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1/* SPDX-License-Identifier: GPL-2.0 */
2/*
3 * Renesas RZ/V2H(P) Clock Pulse Generator
4 *
5 * Copyright (C) 2024 Renesas Electronics Corp.
6 */
7
8#ifndef __RENESAS_RZV2H_CPG_H__
9#define __RENESAS_RZV2H_CPG_H__
10
11#include <linux/bitfield.h>
12#include <linux/types.h>
13
14/**
15 * struct pll - Structure for PLL configuration
16 *
17 * @offset: STBY register offset
18 * @has_clkn: Flag to indicate if CLK1/2 are accessible or not
19 * @instance: PLL instance number
20 */
21struct pll {
22 unsigned int offset:9;
23 unsigned int has_clkn:1;
24 unsigned int instance:2;
25 const struct rzv2h_pll_limits *limits;
26};
27
28#define PLL_PACK_LIMITS(_offset, _has_clkn, _instance, _limits) \
29 ((struct pll){ \
30 .offset = _offset, \
31 .has_clkn = _has_clkn, \
32 .instance = _instance, \
33 .limits = _limits \
34 })
35
36#define PLL_PACK(_offset, _has_clkn, _instance) \
37 PLL_PACK_LIMITS(_offset, _has_clkn, _instance, NULL)
38
39#define PLLCA55 PLL_PACK(0x60, 1, 0)
40#define PLLGPU PLL_PACK(0x120, 1, 0)
41
42/**
43 * struct ddiv - Structure for dynamic switching divider
44 *
45 * @offset: register offset
46 * @shift: position of the divider bit
47 * @width: width of the divider
48 * @monbit: monitor bit in CPG_CLKSTATUS0 register
49 * @no_rmw: flag to indicate if the register is read-modify-write
50 * (1: no RMW, 0: RMW)
51 */
52struct ddiv {
53 unsigned int offset:11;
54 unsigned int shift:4;
55 unsigned int width:4;
56 unsigned int monbit:5;
57 unsigned int no_rmw:1;
58};
59
60/*
61 * On RZ/V2H(P), the dynamic divider clock supports up to 19 monitor bits,
62 * while on RZ/G3E, it supports up to 16 monitor bits. Use the maximum value
63 * `0x1f` to indicate that monitor bits are not supported for static divider
64 * clocks.
65 */
66#define CSDIV_NO_MON (0x1f)
67
68#define DDIV_PACK(_offset, _shift, _width, _monbit) \
69 ((struct ddiv){ \
70 .offset = _offset, \
71 .shift = _shift, \
72 .width = _width, \
73 .monbit = _monbit \
74 })
75
76#define DDIV_PACK_NO_RMW(_offset, _shift, _width, _monbit) \
77 ((struct ddiv){ \
78 .offset = (_offset), \
79 .shift = (_shift), \
80 .width = (_width), \
81 .monbit = (_monbit), \
82 .no_rmw = 1 \
83 })
84
85/**
86 * struct smuxed - Structure for static muxed clocks
87 *
88 * @offset: register offset
89 * @shift: position of the divider field
90 * @width: width of the divider field
91 */
92struct smuxed {
93 unsigned int offset:11;
94 unsigned int shift:4;
95 unsigned int width:4;
96};
97
98#define SMUX_PACK(_offset, _shift, _width) \
99 ((struct smuxed){ \
100 .offset = (_offset), \
101 .shift = (_shift), \
102 .width = (_width), \
103 })
104
105/**
106 * struct fixed_mod_conf - Structure for fixed module configuration
107 *
108 * @mon_index: monitor index
109 * @mon_bit: monitor bit
110 */
111struct fixed_mod_conf {
112 u8 mon_index;
113 u8 mon_bit;
114};
115
116#define FIXED_MOD_CONF_PACK(_index, _bit) \
117 ((struct fixed_mod_conf){ \
118 .mon_index = (_index), \
