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1 /* SPDX-License-Identifier: GPL-2.0 */
2 /*
3  * Support for Intel Camera Imaging ISP subsystem.
4  * Copyright (c) 2015, Intel Corporation.
5  *
6  * This program is free software; you can redistribute it and/or modify it
7  * under the terms and conditions of the GNU General Public License,
8  * version 2, as published by the Free Software Foundation.
9  *
10  * This program is distributed in the hope it will be useful, but WITHOUT
11  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
13  * more details.
14  */
15 
16 #ifndef _IA_CSS_ACC_TYPES_H
17 #define _IA_CSS_ACC_TYPES_H
18 
19 /* @file
20  * This file contains types used for acceleration
21  */
22 
23 #include <system_local.h>	/* HAS_IRQ_MAP_VERSION_# */
24 #include <type_support.h>
25 #include <platform_support.h>
26 #include <debug_global.h>
27 #include <linux/bits.h>
28 
29 #include "ia_css_types.h"
30 #include "ia_css_frame_format.h"
31 
32 /* Should be included without the path.
33    However, that requires adding the path to numerous makefiles
34    that have nothing to do with isp parameters.
35  */
36 #include "runtime/isp_param/interface/ia_css_isp_param_types.h"
37 
38 /* Types for the acceleration API.
39  * These should be moved to sh_css_internal.h once the old acceleration
40  * argument handling has been completed.
41  * After that, interpretation of these structures is no longer needed
42  * in the kernel and HAL.
43 */
44 
45 /* Type of acceleration.
46  */
47 enum ia_css_acc_type {
48 	IA_CSS_ACC_NONE,	/** Normal binary */
49 	IA_CSS_ACC_OUTPUT,	/** Accelerator stage on output frame */
50 	IA_CSS_ACC_VIEWFINDER,	/** Accelerator stage on viewfinder frame */
51 	IA_CSS_ACC_STANDALONE,	/** Stand-alone acceleration */
52 };
53 
54 /* Cells types
55  */
56 enum ia_css_cell_type {
57 	IA_CSS_SP0 = 0,
58 	IA_CSS_SP1,
59 	IA_CSS_ISP,
60 	MAX_NUM_OF_CELLS
61 };
62 
63 /* Firmware types.
64  */
65 enum ia_css_fw_type {
66 	ia_css_sp_firmware,		/** Firmware for the SP */
67 	ia_css_isp_firmware,		/** Firmware for the ISP */
68 	ia_css_bootloader_firmware,	/** Firmware for the BootLoader */
69 	ia_css_acc_firmware		/** Firmware for accelrations */
70 };
71 
72 struct ia_css_blob_descr;
73 
74 /* Blob descriptor.
75  * This structure describes an SP or ISP blob.
76  * It describes the test, data and bss sections as well as position in a
77  * firmware file.
78  * For convenience, it contains dynamic data after loading.
