blob: aa7ea86a443e89a4cc4bec328d820552c6a4a1e5 [file] [log] [blame]
Tom Rini10e47792018-05-06 17:58:06 -04001// SPDX-License-Identifier: GPL-2.0+
Peng Fan684ccd92017-02-22 16:21:42 +08002/*
3 * Copyright (C) 2016 Freescale Semiconductor, Inc.
Peng Fan684ccd92017-02-22 16:21:42 +08004 */
5
6#include <common.h>
7#include <div64.h>
Simon Glass0f2af882020-05-10 11:40:05 -06008#include <log.h>
Peng Fan684ccd92017-02-22 16:21:42 +08009#include <asm/io.h>
10#include <errno.h>
11#include <asm/arch/imx-regs.h>
12#include <asm/arch/pcc.h>
13#include <asm/arch/sys_proto.h>
14
Peng Fan684ccd92017-02-22 16:21:42 +080015#define PCC_CLKSRC_TYPES 2
16#define PCC_CLKSRC_NUM 7
17
18static enum scg_clk pcc_clksrc[PCC_CLKSRC_TYPES][PCC_CLKSRC_NUM] = {
19 { SCG_NIC1_BUS_CLK,
20 SCG_NIC1_CLK,
21 SCG_DDR_CLK,
22 SCG_APLL_PFD2_CLK,
23 SCG_APLL_PFD1_CLK,
24 SCG_APLL_PFD0_CLK,
25 USB_PLL_OUT,
26 },
27 { SCG_SOSC_DIV2_CLK, /* SOSC BUS clock */
28 MIPI_PLL_OUT,
29 SCG_FIRC_DIV2_CLK, /* FIRC BUS clock */
30 SCG_ROSC_CLK,
31 SCG_NIC1_BUS_CLK,
32 SCG_NIC1_CLK,
33 SCG_APLL_PFD3_CLK,
34 },
35};
36
37static struct pcc_entry pcc_arrays[] = {
38 {PCC2_RBASE, DMA1_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
39 {PCC2_RBASE, RGPIO1_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
40 {PCC2_RBASE, FLEXBUS0_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
41 {PCC2_RBASE, SEMA42_1_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
42 {PCC2_RBASE, DMA1_CH_MUX0_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
43 {PCC2_RBASE, SNVS_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
44 {PCC2_RBASE, CAAM_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
45 {PCC2_RBASE, LPTPM4_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
46 {PCC2_RBASE, LPTPM5_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
47 {PCC2_RBASE, LPIT1_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
48 {PCC2_RBASE, LPSPI2_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
49 {PCC2_RBASE, LPSPI3_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
50 {PCC2_RBASE, LPI2C4_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
51 {PCC2_RBASE, LPI2C5_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
52 {PCC2_RBASE, LPUART4_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
53 {PCC2_RBASE, LPUART5_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
54 {PCC2_RBASE, FLEXIO1_PCC2_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
55 {PCC2_RBASE, USBOTG0_PCC2_SLOT, CLKSRC_PER_PLAT, PCC_HAS_DIV},
56 {PCC2_RBASE, USBOTG1_PCC2_SLOT, CLKSRC_PER_PLAT, PCC_HAS_DIV},
57 {PCC2_RBASE, USBPHY_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
58 {PCC2_RBASE, USB_PL301_PCC2_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
59 {PCC2_RBASE, USDHC0_PCC2_SLOT, CLKSRC_PER_PLAT, PCC_HAS_DIV},
60 {PCC2_RBASE, USDHC1_PCC2_SLOT, CLKSRC_PER_PLAT, PCC_HAS_DIV},
61 {PCC2_RBASE, WDG1_PCC2_SLOT, CLKSRC_PER_BUS, PCC_HAS_DIV},
