- 13 Jul, 2022 40 commits
-
-
Shady Nawara authored
adds T_Sensor and VRM Temp sensors for the Asus Strix z690-a D4 motherboard Signed-off-by:
Shady Nawara <shady.nawara@outlook.com> Signed-off-by:
Eugene Shalygin <eugene.shalygin@gmail.com> Link: https://lore.kernel.org/r/20220603122758.1561064-1-eugene.shalygin@gmail.comSigned-off-by:
Guenter Roeck <linux@roeck-us.net>
-
Armin Wolf authored
Some devices like the Fujitsu Celsius W380 do contain a working sch56xx hardware monitoring device, but do not contain the necessary DMI onboard device. Do not check for the presence of an suitable onboard device on these machines. The list of affected machines was created using data collected by the Linux Hardware Project. Tested on a Fujitsu Esprimo P720, but sadly not on a affected machine. Fixes: 393935ba (hwmon: (sch56xx-common) Add automatic module loading on supported devices) Signed-off-by:
Armin Wolf <W_Armin@gmx.de> Reviewed-by:
Hans de Goede <hdegoede@redhat.com> Link: https://lore.kernel.org/r/20220604220200.2567-1-W_Armin@gmx.deSigned-off-by:
-
Christophe JAILLET authored
When kernel.h is used in the headers it adds a lot into dependency hell, especially when there are circular dependencies are involved. Replace kernel.h inclusion with the list of what is really being used. Signed-off-by:
Christophe JAILLET <christophe.jaillet@wanadoo.fr> Link: https://lore.kernel.org/r/4e07ed43274ad912d4efcfc04f673f25e8f89fdc.1654289489.git.christophe.jaillet@wanadoo.frSigned-off-by:
-
Aleksander Mazur authored
Treat F71858AD like F71858FG. Tested on Igel D220. Signed-off-by:
Aleksander Mazur <deweloper@wp.pl> Link: https://lore.kernel.org/r/20220605012114.3d85a75a@mocarzSigned-off-by:
-
Guenter Roeck authored
Add support for Analog Devices LT7182S Dual Channel 6A, 20V PolyPhase Step-Down Silent Switcher with Digital Power System Management. Signed-off-by: -
Guenter Roeck authored
Add Analog Devices LT7182S Dual Channel Step-Down Switcher. Acked-by:
Krzysztof Kozlowski <krzysztof.kozlowski@linaro.org> Signed-off-by:
-
Guenter Roeck authored
Add support for the IEEE 754 half precision data format as specified in PMBus v1.3.1. Signed-off-by: -
Guenter Roeck authored
Several of the chips supported by this driver support configuring the number of samples (or the fault queue depth) necessary before a fault or alarm is reported. This is done either with a bit in the configuration register or with a separate "consecutive alert" register. Support this functionality with the temp_samples attribute. Signed-off-by: -
Guenter Roeck authored
Add table with device names and known register values for supported devices from Analog / ON Semiconductor. Signed-off-by: -
Guenter Roeck authored
NE1618 is similar to NE1617 but supports manufacturer and chip ID registers as well as 11 bit external temperature resolution. Signed-off-by: -
Guenter Roeck authored
ADM1020 is compatible with ADM1021 but has a separate chip revision and a limited I2C address range. Signed-off-by: -
Guenter Roeck authored
It was observed that the alert handler may be called from the i2c core even after alerts have already been disabled. Only disable alerts if they have not already been disabled. Signed-off-by: -
Guenter Roeck authored
ADT7421 is similar to ADT7461A but supports configurable Beta Compensation. Packet Error Checking (PEC) is supported but undocumented. A devicetree node is not added for the added chip since it is quite unlikely that such an old chip will ever be used in a devicetree based system. It can be added later if needed. Signed-off-by: -
Guenter Roeck authored
NCT218 is compatible to NCT72 and NCT214. It also supports PEC (packet error checking). Similar to NCT72 and NCT214, PEC support is undocumented. Unlike NCT214 and NCT72, NCT218 does not support the undocumented secondary chip and manufacturer ID registers at 0x3e and 0x3f and returns 0x00 when reading those registers. The value for the chip revision register is not documented but was observed to be 0xca. Use that information to improve chip detection accuracy. Signed-off-by: -
Guenter Roeck authored
NCT214 and NCT72 are compatible to ADT7461/ADT7461A but have full PEC (packet error checking) support. PEC support is undocumented. Both chips support the undocumented secondary chip and manufacturer ID registers at 0x3e and 0x3f, and return 0x61 as chip ID. Use this information to improve the accuracy of chip detection code. Signed-off-by: -
Guenter Roeck authored
Unlike ADM1023 and compatible chips, NCT210 does not support a temperature offset register. A real chip was found to have a chip revision of 0x3f. Use it to detect NCT210 explicitly. Signed-off-by: -
Guenter Roeck authored
LM86 and LM90 support exactly the same features, so there is no need to keep their configuration options separate. Combine to reduce data size. Signed-off-by: -
Guenter Roeck authored
All chips supported by the ADM1021 driver are also supported by the LM90 driver. Make that support official. After this change, the adm1021 driver is only needed if the lm90 driver is disabled. Also, the adm1021 driver misdetects a variety of chips as MAX1617A, which is unwanted if any of those chips is in the system. For this reason. make the adm1021 driver dependent on !SENSORS_LM90 to show that it is not needed if the lm90 driver is enabled, and to avoid misdetection if a chip supported by the lm90 driver is in the system. Devicetree nodes are not added for the added chips since it is quite unlikely that such old chips will ever be used in a devicetree based system. They can be added later if needed. Signed-off-by: -
