[PATCH 01/29] ccs: Add the generator for CCS register definitions and limits

[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index]

 



Add register definitions of the MIPI CCS 1.1 standard.

The CCS driver makes extended use of device's capability registers that
are dependent on CCS version. This involves having an in-memory data
structure for limit and capability information, creating that data
structure and accessing it.

The register definitions as well as the definitions of this data structure
are generated from a text file using a Perl script. Add the generator
script to make it easy to update the generated files.

Signed-off-by: Sakari Ailus <sakari.ailus@xxxxxxxxxxxxxxx>
---
 .../driver-api/media/drivers/ccs/ccs-regs.txt | 1041 +++++++++++++++++
 .../driver-api/media/drivers/ccs/mk-ccs-regs  |  410 +++++++
 2 files changed, 1451 insertions(+)
 create mode 100644 Documentation/driver-api/media/drivers/ccs/ccs-regs.txt
 create mode 100755 Documentation/driver-api/media/drivers/ccs/mk-ccs-regs

diff --git a/Documentation/driver-api/media/drivers/ccs/ccs-regs.txt b/Documentation/driver-api/media/drivers/ccs/ccs-regs.txt
new file mode 100644
index 000000000000..93f0131aa304
--- /dev/null
+++ b/Documentation/driver-api/media/drivers/ccs/ccs-regs.txt
@@ -0,0 +1,1041 @@
+# Copyright (C) 2019--2020 Intel Corporation
+# SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause
+
+# register				rflags
+# - f	field	LSB	MSB		rflags
+# - e	enum	value			# after a field
+# - e	enum	value	[LSB	MSB]
+# - b	bool	bit
+# - l	arg	name	min	max	elsize	[discontig...]
+#
+# rflags
+#	8, 16, 32	register bits (default is 8)
+#	v1.1		defined in version 1.1
+#	f		formula
+#	float_ireal	iReal or IEEE 754; 32 bits
+#	ireal		unsigned iReal
+
+# general status registers
+module_model_id				0x0000	16
+module_revision_number_major		0x0002	8
+frame_count				0x0005	8
+pixel_order				0x0006	8
+- e	GRBG				0
+- e	RGGB				1
+- e	BGGR				2
+- e	GBRG				3
+MIPI_CCS_version			0x0007	8
+- e	v1_0				0x10
+- e	v1_1				0x11
+- f	major				4	7
+- f	minor				0	3
+data_pedestal				0x0008	16
+module_manufacturer_id			0x000e	16
+module_revision_number_minor		0x0010	8
+module_date_year			0x0012	8
+module_date_month			0x0013	8
+module_date_day				0x0014	8
+module_date_phase			0x0015	8
+- f					0	2
+- e	ts				0
+- e	es				1
+- e	cs				2
+- e	mp				3
+sensor_model_id				0x0016	16
+sensor_revision_number			0x0018	8
+sensor_firmware_version			0x001a	8
+serial_number				0x001c	32
+sensor_manufacturer_id			0x0020	16
+sensor_revision_number_16		0x0022	16
+
+# frame format description registers
+frame_format_model_type			0x0040	8
+- e	2-byte				1
+- e	4-byte				2
+frame_format_model_subtype		0x0041	8
+- f	rows				0	3
+- f	columns				4	7
+frame_format_descriptor(n)		0x0042	16	f
+- l	n				0	14	2
+- f	pixels				0	11
+- f	pcode				12	15
+- e	embedded			1
+- e	dummy_pixel			2
+- e	black_pixel			3
+- e	dark_pixel			4
+- e	visible_pixel			5
+- e	manuf_specific_0		8
+- e	manuf_specific_1		9
+- e	manuf_specific_2		10
+- e	manuf_specific_3		11
+- e	manuf_specific_4		12
+- e	manuf_specific_5		13
+- e	manuf_specific_6		14
+frame_format_descriptor_4(n)		0x0060	32	f
+- l	n				0	7	4
+- f	pixels				0	15
+- f	pcode				28	31
+- e	embedded			1
+- e	dummy_pixel			2
+- e	black_pixel			3
+- e	dark_pixel			4
+- e	visible_pixel			5
+- e	manuf_specific_0		8
+- e	manuf_specific_1		9
+- e	manuf_specific_2		10
+- e	manuf_specific_3		11
+- e	manuf_specific_4		12
+- e	manuf_specific_5		13
+- e	manuf_specific_6		14
+
+# analog gain description registers
+analog_gain_capability			0x0080	16
+- e	global				0
+- e	alternate_global		2
+analog_gain_code_min			0x0084	16
+analog_gain_code_max			0x0086	16
+analog_gain_code_step			0x0088	16
+analog_gain_type			0x008a	16
+analog_gain_m0				0x008c	16
+analog_gain_c0				0x008e	16
+analog_gain_m1				0x0090	16
+analog_gain_c1				0x0092	16
+analog_linear_gain_min			0x0094	16	v1.1
+analog_linear_gain_max			0x0096	16	v1.1
+analog_linear_gain_step_size		0x0098	16	v1.1
+analog_exponential_gain_min		0x009a	16	v1.1
+analog_exponential_gain_max		0x009c	16	v1.1
+analog_exponential_gain_step_size	0x009e	16	v1.1
+
+# data format description registers
+data_format_model_type			0x00c0	8
+- e	normal				1
+- e	extended			2
+data_format_model_subtype		0x00c1	8
+- f	rows				0	3
+- f	columns				4	7
+data_format_descriptor(n)		0x00c2	16	f
+- l	n				0	15	2
+- f	compressed			0	7
+- f	uncompressed			8	15
+
+# general set-up registers
+mode_select				0x0100	8
+- e	software_standby		0
+- e	streaming			1
+image_orientation			0x0101	8
+- b	horizontal_mirror		0
+- b	vertical_flip			1
+software_reset				0x0103	8
+- e	off				0
+- e	on				1
+grouped_parameter_hold			0x0104	8
+mask_corrupted_frames			0x0105	8
+- e	allow				0
+- e	mask				1
+fast_standby_ctrl			0x0106	8
+- e	complete_frames			0
+- e	frame_truncation		1
+CCI_address_ctrl			0x0107	8
+2nd_CCI_if_ctrl				0x0108	8
+- b	enable				0
+- b	ack				1
+2nd_CCI_address_ctrl			0x0109	8
