Message ID | 1517934852-23255-7-git-send-email-pdeschrijver@nvidia.com (mailing list archive) |
---|---|
State | Changes Requested, archived |
Headers | show |
On 06/02/18 16:34, Peter De Schrijver wrote: > The DFLL can directly generate a PWM signal to control the regulator IC > rather then sending i2c messages. This patch adds support for this mode. > In this mode the hardware LUT is not used and also there is no regulator > object involved because there is no way to control the regulator voltage > without also changing the DFLL output frequency. Also the register debugfs > file is slightly reworked to only show the i2c registers when i2c mode is > in use. As there is no regulator object for the PWM regulator, its step and > offset values are retrieved from DT instead. It is unclear to me why we bother creating the LUT for PWM if it is not used? Is this for debug to get an approximation? Why do we do this? > Signed-off-by: Peter De Schrijver <pdeschrijver@nvidia.com> > --- > drivers/clk/tegra/clk-dfll.c | 398 ++++++++++++++++++++++++++--- > drivers/clk/tegra/clk-tegra124-dfll-fcpu.c | 23 +- > 2 files changed, 382 insertions(+), 39 deletions(-) > > diff --git a/drivers/clk/tegra/clk-dfll.c b/drivers/clk/tegra/clk-dfll.c > index fa97763..228edb4 100644 > --- a/drivers/clk/tegra/clk-dfll.c > +++ b/drivers/clk/tegra/clk-dfll.c > @@ -243,6 +243,12 @@ enum dfll_tune_range { > DFLL_TUNE_LOW = 1, > }; > > + > +enum tegra_dfll_pmu_if { > + TEGRA_DFLL_PMU_I2C = 0, > + TEGRA_DFLL_PMU_PWM = 1, > +}; > + > /** > * struct dfll_rate_req - target DFLL rate request data > * @rate: target frequency, after the postscaling > @@ -294,17 +300,25 @@ struct tegra_dfll { > u32 ci; > u32 cg; > bool cg_scale; > + u32 reg_init_uV; > > /* I2C interface parameters */ > u32 i2c_fs_rate; > u32 i2c_reg; > u32 i2c_slave_addr; > > - /* i2c_lut array entries are regulator framework selectors */ > + /* lut array entries are regulator framework selectors or PWM values*/ > unsigned int i2c_lut[MAX_DFLL_VOLTAGES]; > unsigned int lut_uv[MAX_DFLL_VOLTAGES]; > int lut_size; > u8 lut_bottom, lut_min, lut_max, lut_safe; > + > + /* PWM interface */ > + enum tegra_dfll_pmu_if pmu_if; > + unsigned long pwm_rate; > + struct pinctrl *pwm_pin; > + struct pinctrl_state *pwm_enable_state; > + struct pinctrl_state *pwm_disable_state; > }; > > #define clk_hw_to_dfll(_hw) container_of(_hw, struct tegra_dfll, dfll_clk_hw) > @@ -491,6 +505,36 @@ static void dfll_set_mode(struct tegra_dfll *td, > } > > /* > + * DVCO rate control > + */ > + > +static unsigned long get_dvco_rate_below(struct tegra_dfll *td, u8 out_min) > +{ > + struct dev_pm_opp *opp; > + unsigned long rate, prev_rate; > + int uv, min_uv; > + > + min_uv = td->lut_uv[out_min]; > + for (rate = 0, prev_rate = 0; ; rate++) { > + rcu_read_lock(); > + opp = dev_pm_opp_find_freq_ceil(td->soc->dev, &rate); > + if (IS_ERR(opp)) { > + rcu_read_unlock(); > + break; > + } > + uv = dev_pm_opp_get_voltage(opp); > + rcu_read_unlock(); > + > + if (uv && uv > min_uv) > + return prev_rate; > + > + prev_rate = rate; > + } > + > + return prev_rate; > +} > + > +/* > * DFLL-to-I2C controller interface > */ > > @@ -519,6 +563,119 @@ static int dfll_i2c_set_output_enabled(struct tegra_dfll *td, bool enable) > return 0; > } > > + > +/* > + * DFLL-to-PWM controller interface > + */ > + > +/** > + * dfll_pwm_set_output_enabled - enable/disable PWM voltage requests > + * @td: DFLL instance > + * @enable: whether to enable or disable the PWM voltage requests > + * > + * Set the master enable control for PWM control value updates. If disabled, > + * then the PWM signal is not driven. Also configure the PWM output pad > + * to the appropriate state. > + */ > +static int dfll_pwm_set_output_enabled(struct tegra_dfll *td, bool enable) > +{ > + int ret; > + u32 val, div; > + > + if (enable) { > + ret = pinctrl_select_state(td->pwm_pin, td->pwm_enable_state); > + if (ret < 0) { > + dev_err(td->dev, "setting enable state failed\n"); > + return ret; > + } > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > + val &= ~DFLL_OUTPUT_CFG_PWM_DIV_MASK; > + div = DIV_ROUND_UP(td->ref_rate, td->pwm_rate); > + val |= (div << DFLL_OUTPUT_CFG_PWM_DIV_SHIFT) > + & DFLL_OUTPUT_CFG_PWM_DIV_MASK; > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > + dfll_wmb(td); > + > + val |= DFLL_OUTPUT_CFG_PWM_ENABLE; > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > + dfll_wmb(td); > + } else { > + ret = pinctrl_select_state(td->pwm_pin, td->pwm_disable_state); > + if (ret < 0) > + dev_warn(td->dev, "setting disable state failed\n"); > + > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > + val &= ~DFLL_OUTPUT_CFG_PWM_ENABLE; > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > + dfll_wmb(td); > + } > + > + return 0; > +} > +/** > + * dfll_set_force_output_value - set fixed value for force output > + * @td: DFLL instance > + * @out_val: value to force output > + * > + * Set the fixed value for force output, DFLL will output this value when > + * force output is enabled. > + */ > +static u32 dfll_set_force_output_value(struct tegra_dfll *td, u8 out_val) > +{ > + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); > + > + val &= ~OUT_MASK; > + val = (val & DFLL_OUTPUT_FORCE_ENABLE) | (out_val & OUT_MASK); This masking of out_val is not needed as you check in dfll_force_output(). > + dfll_writel(td, val, DFLL_OUTPUT_FORCE); > + dfll_wmb(td); > + > + return dfll_readl(td, DFLL_OUTPUT_FORCE); > +} > + > +/** > + * dfll_set_force_output_enabled - enable/disable force output > + * @td: DFLL instance > + * @enable: whether to enable or disable the force output > + * > + * Set the enable control for fouce output with fixed value. > + */ > +static void dfll_set_force_output_enabled(struct tegra_dfll *td, bool enable) > +{ > + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); > + > + if (enable) > + val |= DFLL_OUTPUT_FORCE_ENABLE; > + else > + val &= ~DFLL_OUTPUT_FORCE_ENABLE; > + > + dfll_writel(td, val, DFLL_OUTPUT_FORCE); > + dfll_wmb(td); > +} > + > +/** > + * dfll_i2c_set_output_enabled - enable/disable I2C PMIC voltage requests > + * @td: DFLL instance > + * @enable: whether to enable or disable the I2C voltage requests > + * > + * Set the master enable control for I2C control value updates. If disabled, > + * then I2C control messages are inhibited, regardless of the DFLL mode. > + */ The above description needs correcting. > +static int dfll_force_output(struct tegra_dfll *td, unsigned int out_sel) > +{ > + u32 val; > + > + if (out_sel > OUT_MASK) > + return -EINVAL; > + > + val = dfll_set_force_output_value(td, out_sel); > + if ((td->mode < DFLL_CLOSED_LOOP) && > + !