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1d3ff22d63
This patch adds latest DT bindings for leds-bcm6328 init register configuration. Signed-off-by: Álvaro Fernández Rojas <noltari@gmail.com> Signed-off-by: Jacek Anaszewski <j.anaszewski@samsung.com>
320 lines
8.3 KiB
Plaintext
320 lines
8.3 KiB
Plaintext
LEDs connected to Broadcom BCM6328 controller
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This controller is present on BCM6318, BCM6328, BCM6362 and BCM63268.
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In these SoCs it's possible to control LEDs both as GPIOs or by hardware.
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However, on some devices there are Serial LEDs (LEDs connected to a 74x164
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controller), which can either be controlled by software (exporting the 74x164
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as spi-gpio. See Documentation/devicetree/bindings/gpio/gpio-74x164.txt), or
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by hardware using this driver.
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Some of these Serial LEDs are hardware controlled (e.g. ethernet LEDs) and
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exporting the 74x164 as spi-gpio prevents those LEDs to be hardware
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controlled, so the only chance to keep them working is by using this driver.
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BCM6328 LED controller has a HWDIS register, which controls whether a LED
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should be controlled by a hardware signal instead of the MODE register value,
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with 0 meaning hardware control enabled and 1 hardware control disabled. This
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is usually 1:1 for hardware to LED signals, but through the activity/link
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registers you have some limited control over rerouting the LEDs (as
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explained later in brcm,link-signal-sources). Even if a LED is hardware
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controlled you are still able to make it blink or light it up if it isn't,
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but you can't turn it off if the hardware decides to light it up. For this
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reason, hardware controlled LEDs aren't registered as LED class devices.
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Required properties:
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- compatible : should be "brcm,bcm6328-leds".
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- #address-cells : must be 1.
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- #size-cells : must be 0.
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- reg : BCM6328 LED controller address and size.
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Optional properties:
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- brcm,serial-leds : Boolean, enables Serial LEDs.
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Default : false
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- brcm,serial-mux : Boolean, enables Serial LEDs multiplexing.
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Default : false
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- brcm,serial-clk-low : Boolean, makes clock signal active low.
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Default : false
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- brcm,serial-dat-low : Boolean, makes data signal active low.
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Default : false
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- brcm,serial-shift-inv : Boolean, inverts Serial LEDs shift direction.
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Default : false
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Each LED is represented as a sub-node of the brcm,bcm6328-leds device.
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LED sub-node required properties:
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- reg : LED pin number (only LEDs 0 to 23 are valid).
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LED sub-node optional properties:
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a) Optional properties for sub-nodes related to software controlled LEDs:
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- label : see Documentation/devicetree/bindings/leds/common.txt
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- active-low : Boolean, makes LED active low.
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Default : false
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- default-state : see
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Documentation/devicetree/bindings/leds/leds-gpio.txt
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- linux,default-trigger : see
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Documentation/devicetree/bindings/leds/common.txt
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b) Optional properties for sub-nodes related to hardware controlled LEDs:
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- brcm,hardware-controlled : Boolean, makes this LED hardware controlled.
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Default : false
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- brcm,link-signal-sources : An array of hardware link
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signal sources. Up to four link hardware signals can get muxed into
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these LEDs. Only valid for LEDs 0 to 7, where LED signals 0 to 3 may
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be muxed to LEDs 0 to 3, and signals 4 to 7 may be muxed to LEDs
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4 to 7. A signal can be muxed to more than one LED, and one LED can
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have more than one source signal.
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- brcm,activity-signal-sources : An array of hardware activity
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signal sources. Up to four activity hardware signals can get muxed into
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these LEDs. Only valid for LEDs 0 to 7, where LED signals 0 to 3 may
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be muxed to LEDs 0 to 3, and signals 4 to 7 may be muxed to LEDs
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4 to 7. A signal can be muxed to more than one LED, and one LED can
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have more than one source signal.
