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specific DPLL control functions * * Copyright (C) 2009-2010 Texas Instruments, Inc. * Copyright (C) 2009-2010 Nokia Corporation * * Written by Paul Walmsley * Testing and integration fixes by Jouni Högander * * 36xx support added by Vishwanath BS, Richard Woodruff, and Nishanth * Menon * * Parts of this code are based on code written by * Richard Woodruff, Tony Lindgren, Tuukka Tikkanen, Karthik Dasu */ #include <linux/kernel.h> #include <linux/device.h> #include <linux/list.h> #include <linux/errno.h> #include <linux/delay.h> #include <linux/clk.h> #include <linux/io.h> #include <linux/bitops.h> #include <linux/clkdev.h> #include <linux/clk/ti.h> #include "clock.h" /* CM_AUTOIDLE_PLL*.AUTO_* bit values */ #define DPLL_AUTOIDLE_DISABLE 0x0 #define DPLL_AUTOIDLE_LOW_POWER_STOP 0x1 #define MAX_DPLL_WAIT_TRIES 1000000 #define OMAP3XXX_EN_DPLL_LOCKED 0x7 /* Forward declarations */ static u32 omap3_dpll_autoidle_read(struct clk_hw_omap *clk); static void omap3_dpll_deny_idle(struct clk_hw_omap *clk); static void omap3_dpll_allow_idle(struct clk_hw_omap *clk); /* Private functions */ /* _omap3_dpll_write_clken - write clken_bits arg to a DPLL's enable bits */ static void _omap3_dpll_write_clken(struct clk_hw_omap *clk, u8 clken_bits) { const struct dpll_data *dd; u32 v; dd = clk->dpll_data; v = ti_clk_ll_ops->clk_readl(&dd->control_reg); v &= ~dd->enable_mask; v |= clken_bits << __ffs(dd->enable_mask); ti_clk_ll_ops->clk_writel(v, &dd->control_reg); } /* _omap3_wait_dpll_status: wait for a DPLL to enter a specific state */ static int _omap3_wait_dpll_status(struct clk_hw_omap *clk, u8 state) { const struct dpll_data *dd; int i = 0; int ret = -EINVAL; const char *clk_name; dd = clk->dpll_data; clk_name = clk_hw_get_name(&clk->hw); state <<= __ffs(dd->idlest_mask); while (((ti_clk_ll_ops->clk_readl(&dd->idlest_reg) & dd->idlest_mask) != state) && i < MAX_DPLL_WAIT_TRIES) { i++; udelay(1); } if (i == MAX_DPLL_WAIT_TRIES) { pr_err("clock: %s failed transition to '%s'\n", clk_name, (state) ? "locked" : "bypassed"); } else { pr_debug("clock: %s transition to '%s' in %d loops\n", clk_name, (state) ? "locked" : "bypassed", i); ret = 0; } return ret; } /* From 3430 TRM ES2 4.7.6.2 */ static u16 _omap3_dpll_compute_freqsel(struct clk_hw_omap *clk, u8 n) { unsigned long fint; u16 f = 0; fint = clk_hw_get_rate(clk->dpll_data->clk_ref) / n; pr_debug("clock: fint is %lu\n", fint); if (fint >= 750000 && fint <= 1000000) f = 0x3; else if (fint > 1000000 && fint <= 1250000) f = 0x4; else if (fint > 1250000 && fint <= 1500000) f = 0x5; else if (fint > 1500000 && fint <= 1750000) f = 0x6; else if (fint > 1750000 && fint <= 2100000) f = 0x7; else if (fint > 7500000 && fint <= 10000000) f = 0xB; else if (fint > 10000000 && fint <= 12500000) f = 0xC; else if (fint > 12500000 && fint <= 15000000) f = 0xD; else if (fint > 15000000 && fint <= 17500000) f = 0xE; else if (fint > 17500000 && fint <= 21000000) f = 0xF; else pr_debug("clock: unknown freqsel setting for %d\n", n); return f; } /** * _omap3_noncore_dpll_lock - instruct a DPLL to lock and wait for readiness * @clk: pointer to a DPLL struct clk * * Instructs a non-CORE DPLL to lock. Waits for the DPLL to report * readiness before returning. Will save and restore the DPLL's * autoidle state across the enable, per the CDP code. If the DPLL * locked successfully, return 0; if the DPLL did not lock in the time * allotted, or DPLL3 was passed in, return -EINVAL. */ static int _omap3_noncore_dpll_lock(struct clk_hw_omap *clk) { const