diff --git a/sys/dev/iicbus/pmic/rockchip/rk805.c b/sys/dev/iicbus/pmic/rockchip/rk805.c index 14996a792739..76c8462e694e 100644 --- a/sys/dev/iicbus/pmic/rockchip/rk805.c +++ b/sys/dev/iicbus/pmic/rockchip/rk805.c @@ -1,1003 +1,1003 @@ /*- * SPDX-License-Identifier: BSD-2-Clause-FreeBSD * * Copyright (c) 2018 Emmanuel Vadot * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "clock_if.h" #include "regdev_if.h" MALLOC_DEFINE(M_RK805_REG, "RK805 regulator", "RK805 power regulator"); /* #define dprintf(sc, format, arg...) device_printf(sc->base_dev, "%s: " format, __func__, arg) */ #define dprintf(sc, format, arg...) enum rk_pmic_type { RK805 = 1, RK808, }; static struct ofw_compat_data compat_data[] = { {"rockchip,rk805", RK805}, {"rockchip,rk808", RK808}, {NULL, 0} }; -struct rk805_regdef { +struct rk8xx_regdef { intptr_t id; char *name; uint8_t enable_reg; uint8_t enable_mask; uint8_t voltage_reg; uint8_t voltage_mask; int voltage_min; int voltage_max; int voltage_step; int voltage_nstep; }; -struct rk805_reg_sc { +struct rk8xx_reg_sc { struct regnode *regnode; device_t base_dev; - struct rk805_regdef *def; + struct rk8xx_regdef *def; phandle_t xref; struct regnode_std_param *param; }; struct reg_list { TAILQ_ENTRY(reg_list) next; - struct rk805_reg_sc *reg; + struct rk8xx_reg_sc *reg; }; -struct rk805_softc { +struct rk8xx_softc { device_t dev; struct mtx mtx; struct resource * res[1]; void * intrcookie; struct intr_config_hook intr_hook; enum rk_pmic_type type; TAILQ_HEAD(, reg_list) regs; int nregs; }; -static int rk805_regnode_status(struct regnode *regnode, int *status); -static int rk805_regnode_set_voltage(struct regnode *regnode, int min_uvolt, +static int rk8xx_regnode_status(struct regnode *regnode, int *status); +static int rk8xx_regnode_set_voltage(struct regnode *regnode, int min_uvolt, int max_uvolt, int *udelay); -static int rk805_regnode_get_voltage(struct regnode *regnode, int *uvolt); +static int rk8xx_regnode_get_voltage(struct regnode *regnode, int *uvolt); -static struct rk805_regdef rk805_regdefs[] = { +static struct rk8xx_regdef rk805_regdefs[] = { { .id = RK805_BUCK1, .name = "DCDC_REG1", .enable_reg = RK805_DCDC_EN, .enable_mask = 0x11, .voltage_reg = RK805_BUCK1_ON_VSEL, .voltage_mask = 0x3F, .voltage_min = 712500, .voltage_max = 1450000, .voltage_step = 12500, .voltage_nstep = 64, }, { .id = RK805_BUCK2, .name = "DCDC_REG2", .enable_reg = RK805_DCDC_EN, .enable_mask = 0x22, .voltage_reg = RK805_BUCK2_ON_VSEL, .voltage_mask = 0x3F, .voltage_min = 712500, .voltage_max = 1450000, .voltage_step = 12500, .voltage_nstep = 64, }, { .id = RK805_BUCK3, .name = "DCDC_REG3", .enable_reg = RK805_DCDC_EN, .enable_mask = 0x44, }, { .id = RK805_BUCK4, .name = "DCDC_REG4", .enable_reg = RK805_DCDC_EN, .enable_mask = 0x88, .voltage_reg = RK805_BUCK4_ON_VSEL, .voltage_mask = 0x3F, .voltage_min = 800000, .voltage_max = 3500000, .voltage_step = 100000, .voltage_nstep = 28, }, { .id = RK805_LDO1, .name = "LDO_REG1", .enable_reg = RK805_LDO_EN, .enable_mask = 0x11, .voltage_reg = RK805_LDO1_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 27, }, { .id = RK805_LDO2, .name = "LDO_REG2", .enable_reg = RK805_LDO_EN, .enable_mask = 0x22, .voltage_reg = RK805_LDO2_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 27, }, { .id = RK805_LDO3, .name = "LDO_REG3", .enable_reg = RK805_LDO_EN, .enable_mask = 0x44, .voltage_reg = RK805_LDO3_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 27, }, }; -static struct rk805_regdef rk808_regdefs[] = { +static struct rk8xx_regdef rk808_regdefs[] = { { .id = RK808_BUCK1, .name = "DCDC_REG1", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x1, .voltage_reg = RK808_BUCK1_ON_VSEL, .voltage_mask = 0x3F, .voltage_min = 712500, .voltage_max = 1500000, .voltage_step = 12500, .voltage_nstep = 64, }, { .id = RK808_BUCK2, .name = "DCDC_REG2", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x2, .voltage_reg = RK808_BUCK2_ON_VSEL, .voltage_mask = 0x3F, .voltage_min = 712500, .voltage_max = 1500000, .voltage_step = 12500, .voltage_nstep = 64, }, { /* BUCK3 voltage is calculated based on external resistor */ .id = RK808_BUCK3, .name = "DCDC_REG3", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x4, }, { .id = RK808_BUCK4, .name = "DCDC_REG4", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x8, .voltage_reg = RK808_BUCK4_ON_VSEL, .voltage_mask = 0xF, .voltage_min = 1800000, .voltage_max = 3300000, .voltage_step = 100000, .voltage_nstep = 16, }, { .id = RK808_LDO1, .name = "LDO_REG1", .enable_reg = RK808_LDO_EN, .enable_mask = 0x1, .voltage_reg = RK808_LDO1_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 1800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 17, }, { .id = RK808_LDO2, .name = "LDO_REG2", .enable_reg = RK808_LDO_EN, .enable_mask = 0x2, .voltage_reg = RK808_LDO2_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 1800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 17, }, { .id = RK808_LDO3, .name = "LDO_REG3", .enable_reg = RK808_LDO_EN, .enable_mask = 0x4, .voltage_reg = RK808_LDO3_ON_VSEL, .voltage_mask = 0xF, .voltage_min = 800000, .voltage_max = 2500000, .voltage_step = 100000, .voltage_nstep = 18, }, { .id = RK808_LDO4, .name = "LDO_REG4", .enable_reg = RK808_LDO_EN, .enable_mask = 0x8, .voltage_reg = RK808_LDO4_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 1800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 17, }, { .id = RK808_LDO5, .name = "LDO_REG5", .enable_reg = RK808_LDO_EN, .enable_mask = 0x10, .voltage_reg = RK808_LDO5_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 1800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 17, }, { .id = RK808_LDO6, .name = "LDO_REG6", .enable_reg = RK808_LDO_EN, .enable_mask = 0x20, .voltage_reg = RK808_LDO6_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 800000, .voltage_max = 2500000, .voltage_step = 100000, .voltage_nstep = 18, }, { .id = RK808_LDO7, .name = "LDO_REG7", .enable_reg = RK808_LDO_EN, .enable_mask = 0x40, .voltage_reg = RK808_LDO7_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 800000, .voltage_max = 2500000, .voltage_step = 100000, .voltage_nstep = 18, }, { .id = RK808_LDO8, .name = "LDO_REG8", .enable_reg = RK808_LDO_EN, .enable_mask = 0x80, .voltage_reg = RK808_LDO8_ON_VSEL, .voltage_mask = 0x1F, .voltage_min = 1800000, .voltage_max = 3400000, .voltage_step = 100000, .voltage_nstep = 17, }, { .id = RK808_SWITCH1, .name = "SWITCH_REG1", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x20, .voltage_min = 3000000, .voltage_max = 3000000, }, { .id = RK808_SWITCH2, .name = "SWITCH_REG2", .enable_reg = RK808_DCDC_EN, .enable_mask = 