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b1bc04a2ac
The Clock-and-Reset controller resides in a core power domain on NVIDIA Tegra SoCs. In order to support voltage scaling of the core power domain, we hook up DVFS-capable clocks to the core GENPD for managing of the GENPD's performance state based on the clock changes. Some clocks don't have any specific physical hardware unit that backs them, like root PLLs and system clock and they have theirs own voltage requirements. This patch adds new clk-device driver that backs the clocks and provides runtime PM functionality for them. A virtual clk-device is created for each such DVFS-capable clock at the clock's registration time by the new tegra_clk_register() helper. Driver changes clock's device GENPD performance state based on clk-rate notifications. In result we have this sequence of events: 1. Clock driver creates virtual device for selective clocks, enables runtime PM for the created device and registers the clock. 2. Clk-device driver starts to listen to clock rate changes. 3. Something changes clk rate or enables/disables clk. 4. CCF core propagates the change through the clk tree. 5. Clk-device driver gets clock rate-change notification or GENPD core handles prepare/unprepare of the clock. 6. Clk-device driver changes GENPD performance state on clock rate change. 7. GENPD driver changes voltage regulator state change. 8. The regulator state is committed to hardware via I2C. We rely on fact that DVFS is not needed for Tegra I2C and that Tegra I2C driver already keeps clock always-prepared. Hence I2C subsystem stays independent from the clk power management and there are no deadlock spots in the sequence. Currently all clocks are registered very early during kernel boot when the device driver core isn't available yet. The clk-device can't be created at that time. This patch splits the registration of the clocks in two phases: 1. Register all essential clocks which don't use RPM and are needed during early boot. 2. Register at a later boot time the rest of clocks. This patch adds power management support for Tegra20 and Tegra30 clocks. Reviewed-by: Ulf Hansson <ulf.hansson@linaro.org> Tested-by: Peter Geis <pgwipeout@gmail.com> # Ouya T30 Tested-by: Paul Fertser <fercerpav@gmail.com> # PAZ00 T20 Tested-by: Nicolas Chauvet <kwizart@gmail.com> # PAZ00 T20 and TK1 T124 Tested-by: Matt Merhar <mattmerhar@protonmail.com> # Ouya T30 Signed-off-by: Dmitry Osipenko <digetx@gmail.com> Signed-off-by: Thierry Reding <treding@nvidia.com>
200 lines
5.1 KiB
C
200 lines
5.1 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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#include <linux/clk.h>
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#include <linux/clk-provider.h>
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#include <linux/mutex.h>
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#include <linux/of_device.h>
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#include <linux/platform_device.h>
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#include <linux/pm_domain.h>
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#include <linux/pm_opp.h>
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#include <linux/pm_runtime.h>
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#include <linux/slab.h>
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#include <soc/tegra/common.h>
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#include "clk.h"
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/*
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* This driver manages performance state of the core power domain for the
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* independent PLLs and system clocks. We created a virtual clock device
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* for such clocks, see tegra_clk_dev_register().
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*/
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struct tegra_clk_device {
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struct notifier_block clk_nb;
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struct device *dev;
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struct clk_hw *hw;
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struct mutex lock;
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};
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static int tegra_clock_set_pd_state(struct tegra_clk_device *clk_dev,
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unsigned long rate)
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{
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struct device *dev = clk_dev->dev;
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struct dev_pm_opp *opp;
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unsigned int pstate;
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opp = dev_pm_opp_find_freq_ceil(dev, &rate);
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if (opp == ERR_PTR(-ERANGE)) {
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/*
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* Some clocks may be unused by a particular board and they
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* may have uninitiated clock rate that is overly high. In
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* this case clock is expected to be disabled, but still we
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* need to set up performance state of the power domain and
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* not error out clk initialization. A typical example is
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* a PCIe clock on Android tablets.