+CSI_channel_identifier			0x0110	8
+CSI_signaling_mode			0x0111	8
+- e	csi_2_dphy			2
+- e	csi_2_cphy			3
+CSI_data_format				0x0112	16
+CSI_lane_mode				0x0114	8
+DPCM_Frame_DT				0x011d	8
+Bottom_embedded_data_DT			0x011e	8
+Bottom_embedded_data_VC			0x011f	8
+
+gain_mode				0x0120	8
+- e	global				0
+- e	alternate			1
+ADC_bit_depth				0x0121	8
+emb_data_ctrl				0x0122	v1.1
+- b	raw8_packing_for_raw16		0
+- b	raw10_packing_for_raw20		1
+- b 	raw12_packing_for_raw24		2
+
+GPIO_TRIG_mode				0x0130	8
+extclk_frequency_mhz			0x0136	16	ireal
+temp_sensor_ctrl			0x0138	8
+- b	enable				0
+temp_sensor_mode			0x0139	8
+temp_sensor_output			0x013a	8
+
+# integration time registers
+fine_integration_time			0x0200	16
+coarse_integration_time			0x0202	16
+
+# analog gain registers
+analog_gain_code_global			0x0204	16
+analog_linear_gain_global		0x0206	16	v1.1
+analog_exponential_gain_global		0x0208	16	v1.1
+
+# digital gain registers
+digital_gain_global			0x020e	16
+
+# hdr control registers
+Short_analog_gain_global		0x0216	16
+Short_digital_gain_global		0x0218	16
+
+HDR_mode				0x0220	8
+- b	enabled				0
+- b	separate_analog_gain		1
+- b	upscaling			2
+- b	reset_sync			3
+- b	timing_mode			4
+- b	exposure_ctrl_direct		5
+- b	separate_digital_gain		6
+HDR_resolution_reduction		0x0221	8
+- f	row				0	3
+- f	column				4	7
+Exposure_ratio				0x0222	8
+HDR_internal_bit_depth			0x0223	8
+Direct_short_integration_time		0x0224	16
+Short_analog_linear_gain_global		0x0226	16	v1.1
+Short_analog_exponential_gain_global	0x0228	16	v1.1
+
+# clock set-up registers
+vt_pix_clk_div				0x0300	16
+vt_sys_clk_div				0x0302	16
+pre_pll_clk_div				0x0304	16
+#vt_pre_pll_clk_div			0x0304	16
+pll_multiplier				0x0306	16
+#vt_pll_multiplier			0x0306	16
+op_pix_clk_div				0x0308	16
+op_sys_clk_div				0x030a	16
+op_pre_pll_clk_div			0x030c	16
+op_pll_multiplier			0x031e	16
+pll_mode				0x0310	8
+- f					0	0
+- e	single				0
+- e	dual				1
+op_pix_clk_div_rev			0x0312	16	v1.1
+op_sys_clk_div_rev			0x0314	16	v1.1
+
+# frame timing registers
+frame_length_lines			0x0340	16
+line_length_pck				0x0342	16
+
+# image size registers
+x_addr_start				0x0344	16
+y_addr_start				0x0346	16
+x_addr_end				0x0348	16
+y_addr_end				0x034a	16
+x_output_size				0x034c	16
+y_output_size				0x034e	16
+
+# timing mode registers
+Frame_length_ctrl			0x0350	8
+- b	automatic			0
+Timing_mode_ctrl			0x0352	8
+- b	manual_readout			0
+- b	delayed_exposure		1
+Start_readout_rs			0x0353	8
+- b	manual_readout_start		0
+Frame_margin				0x0354	16
+
+# sub-sampling registers
+x_even_inc				0x0380	16
+x_odd_inc				0x0382	16
+y_even_inc				0x0384	16
+y_odd_inc				0x0386	16
+
+# monochrome readout registers
+monochrome_en				0x0390		v1.1
+- e	enabled				0
+
+# image scaling registers
+Scaling_mode				0x0400	16
+- e	no_scaling			0
+- e	horizontal			1
+scale_m					0x0404	16
+scale_n					0x0406	16
+digital_crop_x_offset			0x0408	16
+digital_crop_y_offset			0x040a	16
+digital_crop_image_width		0x040c	16
+digital_crop_image_height		0x040e	16
+
+# image compression registers
+compression_mode			0x0500	16
+- e	none				0
+- e	dpcm_pcm_simple			1
+
+# test pattern registers
+test_pattern_mode			0x0600	16
+- e	none				0
+- e	solid_color			1
+- e	color_bars			2
+- e	fade_to_grey			3
+- e	pn9				4
+- e	color_tile			5
+test_data_red				0x0602	16
+test_data_greenR			0x0604	16
+test_data_blue				0x0606	16
+test_data_greenB			0x0608	16
+value_step_size_smooth			0x060a	8
+value_step_size_quantised		0x060b	8
+
+# phy configuration registers
+tclk_post				0x0800	8
+ths_prepare				0x0801	8
+ths_zero_min				0x0802	8
+ths_trail				0x0803	8
+tclk_trail_min				0x0804	8
+tclk_prepare				0x0805	8
+tclk_zero				0x0806	8
+tlpx					0x0807	8
+phy_ctrl				0x0808	8
+- e	auto				0
+- e	UI				1
+- e	manual				2
+tclk_post_ex				0x080a	16
+ths_prepare_ex				0x080c	16
+ths_zero_min_ex				0x080e	16
+ths_trail_ex				0x0810	16
+tclk_trail_min_ex			0x0812	16
+tclk_prepare_ex				0x0814	16
+tclk_zero_ex				0x0816	16
+tlpx_ex					0x0818	16
+
+# link rate register
+requested_link_rate			0x0820	32	u16.16
+
+# equalization control registers
+DPHY_equalization_mode			0x0824	8	v1.1
+- b eq2					0
+PHY_equalization_ctrl			0x0825	8	v1.1
+- b enable				0
+
+# d-phy preamble control registers
+DPHY_preamble_ctrl			0x0826	8	v1.1
+- b	enable				0
+DPHY_preamble_length			0x0826	8	v1.1
+
+# d-phy spread spectrum control registers
+PHY_SSC_ctrl				0x0828	8	v1.1
+- b	enable				0
+
+# manual lp control register
+manual_LP_ctrl				0x0829	8	v1.1
+- b	enable				0
+
+# additional phy configuration registers
+twakeup					0x082a		v1.1
+tinit					0x082b		v1.1
+ths_exit				0x082c		v1.1
+ths_exit_ex				0x082e	16	v1.1
+
+# phy calibration configuration registers
+PHY_periodic_calibration_ctrl		0x0830	8
+- b	frame_blanking			0
+PHY_periodic_calibration_interval	0x0831	8
+PHY_init_calibration_ctrl		0x0832	8
+- b	stream_start			0
+DPHY_calibration_mode			0x0833	8	v1.1
+- b	also_alternate			0