struct dpll_data *dd; u8 ai; u8 state = 1; int r = 0; pr_debug("clock: locking DPLL %s\n", clk_hw_get_name(&clk->hw)); dd = clk->dpll_data; state <<= __ffs(dd->idlest_mask); /* Check if already locked */ if ((ti_clk_ll_ops->clk_readl(&dd->idlest_reg) & dd->idlest_mask) == state) goto done; ai = omap3_dpll_autoidle_read(clk); if (ai) omap3_dpll_deny_idle(clk); _omap3_dpll_write_clken(clk, DPLL_LOCKED); r = _omap3_wait_dpll_status(clk, 1); if (ai) omap3_dpll_allow_idle(clk); done: return r; } /** * _omap3_noncore_dpll_bypass - instruct a DPLL to bypass and wait for readiness * @clk: pointer to a DPLL struct clk * * Instructs a non-CORE DPLL to enter low-power bypass mode. In * bypass mode, the DPLL's rate is set equal to its parent clock's * rate. Waits for the DPLL to report readiness before returning. * Will save and restore the DPLL's autoidle state across the enable, * per the CDP code. If the DPLL entered bypass mode successfully, * return 0; if the DPLL did not enter bypass in the time allotted, or * DPLL3 was passed in, or the DPLL does not support low-power bypass, * return -EINVAL. */ static int _omap3_noncore_dpll_bypass(struct clk_hw_omap *clk) { int r; u8 ai; if (!(clk->dpll_data->modes & (1 << DPLL_LOW_POWER_BYPASS))) return -EINVAL; pr_debug("clock: configuring DPLL %s for low-power bypass\n", clk_hw_get_name(&clk->hw)); ai = omap3_dpll_autoidle_read(clk); _omap3_dpll_write_clken(clk, DPLL_LOW_POWER_BYPASS); r = _omap3_wait_dpll_status(clk, 0); if (ai) omap3_dpll_allow_idle(clk); return r; } /** * _omap3_noncore_dpll_stop - instruct a DPLL to stop * @clk: pointer to a DPLL struct clk * * Instructs a non-CORE DPLL to enter low-power stop. Will save and * restore the DPLL's autoidle state across the stop, per the CDP * code. If DPLL3 was passed in, or the DPLL does not support * low-power stop, return -EINVAL; otherwise, return 0. */ static int _omap3_noncore_dpll_stop(struct clk_hw_omap *clk) { u8 ai; if (!(clk->dpll_data->modes & (1 << DPLL_LOW_POWER_STOP))) return -EINVAL; pr_debug("clock: stopping DPLL %s\n", clk_hw_get_name(&clk->hw)); ai = omap3_dpll_autoidle_read(clk); _omap3_dpll_write_clken(clk, DPLL_LOW_POWER_STOP); if (ai) omap3_dpll_allow_idle(clk); return 0; } /** * _lookup_dco - Lookup DCO used by j-type DPLL * @clk: pointer to a DPLL struct clk * @dco: digital control oscillator selector * @m: DPLL multiplier to set * @n: DPLL divider to set * * See 36xx TRM section 3.5.3.3.3.2 "Type B DPLL (Low-Jitter)" * * XXX This code is not needed for 3430/AM35xx; can it be optimized * out in non-multi-OMAP builds for those chips? */ static void _lookup_dco(struct clk_hw_omap *clk, u8 *dco, u16 m, u8 n) { unsigned long fint, clkinp; /* watch out for overflow */ clkinp = clk_hw_get_rate(clk_hw_get_parent(&clk->hw)); fint = (clkinp / n) * m; if (fint < 1000000000) *dco = 2; else *dco = 4; } /** * _lookup_sddiv - Calculate sigma delta divider for j-type DPLL * @clk: pointer to a DPLL struct clk * @sd_div: target sigma-delta divider * @m: DPLL multiplier to set * @n: DPLL divider to set * * See 36xx TRM section 3.5.3.3.3.2 "Type B DPLL (Low-Jitter)" * * XXX This code is not needed for 3430/AM35xx; can it be optimized * out in non-multi-OMAP builds for those chips? */ static void _lookup_sddiv(struct clk_hw_omap *clk, u8 *sd_div, u16 m, u8 n) { unsigned long clkinp, sd; /* watch out for overflow */ int mod1, mod2; clkinp = clk_hw_get_rate(clk_hw_get_parent(&clk->hw)); /* * target sigma-delta to near 250MHz * sd = ceil[(m/(n+1)) * (clkinp_MHz / 250)] */ clkinp /= 100000; /* shift from MHz to 10*Hz for 