Guenter Roeck authored
Both chips are quite similar to other chips of this series, so add support for them to the lm90 driver. Also mention ON Semiconductor NCT210, which is pin and register compatible to ADM1021A. None of the chips support the secondary manufacturer and chip ID registers at 0x3e and 0x3f, but return 0 when reading from those registers. Use that information to improve the accuracy of chip detection code. Devicetree nodes are not added for the added chips since it is quite unlikely that such old chips will ever be used in a devicetree based system. They can be added later if needed. Signed-off-by: -
Guenter Roeck authored
MAX1617 and LM84 are stripped-down versions of LM90, so they can easily be supported by the LM90 driver. The most difficult part is chip detection, since those old chips do not support manufacturer ID or chip ID registers. The "alarms" attribute is enabled for both chips to match the functionality of the adm1021 driver. Chip detection was improved and is less prone to misdetection than the chip detection in the adm1021 driver. Devicetree nodes are not added for the added chips since it is quite unlikely that such old chips will ever be used in a devicetree based system. They can be added later if needed. Signed-off-by: -
Guenter Roeck authored
Introduce 16-bit register write function to simplify the code in some places. Signed-off-by: -
Guenter Roeck authored
Simplify the code a bit by handling single-register read operations in lm90_read16(). All we need to do is to skip the low-byte read operation if the register address is 0. Signed-off-by: -
Guenter Roeck authored
MAX6642 is a reduced version of LM90 with no low limits and no conversion rate register. Its alert functionality is broken, similar to many other chips supported by the lm90 driver. After this change, the stand-alone max6642 driver is only needed if the lm90 driver is disabled. Make it dependent on SENSORS_LM90=n to show that it is not needed if the lm90 driver is enabled. A devicetree node is not added for this chip since it is quite unlikely that such an old chip will ever be used in a devicetree based system. It can be added later if needed. Signed-off-by: -
Guenter Roeck authored
A flag indicating support for setting the conversion rate doesn't cost much and will enable us to add support for MAX6642 to the lm90 driver. Signed-off-by: -
Guenter Roeck authored
A flag indicating support for minimum temperature limits doesn't cost much and will enable us to add support for MAX6642 to the lm90 driver. Signed-off-by: -
Guenter Roeck authored
MAX6690 is all but identical to MAX6654. Revision 1 of its datasheet lists the same chip ID as MAX6654, and a chip labeled MAX6654 was found to have the chip ID listed as MAX6690 chip ID in Revision 2 of its datasheet. A devicetree node is not added for this chip since it is quite unlikely that such an old chip will ever be used in a devicetree based system. It can be added later if needed. Signed-off-by: -
Guenter Roeck authored
ADT7461A and NCT1008 support the undocumented manufacturer and chip ID registers at 0x3e and 0x3f, and return 0x61 as chip ID. ADM1032 and ADT7461 do not support those registers but return 0 when reading them. Use this information to improve the accuracy of the chip detection code. Signed-off-by: -
Guenter Roeck authored
ADT7481, ADT7482, and ADT7483 are similar to ADT7461, but support two external temperature sensors, similar to MAX6695/6696. They support an extended temperature range similar to ADT7461. Registers for the second external channel can be accessed directly or by using the same method as used by MAX6695/6696. For simplicity, the access method implemented for MAX6695/6696 is used. The chips support PEC (packet error checking). Set the PEC feature flag and let the user decide if it should be enabled or not (it is by default disabled). Even though it is only documented for ADT7483, all three chips support a secondary manufacturer ID register at 0x3e and a chip ID register at 0x3f. Use the contents of those registers register for improved chip detection accuracy. Add the same check to the ADT7461A detection code since this chip also supports the same (undocumented) registers. Devicetree nodes are not added for the added chips since it is quite unlikely that such old chips will ever be used in a devicetree based system. They can be added later if needed. Reviewed-by:
Slawomir Stepien <sst@poczta.fm> Signed-off-by:
-
Guenter Roeck authored
Unlike MAX6646/MAX6647/MAX6649, MAX6648 and MAX6692 only support a temperature range of 0..127 degrees C. Separate support for the two sets of chips to be able to support maximum temperature ranges correctly for all chips. Introduce new feature flag to indicate temperature support up to 255 degrees C. Since the chips are almost identical except for the supported temperature range, automatic chip detection is limited. Effectively this means that MAX6648 may be mis-detected as MAX6649 when auto-detected, but there is nothing we can do about that. Devicetree nodes are not added for the added chips since it is quite unlikely that such old chips will ever be used in a devicetree based system. They can be added later if needed. Signed-off-by: -
Guenter Roeck authored