79  */
80 struct ia_css_blob_info {
81 	/** Static blob data */
82 	u32 offset;		/** Blob offset in fw file */
83 	struct ia_css_isp_param_memory_offsets
84 		memory_offsets;  /** offset wrt hdr in bytes */
85 	u32 prog_name_offset;  /** offset wrt hdr in bytes */
86 	u32 size;			/** Size of blob */
87 	u32 padding_size;	/** total cummulative of bytes added due to section alignment */
88 	u32 icache_source;	/** Position of icache in blob */
89 	u32 icache_size;	/** Size of icache section */
90 	u32 icache_padding;/** bytes added due to icache section alignment */
91 	u32 text_source;	/** Position of text in blob */
92 	u32 text_size;		/** Size of text section */
93 	u32 text_padding;	/** bytes added due to text section alignment */
94 	u32 data_source;	/** Position of data in blob */
95 	u32 data_target;	/** Start of data in SP dmem */
96 	u32 data_size;		/** Size of text section */
97 	u32 data_padding;	/** bytes added due to data section alignment */
98 	u32 bss_target;	/** Start position of bss in SP dmem */
99 	u32 bss_size;		/** Size of bss section */
100 	/** Dynamic data filled by loader */
101 	CSS_ALIGN(const void  *code,
102 		  8);		/** Code section absolute pointer within fw, code = icache + text */
103 	CSS_ALIGN(const void  *data,
104 		  8);		/** Data section absolute pointer within fw, data = data + bss */
105 };
106 
107 struct ia_css_binary_input_info {
108 	u32		min_width;
109 	u32		min_height;
110 	u32		max_width;
111 	u32		max_height;
112 	u32		source; /* memory, sensor, variable */
113 };
114 
115 struct ia_css_binary_output_info {
116 	u32		min_width;
117 	u32		min_height;
118 	u32		max_width;
119 	u32		max_height;
120 	u32		num_chunks;
121 	u32		variable_format;
122 };
123 
124 struct ia_css_binary_internal_info {
125 	u32		max_width;
126 	u32		max_height;
127 };
128 
129 struct ia_css_binary_bds_info {
130 	u32		supported_bds_factors;
131 };
132 
133 struct ia_css_binary_dvs_info {
134 	u32		max_envelope_width;
135 	u32		max_envelope_height;
136 };
137 
138 struct ia_css_binary_vf_dec_info {
139 	u32		is_variable;
140 	u32		max_log_downscale;
141 };
142 
143 struct ia_css_binary_s3a_info {
144 	u32		s3atbl_use_dmem;
145 	u32		fixed_s3a_deci_log;
146 };
147 
148 /* DPC related binary info */
149 struct ia_css_binary_dpc_info {
150 	u32		bnr_lite; /** bnr lite enable flag */
151 };
152 
153 struct ia_css_binary_iterator_info {
154 	u32		num_stripes;
155 	u32		row_stripes_height;
156 	u32		row_stripes_overlap_lines;
157 };
158 
159 struct ia_css_binary_address_info {
160 	u32		isp_addresses;	/* Address in ISP dmem */
161 	u32		main_entry;	/* Address of entry fct */
162 	u32		in_frame;	/* Address in ISP dmem */
163 	u32		out_frame;	/* Address in ISP dmem */
164 	u32		in_data;	/* Address in ISP dmem */
165 	u32		out_data;	/* Address in ISP dmem */
166 	u32		sh_dma_cmd_ptr;     /* In ISP dmem */
167 };
168 
169 struct ia_css_binary_uds_info {
170 	u16	bpp;
171 	u16	use_bci;
172 	u16	use_str;
173 	u16	woix;
174 	u16	woiy;
175 	u16	extra_out_vecs;
176 	u16	vectors_per_line_in;
177 	u16	vectors_per_line_out;
178 	u16	vectors_c_per_line_in;
179 	u16	vectors_c_per_line_out;
180 	u16	vmem_gdc_in_block_height_y;
181 	u16	vmem_gdc_in_block_height_c;
182 	/* uint16_t padding; */
183 };
184 
185 struct ia_css_binary_pipeline_info {
186 	u32	mode;
187 	u32	isp_pipe_version;
188 	u32	pipelining;
189 	u32	c_subsampling;
190 	u32	top_cropping;
191 	u32	left_cropping;
192 	u32	variable_resolution;
193 };
194 
195 struct ia_css_binary_block_info {
196 	u32	block_width;
197 	u32	block_height;
198 	u32	output_block_height;
199 };
200 
201 /* Structure describing an ISP binary.
202  * It describes the capabilities of a binary, like the maximum resolution,
203  * support features, dma channels, uds features, etc.
204  * This part is to be used by the SP.
205  * Future refactoring should move binary properties to ia_css_binary_xinfo,
206  * thereby making the SP code more binary independent.
