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author | Sascha Hauer <s.hauer@pengutronix.de> | 2020-08-17 08:16:38 +0200 |
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committer | Sascha Hauer <s.hauer@pengutronix.de> | 2020-08-17 09:51:44 +0200 |
commit | 0c2e2b7d8fd795c24abc7bfd3752eb3e366155eb (patch) | |
tree | 21cddf4b49891b7df21cbe5e5dd358d4e44e031d /dts/Bindings/thermal | |
parent | 8ef08db9ad225acbf7326493cc586bb14fd917f5 (diff) | |
download | barebox-0c2e2b7d8fd795c24abc7bfd3752eb3e366155eb.tar.gz |
dts: update to v5.9-rc1
Signed-off-by: Sascha Hauer <s.hauer@pengutronix.de>
Diffstat (limited to 'dts/Bindings/thermal')
19 files changed, 163 insertions, 702 deletions
diff --git a/dts/Bindings/thermal/allwinner,sun8i-a83t-ths.yaml b/dts/Bindings/thermal/allwinner,sun8i-a83t-ths.yaml index 87369264fe..44ba676569 100644 --- a/dts/Bindings/thermal/allwinner,sun8i-a83t-ths.yaml +++ b/dts/Bindings/thermal/allwinner,sun8i-a83t-ths.yaml @@ -50,7 +50,7 @@ properties: nvmem-cell-names: const: calibration - # See ./thermal.txt for details + # See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for details "#thermal-sensor-cells": enum: - 0 diff --git a/dts/Bindings/thermal/amazon,al-thermal.txt b/dts/Bindings/thermal/amazon,al-thermal.txt index 703979dbd5..12fc4ef048 100644 --- a/dts/Bindings/thermal/amazon,al-thermal.txt +++ b/dts/Bindings/thermal/amazon,al-thermal.txt @@ -6,7 +6,7 @@ transaction. Required properties: - compatible: "amazon,al-thermal". - reg: The physical base address and length of the sensor's registers. -- #thermal-sensor-cells: Must be 1. See ./thermal.txt for a description. +- #thermal-sensor-cells: Must be 1. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description. Example: thermal: thermal { diff --git a/dts/Bindings/thermal/brcm,avs-ro-thermal.yaml b/dts/Bindings/thermal/brcm,avs-ro-thermal.yaml index f3e68ed03a..1ab5070c75 100644 --- a/dts/Bindings/thermal/brcm,avs-ro-thermal.yaml +++ b/dts/Bindings/thermal/brcm,avs-ro-thermal.yaml @@ -23,7 +23,7 @@ properties: compatible: const: brcm,bcm2711-thermal - # See ./thermal.txt for details + # See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for details "#thermal-sensor-cells": const: 0 diff --git a/dts/Bindings/thermal/brcm,bcm2835-thermal.txt b/dts/Bindings/thermal/brcm,bcm2835-thermal.txt index da8c5b73ad..a3e9ec5dc7 100644 --- a/dts/Bindings/thermal/brcm,bcm2835-thermal.txt +++ b/dts/Bindings/thermal/brcm,bcm2835-thermal.txt @@ -7,7 +7,7 @@ compatible: should be one of: "brcm,bcm2835-thermal", "brcm,bcm2836-thermal" or "brcm,bcm2837-thermal" reg: Address range of the thermal registers. clocks: Phandle of the clock used by the thermal sensor. -#thermal-sensor-cells: should be 0 (see thermal.txt) +#thermal-sensor-cells: should be 0 (see Documentation/devicetree/bindings/thermal/thermal-sensor.yaml) Example: diff --git a/dts/Bindings/thermal/hisilicon-thermal.txt b/dts/Bindings/thermal/hisilicon-thermal.txt index cef716a236..4b19d80e65 100644 --- a/dts/Bindings/thermal/hisilicon-thermal.txt +++ b/dts/Bindings/thermal/hisilicon-thermal.txt @@ -9,7 +9,7 @@ by /SOCTHERM/tsensor. - clock-names: Input clock name, should be 'thermal_clk'. - clocks: phandles for clock specified in "clock-names" property. -- #thermal-sensor-cells: Should be 1. See ./thermal.txt for a description. +- #thermal-sensor-cells: Should be 1. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description. Example : diff --git a/dts/Bindings/thermal/max77620_thermal.txt b/dts/Bindings/thermal/max77620_thermal.txt index 323a3b3822..82ed5d4879 100644 --- a/dts/Bindings/thermal/max77620_thermal.txt +++ b/dts/Bindings/thermal/max77620_thermal.txt @@ -8,12 +8,12 @@ below threshold level. Required properties: ------------------- -#thermal-sensor-cells: Please refer <devicetree/bindings/thermal/thermal.txt> - for more details. +#thermal-sensor-cells: For more details, please refer to + <devicetree/bindings/thermal/thermal-sensor.yaml> The value must be 0. For more details, please refer generic thermal DT binding document -<devicetree/bindings/thermal/thermal.txt>. +<devicetree/bindings/thermal/thermal*.yaml>. Please refer <devicetree/bindings/mfd/max77620.txt> for mfd DT binding document for the MAX77620. diff --git a/dts/Bindings/thermal/mediatek-thermal.txt b/dts/Bindings/thermal/mediatek-thermal.txt index f8d7831f39..1e249c42fa 100644 --- a/dts/Bindings/thermal/mediatek-thermal.txt +++ b/dts/Bindings/thermal/mediatek-thermal.txt @@ -23,7 +23,7 @@ Required properties: - resets: Reference to the reset controller controlling the thermal controller. - mediatek,auxadc: A phandle to the AUXADC which the thermal controller uses - mediatek,apmixedsys: A phandle to the APMIXEDSYS controller. -- #thermal-sensor-cells : Should be 0. See ./thermal.txt for a description. +- #thermal-sensor-cells : Should be 0. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description. Optional properties: - nvmem-cells: A phandle to the calibration data provided by a nvmem device. If diff --git a/dts/Bindings/thermal/nvidia,tegra124-soctherm.txt b/dts/Bindings/thermal/nvidia,tegra124-soctherm.txt index f02f38527a..db880e7ed7 100644 --- a/dts/Bindings/thermal/nvidia,tegra124-soctherm.txt +++ b/dts/Bindings/thermal/nvidia,tegra124-soctherm.txt @@ -28,9 +28,10 @@ Required properties : See ../reset/reset.txt for details. - reset-names : Must include the following entries: - soctherm -- #thermal-sensor-cells : Should be 1. See ./thermal.txt for a description - of this property. See <dt-bindings/thermal/tegra124-soctherm.h> for a - list of valid values when referring to thermal sensors. +- #thermal-sensor-cells : Should be 1. For a description of this property, see + Documentation/devicetree/bindings/thermal/thermal-sensor.yaml. + See <dt-bindings/thermal/tegra124-soctherm.h> for a list of valid values + when referring to thermal sensors. - throttle-cfgs: A sub-node which is a container of configuration for each hardware throttle events. These events can be set as cooling devices. * throttle events: Sub-nodes must be named as "light" or "heavy". @@ -62,7 +63,8 @@ Required properties : TEGRA_SOCTHERM_THROT_LEVEL_MED (75%), TEGRA_SOCTHERM_THROT_LEVEL_HIGH (85%). - #cooling-cells: Should be 1. This cooling device only support on/off state. - See ./thermal.txt for a description of this property. + For a description of this property see: + Documentation/devicetree/bindings/thermal/thermal-cooling-devices.yaml Optional properties: The following properties are T210 specific and valid only for OCx throttle events. diff --git a/dts/Bindings/thermal/nvidia,tegra186-bpmp-thermal.txt b/dts/Bindings/thermal/nvidia,tegra186-bpmp-thermal.txt index e17c07be27..fc87f6aa1b 100644 --- a/dts/Bindings/thermal/nvidia,tegra186-bpmp-thermal.txt +++ b/dts/Bindings/thermal/nvidia,tegra186-bpmp-thermal.txt @@ -8,7 +8,7 @@ exposed by BPMP. The BPMP thermal node must be located directly inside the main BPMP node. See ../firmware/nvidia,tegra186-bpmp.txt for details of the BPMP binding. -This node represents a thermal sensor. See thermal.txt for details of the +This node represents a thermal sensor. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for details of the core thermal binding. Required properties: diff --git a/dts/Bindings/thermal/qcom-spmi-temp-alarm.txt b/dts/Bindings/thermal/qcom-spmi-temp-alarm.txt index 0273a92a2a..2d5b2ad033 100644 --- a/dts/Bindings/thermal/qcom-spmi-temp-alarm.txt +++ b/dts/Bindings/thermal/qcom-spmi-temp-alarm.txt @@ -8,7 +8,7 @@ Required properties: - compatible: Should contain "qcom,spmi-temp-alarm". - reg: Specifies the SPMI address. - interrupts: PMIC temperature alarm interrupt. -- #thermal-sensor-cells: Should be 0. See thermal.txt for a description. +- #thermal-sensor-cells: Should be 0. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description. Optional properties: - io-channels: Should contain IIO channel specifier for the ADC channel, diff --git a/dts/Bindings/thermal/qcom-tsens.yaml b/dts/Bindings/thermal/qcom-tsens.yaml index d7be931b42..95462e071a 100644 --- a/dts/Bindings/thermal/qcom-tsens.yaml +++ b/dts/Bindings/thermal/qcom-tsens.yaml @@ -8,7 +8,7 @@ $schema: http://devicetree.org/meta-schemas/core.yaml# title: QCOM SoC Temperature Sensor (TSENS) maintainers: - - Amit Kucheria <amit.kucheria@linaro.org> + - Amit Kucheria <amitk@kernel.org> description: | QCOM SoCs have TSENS IP to allow temperature measurement. There are currently @@ -23,6 +23,7 @@ properties: items: - enum: - qcom,msm8916-tsens + - qcom,msm8939-tsens - qcom,msm8974-tsens - const: qcom,tsens-v0_1 @@ -40,6 +41,8 @@ properties: - qcom,msm8998-tsens - qcom,sc7180-tsens - qcom,sdm845-tsens + - qcom,sm8150-tsens + - qcom,sm8250-tsens - const: qcom,tsens-v2 reg: diff --git a/dts/Bindings/thermal/qoriq-thermal.txt b/dts/Bindings/thermal/qoriq-thermal.txt deleted file mode 100644 index 28f2cbaf17..0000000000 --- a/dts/Bindings/thermal/qoriq-thermal.txt +++ /dev/null @@ -1,71 +0,0 @@ -* Thermal Monitoring Unit (TMU) on Freescale QorIQ SoCs - -Required properties: -- compatible : Must include "fsl,qoriq-tmu" or "fsl,imx8mq-tmu". The - version of the device is determined by the TMU IP Block Revision - Register (IPBRR0) at offset 0x0BF8. - Table of correspondences between IPBRR0 values and example chips: - Value Device - ---------- ----- - 0x01900102 T1040 -- reg : Address range of TMU registers. -- interrupts : Contains the interrupt for TMU. -- fsl,tmu-range : The values to be programmed into TTRnCR, as specified by - the SoC reference manual. The first cell is TTR0CR, the second is - TTR1CR, etc. -- fsl,tmu-calibration : A list of cell pairs containing temperature - calibration data, as specified by the SoC reference manual. - The first cell of each pair is the value to be written to TTCFGR, - and the second is the value to be written to TSCFGR. -- #thermal-sensor-cells : Must be 1. The sensor specifier is the monitoring - site ID, and represents the "n" in TRITSRn and TRATSRn. - -Optional property: -- little-endian : If present, the TMU registers are little endian. If absent, - the default is big endian. -- clocks : the clock for clocking the TMU silicon. - -Example: - -tmu@f0000 { - compatible = "fsl,qoriq-tmu"; - reg = <0xf0000 0x1000>; - interrupts = <18 2 0 0>; - fsl,tmu-range = <0x000a0000 0x00090026 0x0008004a 0x0001006a>; - fsl,tmu-calibration = <0x00000000 0x00000025 - 0x00000001 0x00000028 - 0x00000002 0x0000002d - 0x00000003 0x00000031 - 0x00000004 0x00000036 - 0x00000005 0x0000003a - 0x00000006 0x00000040 - 0x00000007 0x00000044 - 0x00000008 0x0000004a - 0x00000009 0x0000004f - 0x0000000a 0x00000054 - - 0x00010000 0x0000000d - 0x00010001 0x00000013 - 0x00010002 0x00000019 - 0x00010003 0x0000001f - 0x00010004 0x00000025 - 0x00010005 0x0000002d - 0x00010006 0x00000033 - 0x00010007 0x00000043 - 0x00010008 0x0000004b - 0x00010009 0x00000053 - - 0x00020000 0x00000010 - 0x00020001 0x00000017 - 0x00020002 0x0000001f - 0x00020003 0x00000029 - 0x00020004 0x00000031 - 0x00020005 0x0000003c - 0x00020006 0x00000042 - 0x00020007 0x0000004d - 0x00020008 0x00000056 - - 0x00030000 0x00000012 - 0x00030001 0x0000001d>; - #thermal-sensor-cells = <1>; -}; diff --git a/dts/Bindings/thermal/qoriq-thermal.yaml b/dts/Bindings/thermal/qoriq-thermal.yaml new file mode 100644 index 0000000000..f09e8723ca --- /dev/null +++ b/dts/Bindings/thermal/qoriq-thermal.yaml @@ -0,0 +1,114 @@ +# SPDX-License-Identifier: (GPL-2.0-only OR BSD-2-Clause) +%YAML 1.2 +--- +$id: http://devicetree.org/schemas/thermal/qoriq-thermal.yaml# +$schema: http://devicetree.org/meta-schemas/core.yaml# + +title: Thermal Monitoring Unit (TMU) on Freescale QorIQ SoCs + +maintainers: + - Anson Huang <Anson.Huang@nxp.com> + +properties: + compatible: + description: | + The version of the device is determined by the TMU IP Block Revision + Register (IPBRR0) at offset 0x0BF8. + Table of correspondences between IPBRR0 values and example chips: + Value Device + ---------- ----- + 0x01900102 T1040 + enum: + - fsl,qoriq-tmu + - fsl,imx8mq-tmu + + reg: + maxItems: 1 + + interrupts: + maxItems: 1 + + fsl,tmu-range: + $ref: '/schemas/types.yaml#/definitions/uint32-array' + description: | + The values to be programmed into TTRnCR, as specified by the SoC + reference manual. The first cell is TTR0CR, the second is TTR1CR, etc. + maxItems: 4 + + fsl,tmu-calibration: + $ref: '/schemas/types.yaml#/definitions/uint32-matrix' + description: | + A list of cell pairs containing temperature calibration data, as + specified by the SoC reference manual. The first cell of each pair + is the value to be written to TTCFGR, and the second is the value + to be written to TSCFGR. + items: + items: + - description: value for TTCFGR + - description: value for TSCFGR + minItems: 1 + maxItems: 64 + + little-endian: + description: | + boolean, if present, the TMU registers are little endian. If absent, + the default is big endian. + type: boolean + + clocks: + maxItems: 1 + + "#thermal-sensor-cells": + const: 1 + +required: + - compatible + - reg + - interrupts + - fsl,tmu-range + - fsl,tmu-calibration + - '#thermal-sensor-cells' + +additionalProperties: false + +examples: + - | + tmu@f0000 { + compatible = "fsl,qoriq-tmu"; + reg = <0xf0000 0x1000>; + interrupts = <18 2 0 0>; + fsl,tmu-range = <0x000a0000 0x00090026 0x0008004a 0x0001006a>; + fsl,tmu-calibration = <0x00000000 0x00000025>, + <0x00000001 0x00000028>, + <0x00000002 0x0000002d>, + <0x00000003 0x00000031>, + <0x00000004 0x00000036>, + <0x00000005 0x0000003a>, + <0x00000006 0x00000040>, + <0x00000007 0x00000044>, + <0x00000008 0x0000004a>, + <0x00000009 0x0000004f>, + <0x0000000a 0x00000054>, + <0x00010000 0x0000000d>, + <0x00010001 0x00000013>, + <0x00010002 0x00000019>, + <0x00010003 0x0000001f>, + <0x00010004 0x00000025>, + <0x00010005 0x0000002d>, + <0x00010006 0x00000033>, + <0x00010007 0x00000043>, + <0x00010008 0x0000004b>, + <0x00010009 0x00000053>, + <0x00020000 0x00000010>, + <0x00020001 0x00000017>, + <0x00020002 0x0000001f>, + <0x00020003 