1 // SPDX-License-Identifier: GPL-2.0-or-later
2 /*
3 * Copyright (c) 2024 ASPEED Technology Inc.
4 */
5
6 #include <linux/auxiliary_bus.h>
7 #include <linux/cleanup.h>
8 #include <linux/device.h>
9 #include <linux/io.h>
10 #include <linux/module.h>
11 #include <linux/reset-controller.h>
12 #include <linux/slab.h>
13
14 #include <dt-bindings/reset/aspeed,ast2700-scu.h>
15
16 #define SCU0_RESET_CTRL1 0x200
17 #define SCU0_RESET_CTRL2 0x220
18 #define SCU1_RESET_CTRL1 0x200
19 #define SCU1_RESET_CTRL2 0x220
20 #define SCU1_PCIE3_CTRL 0x908
21
22 struct ast2700_reset_signal {
23 bool dedicated_clr; /* dedicated reset clr offset */
24 u32 offset, bit;
25 };
26
27 struct aspeed_reset_info {
28 unsigned int nr_resets;
29 const struct ast2700_reset_signal *signal;
30 };
31
32 struct aspeed_reset {
33 struct reset_controller_dev rcdev;
34 struct aspeed_reset_info *info;
35 spinlock_t lock; /* Protect read-modify-write cycle */
36 void __iomem *base;
37 };
38
39 static const struct ast2700_reset_signal ast2700_reset0_signals[] = {
40 [SCU0_RESET_SDRAM] = { true, SCU0_RESET_CTRL1, BIT(0) },
41 [SCU0_RESET_DDRPHY] = { true, SCU0_RESET_CTRL1, BIT(1) },
42 [SCU0_RESET_RSA] = { true, SCU0_RESET_CTRL1, BIT(2) },
43 [SCU0_RESET_SHA3] = { true, SCU0_RESET_CTRL1, BIT(3) },
44 [SCU0_RESET_HACE] = { true, SCU0_RESET_CTRL1, BIT(4) },
45 [SCU0_RESET_SOC] = { true, SCU0_RESET_CTRL1, BIT(5) },
46 [SCU0_RESET_VIDEO] = { true, SCU0_RESET_CTRL1, BIT(6) },
47 [SCU0_RESET_2D] = { true, SCU0_RESET_CTRL1, BIT(7) },
48 [SCU0_RESET_PCIS] = { true, SCU0_RESET_CTRL1, BIT(8) },
49 [SCU0_RESET_RVAS0] = { true, SCU0_RESET_CTRL1, BIT(9) },
50 [SCU0_RESET_RVAS1] = { true, SCU0_RESET_CTRL1, BIT(10) },
51 [SCU0_RESET_SM3] = { true, SCU0_RESET_CTRL1, BIT(11) },
52 [SCU0_RESET_SM4] = { true, SCU0_RESET_CTRL1, BIT(12) },
53 [SCU0_RESET_CRT0] = { true, SCU0_RESET_CTRL1, BIT(13) },
54 [SCU0_RESET_ECC] = { true, SCU0_RESET_CTRL1, BIT(14) },
55 [SCU0_RESET_DP_PCI] = { true, SCU0_RESET_CTRL1, BIT(15) },
56 [SCU0_RESET_UFS] = { true, SCU0_RESET_CTRL1, BIT(16) },
57 [SCU0_RESET_EMMC] = { true, SCU0_RESET_CTRL1, BIT(17) },
58 [SCU0_RESET_PCIE1RST] = { true, SCU0_RESET_CTRL1, BIT(18) },
59 [SCU0_RESET_PCIE1RSTOE] = { true, SCU0_RESET_CTRL1, BIT(19) },
60 [SCU0_RESET_PCIE0RST] = { true, SCU0_RESET_CTRL1, BIT(20) },
61 [SCU0_RESET_PCIE0RSTOE] = { true, SCU0_RESET_CTRL1, BIT(21) },
62 [SCU0_RESET_JTAG] = { true, SCU0_RESET_CTRL1, BIT(22) },
63 [SCU0_RESET_MCTP0] = { true, SCU0_RESET_CTRL1, BIT(23) },
64 [SCU0_RESET_MCTP1] = { true, SCU0_RESET_CTRL1, BIT(24) },
65 [SCU0_RESET_XDMA0] = { true, SCU0_RESET_CTRL1, BIT(25) },
66 [SCU0_RESET_XDMA1] = { true, SCU0_RESET_CTRL1, BIT(26) },
67 [SCU0_RESET_H2X1] = { true, SCU0_RESET_CTRL1, BIT(27) },
68 [SCU0_RESET_DP] = { true, SCU0_RESET_CTRL1, BIT(28) },
69 [SCU0_RESET_DP_MCU] = { true, SCU0_RESET_CTRL1, BIT(29) },
70 [SCU0_RESET_SSP] = { true, SCU0_RESET_CTRL1, BIT(30) },