207  */
208 struct ia_css_binary_info {
209 	CSS_ALIGN(u32			id, 8); /* IA_CSS_BINARY_ID_* */
210 	struct ia_css_binary_pipeline_info	pipeline;
211 	struct ia_css_binary_input_info		input;
212 	struct ia_css_binary_output_info	output;
213 	struct ia_css_binary_internal_info	internal;
214 	struct ia_css_binary_bds_info		bds;
215 	struct ia_css_binary_dvs_info		dvs;
216 	struct ia_css_binary_vf_dec_info	vf_dec;
217 	struct ia_css_binary_s3a_info		s3a;
218 	struct ia_css_binary_dpc_info		dpc_bnr; /** DPC related binary info */
219 	struct ia_css_binary_iterator_info	iterator;
220 	struct ia_css_binary_address_info	addresses;
221 	struct ia_css_binary_uds_info		uds;
222 	struct ia_css_binary_block_info		block;
223 	struct ia_css_isp_param_isp_segments	mem_initializers;
224 	/* MW: Packing (related) bools in an integer ?? */
225 	struct {
226 		u8	reduced_pipe;
227 		u8	vf_veceven;
228 		u8	dis;
229 		u8	dvs_envelope;
230 		u8	uds;
231 		u8	dvs_6axis;
232 		u8	block_output;
233 		u8	streaming_dma;
234 		u8	ds;
235 		u8	bayer_fir_6db;
236 		u8	raw_binning;
237 		u8	continuous;
238 		u8	s3a;
239 		u8	fpnr;
240 		u8	sc;
241 		u8	macc;
242 		u8	output;
243 		u8	ref_frame;
244 		u8	tnr;
245 		u8	xnr;
246 		u8	params;
247 		u8	ca_gdc;
248 		u8	isp_addresses;
249 		u8	in_frame;
250 		u8	out_frame;
251 		u8	high_speed;
252 		u8	dpc;
253 		u8 padding[2];
254 	} enable;
255 	struct {
256 		/* DMA channel ID: [0,...,HIVE_ISP_NUM_DMA_CHANNELS> */
257 		u8	ref_y_channel;
258 		u8	ref_c_channel;
259 		u8	tnr_channel;
260 		u8	tnr_out_channel;
261 		u8	dvs_coords_channel;
262 		u8	output_channel;
263 		u8	c_channel;
264 		u8	vfout_channel;
265 		u8	vfout_c_channel;
266 		u8	vfdec_bits_per_pixel;
267 		u8	claimed_by_isp;
268 		u8 padding[2];
269 	} dma;
270 };
271 
272 /* Structure describing an ISP binary.
273  * It describes the capabilities of a binary, like the maximum resolution,
274  * support features, dma channels, uds features, etc.
275  */
276 struct ia_css_binary_xinfo {
277 	/* Part that is of interest to the SP. */
278 	struct ia_css_binary_info    sp;
279 
280 	/* Rest of the binary info, only interesting to the host. */
281 	enum ia_css_acc_type	     type;
282 
283 	CSS_ALIGN(s32	     num_output_formats, 8);
284 	enum ia_css_frame_format     output_formats[IA_CSS_FRAME_FORMAT_NUM];
285 
286 	CSS_ALIGN(s32	     num_vf_formats, 8); /** number of supported vf formats */
287 	enum ia_css_frame_format
288 	vf_formats[IA_CSS_FRAME_FORMAT_NUM]; /** types of supported vf formats */
289 	u8			     num_output_pins;
290 	ia_css_ptr		     xmem_addr;
291 
292 	CSS_ALIGN(const struct ia_css_blob_descr *blob, 8);
293 	CSS_ALIGN(u32 blob_index, 8);
294 	CSS_ALIGN(union ia_css_all_memory_offsets mem_offsets, 8);
295 	CSS_ALIGN(struct ia_css_binary_xinfo *next, 8);
296 };
297 
298 /* Structure describing the Bootloader (an ISP binary).
299  * It contains several address, either in ddr, isp_dmem or
300  * the entry function in icache.
301  */
302 struct ia_css_bl_info {
303 	u32 num_dma_cmds;	/** Number of cmds sent by CSS */
304 	u32 dma_cmd_list;	/** Dma command list sent by CSS */
305 	u32 sw_state;	/** Polled from css */
306 	/* Entry functions */
307 	u32 bl_entry;	/** The SP entry function */
308 };
309 
310 /* Structure describing the SP binary.
311  * It contains several address, either in ddr, sp_dmem or
312  * the entry function in pmem.