0x00000029>, + <0x00020004 0x00000031>, + <0x00020005 0x0000003c>, + <0x00020006 0x00000042>, + <0x00020007 0x0000004d>, + <0x00020008 0x00000056>, + <0x00030000 0x00000012>, + <0x00030001 0x0000001d>; + #thermal-sensor-cells = <1>; + }; diff --git a/dts/Bindings/thermal/rockchip-thermal.txt b/dts/Bindings/thermal/rockchip-thermal.txt index c6aac9bcac..7f94669e9e 100644 --- a/dts/Bindings/thermal/rockchip-thermal.txt +++ b/dts/Bindings/thermal/rockchip-thermal.txt @@ -24,7 +24,7 @@ Required properties: - pinctrl-1 : The "default" pinctrl state, it will be set after reset the TSADC controller. - pinctrl-2 : The "sleep" pinctrl state, it will be in for suspend. -- #thermal-sensor-cells : Should be 1. See ./thermal.txt for a description. +- #thermal-sensor-cells : Should be 1. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description. Optional properties: - rockchip,hw-tshut-temp : The hardware-controlled shutdown temperature value. diff --git a/dts/Bindings/thermal/tango-thermal.txt b/dts/Bindings/thermal/tango-thermal.txt index 212198d4b9..2c918d7428 100644 --- a/dts/Bindings/thermal/tango-thermal.txt +++ b/dts/Bindings/thermal/tango-thermal.txt @@ -4,7 +4,7 @@ The SMP8758 SoC includes 3 instances of this temperature sensor (in the CPU, video decoder, and PCIe controller). Required properties: -- #thermal-sensor-cells: Should be 0 (see thermal.txt) +- #thermal-sensor-cells: Should be 0 (see Documentation/devicetree/bindings/thermal/thermal-sensor.yaml) - compatible: "sigma,smp8758-thermal" - reg: Address range of the thermal registers diff --git a/dts/Bindings/thermal/thermal-cooling-devices.yaml b/dts/Bindings/thermal/thermal-cooling-devices.yaml index 5145883d93..ad4beaf028 100644 --- a/dts/Bindings/thermal/thermal-cooling-devices.yaml +++ b/dts/Bindings/thermal/thermal-cooling-devices.yaml @@ -44,9 +44,9 @@ select: true properties: "#cooling-cells": description: - Must be 2, in order to specify minimum and maximum cooling state used in - the cooling-maps reference. The first cell is the minimum cooling state - and the second cell is the maximum cooling state requested. + Must be 2, in order to specify minimum and maximum cooling state used in + the cooling-maps reference. The first cell is the minimum cooling state + and the second cell is the maximum cooling state requested. const: 2 examples: diff --git a/dts/Bindings/thermal/thermal-generic-adc.txt b/dts/Bindings/thermal/thermal-generic-adc.txt index 691a09db2f..e136946a2f 100644 --- a/dts/Bindings/thermal/thermal-generic-adc.txt +++ b/dts/Bindings/thermal/thermal-generic-adc.txt @@ -8,7 +8,7 @@ temperature using voltage-temperature lookup table. Required properties: =================== - compatible: Must be "generic-adc-thermal". -- #thermal-sensor-cells: Should be 1. See ./thermal.txt for a description +- #thermal-sensor-cells: Should be 1. See Documentation/devicetree/bindings/thermal/thermal-sensor.yaml for a description of this property. Optional properties: =================== diff --git a/dts/Bindings/thermal/thermal-idle.yaml b/dts/Bindings/thermal/thermal-idle.yaml index 7a922f5409..a832d427e9 100644 --- a/dts/Bindings/thermal/thermal-idle.yaml +++ b/dts/Bindings/thermal/thermal-idle.yaml @@ -18,29 +18,28 @@ description: | This binding describes the thermal idle node. properties: - $nodename: - const: thermal-idle - description: | - A thermal-idle node describes the idle cooling device properties to - cool down efficiently the attached thermal zone. - - '#cooling-cells': - const: 2 - description: | - Must be 2, in order to specify minimum and maximum cooling state used in - the cooling-maps reference. The first cell is the minimum cooling state - and the second cell is the maximum cooling state requested. - - duration-us: - description: | - The idle duration in microsecond the device should cool down. - - exit-latency-us: - description: | - The exit latency constraint in microsecond for the injected - idle state for the device. It is the latency constraint to - apply when selecting an idle state from among all the present - ones. + $nodename: + const: thermal-idle + description: | + A thermal-idle node describes the idle cooling device properties to + cool down efficiently the attached thermal zone. + + '#cooling-cells': + const: 2 + description: | + Must be 2, in order to specify minimum and maximum cooling state used in + the cooling-maps reference. The first cell is the minimum cooling state + and the second cell is the maximum cooling state requested. + + duration-us: + description: | + The idle duration in microsecond the device should cool down. + + exit-latency-us: + description: | + The exit latency constraint in microsecond