+CPHY_calibration_mode			0x0834	8	v1.1
+- e	format_1			0
+- e	format_2			1
+- e	format_3			2
+t3_calpreamble_length			0x0835	8	v1.1
+t3_calpreamble_length_per		0x0836	8	v1.1
+t3_calaltseq_length			0x0837	8	v1.1
+t3_calaltseq_length_per			0x0838	8	v1.1
+FM2_init_seed				0x083a	16	v1.1
+t3_caludefseq_length			0x083c	16	v1.1
+t3_caludefseq_length_per		0x083e	16	v1.1
+
+# c-phy manual control registers
+TGR_Preamble_Length			0x0841	8
+- b	preamable_prog_seq		7
+- f	begin_preamble_length		0	5
+TGR_Post_Length				0x0842	8
+- f	post_length			0	4
+TGR_Preamble_Prog_Sequence(n2)		0x0843
+- l	n2				0	6	1
+- f	symbol_n_1			3	5
+- f	symbol_n			0	2
+t3_prepare				0x084e	16
+t3_lpx					0x0850	16
+
+# alps control register
+ALPS_ctrl				0x085a	8
+- b	lvlp_dphy			0
+- b	lvlp_cphy			1
+- b	alp_cphy			2
+
+# lrte control registers
+TX_REG_CSI_EPD_EN_SSP_cphy		0x0860	16
+TX_REG_CSI_EPD_OP_SLP_cphy		0x0862	16
+TX_REG_CSI_EPD_EN_SSP_dphy		0x0864	16
+TX_REG_CSI_EPD_OP_SLP_dphy		0x0866	16
+TX_REG_CSI_EPD_MISC_OPTION_cphy		0x0868		v1.1
+TX_REG_CSI_EPD_MISC_OPTION_dphy		0x0869		v1.1
+
+# scrambling control registers
+Scrambling_ctrl				0x0870
+- b	enabled				0
+- f					2	3
+- e 	1_seed_cphy			0
+- e	4_seed_cphy			3
+lane_seed_value(seed, lane)		0x0872	16
+- l	seed				0	3	0x10
+- l	lane				0	7	0x2
+
+# usl control registers
+TX_USL_REV_ENTRY			0x08c0	16	v1.1
+TX_USL_REV_Clock_Counter		0x08c2	16	v1.1
+TX_USL_REV_LP_Counter			0x08c4	16	v1.1
+TX_USL_REV_Frame_Counter		0x08c6	16	v1.1
+TX_USL_REV_Chronological_Timer		0x08c8	16	v1.1
+TX_USL_FWD_ENTRY			0x08ca	16	v1.1
+TX_USL_GPIO				0x08cc	16	v1.1
+TX_USL_Operation			0x08ce	16	v1.1
+- b	reset				0
+TX_USL_ALP_ctrl				0x08d0	16	v1.1
+- b	clock_pause			0
+TX_USL_APP_BTA_ACK_TIMEOUT		0x08d2	16	v1.1
+TX_USL_SNS_BTA_ACK_TIMEOUT		0x08d2	16	v1.1
+USL_Clock_Mode_d_ctrl			0x08d2		v1.1
+- b	cont_clock_standby		0
+- b	cont_clock_vblank		1
+- b	cont_clock_hblank		2
+
+# binning configuration registers
+binning_mode				0x0900	8
+binning_type				0x0901	8
+binning_weighting			0x0902	8
+
+# data transfer interface registers
+data_transfer_if_1_ctrl			0x0a00	8
+- b	enable				0
+- b	write				1
+- b	clear_error			2
+data_transfer_if_1_status		0x0a01	8
+- b	read_if_ready			0
+- b	write_if_ready			1
+- b	data_corrupted			2
+- b	improper_if_usage		3
+data_transfer_if_1_page_select		0x0a02	8
+data_transfer_if_1_data(p)		0x0a04	8	f
+- l	p				0	63	1
+
+# image processing and sensor correction configuration registers
+shading_correction_en			0x0b00	8
+- b	enable				0
+luminance_correction_level		0x0b01	8
+green_imbalance_filter_en		0x0b02	8
+- b	enable				0
+mapped_defect_correct_en		0x0b05	8
+- b	enable				0
+single_defect_correct_en		0x0b06	8
+- b	enable				0
+dynamic_couplet_correct_en		0x0b08	8
+- b	enable				0
+combined_defect_correct_en		0x0b0a	8
+- b	enable				0
+module_specific_correction_en		0x0b0c	8
+- b	enable				0
+dynamic_triplet_defect_correct_en	0x0b13	8
+- b	enable				0
+NF_ctrl					0x0b15	8
+- b	luma				0
+- b	chroma				1
+- b	combined			2
+
+# optical black pixel readout registers
+OB_readout_control			0x0b30	8
+- b	enable				0
+- b	interleaving			1
+OB_virtual_channel			0x0b31	8
+OB_DT					0x0b32	8
+OB_data_format				0x0b33	8
+
+# color temperature feedback registers
+color_temperature			0x0b8c	16
+absolute_gain_greenr			0x0b8e	16
+absolute_gain_red			0x0b90	16
+absolute_gain_blue			0x0b92	16
+absolute_gain_greenb			0x0b94	16
+
+# cfa conversion registers
+CFA_conversion_ctrl			0x0ba0		v1.1
+- b	bayer_conversion_enable		0
+
+# flash strobe and sa strobe control registers
+flash_strobe_adjustment			0x0c12	8
+flash_strobe_start_point		0x0c14	16
+tflash_strobe_delay_rs_ctrl		0x0c16	16
+tflash_strobe_width_high_rs_ctrl	0x0c18	16
+flash_mode_rs				0x0c1a	8
+- b	continuous			0
+- b	truncate			1
+- b	async				3
+flash_trigger_rs			0x0c1b	8
+flash_status				0x0c1c	8
+- b	retimed				0
+sa_strobe_mode				0x0c1d	8
+- b	continuous			0
+- b	truncate			1
+- b	async				3
+- b	adjust_edge			4
+sa_strobe_start_point			0x0c1e	16
+tsa_strobe_delay_ctrl			0x0c20	16
+tsa_strobe_width_ctrl			0x0c22	16
+sa_strobe_trigger			0x0c24	8
+sa_strobe_status			0x0c25	8
+- b	retimed				0
+tSA_strobe_re_delay_ctrl		0x0c30	16
+tSA_strobe_fe_delay_ctrl		0x0c32	16
+
+# pdaf control registers
+PDAF_ctrl				0x0d00	16
+- b 	enable				0
+- b	processed			1
+- b	interleaved			2
+- b	visible_pdaf_correction		3
+PDAF_VC					0x0d02	8
+PDAF_DT					0x0d03	8
+pd_x_addr_start				0x0d04	16
+pd_y_addr_start				0x0d06	16
+pd_x_addr_end				0x0d08	16
+pd_y_addr_end				0x0d0a	16
+
+# bracketing interface configuration registers
+bracketing_LUT_ctrl			0x0e00	8
+bracketing_LUT_mode			0x0e01	8
+- b	continue_streaming		0
+- b	loop_mode			1
+bracketing_LUT_entry_ctrl		0x0e02	8
+bracketing_LUT_frame(n)			0x0e10	v1.1	f
+- l	n				0	0xef	1
+
+# integration time and gain parameter limit registers
+integration_time_capability		0x1000	16
+- b	fine				0
+coarse_integration_time_min		0x1004	16
+coarse_integration_time_max_margin	0x1006	16