313  */
314 struct ia_css_sp_info {
315 	u32 init_dmem_data; /** data sect config, stored to dmem */
316 	u32 per_frame_data; /** Per frame data, stored to dmem */
317 	u32 group;		/** Per pipeline data, loaded by dma */
318 	u32 output;		/** SP output data, loaded by dmem */
319 	u32 host_sp_queue;	/** Host <-> SP queues */
320 	u32 host_sp_com;/** Host <-> SP commands */
321 	u32 isp_started;	/** Polled from sensor thread, csim only */
322 	u32 sw_state;	/** Polled from css */
323 	u32 host_sp_queues_initialized; /** Polled from the SP */
324 	u32 sleep_mode;  /** different mode to halt SP */
325 	u32 invalidate_tlb;		/** inform SP to invalidate mmu TLB */
326 
327 	/* ISP2400 */
328 	u32 stop_copy_preview;       /** suspend copy and preview pipe when capture */
329 
330 	u32 debug_buffer_ddr_address;	/** inform SP the address
331 	of DDR debug queue */
332 	u32 perf_counter_input_system_error; /** input system perf
333 	counter array */
334 #ifdef HAS_WATCHDOG_SP_THREAD_DEBUG
335 	u32 debug_wait; /** thread/pipe post mortem debug */
336 	u32 debug_stage; /** thread/pipe post mortem debug */
337 	u32 debug_stripe; /** thread/pipe post mortem debug */
338 #endif
339 	u32 threads_stack; /** sp thread's stack pointers */
340 	u32 threads_stack_size; /** sp thread's stack sizes */
341 	u32 curr_binary_id;        /** current binary id */
342 	u32 raw_copy_line_count;   /** raw copy line counter */
343 	u32 ddr_parameter_address; /** acc param ddrptr, sp dmem */
344 	u32 ddr_parameter_size;    /** acc param size, sp dmem */
345 	/* Entry functions */
346 	u32 sp_entry;	/** The SP entry function */
347 	u32 tagger_frames_addr;   /** Base address of tagger state */
348 };
349 
350 /* The following #if is there because this header file is also included
351    by SP and ISP code but they do not need this data and HIVECC has alignment
352    issue with the firmware struct/union's.
353    More permanent solution will be to refactor this include.
354 */
355 
356 /* Accelerator firmware information.
357  */
358 struct ia_css_acc_info {
359 	u32 per_frame_data; /** Dummy for now */
360 };
361 
362 /* Firmware information.
363  */
364 union ia_css_fw_union {
365 	struct ia_css_binary_xinfo	isp; /** ISP info */
366 	struct ia_css_sp_info		sp;  /** SP info */
367 	struct ia_css_bl_info           bl;  /** Bootloader info */
368 	struct ia_css_acc_info		acc; /** Accelerator info */
369 };
370 
371 /* Firmware information.
372  */
373 struct ia_css_fw_info {
374 	size_t			 header_size; /** size of fw header */
375 
376 	CSS_ALIGN(u32 type, 8);
377 	union ia_css_fw_union	 info; /** Binary info */
378 	struct ia_css_blob_info  blob; /** Blob info */
379 	/* Dynamic part */
380 	struct ia_css_fw_info   *next;
381 
382 	CSS_ALIGN(u32       loaded, 8);	/** Firmware has been loaded */
383 	CSS_ALIGN(const u8 *isp_code, 8);  /** ISP pointer to code */
384 	/** Firmware handle between user space and kernel */
385 	CSS_ALIGN(u32	handle, 8);
386 	/** Sections to copy from/to ISP */
387 	struct ia_css_isp_param_css_segments mem_initializers;
388 	/** Initializer for local ISP memories */
389 };
390 
391 struct ia_css_blob_descr {
392 	const unsigned char  *blob;
393 	struct ia_css_fw_info header;
394 	const char	     *name;
395 	union ia_css_all_memory_offsets mem_offsets;
396 };
397 
398 struct ia_css_acc_fw;
399 
400 /* Structure describing the SP binary of a stand-alone accelerator.