for the injected idle state + for the device. It is the latency constraint to apply when selecting an + idle state from among all the present ones. required: - '#cooling-cells' diff --git a/dts/Bindings/thermal/thermal.txt b/dts/Bindings/thermal/thermal.txt deleted file mode 100644 index f78bec19ca..0000000000 --- a/dts/Bindings/thermal/thermal.txt +++ /dev/null @@ -1,586 +0,0 @@ -* Thermal Framework Device Tree descriptor - -This file describes a generic binding to provide a way of -defining hardware thermal structure using device tree. -A thermal structure includes thermal zones and their components, -such as trip points, polling intervals, sensors and cooling devices -binding descriptors. - -The target of device tree thermal descriptors is to describe only -the hardware thermal aspects. The thermal device tree bindings are -not about how the system must control or which algorithm or policy -must be taken in place. - -There are five types of nodes involved to describe thermal bindings: -- thermal sensors: devices which may be used to take temperature - measurements. -- cooling devices: devices which may be used to dissipate heat. -- trip points: describe key temperatures at which cooling is recommended. The - set of points should be chosen based on hardware limits. -- cooling maps: used to describe links between trip points and cooling devices; -- thermal zones: used to describe thermal data within the hardware; - -The following is a description of each of these node types. - -* Thermal sensor devices - -Thermal sensor devices are nodes providing temperature sensing capabilities on -thermal zones. Typical devices are I2C ADC converters and bandgaps. These are -nodes providing temperature data to thermal zones. Thermal sensor devices may -control one or more internal sensors. - -Required property: -- #thermal-sensor-cells: Used to provide sensor device specific information - Type: unsigned while referring to it. Typically 0 on thermal sensor - Size: one cell nodes with only one sensor, and at least 1 on nodes - with several internal sensors, in order - to identify uniquely the sensor instances within - the IC. See thermal zone binding for more details - on how consumers refer to sensor devices. - -* Cooling device nodes - -Cooling devices are nodes providing control on power dissipation. There -are essentially two ways to provide control on power dissipation. First -is by means of regulating device performance, which is known as passive -cooling. A typical passive cooling is a CPU that has dynamic voltage and -frequency scaling (DVFS), and uses lower frequencies as cooling states. -Second is by means of activating devices in order to remove -the dissipated heat, which is known as active cooling, e.g. regulating -fan speeds. In both cases, cooling devices shall have a way to determine -the state of cooling in which the device is. - -Any cooling device has a range of cooling states (i.e. different levels -of heat dissipation). For example a fan's cooling states correspond to -the different fan speeds possible. Cooling states are referred to by -single unsigned integers, where larger numbers mean greater heat -dissipation. The precise set of cooling states associated with a device -should be defined in a particular device's binding. -For more examples of cooling devices, refer to the example sections below. - -Required properties: -- #cooling-cells: Used to provide cooling device specific information - Type: unsigned while referring to it. Must be at least 2, in order - Size: one cell to specify minimum and maximum cooling state used - in the reference. The first cell is the minimum - cooling state requested and the second cell is - the maximum cooling state requested in the reference. - See Cooling device maps section below for more details - on how consumers refer to cooling devices. - -* Trip points - -The trip node is a node to describe a point in the temperature domain -in which the system takes an action. This node describes just the point, -not the action. - -Required properties: -- temperature: An integer indicating the trip temperature level, - Type: signed in millicelsius. - Size: one cell - -- hysteresis: A low hysteresis value on temperature property (above). - Type: unsigned This is a relative value, in millicelsius. - Size: one cell - -- type: a string containing the trip type. Expected values are: - "active": A trip point to enable active cooling - "passive": A trip point to enable passive cooling - "hot": A trip point to notify emergency - "critical": Hardware not reliable. - Type: string - -* Cooling device maps - -The cooling device maps node is a node to describe how cooling