+fine_integration_time_min		0x1008	16
+fine_integration_time_max_margin	0x100a	16
+
+# digital gain parameter limit registers
+digital_gain_capability			0x1081
+- e	none				0
+- e	global				2
+digital_gain_min			0x1084	16
+digital_gain_max			0x1086	16
+digital_gain_step_size			0x1088	16
+
+# data pedestal capability registers
+Pedestal_capability			0x10e0	8	v1.1
+
+# adc capability registers
+ADC_capability				0x10f0	8
+- b	bit_depth_ctrl			0
+ADC_bit_depth_capability		0x10f4	32	v1.1
+
+# video timing parameter limit registers
+min_ext_clk_freq_mhz			0x1100	32	float_ireal
+max_ext_clk_freq_mhz			0x1104	32	float_ireal
+min_pre_pll_clk_div			0x1108	16
+# min_vt_pre_pll_clk_div			0x1108	16
+max_pre_pll_clk_div			0x110a	16
+# max_vt_pre_pll_clk_div			0x110a	16
+min_pll_ip_clk_freq_mhz			0x110c	32	float_ireal
+# min_vt_pll_ip_clk_freq_mhz		0x110c	32	float_ireal
+max_pll_ip_clk_freq_mhz			0x1110	32	float_ireal
+# max_vt_pll_ip_clk_freq_mhz		0x1110	32	float_ireal
+min_pll_multiplier			0x1114	16
+# min_vt_pll_multiplier			0x1114	16
+max_pll_multiplier			0x1116	16
+# max_vt_pll_multiplier			0x1116	16
+min_pll_op_clk_freq_mhz			0x1118	32	float_ireal
+max_pll_op_clk_freq_mhz			0x111c	32	float_ireal
+
+# video timing set-up capability registers
+min_vt_sys_clk_div			0x1120	16
+max_vt_sys_clk_div			0x1122	16
+min_vt_sys_clk_freq_mhz			0x1124	32	float_ireal
+max_vt_sys_clk_freq_mhz			0x1128	32	float_ireal
+min_vt_pix_clk_freq_mhz			0x112c	32	float_ireal
+max_vt_pix_clk_freq_mhz			0x1130	32	float_ireal
+min_vt_pix_clk_div			0x1134	16
+max_vt_pix_clk_div			0x1136	16
+clock_calculation			0x1138
+- b	lane_speed			0
+- b	link_decoupled			1
+- b	dual_pll_op_sys_ddr		2
+- b	dual_pll_op_pix_ddr		3
+num_of_vt_lanes				0x1139
+num_of_op_lanes				0x113a
+op_bits_per_lane			0x113b	8	v1.1
+
+# frame timing parameter limits
+min_frame_length_lines			0x1140	16
+max_frame_length_lines			0x1142	16
+min_line_length_pck			0x1144	16
+max_line_length_pck			0x1146	16
+min_line_blanking_pck			0x1148	16
+min_frame_blanking_lines		0x114a	16
+min_line_length_pck_step_size		0x114c
+timing_mode_capability			0x114d
+- b	auto_frame_length		0
+- b	rolling_shutter_manual_readout	2
+- b	delayed_exposure_start		3
+- b	manual_exposure_embedded_data	4
+frame_margin_max_value			0x114e	16
+frame_margin_min_value			0x1150
+gain_delay_type				0x1151
+- e	fixed				0
+- e	variable			1
+
+# output clock set-up capability registers
+min_op_sys_clk_div			0x1160	16
+max_op_sys_clk_div			0x1162	16
+min_op_sys_clk_freq_mhz			0x1164	32	float_ireal
+max_op_sys_clk_freq_mhz			0x1168	32	float_ireal
+min_op_pix_clk_div			0x116c	16
+max_op_pix_clk_div			0x116e	16
+min_op_pix_clk_freq_mhz			0x1170	32	float_ireal
+max_op_pix_clk_freq_mhz			0x1174	32	float_ireal
+
+# image size parameter limit registers
+x_addr_min				0x1180	16
+y_addr_min				0x1182	16
+x_addr_max				0x1184	16
+y_addr_max				0x1186	16
+min_x_output_size			0x1188	16
+min_y_output_size			0x118a	16
+max_x_output_size			0x118c	16
+max_y_output_size			0x118e	16
+
+x_addr_start_div_constant		0x1190		v1.1
+y_addr_start_div_constant		0x1191		v1.1
+x_addr_end_div_constant			0x1192		v1.1
+y_addr_end_div_constant			0x1193		v1.1
+x_size_div				0x1194		v1.1
+y_size_div				0x1195		v1.1
+x_output_div				0x1196		v1.1
+y_output_div				0x1197		v1.1
+non_flexible_resolution_support		0x1198		v1.1
+- b	new_pix_addr			0
+- b	new_output_res			1
+- b	output_crop_no_pad		2
+- b	output_size_lane_dep		3
+
+min_op_pre_pll_clk_div			0x11a0	16
+max_op_pre_pll_clk_div			0x11a2	16
+min_op_pll_ip_clk_freq_mhz		0x11a4	32	float_ireal
+max_op_pll_ip_clk_freq_mhz		0x11a8	32	float_ireal
+min_op_pll_multiplier			0x11ac	16
+max_op_pll_multiplier			0x11ae	16
+min_op_pll_op_clk_freq_mhz		0x11b0	32	float_ireal
+max_op_pll_op_clk_freq_mhz		0x11b4	32	float_ireal
+clock_tree_pll_capability		0x11b8	8
+- b	dual_pll			0
+- b	single_pll			1
+- b	ext_divider			2
+- b	flexible_op_pix_clk_div		3
+clock_capa_type_capability		0x11b9	v1.1
+- b	ireal				0
+
+# sub-sampling parameters limit registers
+min_even_inc				0x11c0	16
+min_odd_inc				0x11c2	16
+max_even_inc				0x11c4	16
+max_odd_inc				0x11c6	16
+aux_subsamp_capability			0x11c8		v1.1
+- b	factor_power_of_2		1
+aux_subsamp_mono_capability		0x11c9		v1.1
+- b	factor_power_of_2		1
+monochrome_capability			0x11ca		v1.1
+- e	inc_odd				0
+- e	inc_even			1
+pixel_readout_capability		0x11cb		v1.1
+- e	bayer				0
+- e	monochrome			1
+- e	bayer_and_mono			2
+min_even_inc_mono			0x11cc	16	v1.1
+max_even_inc_mono			0x11ce	16	v1.1
+min_odd_inc_mono			0x11d0	16	v1.1
+max_odd_inc_mono			0x11d2	16	v1.1
+min_even_inc_bc2			0x11d4	16	v1.1
+max_even_inc_bc2			0x11d6	16	v1.1
+min_odd_inc_bc2				0x11d8	16	v1.1
+max_odd_inc_bc2				0x11da	16	v1.1
+min_even_inc_mono_bc2			0x11dc	16	v1.1
+max_even_inc_mono_bc2			0x11de	16	v1.1
+min_odd_inc_mono_bc2			0x11f0	16	v1.1
+max_odd_inc_mono_bc2			0x11f2	16	v1.1
+
+# image scaling limit parameters
+scaling_capability			0x1200	16
