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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 HRT_GDC_v2_defs_h_
17 #define HRT_GDC_v2_defs_h_
18 
19 #define HRT_GDC_IS_V2
20 
21 #define HRT_GDC_N                     1024 /* Top-level design constant, equal to the number of entries in the LUT      */
22 #define HRT_GDC_FRAC_BITS               10 /* Number of fractional bits in the GDC block, driven by the size of the LUT */
23 
24 #define HRT_GDC_BLI_FRAC_BITS            4 /* Number of fractional bits for the bi-linear interpolation type            */
25 #define HRT_GDC_BLI_COEF_ONE             BIT(HRT_GDC_BLI_FRAC_BITS)
26 
27 #define HRT_GDC_BCI_COEF_BITS           14 /* 14 bits per coefficient                                                   */
28 #define HRT_GDC_BCI_COEF_ONE             (1 << (HRT_GDC_BCI_COEF_BITS - 2))  /* We represent signed 10 bit coefficients.  */
29 /* The supported range is [-256, .., +256]      */
30 /* in 14-bit signed notation,                   */
31 /* We need all ten bits (MSB must be zero).     */
32 /* -s is inserted to solve this issue, and      */
33 /* therefore "1" is equal to +256.              */
34 #define HRT_GDC_BCI_COEF_MASK            ((1 << HRT_GDC_BCI_COEF_BITS) - 1)
35 
36 #define HRT_GDC_LUT_BYTES                (HRT_GDC_N * 4 * 2)                /* 1024 addresses, 4 coefficients per address,  */
37 /* 2 bytes per coefficient                      */
38 
39 #define _HRT_GDC_REG_ALIGN               4
40 
41 //     31  30  29    25 24                     0
42 //  |-----|---|--------|------------------------|
43 //  | CMD | C | Reg_ID |        Value           |
44 
45 // There are just two commands possible for the GDC block:
46 // 1 - Configure reg
47 // 0 - Data token
48 
49 // C      - Reserved bit
50 //          Used in protocol to indicate whether it is C-run or other type of runs
51 //          In case of C-run, this bit has a value of 1, for all the other runs, it is 0.
52 
53 // Reg_ID - Address of the register to be configured
54 
55 // Value  - Value to store to the addressed register, maximum of 24 bits
56 
57 // Configure reg command is not followed by any other token.
58 // The address of the register and the data to be filled in is contained in the same token
59 
60 // When the first data token is received, it must be:
61 //   1. FRX and FRY (device configured in one of the  scaling modes) ***DEFAULT MODE***, or,
62 //   2. P0'X        (device configured in one of the tetragon modes)
63 // After the first data token is received, pre-defined number of tokens with the following meaning follow:
64 //   1. two  tokens: SRC address ; DST address
65 //   2. nine tokens: P0'Y, .., P3'Y ; SRC address ; DST address
66 
67 #define HRT_GDC_CONFIG_CMD             1
68 #define HRT_GDC_DATA_CMD               0
69 
70 #define HRT_GDC_CMD_POS               31
71 #define HRT_GDC_CMD_BITS               1
72 #define HRT_GDC_CRUN_POS              30
73 #define HRT_GDC_REG_ID_POS            25
74 #define HRT_GDC_REG_ID_BITS            5
75 #define HRT_GDC_DATA_POS               0
76 #define HRT_GDC_DATA_BITS             25
77 
78 #define HRT_GDC_FRYIPXFRX_BITS        26
79 #define HRT_GDC_P0X_BITS              23
80 
81 #define HRT_GDC_MAX_OXDIM           (8192 - 64)
82 #define HRT_GDC_MAX_OYDIM           4095
83 #define HRT_GDC_MAX_IXDIM           (8192 - 64)
84 #define HRT_GDC_MAX_IYDIM           4095
85 #define HRT_GDC_MAX_DS_FAC            16
86 #define HRT_GDC_MAX_DX                 (HRT_GDC_MAX_DS_FAC * HRT_GDC_N - 1)
87 #define HRT_GDC_MAX_DY                 HRT_GDC_MAX_DX
88 
89 /* GDC lookup tables entries are 10 bits values, but they're
90    stored 2 by 2 as 32 bit values, yielding 16 bits per entry.