(val & DFLL_OUTPUT_FORCE_ENABLE)) { > + dfll_set_force_output_enabled(td, true); > + } > + > + return 0; > +} > + > /** > * dfll_load_lut - load the voltage lookup table > * @td: struct tegra_dfll * > @@ -599,20 +756,50 @@ static void dfll_init_out_if(struct tegra_dfll *td) > td->lut_max = td->lut_size - 1; > td->lut_safe = td->lut_min + (td->lut_min < td->lut_max ? 1 : 0); > > - dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); > - val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > - (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > - (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > - dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); > - dfll_i2c_wmb(td); > - > - dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > - dfll_i2c_writel(td, 0, DFLL_INTR_EN); > - dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > - DFLL_INTR_STS); > - > - dfll_load_i2c_lut(td); > - dfll_init_i2c_if(td); > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) { > + int vinit = td->reg_init_uV; > + int vstep = td->soc->alignment.step_uv; > + int vmin = td->lut_uv[0]; > + > + /* clear DFLL_OUTPUT_CFG before setting new value */ > + dfll_writel(td, 0, DFLL_OUTPUT_CFG); > + dfll_wmb(td); > + > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > + val |= (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > + dfll_wmb(td); > + > + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > + dfll_i2c_writel(td, 0, DFLL_INTR_EN); > + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > + DFLL_INTR_STS); > + > + /* set initial voltage */ > + if ((vinit >= vmin) && vstep) { > + unsigned int vsel; > + > + vsel = DIV_ROUND_UP((vinit - vmin), vstep); > + dfll_force_output(td, vsel); > + } > + } else { > + dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); > + val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > + dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); > + dfll_i2c_wmb(td); > + > + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > + dfll_i2c_writel(td, 0, DFLL_INTR_EN); > + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > + DFLL_INTR_STS); > + > + dfll_load_i2c_lut(td); > + dfll_init_i2c_if(td); > + } > } > > /* > @@ -864,9 +1051,14 @@ static int dfll_lock(struct tegra_dfll *td) > return -EINVAL; > } > > - dfll_i2c_set_output_enabled(td, true); > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > + dfll_pwm_set_output_enabled(td, true); > + else > + dfll_i2c_set_output_enabled(td, true); > + > dfll_set_mode(td, DFLL_CLOSED_LOOP); > dfll_set_frequency_request(td, req); > + dfll_set_force_output_enabled(td, false); > return 0; > > default: > @@ -890,7 +1082,10 @@ static int dfll_unlock(struct tegra_dfll *td) > case DFLL_CLOSED_LOOP: > dfll_set_open_loop_config(td); > dfll_set_mode(td, DFLL_OPEN_LOOP); > - dfll_i2c_set_output_enabled(td, false); > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > + dfll_pwm_set_output_enabled(td, false); > + else > + dfll_i2c_set_output_enabled(td, false); > return 0; > > case DFLL_OPEN_LOOP: > @@ -1172,15 +1367,17 @@ static int attr_registers_show(struct seq_file *s, void *data) > seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > dfll_i2c_readl(td, offs)); > > - seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); > - offs = DFLL_I2C_CLK_DIVISOR; > - seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > - __raw_readl(td->i2c_controller_base + offs)); > - > - seq_puts(s, "\nLUT:\n"); > - for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) > + if (td->pmu_if == TEGRA_DFLL_PMU_I2C) { > + seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); > + offs = DFLL_I2C_CLK_DIVISOR; > seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > - __raw_readl(td->lut_base + offs)); > + __raw_readl(td->i2c_controller_base + offs)); > + > + seq_puts(s, "\nLUT:\n"); > + for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) > + seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > + __raw_readl(td->lut_base + offs)); > + } > > return 0; > } > @@ -1289,6 +1486,9 @@ static int dfll_init_clks(struct tegra_dfll *td) > return PTR_ERR(td->soc_clk); > } > > + if (td->pmu_if != TEGRA_DFLL_PMU_I2C) > + return 0; > + > td->i2c_clk = devm_clk_get(td->dev, "i2c"); > if (IS_ERR(td->i2c_clk)) { > dev_err(td->dev, "missing i2c clock\n"); > @@ -1420,6 +1620,52 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) > return -EINVAL; > } > > +/* > + * Look-up table in h/w is ignored when PWM is used as DFLL interface to PMIC. > + * In this case closed loop output is controlling duty cycle directly. The s/w > + * look-up that maps PWM duty cycle to voltage is still built by this function. Why? > + */ > +static int dfll_build_lut_pwm(struct tegra_dfll *td, int v_max) > +{ > + int i, reg_volt; > + unsigned long rate; > + u8 lut_bottom = MAX_DFLL_VOLTAGES; > + int v_min = td->soc->cvb->min_millivolts * 1000; > + > + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) { > + reg_volt = td->lut_uv[i]; > + > + /* since opp voltage is exact mv */ > + reg_volt = (reg_volt / 1000) * 1000; > + if (reg_volt > v_max) > + break; > + > + if ((lut_bottom == MAX_DFLL_VOLTAGES) && (reg_volt >= v_min)) > + lut_bottom = i; > + } > + > + /* determine voltage boundaries */ > + td->lut_size = i; > + if ((lut_bottom == MAX_DFLL_VOLTAGES) || > + (lut_bottom + 1 >= td->lut_size)) { > + dev_err(td->dev, "no voltage above DFLL minimum %d mV\n", > + td->soc->cvb->min_millivolts); > + return -EINVAL; > + } > + td->lut_bottom = lut_bottom; > + > + /* determine rate boundaries */ > + rate = get_dvco_rate_below(td, td->lut_bottom); > + if (!rate) { > + dev_err(td->dev, "no opp below DFLL minimum voltage %d mV\n", > + td->soc->cvb->min_millivolts); > + return -EINVAL; > + } > + td->dvco_rate_min = rate; > + > + return 0; > +} > + > /** > * dfll_build_i2c_lut - build the I2C voltage register lookup table > * @td: DFLL instance > @@ -1432,10 +1678,10 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) > * > * On success, fills in td->i2c_lut and returns 0, or -err on failure. > */ > -static int dfll_build_i2c_lut(struct tegra_dfll *td) > +static int dfll_build_i2c_lut(struct tegra_dfll *td, int v_max) > { > int ret = -EINVAL; > - int j, v, v_max, v_opp; > + int j, v, v_opp; > int selector; > unsigned long rate; > struct dev_pm_opp *opp; > @@ -1508,6 +1754,30 @@ static int dfll_build_i2c_lut(struct tegra_dfll *td) > return ret; > } > > +static int dfll_build_lut(struct tegra_dfll *td) > +{ > + unsigned long rate; > + struct dev_pm_opp *opp; > + int v_max; > + > + rcu_read_lock(); > + > + rate = ULONG_MAX; > + opp = dev_pm_opp_find_freq_floor(td->soc->dev, &rate); > + if (IS_ERR(opp)) { > + dev_err(td->dev, "couldn't get vmax opp, empty opp table?\n"); > + return -EINVAL; > + } > + v_max = dev_pm_opp_get_voltage(opp); > + > + rcu_read_unlock(); > + > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > + return dfll_build_lut_pwm(td, v_max); > + else > + return dfll_build_i2c_lut(td, v_max); > +} > + > /** > * read_dt_param - helper function for reading required parameters from the DT > * @td: DFLL instance > @@ -1566,11 +1836,54 @@ static int dfll_fetch_i2c_params(struct tegra_dfll *td) > } > td->i2c_reg = vsel_reg; > > - ret = dfll_build_i2c_lut(td); > - if (ret) { > - dev_err(td->dev, "couldn't build I2C LUT\n"); > + return 0; > +} > + > +static int dfll_fetch_pwm_params(struct tegra_dfll *td) > +{ > + int ret, i; > + u32 pwm_period; > + > + if (!td->soc->alignment.step_uv || !td->soc->alignment.offset_uv) { > + dev_err(td->dev, "Missing step or alignment info for PWM regulator"); > + return -EINVAL; > + } > + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) > + td->lut_uv[i] = td->soc->alignment.offset_uv + > + i * td->soc->alignment.step_uv; > + > + ret = read_dt_param(td, "nvidia,init-uv", &td->reg_init_uV); > + if (!ret) { > + dev_err(td->dev, "couldn't get initialized voltage\n"); > + return ret; > + } > + > + ret = read_dt_param(td, "nvidia,pwm-period", &pwm_period); > + if (!ret) { > + dev_err(td->dev, "couldn't get PWM period\n"); > return ret; > } > + td->pwm_rate = (NSEC_PER_SEC / pwm_period) * (MAX_DFLL_VOLTAGES - 1); Do we need to check that this pwm_rate is not too big so we don't end up with a bad value in dfll_pwm_set_output_enabled()? If this pwm_rate is not updated and neither is ref_rate, can we not just store the divisor so we can use in dfll_pwm_set_output_enabled()? Cheers Jon
On Thu, Mar 08, 2018 at 11:15:17PM +0000, Jon Hunter wrote: > > On 06/02/18 16:34, Peter De Schrijver wrote: > > The DFLL can directly generate a PWM signal to control the regulator IC > > rather then sending i2c messages. This patch adds support for this mode. > > In this mode the hardware LUT is not used and also there is no regulator > > object involved because there is no way to control the regulator voltage > > without also changing the DFLL output frequency. Also the register debugfs > > file is slightly reworked to only show the i2c registers when i2c mode is > > in use. As there is no regulator object for the PWM regulator, its step and > > offset values are retrieved from DT instead. > > It is unclear to me why we bother creating the LUT for PWM if it is not > used? Is this for debug to get an approximation? Why do we do this? > lut_uv certainly is used. This makes it easier to abstract PWM vs i2c. It would also be possible to replace every reference to lut_uv with a function which calculates the corresponding voltage by either querying the regulator framework in case of i2c or doing alignment.offset_uv + x * alignment.step_uv in case of PWM. Doing this once seems a bit easier to me. > > Signed-off-by: Peter De Schrijver <pdeschrijver@nvidia.com> > > --- > > drivers/clk/tegra/clk-dfll.c | 398 ++++++++++++++++++++++++++--- > > drivers/clk/tegra/clk-tegra124-dfll-fcpu.c | 23 +- > > 2 files changed, 382 insertions(+), 39 deletions(-) > > > > diff --git a/drivers/clk/tegra/clk-dfll.c b/drivers/clk/tegra/clk-dfll.c > > index fa97763..228edb4 100644 > > --- a/drivers/clk/tegra/clk-dfll.c > > +++ b/drivers/clk/tegra/clk-dfll.c > > @@ -243,6 +243,12 @@ enum dfll_tune_range { > > DFLL_TUNE_LOW = 1, > > }; > > > > + > > +enum tegra_dfll_pmu_if { > > + TEGRA_DFLL_PMU_I2C = 0, > > + TEGRA_DFLL_PMU_PWM = 1, > > +}; > > + > > /** > > * struct dfll_rate_req - target DFLL rate request data > > * @rate: target frequency, after the postscaling > > @@ -294,17 +300,25 @@ struct tegra_dfll { > > u32 ci; > > u32 cg; > > bool cg_scale; > > + u32 reg_init_uV; > > > > /* I2C interface parameters */ > > u32 i2c_fs_rate; > > u32 i2c_reg; > > u32 i2c_slave_addr; > > > > - /* i2c_lut array entries are regulator framework selectors */ > > + /* lut array entries are regulator framework selectors or PWM values*/ > > unsigned int i2c_lut[MAX_DFLL_VOLTAGES]; > > unsigned int lut_uv[MAX_DFLL_VOLTAGES]; > > int lut_size; > > u8 lut_bottom, lut_min, lut_max, lut_safe; > > + > > + /* PWM interface */ > > + enum tegra_dfll_pmu_if pmu_if; > > + unsigned long pwm_rate; > > + struct pinctrl *pwm_pin; > > + struct pinctrl_state *pwm_enable_state; > > + struct pinctrl_state *pwm_disable_state; > > }; > > > > #define clk_hw_to_dfll(_hw) container_of(_hw, struct tegra_dfll, dfll_clk_hw) > > @@ -491,6 +505,36 @@ static void dfll_set_mode(struct tegra_dfll *td, > > } > > > > /* > > + * DVCO rate control > > + */ > > + > > +static unsigned long get_dvco_rate_below(struct tegra_dfll *td, u8 out_min) > > +{ > > + struct dev_pm_opp *opp; > > + unsigned long rate, prev_rate; > > + int