devices -get assigned to trip points of the zone. The cooling devices are expected -to be loaded in the target system. - -Required properties: -- cooling-device: A list of phandles of cooling devices with their specifiers, - Type: phandle + referring to which cooling devices are used in this - cooling specifier binding. In the cooling specifier, the first cell - is the minimum cooling state and the second cell - is the maximum cooling state used in this map. -- trip: A phandle of a trip point node within the same thermal - Type: phandle of zone. - trip point node - -Optional property: -- contribution: The cooling contribution to the thermal zone of the - Type: unsigned referred cooling device at the referred trip point. - Size: one cell The contribution is a ratio of the sum - of all cooling contributions within a thermal zone. - -Note: Using the THERMAL_NO_LIMIT (-1UL) constant in the cooling-device phandle -limit specifier means: -(i) - minimum state allowed for minimum cooling state used in the reference. -(ii) - maximum state allowed for maximum cooling state used in the reference. -Refer to include/dt-bindings/thermal/thermal.h for definition of this constant. - -* Thermal zone nodes - -The thermal zone node is the node containing all the required info -for describing a thermal zone, including its cooling device bindings. The -thermal zone node must contain, apart from its own properties, one sub-node -containing trip nodes and one sub-node containing all the zone cooling maps. - -Required properties: -- polling-delay: The maximum number of milliseconds to wait between polls - Type: unsigned when checking this thermal zone. - Size: one cell - -- polling-delay-passive: The maximum number of milliseconds to wait - Type: unsigned between polls when performing passive cooling. - Size: one cell - -- thermal-sensors: A list of thermal sensor phandles and sensor specifier - Type: list of used while monitoring the thermal zone. - phandles + sensor - specifier - -- trips: A sub-node which is a container of only trip point nodes - Type: sub-node required to describe the thermal zone. - -Optional property: -- cooling-maps: A sub-node which is a container of only cooling device - Type: sub-node map nodes, used to describe the relation between trips - and cooling devices. - -- coefficients: An array of integers (one signed cell) containing - Type: array coefficients to compose a linear relation between - Elem size: one cell the sensors listed in the thermal-sensors property. - Elem type: signed Coefficients defaults to 1, in case this property - is not specified. A simple linear polynomial is used: - Z = c0 * x0 + c1 * x1 + ... + c(n-1) * x(n-1) + cn. - - The coefficients are ordered and they match with sensors - by means of sensor ID. Additional coefficients are - interpreted as constant offset. - -- sustainable-power: An estimate of the sustainable power (in mW) that the - Type: unsigned thermal zone can dissipate at the desired - Size: one cell control temperature. For reference, the - sustainable power of a 4'' phone is typically - 2000mW, while on a 10'' tablet is around - 4500mW. - -Note: The delay properties are bound to the maximum dT/dt (temperature -derivative over time) in two situations for a thermal zone: -(i) - when passive cooling is activated (polling-delay-passive); and -(ii) - when the zone just needs to be monitored (polling-delay) or -when active cooling is activated. - -The maximum dT/dt is highly bound to hardware power consumption and dissipation -capability. The delays should be chosen to account for said max dT/dt, -such that a device does not cross several trip boundaries unexpectedly -between polls. Choosing the right polling delays shall avoid having the -device in temperature ranges that may damage the silicon structures and -reduce silicon lifetime. - -* The thermal-zones node - -The "thermal-zones" node is a container for all thermal zone nodes. It shall -contain only sub-nodes describing thermal zones as in the section -"Thermal zone nodes". The "thermal-zones" node appears under "/". - -* Examples - -Below are several examples on how to use thermal data descriptors -using device tree bindings: - -(a) - CPU thermal zone - -The CPU thermal zone example below describes how to setup one thermal zone -using one single sensor as temperature source and many cooling devices and -power dissipation control sources. - -#include <dt-bindings/thermal/thermal.h> - -cpus { - /* - * Here is an example of describing a cooling device for a DVFS - * capable CPU. The CPU node describes its four OPPs. - * The cooling states possible are 0..3, and they are - * used as OPP indexes. The minimum