401  */
402 struct ia_css_acc_sp {
403 	void (*init)(struct ia_css_acc_fw *);	/** init for crun */
404 	u32 sp_prog_name_offset;		/** program name offset wrt hdr in bytes */
405 	u32 sp_blob_offset;		/** blob offset wrt hdr in bytes */
406 	void	 *entry;			/** Address of sp entry point */
407 	u32 *css_abort;			/** SP dmem abort flag */
408 	void	 *isp_code;			/** SP dmem address holding xmem
409 						     address of isp code */
410 	struct ia_css_fw_info fw;		/** SP fw descriptor */
411 	const u8 *code;			/** ISP pointer of allocated SP code */
412 };
413 
414 /* Acceleration firmware descriptor.
415   * This descriptor descibes either SP code (stand-alone), or
416   * ISP code (a separate pipeline stage).
417   */
418 struct ia_css_acc_fw_hdr {
419 	enum ia_css_acc_type type;	/** Type of accelerator */
420 	u32	isp_prog_name_offset; /** program name offset wrt
421 						   header in bytes */
422 	u32	isp_blob_offset;      /** blob offset wrt header
423 						   in bytes */
424 	u32	isp_size;	      /** Size of isp blob */
425 	const u8  *isp_code;	      /** ISP pointer to code */
426 	struct ia_css_acc_sp  sp;  /** Standalone sp code */
427 	/** Firmware handle between user space and kernel */
428 	u32	handle;
429 	struct ia_css_data parameters; /** Current SP parameters */
430 };
431 
432 /* Firmware structure.
433   * This contains the header and actual blobs.
434   * For standalone, it contains SP and ISP blob.
435   * For a pipeline stage accelerator, it contains ISP code only.
436   * Since its members are variable size, their offsets are described in the
437   * header and computed using the access macros below.
438   */
439 struct ia_css_acc_fw {
440 	struct ia_css_acc_fw_hdr header; /** firmware header */
441 	/*
442 	int8_t   isp_progname[];	  **< ISP program name
443 	int8_t   sp_progname[];	  **< SP program name, stand-alone only
444 	uint8_t sp_code[];  **< SP blob, stand-alone only
445 	uint8_t isp_code[]; **< ISP blob
446 	*/
447 };
448 
449 /* Access macros for firmware */
450 #define IA_CSS_ACC_OFFSET(t, f, n) ((t)((uint8_t *)(f) + (f->header.n)))
451 #define IA_CSS_ACC_SP_PROG_NAME(f) IA_CSS_ACC_OFFSET(const char *, f, \
452 						 sp.sp_prog_name_offset)
453 #define IA_CSS_ACC_ISP_PROG_NAME(f) IA_CSS_ACC_OFFSET(const char *, f, \
454 						 isp_prog_name_offset)
455 #define IA_CSS_ACC_SP_CODE(f)      IA_CSS_ACC_OFFSET(uint8_t *, f, \
456 						 sp.sp_blob_offset)
457 #define IA_CSS_ACC_SP_DATA(f)      (IA_CSS_ACC_SP_CODE(f) + \
458 					(f)->header.sp.fw.blob.data_source)
459 #define IA_CSS_ACC_ISP_CODE(f)     IA_CSS_ACC_OFFSET(uint8_t*, f,\
460 						 isp_blob_offset)
461 #define IA_CSS_ACC_ISP_SIZE(f)     ((f)->header.isp_size)
462 
463 /* Binary name follows header immediately */
464 #define IA_CSS_EXT_ISP_PROG_NAME(f)   ((const char *)(f) + (f)->blob.prog_name_offset)
465 #define IA_CSS_EXT_ISP_MEM_OFFSETS(f) \
466 	((const struct ia_css_memory_offsets *)((const char *)(f) + (f)->blob.mem_offsets))
467 
468 enum ia_css_sp_sleep_mode {
469 	SP_DISABLE_SLEEP_MODE = 0,
470 	SP_SLEEP_AFTER_FRAME  = BIT(0),
471 	SP_SLEEP_AFTER_IRQ    = BIT(1),
472 };
473 #endif /* _IA_CSS_ACC_TYPES_H */
474