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*/
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dev_dbg(dev, "failed to find ceil OPP for %luHz\n", rate);
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opp = dev_pm_opp_find_freq_floor(dev, &rate);
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}
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if (IS_ERR(opp)) {
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dev_err(dev, "failed to find OPP for %luHz: %pe\n", rate, opp);
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return PTR_ERR(opp);
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}
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pstate = dev_pm_opp_get_required_pstate(opp, 0);
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dev_pm_opp_put(opp);
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return dev_pm_genpd_set_performance_state(dev, pstate);
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}
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static int tegra_clock_change_notify(struct notifier_block *nb,
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unsigned long msg, void *data)
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{
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struct clk_notifier_data *cnd = data;
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struct tegra_clk_device *clk_dev;
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int err = 0;
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clk_dev = container_of(nb, struct tegra_clk_device, clk_nb);
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mutex_lock(&clk_dev->lock);
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switch (msg) {
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case PRE_RATE_CHANGE:
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if (cnd->new_rate > cnd->old_rate)
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err = tegra_clock_set_pd_state(clk_dev, cnd->new_rate);
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break;
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case ABORT_RATE_CHANGE:
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err = tegra_clock_set_pd_state(clk_dev, cnd->old_rate);
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break;
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case POST_RATE_CHANGE:
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if (cnd->new_rate < cnd->old_rate)
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err = tegra_clock_set_pd_state(clk_dev, cnd->new_rate);
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break;
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default:
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break;
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}
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mutex_unlock(&clk_dev->lock);
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return notifier_from_errno(err);
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}
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static int tegra_clock_sync_pd_state(struct tegra_clk_device *clk_dev)
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{
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unsigned long rate;
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int ret;
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mutex_lock(&clk_dev->lock);
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rate = clk_hw_get_rate(clk_dev->hw);
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ret = tegra_clock_set_pd_state(clk_dev, rate);
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mutex_unlock(&clk_dev->lock);
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return ret;
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}
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static int tegra_clock_probe(struct platform_device *pdev)
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{
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struct tegra_core_opp_params opp_params = {};
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struct tegra_clk_device *clk_dev;
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struct device *dev = &pdev->dev;
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struct clk *clk;
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int err;
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if (!dev->pm_domain)
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return -EINVAL;
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clk_dev = devm_kzalloc(dev, sizeof(*clk_dev), GFP_KERNEL);
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if (!clk_dev)
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return -ENOMEM;
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clk = devm_clk_get(dev, NULL);
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if (IS_ERR(clk))
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return PTR_ERR(clk);
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clk_dev->dev = dev;
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clk_dev->hw = __clk_get_hw(clk);
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clk_dev->clk_nb.notifier_call = tegra_clock_change_notify;
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mutex_init(&clk_dev->lock);
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platform_set_drvdata(pdev, clk_dev);
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/*
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* Runtime PM was already enabled for this device by the parent clk
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* driver and power domain state should be synced under clk_dev lock,
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* hence we don't use the common OPP helper that initializes OPP
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* state. For some clocks common OPP helper may fail to find ceil
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* rate, it's handled by this driver.
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*/
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err = devm_tegra_core_dev_init_opp_table(dev, &opp_params);
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if (err)
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return err;
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err = clk_notifier_register(clk, &clk_dev->clk_nb);
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if (err) {
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dev_err(dev, "failed to register clk notifier: %d\n", err);
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return err;
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}
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/*
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* The driver is attaching to a potentially active/resumed clock, hence
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* we need to sync the power domain performance state in a accordance to
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* the clock rate if clock is resumed.
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*/
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err = tegra_clock_sync_pd_state(clk_dev);
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if (err)
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goto unreg_clk;
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return 0;
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unreg_clk:
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clk_notifier_unregister(clk, &clk_dev->clk_nb);
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return err;
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}
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/*
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* Tegra GENPD driver enables clocks during NOIRQ phase. It can't be done
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* for clocks served by this driver because runtime PM is unavailable in
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* NOIRQ phase. We will keep clocks resumed during suspend to mitigate this
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* problem. In practice this makes no difference from a power management
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* perspective since voltage is kept at a nominal level during suspend anyways.
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*/
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static const struct dev_pm_ops tegra_clock_pm = {
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SET_SYSTEM_SLEEP_PM_OPS(pm_runtime_resume_and_get, pm_runtime_put)
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};
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static const struct of_device_id tegra_clock_match[] = {
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{ .compatible = "nvidia,tegra20-sclk" },
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{ .compatible = "nvidia,tegra30-sclk" },
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{ .compatible = "nvidia,tegra30-pllc" },
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{ .compatible = "nvidia,tegra30-plle" },
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{ .compatible = "nvidia,tegra30-pllm" },
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{ }
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};
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static struct platform_driver tegra_clock_driver = {
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.driver = {
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.name = "tegra-clock",
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.of_match_table = tegra_clock_match,
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.pm = &tegra_clock_pm,
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.suppress_bind_attrs = true,
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},
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.probe = tegra_clock_probe,
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};
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builtin_platform_driver(tegra_clock_driver);
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