uv, min_uv; > > + > > + min_uv = td->lut_uv[out_min]; > > + for (rate = 0, prev_rate = 0; ; rate++) { > > + rcu_read_lock(); > > + opp = dev_pm_opp_find_freq_ceil(td->soc->dev, &rate); > > + if (IS_ERR(opp)) { > > + rcu_read_unlock(); > > + break; > > + } > > + uv = dev_pm_opp_get_voltage(opp); > > + rcu_read_unlock(); > > + > > + if (uv && uv > min_uv) > > + return prev_rate; > > + > > + prev_rate = rate; > > + } > > + > > + return prev_rate; > > +} > > + > > +/* > > * DFLL-to-I2C controller interface > > */ > > > > @@ -519,6 +563,119 @@ static int dfll_i2c_set_output_enabled(struct tegra_dfll *td, bool enable) > > return 0; > > } > > > > + > > +/* > > + * DFLL-to-PWM controller interface > > + */ > > + > > +/** > > + * dfll_pwm_set_output_enabled - enable/disable PWM voltage requests > > + * @td: DFLL instance > > + * @enable: whether to enable or disable the PWM voltage requests > > + * > > + * Set the master enable control for PWM control value updates. If disabled, > > + * then the PWM signal is not driven. Also configure the PWM output pad > > + * to the appropriate state. > > + */ > > +static int dfll_pwm_set_output_enabled(struct tegra_dfll *td, bool enable) > > +{ > > + int ret; > > + u32 val, div; > > + > > + if (enable) { > > + ret = pinctrl_select_state(td->pwm_pin, td->pwm_enable_state); > > + if (ret < 0) { > > + dev_err(td->dev, "setting enable state failed\n"); > > + return ret; > > + } > > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > > + val &= ~DFLL_OUTPUT_CFG_PWM_DIV_MASK; > > + div = DIV_ROUND_UP(td->ref_rate, td->pwm_rate); > > + val |= (div << DFLL_OUTPUT_CFG_PWM_DIV_SHIFT) > > + & DFLL_OUTPUT_CFG_PWM_DIV_MASK; > > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > > + dfll_wmb(td); > > + > > + val |= DFLL_OUTPUT_CFG_PWM_ENABLE; > > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > > + dfll_wmb(td); > > + } else { > > + ret = pinctrl_select_state(td->pwm_pin, td->pwm_disable_state); > > + if (ret < 0) > > + dev_warn(td->dev, "setting disable state failed\n"); > > + > > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > > + val &= ~DFLL_OUTPUT_CFG_PWM_ENABLE; > > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > > + dfll_wmb(td); > > + } > > + > > + return 0; > > +} > > +/** > > + * dfll_set_force_output_value - set fixed value for force output > > + * @td: DFLL instance > > + * @out_val: value to force output > > + * > > + * Set the fixed value for force output, DFLL will output this value when > > + * force output is enabled. > > + */ > > +static u32 dfll_set_force_output_value(struct tegra_dfll *td, u8 out_val) > > +{ > > + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); > > + > > + val &= ~OUT_MASK; > > + val = (val & DFLL_OUTPUT_FORCE_ENABLE) | (out_val & OUT_MASK); > > This masking of out_val is not needed as you check in dfll_force_output(). > > > + dfll_writel(td, val, DFLL_OUTPUT_FORCE); > > + dfll_wmb(td); > > + > > + return dfll_readl(td, DFLL_OUTPUT_FORCE); > > +} > > + > > +/** > > + * dfll_set_force_output_enabled - enable/disable force output > > + * @td: DFLL instance > > + * @enable: whether to enable or disable the force output > > + * > > + * Set the enable control for fouce output with fixed value. > > + */ > > +static void dfll_set_force_output_enabled(struct tegra_dfll *td, bool enable) > > +{ > > + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); > > + > > + if (enable) > > + val |= DFLL_OUTPUT_FORCE_ENABLE; > > + else > > + val &= ~DFLL_OUTPUT_FORCE_ENABLE; > > + > > + dfll_writel(td, val, DFLL_OUTPUT_FORCE); > > + dfll_wmb(td); > > +} > > + > > +/** > > + * dfll_i2c_set_output_enabled - enable/disable I2C PMIC voltage requests > > + * @td: DFLL instance > > + * @enable: whether to enable or disable the I2C voltage requests > > + * > > + * Set the master enable control for I2C control value updates. If disabled, > > + * then I2C control messages are inhibited, regardless of the DFLL mode. > > + */ > > The above description needs correcting. > > > +static int dfll_force_output(struct tegra_dfll *td, unsigned int out_sel) > > +{ > > + u32 val; > > + > > + if (out_sel > OUT_MASK) > > + return -EINVAL; > > + > > + val = dfll_set_force_output_value(td, out_sel); > > + if ((td->mode < DFLL_CLOSED_LOOP) && > > + !(val & DFLL_OUTPUT_FORCE_ENABLE)) { > > + dfll_set_force_output_enabled(td, true); > > + } > > + > > + return 0; > > +} > > + > > /** > > * dfll_load_lut - load the voltage lookup table > > * @td: struct tegra_dfll * > > @@ -599,20 +756,50 @@ static void dfll_init_out_if(struct tegra_dfll *td) > > td->lut_max = td->lut_size - 1; > > td->lut_safe = td->lut_min + (td->lut_min < td->lut_max ? 1 : 0); > > > > - dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); > > - val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > > - (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > > - (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > > - dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); > > - dfll_i2c_wmb(td); > > - > > - dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > > - dfll_i2c_writel(td, 0, DFLL_INTR_EN); > > - dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > > - DFLL_INTR_STS); > > - > > - dfll_load_i2c_lut(td); > > - dfll_init_i2c_if(td); > > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) { > > + int vinit = td->reg_init_uV; > > + int vstep = td->soc->alignment.step_uv; > > + int vmin = td->lut_uv[0]; > > + > > + /* clear DFLL_OUTPUT_CFG before setting new value */ > > + dfll_writel(td, 0, DFLL_OUTPUT_CFG); > > + dfll_wmb(td); > > + > > + val = dfll_readl(td, DFLL_OUTPUT_CFG); > > + val |= (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > > + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > > + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > > + dfll_writel(td, val, DFLL_OUTPUT_CFG); > > + dfll_wmb(td); > > + > > + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > > + dfll_i2c_writel(td, 0, DFLL_INTR_EN); > > + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > > + DFLL_INTR_STS); > > + > > + /* set