38.4 and 19.2 */ mod1 = (clkinp * m) % (250 * n); sd = (clkinp * m) / (250 * n); mod2 = sd % 10; sd /= 10; if (mod1 || mod2) sd++; *sd_div = sd; } /** * omap3_noncore_dpll_ssc_program - set spread-spectrum clocking registers * @clk: struct clk * of DPLL to set * * Enable the DPLL spread spectrum clocking if frequency modulation and * frequency spreading have been set, otherwise disable it. */ static void omap3_noncore_dpll_ssc_program(struct clk_hw_omap *clk) { struct dpll_data *dd = clk->dpll_data; unsigned long ref_rate; u32 v, ctrl, mod_freq_divider, exponent, mantissa; u32 deltam_step, deltam_ceil; ctrl = ti_clk_ll_ops->clk_readl(&dd->control_reg); if (dd->ssc_modfreq && dd->ssc_deltam) { ctrl |= dd->ssc_enable_mask; if (dd->ssc_downspread) ctrl |= dd->ssc_downspread_mask; else ctrl &= ~dd->ssc_downspread_mask; ref_rate = clk_hw_get_rate(dd->clk_ref); mod_freq_divider = (ref_rate / dd->last_rounded_n) / (4 * dd->ssc_modfreq); if (dd->ssc_modfreq > (ref_rate / 70)) pr_warn("clock: SSC modulation frequency of DPLL %s greater than %ld\n", __clk_get_name(clk->hw.clk), ref_rate / 70); exponent = 0; mantissa = mod_freq_divider; while ((mantissa > 127) && (exponent < 7)) { exponent++; mantissa /= 2; } if (mantissa > 127) mantissa = 127; v = ti_clk_ll_ops->clk_readl(&dd->ssc_modfreq_reg); v &= ~(dd->ssc_modfreq_mant_mask | dd->ssc_modfreq_exp_mask); v |= mantissa << __ffs(dd->ssc_modfreq_mant_mask); v |= exponent << __ffs(dd->ssc_modfreq_exp_mask); ti_clk_ll_ops->clk_writel(v, &dd->ssc_modfreq_reg); deltam_step = dd->last_rounded_m * dd->ssc_deltam; deltam_step /= 10; if (dd->ssc_downspread) deltam_step /= 2; deltam_step <<= __ffs(dd->ssc_deltam_int_mask); deltam_step /= 100; deltam_step /= mod_freq_divider; if (deltam_step > 0xFFFFF) deltam_step = 0xFFFFF; deltam_ceil = (deltam_step & dd->ssc_deltam_int_mask) >> __ffs(dd->ssc_deltam_int_mask); if (deltam_step & dd->ssc_deltam_frac_mask) deltam_ceil++; if ((dd->ssc_downspread && ((dd->last_rounded_m - (2 * deltam_ceil)) < 20 || dd->last_rounded_m > 2045)) || ((dd->last_rounded_m - deltam_ceil) < 20 || (dd->last_rounded_m + deltam_ceil) > 2045)) pr_warn("clock: SSC multiplier of DPLL %s is out of range\n", __clk_get_name(clk->hw.clk)); v = ti_clk_ll_ops->clk_readl(&dd->ssc_deltam_reg); v &= ~(dd->ssc_deltam_int_mask | dd->ssc_deltam_frac_mask); v |= deltam_step << __ffs(dd->ssc_deltam_int_mask | dd->ssc_deltam_frac_mask); ti_clk_ll_ops->clk_writel(v, &dd->ssc_deltam_reg); } else { ctrl &= ~dd->ssc_enable_mask; } ti_clk_ll_ops->clk_writel(ctrl, &dd->control_reg); } /** * omap3_noncore_dpll_program - set non-core DPLL M,N values directly * @clk: struct clk * of DPLL to set * @freqsel: FREQSEL value to set * * Program the DPLL with the last M, N values calculated, and wait for * the DPLL to lock. Returns -EINVAL upon error, or 0 upon success. */ static int omap3_noncore_dpll_program(struct clk_hw_omap *clk, u16 freqsel) { struct dpll_data *dd = clk->dpll_data; u8 dco, sd_div, ai = 0; u32 v; bool errata_i810; /* 3430 ES2 TRM: 4.7.6.9 DPLL Programming Sequence */ _omap3_noncore_dpll_bypass(clk); /* * Set jitter correction. Jitter correction applicable for OMAP343X * only since freqsel field is no longer present on other devices. */ if (ti_clk_get_features()->flags & TI_CLK_DPLL_HAS_FREQSEL) { v = ti_clk_ll_ops->clk_readl(&dd->control_reg); v &= ~dd->freqsel_mask; v |= freqsel << __ffs(dd->freqsel_mask); ti_clk_ll_ops->clk_writel(v, &dd->control_reg); } /* Set DPLL multiplier, divider */ v = ti_clk_ll_ops->clk_readl(&dd->mult_div1_reg); /* Handle Duty Cycle Correction */ if (dd->dcc_mask) { if (dd->last_rounded_rate >= dd->dcc_rate) v |= dd->dcc_mask; /* Enable DCC */ else v &= ~dd->dcc_mask; /* Disable DCC */ } v &= ~(dd->mult_mask | dd->div1_mask); v |= dd->last_rounded_m << __ffs(dd->mult_mask); v |= (dd->last_rounded_n - 1) << __ffs(dd->div1_mask); /* Configure dco and sd_div for dplls that have these fields */ if (dd->dco_mask) { _lookup_dco(clk, &dco, dd->last_rounded_m, dd->last_rounded_n); v &= ~(dd->dco_mask); v |= dco << __ffs(dd->dco_mask); } if (dd->sddiv_mask) { _lookup_sddiv(clk, &sd_div, dd->last_rounded_m, dd->last_rounded_n); v &= ~(dd->sddiv_mask); v |= sd_div << __ffs(dd->sddiv_mask); } /* * Errata i810 - DPLL controller can get stuck while transitioning * to a power saving state. Software must ensure the DPLL can not * transition to a low power state while changing M/N values. * Easiest way to accomplish this is to prevent DPLL autoidle * before doing the M/N re-program. */ errata_i810 = ti_clk_get_features()->flags & TI_CLK_ERRATA_I810; if (errata_i810) { ai = omap3_dpll_autoidle_read(clk); if (ai) { omap3_dpll_deny_idle(clk); /* OCP barrier */ omap3_dpll_autoidle_read(clk); } } ti_clk_ll_ops->clk_writel(v, &dd->mult_div1_reg); /* Set 4X multiplier and low-power mode */ if (dd->m4xen_mask || dd->lpmode_mask) { v = ti_clk_ll_ops->clk_readl(&dd->control_reg); if (dd->m4xen_mask) { if (dd->last_rounded_m4xen) v |= dd->m4xen_mask; else v &= ~dd->m4xen_mask; } if (dd->lpmode_mask) { if (dd->last_rounded_lpmode) v |= dd->lpmode_mask; else v &= ~dd->lpmode_mask; } ti_clk_ll_ops->clk_writel(v, &dd->control_reg); } if (dd->ssc_enable_mask) omap3_noncore_dpll_ssc_program(clk); /* We let the clock framework set the other output dividers later */ /* REVISIT: Set ramp-up delay? */ _omap3_noncore_dpll_lock(clk); if (errata_i810 && ai) omap3_dpll_allow_idle(clk); return 0; } /* Public functions */ /** * omap3_dpll_recalc - recalculate DPLL rate * @hw: struct clk_hw containing the DPLL struct clk * @parent_rate: clock rate of the DPLL parent * * Recalculate and propagate the DPLL rate. */ unsigned long omap3_dpll_recalc(struct clk_hw *hw, unsigned long parent_rate) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); return omap2_get_dpll_rate(clk); } /* Non-CORE DPLL (e.g., DPLLs that do not control SDRC) clock functions */ /** * omap3_noncore_dpll_enable - instruct a DPLL to enter bypass or lock mode * @hw: struct clk_hw containing then pointer to a DPLL struct clk * * Instructs a non-CORE DPLL to enable, e.g., to enter bypass or lock. * The choice of modes depends on the DPLL's programmed rate: if it is * the same as the DPLL's parent clock, it will enter bypass; * otherwise, it will enter lock. This code will wait for the DPLL to * indicate readiness before returning, unless the DPLL takes too long * to enter the target state. Intended to be used as the struct clk's * enable function. If DPLL3 was passed in, or the DPLL does not * support low-power stop, or if the DPLL took too long to enter * bypass or lock, return -EINVAL; otherwise, return 0. */ int omap3_noncore_dpll_enable(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); int r; struct dpll_data *dd; struct clk_hw *parent; dd = clk->dpll_data; if (!dd) return -EINVAL; if (clk->clkdm) { r = ti_clk_ll_ops->clkdm_clk_enable(clk->clkdm, hw->clk); if (r) { WARN(1, "%s: could not enable %s's clockdomain %s: %d\n", __func__, clk_hw_get_name(hw), clk->clkdm_name, r); return r; } } parent = clk_hw_get_parent(hw); if (clk_hw_get_rate(hw) == clk_hw_get_rate(dd->clk_bypass)) { WARN_ON(parent != dd->clk_bypass); r = _omap3_noncore_dpll_bypass(clk); } else { WARN_ON(parent != dd->clk_ref); r = _omap3_noncore_dpll_lock(clk); } return r; } /** * omap3_noncore_dpll_disable - instruct a DPLL to enter low-power stop * @hw: struct clk_hw containing then pointer to a DPLL struct clk * * Instructs a non-CORE DPLL to enter low-power stop. This function is * intended for use in struct clkops. No return value. */ void omap3_noncore_dpll_disable(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); _omap3_noncore_dpll_stop(clk); if (clk->clkdm) ti_clk_ll_ops->clkdm_clk_disable(clk->clkdm, hw->clk); } /* Non-CORE DPLL rate set code */ /** * omap3_noncore_dpll_determine_rate - determine rate for a DPLL * @hw: pointer to the clock to determine rate for * @req: target rate request * * Determines which DPLL mode to use for reaching a desired target rate. * Checks whether the DPLL shall be in bypass or locked mode, and if * locked, calculates the M,N values for the DPLL via round-rate. * Returns a 0 on success, negative error value in failure. */ int omap3_noncore_dpll_determine_rate(struct clk_hw *hw, struct clk_rate_request *req) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); struct dpll_data *dd; if (!req->rate) return -EINVAL; dd = clk->dpll_data; if (!dd) return -EINVAL; if (clk_hw_get_rate(dd->clk_bypass) == req->rate && (dd->modes & (1 << DPLL_LOW_POWER_BYPASS))) { req->best_parent_hw = dd->clk_bypass; } else { req->rate = omap2_dpll_round_rate(hw, req->rate, &req->best_parent_rate); req->best_parent_hw = dd->clk_ref; } req->best_parent_rate = req->rate; return 0; } /** * omap3_noncore_dpll_set_parent - set parent for a DPLL clock * @hw: pointer to the clock to set parent for * @index: parent index to select * * Sets parent for a DPLL clock. This sets the DPLL into bypass or * locked mode. Returns 0 with success, negative error value otherwise. */ int omap3_noncore_dpll_set_parent(struct clk_hw *hw, u8 index) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); int ret; if (!hw) return -EINVAL; if (index) ret = _omap3_noncore_dpll_bypass(clk); else ret = _omap3_noncore_dpll_lock(clk); return ret; } /** * omap3_noncore_dpll_set_rate - set rate for a DPLL clock * @hw: pointer to the clock to set parent for * @rate: target rate for the clock * @parent_rate: rate of the parent clock * * Sets rate for a DPLL clock. First checks if the clock parent is * reference clock (in bypass mode, the rate of the clock can't be * changed) and proceeds with the rate change operation. Returns 0 * with success, negative error value otherwise. */ int omap3_noncore_dpll_set_rate(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); struct dpll_data *dd; u16 freqsel = 0; int ret; if (!hw || !rate) return -EINVAL; dd = clk->dpll_data; if (!dd) return -EINVAL; if (clk_hw_get_parent(hw) != dd->clk_ref) return -EINVAL; if (dd->last_rounded_rate == 0) return -EINVAL; /* Freqsel is available only on OMAP343X devices */ if (ti_clk_get_features()->flags & TI_CLK_DPLL_HAS_FREQSEL) { freqsel = _omap3_dpll_compute_freqsel(clk, dd->last_rounded_n); WARN_ON(!freqsel); } pr_debug("%s: %s: set rate: locking rate to %lu.