cooling state is 0, which means - * all four OPPs can be available to the system. The maximum - * cooling state is 3, which means only the lowest OPPs (198MHz@0.85V) - * can be available in the system. - */ - cpu0: cpu@0 { - ... - operating-points = < - /* kHz uV */ - 970000 1200000 - 792000 1100000 - 396000 950000 - 198000 850000 - >; - #cooling-cells = <2>; /* min followed by max */ - }; - ... -}; - -&i2c1 { - ... - /* - * A simple fan controller which supports 10 speeds of operation - * (represented as 0-9). - */ - fan0: fan@48 { - ... - #cooling-cells = <2>; /* min followed by max */ - }; -}; - -ocp { - ... - /* - * A simple IC with a single bandgap temperature sensor. - */ - bandgap0: bandgap@0000ed00 { - ... - #thermal-sensor-cells = <0>; - }; -}; - -thermal-zones { - cpu_thermal: cpu-thermal { - polling-delay-passive = <250>; /* milliseconds */ - polling-delay = <1000>; /* milliseconds */ - - thermal-sensors = <&bandgap0>; - - trips { - cpu_alert0: cpu-alert0 { - temperature = <90000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "active"; - }; - cpu_alert1: cpu-alert1 { - temperature = <100000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - cpu_crit: cpu-crit { - temperature = <125000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "critical"; - }; - }; - - cooling-maps { - map0 { - trip = <&cpu_alert0>; - cooling-device = <&fan0 THERMAL_NO_LIMIT 4>; - }; - map1 { - trip = <&cpu_alert1>; - cooling-device = <&fan0 5 THERMAL_NO_LIMIT>, <&cpu0 THERMAL_NO_LIMIT THERMAL_NO_LIMIT>; - }; - }; - }; -}; - -In the example above, the ADC sensor (bandgap0) at address 0x0000ED00 is -used to monitor the zone 'cpu-thermal' using its sole sensor. A fan -device (fan0) is controlled via I2C bus 1, at address 0x48, and has ten -different cooling states 0-9. It is used to remove the heat out of -the thermal zone 'cpu-thermal' using its cooling states -from its minimum to 4, when it reaches trip point 'cpu_alert0' -at 90C, as an example of active cooling. The same cooling device is used at -'cpu_alert1', but from 5 to its maximum state. The cpu@0 device is also -linked to the same thermal zone, 'cpu-thermal', as a passive cooling device, -using all its cooling states at trip point 'cpu_alert1', -which is a trip point at 100C. On the thermal zone 'cpu-thermal', at the -temperature of 125C, represented by the trip point 'cpu_crit', the silicon -is not reliable anymore. - -(b) - IC with several internal sensors - -The example below describes how to deploy several thermal zones based off a -single sensor IC, assuming it has several internal sensors. This is a common -case on SoC designs with several internal IPs that may need different thermal -requirements, and thus may have their own sensor to monitor or detect internal -hotspots in their silicon. - -#include <dt-bindings/thermal/thermal.h> - -ocp { - ... - /* - * A simple IC with several bandgap temperature sensors. - */ - bandgap0: bandgap@0000ed00 { - ... - #thermal-sensor-cells = <1>; - }; -}; - -thermal-zones { - cpu_thermal: cpu-thermal { - polling-delay-passive = <250>; /* milliseconds */ - polling-delay = <1000>; /* milliseconds */ - - /* sensor ID */ - thermal-sensors = <&bandgap0 0>; - - trips { - /* each zone within the SoC may have its own trips */ - cpu_alert: cpu-alert { - temperature = <100000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - cpu_crit: cpu-crit { - temperature = <125000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "critical"; - }; - }; - - cooling-maps { - /* each zone within the SoC may have its own cooling */ - ... - }; - }; - - gpu_thermal: gpu-thermal { - polling-delay-passive = <120>; /* milliseconds */ - polling-delay = <1000>; /* milliseconds */ - - /* sensor ID */ - thermal-sensors = <&bandgap0 1>; - - trips { - /* each zone within the SoC may have its own trips */ - gpu_alert: gpu-alert { - temperature = <90000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - gpu_crit: gpu-crit { - temperature = <105000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "critical"; - }; - }; - - cooling-maps { - /* each zone within the SoC may have its own cooling */ - ... - }; - }; - - dsp_thermal: dsp-thermal { - polling-delay-passive = <50>; /* milliseconds */ - polling-delay = <1000>; /* milliseconds */ - - /* sensor ID */ - thermal-sensors = <&bandgap0 2>; - - trips { - /* each zone within the SoC may have its own trips */ - dsp_alert: dsp-alert { - temperature = <90000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - dsp_crit: gpu-crit { - temperature = <135000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "critical"; - }; - }; - - cooling-maps { - /* each zone within the SoC may have