// SPDX-License-Identifier: GPL-2.0 #include #include #include #include "qca8k.h" #include "qca8k_leds.h" static u32 qca8k_phy_to_port(int phy) { /* Internal PHY 0 has port at index 1. * Internal PHY 1 has port at index 2. * Internal PHY 2 has port at index 3. * Internal PHY 3 has port at index 4. * Internal PHY 4 has port at index 5. */ return phy + 1; } static int qca8k_get_enable_led_reg(int port_num, int led_num, struct qca8k_led_pattern_en *reg_info) { switch (port_num) { case 0: reg_info->reg = QCA8K_LED_CTRL_REG(led_num); reg_info->shift = QCA8K_LED_PHY0123_CONTROL_RULE_SHIFT; break; case 1: case 2: case 3: /* Port 123 are controlled on a different reg */ reg_info->reg = QCA8K_LED_CTRL3_REG; reg_info->shift = QCA8K_LED_PHY123_PATTERN_EN_SHIFT(port_num, led_num); break; case 4: reg_info->reg = QCA8K_LED_CTRL_REG(led_num); reg_info->shift = QCA8K_LED_PHY4_CONTROL_RULE_SHIFT; break; default: return -EINVAL; } return 0; } static int qca8k_get_control_led_reg(int port_num, int led_num, struct qca8k_led_pattern_en *reg_info) { reg_info->reg = QCA8K_LED_CTRL_REG(led_num); /* 6 total control rule: * 3 control rules for phy0-3 that applies to all their leds * 3 control rules for phy4 */ if (port_num == 4) reg_info->shift = QCA8K_LED_PHY4_CONTROL_RULE_SHIFT; else reg_info->shift = QCA8K_LED_PHY0123_CONTROL_RULE_SHIFT; return 0; } static int qca8k_parse_netdev(unsigned long rules, u32 *offload_trigger) { /* Parsing specific to netdev trigger */ if (test_bit(TRIGGER_NETDEV_TX, &rules)) *offload_trigger |= QCA8K_LED_TX_BLINK_MASK; if (test_bit(TRIGGER_NETDEV_RX, &rules)) *offload_trigger |= QCA8K_LED_RX_BLINK_MASK; if (test_bit(TRIGGER_NETDEV_LINK_10, &rules)) *offload_trigger |= QCA8K_LED_LINK_10M_EN_MASK; if (test_bit(TRIGGER_NETDEV_LINK_100, &rules)) *offload_trigger |= QCA8K_LED_LINK_100M_EN_MASK; if (test_bit(TRIGGER_NETDEV_LINK_1000, &rules)) *offload_trigger |= QCA8K_LED_LINK_1000M_EN_MASK; if (test_bit(TRIGGER_NETDEV_HALF_DUPLEX, &rules)) *offload_trigger |= QCA8K_LED_HALF_DUPLEX_MASK; if (test_bit(TRIGGER_NETDEV_FULL_DUPLEX, &rules)) *offload_trigger |= QCA8K_LED_FULL_DUPLEX_MASK; if (rules && !*offload_trigger) return -EOPNOTSUPP; /* Enable some default rule by default to the requested mode: * - Blink at 4Hz by default */ *offload_trigger |= QCA8K_LED_BLINK_4HZ; return 0; } static int qca8k_led_brightness_set(struct qca8k_led *led, enum led_brightness brightness) { struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 mask, val; qca8k_get_enable_led_reg(led->port_num, led->led_num, ®_info); val = QCA8K_LED_ALWAYS_OFF; if (brightness) val = QCA8K_LED_ALWAYS_ON; /* HW regs to control brightness is special and port 1-2-3 * are placed in a different reg. * * To control port 0 brightness: * - the 2 bit (15, 14) of: * - QCA8K_LED_CTRL0_REG for led1 * - QCA8K_LED_CTRL1_REG for led2 * - QCA8K_LED_CTRL2_REG for led3 * * To control port 4: * - the 2 bit (31, 30) of: * - QCA8K_LED_CTRL0_REG for led1 * - QCA8K_LED_CTRL1_REG for led2 * - QCA8K_LED_CTRL2_REG for led3 * * To control port 1: * - the 2 bit at (9, 8) of QCA8K_LED_CTRL3_REG are used for led1 * - the 2 bit at (11, 10) of QCA8K_LED_CTRL3_REG are used for led2 * - the 2 bit at (13, 12) of QCA8K_LED_CTRL3_REG are used for led3 * * To control port 2: * - the 2 bit at (15, 14) of QCA8K_LED_CTRL3_REG are used for led1 * - the 2 bit at (17, 16) of QCA8K_LED_CTRL3_REG are used for led2 * - the 2 bit at (19, 18) of QCA8K_LED_CTRL3_REG are used for led3 * * To control port 3: * - the 2 bit at (21, 20) of QCA8K_LED_CTRL3_REG are used for led1 * - the 2 bit at (23, 22) of QCA8K_LED_CTRL3_REG are used for led2 * - the 2 bit at (25, 24) of QCA8K_LED_CTRL3_REG are used for led3 * * To abstract this and have less code, we use the port and led numm * to calculate the shift and the correct reg due to this problem of * not having a 1:1 map of LED with the regs. */ if (led->port_num == 0 || led->port_num == 4) { mask = QCA8K_LED_PATTERN_EN_MASK; val <<= QCA8K_LED_PATTERN_EN_SHIFT; } else { mask = QCA8K_LED_PHY123_PATTERN_EN_MASK; } return regmap_update_bits(priv->regmap, reg_info.reg, mask << reg_info.shift, val << reg_info.shift); } static int qca8k_cled_brightness_set_blocking(struct led_classdev *ldev, enum led_brightness brightness) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); return qca8k_led_brightness_set(led, brightness); } static enum led_brightness qca8k_led_brightness_get(struct qca8k_led *led) { struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 val; int ret; qca8k_get_enable_led_reg(led->port_num, led->led_num, ®_info); ret = regmap_read(priv->regmap, reg_info.reg, &val); if (ret) return 0; val >>= reg_info.shift; if (led->port_num == 0 || led->port_num == 4) { val &= QCA8K_LED_PATTERN_EN_MASK; val >>= QCA8K_LED_PATTERN_EN_SHIFT; } else { val &= QCA8K_LED_PHY123_PATTERN_EN_MASK; } /* Assume brightness ON only when the LED is set to always ON */ return val == QCA8K_LED_ALWAYS_ON; } static int qca8k_cled_blink_set(struct led_classdev *ldev, unsigned long *delay_on, unsigned long *delay_off) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); u32 mask, val = QCA8K_LED_ALWAYS_BLINK_4HZ; struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; if (*delay_on == 0 && *delay_off == 0) { *delay_on = 125; *delay_off = 125; } if (*delay_on != 125 || *delay_off != 125) { /* The hardware only supports blinking at 4Hz. Fall back * to software implementation in other cases. */ return -EINVAL; } qca8k_get_enable_led_reg(led->port_num, led->led_num, ®_info); if (led->port_num == 0 || led->port_num == 4) { mask = QCA8K_LED_PATTERN_EN_MASK; val <<= QCA8K_LED_PATTERN_EN_SHIFT; } else { mask = QCA8K_LED_PHY123_PATTERN_EN_MASK; } regmap_update_bits(priv->regmap, reg_info.reg, mask << reg_info.shift, val << reg_info.shift); return 0; } static int qca8k_cled_trigger_offload(struct led_classdev *ldev, bool enable) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 mask, val = QCA8K_LED_ALWAYS_OFF; qca8k_get_enable_led_reg(led->port_num, led->led_num, ®_info); if (enable) val = QCA8K_LED_RULE_CONTROLLED; if (led->port_num == 0 || led->port_num == 4) { mask = QCA8K_LED_PATTERN_EN_MASK; val <<= QCA8K_LED_PATTERN_EN_SHIFT; } else { mask = QCA8K_LED_PHY123_PATTERN_EN_MASK; } return regmap_update_bits(priv->regmap, reg_info.reg, mask << reg_info.shift, val << reg_info.shift); } static bool qca8k_cled_hw_control_status(struct led_classdev *ldev) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 val; qca8k_get_enable_led_reg(led->port_num, led->led_num, ®_info); regmap_read(priv->regmap, reg_info.reg, &val); val >>= reg_info.shift; if (led->port_num == 0 || led->port_num == 4) { val &= QCA8K_LED_PATTERN_EN_MASK; val >>= QCA8K_LED_PATTERN_EN_SHIFT; } else { val &= QCA8K_LED_PHY123_PATTERN_EN_MASK; } return val == QCA8K_LED_RULE_CONTROLLED; } static int qca8k_cled_hw_control_is_supported(struct led_classdev *ldev, unsigned long rules) { u32 offload_trigger = 0; return qca8k_parse_netdev(rules, &offload_trigger); } static int qca8k_cled_hw_control_set(struct led_classdev *ldev, unsigned long rules) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 offload_trigger = 0; int ret; ret = qca8k_parse_netdev(rules, &offload_trigger); if (ret) return ret; ret = qca8k_cled_trigger_offload(ldev, true); if (ret) return ret; qca8k_get_control_led_reg(led->port_num, led->led_num, ®_info); return regmap_update_bits(priv->regmap, reg_info.reg, QCA8K_LED_RULE_MASK << reg_info.shift, offload_trigger << reg_info.shift); } static int qca8k_cled_hw_control_get(struct led_classdev *ldev, unsigned long *rules) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); struct qca8k_led_pattern_en reg_info; struct qca8k_priv *priv = led->priv; u32 val; int ret; /* With hw control not active return err */ if (!qca8k_cled_hw_control_status(ldev)) return -EINVAL; qca8k_get_control_led_reg(led->port_num, led->led_num, ®_info); ret = regmap_read(priv->regmap, reg_info.reg, &val); if (ret) return ret; val >>= reg_info.shift; val &= QCA8K_LED_RULE_MASK; /* Parsing specific to