+- e	none				0
+- e	horizontal			1
+- e	reserved			2
+scaler_m_min				0x1204	16
+scaler_m_max				0x1206	16
+scaler_n_min				0x1208	16
+scaler_n_max				0x120a	16
+digital_crop_capability			0x120e
+- e	none				0
+- e	input_crop			1
+
+# hdr limit registers
+hdr_capability_1			0x1210
+- b	2x2_binning			0
+- b	combined_analog_gain		1
+- b	separate_analog_gain		2
+- b	upscaling			3
+- b	reset_sync			4
+- b	direct_short_exp_timing		5
+- b	direct_short_exp_synthesis	6
+min_hdr_bit_depth			0x1211
+hdr_resolution_sub_types		0x1212
+hdr_resolution_sub_type(n)		0x1213
+- l	n				0	1	1
+- f	row				0	3
+- f	column				4	7
+hdr_capability_2			0x121b
+- b	combined_digital_gain		0
+- b	separate_digital_gain		1
+- b	timing_mode			3
+- b	synthesis_mode			4
+max_hdr_bit_depth			0x121c
+
+# usl capability register
+usl_support_capability			0x1230		v1.1
+- b	clock_tree			0
+- b	rev_clock_tree			1
+- b	rev_clock_calc			2
+usl_clock_mode_d_capability		0x1231		v1.1
+- b	cont_clock_standby		0
+- b	cont_clock_vblank		1
+- b	cont_clock_hblank		2
+- b	noncont_clock_standby		3
+- b	noncont_clock_vblank		4
+- b	noncont_clock_hblank		5
+min_op_sys_clk_div_rev			0x1234		v1.1
+max_op_sys_clk_div_rev			0x1236		v1.1
+min_op_pix_clk_div_rev			0x1238		v1.1
+max_op_pix_clk_div_rev			0x123a		v1.1
+min_op_sys_clk_freq_rev_mhz		0x123c	32	v1.1	float_ireal
+max_op_sys_clk_freq_rev_mhz		0x1240	32	v1.1	float_ireal
+min_op_pix_clk_freq_rev_mhz		0x1244	32	v1.1	float_ireal
+max_op_pix_clk_freq_rev_mhz		0x1248	32	v1.1	float_ireal
+max_bitrate_rev_d_mode_mbps		0x124c	32	v1.1	ireal
+max_symrate_rev_c_mode_msps		0x1250	32	v1.1	ireal
+
+# image compression capability registers
+compression_capability			0x1300
+- b	dpcm_pcm_simple			0
+
+# test mode capability registers
+test_mode_capability			0x1310	16
+- b	solid_color			0
+- b	color_bars			1
+- b	fade_to_grey			2
+- b	pn9				3
+- b	color_tile			5
+pn9_data_format1			0x1312
+pn9_data_format2			0x1313
+pn9_data_format3			0x1314
+pn9_data_format4			0x1315
+pn9_misc_capability			0x1316
+- f	num_pixels			0	2
+- b	compression			3
+test_pattern_capability			0x1317	v1.1
+- b	no_repeat			1
+pattern_size_div_m1			0x1318	v1.1
+
+# fifo capability registers
+fifo_support_capability			0x1502
+- e	none				0
+- e	derating			1
+- e	derating_overrating		2
+
+# csi-2 capability registers
+phy_ctrl_capability			0x1600
+- b	auto_phy_ctl			0
+- b	ui_phy_ctl			1
+- b	dphy_time_ui_reg_1_ctl		2
+- b	dphy_time_ui_reg_2_ctl		3
+- b	dphy_time_ctl			4
+- b	dphy_ext_time_ui_reg_1_ctl	5
+- b	dphy_ext_time_ui_reg_2_ctl	6
+- b	dphy_ext_time_ctl		7
+csi_dphy_lane_mode_capability		0x1601
+- b	1_lane				0
+- b	2_lane				1
+- b	3_lane				2
+- b	4_lane				3
+- b	5_lane				4
+- b	6_lane				5
+- b	7_lane				6
+- b	8_lane				7
+csi_signaling_mode_capability		0x1602
+- b	csi_dphy			2
+- b	csi_cphy			3
+fast_standby_capability			0x1603
+- e	no_frame_truncation		0
+- e	frame_truncation		1
+csi_address_control_capability		0x1604
+- b	cci_addr_change			0
+- b	2nd_cci_addr			1
+- b	sw_changeable_2nd_cci_addr	2
+data_type_capability			0x1605
+- b	dpcm_programmable		0
+- b	bottom_embedded_dt_programmable	1
+- b	bottom_embedded_vc_programmable	2
+- b	ext_vc_range			3
+csi_cphy_lane_mode_capability		0x1606
+- b	1_lane				0
+- b	2_lane				1
+- b	3_lane				2
+- b	4_lane				3
+- b	5_lane				4
+- b	6_lane				5
+- b	7_lane				6
+- b	8_lane				7
+emb_data_capability			0x1607	v1.1
+- b	two_bytes_per_raw16		0
+- b	two_bytes_per_raw20		1
+- b	two_bytes_per_raw24		2
+- b	no_one_byte_per_raw16		3
+- b	no_one_byte_per_raw20		4
+- b	no_one_byte_per_raw24		5
+max_per_lane_bitrate_lane_d_mode_mbps(n)	0x1608	32	ireal
+- l	n				0	7	4	4,0x32
+temp_sensor_capability			0x1618
+- b	supported			0
+- b	CCS_format			1
+- b	reset_0x80			2
+max_per_lane_bitrate_lane_c_mode_mbps(n)	0x161a	32	ireal
+- l	n				0	7	4	4,0x30
+dphy_equalization_capability		0x162b
+- b	equalization_ctrl		0
+- b	eq1				1
+- b	eq2				2
+cphy_equalization_capability		0x162c
+- b	equalization_ctrl		0
+dphy_preamble_capability		0x162d
+- b	preamble_seq_ctrl		0
+dphy_ssc_capability			0x162e
+- b	supported			0
+cphy_calibration_capability		0x162f
+- b	manual				0
+- b	manual_streaming		1
+- b	format_1_ctrl			2
+- b	format_2_ctrl			3
+- b	format_3_ctrl			4
+dphy_calibration_capability		0x1630
+- b	manual				0
+- b	manual_streaming		1
+- b	alternate_seq			2
+phy_ctrl_capability_2			0x1631
+- b	tgr_length			0
+- b	tgr_preamble_prog_seq		1
+- b	extra_cphy_manual_timing	2
+- b	clock_based_manual_cdphy	3
+- b	clock_based_manual_dphy		4
+- b	clock_based_manual_cphy		5
+- b	manual_lp_dphy			6
+- b	manual_lp_cphy			7
+lrte_cphy_capability			0x1632
+- b	pdq_short			0
+- b	spacer_short			1
+- b	pdq_long			2
+- b	spacer_long			3
+- b	spacer_no_pdq			4
+lrte_dphy_capability			0x1633
+- b	pdq_short_opt1			0
+- b	spacer_short_opt1		1
+- b	pdq_long_opt1			2
+- b	spacer_long_opt1		3
+- b	spacer_short_opt2		4
+- b	spacer_long_opt2		5
+- b	spacer_no_pdq_opt1		6
+- b	spacer_variable_opt2		7
