clk: loongson1: Re-implement the clock driver

Linux kernel mirror (for testing) git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git

kernel os linux

Re-implement the clock driver for Loongson-1 to
add devicetree support and fit into the clock framework.

Signed-off-by: Keguang Zhang <keguang.zhang@gmail.com>
Link: https://lore.kernel.org/r/20230321111817.71756-4-keguang.zhang@gmail.com
Signed-off-by: Stephen Boyd <sboyd@kernel.org>

authored by

Keguang Zhang and committed by

Stephen Boyd 3 years ago fbdb1873 c4649611

+304

2 changed files

expand all

drivers

clk

Makefile

clk-loongson1.c

drivers/clk/Makefile

··· 43 43 obj-$(CONFIG_LMK04832) += clk-lmk04832.o 44 44 obj-$(CONFIG_COMMON_CLK_LAN966X) += clk-lan966x.o 45 45 obj-$(CONFIG_COMMON_CLK_LOCHNAGAR) += clk-lochnagar.o 46 + obj-$(CONFIG_MACH_LOONGSON32) += clk-loongson1.o 46 47 obj-$(CONFIG_COMMON_CLK_MAX77686) += clk-max77686.o 47 48 obj-$(CONFIG_COMMON_CLK_MAX9485) += clk-max9485.o 48 49 obj-$(CONFIG_ARCH_MILBEAUT_M10V) += clk-milbeaut.o

