16 vmem_gdc_in_block_height_y; |
| u16 vmem_gdc_in_block_height_c; |
| /* uint16_t padding; */ |
| }; |
| |
| struct ia_css_binary_pipeline_info { |
| u32 mode; |
| u32 isp_pipe_version; |
| u32 pipelining; |
| u32 c_subsampling; |
| u32 top_cropping; |
| u32 left_cropping; |
| u32 variable_resolution; |
| }; |
| |
| struct ia_css_binary_block_info { |
| u32 block_width; |
| u32 block_height; |
| u32 output_block_height; |
| }; |
| |
| /* Structure describing an ISP binary. |
| * It describes the capabilities of a binary, like the maximum resolution, |
| * support features, dma channels, uds features, etc. |
| * This part is to be used by the SP. |
| * Future refactoring should move binary properties to ia_css_binary_xinfo, |
| * thereby making the SP code more binary independent. |
| */ |
| struct ia_css_binary_info { |
| CSS_ALIGN(u32 id, 8); /* IA_CSS_BINARY_ID_* */ |
| struct ia_css_binary_pipeline_info pipeline; |
| struct ia_css_binary_input_info input; |
| struct ia_css_binary_output_info output; |
| struct ia_css_binary_internal_info internal; |
| struct ia_css_binary_bds_info bds; |
| struct ia_css_binary_dvs_info dvs; |
| struct ia_css_binary_vf_dec_info vf_dec; |
| struct ia_css_binary_s3a_info s3a; |
| struct ia_css_binary_dpc_info dpc_bnr; /** DPC related binary info */ |
| struct ia_css_binary_iterator_info iterator; |
| struct ia_css_binary_address_info addresses; |
| struct ia_css_binary_uds_info uds; |
| struct ia_css_binary_block_info block; |
| struct ia_css_isp_param_isp_segments mem_initializers; |
| /* MW: Packing (related) bools in an integer ?? */ |
| struct { |
| /* ISP2401 */ |
| u8 luma_only; |
| u8 input_yuv; |
| u8 input_raw; |
| |
| u8 reduced_pipe; |
| u8 vf_veceven; |
| u8 dis; |
| u8 dvs_envelope; |
| u8 uds; |
| u8 dvs_6axis; |
| u8 block_output; |
| u8 streaming_dma; |
| u8 ds; |
| u8 bayer_fir_6db; |
| u8 raw_binning; |
| u8 continuous; |
| u8 s3a; |
| u8 fpnr; |
| u8 sc; |
| u8 macc; |
| u8 output; |
| u8 ref_frame; |
| u8 tnr; |
| u8 xnr; |
| u8 params; |
| u8 ca_gdc; |
| u8 isp_addresses; |
| u8 in_frame; |
| u8 out_frame; |
| u8 high_speed; |
| u8 dpc; |
| u8 padding[2]; |
| } enable; |
| struct { |
| /* DMA channel ID: [0,...,HIVE_ISP_NUM_DMA_CHANNELS> */ |
| u8 ref_y_channel; |
| u8 ref_c_channel; |
| u8 tnr_channel; |
| u8 tnr_out_channel; |
| u8 dvs_coords_channel; |
| u8 output_channel; |
| u8 c_channel; |
| u8 vfout_channel; |
| u8 vfout_c_channel; |
| u8 vfdec_bits_per_pixel; |
| u8 claimed_by_isp; |
| u8 padding[2]; |
| } dma; |
| }; |
| |
| /* Structure describing an ISP binary. |
| * It describes the capabilities of a binary, like the maximum resolution, |
| * support features, dma channels, uds features, etc. |
| */ |
| struct ia_css_binary_xinfo { |
| /* Part that is of interest to the SP. */ |
| struct ia_css_binary_info sp; |
| |
| /* Rest of the binary info, only interesting to the host. */ |
| enum ia_css_acc_type type; |
| |
| CSS_ALIGN(s32 num_output_formats, 8); |
| enum ia_css_frame_format output_formats[IA_CSS_FRAME_FORMAT_NUM]; |
| |
| CSS_ALIGN(s32 num_vf_formats, 8); /** number of supported vf formats */ |
| enum ia_css_frame_format |
| vf_formats[IA_CSS_FRAME_FORMAT_NUM]; /** types of supported vf formats */ |
| u8 num_output_pins; |
| ia_css_ptr xmem_addr; |
| |
| CSS_ALIGN(const struct ia_css_blob_descr *blob, 8); |
| CSS_ALIGN(u32 blob_index, 8); |
| CSS_ALIGN(union ia_css_all_memory_offsets mem_offsets, 8); |
