1 // SPDX-License-Identifier: BSD-3-Clause
2 /*
3  * Copyright (c) 2020, MIPI Alliance, Inc.
4  *
5  * Author: Nicolas Pitre <npitre@baylibre.com>
6  */
7 
8 #include <linux/bitfield.h>
9 #include <linux/bitmap.h>
10 #include <linux/device.h>
11 #include <linux/errno.h>
12 #include <linux/i3c/master.h>
13 #include <linux/io.h>
14 
15 #include "hci.h"
16 #include "dat.h"
17 
18 
19 /*
20  * Device Address Table Structure
21  */
22 
23 #define DAT_1_AUTOCMD_HDR_CODE		W1_MASK(58, 51)
24 #define DAT_1_AUTOCMD_MODE		W1_MASK(50, 48)
25 #define DAT_1_AUTOCMD_VALUE		W1_MASK(47, 40)
26 #define DAT_1_AUTOCMD_MASK		W1_MASK(39, 32)
27 /*	DAT_0_I2C_DEVICE		W0_BIT_(31) */
28 #define DAT_0_DEV_NACK_RETRY_CNT	W0_MASK(30, 29)
29 #define DAT_0_RING_ID			W0_MASK(28, 26)
30 #define DAT_0_DYNADDR_PARITY		W0_BIT_(23)
31 #define DAT_0_DYNAMIC_ADDRESS		W0_MASK(22, 16)
32 #define DAT_0_TS			W0_BIT_(15)
33 #define DAT_0_MR_REJECT			W0_BIT_(14)
34 /*	DAT_0_SIR_REJECT		W0_BIT_(13) */
35 /*	DAT_0_IBI_PAYLOAD		W0_BIT_(12) */
36 #define DAT_0_STATIC_ADDRESS		W0_MASK(6, 0)
37 
38 #define dat_w0_read(i)		readl(hci->DAT_regs + (i) * 8)
39 #define dat_w1_read(i)		readl(hci->DAT_regs + (i) * 8 + 4)
40 #define dat_w0_write(i, v)	writel(v, hci->DAT_regs + (i) * 8)
41 #define dat_w1_write(i, v)	writel(v, hci->DAT_regs + (i) * 8 + 4)
42 
dynaddr_parity(unsigned int addr)43 static inline bool dynaddr_parity(unsigned int addr)
44 {
45 	addr |= 1 << 7;
46 	addr += addr >> 4;
47 	addr += addr >> 2;
48 	addr += addr >> 1;
49 	return (addr & 1);
50 }
51 
hci_dat_v1_init(struct i3c_hci * hci)52 static int hci_dat_v1_init(struct i3c_hci *hci)
53 {
54 	unsigned int dat_idx;
55 
56 	if (!hci->DAT_regs) {
57 		dev_err(&hci->master.dev,
58 			"only DAT in register space is supported at the moment\n");
59 		return -EOPNOTSUPP;
60 	}
61 	if (hci->DAT_entry_size != 8) {
62 		dev_err(&hci->master.dev,
63 			"only 8-bytes DAT entries are supported at the moment\n");
64 		return -EOPNOTSUPP;
65 	}
66 
67 	/* use a bitmap for faster free slot search */
68 	hci->DAT_data = bitmap_zalloc(hci->DAT_entries, GFP_KERNEL);
69 	if (!hci->DAT_data)
70 		return -ENOMEM;
71 
72 	/* clear them */
73 	for (dat_idx = 0; dat_idx < hci->DAT_entries; dat_idx++) {
74 		dat_w0_write(dat_idx, 0);
75 		dat_w1_write(dat_idx, 0);
76 	}
77 
78 	return 0;
79 }
80 
hci_dat_v1_cleanup(struct i3c_hci * hci)81 static void hci_dat_v1_cleanup(struct i3c_hci *hci)
82 {
83 	bitmap_free(hci->DAT_data);
84 	hci->DAT_data = NULL;
85 }
86 
hci_dat_v1_alloc_entry(struct i3c_hci * hci)87 static int hci_dat_v1_alloc_entry(struct i3c_hci *hci)
88 {
89 	unsigned int dat_idx;
90 
91 	dat_idx = find_first_zero_bit(hci->DAT_data, hci->DAT_entries);
92 	if (dat_idx >= hci->DAT_entries)
93 		return -ENOENT;
94 	__set_bit(dat_idx, hci->DAT_data);
95 
96 	/* default flags */
97 	dat_w0_write(dat_idx, DAT_0_SIR_REJECT | DAT_0_MR_REJECT);
98 
99 	return dat_idx;
100 }
101 