62 {PCC2_RBASE, WDG2_PCC2_SLOT, CLKSRC_PER_BUS, PCC_HAS_DIV},
63
64 {PCC3_RBASE, LPTPM6_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
65 {PCC3_RBASE, LPTPM7_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
66 {PCC3_RBASE, LPI2C6_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
67 {PCC3_RBASE, LPI2C7_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
68 {PCC3_RBASE, LPUART6_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
69 {PCC3_RBASE, LPUART7_PCC3_SLOT, CLKSRC_PER_BUS, PCC_NO_DIV},
70 {PCC3_RBASE, VIU0_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
71 {PCC3_RBASE, DSI0_PCC3_SLOT, CLKSRC_PER_BUS, PCC_HAS_DIV},
72 {PCC3_RBASE, LCDIF0_PCC3_SLOT, CLKSRC_PER_PLAT, PCC_HAS_DIV},
73 {PCC3_RBASE, MMDC0_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
74 {PCC3_RBASE, PORTC_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
75 {PCC3_RBASE, PORTD_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
76 {PCC3_RBASE, PORTE_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
77 {PCC3_RBASE, PORTF_PCC3_SLOT, CLKSRC_NO_PCS, PCC_NO_DIV},
78 {PCC3_RBASE, GPU3D_PCC3_SLOT, CLKSRC_PER_PLAT, PCC_NO_DIV},
79 {PCC3_RBASE, GPU2D_PCC3_SLOT, CLKSRC_PER_PLAT, PCC_NO_DIV},
80};
81
82int pcc_clock_enable(enum pcc_clk clk, bool enable)
83{
84 u32 reg, val;
85
86 if (clk >= ARRAY_SIZE(pcc_arrays))
87 return -EINVAL;
88
89 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
90
91 val = readl(reg);
92
93 clk_debug("pcc_clock_enable: clk %d, reg 0x%x, val 0x%x, enable %d\n",
94 clk, reg, val, enable);
95
96 if (!(val & PCC_PR_MASK) || (val & PCC_INUSE_MASK))
97 return -EPERM;
98
99 if (enable)
100 val |= PCC_CGC_MASK;
101 else
102 val &= ~PCC_CGC_MASK;
103
104 writel(val, reg);
105
106 clk_debug("pcc_clock_enable: val 0x%x\n", val);
107
108 return 0;
109}
110
111/* The clock source select needs clock is disabled */
112int pcc_clock_sel(enum pcc_clk clk, enum scg_clk src)
113{
114 u32 reg, val, i, clksrc_type;
115
116 if (clk >= ARRAY_SIZE(pcc_arrays))
117 return -EINVAL;
118
119 clksrc_type = pcc_arrays[clk].clksrc;
120 if (clksrc_type >= CLKSRC_NO_PCS) {
121 printf("No PCS field for the PCC %d, clksrc type %d\n",
122 clk, clksrc_type);
123 return -EPERM;
124 }
125
126 for (i = 0; i < PCC_CLKSRC_NUM; i++) {
127 if (pcc_clksrc[clksrc_type][i] == src) {
128 /* Find the clock src, then set it to PCS */
129 break;
130 }
131 }
132
133 if (i == PCC_CLKSRC_NUM) {
134 printf("Not find the parent scg_clk in PCS of PCC %d, invalid scg_clk %d\n", clk, src);
135 return -EINVAL;
136 }
137
138 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
139
140 val = readl(reg);
141
142 clk_debug("pcc_clock_sel: clk %d, reg 0x%x, val 0x%x, clksrc_type %d\n",
143 clk, reg, val, clksrc_type);
144
145 if (!(val & PCC_PR_MASK) || (val & PCC_INUSE_MASK) ||
146 (val & PCC_CGC_MASK)) {
147 printf("Not permit to select clock source val = 0x%x\n", val);
148 return -EPERM;
149 }
150
151 val &= ~PCC_PCS_MASK;
152 val |= ((i + 1) << PCC_PCS_OFFSET);
153