71 [SCU0_RESET_H2X0] = { true, SCU0_RESET_CTRL1, BIT(31) },
72 [SCU0_RESET_PORTA_VHUB] = { true, SCU0_RESET_CTRL2, BIT(0) },
73 [SCU0_RESET_PORTA_PHY3] = { true, SCU0_RESET_CTRL2, BIT(1) },
74 [SCU0_RESET_PORTA_XHCI] = { true, SCU0_RESET_CTRL2, BIT(2) },
75 [SCU0_RESET_PORTB_VHUB] = { true, SCU0_RESET_CTRL2, BIT(3) },
76 [SCU0_RESET_PORTB_PHY3] = { true, SCU0_RESET_CTRL2, BIT(4) },
77 [SCU0_RESET_PORTB_XHCI] = { true, SCU0_RESET_CTRL2, BIT(5) },
78 [SCU0_RESET_PORTA_VHUB_EHCI] = { true, SCU0_RESET_CTRL2, BIT(6) },
79 [SCU0_RESET_PORTB_VHUB_EHCI] = { true, SCU0_RESET_CTRL2, BIT(7) },
80 [SCU0_RESET_UHCI] = { true, SCU0_RESET_CTRL2, BIT(8) },
81 [SCU0_RESET_TSP] = { true, SCU0_RESET_CTRL2, BIT(9) },
82 [SCU0_RESET_E2M0] = { true, SCU0_RESET_CTRL2, BIT(10) },
83 [SCU0_RESET_E2M1] = { true, SCU0_RESET_CTRL2, BIT(11) },
84 [SCU0_RESET_VLINK] = { true, SCU0_RESET_CTRL2, BIT(12) },
85 };
86
87 static const struct ast2700_reset_signal ast2700_reset1_signals[] = {
88 [SCU1_RESET_LPC0] = { true, SCU1_RESET_CTRL1, BIT(0) },
89 [SCU1_RESET_LPC1] = { true, SCU1_RESET_CTRL1, BIT(1) },
90 [SCU1_RESET_MII] = { true, SCU1_RESET_CTRL1, BIT(2) },
91 [SCU1_RESET_PECI] = { true, SCU1_RESET_CTRL1, BIT(3) },
92 [SCU1_RESET_PWM] = { true, SCU1_RESET_CTRL1, BIT(4) },
93 [SCU1_RESET_MAC0] = { true, SCU1_RESET_CTRL1, BIT(5) },
94 [SCU1_RESET_MAC1] = { true, SCU1_RESET_CTRL1, BIT(6) },
95 [SCU1_RESET_MAC2] = { true, SCU1_RESET_CTRL1, BIT(7) },
96 [SCU1_RESET_ADC] = { true, SCU1_RESET_CTRL1, BIT(8) },
97 [SCU1_RESET_SD] = { true, SCU1_RESET_CTRL1, BIT(9) },
98 [SCU1_RESET_ESPI0] = { true, SCU1_RESET_CTRL1, BIT(10) },
99 [SCU1_RESET_ESPI1] = { true, SCU1_RESET_CTRL1, BIT(11) },
100 [SCU1_RESET_JTAG1] = { true, SCU1_RESET_CTRL1, BIT(12) },
101 [SCU1_RESET_SPI0] = { true, SCU1_RESET_CTRL1, BIT(13) },
102 [SCU1_RESET_SPI1] = { true, SCU1_RESET_CTRL1, BIT(14) },
103 [SCU1_RESET_SPI2] = { true, SCU1_RESET_CTRL1, BIT(15) },
104 [SCU1_RESET_I3C0] = { true, SCU1_RESET_CTRL1, BIT(16) },
105 [SCU1_RESET_I3C1] = { true, SCU1_RESET_CTRL1, BIT(17) },
106 [SCU1_RESET_I3C2] = { true, SCU1_RESET_CTRL1, BIT(18) },
107 [SCU1_RESET_I3C3] = { true, SCU1_RESET_CTRL1, BIT(19) },
108 [SCU1_RESET_I3C4] = { true, SCU1_RESET_CTRL1, BIT(20) },
109 [SCU1_RESET_I3C5] = { true, SCU1_RESET_CTRL1, BIT(21) },
110 [SCU1_RESET_I3C6] = { true, SCU1_RESET_CTRL1, BIT(22) },
111 [SCU1_RESET_I3C7] = { true, SCU1_RESET_CTRL1, BIT(23) },
112 [SCU1_RESET_I3C8] = { true, SCU1_RESET_CTRL1, BIT(24) },
113 [SCU1_RESET_I3C9] = { true, SCU1_RESET_CTRL1, BIT(25) },
114 [SCU1_RESET_I3C10] = { true, SCU1_RESET_CTRL1, BIT(26) },
115 [SCU1_RESET_I3C11] = { true, SCU1_RESET_CTRL1, BIT(27) },
116 [SCU1_RESET_I3C12] = { true, SCU1_RESET_CTRL1, BIT(28) },
117 [SCU1_RESET_I3C13] = { true, SCU1_RESET_CTRL1, BIT(29) },
118 [SCU1_RESET_I3C14] = { true, SCU1_RESET_CTRL1, BIT(30) },
119 [SCU1_RESET_I3C15] = { true, SCU1_RESET_CTRL1, BIT(31) },