hci_dat_v1_free_entry(struct i3c_hci * hci,unsigned int dat_idx)102 static void hci_dat_v1_free_entry(struct i3c_hci *hci, unsigned int dat_idx)
103 {
104 	dat_w0_write(dat_idx, 0);
105 	dat_w1_write(dat_idx, 0);
106 	__clear_bit(dat_idx, hci->DAT_data);
107 }
108 
hci_dat_v1_set_dynamic_addr(struct i3c_hci * hci,unsigned int dat_idx,u8 address)109 static void hci_dat_v1_set_dynamic_addr(struct i3c_hci *hci,
110 					unsigned int dat_idx, u8 address)
111 {
112 	u32 dat_w0;
113 
114 	dat_w0 = dat_w0_read(dat_idx);
115 	dat_w0 &= ~(DAT_0_DYNAMIC_ADDRESS | DAT_0_DYNADDR_PARITY);
116 	dat_w0 |= FIELD_PREP(DAT_0_DYNAMIC_ADDRESS, address) |
117 		  (dynaddr_parity(address) ? DAT_0_DYNADDR_PARITY : 0);
118 	dat_w0_write(dat_idx, dat_w0);
119 }
120 
hci_dat_v1_set_static_addr(struct i3c_hci * hci,unsigned int dat_idx,u8 address)121 static void hci_dat_v1_set_static_addr(struct i3c_hci *hci,
122 				       unsigned int dat_idx, u8 address)
123 {
124 	u32 dat_w0;
125 
126 	dat_w0 = dat_w0_read(dat_idx);
127 	dat_w0 &= ~DAT_0_STATIC_ADDRESS;
128 	dat_w0 |= FIELD_PREP(DAT_0_STATIC_ADDRESS, address);
129 	dat_w0_write(dat_idx, dat_w0);
130 }
131 
hci_dat_v1_set_flags(struct i3c_hci * hci,unsigned int dat_idx,u32 w0_flags,u32 w1_flags)132 static void hci_dat_v1_set_flags(struct i3c_hci *hci, unsigned int dat_idx,
133 				 u32 w0_flags, u32 w1_flags)
134 {
135 	u32 dat_w0, dat_w1;
136 
137 	dat_w0 = dat_w0_read(dat_idx);
138 	dat_w1 = dat_w1_read(dat_idx);
139 	dat_w0 |= w0_flags;
140 	dat_w1 |= w1_flags;
141 	dat_w0_write(dat_idx, dat_w0);
142 	dat_w1_write(dat_idx, dat_w1);
143 }
144 
hci_dat_v1_clear_flags(struct i3c_hci * hci,unsigned int dat_idx,u32 w0_flags,u32 w1_flags)145 static void hci_dat_v1_clear_flags(struct i3c_hci *hci, unsigned int dat_idx,
146 				   u32 w0_flags, u32 w1_flags)
147 {
148 	u32 dat_w0, dat_w1;
149 
150 	dat_w0 = dat_w0_read(dat_idx);
151 	dat_w1 = dat_w1_read(dat_idx);
152 	dat_w0 &= ~w0_flags;
153 	dat_w1 &= ~w1_flags;
154 	dat_w0_write(dat_idx, dat_w0);
155 	dat_w1_write(dat_idx, dat_w1);
156 }
157 
hci_dat_v1_get_index(struct i3c_hci * hci,u8 dev_addr)158 static int hci_dat_v1_get_index(struct i3c_hci *hci, u8 dev_addr)
159 {
160 	unsigned int dat_idx;
161 	u32 dat_w0;
162 
163 	for (dat_idx = find_first_bit(hci->DAT_data, hci->DAT_entries);
164 	     dat_idx < hci->DAT_entries;
165 	     dat_idx = find_next_bit(hci->DAT_data, hci->DAT_entries, dat_idx)) {
166 		dat_w0 = dat_w0_read(dat_idx);
167 		if (FIELD_GET(DAT_0_DYNAMIC_ADDRESS, dat_w0) == dev_addr)
168 			return dat_idx;
169 	}
170 
171 	return -ENODEV;
172 }
173 
174 const struct hci_dat_ops mipi_i3c_hci_dat_v1 = {
175 	.init			= hci_dat_v1_init,
176 	.cleanup		= hci_dat_v1_cleanup,
177 	.alloc_entry		= hci_dat_v1_alloc_entry,
178 	.free_entry		= hci_dat_v1_free_entry,
179 	.set_dynamic_addr	= hci_dat_v1_set_dynamic_addr,
180 	.set_static_addr	= hci_dat_v1_set_static_addr,
181 	.set_flags		= hci_dat_v1_set_flags,
182 	.clear_flags		= hci_dat_v1_clear_flags,
183 	.get_index		= hci_dat_v1_get_index,
184 };
185