+alps_capability_dphy			0x1634
+- e	lvlp_not_supported		0	0x3
+- e	lvlp_supported			1	0x3
+- e 	controllable_lvlp		2	0x3
+alps_capability_cphy			0x1635
+- e	lvlp_not_supported		0	0x3
+- e	lvlp_supported			1	0x3
+- e 	controllable_lvlp		2	0x3
+- e	alp_not_supported		0xc	0xc
+- e	alp_supported			0xd	0xc
+- e 	controllable_alp		0xe	0xc
+scrambling_capability			0x1636
+- b	scrambling_supported		0
+- f	max_seeds_per_lane_c		1	2
+- e	1				0
+- e	4				3
+- f	num_seed_regs			3	5
+- e	0				0
+- e	1				1
+- e	4				4
+- b	num_seed_per_lane		6
+dphy_manual_constant			0x1637
+cphy_manual_constant			0x1638
+CSI2_interface_capability_misc		0x1639	v1.1
+- b	eotp_short_pkt_opt2		0
+PHY_ctrl_capability_3			0x165c	v1.1
+- b	dphy_timing_not_multiple	0
+- b	dphy_min_timing_value_1		1
+- b	twakeup_supported		2
+- b	tinit_supported			3
+- b	ths_exit_supported		4
+- b	cphy_timing_not_multiple	5
+- b	cphy_min_timing_value_1		6
+dphy_sf					0x165d	v1.1
+cphy_sf					0x165e	v1.1
+- f	twakeup				0	3
+- f	tinit				4	7
+dphy_limits_1				0x165f	v1.1
+- f	ths_prepare			0	3
+- f	ths_zero			4	7
+dphy_limits_2				0x1660	v1.1
+- f	ths_trail			0	3
+- f	tclk_trail_min			4	7
+dphy_limits_3				0x1661	v1.1
+- f	tclk_prepare			0	3
+- f	tclk_zero			4	7
+dphy_limits_4				0x1662	v1.1
+- f	tclk_post			0	3
+- f	tlpx				4	7
+dphy_limits_5				0x1663	v1.1
+- f	ths_exit			0	3
+- f	twakeup				4	7
+dphy_limits_6				0x1664	v1.1
+- f	tinit				0	3
+cphy_limits_1				0x1665	v1.1
+- f	t3_prepare_max			0	3
+- f	t3_lpx_max			4	7
+cphy_limits_2				0x1666	v1.1
+- f	ths_exit_max			0	3
+- f	twakeup_max			4	7
+cphy_limits_3				0x1667	v1.1
+- f	tinit_max			0	3
+
+# binning capability registers
+min_frame_length_lines_bin		0x1700	16
+max_frame_length_lines_bin		0x1702	16
+min_line_length_pck_bin			0x1704	16
+max_line_length_pck_bin			0x1706	16
+min_line_blanking_pck_bin		0x1708	16
+fine_integration_time_min_bin		0x170a	16
+fine_integration_time_max_margin_bin	0x170c	16
+binning_capability			0x1710
+- e	unsupported			0
+- e	binning_then_subsampling	1
+- e	subsampling_then_binning	2
+binning_weighting_capability		0x1711
+- b	averaged			0
+- b	summed				1
+- b	bayer_corrected			2
+- b	module_specific_weight		3
+binning_sub_types			0x1712
+binning_sub_type(n)			0x1713
+- l	n				0	63	1
+- f	row				0	3
+- f	column				4	7
+binning_weighting_mono_capability	0x1771	v1.1
+- b	averaged			0
+- b	summed				1
+- b	bayer_corrected			2
+- b	module_specific_weight		3
+binning_sub_types_mono			0x1772	v1.1
+binning_sub_type_mono(n)		0x1773	v1.1	f
+- l	n				0	63	1
+
+# data transfer interface capability registers
+data_transfer_if_capability		0x1800
+- b	supported			0
+- b	polling				2
+
+# sensor correction capability registers
+shading_correction_capability		0x1900
+- b	color_shading			0
+- b	luminance_correction		1
+green_imbalance_capability		0x1901
+- b	supported			0
+module_specific_correction_capability	0x1903
+defect_correction_capability		0x1904	16
+- b	mapped_defect			0
+- b	dynamic_couplet			2
+- b	dynamic_single			5
+- b	combined_dynamic		8
+defect_correction_capability_2		0x1906	16
+- b	dynamic_triplet			3
+nf_capability				0x1908
+- b	luma				0
+- b	chroma				1
+- b	combined			2
+
+# optical black readout capability registers
+ob_readout_capability			0x1980
+- b	controllable_readout		0
+- b	visible_pixel_readout		1
+- b	different_vc_readout		2
+- b	different_dt_readout		3
+- b	prog_data_format		4
+
+# color feedback capability registers
+color_feedback_capability		0x1987
+- b	kelvin				0
+- b	awb_gain			1
+
+# cfa pattern capability registers
+CFA_pattern_capability			0x1990	v1.1
+- e	bayer				0
+- e	monochrome			1
+- e	4x4_quad_bayer			2
+- e	vendor_specific			3
+CFA_pattern_conversion_capability	0x1991	v1.1
+- b	bayer				0
+
+# timer capability registers
+flash_mode_capability			0x1a02
+- b	single_strobe			0
+sa_strobe_mode_capability		0x1a03
+- b	fixed_width			0
+- b	edge_ctrl			1
+
+# soft reset capability registers
+reset_max_delay				0x1a10	v1.1
+reset_min_time				0x1a11	v1.1
+
+# pdaf capability registers
+pdaf_capability_1			0x1b80
+- b	supported			0
+- b	processed_bottom_embedded	1
+- b	processed_interleaved		2
+- b	raw_bottom_embedded		3
+- b	raw_interleaved			4
+- b	visible_pdaf_correction		5
+- b	vc_interleaving			6
+- b	dt_interleaving			7
+pdaf_capability_2			0x1b81
+- b	ROI				0
+- b	after_digital_crop		1
+- b	ctrl_retimed			2
+
+# bracketing interface capability registers
+bracketing_lut_capability_1		0x1c00
+- b	coarse_integration		0
+- b	global_analog_gain		1
+- b	flash				4
+- b	global_digital_gain		5
+- b	alternate_global_analog_gain	6
+bracketing_lut_capability_2		0x1c01
+- b	single_bracketing_mode		0
+- b	looped_bracketing_mode		1
+bracketing_lut_size			0x1c02
diff --git a/Documentation/driver-api/media/drivers/ccs/mk-ccs-regs b/Documentation/driver-api/media/drivers/ccs/mk-ccs-regs
new file mode 100755
index 000000000000..d8e294f2d2cc
--- /dev/null
+++ b/Documentation/driver-api/media/drivers/ccs/mk-ccs-regs