120 [SCU1_RESET_MCU0] = { true, SCU1_RESET_CTRL2, BIT(0) },
121 [SCU1_RESET_MCU1] = { true, SCU1_RESET_CTRL2, BIT(1) },
122 [SCU1_RESET_H2A_SPI1] = { true, SCU1_RESET_CTRL2, BIT(2) },
123 [SCU1_RESET_H2A_SPI2] = { true, SCU1_RESET_CTRL2, BIT(3) },
124 [SCU1_RESET_UART0] = { true, SCU1_RESET_CTRL2, BIT(4) },
125 [SCU1_RESET_UART1] = { true, SCU1_RESET_CTRL2, BIT(5) },
126 [SCU1_RESET_UART2] = { true, SCU1_RESET_CTRL2, BIT(6) },
127 [SCU1_RESET_UART3] = { true, SCU1_RESET_CTRL2, BIT(7) },
128 [SCU1_RESET_I2C_FILTER] = { true, SCU1_RESET_CTRL2, BIT(8) },
129 [SCU1_RESET_CALIPTRA] = { true, SCU1_RESET_CTRL2, BIT(9) },
130 [SCU1_RESET_XDMA] = { true, SCU1_RESET_CTRL2, BIT(10) },
131 [SCU1_RESET_FSI] = { true, SCU1_RESET_CTRL2, BIT(12) },
132 [SCU1_RESET_CAN] = { true, SCU1_RESET_CTRL2, BIT(13) },
133 [SCU1_RESET_MCTP] = { true, SCU1_RESET_CTRL2, BIT(14) },
134 [SCU1_RESET_I2C] = { true, SCU1_RESET_CTRL2, BIT(15) },
135 [SCU1_RESET_UART6] = { true, SCU1_RESET_CTRL2, BIT(16) },
136 [SCU1_RESET_UART7] = { true, SCU1_RESET_CTRL2, BIT(17) },
137 [SCU1_RESET_UART8] = { true, SCU1_RESET_CTRL2, BIT(18) },
138 [SCU1_RESET_UART9] = { true, SCU1_RESET_CTRL2, BIT(19) },
139 [SCU1_RESET_LTPI0] = { true, SCU1_RESET_CTRL2, BIT(20) },
140 [SCU1_RESET_VGAL] = { true, SCU1_RESET_CTRL2, BIT(21) },
141 [SCU1_RESET_LTPI1] = { true, SCU1_RESET_CTRL2, BIT(22) },
142 [SCU1_RESET_ACE] = { true, SCU1_RESET_CTRL2, BIT(23) },
143 [SCU1_RESET_E2M] = { true, SCU1_RESET_CTRL2, BIT(24) },
144 [SCU1_RESET_UHCI] = { true, SCU1_RESET_CTRL2, BIT(25) },
145 [SCU1_RESET_PORTC_USB2UART] = { true, SCU1_RESET_CTRL2, BIT(26) },
146 [SCU1_RESET_PORTC_VHUB_EHCI] = { true, SCU1_RESET_CTRL2, BIT(27) },
147 [SCU1_RESET_PORTD_USB2UART] = { true, SCU1_RESET_CTRL2, BIT(28) },
148 [SCU1_RESET_PORTD_VHUB_EHCI] = { true, SCU1_RESET_CTRL2, BIT(29) },
149 [SCU1_RESET_H2X] = { true, SCU1_RESET_CTRL2, BIT(30) },
150 [SCU1_RESET_I3CDMA] = { true, SCU1_RESET_CTRL2, BIT(31) },
151 [SCU1_RESET_PCIE2RST] = { false, SCU1_PCIE3_CTRL, BIT(0) },
152 };
153
to_aspeed_reset(struct reset_controller_dev * rcdev)154 static inline struct aspeed_reset *to_aspeed_reset(struct reset_controller_dev *rcdev)
155 {
156 return container_of(rcdev, struct aspeed_reset, rcdev);
157 }
158
aspeed_reset_assert(struct reset_controller_dev * rcdev,unsigned long id)159 static int aspeed_reset_assert(struct reset_controller_dev *rcdev, unsigned long id)
160 {
161 struct aspeed_reset *rc = to_aspeed_reset(rcdev);
162 void __iomem *reg_offset = rc->base + rc->info->signal[id].offset;
163
164 if (rc->info->signal[id].dedicated_clr) {
165 writel(rc->info->signal[id].bit, reg_offset);
166 } else {
167 guard(spinlock_irqsave)(&rc->lock);
168 writel(readl(reg_offset) & ~rc->info->signal[id].bit, reg_offset);
169 }
170
171 return 0;
172 }
173