| CSS_ALIGN(struct ia_css_binary_xinfo *next, 8); |
| }; |
| |
| /* Structure describing the Bootloader (an ISP binary). |
| * It contains several address, either in ddr, isp_dmem or |
| * the entry function in icache. |
| */ |
| struct ia_css_bl_info { |
| u32 num_dma_cmds; /** Number of cmds sent by CSS */ |
| u32 dma_cmd_list; /** Dma command list sent by CSS */ |
| u32 sw_state; /** Polled from css */ |
| /* Entry functions */ |
| u32 bl_entry; /** The SP entry function */ |
| }; |
| |
| /* Structure describing the SP binary. |
| * It contains several address, either in ddr, sp_dmem or |
| * the entry function in pmem. |
| */ |
| struct ia_css_sp_info { |
| u32 init_dmem_data; /** data sect config, stored to dmem */ |
| u32 per_frame_data; /** Per frame data, stored to dmem */ |
| u32 group; /** Per pipeline data, loaded by dma */ |
| u32 output; /** SP output data, loaded by dmem */ |
| u32 host_sp_queue; /** Host <-> SP queues */ |
| u32 host_sp_com;/** Host <-> SP commands */ |
| u32 isp_started; /** Polled from sensor thread, csim only */ |
| u32 sw_state; /** Polled from css */ |
| u32 host_sp_queues_initialized; /** Polled from the SP */ |
| u32 sleep_mode; /** different mode to halt SP */ |
| u32 invalidate_tlb; /** inform SP to invalidate mmu TLB */ |
| |
| /* ISP2400 */ |
| u32 stop_copy_preview; /** suspend copy and preview pipe when capture */ |
| |
| u32 debug_buffer_ddr_address; /** inform SP the address |
| of DDR debug queue */ |
| u32 perf_counter_input_system_error; /** input system perf |
| counter array */ |
| #ifdef HAS_WATCHDOG_SP_THREAD_DEBUG |
| u32 debug_wait; /** thread/pipe post mortem debug */ |
| u32 debug_stage; /** thread/pipe post mortem debug */ |
| u32 debug_stripe; /** thread/pipe post mortem debug */ |
| #endif |
| u32 threads_stack; /** sp thread's stack pointers */ |
| u32 threads_stack_size; /** sp thread's stack sizes */ |
| u32 curr_binary_id; /** current binary id */ |
| u32 raw_copy_line_count; /** raw copy line counter */ |
| u32 ddr_parameter_address; /** acc param ddrptr, sp dmem */ |
| u32 ddr_parameter_size; /** acc param size, sp dmem */ |
| /* Entry functions */ |
| u32 sp_entry; /** The SP entry function */ |
| u32 tagger_frames_addr; /** Base address of tagger state */ |
| }; |
| |
| /* The following #if is there because this header file is also included |
| by SP and ISP code but they do not need this data and HIVECC has alignment |
| issue with the firmware struct/union's. |
| More permanent solution will be to refactor this include. |
| */ |
| |
| /* Accelerator firmware information. |
| */ |
| struct ia_css_acc_info { |
| u32 per_frame_data; /** Dummy for now */ |
| }; |
| |
| /* Firmware information. |
| */ |
| union ia_css_fw_union { |
| struct ia_css_binary_xinfo isp; /** ISP info */ |
| struct ia_css_sp_info sp; /** SP info */ |
| struct ia_css_bl_info bl; /** Bootloader info */ |
| struct ia_css_acc_info acc; /** Accelerator info */ |
| }; |
| |
| /* Firmware information. |
| */ |
| struct ia_css_fw_info { |
| size_t header_size; /** size of fw header */ |
| |
| CSS_ALIGN(u32 type, 8); |
| union ia_css_fw_union info; /** Binary info */ |
| struct ia_css_blob_info blob; /** Blob info */ |
| /* Dynamic part */ |
| struct ia_css_fw_info *next; |
| |
| CSS_ALIGN(u32 loaded, 8); /** Firmware has been loaded */ |
| CSS_ALIGN(const u8 *isp_code, 8); /** ISP pointer to code */ |
| /** Firmware handle between user space and kernel */ |