@@ -0,0 +1,410 @@
+#!/usr/bin/perl -w
+#
+# Copyright (C) 2019--2020 Intel Corporation
+# SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause
+
+use Getopt::Long qw(:config no_ignore_case);
+use File::Basename;
+
+my $ccsregs = "ccs-regs.txt";
+my $header;
+my $regarray;
+my $limitc;
+my $limith;
+my $user;
+my $help;
+
+GetOptions("ccsregs|c=s" => \$ccsregs,
+	   "header|e=s" => \$header,
+	   "regarray|r=s" => \$regarray,
+	   "limitc|l=s" => \$limitc,
+	   "limith|L=s" => \$limith,
+	   "user|u" => \$user,
+	   "help|h" => \$help) or die "can't parse options";
+
+$help = 1 if ! defined $header || ! defined $limitc || ! defined $limith;
+
+if (defined $help) {
+	print <<EOH
+$0 - Create CCS register definitions for C
+
+usage: $0 -c ccs-regs.txt -e header -r regarray -l limit-c -L limit-header
+
+	-c ccs register file
+	-e header file name
+	-r register description array file name
+	-l limit and capability array file name
+	-L limit and capability header file name
+	-u generate files for user space consumption
+EOH
+	  ;
+	exit 0;
+}
+
+my $type_hdr = defined $user ? '"ccs-os.h"' : "<linux/types.h>";
+
+open(my $R, "< $ccsregs") or die "can't open $ccsregs";
+
+open(my $H, "> $header") or die "can't open $header";
+my $A;
+if (defined $regarray) {
+	open($A, "> $regarray") or die "can't open $regarray";
+}
+open(my $LC, "> $limitc") or die "can't open $limitc";
+open(my $LH, "> $limith") or die "can't open $limith";
+
+my %this;
+
+sub is_limit_reg($) {
+	my $addr = hex $_[0];
+
+	return 0 if $addr < 0x40; # weed out status registers
+	return 0 if $addr >= 0x100 && $addr < 0xfff; # weed out configuration registers
+
+	return 1;
+}
+
+my $uc_header = basename uc $header;
+$uc_header =~ s/[^A-Z0-9]/_/g;
+
+my $copyright = "/* Copyright (C) 2019--2020 Intel Corporation */\n";
+my $license = "SPDX-License-Identifier: GPL-2.0-only OR BSD-3-Clause";
+
+for my $fh ($A, $LC) {
+	print $fh "// $license\n$copyright\n" if defined $fh;
+}
+
+for my $fh ($H, $LH) {
+	print $fh "/* $license */\n$copyright\n";
+}
+
+print $H <<EOF
+#ifndef __${uc_header}__
+#define __${uc_header}__
+
+#define CCS_FL_BASE		16
+#define CCS_FL_16BIT		(1U << CCS_FL_BASE)
+#define CCS_FL_32BIT		(1U << (CCS_FL_BASE + 1))
+#define CCS_FL_FLOAT_IREAL	(1U << (CCS_FL_BASE + 2))
+#define CCS_FL_IREAL		(1U << (CCS_FL_BASE + 3))
+
+#define CCS_R_ADDR(r)		((r) & 0xffff)
+
+EOF
+  ;
+
+print $A <<EOF
+#include <stdint.h>
+#include <stdio.h>
+#include "ccs-extra.h"
+#include "ccs-regs.h"
+
+EOF
+	if defined $A;
+
+my $uc_limith = basename uc $limith;
+$uc_limith =~ s/[^A-Z0-9]/_/g;
+
+print $LH <<EOF
+#ifndef __${uc_limith}__
+#define __${uc_limith}__
+
+#include $type_hdr
+
+struct ccs_limit {
+	uint32_t reg;
+	uint16_t size;
+	uint16_t flags;
+	const char *name;
+};
+
+#define CCS_L_FL_SAME_REG	(1U << 0)
+
+extern const struct ccs_limit ccs_limits[];
+
+EOF
+  ;
+
+print $LC <<EOF
+#include "ccs-limits.h"
+#include "ccs-regs.h"
+
+const struct ccs_limit ccs_limits[] = {
+EOF
+  ;
+
+my $limitcount = 0;
+my $argdescs;
+my $reglist = "const struct ccs_reg_desc ccs_reg_desc[] = {\n";
+
+sub name_split($$) {
+	my ($name, $addr) = @_;
+	my $args;
+
+	$name =~ /([^\(]+?)(\(.*)/;
+	($name, $args) = ($1, $2);
+	$args = [split /,\s*/, $args];
+	foreach my $t (@$args) {
+		$t =~ s/[\(\)]//g;
+		$t =~ s/\//\\\//g;
+	}
+
+	return ($name, $addr, $args);
+}
+
+sub tabconv($) {
+	$_ = shift;
+
+	my @l = split "\n", $_;
+
+	map {
+		s/ {8,8}/\t/g;
+		s/\t\K +//;
+	} @l;
+
+	return (join "\n", @l) . "\n";
+}
+
+sub elem_size(@) {
+	my @flags = @_;
+
+	return 2 if grep /^16$/, @flags;
+	return 4 if grep /^32$/, @flags;
+	return 1;
+}
+
+sub arr_size($) {
+	my $this = $_[0];
+	my $size = $this->{elsize};
+	my $h = $this->{argparams};
+
+	foreach my $arg (@{$this->{args}}) {
+		my $apref = $h->{$arg};
+
+		$size *= $apref->{max} - $apref->{min} + 1;
+	}
+
+	return $size;
+}
+
+sub print_args($$$) {
+	my ($this, $postfix, $is_same_reg) = @_;
+	my ($args, $argparams, $name) =
+	  ($this->{args}, $this->{argparams}, $this->{name});
+	my $varname = "ccs_reg_arg_" . (lc $name) . $postfix;
+	my @mins;
+	my @sorted_args = @{$this->{sorted_args}};
+	my $lim_arg;
+	my $size = arr_size($this);
+
+	$argdescs .= "static const struct ccs_reg_arg " . $varname . "[] = {\n";
+
+	foreach my $sorted_arg (@sorted_args) {
+		push @mins, $argparams->{$sorted_arg}->{min};
+	}
+
+	foreach my $sorted_arg (@sorted_args) {
+		my $h = $argparams->{$sorted_arg};
+
+		$argdescs .= "\t{ \"$sorted_arg\", $h->{min}, $h->{max}, $h->{elsize} },\n";
+
+		$lim_arg .= defined $lim_arg ? ", $h->{min}" : "$h->{min}";
+	}
+
+	$argdescs .= "};\n\n";
+
+	$reglist .= "\t{ CCS_R_" . (uc $name) . "(" . (join ",", (@mins)) .
+	  "), $size, sizeof($varname) / sizeof(*$varname)," .
+	    " \"" . (lc $name) . "\", $varname },\n";
+
+	print $LC tabconv sprintf "\t{ CCS_R_" . (uc $name) . "($lim_arg), " .
+	  $size . ", " . ($is_same_reg ? "CCS_L_FL_SAME_REG" : "0") .