0x40, .voltage_min = 3000000, .voltage_max = 3000000, }, }; static int -rk805_read(device_t dev, uint8_t reg, uint8_t *data, uint8_t size) +rk8xx_read(device_t dev, uint8_t reg, uint8_t *data, uint8_t size) { int err; err = iicdev_readfrom(dev, reg, data, size, IIC_INTRWAIT); return (err); } static int -rk805_write(device_t dev, uint8_t reg, uint8_t *data, uint8_t size) +rk8xx_write(device_t dev, uint8_t reg, uint8_t *data, uint8_t size) { return (iicdev_writeto(dev, reg, data, size, IIC_INTRWAIT)); } static int -rk805_regnode_init(struct regnode *regnode) +rk8xx_regnode_init(struct regnode *regnode) { - struct rk805_reg_sc *sc; + struct rk8xx_reg_sc *sc; struct regnode_std_param *param; int rv, udelay, uvolt, status; sc = regnode_get_softc(regnode); dprintf(sc, "Regulator %s init called\n", sc->def->name); param = regnode_get_stdparam(regnode); if (param->min_uvolt == 0) return (0); /* Check that the regulator is preset to the correct voltage */ - rv = rk805_regnode_get_voltage(regnode, &uvolt); + rv = rk8xx_regnode_get_voltage(regnode, &uvolt); if (rv != 0) return(rv); if (uvolt >= param->min_uvolt && uvolt <= param->max_uvolt) return(0); /* * Set the regulator at the correct voltage if it is not enabled. * Do not enable it, this is will be done either by a * consumer or by regnode_set_constraint if boot_on is true */ - rv = rk805_regnode_status(regnode, &status); + rv = rk8xx_regnode_status(regnode, &status); if (rv != 0 || status == REGULATOR_STATUS_ENABLED) return (rv); - rv = rk805_regnode_set_voltage(regnode, param->min_uvolt, + rv = rk8xx_regnode_set_voltage(regnode, param->min_uvolt, param->max_uvolt, &udelay); if (udelay != 0) DELAY(udelay); return (rv); } static int -rk805_regnode_enable(struct regnode *regnode, bool enable, int *udelay) +rk8xx_regnode_enable(struct regnode *regnode, bool enable, int *udelay) { - struct rk805_reg_sc *sc; + struct rk8xx_reg_sc *sc; uint8_t val; sc = regnode_get_softc(regnode); dprintf(sc, "%sabling regulator %s\n", enable ? "En" : "Dis", sc->def->name); - rk805_read(sc->base_dev, sc->def->enable_reg, &val, 1); + rk8xx_read(sc->base_dev, sc->def->enable_reg, &val, 1); if (enable) val |= sc->def->enable_mask; else val &= ~sc->def->enable_mask; - rk805_write(sc->base_dev, sc->def->enable_reg, &val, 1); + rk8xx_write(sc->base_dev, sc->def->enable_reg, &val, 1); *udelay = 0; return (0); } static void -rk805_regnode_reg_to_voltage(struct rk805_reg_sc *sc, uint8_t val, int *uv) +rk8xx_regnode_reg_to_voltage(struct rk8xx_reg_sc *sc, uint8_t val, int *uv) { if (val < sc->def->voltage_nstep) *uv = sc->def->voltage_min + val * sc->def->voltage_step; else *uv = sc->def->voltage_min + (sc->def->voltage_nstep * sc->def->voltage_step); } static int -rk805_regnode_voltage_to_reg(struct rk805_reg_sc *sc, int min_uvolt, +rk8xx_regnode_voltage_to_reg(struct rk8xx_reg_sc *sc, int min_uvolt, int max_uvolt, uint8_t *val) { uint8_t nval; int nstep, uvolt; nval = 0; uvolt = sc->def->voltage_min; for (nstep = 0; nstep < sc->def->voltage_nstep && uvolt < min_uvolt; nstep++) { ++nval; uvolt += sc->def->voltage_step; } if (uvolt > max_uvolt) return (EINVAL); *val = nval; return (0); } static int -rk805_regnode_status(struct regnode *regnode, int *status) +rk8xx_regnode_status(struct regnode *regnode, int *status) { - struct rk805_reg_sc *sc; + struct