netdev trigger */ if (val & QCA8K_LED_TX_BLINK_MASK) set_bit(TRIGGER_NETDEV_TX, rules); if (val & QCA8K_LED_RX_BLINK_MASK) set_bit(TRIGGER_NETDEV_RX, rules); if (val & QCA8K_LED_LINK_10M_EN_MASK) set_bit(TRIGGER_NETDEV_LINK_10, rules); if (val & QCA8K_LED_LINK_100M_EN_MASK) set_bit(TRIGGER_NETDEV_LINK_100, rules); if (val & QCA8K_LED_LINK_1000M_EN_MASK) set_bit(TRIGGER_NETDEV_LINK_1000, rules); if (val & QCA8K_LED_HALF_DUPLEX_MASK) set_bit(TRIGGER_NETDEV_HALF_DUPLEX, rules); if (val & QCA8K_LED_FULL_DUPLEX_MASK) set_bit(TRIGGER_NETDEV_FULL_DUPLEX, rules); return 0; } static struct device *qca8k_cled_hw_control_get_device(struct led_classdev *ldev) { struct qca8k_led *led = container_of(ldev, struct qca8k_led, cdev); struct qca8k_priv *priv = led->priv; struct dsa_port *dp; dp = dsa_to_port(priv->ds, qca8k_phy_to_port(led->port_num)); if (!dp) return NULL; if (dp->slave) return &dp->slave->dev; return NULL; } static int qca8k_parse_port_leds(struct qca8k_priv *priv, struct fwnode_handle *port, int port_num) { struct fwnode_handle *led = NULL, *leds = NULL; struct led_init_data init_data = { }; struct dsa_switch *ds = priv->ds; enum led_default_state state; struct qca8k_led *port_led; int led_num, led_index; int ret; leds = fwnode_get_named_child_node(port, "leds"); if (!leds) { dev_dbg(priv->dev, "No Leds node specified in device tree for port %d!\n", port_num); return 0; } fwnode_for_each_child_node(leds, led) { /* Reg represent the led number of the port. * Each port can have at most 3 leds attached * Commonly: * 1. is gigabit led * 2. is mbit led * 3. additional status led */ if (fwnode_property_read_u32(led, "reg", &led_num)) continue; if (led_num >= QCA8K_LED_PORT_COUNT) { dev_warn(priv->dev, "Invalid LED reg %d defined for port %d", led_num, port_num); continue; } led_index = QCA8K_LED_PORT_INDEX(port_num, led_num); port_led = &priv->ports_led[led_index]; port_led->port_num = port_num; port_led->led_num = led_num; port_led->priv = priv; state = led_init_default_state_get(led); switch (state) { case LEDS_DEFSTATE_ON: port_led->cdev.brightness = 1; qca8k_led_brightness_set(port_led, 1); break; case LEDS_DEFSTATE_KEEP: port_led->cdev.brightness = qca8k_led_brightness_get(port_led); break; default: port_led->cdev.brightness = 0; qca8k_led_brightness_set(port_led, 0); } port_led->cdev.max_brightness = 1; port_led->cdev.brightness_set_blocking = qca8k_cled_brightness_set_blocking; port_led->cdev.blink_set = qca8k_cled_blink_set; port_led->cdev.hw_control_is_supported = qca8k_cled_hw_control_is_supported; port_led->cdev.hw_control_set = qca8k_cled_hw_control_set; port_led->cdev.hw_control_get = qca8k_cled_hw_control_get; port_led->cdev.hw_control_get_device = qca8k_cled_hw_control_get_device; port_led->cdev.hw_control_trigger = "netdev"; init_data.default_label = ":port"; init_data.fwnode = led; init_data.devname_mandatory = true; init_data.devicename = kasprintf(GFP_KERNEL, "%s:0%d", ds->slave_mii_bus->id, port_num); if (!init_data.devicename) return -ENOMEM; ret = devm_led_classdev_register_ext(priv->dev, &port_led->cdev, &init_data); if (ret) dev_warn(priv->dev, "Failed to init LED %d for port %d", led_num, port_num); kfree(init_data.devicename); } return 0; } int qca8k_setup_led_ctrl(struct qca8k_priv *priv) { struct fwnode_handle *ports, *port; int port_num; int ret; ports = device_get_named_child_node(priv->dev, "ports"); if (!ports) { dev_info(priv->dev, "No ports node specified in device tree!"); return 0; } fwnode_for_each_child_node(ports, port) { if (fwnode_property_read_u32(port, "reg", &port_num)) continue; /* Skip checking for CPU port 0 and CPU port 6 as not supported */ if (port_num == 0 || port_num == 6) continue; /* Each port can have at most 3 different leds attached. * Switch port starts from 0 to 6, but port 0 and 6 are CPU * port. The port index needs to be decreased by one to identify * the correct port for LED setup. */ ret = qca8k_parse_port_leds(priv, port, qca8k_port_to_phy(port_num)); if (ret) return ret; } return 0; }