initial voltage */ > > + if ((vinit >= vmin) && vstep) { > > + unsigned int vsel; > > + > > + vsel = DIV_ROUND_UP((vinit - vmin), vstep); > > + dfll_force_output(td, vsel); > > + } > > + } else { > > + dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); > > + val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | > > + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | > > + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); > > + dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); > > + dfll_i2c_wmb(td); > > + > > + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); > > + dfll_i2c_writel(td, 0, DFLL_INTR_EN); > > + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, > > + DFLL_INTR_STS); > > + > > + dfll_load_i2c_lut(td); > > + dfll_init_i2c_if(td); > > + } > > } > > > > /* > > @@ -864,9 +1051,14 @@ static int dfll_lock(struct tegra_dfll *td) > > return -EINVAL; > > } > > > > - dfll_i2c_set_output_enabled(td, true); > > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > > + dfll_pwm_set_output_enabled(td, true); > > + else > > + dfll_i2c_set_output_enabled(td, true); > > + > > dfll_set_mode(td, DFLL_CLOSED_LOOP); > > dfll_set_frequency_request(td, req); > > + dfll_set_force_output_enabled(td, false); > > return 0; > > > > default: > > @@ -890,7 +1082,10 @@ static int dfll_unlock(struct tegra_dfll *td) > > case DFLL_CLOSED_LOOP: > > dfll_set_open_loop_config(td); > > dfll_set_mode(td, DFLL_OPEN_LOOP); > > - dfll_i2c_set_output_enabled(td, false); > > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > > + dfll_pwm_set_output_enabled(td, false); > > + else > > + dfll_i2c_set_output_enabled(td, false); > > return 0; > > > > case DFLL_OPEN_LOOP: > > @@ -1172,15 +1367,17 @@ static int attr_registers_show(struct seq_file *s, void *data) > > seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > > dfll_i2c_readl(td, offs)); > > > > - seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); > > - offs = DFLL_I2C_CLK_DIVISOR; > > - seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > > - __raw_readl(td->i2c_controller_base + offs)); > > - > > - seq_puts(s, "\nLUT:\n"); > > - for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) > > + if (td->pmu_if == TEGRA_DFLL_PMU_I2C) { > > + seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); > > + offs = DFLL_I2C_CLK_DIVISOR; > > seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > > - __raw_readl(td->lut_base + offs)); > > + __raw_readl(td->i2c_controller_base + offs)); > > + > > + seq_puts(s, "\nLUT:\n"); > > + for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) > > + seq_printf(s, "[0x%02x] = 0x%08x\n", offs, > > + __raw_readl(td->lut_base + offs)); > > + } > > > > return 0; > > } > > @@ -1289,6 +1486,9 @@ static int dfll_init_clks(struct tegra_dfll *td) > > return PTR_ERR(td->soc_clk); > > } > > > > + if (td->pmu_if != TEGRA_DFLL_PMU_I2C) > > + return 0; > > + > > td->i2c_clk = devm_clk_get(td->dev, "i2c"); > > if (IS_ERR(td->i2c_clk)) { > > dev_err(td->dev, "missing i2c clock\n"); > > @@ -1420,6 +1620,52 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) > > return -EINVAL; > > } > > > > +/* > > + * Look-up table in h/w is ignored when PWM is used as DFLL interface to PMIC. > > + * In this case closed loop output is controlling duty cycle directly. The s/w > > + * look-up that maps PWM duty cycle to voltage is still built by this function. > > Why? This actually incorrect, the table is built by dfll_fetch_pwm_params() in case of PWM. > > > + */ > > +static int dfll_build_lut_pwm(struct tegra_dfll *td, int v_max) > > +{ > > + int i, reg_volt; > > + unsigned long rate; > > + u8 lut_bottom = MAX_DFLL_VOLTAGES; > > + int v_min = td->soc->cvb->min_millivolts * 1000; > > + > > + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) { > > + reg_volt = td->lut_uv[i]; > > + > > + /* since opp voltage is exact mv */ > > + reg_volt = (reg_volt / 1000) * 1000; > > + if (reg_volt > v_max) > > + break; > > + > > + if ((lut_bottom == MAX_DFLL_VOLTAGES) && (reg_volt >= v_min)) > > + lut_bottom = i; > > + } > > + > > + /* determine voltage boundaries */ > > + td->lut_size = i; > > + if ((lut_bottom == MAX_DFLL_VOLTAGES) || > > + (lut_bottom + 1 >= td->lut_size)) { > > + dev_err(td->dev, "no voltage above DFLL minimum %d mV\n", > > + td->soc->cvb->min_millivolts); > > + return -EINVAL; > > + } > > + td->lut_bottom = lut_bottom; > > + > > + /* determine rate boundaries */ > > + rate = get_dvco_rate_below(td, td->lut_bottom); > > + if (!rate) { > > + dev_err(td->dev, "no opp below DFLL minimum voltage %d mV\n", > > + td->soc->cvb->min_millivolts); > > + return -EINVAL; > > + } > > + td->dvco_rate_min = rate; > > + > > + return 0; > > +} > > + > > /** > > * dfll_build_i2c_lut - build the I2C voltage register lookup table > > * @td: DFLL instance > > @@ -1432,10 +1678,10 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) > > * > > * On success, fills in td->i2c_lut and returns 0, or -err on failure. > > */ > > -static int dfll_build_i2c_lut(struct tegra_dfll *td) > > +static int dfll_build_i2c_lut(struct tegra_dfll *td, int v_max) > > { > > int ret = -EINVAL; > > - int j, v, v_max, v_opp; > > + int j, v, v_opp; > > int selector; > > unsigned long rate; > > struct dev_pm_opp *opp; > > @@ -1508,6 +1754,30 @@ static int dfll_build_i2c_lut(struct tegra_dfll *td) > > return ret; > > } > > > > +static int dfll_build_lut(struct tegra_dfll *td) > > +{ > > + unsigned long rate; > > + struct dev_pm_opp *opp; > > + int v_max; > > + > > + rcu_read_lock(); > > + > > + rate = ULONG_MAX; > > + opp = dev_pm_opp_find_freq_floor(td->soc->dev, &rate); > > + if (IS_ERR(opp)) { > > + dev_err(td->dev, "couldn't get vmax opp, empty opp table?