119 .mon_bit = (_bit), \
120 })
121
122#define CPG_SSEL0 (0x300)
123#define CPG_SSEL1 (0x304)
124#define CPG_CDDIV0 (0x400)
125#define CPG_CDDIV1 (0x404)
126#define CPG_CDDIV2 (0x408)
127#define CPG_CDDIV3 (0x40C)
128#define CPG_CDDIV4 (0x410)
129#define CPG_CSDIV0 (0x500)
130#define CPG_CSDIV1 (0x504)
131
132#define CDDIV0_DIVCTL1 DDIV_PACK(CPG_CDDIV0, 4, 3, 1)
133#define CDDIV0_DIVCTL2 DDIV_PACK(CPG_CDDIV0, 8, 3, 2)
134#define CDDIV1_DIVCTL0 DDIV_PACK(CPG_CDDIV1, 0, 2, 4)
135#define CDDIV1_DIVCTL1 DDIV_PACK(CPG_CDDIV1, 4, 2, 5)
136#define CDDIV1_DIVCTL2 DDIV_PACK(CPG_CDDIV1, 8, 2, 6)
137#define CDDIV1_DIVCTL3 DDIV_PACK(CPG_CDDIV1, 12, 2, 7)
138#define CDDIV2_DIVCTL3 DDIV_PACK(CPG_CDDIV2, 12, 3, 11)
139#define CDDIV3_DIVCTL1 DDIV_PACK(CPG_CDDIV3, 4, 3, 13)
140#define CDDIV3_DIVCTL2 DDIV_PACK(CPG_CDDIV3, 8, 3, 14)
141#define CDDIV3_DIVCTL3 DDIV_PACK(CPG_CDDIV3, 12, 1, 15)
142#define CDDIV4_DIVCTL0 DDIV_PACK(CPG_CDDIV4, 0, 1, 16)
143#define CDDIV4_DIVCTL1 DDIV_PACK(CPG_CDDIV4, 4, 1, 17)
144#define CDDIV4_DIVCTL2 DDIV_PACK(CPG_CDDIV4, 8, 1, 18)
145
146#define CSDIV0_DIVCTL0 DDIV_PACK(CPG_CSDIV0, 0, 2, CSDIV_NO_MON)
147#define CSDIV0_DIVCTL1 DDIV_PACK(CPG_CSDIV0, 4, 2, CSDIV_NO_MON)
148#define CSDIV0_DIVCTL2 DDIV_PACK(CPG_CSDIV0, 8, 2, CSDIV_NO_MON)
149#define CSDIV0_DIVCTL3 DDIV_PACK_NO_RMW(CPG_CSDIV0, 12, 2, CSDIV_NO_MON)
150#define CSDIV1_DIVCTL2 DDIV_PACK(CPG_CSDIV1, 8, 4, CSDIV_NO_MON)
151
152#define SSEL0_SELCTL2 SMUX_PACK(CPG_SSEL0, 8, 1)
153#define SSEL0_SELCTL3 SMUX_PACK(CPG_SSEL0, 12, 1)
154#define SSEL1_SELCTL0 SMUX_PACK(CPG_SSEL1, 0, 1)
155#define SSEL1_SELCTL1 SMUX_PACK(CPG_SSEL1, 4, 1)
156#define SSEL1_SELCTL2 SMUX_PACK(CPG_SSEL1, 8, 1)
157#define SSEL1_SELCTL3 SMUX_PACK(CPG_SSEL1, 12, 1)
158
159#define BUS_MSTOP_IDX_MASK GENMASK(31, 16)
160#define BUS_MSTOP_BITS_MASK GENMASK(15, 0)
161#define BUS_MSTOP(idx, mask) (FIELD_PREP_CONST(BUS_MSTOP_IDX_MASK, (idx)) | \
162 FIELD_PREP_CONST(BUS_MSTOP_BITS_MASK, (mask)))
163#define BUS_MSTOP_NONE GENMASK(31, 0)
164
165#define FIXED_MOD_CONF_XSPI FIXED_MOD_CONF_PACK(5, 1)
166
167/**
168 * Definitions of CPG Core Clocks
169 *
170 * These include:
171 * - Clock outputs exported to DT
172 * - External input clocks
173 * - Internal CPG clocks
174 */
175struct cpg_core_clk {
176 const char *name;
177 unsigned int id;
178 unsigned int parent;
179 unsigned int div;
180 unsigned int mult;
181 unsigned int type;
182 union {
183 unsigned int conf;
184 struct ddiv ddiv;
185 struct pll pll;
186 struct smuxed smux;
187 struct fixed_mod_conf fixed_mod;
188 } cfg;
189 const struct clk_div_table *dtable;
190 const char * const *parent_names;
191 unsigned int num_parents;
192 u8 mux_flags;
193 u32 flag;
194};
195
196enum clk_types {
197 /* Generic */
198 CLK_TYPE_IN, /* External Clock Input */
199 CLK_TYPE_FF, /* Fixed Factor Clock */
200 CLK_TYPE_FF_MOD_STATUS, /* Fixed Factor Clock which can report the status of module clock */
201 CLK_TYPE_PLL,
202 CLK_TYPE_DDIV, /* Dynamic Switching Divider */