| CSS_ALIGN(u32 handle, 8); |
| /** Sections to copy from/to ISP */ |
| struct ia_css_isp_param_css_segments mem_initializers; |
| /** Initializer for local ISP memories */ |
| }; |
| |
| struct ia_css_blob_descr { |
| const unsigned char *blob; |
| struct ia_css_fw_info header; |
| const char *name; |
| union ia_css_all_memory_offsets mem_offsets; |
| }; |
| |
| struct ia_css_acc_fw; |
| |
| /* Structure describing the SP binary of a stand-alone accelerator. |
| */ |
| struct ia_css_acc_sp { |
| void (*init)(struct ia_css_acc_fw *); /** init for crun */ |
| u32 sp_prog_name_offset; /** program name offset wrt hdr in bytes */ |
| u32 sp_blob_offset; /** blob offset wrt hdr in bytes */ |
| void *entry; /** Address of sp entry point */ |
| u32 *css_abort; /** SP dmem abort flag */ |
| void *isp_code; /** SP dmem address holding xmem |
| address of isp code */ |
| struct ia_css_fw_info fw; /** SP fw descriptor */ |
| const u8 *code; /** ISP pointer of allocated SP code */ |
| }; |
| |
| /* Acceleration firmware descriptor. |
| * This descriptor descibes either SP code (stand-alone), or |
| * ISP code (a separate pipeline stage). |
| */ |
| struct ia_css_acc_fw_hdr { |
| enum ia_css_acc_type type; /** Type of accelerator */ |
| u32 isp_prog_name_offset; /** program name offset wrt |
| header in bytes */ |
| u32 isp_blob_offset; /** blob offset wrt header |
| in bytes */ |
| u32 isp_size; /** Size of isp blob */ |
| const u8 *isp_code; /** ISP pointer to code */ |
| struct ia_css_acc_sp sp; /** Standalone sp code */ |
| /** Firmware handle between user space and kernel */ |
| u32 handle; |
| struct ia_css_data parameters; /** Current SP parameters */ |
| }; |
| |
| /* Firmware structure. |
| * This contains the header and actual blobs. |
| * For standalone, it contains SP and ISP blob. |
| * For a pipeline stage accelerator, it contains ISP code only. |
| * Since its members are variable size, their offsets are described in the |
| * header and computed using the access macros below. |
| */ |
| struct ia_css_acc_fw { |
| struct ia_css_acc_fw_hdr header; /** firmware header */ |
| /* |
| int8_t isp_progname[]; **< ISP program name |
| int8_t sp_progname[]; **< SP program name, stand-alone only |
| uint8_t sp_code[]; **< SP blob, stand-alone only |
| uint8_t isp_code[]; **< ISP blob |
| */ |
| }; |
| |
| /* Access macros for firmware */ |
| #define IA_CSS_ACC_OFFSET(t, f, n) ((t)((uint8_t *)(f) + (f->header.n))) |
| #define IA_CSS_ACC_SP_PROG_NAME(f) IA_CSS_ACC_OFFSET(const char *, f, \ |
| sp.sp_prog_name_offset) |
| #define IA_CSS_ACC_ISP_PROG_NAME(f) IA_CSS_ACC_OFFSET(const char *, f, \ |
| isp_prog_name_offset) |
| #define IA_CSS_ACC_SP_CODE(f) IA_CSS_ACC_OFFSET(uint8_t *, f, \ |
| sp.sp_blob_offset) |
| #define IA_CSS_ACC_SP_DATA(f) (IA_CSS_ACC_SP_CODE(f) + \ |
| (f)->header.sp.fw.blob.data_source) |
| #define IA_CSS_ACC_ISP_CODE(f) IA_CSS_ACC_OFFSET(uint8_t*, f,\ |
| isp_blob_offset) |
| #define IA_CSS_ACC_ISP_SIZE(f) ((f)->header.isp_size) |
| |
| /* Binary name follows header immediately */ |
| #define IA_CSS_EXT_ISP_PROG_NAME(f) ((const char *)(f) + (f)->blob.prog_name_offset) |
| #define IA_CSS_EXT_ISP_MEM_OFFSETS(f) \ |
| ((const struct ia_css_memory_offsets *)((const char *)(f) + (f)->blob.mem_offsets)) |
| |
| enum ia_css_sp_sleep_mode { |
| SP_DISABLE_SLEEP_MODE = 0, |
| SP_SLEEP_AFTER_FRAME = 1 << 0, |
| SP_SLEEP_AFTER_IRQ = 1 << 1 |
| }; |
| #endif /* _IA_CSS_ACC_TYPES_H */ |