\n"); > > + return -EINVAL; > > + } > > + v_max = dev_pm_opp_get_voltage(opp); > > + > > + rcu_read_unlock(); > > + > > + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) > > + return dfll_build_lut_pwm(td, v_max); > > + else > > + return dfll_build_i2c_lut(td, v_max); > > +} > > + > > /** > > * read_dt_param - helper function for reading required parameters from the DT > > * @td: DFLL instance > > @@ -1566,11 +1836,54 @@ static int dfll_fetch_i2c_params(struct tegra_dfll *td) > > } > > td->i2c_reg = vsel_reg; > > > > - ret = dfll_build_i2c_lut(td); > > - if (ret) { > > - dev_err(td->dev, "couldn't build I2C LUT\n"); > > + return 0; > > +} > > + > > +static int dfll_fetch_pwm_params(struct tegra_dfll *td) > > +{ > > + int ret, i; > > + u32 pwm_period; > > + > > + if (!td->soc->alignment.step_uv || !td->soc->alignment.offset_uv) { > > + dev_err(td->dev, "Missing step or alignment info for PWM regulator"); > > + return -EINVAL; > > + } > > + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) > > + td->lut_uv[i] = td->soc->alignment.offset_uv + > > + i * td->soc->alignment.step_uv; > > + > > + ret = read_dt_param(td, "nvidia,init-uv", &td->reg_init_uV); > > + if (!ret) { > > + dev_err(td->dev, "couldn't get initialized voltage\n"); > > + return ret; > > + } > > + > > + ret = read_dt_param(td, "nvidia,pwm-period", &pwm_period); > > + if (!ret) { > > + dev_err(td->dev, "couldn't get PWM period\n"); > > return ret; > > } > > + td->pwm_rate = (NSEC_PER_SEC / pwm_period) * (MAX_DFLL_VOLTAGES - 1); > > Do we need to check that this pwm_rate is not too big so we don't end up > with a bad value in dfll_pwm_set_output_enabled()? If this pwm_rate is > not updated and neither is ref_rate, can we not just store the divisor > so we can use in dfll_pwm_set_output_enabled()? > ref_rate is fixed. So we could indeed store the divider rather than the rate. Peter. > Cheers > Jon > > -- > nvpublic -- To unsubscribe from this list: send the line "unsubscribe linux-clk" in the body of a message to majordomo@vger.kernel.org More majordomo info at http://vger.kernel.org/majordomo-info.html
diff --git a/drivers/clk/tegra/clk-dfll.c b/drivers/clk/tegra/clk-dfll.c index fa97763..228edb4 100644 --- a/drivers/clk/tegra/clk-dfll.c +++ b/drivers/clk/tegra/clk-dfll.c @@ -243,6 +243,12 @@ enum dfll_tune_range { DFLL_TUNE_LOW = 1, }; + +enum tegra_dfll_pmu_if { + TEGRA_DFLL_PMU_I2C = 0, + TEGRA_DFLL_PMU_PWM = 1, +}; + /** * struct dfll_rate_req - target DFLL rate request data * @rate: target frequency, after the postscaling @@ -294,17 +300,25 @@ struct tegra_dfll { u32 ci; u32 cg; bool cg_scale; + u32 reg_init_uV; /* I2C interface parameters */ u32 i2c_fs_rate; u32 i2c_reg; u32 i2c_slave_addr; - /* i2c_lut array entries are regulator framework selectors */ + /* lut array entries are regulator framework selectors or PWM values*/ unsigned int i2c_lut[MAX_DFLL_VOLTAGES]; unsigned int lut_uv[MAX_DFLL_VOLTAGES]; int lut_size; u8 lut_bottom, lut_min, lut_max, lut_safe; + + /* PWM interface */ + enum tegra_dfll_pmu_if pmu_if; + unsigned long pwm_rate; + struct pinctrl *pwm_pin; + struct pinctrl_state *pwm_enable_state; + struct pinctrl_state *pwm_disable_state; }; #define clk_hw_to_dfll(_hw) container_of(_hw, struct tegra_dfll, dfll_clk_hw) @@ -491,6 +505,36 @@ static void dfll_set_mode(struct tegra_dfll *td, } /* + * DVCO rate control + */ + +static unsigned long get_dvco_rate_below(struct tegra_dfll *td, u8 out_min) +{ + struct dev_pm_opp *opp; + unsigned long rate, prev_rate; + int uv, min_uv; + + min_uv = td->lut_uv[out_min]; + for (rate = 0, prev_rate = 0; ; rate++) { + rcu_read_lock(); + opp = dev_pm_opp_find_freq_ceil(td->soc->dev, &rate); + if (IS_ERR(opp)) { + rcu_read_unlock(); + break; + } + uv = dev_pm_opp_get_voltage(opp); + rcu_read_unlock(); + + if (uv && uv > min_uv) + return prev_rate; + + prev_rate = rate; + } + + return prev_rate; +} + +/* * DFLL-to-I2C controller interface */ @@ -519,6 +563,119 @@ static int dfll_i2c_set_output_enabled(struct tegra_dfll *td, bool enable) return 0; } + +/* + * DFLL-to-PWM controller interface + */ + +/** + * dfll_pwm_set_output_enabled - enable/disable PWM voltage requests + * @td: DFLL instance + * @enable: whether to enable or disable the PWM voltage requests + * + * Set the master enable control for PWM control value updates. If disabled, + * then the PWM signal is not driven. Also configure the PWM output pad + * to the appropriate state. + */ +static int dfll_pwm_set_output_enabled(struct tegra_dfll *td, bool enable) +{ + int ret; + u32 val, div; + + if (enable) { + ret = pinctrl_select_state(td->pwm_pin, td->pwm_enable_state); + if (ret < 0) { + dev_err(td->dev, "setting enable state failed\n"); + return ret; + } + val = dfll_readl(td, DFLL_OUTPUT_CFG); + val &= ~DFLL_OUTPUT_CFG_PWM_DIV_MASK; + div = DIV_ROUND_UP(td->ref_rate, td->pwm_rate); + val |= (div << DFLL_OUTPUT_CFG_PWM_DIV_SHIFT) + & DFLL_OUTPUT_CFG_PWM_DIV_MASK; + dfll_writel(td, val, DFLL_OUTPUT_CFG); + dfll_wmb(td); + + val |= DFLL_OUTPUT_CFG_PWM_ENABLE; + dfll_writel(td, val, DFLL_OUTPUT_CFG); + dfll_wmb(td); + } else { + ret = pinctrl_select_state(td->pwm_pin, td->pwm_disable_state); + if (ret < 0) + dev_warn(td->dev, "setting disable state failed\n"); + + val = dfll_readl(td, DFLL_OUTPUT_CFG); + val &= ~DFLL_OUTPUT_CFG_PWM_ENABLE; + dfll_writel(td, val, DFLL_OUTPUT_CFG); + dfll_wmb(td); + } + + return 0; +} +/** + * dfll_set_force_output_value - set fixed value for force output + * @td: DFLL instance + * @out_val: value to force output + * + * Set the fixed value for force output, DFLL will output this value when + * force output is enabled. + */ +static u32 dfll_set_force_output_value(struct tegra_dfll *td, u8 out_val) +{ + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); + + val &= ~OUT_MASK; + val = (val & DFLL_OUTPUT_FORCE_ENABLE) | (out_val & OUT_MASK); + dfll_writel(td, val, DFLL_OUTPUT_FORCE); + dfll_wmb(td); + + return dfll_readl(td, DFLL_OUTPUT_FORCE); +} + +/** + * dfll_set_force_output_enabled - enable/disable force output + * @td: DFLL instance + * @enable: whether to enable or disable the force output + * + * Set the enable control for fouce output with fixed value. + */ +static void dfll_set_force_output_enabled(struct tegra_dfll *td, bool enable) +{ + u32 val = dfll_readl(td, DFLL_OUTPUT_FORCE); + + if (enable) + val |= DFLL_OUTPUT_FORCE_ENABLE; + else + val &= ~DFLL_OUTPUT_FORCE_ENABLE; + + dfll_writel(td, val, DFLL_OUTPUT_FORCE); + dfll_wmb(td); +} + +/** + * dfll_i2c_set_output_enabled - enable/disable I2C PMIC voltage requests + * @td: DFLL instance + * @enable: whether to enable or disable the I2C voltage requests + * + * Set the master enable control for I2C control value updates. If disabled, + * then I2C control messages are inhibited, regardless of the DFLL mode. + */ +static int dfll_force_output(struct tegra_dfll *td, unsigned int out_sel) +{ + u32 val; + + if (out_sel > OUT_MASK) + return -EINVAL; + + val = dfll_set_force_output_value(td, out_sel); + if ((td->mode < DFLL_CLOSED_LOOP) && + !