/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2019 Emmanuel Vadot * * Copyright (c) 2020 Oskar Holmlund * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * based on sys/arm/allwinner/clkng/aw_clk_np.c * * $FreeBSD$ */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include "clkdev_if.h" /* * clknode for clocks matching the formula : * * clk = clkin * n / p * */ struct ti_dpll_clknode_sc { uint32_t ti_clkmode_offset; /* control */ uint8_t ti_clkmode_flags; uint32_t ti_idlest_offset; uint32_t ti_clksel_offset; /* mult-div1 */ struct ti_clk_factor n; /* ti_clksel_mult */ struct ti_clk_factor p; /* ti_clksel_div */ uint32_t ti_autoidle_offset; }; #define WRITE4(_clk, off, val) \ CLKDEV_WRITE_4(clknode_get_device(_clk), off, val) #define READ4(_clk, off, val) \ CLKDEV_READ_4(clknode_get_device(_clk), off, val) #define DEVICE_LOCK(_clk) \ CLKDEV_DEVICE_LOCK(clknode_get_device(_clk)) #define DEVICE_UNLOCK(_clk) \ CLKDEV_DEVICE_UNLOCK(clknode_get_device(_clk)) static int ti_dpll_clk_init(struct clknode *clk, device_t dev) { clknode_init_parent_idx(clk, 0); return (0); } /* helper to keep aw_clk_np_find_best "intact" */ static inline uint32_t ti_clk_factor_get_max(struct ti_clk_factor *factor) { uint32_t max; if (factor->flags & TI_CLK_FACTOR_FIXED) max = factor->value; else { max = (1 << factor->width); } return (max); } static inline uint32_t ti_clk_factor_get_min(struct ti_clk_factor *factor) { uint32_t min; if (factor->flags & TI_CLK_FACTOR_FIXED) min = factor->value; else if (factor->flags & TI_CLK_FACTOR_ZERO_BASED) min = 0; else if (factor->flags & TI_CLK_FACTOR_MIN_VALUE) min = factor->min_value; else min = 1; return (min); } static uint64_t ti_dpll_clk_find_best(struct ti_dpll_clknode_sc *sc, uint64_t fparent, uint64_t *fout, uint32_t *factor_n, uint32_t *factor_p) { uint64_t cur, best; uint32_t n, p, max_n, max_p, min_n, min_p; *factor_n = *factor_p = 0; max_n = ti_clk_factor_get_max(&sc->n); max_p = ti_clk_factor_get_max(&sc->p); min_n = ti_clk_factor_get_min(&sc->n); min_p = ti_clk_factor_get_min(&sc->p); for (p = min_p; p <= max_p; ) { for (n = min_n; n <= max_n; ) { cur = fparent * n / p; if (abs(*fout - cur) < abs(*fout - best)) { best = cur; *factor_n = n; *factor_p = p; } n++; } p++; } return (best); } static inline uint32_t ti_clk_get_factor(uint32_t val, struct ti_clk_factor *factor) { uint32_t factor_val; if (factor->flags & TI_CLK_FACTOR_FIXED) return (factor->value); factor_val = (val & factor->mask) >> factor->shift; if (!(factor->flags & TI_CLK_FACTOR_ZERO_BASED)) factor_val += 1; return (factor_val); } static inline uint32_t ti_clk_factor_get_value(struct ti_clk_factor *factor, uint32_t raw) { uint32_t val; if (factor->flags & TI_CLK_FACTOR_FIXED) return (factor->value); if (factor->flags & TI_CLK_FACTOR_ZERO_BASED) val = raw; else if (factor->flags & TI_CLK_FACTOR_MAX_VALUE && raw > factor->max_value) val = factor->max_value; else val = raw - 1; return (val); } static int ti_dpll_clk_set_freq(struct clknode *clk, uint64_t fparent, uint64_t *fout, int flags, int *stop) { struct ti_dpll_clknode_sc *sc; uint64_t cur, best; uint32_t val, n, p, best_n, best_p, timeout; sc = clknode_get_softc(clk); best = cur = 0; best = ti_dpll_clk_find_best(sc, fparent, fout, &best_n, &best_p); if ((flags & CLK_SET_DRYRUN) != 0) { *fout = best; *stop = 1; return (0); } if ((best < *fout) && (flags == CLK_SET_ROUND_DOWN)) { *stop = 1; return (ERANGE); } if ((best > *fout) && (flags == CLK_SET_ROUND_UP)) { *stop = 1; return (ERANGE); } DEVICE_LOCK(clk); /* 1 switch PLL to bypass mode */ WRITE4(clk, sc->ti_clkmode_offset, DPLL_EN_MN_BYPASS_MODE); /* 2 Ensure PLL is in bypass */ timeout = 10000; do { DELAY(10); READ4(clk, sc->ti_idlest_offset, &val); } while (!