+	    ", \"$name" . (defined $this->{discontig} ? " $lim_arg" : "") . "\" },\n"
+	      if is_limit_reg $this->{base_addr};
+}
+
+my $hdr_data;
+
+while (<$R>) {
+	chop;
+	s/^\s*//;
+	next if /^[#;]/ || /^$/;
+	if (s/^-\s*//) {
+		if (s/^b\s*//) {
+			my ($bit, $addr) = split /\t+/;
+			$bit = uc $bit;
+			$hdr_data .= sprintf "#define %-62s %s", "CCS_" . (uc ${this{name}}) ."_$bit", "(1U << $addr)\n";
+		} elsif (s/^f\s*//) {
+			s/[,\.-]/_/g;
+			my @a = split /\s+/;
+			my ($msb, $lsb, $this_field) = reverse @a;
+		        @a = ( { "name" => "SHIFT", "addr" => $lsb, "fmt" => "%uU", },
+			       { "name" => "MASK", "addr" => (1 << ($msb + 1)) - 1 - ((1 << $lsb) - 1), "fmt" => "0x%" . join(".", ($this{"elsize"} >> 2) x 2) . "x" } );
+			$this{"field"} = $this_field;
+			foreach my $ar (@a) {
+				#print $ar->{fmt}."\n";
+				$hdr_data .= sprintf "#define %-62s " . $ar->{"fmt"} . "\n", "CCS_" . (uc $this{"name"}) . (defined $this_field ? "_" . uc $this_field : "") . "_" . $ar->{"name"}, $ar->{"addr"} . "\n";
+			}
+		} elsif (s/^e\s*//) {
+			s/[,\.-]/_/g;
+			my ($enum, $addr) = split /\s+/;
+			$enum = uc $enum;
+			$hdr_data .= sprintf "#define %-62s %s", "CCS_" . (uc ${this{name}}) . (defined $this{"field"} ? "_" . uc $this{"field"} : "") ."_$enum", $addr . ($addr =~ /0x/i ? "" : "U") . "\n";
+		} elsif (s/^l\s*//) {
+			my ($arg, $min, $max, $elsize, @discontig) = split /\s+/;
+			my $size;
+
+			foreach my $num ($min, $max) {
+				$num = hex $num if $num =~ /0x/i;
+			}
+
+			$hdr_data .= sprintf "#define %-62s %s", "CCS_LIM_" . (uc ${this{name}} . "_MIN_$arg"), $min . ($min =~ /0x/i ? "" : "U") . "\n";
+			$hdr_data .= sprintf "#define %-62s %s", "CCS_LIM_" . (uc ${this{name}} . "_MAX_$arg"), $max . ($max =~ /0x/i ? "" : "U") . "\n";
+
+			my $h = $this{argparams};
+
+			$h->{$arg} = { "min" => $min,
+				       "max" => $max,
+				       "elsize" => $elsize =~ /^0x/ ? hex $elsize : $elsize,
+				       "discontig" => \@discontig };
+
+			$this{discontig} = $arg if @discontig;
+
+			next if $#{$this{args}} + 1 != scalar keys %{$this{argparams}};
+
+			my $reg_formula = "($this{addr}";
+			my $lim_formula;
+
+			foreach my $arg (@{$this{args}}) {
+				my $d = $h->{$arg}->{discontig};
+				my $times = $h->{$arg}->{elsize} != 1 ?
+				  " * " . $h->{$arg}->{elsize} : "";
+
+				if (@$d) {
+					my ($lim, $offset) = split /,/, $d->[0];
+
+					$reg_formula .= " + (($arg) < $lim ? ($arg)$times : $offset + (($arg) - $lim)$times)";
+				} else {
+					$reg_formula .= " + ($arg)$times";
+				}
+
+				$lim_formula .= (defined $lim_formula ? " + " : "") . "($arg)$times";
+			}
+
+			$reg_formula .= ")\n";
+			$lim_formula =~ s/^\(([a-z0-9]+)\)$/$1/i;
+
+			print $H tabconv sprintf("#define %-62s %s", "CCS_R_" . (uc $this{name}) .
+			  $this{arglist}, $reg_formula);
+
+			print $H tabconv $hdr_data;
+			undef $hdr_data;
+
+			# Sort arguments in descending order by size
+			@{$this{sorted_args}} = sort {
+				$h->{$a}->{elsize} <= $h->{$b}->{elsize}
+			} @{$this{args}};
+
+			if (defined $this{discontig}) {
+				my $da = $this{argparams}->{$this{discontig}};
+				my ($first_discontig) = split /,/, $da->{discontig}->[0];
+				my $max = $da->{max};
+
+				$da->{max} = $first_discontig - 1;
+				print_args(\%this, "", 0);
+
+				$da->{min} = $da->{max} + 1;
+				$da->{max} = $max;
+				print_args(\%this, $first_discontig, 1);
+			} else {
+				print_args(\%this, "", 0);
+			}
+
+			next unless is_limit_reg $this{base_addr};
+
+			print $LH tabconv sprintf "#define %-63s%s\n",
+			  "CCS_L_" . (uc $this{name}) . "_OFFSET(" .
+			    (join ", ", @{$this{args}}) . ")", "($lim_formula)";
+		}
+
+		if (! @{$this{args}}) {
+			print $H tabconv($hdr_data);
+			undef $hdr_data;
+		}
+
+		next;
+	}
+
+	my ($name, $addr, @flags) = split /\t+/, $_;
+	my $args = [];
+
+	my $sp;
+
+	($name, $addr, $args) = name_split($name, $addr) if /\(.*\)/;
+
+	$name =~ s/[,\.-]/_/g;
+
+	my $flagstring = "";
+	my $size = elem_size(@flags);
+	$flagstring .= "| CCS_FL_16BIT " if $size eq "2";
+	$flagstring .= "| CCS_FL_32BIT " if $size eq "4";
+	$flagstring .= "| CCS_FL_FLOAT_IREAL " if grep /^float_ireal$/, @flags;
+	$flagstring .= "| CCS_FL_IREAL " if grep /^ireal$/, @flags;
+	$flagstring =~ s/^\| //;
+	$flagstring =~ s/ $//;
+	$flagstring = "($flagstring)" if $flagstring =~ /\|/;
+	my $base_addr = $addr;
+	$addr = "($addr | $flagstring)" if $flagstring ne "";
+
+	my $arglist = @$args ? "(" . (join ", ", @$args) . ")" : "";
+	$hdr_data .= sprintf "#define %-62s %s\n", "CCS_R_" . (uc $name), $addr
+	  if !@$args;
+
+	$name =~ s/\(.*//;
+
+	%this = ( name => $name,
+		  addr => $addr,
+		  base_addr => $base_addr,
+		  argparams => {},
+		  args => $args,
+		  arglist => $arglist,
+		  elsize => $size,
+		);
+
+	if (!@$args) {
+		$reglist .= "\t{ CCS_R_" . (uc $name) . ", 1,  0, \"" . (lc $name) . "\", NULL },\n";
+		print $H tabconv $hdr_data;
+		undef $hdr_data;
+
+		print $LC tabconv sprintf "\t{ CCS_R_" . (uc $name) . ", " .
+		  $this{elsize} . ", 0, \"$name\" },\n"
+		    if is_limit_reg $this{base_addr};
+	}
+
+	print $LH tabconv sprintf "#define %-63s%s\n",
+	  "CCS_L_" . (uc $this{name}), $limitcount++
+	    if is_limit_reg $this{base_addr};
+}
+
+if (defined $A) {
+	print $A $argdescs, $reglist;
+
+	print $A "\t{ 0 }\n";
+
+	print $A "};\n";
+}
+
+print $H "\n#endif /* __${uc_header}__ */\n";
+
+print $LH tabconv sprintf "#define %-63s%s\n", "CCS_L_LAST", $limitcount;
+
+print $LH "\n#endif /* __${uc_limith}__ */\n";
+
+print $LC "\t{ 0 } /* Guardian */\n";
+print $LC "};\n";
+
+close($R);
+close($H);
+close($A) if defined $A;
+close($LC);
+close($LH);
-- 
2.27.0




[Index of Archives]     [Linux Input]     [Video for Linux]     [Gstreamer Embedded]     [Mplayer Users]     [Linux USB Devel]     [Linux Audio Users]     [Linux Kernel]     [Linux SCSI]     [Yosemite Backpacking]

  Powered by Linux