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Examples:
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Scenario 1 : BCM6328 with 4 EPHY LEDs
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leds0: led-controller@10000800 {
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compatible = "brcm,bcm6328-leds";
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0x10000800 0x24>;
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alarm_red@2 {
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reg = <2>;
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active-low;
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label = "red:alarm";
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};
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inet_green@3 {
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reg = <3>;
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active-low;
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label = "green:inet";
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};
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power_green@4 {
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reg = <4>;
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active-low;
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label = "green:power";
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default-state = "on";
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};
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ephy0_spd@17 {
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reg = <17>;
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brcm,hardware-controlled;
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};
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ephy1_spd@18 {
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reg = <18>;
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brcm,hardware-controlled;
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};
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ephy2_spd@19 {
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reg = <19>;
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brcm,hardware-controlled;
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};
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ephy3_spd@20 {
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reg = <20>;
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brcm,hardware-controlled;
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};
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};
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Scenario 2 : BCM63268 with Serial/GPHY0 LEDs
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leds0: led-controller@10001900 {
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compatible = "brcm,bcm6328-leds";
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0x10001900 0x24>;
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brcm,serial-leds;
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brcm,serial-dat-low;
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brcm,serial-shift-inv;
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gphy0_spd0@0 {
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reg = <0>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <0>;
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};
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gphy0_spd1@1 {
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reg = <1>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <1>;
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};
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inet_red@2 {
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reg = <2>;
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active-low;
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label = "red:inet";
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};
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dsl_green@3 {
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reg = <3>;
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active-low;
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label = "green:dsl";
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};
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usb_green@4 {
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reg = <4>;
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active-low;
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label = "green:usb";
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};
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wps_green@7 {
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reg = <7>;
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active-low;
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label = "green:wps";
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};
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inet_green@8 {
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reg = <8>;
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active-low;
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label = "green:inet";
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};
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ephy0_act@9 {
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reg = <9>;
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brcm,hardware-controlled;
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};
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ephy1_act@10 {
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reg = <10>;
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brcm,hardware-controlled;
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};
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ephy2_act@11 {
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reg = <11>;
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brcm,hardware-controlled;
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};
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gphy0_act@12 {
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reg = <12>;
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brcm,hardware-controlled;
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};
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ephy0_spd@13 {
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reg = <13>;
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brcm,hardware-controlled;
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};
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ephy1_spd@14 {
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reg = <14>;
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brcm,hardware-controlled;
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};
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ephy2_spd@15 {
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reg = <15>;
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brcm,hardware-controlled;
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};
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power_green@20 {
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reg = <20>;
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active-low;
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label = "green:power";
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default-state = "on";
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};
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};
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Scenario 3 : BCM6362 with 1 LED for each EPHY
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leds0: led-controller@10001900 {
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compatible = "brcm,bcm6328-leds";
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0x10001900 0x24>;
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usb@0 {
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reg = <0>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <0>;
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brcm,activity-signal-sources = <0>;
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/* USB link/activity routed to USB LED */
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};
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inet@1 {
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reg = <1>;
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brcm,hardware-controlled;
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brcm,activity-signal-sources = <1>;
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/* INET activity routed to INET LED */
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};
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ephy0@4 {
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reg = <4>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <4>;
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/* EPHY0 link routed to EPHY0 LED */
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};
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ephy1@5 {
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reg = <5>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <5>;
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/* EPHY1 link routed to EPHY1 LED */
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};
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ephy2@6 {
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reg = <6>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <6>;
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/* EPHY2 link routed to EPHY2 LED */
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};
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ephy3@7 {
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reg = <7>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <7>;
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/* EPHY3 link routed to EPHY3 LED */
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};
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power_green@20 {
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reg = <20>;
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active-low;
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label = "green:power";
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default-state = "on";
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};
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};
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Scenario 4 : BCM6362 with 1 LED for all EPHYs
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leds0: led-controller@10001900 {
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compatible = "brcm,bcm6328-leds";
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0x10001900 0x24>;
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usb@0 {
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reg = <0>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <0 1>;
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brcm,activity-signal-sources = <0 1>;
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/* USB/INET link/activity routed to USB LED */
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};
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ephy@4 {
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reg = <4>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <4 5 6 7>;
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/* EPHY0/1/2/3 link routed to EPHY0 LED */
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};
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power_green@20 {
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reg = <20>;
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active-low;
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label = "green:power";
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default-state = "on";
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};
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};
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Scenario 5 : BCM6362 with EPHY LEDs swapped
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leds0: led-controller@10001900 {
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compatible = "brcm,bcm6328-leds";
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#address-cells = <1>;
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#size-cells = <0>;
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reg = <0x10001900 0x24>;
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usb@0 {
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reg = <0>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <0>;
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brcm,activity-signal-sources = <0 1>;
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/* USB link/act and INET act routed to USB LED */
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};
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ephy0@4 {
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reg = <4>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <7>;
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/* EPHY3 link routed to EPHY0 LED */
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};
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ephy1@5 {
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reg = <5>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <6>;
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/* EPHY2 link routed to EPHY1 LED */
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};
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ephy2@6 {
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reg = <6>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <5>;
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/* EPHY1 link routed to EPHY2 LED */
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};
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ephy3@7 {
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reg = <7>;
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brcm,hardware-controlled;
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brcm,link-signal-sources = <4>;
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/* EPHY0 link routed to EPHY3 LED */
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};
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power_green@20 {
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reg = <20>;
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active-low;
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label = "green:power";
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default-state = "on";
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};
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};
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