154 writel(val, reg);
155
156 clk_debug("pcc_clock_sel: val 0x%x\n", val);
157
158 return 0;
159}
160
161int pcc_clock_div_config(enum pcc_clk clk, bool frac, u8 div)
162{
163 u32 reg, val;
164
165 if (clk >= ARRAY_SIZE(pcc_arrays) || div > 8 ||
166 (div == 1 && frac != 0))
167 return -EINVAL;
168
169 if (pcc_arrays[clk].div >= PCC_NO_DIV) {
170 printf("No DIV/FRAC field for the PCC %d\n", clk);
171 return -EPERM;
172 }
173
174 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
175
176 val = readl(reg);
177
178 if (!(val & PCC_PR_MASK) || (val & PCC_INUSE_MASK) ||
179 (val & PCC_CGC_MASK)) {
180 printf("Not permit to set div/frac val = 0x%x\n", val);
181 return -EPERM;
182 }
183
184 if (frac)
185 val |= PCC_FRAC_MASK;
186 else
187 val &= ~PCC_FRAC_MASK;
188
189 val &= ~PCC_PCD_MASK;
190 val |= (div - 1) & PCC_PCD_MASK;
191
192 writel(val, reg);
193
194 return 0;
195}
196
197bool pcc_clock_is_enable(enum pcc_clk clk)
198{
199 u32 reg, val;
200
201 if (clk >= ARRAY_SIZE(pcc_arrays))
202 return -EINVAL;
203
204 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
205 val = readl(reg);
206
207 if ((val & PCC_INUSE_MASK) || (val & PCC_CGC_MASK))
208 return true;
209
210 return false;
211}
212
213int pcc_clock_get_clksrc(enum pcc_clk clk, enum scg_clk *src)
214{
215 u32 reg, val, clksrc_type;
216
217 if (clk >= ARRAY_SIZE(pcc_arrays))
218 return -EINVAL;
219
220 clksrc_type = pcc_arrays[clk].clksrc;
221 if (clksrc_type >= CLKSRC_NO_PCS) {
222 printf("No PCS field for the PCC %d, clksrc type %d\n",
223 clk, clksrc_type);
224 return -EPERM;
225 }
226
227 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
228
229 val = readl(reg);
230
231 clk_debug("pcc_clock_get_clksrc: clk %d, reg 0x%x, val 0x%x, type %d\n",
232 clk, reg, val, clksrc_type);
233
234 if (!(val & PCC_PR_MASK)) {
235 printf("This pcc slot is not present = 0x%x\n", val);
236 return -EPERM;
237 }
238
239 val &= PCC_PCS_MASK;
240 val = (val >> PCC_PCS_OFFSET);
241
242 if (!val) {
243 printf("Clock source is off\n");
244 return -EIO;
245 }
246
247 *src = pcc_clksrc[clksrc_type][val - 1];
248
249 clk_debug("pcc_clock_get_clksrc: parent scg clk %d\n", *src);
250
251 return 0;
252}
253
254u32 pcc_clock_get_rate(enum pcc_clk clk)
255{
256 u32 reg, val, rate, frac, div;
257 enum scg_clk parent;
258 int ret;
259
260 ret = pcc_clock_get_clksrc(clk, &parent);
261 if (ret)
262 return 0;
263
264 rate = scg_clk_get_rate(parent);
265
266 clk_debug("pcc_clock_get_rate: parent rate %u\n", rate);
267
268 if (pcc_arrays[clk].div == PCC_HAS_DIV) {
269 reg = pcc_arrays[clk].pcc_base + pcc_arrays[clk].pcc_slot * 4;
270 val = readl(reg);
271
272 frac = (val & PCC_FRAC_MASK) >> PCC_FRAC_OFFSET;
273 div = (val & PCC_PCD_MASK) >> PCC_PCD_OFFSET;
274
275 /*
276 * Theoretically don't have overflow in the calc,
277 * the rate won't exceed 2G
278 */
279 rate = rate * (frac + 1) / (div + 1);
280 }
281
282 clk_debug("pcc_clock_get_rate: rate %u\n", rate);
283 return rate;
284}