aspeed_reset_deassert(struct reset_controller_dev * rcdev,unsigned long id)174 static int aspeed_reset_deassert(struct reset_controller_dev *rcdev, unsigned long id)
175 {
176 struct aspeed_reset *rc = to_aspeed_reset(rcdev);
177 void __iomem *reg_offset = rc->base + rc->info->signal[id].offset;
178
179 if (rc->info->signal[id].dedicated_clr) {
180 writel(rc->info->signal[id].bit, reg_offset + 0x04);
181 } else {
182 guard(spinlock_irqsave)(&rc->lock);
183 writel(readl(reg_offset) | rc->info->signal[id].bit, reg_offset);
184 }
185
186 return 0;
187 }
188
aspeed_reset_status(struct reset_controller_dev * rcdev,unsigned long id)189 static int aspeed_reset_status(struct reset_controller_dev *rcdev, unsigned long id)
190 {
191 struct aspeed_reset *rc = to_aspeed_reset(rcdev);
192 void __iomem *reg_offset = rc->base + rc->info->signal[id].offset;
193
194 return (readl(reg_offset) & rc->info->signal[id].bit) ? 1 : 0;
195 }
196
197 static const struct reset_control_ops aspeed_reset_ops = {
198 .assert = aspeed_reset_assert,
199 .deassert = aspeed_reset_deassert,
200 .status = aspeed_reset_status,
201 };
202
aspeed_reset_probe(struct auxiliary_device * adev,const struct auxiliary_device_id * id)203 static int aspeed_reset_probe(struct auxiliary_device *adev,
204 const struct auxiliary_device_id *id)
205 {
206 struct aspeed_reset *reset;
207 struct device *dev = &adev->dev;
208
209 reset = devm_kzalloc(dev, sizeof(*reset), GFP_KERNEL);
210 if (!reset)
211 return -ENOMEM;
212
213 spin_lock_init(&reset->lock);
214
215 reset->info = (struct aspeed_reset_info *)id->driver_data;
216 reset->rcdev.owner = THIS_MODULE;
217 reset->rcdev.nr_resets = reset->info->nr_resets;
218 reset->rcdev.ops = &aspeed_reset_ops;
219 reset->rcdev.of_node = dev->parent->of_node;
220 reset->rcdev.dev = dev;
221 reset->rcdev.of_reset_n_cells = 1;
222 reset->base = (void __iomem *)adev->dev.platform_data;
223
224 return devm_reset_controller_register(dev, &reset->rcdev);
225 }
226
227 static const struct aspeed_reset_info ast2700_reset0_info = {
228 .nr_resets = ARRAY_SIZE(ast2700_reset0_signals),
229 .signal = ast2700_reset0_signals,
230 };
231
232 static const struct aspeed_reset_info ast2700_reset1_info = {
233 .nr_resets = ARRAY_SIZE(ast2700_reset1_signals),
234 .signal = ast2700_reset1_signals,
235 };
236
237 static const struct auxiliary_device_id aspeed_reset_ids[] = {
238 { .name = "clk_ast2700.reset0", .driver_data = (kernel_ulong_t)&ast2700_reset0_info },
239 { .name = "clk_ast2700.reset1", .driver_data = (kernel_ulong_t)&ast2700_reset1_info },
240 { }
241 };
242 MODULE_DEVICE_TABLE(auxiliary, aspeed_reset_ids);
243
244 static struct auxiliary_driver aspeed_reset_driver = {
245 .probe = aspeed_reset_probe,
246 .id_table = aspeed_reset_ids,
247 };
248
249 module_auxiliary_driver(aspeed_reset_driver);
250
251 MODULE_AUTHOR("Ryan Chen <ryan_chen@aspeedtech.com>");
252 MODULE_DESCRIPTION("ASPEED SoC Reset Controller Driver");
253 MODULE_LICENSE("GPL");
254