\n", __func__, clk_hw_get_name(hw), rate); ret = omap3_noncore_dpll_program(clk, freqsel); return ret; } /** * omap3_noncore_dpll_set_rate_and_parent - set rate and parent for a DPLL clock * @hw: pointer to the clock to set rate and parent for * @rate: target rate for the DPLL * @parent_rate: clock rate of the DPLL parent * @index: new parent index for the DPLL, 0 - reference, 1 - bypass * * Sets rate and parent for a DPLL clock. If new parent is the bypass * clock, only selects the parent. Otherwise proceeds with a rate * change, as this will effectively also change the parent as the * DPLL is put into locked mode. Returns 0 with success, negative error * value otherwise. */ int omap3_noncore_dpll_set_rate_and_parent(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate, u8 index) { int ret; if (!hw || !rate) return -EINVAL; /* * clk-ref at index[0], in which case we only need to set rate, * the parent will be changed automatically with the lock sequence. * With clk-bypass case we only need to change parent. */ if (index) ret = omap3_noncore_dpll_set_parent(hw, index); else ret = omap3_noncore_dpll_set_rate(hw, rate, parent_rate); return ret; } /* DPLL autoidle read/set code */ /** * omap3_dpll_autoidle_read - read a DPLL's autoidle bits * @clk: struct clk * of the DPLL to read * * Return the DPLL's autoidle bits, shifted down to bit 0. Returns * -EINVAL if passed a null pointer or if the struct clk does not * appear to refer to a DPLL. */ static u32 omap3_dpll_autoidle_read(struct clk_hw_omap *clk) { const struct dpll_data *dd; u32 v; if (!clk || !clk->dpll_data) return -EINVAL; dd = clk->dpll_data; if (!dd->autoidle_mask) return -EINVAL; v = ti_clk_ll_ops->clk_readl(&dd->autoidle_reg); v &= dd->autoidle_mask; v >>= __ffs(dd->autoidle_mask); return v; } /** * omap3_dpll_allow_idle - enable DPLL autoidle bits * @clk: struct clk * of the DPLL to operate on * * Enable DPLL automatic idle control. This automatic idle mode * switching takes effect only when the DPLL is locked, at least on * OMAP3430. The DPLL will enter low-power stop when its downstream * clocks are gated. No return value. */ static void omap3_dpll_allow_idle(struct clk_hw_omap *clk) { const struct dpll_data *dd; u32 v; if (!clk || !clk->dpll_data) return; dd = clk->dpll_data; if (!dd->autoidle_mask) return; /* * REVISIT: CORE DPLL can optionally enter low-power bypass * by writing 0x5 instead of 0x1. Add some mechanism to * optionally enter this mode. */ v = ti_clk_ll_ops->clk_readl(&dd->autoidle_reg); v &= ~dd->autoidle_mask; v |= DPLL_AUTOIDLE_LOW_POWER_STOP << __ffs(dd->autoidle_mask); ti_clk_ll_ops->clk_writel(v, &dd->autoidle_reg); } /** * omap3_dpll_deny_idle - prevent DPLL from automatically idling * @clk: struct clk * of the DPLL to operate on * * Disable DPLL automatic idle control. No return value. */ static void omap3_dpll_deny_idle(struct clk_hw_omap *clk) { const struct dpll_data *dd; u32 v; if (!clk || !clk->dpll_data) return; dd = clk->dpll_data; if (!dd->autoidle_mask) return; v = ti_clk_ll_ops->clk_readl(&dd->autoidle_reg); v &= ~dd->autoidle_mask; v |= DPLL_AUTOIDLE_DISABLE << __ffs(dd->autoidle_mask); ti_clk_ll_ops->clk_writel(v, &dd->autoidle_reg); } /* Clock control for DPLL outputs */ /* Find the parent DPLL for the given clkoutx2 clock */ static struct clk_hw_omap *omap3_find_clkoutx2_dpll(struct clk_hw *hw) { struct clk_hw_omap *pclk = NULL; /* Walk up the parents of clk, looking for a DPLL */ do { do { hw = clk_hw_get_parent(hw); } while (hw && (!omap2_clk_is_hw_omap(hw))); if (!hw) break; pclk = to_clk_hw_omap(hw); } while (pclk && !pclk->dpll_data); /* clk does not have a DPLL as a parent? error in the clock data */ if (!pclk) { WARN_ON(1); return NULL; } return pclk; } /** * omap3_clkoutx2_recalc - recalculate DPLL X2 output virtual clock rate * @hw: pointer struct clk_hw * @parent_rate: clock rate of the DPLL parent * * Using parent clock DPLL data, look up DPLL state. If locked, set our * rate to the dpll_clk * 2; otherwise, just use