On 21/11/2022 11:36, Yassine Oudjana wrote: > > On Mon, Nov 21 2022 at 09:26:59 +01:00:00, Krzysztof Kozlowski > <krzysztof.kozlowski@xxxxxxxxxx> wrote: >> On 20/11/2022 16:46, Yassine Oudjana wrote: >>>>> + interrupts: >>>>> + items: >>>>> + - description: Charger error >>>>> + - description: Charger inhibited >>>>> + - description: Charger precharge safety timer timeout >>>>> + - description: Charger charge safety timer timeout >>>>> + - description: Charger pre to fast charging switch >>>>> threshold reached >>>>> + - description: Charger recharge threshold reached >>>>> + - description: Charger taper threshold reached >>>>> + - description: Charger charge termination threshold reached >>>>> + - description: Battery hot >>>>> + - description: Battery warm >>>>> + - description: Battery cold >>>>> + - description: Battery cool >>>>> + - description: Battery overvoltage >>>>> + - description: Battery low >>>>> + - description: Battery missing >>>>> + - description: Battery thermistor missing # unconfirmed >>>>> + - description: USB input undervolt >>>>> + - description: USB input overvolt >>>>> + - description: USB input source detected >>>>> + - description: OTG regulator failure >>>>> + - description: OTG regulator overcurrent >>>>> + - description: Automatic input current limiting done >>>>> + - description: USB ID pin changed >>>>> + - description: DC input undervolt >>>>> + - description: DC input overvolt >>>>> + - description: Power OK >>>>> + - description: Temperature shutdown >>>>> + - description: Watchdog timeout >>>>> + - description: Flash failure >>>>> + - description: OTST2 # unknown >>>>> + - description: OTST3 # unknown >>>> >>>> It seems you listed register interrupts, not physical pins. This >>>> should >>>> be interrupt lines. >>> >>> I'm not sure what I'm supposed to do here. I couldn't find an >>> interrupt-lines >>> property used anywhere so that's not what you meant, right? >> >> Are these physical interrupt lines this device has, register offsets >> or >> virtual interrupts (e.g. passed via irq_chip)? Definitely not the >> first >> and rather offsets for qpnpint_irq_domain_translate. Devicetree is not >> for describing register layout of devices. IOW, register layout does >> not >> change on different boards, because the device is exactly the same, so >> there is no point to put it into DTS. >> > > So how would I describe the interrupts then? Or if you are saying I > shouldn't have these interrupts in DT at all, how would I get them and > register handlers for them in the driver? the PMIC arbiter takes 4 > interrupt cells, 3 of which are these offsets specifying the peripheral > and interrupt. All other PMIC peripherals currently described in DT > (examples being qcom,pm8916-wcd-analog-codec, qcom,pm8941-pwrkey and > qcom-wled) have their interrupts (if any) described this way, with the > only exceptions perhaps being the GPIO and MPP controllers which are > themselves interrupt controllers. Changing the way PMIC peripheral > interrupts are described would require changing PMIC arbiter bindings > and code which I believe is out of the scope of this patch series. I don't think this would touch PMIC arbiter bindings, rather the PMIC itself. Usually complex devices (like PMICs) have one few physical interrupt lines and many registers related to some specific interrupts. For example: 1. One IRQ line, 2. Register with bits for overvoltage, undervoltage, vharger error etc. Now how the MFD child device accesses them. Since this is strictly related to hardware programming model, it's not something you put to Devicetree. Instead parent device (PMIC) registers IRQ chip for its one interrupt line with several Linux (or virtual) interrupts. The children then just get a virtual IRQ from the parent (PMIC) and setup a handler(s) for them. You will find some examples for this, just grep for regmap_irq_get_virq, for the drivers using regmap_irq_chip (or irq_create_mapping for non-regmaps). Since it is *one* device - the PMIC and its child like charger - the register layout is fixed thus I think these virtual (or Linux) interrupts are fixed as well. I don't know why Qualcomm PMIC for SPMI is done differently. Best regards, Krzysztof