its own cooling */ - ... - }; - }; -}; - -In the example above, there is one bandgap IC which has the capability to -monitor three sensors. The hardware has been designed so that sensors are -placed on different places in the DIE to monitor different temperature -hotspots: one for CPU thermal zone, one for GPU thermal zone and the -other to monitor a DSP thermal zone. - -Thus, there is a need to assign each sensor provided by the bandgap IC -to different thermal zones. This is achieved by means of using the -#thermal-sensor-cells property and using the first cell of the sensor -specifier as sensor ID. In the example, then, <bandgap 0> is used to -monitor CPU thermal zone, <bandgap 1> is used to monitor GPU thermal -zone and <bandgap 2> is used to monitor DSP thermal zone. Each zone -may be uncorrelated, having its own dT/dt requirements, trips -and cooling maps. - - -(c) - Several sensors within one single thermal zone - -The example below illustrates how to use more than one sensor within -one thermal zone. - -#include <dt-bindings/thermal/thermal.h> - -&i2c1 { - ... - /* - * A simple IC with a single temperature sensor. - */ - adc: sensor@49 { - ... - #thermal-sensor-cells = <0>; - }; -}; - -ocp { - ... - /* - * A simple IC with a single bandgap temperature sensor. - */ - bandgap0: bandgap@0000ed00 { - ... - #thermal-sensor-cells = <0>; - }; -}; - -thermal-zones { - cpu_thermal: cpu-thermal { - polling-delay-passive = <250>; /* milliseconds */ - polling-delay = <1000>; /* milliseconds */ - - thermal-sensors = <&bandgap0>, /* cpu */ - <&adc>; /* pcb north */ - - /* hotspot = 100 * bandgap - 120 * adc + 484 */ - coefficients = <100 -120 484>; - - trips { - ... - }; - - cooling-maps { - ... - }; - }; -}; - -In some cases, there is a need to use more than one sensor to extrapolate -a thermal hotspot in the silicon. The above example illustrates this situation. -For instance, it may be the case that a sensor external to CPU IP may be placed -close to CPU hotspot and together with internal CPU sensor, it is used -to determine the hotspot. Assuming this is the case for the above example, -the hypothetical extrapolation rule would be: - hotspot = 100 * bandgap - 120 * adc + 484 - -In other context, the same idea can be used to add fixed offset. For instance, -consider the hotspot extrapolation rule below: - hotspot = 1 * adc + 6000 - -In the above equation, the hotspot is always 6C higher than what is read -from the ADC sensor. The binding would be then: - thermal-sensors = <&adc>; - - /* hotspot = 1 * adc + 6000 */ - coefficients = <1 6000>; - -(d) - Board thermal - -The board thermal example below illustrates how to setup one thermal zone -with many sensors and many cooling devices. - -#include <dt-bindings/thermal/thermal.h> - -&i2c1 { - ... - /* - * An IC with several temperature sensor. - */ - adc_dummy: sensor@50 { - ... - #thermal-sensor-cells = <1>; /* sensor internal ID */ - }; -}; - -thermal-zones { - batt-thermal { - polling-delay-passive = <500>; /* milliseconds */ - polling-delay = <2500>; /* milliseconds */ - - /* sensor ID */ - thermal-sensors = <&adc_dummy 4>; - - trips { - ... - }; - - cooling-maps { - ... - }; - }; - - board_thermal: board-thermal { - polling-delay-passive = <1000>; /* milliseconds */ - polling-delay = <2500>; /* milliseconds */ - - /* sensor ID */ - thermal-sensors = <&adc_dummy 0>, /* pcb top edge */ - <&adc_dummy 1>, /* lcd */ - <&adc_dummy 2>; /* back cover */ - /* - * An array of coefficients describing the sensor - * linear relation. E.g.: - * z = c1*x1 + c2*x2 + c3*x3 - */ - coefficients = <1200 -345 890>; - - sustainable-power = <2500>; - - trips { - /* Trips are based on resulting linear equation */ - cpu_trip: cpu-trip { - temperature = <60000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - gpu_trip: gpu-trip { - temperature = <55000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - } - lcd_trip: lcp-trip { - temperature = <53000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "passive"; - }; - crit_trip: crit-trip { - temperature = <68000>; /* millicelsius */ - hysteresis = <2000>; /* millicelsius */ - type = "critical"; - }; - }; - - cooling-maps { - map0 { - trip = <&cpu_trip>; - cooling-device = <&cpu0 0 2>; - contribution = <55>; - }; - map1 { - trip = <&gpu_trip>; - cooling-device = <&gpu0 0 2>; - contribution = <20>; - }; - map2 { - trip = <&lcd_trip>; - cooling-device = <&lcd0 5 10>; - contribution = <15>; - }; - }; - }; -}; - -The above example is a mix of previous examples, a sensor IP with several internal -sensors used to monitor different zones, one of them is composed by several sensors and -with different cooling devices. |