(val & DFLL_OUTPUT_FORCE_ENABLE)) { + dfll_set_force_output_enabled(td, true); + } + + return 0; +} + /** * dfll_load_lut - load the voltage lookup table * @td: struct tegra_dfll * @@ -599,20 +756,50 @@ static void dfll_init_out_if(struct tegra_dfll *td) td->lut_max = td->lut_size - 1; td->lut_safe = td->lut_min + (td->lut_min < td->lut_max ? 1 : 0); - dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); - val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | - (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | - (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); - dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); - dfll_i2c_wmb(td); - - dfll_writel(td, 0, DFLL_OUTPUT_FORCE); - dfll_i2c_writel(td, 0, DFLL_INTR_EN); - dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, - DFLL_INTR_STS); - - dfll_load_i2c_lut(td); - dfll_init_i2c_if(td); + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) { + int vinit = td->reg_init_uV; + int vstep = td->soc->alignment.step_uv; + int vmin = td->lut_uv[0]; + + /* clear DFLL_OUTPUT_CFG before setting new value */ + dfll_writel(td, 0, DFLL_OUTPUT_CFG); + dfll_wmb(td); + + val = dfll_readl(td, DFLL_OUTPUT_CFG); + val |= (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); + dfll_writel(td, val, DFLL_OUTPUT_CFG); + dfll_wmb(td); + + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); + dfll_i2c_writel(td, 0, DFLL_INTR_EN); + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, + DFLL_INTR_STS); + + /* set initial voltage */ + if ((vinit >= vmin) && vstep) { + unsigned int vsel; + + vsel = DIV_ROUND_UP((vinit - vmin), vstep); + dfll_force_output(td, vsel); + } + } else { + dfll_i2c_writel(td, 0, DFLL_OUTPUT_CFG); + val = (td->lut_safe << DFLL_OUTPUT_CFG_SAFE_SHIFT) | + (td->lut_max << DFLL_OUTPUT_CFG_MAX_SHIFT) | + (td->lut_min << DFLL_OUTPUT_CFG_MIN_SHIFT); + dfll_i2c_writel(td, val, DFLL_OUTPUT_CFG); + dfll_i2c_wmb(td); + + dfll_writel(td, 0, DFLL_OUTPUT_FORCE); + dfll_i2c_writel(td, 0, DFLL_INTR_EN); + dfll_i2c_writel(td, DFLL_INTR_MAX_MASK | DFLL_INTR_MIN_MASK, + DFLL_INTR_STS); + + dfll_load_i2c_lut(td); + dfll_init_i2c_if(td); + } } /* @@ -864,9 +1051,14 @@ static int dfll_lock(struct tegra_dfll *td) return -EINVAL; } - dfll_i2c_set_output_enabled(td, true); + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) + dfll_pwm_set_output_enabled(td, true); + else + dfll_i2c_set_output_enabled(td, true); + dfll_set_mode(td, DFLL_CLOSED_LOOP); dfll_set_frequency_request(td, req); + dfll_set_force_output_enabled(td, false); return 0; default: @@ -890,7 +1082,10 @@ static int dfll_unlock(struct tegra_dfll *td) case DFLL_CLOSED_LOOP: dfll_set_open_loop_config(td); dfll_set_mode(td, DFLL_OPEN_LOOP); - dfll_i2c_set_output_enabled(td, false); + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) + dfll_pwm_set_output_enabled(td, false); + else + dfll_i2c_set_output_enabled(td, false); return 0; case DFLL_OPEN_LOOP: @@ -1172,15 +1367,17 @@ static int attr_registers_show(struct seq_file *s, void *data) seq_printf(s, "[0x%02x] = 0x%08x\n", offs, dfll_i2c_readl(td, offs)); - seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); - offs = DFLL_I2C_CLK_DIVISOR; - seq_printf(s, "[0x%02x] = 0x%08x\n", offs, - __raw_readl(td->i2c_controller_base + offs)); - - seq_puts(s, "\nLUT:\n"); - for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) + if (td->pmu_if == TEGRA_DFLL_PMU_I2C) { + seq_puts(s, "\nINTEGRATED I2C CONTROLLER REGISTERS:\n"); + offs = DFLL_I2C_CLK_DIVISOR; seq_printf(s, "[0x%02x] = 0x%08x\n", offs, - __raw_readl(td->lut_base + offs)); + __raw_readl(td->i2c_controller_base + offs)); + + seq_puts(s, "\nLUT:\n"); + for (offs = 0; offs < 4 * MAX_DFLL_VOLTAGES; offs += 4) + seq_printf(s, "[0x%02x] = 0x%08x\n", offs, + __raw_readl(td->lut_base + offs)); + } return 0; } @@ -1289,6 +1486,9 @@ static int dfll_init_clks(struct tegra_dfll *td) return PTR_ERR(td->soc_clk); } + if (td->pmu_if != TEGRA_DFLL_PMU_I2C) + return 0; + td->i2c_clk = devm_clk_get(td->dev, "i2c"); if (IS_ERR(td->i2c_clk)) { dev_err(td->dev, "missing i2c clock\n"); @@ -1420,6 +1620,52 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) return -EINVAL; } +/* + * Look-up table in h/w is ignored when PWM is used as DFLL interface to PMIC. + * In this case closed loop output is controlling duty cycle directly. The s/w + * look-up that maps PWM duty cycle to voltage is still built by this function. + */ +static int dfll_build_lut_pwm(struct tegra_dfll *td, int v_max) +{ + int i, reg_volt; + unsigned long rate; + u8 lut_bottom = MAX_DFLL_VOLTAGES; + int v_min = td->soc->cvb->min_millivolts * 1000; + + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) { + reg_volt = td->lut_uv[i]; + + /* since opp voltage is exact mv */ + reg_volt = (reg_volt / 1000) * 1000; + if (reg_volt > v_max) + break; + + if ((lut_bottom == MAX_DFLL_VOLTAGES) && (reg_volt >= v_min)) + lut_bottom = i; + } + + /* determine voltage boundaries */ + td->lut_size = i; + if ((lut_bottom == MAX_DFLL_VOLTAGES) || + (lut_bottom + 1 >= td->lut_size)) { + dev_err(td->dev, "no voltage above DFLL minimum %d mV\n", + td->soc->cvb->min_millivolts); + return -EINVAL; + } + td->lut_bottom = lut_bottom; + + /* determine rate boundaries */ + rate = get_dvco_rate_below(td, td->lut_bottom); + if (!rate) { + dev_err(td->dev, "no opp below DFLL minimum voltage %d mV\n", + td->soc->cvb->min_millivolts); + return -EINVAL; + } + td->dvco_rate_min = rate; + + return 0; +} + /** * dfll_build_i2c_lut - build the I2C voltage register lookup table * @td: DFLL instance @@ -1432,10 +1678,10 @@ static int find_vdd_map_entry_min(struct tegra_dfll *td, int uV) * * On success, fills in td->i2c_lut and returns 0, or -err on failure. */ -static int dfll_build_i2c_lut(struct tegra_dfll *td) +static int dfll_build_i2c_lut(struct tegra_dfll *td, int v_max) { int ret = -EINVAL; - int j, v, v_max, v_opp; + int j, v, v_opp; int selector; unsigned long rate; struct dev_pm_opp *opp; @@ -1508,6 +1754,30 @@ static int dfll_build_i2c_lut(struct tegra_dfll *td) return ret; } +static int dfll_build_lut(struct tegra_dfll *td) +{ + unsigned long rate; + struct dev_pm_opp *opp; + int v_max; + + rcu_read_lock(); + + rate = ULONG_MAX; + opp = dev_pm_opp_find_freq_floor(td->soc->dev, &rate); + if (IS_ERR(opp)) { + dev_err(td->dev, "couldn't get vmax opp, empty opp table?