(val & ST_MN_BYPASS_MASK) && timeout--); if (timeout == 0) { DEVICE_UNLOCK(clk); return (ERANGE); // FIXME: Better return value? } /* 3 Set DPLL_MULT & DPLL_DIV bits */ READ4(clk, sc->ti_clksel_offset, &val); n = ti_clk_factor_get_value(&sc->n, best_n); p = ti_clk_factor_get_value(&sc->p, best_p); val &= ~sc->n.mask; val &= ~sc->p.mask; val |= n << sc->n.shift; val |= p << sc->p.shift; WRITE4(clk, sc->ti_clksel_offset, val); /* 4. configure M2, M4, M5 and M6 */ /* * FIXME: According to documentation M2/M4/M5/M6 can be set "later" * See note in TRM 8.1.6.7.1 */ /* 5 Switch over to lock mode */ WRITE4(clk, sc->ti_clkmode_offset, DPLL_EN_LOCK_MODE); /* 6 Ensure PLL is locked */ timeout = 10000; do { DELAY(10); READ4(clk, sc->ti_idlest_offset, &val); } while (!(val & ST_DPLL_CLK_MASK) && timeout--); DEVICE_UNLOCK(clk); if (timeout == 0) { return (ERANGE); // FIXME: Better return value? } *fout = best; *stop = 1; return (0); } static int ti_dpll_clk_recalc(struct clknode *clk, uint64_t *freq) { struct ti_dpll_clknode_sc *sc; uint32_t val, n, p; sc = clknode_get_softc(clk); DEVICE_LOCK(clk); READ4(clk, sc->ti_clksel_offset, &val); DEVICE_UNLOCK(clk); n = ti_clk_get_factor(val, &sc->n); p = ti_clk_get_factor(val, &sc->p); *freq = *freq * n / p; return (0); } static clknode_method_t ti_dpll_clknode_methods[] = { /* Device interface */ CLKNODEMETHOD(clknode_init, ti_dpll_clk_init), CLKNODEMETHOD(clknode_recalc_freq, ti_dpll_clk_recalc), CLKNODEMETHOD(clknode_set_freq, ti_dpll_clk_set_freq), CLKNODEMETHOD_END }; DEFINE_CLASS_1(ti_dpll_clknode, ti_dpll_clknode_class, ti_dpll_clknode_methods, sizeof(struct ti_dpll_clknode_sc), clknode_class); int ti_clknode_dpll_register(struct clkdom *clkdom, struct ti_clk_dpll_def *clkdef) { struct clknode *clk; struct ti_dpll_clknode_sc *sc; clk = clknode_create(clkdom, &ti_dpll_clknode_class, &clkdef->clkdef); if (clk == NULL) return (1); sc = clknode_get_softc(clk); sc->ti_clkmode_offset = clkdef->ti_clkmode_offset; sc->ti_clkmode_flags = clkdef->ti_clkmode_flags; sc->ti_idlest_offset = clkdef->ti_idlest_offset; sc->ti_clksel_offset = clkdef->ti_clksel_offset; sc->n.shift = clkdef->ti_clksel_mult.shift; sc->n.mask = clkdef->ti_clksel_mult.mask; sc->n.width = clkdef->ti_clksel_mult.width; sc->n.value = clkdef->ti_clksel_mult.value; sc->n.min_value = clkdef->ti_clksel_mult.min_value; sc->n.max_value = clkdef->ti_clksel_mult.max_value; sc->n.flags = clkdef->ti_clksel_mult.flags; sc->p.shift = clkdef->ti_clksel_div.shift; sc->p.mask = clkdef->ti_clksel_div.mask; sc->p.width = clkdef->ti_clksel_div.width; sc->p.value = clkdef->ti_clksel_div.value; sc->p.min_value = clkdef->ti_clksel_div.min_value; sc->p.max_value = clkdef->ti_clksel_div.max_value; sc->p.flags = clkdef->ti_clksel_div.flags; sc->ti_autoidle_offset = clkdef->ti_autoidle_offset; clknode_register(clkdom, clk); return (0); }