91    A GDC lookup table contains 64 * 4 elements */
92 
93 #define HRT_GDC_PERF_1_1_pix          0
94 #define HRT_GDC_PERF_2_1_pix          1
95 #define HRT_GDC_PERF_1_2_pix          2
96 #define HRT_GDC_PERF_2_2_pix          3
97 
98 #define HRT_GDC_NND_MODE              0
99 #define HRT_GDC_BLI_MODE              1
100 #define HRT_GDC_BCI_MODE              2
101 #define HRT_GDC_LUT_MODE              3
102 
103 #define HRT_GDC_SCAN_STB              0
104 #define HRT_GDC_SCAN_STR              1
105 
106 #define HRT_GDC_MODE_SCALING          0
107 #define HRT_GDC_MODE_TETRAGON         1
108 
109 #define HRT_GDC_LUT_COEFF_OFFSET     16
110 #define HRT_GDC_FRY_BIT_OFFSET       16
111 // FRYIPXFRX is the only register where we store two values in one field,
112 // to save one token in the scaling protocol.
113 // Like this, we have three tokens in the scaling protocol,
114 // Otherwise, we would have had four.
115 // The register bit-map is:
116 //   31  26 25      16 15  10 9        0
117 //  |------|----------|------|----------|
118 //  | XXXX |   FRY    |  IPX |   FRX    |
119 
120 #define HRT_GDC_CE_FSM0_POS           0
121 #define HRT_GDC_CE_FSM0_LEN           2
122 #define HRT_GDC_CE_OPY_POS            2
123 #define HRT_GDC_CE_OPY_LEN           14
124 #define HRT_GDC_CE_OPX_POS           16
125 #define HRT_GDC_CE_OPX_LEN           16
126 // CHK_ENGINE register bit-map:
127 //   31            16 15        2 1  0
128 //  |----------------|-----------|----|
129 //  |      OPX       |    OPY    |FSM0|
130 // However, for the time being at least,
131 // this implementation is meaningless in hss model,
132 // So, we just return 0
133 
134 #define HRT_GDC_CHK_ENGINE_IDX        0
135 #define HRT_GDC_WOIX_IDX              1
136 #define HRT_GDC_WOIY_IDX              2
137 #define HRT_GDC_BPP_IDX               3
138 #define HRT_GDC_FRYIPXFRX_IDX         4
139 #define HRT_GDC_OXDIM_IDX             5
140 #define HRT_GDC_OYDIM_IDX             6
141 #define HRT_GDC_SRC_ADDR_IDX          7
142 #define HRT_GDC_SRC_END_ADDR_IDX      8
143 #define HRT_GDC_SRC_WRAP_ADDR_IDX     9
144 #define HRT_GDC_SRC_STRIDE_IDX       10
145 #define HRT_GDC_DST_ADDR_IDX         11
146 #define HRT_GDC_DST_STRIDE_IDX       12
147 #define HRT_GDC_DX_IDX               13
148 #define HRT_GDC_DY_IDX               14
149 #define HRT_GDC_P0X_IDX              15
150 #define HRT_GDC_P0Y_IDX              16
151 #define HRT_GDC_P1X_IDX              17
152 #define HRT_GDC_P1Y_IDX              18
153 #define HRT_GDC_P2X_IDX              19
154 #define HRT_GDC_P2Y_IDX              20
155 #define HRT_GDC_P3X_IDX              21
156 #define HRT_GDC_P3Y_IDX              22
157 #define HRT_GDC_PERF_POINT_IDX       23  // 1x1 ; 1x2 ; 2x1 ; 2x2 pixels per cc
158 #define HRT_GDC_INTERP_TYPE_IDX      24  // NND ; BLI ; BCI ; LUT
159 #define HRT_GDC_SCAN_IDX             25  // 0 = STB (Slide To Bottom) ; 1 = STR (Slide To Right)
160 #define HRT_GDC_PROC_MODE_IDX        26  // 0 = Scaling ; 1 = Tetragon
161 
162 #define HRT_GDC_LUT_IDX              32
163 
164 #endif /* HRT_GDC_v2_defs_h_ */
165