Hi, This is v2 of the remainder of the MT6358 regulator driver cleanup and improvement series. v1 can be found here [1]. Changes since v1: - Merged patches dropped - Added patch to move VCN33 regulator status sync after ID check - Added patch to fix VCN33 sync fail error message - Added patch to add missing register definitions Various discrepancies were found while preparing to upstream MT8186 device trees, which utilize the MT6366 PMIC, that is also covered by this driver. Patch 1 should either go through the mfd tree and an immutable branch created for the regulator tree to consume, or given an Ack, merged directly through the regulator tree. Spoiler: a follow-up series dealing with the MT6366 PMIC, which is covered by the same driver, also has an mfd header patch that would need the same treatment. Patches 2~6 should go through the regulator tree, and patch 7 through the soc tree. Patches 2 and 3 should be merged as fixes for v6.5, as the commit they fix was just introduced in -rc1. Patches 5 and 6 depends on "[v3] regulator: Use bitfield values for range selectors" [2] I sent out earlier. This v2 series can be seen as three parts. v1 also had three parts, but one part was fully merged, and then v2 gained another cleanup. Part 1 - Fixing bogus regulators (patches 2, 3, and 7) There are some regulators listed in the bindings and driver that have no corresponding pin on the actual hardware. MediaTek says these are a hardware construct for shared control of the same regulator in the VCN33 case and an alternative control scheme for low power suspend. In the VCN33 case, there's only one actual regulator, so we merge the two and rename them to match the hardware pin. No existing devices use these AFAICT, so this should be safe to change. The driver changes for this part have been merged, but two review comments were not accounted for. They are addressed here with two new patches Part 2 - Robust chip ID checking (patch 4) Angelo suggested making the driver fail to probe if an unexpected chip ID was found. Patch 4 implements this. Part 3 - Output voltage fine tuning support (patches 1, 5, and 6) Many of the LDOs on these PMIC support an extra level of output voltage fine tuning. Most default to no offset, but a couple have a non-zero offset by default. Previously this was unaccounted for in the driver and device tree constraints. On the outputs with non-zero offset, this ends up becoming a discrepancy between the device tree and actual hardware. These two patches adds support for this second level of tuning, modeled as bunch of linear ranges. While it's unlikely we need this level of control, it's nice to be able to read back the accurate hardware settings. Please have a look. After this series is done I'll send out patches for the MT6366 PMIC, which is what started this. That will also include updated YAML bindings for MT6366. I think we can merge MT6358 bindings into them afterwards. Thanks ChenYu [1] https://lore.kernel.org/linux-arm-kernel/20230609083009.2822259-1-wenst@xxxxxxxxxxxx/ [2] https://lore.kernel.org/linux-arm-kernel/20230714081408.274567-1-wenst@xxxxxxxxxxxx/ Chen-Yu Tsai (7): mfd: mt6358: Add missing registers for LDO voltage calibration regulator: mt6358: Sync VCN33_* enable status after checking ID regulator: mt6358: Fix incorrect VCN33 sync error message regulator: mt6358: Fail probe on unknown chip ID regulator: mt6358: Add output voltage fine tuning to fixed regulators regulator: mt6358: Add output voltage fine tuning to variable LDOs arm64: dts: mediatek: mt6358: Merge ldo_vcn33_* regulators arch/arm64/boot/dts/mediatek/mt6358.dtsi | 11 +- drivers/regulator/mt6358-regulator.c | 314 +++++++++++------------ include/linux/mfd/mt6358/registers.h | 6 + 3 files changed, 151 insertions(+), 180 deletions(-) -- 2.41.0.487.g6d72f3e995-goog