dpll_clk. */ unsigned long omap3_clkoutx2_recalc(struct clk_hw *hw, unsigned long parent_rate) { const struct dpll_data *dd; unsigned long rate; u32 v; struct clk_hw_omap *pclk = NULL; if (!parent_rate) return 0; pclk = omap3_find_clkoutx2_dpll(hw); if (!pclk) return 0; dd = pclk->dpll_data; WARN_ON(!dd->enable_mask); v = ti_clk_ll_ops->clk_readl(&dd->control_reg) & dd->enable_mask; v >>= __ffs(dd->enable_mask); if ((v != OMAP3XXX_EN_DPLL_LOCKED) || (dd->flags & DPLL_J_TYPE)) rate = parent_rate; else rate = parent_rate * 2; return rate; } /** * omap3_core_dpll_save_context - Save the m and n values of the divider * @hw: pointer struct clk_hw * * Before the dpll registers are lost save the last rounded rate m and n * and the enable mask. */ int omap3_core_dpll_save_context(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); struct dpll_data *dd; u32 v; dd = clk->dpll_data; v = ti_clk_ll_ops->clk_readl(&dd->control_reg); clk->context = (v & dd->enable_mask) >> __ffs(dd->enable_mask); if (clk->context == DPLL_LOCKED) { v = ti_clk_ll_ops->clk_readl(&dd->mult_div1_reg); dd->last_rounded_m = (v & dd->mult_mask) >> __ffs(dd->mult_mask); dd->last_rounded_n = ((v & dd->div1_mask) >> __ffs(dd->div1_mask)) + 1; } return 0; } /** * omap3_core_dpll_restore_context - restore the m and n values of the divider * @hw: pointer struct clk_hw * * Restore the last rounded rate m and n * and the enable mask. */ void omap3_core_dpll_restore_context(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); const struct dpll_data *dd; u32 v; dd = clk->dpll_data; if (clk->context == DPLL_LOCKED) { _omap3_dpll_write_clken(clk, 0x4); _omap3_wait_dpll_status(clk, 0); v = ti_clk_ll_ops->clk_readl(&dd->mult_div1_reg); v &= ~(dd->mult_mask | dd->div1_mask); v |= dd->last_rounded_m << __ffs(dd->mult_mask); v |= (dd->last_rounded_n - 1) << __ffs(dd->div1_mask); ti_clk_ll_ops->clk_writel(v, &dd->mult_div1_reg); _omap3_dpll_write_clken(clk, DPLL_LOCKED); _omap3_wait_dpll_status(clk, 1); } else { _omap3_dpll_write_clken(clk, clk->context); } } /** * omap3_non_core_dpll_save_context - Save the m and n values of the divider * @hw: pointer struct clk_hw * * Before the dpll registers are lost save the last rounded rate m and n * and the enable mask. */ int omap3_noncore_dpll_save_context(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); struct dpll_data *dd; u32 v; dd = clk->dpll_data; v = ti_clk_ll_ops->clk_readl(&dd->control_reg); clk->context = (v & dd->enable_mask) >> __ffs(dd->enable_mask); if (clk->context == DPLL_LOCKED) { v = ti_clk_ll_ops->clk_readl(&dd->mult_div1_reg); dd->last_rounded_m = (v & dd->mult_mask) >> __ffs(dd->mult_mask); dd->last_rounded_n = ((v & dd->div1_mask) >> __ffs(dd->div1_mask)) + 1; } return 0; } /** * omap3_core_dpll_restore_context - restore the m and n values of the divider * @hw: pointer struct clk_hw * * Restore the last rounded rate m and n * and the enable mask. */ void omap3_noncore_dpll_restore_context(struct clk_hw *hw) { struct clk_hw_omap *clk = to_clk_hw_omap(hw); const struct dpll_data *dd; u32 ctrl, mult_div1; dd = clk->dpll_data; ctrl = ti_clk_ll_ops->clk_readl(&dd->control_reg); mult_div1 = ti_clk_ll_ops->clk_readl(&dd->mult_div1_reg); if (clk->context == ((ctrl & dd->enable_mask) >> __ffs(dd->enable_mask)) && dd->last_rounded_m == ((mult_div1 & dd->mult_mask) >> __ffs(dd->mult_mask)) && dd->last_rounded_n == ((mult_div1 & dd->div1_mask) >> __ffs(dd->div1_mask)) + 1) { /* nothing to be done */ return; } if (clk->context == DPLL_LOCKED) omap3_noncore_dpll_program(clk, 0); else _omap3_dpll_write_clken(clk, clk->context); } /* OMAP3/4 non-CORE DPLL clkops */ const struct clk_hw_omap_ops clkhwops_omap3_dpll = { .allow_idle = omap3_dpll_allow_idle, .deny_idle = omap3_dpll_deny_idle, }; /** * omap3_dpll4_set_rate - set rate for omap3 per-dpll * @hw: clock to change * @rate: target rate for clock * @parent_rate: clock rate of the DPLL parent * * Check if the current SoC supports the per-dpll reprogram operation * or not, and then do the rate change if supported. Returns -EINVAL * if not supported, 0 for success, and potential error codes from the * clock rate change. */ int omap3_dpll4_set_rate(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate) { /* * According to the 12-5 CDP code from TI, "Limitation 2.5" * on 3430ES1 prevents us from changing DPLL multipliers or dividers * on DPLL4. */ if (ti_clk_get_features()->flags & TI_CLK_DPLL4_DENY_REPROGRAM) { pr_err("clock: DPLL4 cannot change rate due to silicon 'Limitation 2.5' on 3430ES1.\n"); return -EINVAL; } return omap3_noncore_dpll_set_rate(hw, rate, parent_rate); } /** * omap3_dpll4_set_rate_and_parent - set rate and parent for omap3 per-dpll * @hw: clock to change * @rate: target rate for clock * @parent_rate: rate of the parent clock * @index: parent index, 0 - reference clock, 1 - bypass clock * * Check if the current SoC support the per-dpll reprogram operation * or not, and then do the rate + parent change if supported. Returns * -EINVAL if not supported, 0 for success, and potential error codes * from the clock rate change. */ int omap3_dpll4_set_rate_and_parent(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate, u8 index) { if (ti_clk_get_features()->flags & TI_CLK_DPLL4_DENY_REPROGRAM) { pr_err("clock: DPLL4 cannot change rate due to silicon 'Limitation 2.5' on 3430ES1.\n"); return -EINVAL; } return omap3_noncore_dpll_set_rate_and_parent(hw, rate, parent_rate, index); } /* Apply DM3730 errata sprz319 advisory 2.1. */ static bool omap3_dpll5_apply_errata(struct clk_hw *hw, unsigned long parent_rate) { struct omap3_dpll5_settings { unsigned int rate, m, n; }; static const struct omap3_dpll5_settings precomputed[] = { /* * From DM3730 errata advisory 2.1, table 35 and 36. * The N value is increased by 1 compared to the tables as the * errata lists register values while last_rounded_field is the * real divider value. */ { 12000000, 80, 0 + 1 }, { 13000000, 443, 5 + 1 }, { 19200000, 50, 0 + 1 }, { 26000000, 443, 11 + 1 }, { 38400000, 25, 0 + 1 } }; const struct omap3_dpll5_settings *d; struct clk_hw_omap *clk = to_clk_hw_omap(hw); struct dpll_data *dd; unsigned int i; for (i = 0; i < ARRAY_SIZE(precomputed); ++i) { if (parent_rate == precomputed[i].rate) break; } if (i == ARRAY_SIZE(precomputed)) return false; d = &precomputed[i]; /* Update the M, N and rounded rate values and program the DPLL. */ dd = clk->dpll_data; dd->last_rounded_m = d->m; dd->last_rounded_n = d->n; dd->last_rounded_rate = div_u64((u64)parent_rate * d->m, d->n); omap3_noncore_dpll_program(clk, 0); return true; } /** * omap3_dpll5_set_rate - set rate for omap3 dpll5 * @hw: clock to change * @rate: target rate for clock * @parent_rate: rate of the parent clock * * Set rate for the DPLL5 clock. Apply the sprz319 advisory 2.1 on OMAP36xx if * the DPLL is used for USB host (detected through the requested rate). */ int omap3_dpll5_set_rate(struct clk_hw *hw, unsigned long rate, unsigned long parent_rate) { if (rate == OMAP3_DPLL5_FREQ_FOR_USBHOST * 8) { if (omap3_dpll5_apply_errata(hw, parent_rate)) return 0; } return omap3_noncore_dpll_set_rate(hw, rate, parent_rate); } |