We don't want to support the obsolete 'alarms' attribute for new chips supported by this driver. Add flag to indicate 'alarms' attribute support and use it for existing chips. This flag will not be set for additional chips supported by this driver in the future. Signed-off-by: -
Guenter Roeck authored
When support for G781 was added, chips with ID 0x01 were found at I2C addresses 0x4c and 0x4d. The G781 datasheet (version 1.3 from October 2003) says that the device ID for G781-1 is 0x03, not 0x01. Also, the datasheet states that the chip at I2C address is G781 and the chip at I2C address 0x4d is G781-1. A G781-1 at I2C address 0x4d was now found to have a chip ID of 0x03 as suggested by the datasheet. Accept both 0x01 and 0x03 chip IDs at both addresses to ensure that all variants of G781 are detected properly. While at it, improve chip detection accuracy by reading two additional registers and ensuring that only expected bits are set in those registers. Signed-off-by: -
Guenter Roeck authored
The NCT1008 datasheet, Revision 3, states that its chip revision is 0x57. This matches the ADT7461A chip revision, and NCT1008 is therefore detected as ADT7461A. In revision 6 of the datasheet, the chip revision register is no longer documented. Multiple samples of NCT1008 were found to report a chip revision of 0x54. As it turns out, one of the patches submitted to add NCT1008 support to the lm90 driver already included a check for chip revision 0x54. Unfortunately, that patch never made it into the kernel. Remedy the situation and explicitly detect chips with revision 0x54 as NCT1008. Signed-off-by: -
Guenter Roeck authored
The detect function is getting larger and larger and difficult to understand or review. Split it into per-manufacturer detect functions to improve readability. Signed-off-by: -
Guenter Roeck authored
Since temperature conversion functions are now unified, there is no need to keep "the chip supports a configurable extended temperature range" and "the chip has extended temperature range enabled" flags separate. Use a single flag instead to reflect both. Signed-off-by: -
Guenter Roeck authored
While most LM90 compatible chips support a temperature sensor resolution of 11 bit, this is not the case for all chips. ADT7461 only supports a resolution of 10 bit, and TMP451/TMP461 support a resolution of 12 bit. Add support for various temperature sensor resolutions. To do this, model all temperature sensors as 16 bit sensors, and use unified temperature conversion functions which take the sensor resolution as parameter. While enhancing functionality, this has the positive side effect of reducing code size by about 5%. Signed-off-by: -
Guenter Roeck authored
When reading 16-bit volatile registers, the code uses a trick to determine if a temperature is consistent: It reads the high part of the register twice. If the values are the same, the code assumes that the reading is consistent. If the value differs, the code re-reads the second register as well and assumes that it now has correct values. This is only necessary for volatile registers. Add a parameter to lm90_read16() to indicate if the register is volatile to avoid the extra overhead for non-volatile registers. Signed-off-by: -
Guenter Roeck authored
ADT7461 and TMP451 temperature sensors support extended temperature ranges. If standard temperature range is selected, the temperature range is unsigned and limited to 0 .. 127 degrees C. For TMP461, the standard temperature range is -128000 ... 127000 degrees C. Distinguish between the two chips by introducing a feature flag indicating if the standard temperature range is signed or unsigned. Use the same flag for MAX6646/ MAX6647 as well since those chips also support unsigned temperatures. Note that while the datasheet for ADT7461 suggests that the default temperature range is unsigned, tests with a real chip suggest that this is not the case: If the temperature offset is set to a value << 0, the temperature register does report negative values. Tests with real chips show that MAX6680/MAX6681 and SA56004 report temperatures of 128 degrees C and higher as negative temperatures. Add respective comments to the code. Also use clamp_val() and DIV_ROUND_CLOSEST where appropriate in calculations. Signed-off-by: -
Guenter Roeck authored
Experiments show that ADT7461A and NCT1008 support PEC, even though it is not documented. Enable support for it in the driver. Since ADT7461 only supports partial PEC, this means that the configuration for ADT7461A needs to be separated from ADT7461. Signed-off-by: -
Guenter Roeck authored
Revision 0 of the ADT7461 datasheet suggests that the chip supports PEC (packet error checking). This information is gone in later versions of the datasheet. Experiments show that PEC support on ADT7461 is similar to PEC support in ADM1032, ie it is only supported for read operations. Add support for it to the driver. Signed-off-by: -
Guenter Roeck authored
PEC (packet error checking) support for ADM1032 is currently only enabled if the chip was auto-detected, but not if a chip is instantiated explicitly. Always enable PEC support by introducing a chip feature flag indicating partial PEC support. Also, for consistency, disable PEC support by default to match existing functionality if the chip was not auto- detected. At the same time, introduce generic support for PEC with a separate feature flag. This will be used when support for chips with full PEC functionality is added. Signed-off-by:
-