rk8xx_reg_sc *sc; uint8_t val; sc = regnode_get_softc(regnode); *status = 0; - rk805_read(sc->base_dev, sc->def->enable_reg, &val, 1); + rk8xx_read(sc->base_dev, sc->def->enable_reg, &val, 1); if (val & sc->def->enable_mask) *status = REGULATOR_STATUS_ENABLED; return (0); } static int -rk805_regnode_set_voltage(struct regnode *regnode, int min_uvolt, +rk8xx_regnode_set_voltage(struct regnode *regnode, int min_uvolt, int max_uvolt, int *udelay) { - struct rk805_reg_sc *sc; + struct rk8xx_reg_sc *sc; uint8_t val; int uvolt; sc = regnode_get_softc(regnode); if (!sc->def->voltage_step) return (ENXIO); dprintf(sc, "Setting %s to %d<->%d uvolts\n", sc->def->name, min_uvolt, max_uvolt); - rk805_read(sc->base_dev, sc->def->voltage_reg, &val, 1); - if (rk805_regnode_voltage_to_reg(sc, min_uvolt, max_uvolt, &val) != 0) + rk8xx_read(sc->base_dev, sc->def->voltage_reg, &val, 1); + if (rk8xx_regnode_voltage_to_reg(sc, min_uvolt, max_uvolt, &val) != 0) return (ERANGE); - rk805_write(sc->base_dev, sc->def->voltage_reg, &val, 1); + rk8xx_write(sc->base_dev, sc->def->voltage_reg, &val, 1); - rk805_read(sc->base_dev, sc->def->voltage_reg, &val, 1); + rk8xx_read(sc->base_dev, sc->def->voltage_reg, &val, 1); *udelay = 0; - rk805_regnode_reg_to_voltage(sc, val, &uvolt); + rk8xx_regnode_reg_to_voltage(sc, val, &uvolt); dprintf(sc, "Regulator %s set to %d uvolt\n", sc->def->name, uvolt); return (0); } static int -rk805_regnode_get_voltage(struct regnode *regnode, int *uvolt) +rk8xx_regnode_get_voltage(struct regnode *regnode, int *uvolt) { - struct rk805_reg_sc *sc; + struct rk8xx_reg_sc *sc; uint8_t val; sc = regnode_get_softc(regnode); if (sc->def->voltage_min == sc->def->voltage_max) { *uvolt = sc->def->voltage_min; return (0); } if (!sc->def->voltage_step) return (ENXIO); - rk805_read(sc->base_dev, sc->def->voltage_reg, &val, 1); - rk805_regnode_reg_to_voltage(sc, val & sc->def->voltage_mask, uvolt); + rk8xx_read(sc->base_dev, sc->def->voltage_reg, &val, 1); + rk8xx_regnode_reg_to_voltage(sc, val & sc->def->voltage_mask, uvolt); dprintf(sc, "Regulator %s is at %d uvolt\n", sc->def->name, *uvolt); return (0); } -static regnode_method_t rk805_regnode_methods[] = { +static regnode_method_t rk8xx_regnode_methods[] = { /* Regulator interface */ - REGNODEMETHOD(regnode_init, rk805_regnode_init), - REGNODEMETHOD(regnode_enable, rk805_regnode_enable), - REGNODEMETHOD(regnode_status, rk805_regnode_status), - REGNODEMETHOD(regnode_set_voltage, rk805_regnode_set_voltage), - REGNODEMETHOD(regnode_get_voltage, rk805_regnode_get_voltage), + REGNODEMETHOD(regnode_init, rk8xx_regnode_init), + REGNODEMETHOD(regnode_enable, rk8xx_regnode_enable), + REGNODEMETHOD(regnode_status, rk8xx_regnode_status), + REGNODEMETHOD(regnode_set_voltage, rk8xx_regnode_set_voltage), + REGNODEMETHOD(regnode_get_voltage, rk8xx_regnode_get_voltage), REGNODEMETHOD(regnode_check_voltage, regnode_method_check_voltage), REGNODEMETHOD_END }; -DEFINE_CLASS_1(rk805_regnode, rk805_regnode_class, rk805_regnode_methods, - sizeof(struct rk805_reg_sc), regnode_class); +DEFINE_CLASS_1(rk8xx_regnode, rk8xx_regnode_class, rk8xx_regnode_methods, + sizeof(struct rk8xx_reg_sc), regnode_class); -static struct rk805_reg_sc * -rk805_reg_attach(device_t dev, phandle_t node, - struct rk805_regdef *def) +static struct rk8xx_reg_sc * +rk8xx_reg_attach(device_t dev, phandle_t node, + struct rk8xx_regdef *def) { - struct rk805_reg_sc *reg_sc; + struct rk8xx_reg_sc *reg_sc; struct regnode_init_def initdef; struct regnode *regnode; memset(&initdef, 0, sizeof(initdef)); if (regulator_parse_ofw_stdparam(dev, node, &initdef) != 0) { device_printf(dev, "cannot create regulator\n"); return (NULL); } if (initdef.std_param.min_uvolt == 0) initdef.std_param.min_uvolt = def->voltage_min; if (initdef.std_param.max_uvolt == 0) initdef.std_param.max_uvolt = def->voltage_max; initdef.id = def->id; initdef.ofw_node = node; - regnode = regnode_create(dev, &rk805_regnode_class, &initdef); + regnode = regnode_create(dev, &rk8xx_regnode_class, &initdef); if (regnode == NULL) { device_printf(dev, "cannot create regulator\n"); return (NULL); } reg_sc = regnode_get_softc(regnode); reg_sc->regnode = regnode; reg_sc->base_dev = dev; reg_sc->def = def; reg_sc->xref = OF_xref_from_node(node); reg_sc->param = regnode_get_stdparam(regnode); regnode_register(regnode); return (reg_sc); } /* -------------------------------------------------------------------------- */ /* Clock class and method */ -struct rk805_clk_sc { +struct rk8xx_clk_sc { device_t base_dev; }; #define CLK32OUT_REG 0x20 #define CLK32OUT_CLKOUT2_EN 1 static int -rk805_clk_set_gate_1(struct clknode *clk, bool enable) +rk8xx_clk_set_gate_1(struct clknode *clk, bool enable) { - struct rk805_clk_sc *sc; + struct rk8xx_clk_sc *sc; uint8_t val; sc = clknode_get_softc(clk); - rk805_read(sc->base_dev, CLK32OUT_REG, &val, sizeof(val)); + rk8xx_read(sc->base_dev, CLK32OUT_REG, &val, sizeof(val)); if (enable) val |= CLK32OUT_CLKOUT2_EN; else val &= ~CLK32OUT_CLKOUT2_EN; - rk805_write(sc->base_dev, CLK32OUT_REG, &val, 1); + rk8xx_write(sc->base_dev, CLK32OUT_REG, &val, 1); return (0); } static int -rk805_clk_recalc(struct clknode *clk, uint64_t *freq) +rk8xx_clk_recalc(struct clknode *clk, uint64_t *freq) { *freq = 32768; return (0); } -static clknode_method_t rk805_clk_clknode_methods_0[] = { - CLKNODEMETHOD(clknode_recalc_freq, rk805_clk_recalc), +static clknode_method_t rk8xx_clk_clknode_methods_0[] = { + CLKNODEMETHOD(clknode_recalc_freq, rk8xx_clk_recalc), CLKNODEMETHOD_END }; -DEFINE_CLASS_1(rk805_clk_clknode_0, rk805_clk_clknode_class_0, - rk805_clk_clknode_methods_0, sizeof(struct rk805_clk_sc), +DEFINE_CLASS_1(rk8xx_clk_clknode_0, rk8xx_clk_clknode_class_0, + rk8xx_clk_clknode_methods_0, sizeof(struct rk8xx_clk_sc), clknode_class); -static clknode_method_t rk805_clk_clknode_methods_1[] = { - CLKNODEMETHOD(clknode_set_gate, rk805_clk_set_gate_1), +static clknode_method_t rk8xx_clk_clknode_methods_1[] = { + CLKNODEMETHOD(clknode_set_gate, rk8xx_clk_set_gate_1), CLKNODEMETHOD_END }; -DEFINE_CLASS_1(rk805_clk_clknode_1, rk805_clk_clknode_class_1, - rk805_clk_clknode_methods_1, sizeof(struct rk805_clk_sc), - rk805_clk_clknode_class_0); +DEFINE_CLASS_1(rk8xx_clk_clknode_1, rk8xx_clk_clknode_class_1, + rk8xx_clk_clknode_methods_1, sizeof(struct rk8xx_clk_sc), + rk8xx_clk_clknode_class_0); static int -rk805_export_clocks(device_t dev) +rk8xx_export_clocks(device_t dev) { struct clkdom *clkdom; struct clknode_init_def clkidef; struct clknode *clk; - struct rk805_clk_sc *clksc; + struct rk8xx_clk_sc *clksc; const char **clknames; phandle_t node; int nclks, rv; node = ofw_bus_get_node(dev); /* clock-output-names are optional. Could use them for clkidef.name. */ nclks = ofw_bus_string_list_to_array(node, "clock-output-names", &clknames); clkdom = clkdom_create(dev); memset(&clkidef, 0, sizeof(clkidef)); clkidef.id = 0; clkidef.name = (nclks = 2) ? clknames[0] : "clk32kout1"; - clk = clknode_create(clkdom, &rk805_clk_clknode_class_0, &clkidef); + clk = clknode_create(clkdom, &rk8xx_clk_clknode_class_0, &clkidef); if (clk == NULL) { device_printf(dev, "Cannot create '%s'.\n", clkidef.name); return (ENXIO); } clksc = clknode_get_softc(clk); clksc->base_dev = dev; clknode_register(clkdom, clk); memset(&clkidef, 0, sizeof(clkidef)); clkidef.id = 1; clkidef.name = (nclks = 2) ? clknames[1] : "clk32kout2"; - clk = clknode_create(clkdom, &rk805_clk_clknode_class_1, &clkidef); + clk = clknode_create(clkdom, &rk8xx_clk_clknode_class_1, &clkidef); if (clk == NULL) { device_printf(dev, "Cannot create '%s'.\n", clkidef.name); return (ENXIO); } clksc = clknode_get_softc(clk); clksc->base_dev = dev; clknode_register(clkdom, clk); rv = clkdom_finit(clkdom); if (rv != 0) { device_printf(dev, "Cannot finalize clkdom initialization: " "%d\n", rv); return (ENXIO); } if (bootverbose) clkdom_dump(clkdom); return (0); } /* -------------------------------------------------------------------------- */ static int -rk805_probe(device_t dev) +rk8xx_probe(device_t dev) { if (!ofw_bus_status_okay(dev)) return (ENXIO); if (ofw_bus_search_compatible(dev, compat_data)->ocd_data == 0) return (ENXIO); - device_set_desc(dev, "RockChip RK805 PMIC"); + device_set_desc(dev, "RockChip RK8XX PMIC"); return (BUS_PROBE_DEFAULT); } static void -rk805_start(void *pdev) +rk8xx_start(void *pdev) { - struct rk805_softc *sc; + struct rk8xx_softc *sc; device_t dev; uint8_t data[2]; int err; dev = pdev; sc = device_get_softc(dev); sc->dev = dev; /* No version register in RK808 */ if (bootverbose && sc->type == RK805) { - err = rk805_read(dev, RK805_CHIP_NAME, data, 1); + err = rk8xx_read(dev, RK805_CHIP_NAME, data, 1); if (err != 0) { device_printf(dev, "Cannot read chip name reg\n"); return; } - err = rk805_read(dev, RK805_CHIP_VER, data + 1, 1); + err = rk8xx_read(dev, RK805_CHIP_VER, data + 1, 1); if (err != 0) { device_printf(dev, "Cannot read chip version reg\n"); return; } device_printf(dev, "Chip Name: %x\n", data[0] << 4 | ((data[1] >> 4) & 0xf)); device_printf(dev, "Chip Version: %x\n", data[1] & 0xf); } /* Register this as a 1Hz clock */ clock_register(dev, 1000000); config_intrhook_disestablish(&sc->intr_hook); } static int -rk805_gettime(device_t dev, struct timespec *ts) +rk8xx_gettime(device_t dev, struct timespec *ts) { struct bcd_clocktime bct; uint8_t data[7]; uint8_t ctrl; int error; /* Latch the RTC value into the shadow registers and set 24hr mode */ - error = rk805_read(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_read(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); ctrl |= RK805_RTC_READSEL; ctrl &= ~(RK805_RTC_AMPM_MODE | RK805_RTC_GET_TIME); - error = rk805_write(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_write(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); ctrl |= RK805_RTC_GET_TIME; - error = rk805_write(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_write(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); ctrl &= ~RK805_RTC_GET_TIME; - error = rk805_write(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_write(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); /* This works as long as RK805_RTC_SECS = 0 */ - error = rk805_read(dev, RK805_RTC_SECS, data, 7); + error = rk8xx_read(dev, RK805_RTC_SECS, data, 7); if (error != 0) return (error); /* * If the reported year is earlier than 2019, assume the clock is unset. * This is both later than the reset value for the RK805 and RK808 as * well as being prior to the current time. */ if (data[RK805_RTC_YEARS] < 0x19) return (EINVAL); memset(&bct, 0, sizeof(bct)); bct.year = data[RK805_RTC_YEARS]; bct.mon = data[RK805_RTC_MONTHS] & RK805_RTC_MONTHS_MASK; bct.day = data[RK805_RTC_DAYS] & RK805_RTC_DAYS_MASK; bct.hour = data[RK805_RTC_HOURS] & RK805_RTC_HOURS_MASK; bct.min = data[RK805_RTC_MINUTES] & RK805_RTC_MINUTES_MASK; bct.sec = data[RK805_RTC_SECS] & RK805_RTC_SECS_MASK; bct.dow = data[RK805_RTC_WEEKS] & RK805_RTC_WEEKS_MASK; /* The day of week is reported as 1-7 with 1 = Monday */ if (bct.dow == 7) bct.dow = 0; bct.ispm = 0; if (bootverbose) device_printf(dev, "Read RTC: %02x-%02x-%02x %02x:%02x:%02x\n", bct.year, bct.mon, bct.day, bct.hour, bct.min, bct.sec); return (clock_bcd_to_ts(&bct, ts, false)); } static int -rk805_settime(device_t dev, struct timespec *ts) +rk8xx_settime(device_t dev, struct timespec *ts) { struct bcd_clocktime bct; uint8_t data[7]; int error; uint8_t ctrl; clock_ts_to_bcd(ts, &bct, false); /* This works as long as RK805_RTC_SECS = 0 */ data[RK805_RTC_YEARS] = bct.year; data[RK805_RTC_MONTHS] = bct.mon; data[RK805_RTC_DAYS] = bct.day; data[RK805_RTC_HOURS] = bct.hour; data[RK805_RTC_MINUTES] = bct.min; data[RK805_RTC_SECS] = bct.sec; data[RK805_RTC_WEEKS] = bct.dow; /* The day of week is reported as 1-7 with 1 = Monday */ if (data[RK805_RTC_WEEKS] == 0) data[RK805_RTC_WEEKS] = 7; - error = rk805_read(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_read(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); ctrl |= RK805_RTC_CTRL_STOP; ctrl &= ~RK805_RTC_AMPM_MODE; - error = rk805_write(dev, RK805_RTC_CTRL, &ctrl, 1); + error = rk8xx_write(dev, RK805_RTC_CTRL, &ctrl, 1); if (error != 0) return (error); - error = rk805_write(dev, RK805_RTC_SECS, data, 7); + error = rk8xx_write(dev, RK805_RTC_SECS, data, 7); ctrl &= ~RK805_RTC_CTRL_STOP; - rk805_write(dev, RK805_RTC_CTRL, &ctrl, 1); + rk8xx_write(dev, RK805_RTC_CTRL, &ctrl, 1); return (error); } static void rk805_poweroff(void *arg, int howto) { device_t dev = arg; int error; uint8_t val; if ((howto & RB_POWEROFF) == 0) return; device_printf(dev, "Powering off...\n"); error = rk805_read(dev, RK805_DEV_CTRL, &val, 1); if (error == 0) { val |= RK805_DEV_CTRL_OFF; error = rk805_write(dev, RK805_DEV_CTRL, &val, 1); /* Wait a bit for the command to take effect. */ if (error == 0) DELAY(100); } device_printf(dev, "Power off failed\n"); } static int -rk805_attach(device_t dev) +rk8xx_attach(device_t dev) { - struct rk805_softc *sc; - struct rk805_reg_sc *reg; - struct rk805_regdef *regdefs; + struct rk8xx_softc *sc; + struct rk8xx_reg_sc *reg; + struct rk8xx_regdef *regdefs; struct reg_list *regp; phandle_t rnode, child; int error, i; sc = device_get_softc(dev); sc->type = ofw_bus_search_compatible(dev, compat_data)->ocd_data; - error = rk805_export_clocks(dev); + error = rk8xx_export_clocks(dev); if (error != 0) return (error); - sc->intr_hook.ich_func = rk805_start; + sc->intr_hook.ich_func = rk8xx_start; sc->intr_hook.ich_arg = dev; if (config_intrhook_establish(&sc->intr_hook) != 0) return (ENOMEM); switch (sc->type) { case RK805: regdefs = rk805_regdefs; sc->nregs = nitems(rk805_regdefs); break; case RK808: regdefs = rk808_regdefs; sc->nregs = nitems(rk808_regdefs); break; default: device_printf(dev, "Unknown type %d\n", sc->type); return (ENXIO); } TAILQ_INIT(&sc->regs); rnode = ofw_bus_find_child(ofw_bus_get_node(dev), "regulators"); if (rnode > 0) { for (i = 0; i < sc->nregs; i++) { child = ofw_bus_find_child(rnode, regdefs[i].name); if (child == 0) continue; if (OF_hasprop(child, "regulator-name") != 1) continue; - reg = rk805_reg_attach(dev, child, ®defs[i]); + reg = rk8xx_reg_attach(dev, child, ®defs[i]); if (reg == NULL) { device_printf(dev, "cannot attach regulator %s\n", regdefs[i].name); continue; } regp = malloc(sizeof(*regp), M_DEVBUF, M_WAITOK | M_ZERO); regp->reg = reg; TAILQ_INSERT_TAIL(&sc->regs, regp, next); if (bootverbose) device_printf(dev, "Regulator %s attached\n", regdefs[i].name); } } if (OF_hasprop(ofw_bus_get_node(dev), "rockchip,system-power-controller")) { /* * The priority is chosen to override PSCI and EFI shutdown * methods as those two just hang without powering off on Rock64 * at least. */ EVENTHANDLER_REGISTER(shutdown_final, rk805_poweroff, dev, SHUTDOWN_PRI_LAST - 2); } return (0); } static int -rk805_detach(device_t dev) +rk8xx_detach(device_t dev) { /* We cannot detach regulators */ return (EBUSY); } static int -rk805_map(device_t dev, phandle_t xref, int ncells, +rk8xx_map(device_t dev, phandle_t xref, int ncells, pcell_t *cells, intptr_t *id) { - struct rk805_softc *sc; + struct rk8xx_softc *sc; struct reg_list *regp; sc = device_get_softc(dev); TAILQ_FOREACH(regp, &sc->regs, next) { if (regp->reg->xref == xref) { *id = regp->reg->def->id; return (0); } } return (ERANGE); } -static device_method_t rk805_methods[] = { - DEVMETHOD(device_probe, rk805_probe), - DEVMETHOD(device_attach, rk805_attach), - DEVMETHOD(device_detach, rk805_detach), +static device_method_t rk8xx_methods[] = { + DEVMETHOD(device_probe, rk8xx_probe), + DEVMETHOD(device_attach, rk8xx_attach), + DEVMETHOD(device_detach, rk8xx_detach), /* regdev interface */ - DEVMETHOD(regdev_map, rk805_map), + DEVMETHOD(regdev_map, rk8xx_map), /* Clock interface */ - DEVMETHOD(clock_gettime, rk805_gettime), - DEVMETHOD(clock_settime, rk805_settime), + DEVMETHOD(clock_gettime, rk8xx_gettime), + DEVMETHOD(clock_settime, rk8xx_settime), DEVMETHOD_END }; -static driver_t rk805_driver = { - "rk805_pmu", - rk805_methods, - sizeof(struct rk805_softc), +static driver_t rk8xx_driver = { + "rk8xx_pmu", + rk8xx_methods, + sizeof(struct rk8xx_softc), }; -static devclass_t rk805_devclass; +static devclass_t rk8xx_devclass; -EARLY_DRIVER_MODULE(rk805, iicbus, rk805_driver, rk805_devclass, 0, 0, +EARLY_DRIVER_MODULE(rk8xx, iicbus, rk8xx_driver, rk8xx_devclass, 0, 0, BUS_PASS_INTERRUPT + BUS_PASS_ORDER_LAST); -MODULE_DEPEND(rk805, iicbus, IICBUS_MINVER, IICBUS_PREFVER, IICBUS_MAXVER); -MODULE_VERSION(rk805, 1); +MODULE_DEPEND(rk8xx, iicbus, IICBUS_MINVER, IICBUS_PREFVER, IICBUS_MAXVER); +MODULE_VERSION(rk8xx, 1);