203 CLK_TYPE_SMUX, /* Static Mux */
204 CLK_TYPE_PLLDSI, /* PLLDSI */
205 CLK_TYPE_PLLDSI_DIV, /* PLLDSI divider */
206};
207
208#define DEF_TYPE(_name, _id, _type...) \
209 { .name = _name, .id = _id, .type = _type }
210#define DEF_BASE(_name, _id, _type, _parent...) \
211 DEF_TYPE(_name, _id, _type, .parent = _parent)
212#define DEF_PLL(_name, _id, _parent, _pll_packed) \
213 DEF_TYPE(_name, _id, CLK_TYPE_PLL, .parent = _parent, .cfg.pll = _pll_packed)
214#define DEF_INPUT(_name, _id) \
215 DEF_TYPE(_name, _id, CLK_TYPE_IN)
216#define DEF_FIXED(_name, _id, _parent, _mult, _div) \
217 DEF_BASE(_name, _id, CLK_TYPE_FF, _parent, .div = _div, .mult = _mult)
218#define DEF_FIXED_MOD_STATUS(_name, _id, _parent, _mult, _div, _gate) \
219 DEF_BASE(_name, _id, CLK_TYPE_FF_MOD_STATUS, _parent, .div = _div, \
220 .mult = _mult, .cfg.fixed_mod = _gate)
221#define DEF_DDIV(_name, _id, _parent, _ddiv_packed, _dtable) \
222 DEF_TYPE(_name, _id, CLK_TYPE_DDIV, \
223 .cfg.ddiv = _ddiv_packed, \
224 .parent = _parent, \
225 .dtable = _dtable, \
226 .flag = CLK_DIVIDER_HIWORD_MASK)
227#define DEF_CSDIV(_name, _id, _parent, _ddiv_packed, _dtable) \
228 DEF_DDIV(_name, _id, _parent, _ddiv_packed, _dtable)
229#define DEF_SMUX(_name, _id, _smux_packed, _parent_names) \
230 DEF_TYPE(_name, _id, CLK_TYPE_SMUX, \
231 .cfg.smux = _smux_packed, \
232 .parent_names = _parent_names, \
233 .num_parents = ARRAY_SIZE(_parent_names), \
234 .flag = CLK_SET_RATE_PARENT, \
235 .mux_flags = CLK_MUX_HIWORD_MASK)
236#define DEF_PLLDSI(_name, _id, _parent, _pll_packed) \
237 DEF_TYPE(_name, _id, CLK_TYPE_PLLDSI, .parent = _parent, .cfg.pll = _pll_packed)
238#define DEF_PLLDSI_DIV(_name, _id, _parent, _ddiv_packed, _dtable) \
239 DEF_TYPE(_name, _id, CLK_TYPE_PLLDSI_DIV, \
240 .cfg.ddiv = _ddiv_packed, \
241 .dtable = _dtable, \
242 .parent = _parent, \
243 .flag = CLK_SET_RATE_PARENT)
244
245/**
246 * struct rzv2h_mod_clk - Module Clocks definitions
247 *
248 * @name: handle between common and hardware-specific interfaces
249 * @mstop_data: packed data mstop register offset and mask
250 * @parent: id of parent clock
251 * @critical: flag to indicate the clock is critical
252 * @no_pm: flag to indicate PM is not supported
253 * @on_index: control register index
254 * @on_bit: ON bit
255 * @mon_index: monitor register index
256 * @mon_bit: monitor bit
257 * @ext_clk_mux_index: mux index for external clock source, or -1 if internal
258 */
259struct rzv2h_mod_clk {
260 const char *name;
261 u32 mstop_data;
262 u16 parent;
263 bool critical;
264 bool no_pm;
265 u8 on_index;
266 u8 on_bit;
267 s8 mon_index;
268 u8 mon_bit;
269 s8 ext_clk_mux_index;
270};
271
272#define DEF_MOD_BASE(_name, _mstop, _parent, _critical, _no_pm, _onindex, \
273 _onbit, _monindex, _monbit, _ext_clk_mux_index) \
274 { \
275 .name = (_name), \
276 .mstop_data = (_mstop), \
277 .parent = (_parent), \
278 .critical = (_critical), \
279 .no_pm = (_no_pm), \
280 .on_index = (_onindex), \
281 .on_bit = (_onbit), \