+303

drivers/clk/clk-loongson1.c

··· 1 + // SPDX-License-Identifier: GPL-2.0-or-later 2 + /* 3 + * Clock driver for Loongson-1 SoC 4 + * 5 + * Copyright (C) 2012-2023 Keguang Zhang <keguang.zhang@gmail.com> 6 + */ 7 + 8 + #include <linux/bits.h> 9 + #include <linux/clk-provider.h> 10 + #include <linux/container_of.h> 11 + #include <linux/io.h> 12 + #include <linux/of_address.h> 13 + #include <linux/slab.h> 14 + #include <linux/spinlock.h> 15 + #include <linux/printk.h> 16 + 17 + #include <dt-bindings/clock/loongson,ls1x-clk.h> 18 + 19 + /* Loongson 1 Clock Register Definitions */ 20 + #define CLK_PLL_FREQ 0x0 21 + #define CLK_PLL_DIV 0x4 22 + 23 + static DEFINE_SPINLOCK(ls1x_clk_div_lock); 24 + 25 + struct ls1x_clk_pll_data { 26 + u32 fixed; 27 + u8 shift; 28 + u8 int_shift; 29 + u8 int_width; 30 + u8 frac_shift; 31 + u8 frac_width; 32 + }; 33 + 34 + struct ls1x_clk_div_data { 35 + u8 shift; 36 + u8 width; 37 + unsigned long flags; 38 + const struct clk_div_table *table; 39 + u8 bypass_shift; 40 + u8 bypass_inv; 41 + spinlock_t *lock; /* protect access to DIV registers */ 42 + }; 43 + 44 + struct ls1x_clk { 45 + void __iomem *reg; 46 + unsigned int offset; 47 + struct clk_hw hw; 48 + const void *data; 49 + }; 50 + 51 + #define to_ls1x_clk(_hw) container_of(_hw, struct ls1x_clk, hw) 52 + 53 + static inline unsigned long ls1x_pll_rate_part(unsigned int val, 54 + unsigned int shift, 55 + unsigned int width) 56 + { 57 + return (val & GENMASK(shift + width, shift)) >> shift; 58 + } 59 + 60 + static unsigned long ls1x_pll_recalc_rate(struct clk_hw *hw, 61 + unsigned long parent_rate) 62 + { 63 + struct ls1x_clk *ls1x_clk = to_ls1x_clk(hw); 64 + const struct ls1x_clk_pll_data *d = ls1x_clk->data; 65 + u32 val, rate; 66 + 67 + val = readl(ls1x_clk->reg); 68 + rate = d->fixed; 69 + rate += ls1x_pll_rate_part(val, d->int_shift, d->int_width); 70 + if (d->frac_width) 71 + rate += ls1x_pll_rate_part(val, d->frac_shift, d->frac_width); 72 + rate *= parent_rate; 73 + rate >>= d->shift; 74 + 75 + return rate; 76 + } 77 + 78 + static const struct clk_ops ls1x_pll_clk_ops = { 79 + .recalc_rate = ls1x_pll_recalc_rate, 80 + }; 81 + 82 + static unsigned long ls1x_divider_recalc_rate(struct clk_hw *hw, 83 + unsigned long parent_rate) 84 + { 85 + struct ls1x_clk *ls1x_clk = to_ls1x_clk(hw); 86 + const struct ls1x_clk_div_data *d = ls1x_clk->data; 87 + unsigned int val; 88 + 89 + val = readl(ls1x_clk->reg) >> d->shift; 90 + val &= clk_div_mask(d->width); 91 + 92 + return divider_recalc_rate(hw, parent_rate, val, d->table, 93 + d->flags, d->width); 94 + } 95 + 96 + static long ls1x_divider_round_rate(struct clk_hw *hw, unsigned long rate, 97 + unsigned long *prate) 98 + { 99 + struct ls1x_clk *ls1x_clk = to_ls1x_clk(hw); 100 + const struct ls1x_clk_div_data *d = ls1x_clk->data; 101 + 102 + return divider_round_rate(hw, rate, prate, d->table, 103 + d->width, d->flags); 104 + } 105 + 106 + static int ls1x_divider_set_rate(struct clk_hw *hw, unsigned long rate, 107 + unsigned long parent_rate) 108 + { 109 + struct ls1x_clk *ls1x_clk = to_ls1x_clk(hw); 110 + const struct ls1x_clk_div_data *d = ls1x_clk->data; 111 + int val, div_val; 112 + unsigned long flags = 0; 113 + 114 + div_val = divider_get_val(rate, parent_rate, d->table, 115 + d->width, d->flags); 116 + if (div_val < 0) 117 + return div_val; 118 + 119 + spin_lock_irqsave(d->lock, flags); 120 + 121 + /* Bypass the clock */ 122 + val = readl(ls1x_clk->reg); 123 + if (d->bypass_inv) 124 + val &= ~BIT(d->bypass_shift); 125 + else 126 + val |= BIT(d->bypass_shift); 127 + writel(val, ls1x_clk->reg); 128 + 129 + val = readl(ls1x_clk->reg); 130 + val &= ~(clk_div_mask(d->width) << d->shift); 131 + val |= (u32)div_val << d->shift; 132 + writel(val, ls1x_clk->reg); 133 + 134 + /* Restore the clock */ 135 + val = readl(ls1x_clk->reg); 136 + if (d->bypass_inv) 137 + val |= BIT(d->bypass_shift); 138 + else 139 + val &= ~BIT(d->bypass_shift); 140 + writel(val, ls1x_clk->reg); 141 + 142 + spin_unlock_irqrestore(d->lock, flags); 143 + 144 + return 0; 145 + } 146 + 147 + static const struct clk_ops ls1x_clk_divider_ops = { 148 + .recalc_rate = ls1x_divider_recalc_rate, 149 + .round_rate = ls1x_divider_round_rate, 150 + .set_rate = ls1x_divider_set_rate, 151 + }; 152 + 153 + #define LS1X_CLK_PLL(_name, _offset, _fixed, _shift, \ 154 + f_shift, f_width, i_shift, i_width) \ 155 + struct ls1x_clk _name = { \ 156 + .offset = (_offset), \ 157 + .data = &(const struct ls1x_clk_pll_data) { \ 158 + .fixed = (_fixed), \ 159 + .shift = (_shift), \ 160 + .int_shift = (i_shift), \ 161 + .int_width = (i_width), \ 162 + .frac_shift = (f_shift), \ 163 + .frac_width = (f_width), \ 164 + }, \ 165 + .hw.init = &(const struct clk_init_data) { \ 166 + .name = #_name, \ 167 + .ops = &ls1x_pll_clk_ops, \ 168 + .parent_data = &(const struct clk_parent_data) { \ 169 + .fw_name = "xtal", \ 170 + .name = "xtal", \ 171 + .index = -1, \ 172 + }, \ 173 + .num_parents = 1, \ 174 + }, \ 175 + } 176 + 177 + #define LS1X_CLK_DIV(_name, _pname, _offset, _shift, _width, \ 178 + _table, _bypass_shift, _bypass_inv, _flags) \ 179 + struct ls1x_clk _name = { \ 180 + .offset = (_offset), \ 181 + .data = &(const struct ls1x_clk_div_data){ \ 182 + .shift = (_shift), \ 183 + .width = (_width), \ 184 + .table = (_table), \ 185 + .flags = (_flags), \ 186 + .bypass_shift = (_bypass_shift), \ 187 + .bypass_inv = (_bypass_inv), \ 188 + .lock = &ls1x_clk_div_lock, \ 189 + }, \ 190 + .hw.init = &(const struct clk_init_data) { \ 191 + .name = #_name, \ 192 + .ops = &ls1x_clk_divider_ops, \ 193 + .parent_hws = (const struct clk_hw *[]) { _pname }, \ 194 + .num_parents = 1, \ 195 + .flags = CLK_GET_RATE_NOCACHE, \ 196 + }, \ 197 + } 198 + 199 + static LS1X_CLK_PLL(ls1b_clk_pll, CLK_PLL_FREQ, 12, 1, 0, 5, 0, 0); 200 + static LS1X_CLK_DIV(ls1b_clk_cpu, &ls1b_clk_pll.hw, CLK_PLL_DIV, 201 + 20, 4, NULL, 8, 0, 202 + CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ROUND_CLOSEST); 203 + static LS1X_CLK_DIV(ls1b_clk_dc, &ls1b_clk_pll.hw, CLK_PLL_DIV, 204 + 26, 4, NULL, 12, 0, CLK_DIVIDER_ONE_BASED); 205 + static LS1X_CLK_DIV(ls1b_clk_ahb, &ls1b_clk_pll.hw, CLK_PLL_DIV, 206 + 14, 4, NULL, 10, 0, CLK_DIVIDER_ONE_BASED); 207 + static CLK_FIXED_FACTOR(ls1b_clk_apb, "ls1b_clk_apb", "ls1b_clk_ahb", 2, 1, 208 + CLK_SET_RATE_PARENT); 209 + 210 + static struct clk_hw_onecell_data ls1b_clk_hw_data = { 211 + .hws = { 212 + [LS1X_CLKID_PLL] = &ls1b_clk_pll.hw, 213 + [LS1X_CLKID_CPU] = &ls1b_clk_cpu.hw, 214 + [LS1X_CLKID_DC] = &ls1b_clk_dc.hw, 215 + [LS1X_CLKID_AHB] = &ls1b_clk_ahb.hw, 216 + [LS1X_CLKID_APB] = &ls1b_clk_apb.hw, 217 + }, 218 + .num = CLK_NR_CLKS, 219 + }; 220 + 221 + static const struct clk_div_table ls1c_ahb_div_table[] = { 222 + [0] = { .val = 0, .div = 2 }, 223 + [1] = { .val = 1, .div = 4 }, 224 + [2] = { .val = 2, .div = 3 }, 225 + [3] = { .val = 3, .div = 3 }, 226 + [4] = { /* sentinel */ } 227 + }; 228 + 229 + static LS1X_CLK_PLL(ls1c_clk_pll, CLK_PLL_FREQ, 0, 2, 8, 8, 16, 8); 230 + static LS1X_CLK_DIV(ls1c_clk_cpu, &ls1c_clk_pll.hw, CLK_PLL_DIV, 231 + 8, 7, NULL, 0, 1, 232 + CLK_DIVIDER_ONE_BASED | CLK_DIVIDER_ROUND_CLOSEST); 233 + static LS1X_CLK_DIV(ls1c_clk_dc, &ls1c_clk_pll.hw, CLK_PLL_DIV, 234 + 24, 7, NULL, 4, 1, CLK_DIVIDER_ONE_BASED); 235 + static LS1X_CLK_DIV(ls1c_clk_ahb, &ls1c_clk_cpu.hw, CLK_PLL_FREQ, 236 + 0, 2, ls1c_ahb_div_table, 0, 0, CLK_DIVIDER_ALLOW_ZERO); 237 + static CLK_FIXED_FACTOR(ls1c_clk_apb, "ls1c_clk_apb", "ls1c_clk_ahb", 1, 1, 238 + CLK_SET_RATE_PARENT); 239 + 240 + static struct clk_hw_onecell_data ls1c_clk_hw_data = { 241 + .hws = { 242 + [LS1X_CLKID_PLL] = &ls1c_clk_pll.hw, 243 + [LS1X_CLKID_CPU] = &ls1c_clk_cpu.hw, 244 + [LS1X_CLKID_DC] = &ls1c_clk_dc.hw, 245 + [LS1X_CLKID_AHB] = &ls1c_clk_ahb.hw, 246 + [LS1X_CLKID_APB] = &ls1c_clk_apb.hw, 247 + }, 248 + .num = CLK_NR_CLKS, 249 + }; 250 + 251 + static void __init ls1x_clk_init(struct device_node *np, 252 + struct clk_hw_onecell_data *hw_data) 253 + { 254 + struct ls1x_clk *ls1x_clk; 255 + void __iomem *reg; 256 + int i, ret; 257 + 258 + reg = of_iomap(np, 0); 259 + if (!reg) { 260 + pr_err("Unable to map base for %pOF\n", np); 261 + return; 262 + } 263 + 264 + for (i = 0; i < hw_data->num; i++) { 265 + /* array might be sparse */ 266 + if (!hw_data->hws[i]) 267 + continue; 268 + 269 + if (i != LS1X_CLKID_APB) { 270 + ls1x_clk = to_ls1x_clk(hw_data->hws[i]); 271 + ls1x_clk->reg = reg + ls1x_clk->offset; 272 + } 273 + 274 + ret = of_clk_hw_register(np, hw_data->hws[i]); 275 + if (ret) 276 + goto err; 277 + } 278 + 279 + ret = of_clk_add_hw_provider(np, of_clk_hw_onecell_get, hw_data); 280 + if (!ret) 281 + return; 282 + 283 + err: 284 + pr_err("Failed to register %pOF\n", np); 285 + 286 + while (--i >= 0) 287 + clk_hw_unregister(hw_data->hws[i]); 288 + 289 + iounmap(reg); 290 + } 291 + 292 + static void __init ls1b_clk_init(struct device_node *np) 293 + { 294 + return ls1x_clk_init(np, &ls1b_clk_hw_data); 295 + } 296 + 297 + static void __init ls1c_clk_init(struct device_node *np) 298 + { 299 + return ls1x_clk_init(np, &ls1c_clk_hw_data); 300 + } 301 + 302 + CLK_OF_DECLARE(ls1b_clk, "loongson,ls1b-clk", ls1b_clk_init); 303 + CLK_OF_DECLARE(ls1c_clk, "loongson,ls1c-clk", ls1c_clk_init);