\n"); + return -EINVAL; + } + v_max = dev_pm_opp_get_voltage(opp); + + rcu_read_unlock(); + + if (td->pmu_if == TEGRA_DFLL_PMU_PWM) + return dfll_build_lut_pwm(td, v_max); + else + return dfll_build_i2c_lut(td, v_max); +} + /** * read_dt_param - helper function for reading required parameters from the DT * @td: DFLL instance @@ -1566,11 +1836,54 @@ static int dfll_fetch_i2c_params(struct tegra_dfll *td) } td->i2c_reg = vsel_reg; - ret = dfll_build_i2c_lut(td); - if (ret) { - dev_err(td->dev, "couldn't build I2C LUT\n"); + return 0; +} + +static int dfll_fetch_pwm_params(struct tegra_dfll *td) +{ + int ret, i; + u32 pwm_period; + + if (!td->soc->alignment.step_uv || !td->soc->alignment.offset_uv) { + dev_err(td->dev, "Missing step or alignment info for PWM regulator"); + return -EINVAL; + } + for (i = 0; i < MAX_DFLL_VOLTAGES; i++) + td->lut_uv[i] = td->soc->alignment.offset_uv + + i * td->soc->alignment.step_uv; + + ret = read_dt_param(td, "nvidia,init-uv", &td->reg_init_uV); + if (!ret) { + dev_err(td->dev, "couldn't get initialized voltage\n"); + return ret; + } + + ret = read_dt_param(td, "nvidia,pwm-period", &pwm_period); + if (!ret) { + dev_err(td->dev, "couldn't get PWM period\n"); return ret; } + td->pwm_rate = (NSEC_PER_SEC / pwm_period) * (MAX_DFLL_VOLTAGES - 1); + + td->pwm_pin = devm_pinctrl_get(td->dev); + if (IS_ERR(td->pwm_pin)) { + dev_err(td->dev, "DT: missing pinctrl device\n"); + return PTR_ERR(td->pwm_pin); + } + + td->pwm_enable_state = pinctrl_lookup_state(td->pwm_pin, + "dvfs_pwm_enable"); + if (IS_ERR(td->pwm_enable_state)) { + dev_err(td->dev, "DT: missing pwm enabled state\n"); + return PTR_ERR(td->pwm_enable_state); + } + + td->pwm_disable_state = pinctrl_lookup_state(td->pwm_pin, + "dvfs_pwm_disable"); + if (IS_ERR(td->pwm_disable_state)) { + dev_err(td->dev, "DT: missing pwm disabled state\n"); + return PTR_ERR(td->pwm_disable_state); + } return 0; } @@ -1637,12 +1950,6 @@ int tegra_dfll_register(struct platform_device *pdev, td->soc = soc; - td->vdd_reg = devm_regulator_get(td->dev, "vdd-cpu"); - if (IS_ERR(td->vdd_reg)) { - dev_err(td->dev, "couldn't get vdd_cpu regulator\n"); - return PTR_ERR(td->vdd_reg); - } - td->dvco_rst = devm_reset_control_get(td->dev, "dvco"); if (IS_ERR(td->dvco_rst)) { dev_err(td->dev, "couldn't get dvco reset\n"); @@ -1655,10 +1962,27 @@ int tegra_dfll_register(struct platform_device *pdev, return ret; } - ret = dfll_fetch_i2c_params(td); + if (of_property_read_bool(td->dev->of_node, "nvidia,pwm-to-pmic")) { + td->pmu_if = TEGRA_DFLL_PMU_PWM; + ret = dfll_fetch_pwm_params(td); + } else { + td->vdd_reg = devm_regulator_get(td->dev, "vdd-cpu"); + if (IS_ERR(td->vdd_reg)) { + dev_err(td->dev, "couldn't get vdd_cpu regulator\n"); + return PTR_ERR(td->vdd_reg); + } + td->pmu_if = TEGRA_DFLL_PMU_I2C; + ret = dfll_fetch_i2c_params(td); + } if (ret) return ret; + ret = dfll_build_lut(td); + if (ret) { + dev_err(td->dev, "couldn't build LUT\n"); + return ret; + } + mem = platform_get_resource(pdev, IORESOURCE_MEM, 0); if (!mem) { dev_err(td->dev, "no control register resource\n"); diff --git a/drivers/clk/tegra/clk-tegra124-dfll-fcpu.c b/drivers/clk/tegra/clk-tegra124-dfll-fcpu.c index 78dddab..9d413e4 100644 --- a/drivers/clk/tegra/clk-tegra124-dfll-fcpu.c +++ b/drivers/clk/tegra/clk-tegra124-dfll-fcpu.c @@ -557,6 +557,21 @@ static int get_alignment_from_regulator(struct device *dev, return 0; } +static int get_alignment_from_dt(struct device *dev, + struct rail_alignment *align) +{ + int err; + + err = of_property_read_u32(dev->of_node, "nvidia,align-step-uv", + &align->step_uv); + if (err < 0) + return err; + + err = of_property_read_u32(dev->of_node, + "nvidia,align-offset-uv", &align->offset_uv); + return err; +} + static int tegra124_dfll_fcpu_probe(struct platform_device *pdev) { int process_id, speedo_id, speedo_value, err; @@ -587,8 +602,12 @@ static int tegra124_dfll_fcpu_probe(struct platform_device *pdev) return -ENODEV; } - soc->max_freq = cpu_max_freq_table[speedo_id]; - err = get_alignment_from_regulator(&pdev->dev, &soc->alignment); + soc->max_freq = fcpu_data->cpu_max_freq_table[speedo_id]; + if (of_property_read_bool(pdev->dev.of_node, "nvidia,pwm-to-pmic")) + err = get_alignment_from_dt(&pdev->dev, &soc->alignment); + else + err = get_alignment_from_regulator(&pdev->dev, + &soc->alignment); if (err < 0) return err;
The DFLL can directly generate a PWM signal to control the regulator IC rather then sending i2c messages. This patch adds support for this mode. In this mode the hardware LUT is not used and also there is no regulator object involved because there is no way to control the regulator voltage without also changing the DFLL output frequency. Also the register debugfs file is slightly reworked to only show the i2c registers when i2c mode is in use. As there is no regulator object for the PWM regulator, its step and offset values are retrieved from DT instead. Signed-off-by: Peter De Schrijver <pdeschrijver@nvidia.com> --- drivers/clk/tegra/clk-dfll.c | 398 ++++++++++++++++++++++++++--- drivers/clk/tegra/clk-tegra124-dfll-fcpu.c | 23 +- 2 files changed, 382 insertions(+), 39 deletions(-)