282 .mon_index = (_monindex), \
283 .mon_bit = (_monbit), \
284 .ext_clk_mux_index = (_ext_clk_mux_index), \
285 }
286
287#define DEF_MOD(_name, _parent, _onindex, _onbit, _monindex, _monbit, _mstop) \
288 DEF_MOD_BASE(_name, _mstop, _parent, false, false, _onindex, _onbit, _monindex, _monbit, -1)
289
290#define DEF_MOD_CRITICAL(_name, _parent, _onindex, _onbit, _monindex, _monbit, _mstop) \
291 DEF_MOD_BASE(_name, _mstop, _parent, true, false, _onindex, _onbit, _monindex, _monbit, -1)
292
293#define DEF_MOD_NO_PM(_name, _parent, _onindex, _onbit, _monindex, _monbit, _mstop) \
294 DEF_MOD_BASE(_name, _mstop, _parent, false, true, _onindex, _onbit, _monindex, _monbit, -1)
295
296#define DEF_MOD_MUX_EXTERNAL(_name, _parent, _onindex, _onbit, _monindex, _monbit, _mstop, \
297 _ext_clk_mux_index) \
298 DEF_MOD_BASE(_name, _mstop, _parent, false, false, _onindex, _onbit, _monindex, _monbit, \
299 _ext_clk_mux_index)
300
301/**
302 * struct rzv2h_reset - Reset definitions
303 *
304 * @reset_index: reset register index
305 * @reset_bit: reset bit
306 * @mon_index: monitor register index
307 * @mon_bit: monitor bit
308 */
309struct rzv2h_reset {
310 u8 reset_index;
311 u8 reset_bit;
312 u8 mon_index;
313 u8 mon_bit;
314};
315
316#define DEF_RST_BASE(_resindex, _resbit, _monindex, _monbit) \
317 { \
318 .reset_index = (_resindex), \
319 .reset_bit = (_resbit), \
320 .mon_index = (_monindex), \
321 .mon_bit = (_monbit), \
322 }
323
324#define DEF_RST(_resindex, _resbit, _monindex, _monbit) \
325 DEF_RST_BASE(_resindex, _resbit, _monindex, _monbit)
326
327/**
328 * struct rzv2h_cpg_info - SoC-specific CPG Description
329 *
330 * @core_clks: Array of Core Clock definitions
331 * @num_core_clks: Number of entries in core_clks[]
332 * @last_dt_core_clk: ID of the last Core Clock exported to DT
333 * @num_total_core_clks: Total number of Core Clocks (exported + internal)
334 *
335 * @mod_clks: Array of Module Clock definitions
336 * @num_mod_clks: Number of entries in mod_clks[]
337 * @num_hw_mod_clks: Number of Module Clocks supported by the hardware
338 *
339 * @resets: Array of Module Reset definitions
340 * @num_resets: Number of entries in resets[]
341 *
342 * @num_mstop_bits: Maximum number of MSTOP bits supported, equivalent to the
343 * number of CPG_BUS_m_MSTOP registers multiplied by 16.
344 */
345struct rzv2h_cpg_info {
346 /* Core Clocks */
347 const struct cpg_core_clk *core_clks;
348 unsigned int num_core_clks;
349 unsigned int last_dt_core_clk;
350 unsigned int num_total_core_clks;
351
352 /* Module Clocks */
353 const struct rzv2h_mod_clk *mod_clks;
354 unsigned int num_mod_clks;
355 unsigned int num_hw_mod_clks;
356
357 /* Resets */
358 const struct rzv2h_reset *resets;
359 unsigned int num_resets;
360
361 unsigned int num_mstop_bits;
362};
363
364extern const struct rzv2h_cpg_info r9a09g047_cpg_info;
365extern const struct rzv2h_cpg_info r9a09g056_cpg_info;
366extern const struct rzv2h_cpg_info r9a09g057_cpg_info;
367
368#endif /* __RENESAS_RZV2H_CPG_H__ */