/* * (C) Copyright 2012 * Henrik Nordstrom * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include static int axp209_write(enum axp209_reg reg, u8 val) { return i2c_write(0x34, reg, 1, &val, 1); } static int axp209_read(enum axp209_reg reg, u8 *val) { return i2c_read(0x34, reg, 1, val, 1); } static u8 axp209_mvolt_to_cfg(int mvolt, int min, int max, int div) { if (mvolt < min) mvolt = min; else if (mvolt > max) mvolt = max; return (mvolt - min) / div; } int axp209_set_dcdc2(int mvolt) { int rc; u8 cfg, current; cfg = axp209_mvolt_to_cfg(mvolt, 700, 2275, 25); /* Do we really need to be this gentle? It has built-in voltage slope */ while ((rc = axp209_read(AXP209_DCDC2_VOLTAGE, ¤t)) == 0 && current != cfg) { if (current < cfg) current++; else current--; rc = axp209_write(AXP209_DCDC2_VOLTAGE, current); if (rc) break; } return rc; } int axp209_set_dcdc3(int mvolt) { u8 cfg = axp209_mvolt_to_cfg(mvolt, 700, 3500, 25); return axp209_write(AXP209_DCDC3_VOLTAGE, cfg); } int axp209_set_ldo2(int mvolt) { int rc; u8 cfg, reg; cfg = axp209_mvolt_to_cfg(mvolt, 1800, 3300, 100); rc = axp209_read(AXP209_LDO24_VOLTAGE, ®); if (rc) return rc; /* LDO2 configuration is in upper 4 bits */ reg = (reg & 0x0f) | (cfg << 4); return axp209_write(AXP209_LDO24_VOLTAGE, reg); } int axp209_set_ldo3(int mvolt) { u8 cfg; if (mvolt == -1) cfg = 0x80; /* determined by LDO3IN pin */ else cfg = axp209_mvolt_to_cfg(mvolt, 700, 3500, 25); return axp209_write(AXP209_LDO3_VOLTAGE, cfg); } int axp209_set_ldo4(int mvolt) { int rc; static const int vindex[] = { 1250, 1300, 1400, 1500, 1600, 1700, 1800, 1900, 2000, 2500, 2700, 2800, 3000, 3100, 3200, 3300 }; u8 cfg, reg; /* Translate mvolt to register cfg value, requested <= selected */ for (cfg = 15; vindex[cfg] > mvolt && cfg > 0; cfg--); rc = axp209_read(AXP209_LDO24_VOLTAGE, ®); if (rc) return rc; /* LDO4 configuration is in lower 4 bits */ reg = (reg & 0xf0) | (cfg << 0); return axp209_write(AXP209_LDO24_VOLTAGE, reg); } int axp209_init(void) { u8 ver; int i, rc; rc = axp209_read(AXP209_CHIP_VERSION, &ver); if (rc) return rc; /* Low 4 bits is chip version */ ver &= 0x0f; if (ver != 0x1) return -1; /* Mask all interrupts */ for (i = AXP209_IRQ_ENABLE1; i <= AXP209_IRQ_ENABLE5; i++) { rc = axp209_write(i, 0); if (rc) return rc; } return 0; } int axp209_poweron_by_dc(void) { u8 v; if (axp209_read(AXP209_POWER_STATUS, &v)) return 0; return (v & AXP209_POWER_STATUS_ON_BY_DC); } int axp209_power_button(void) { u8 v; if (axp209_read(AXP209_IRQ_STATUS5, &v)) return 0; axp209_write(AXP209_IRQ_STATUS5, AXP209_IRQ5_PEK_DOWN); return v & AXP209_IRQ5_PEK_DOWN; } static u8 axp209_get_gpio_ctrl_reg(unsigned int pin) { switch (pin) { case 0: return AXP209_GPIO0_CTRL; case 1: return AXP209_GPIO1_CTRL; case 2: return AXP209_GPIO2_CTRL; case 3: return AXP209_GPIO3_CTRL; } return 0; } int axp_gpio_direction_input(unsigned int pin) { if (pin == SUNXI_GPIO_AXP0_VBUS_DETECT) return 0; u8 reg = axp209_get_gpio_ctrl_reg(pin); /* GPIO3 is "special" */ u8 val = (pin == 3) ? AXP209_GPIO3_INPUT : AXP209_GPIO_INPUT; return axp209_write(reg, val); } int axp_gpio_direction_output(unsigned int pin, unsigned int val) { u8 reg = axp209_get_gpio_ctrl_reg(pin); if (val) { val = (pin == 3) ? AXP209_GPIO3_OUTPUT_HIGH : AXP209_GPIO_OUTPUT_HIGH; } else { val = (pin == 3) ? AXP209_GPIO3_OUTPUT_LOW : AXP209_GPIO_OUTPUT_LOW; } return axp209_write(reg, val); } int axp_gpio_get_value(unsigned int pin) { u8 val, mask; int rc; if (pin == SUNXI_GPIO_AXP0_VBUS_DETECT) { rc = axp209_read(AXP209_POWER_STATUS, &val); mask = AXP209_POWER_STATUS_VBUS_USABLE; } else if (pin == 3) { rc = axp209_read(AXP209_GPIO3_CTRL, &val); mask = 1; } else { rc = axp209_read(AXP209_GPIO_STATE, &val); mask = 1 << (pin + 4); } if (rc) return rc; return (val & mask) ? 1 : 0; } int axp_gpio_set_value(unsigned int pin, unsigned int val) { return axp_gpio_direction_output(pin, val); }