How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build



  • @WereCatf said in How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build:

    @luz What DTS-file are you using?

    The OMEGA2.dts from the onion's LEDE fork on github, hoping they actually use exactly that file.

    GPIO18 and GPIO19 work just fine via both the /sys/class/gpio-interface and fast-gpio with my DTS.

    I assume you checked the output levels in hardware. Just asking - because even if the AGPIO switch is set the wrong way, you can claim those gpios via /sys/class or fast-gpio fine, just the signals don't get through to the pins.

    As AGPIO is related to the built-in ethernet switch, my next guess is that it is somehow related to network and switch config. I tried to enable/disable switch ports using swconfig, but that makes no difference. AGPIO state does not change.



  • @fossette said in How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build:

    If you keep the LEDE firmware as is (until the right solution is found), could these commands be run at the start of the boot script instead? I mean, is there a danger to equipment connected to these GPIOs if the pins are in Ethernet Mode during a very short period of time?

    That's exactly how I'm doing it right now - as a workaround ;-)

    For my specific application it is no problem, neither for connected equipment nor the pin drivers when the pins are in ethernet mode for a short period.

    But it's a uuuuugly solution, so I want to understand why Onion's build is behaving different despite the same dts and fix it the right way eventually!

    One curious detail - omega2-ctrl (of which we sadly don't have the source code) does have a "ephy" mux option that I can't relate to any of the actual gpio muxes of the MT7688. There is a "ephy" mux in the 7620, but not the 76x8. The available muxes are set up in linux-4.4.39/arch/mips/ralink/mt7620.c, but nothing in that file has to do with the AGPIO switch either.



  • @luz said in How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build:

    I assume you checked the output levels in hardware. Just asking - because even if the AGPIO switch is set the wrong way, you can claim those gpios via /sys/class or fast-gpio fine, just the signals don't get through to the pins.

    I'm sorry, I didn't actually check that. I just simply checked whether exporting the pin works in /sys/class/gpio and assumed it meant it was working. You're entirely correct, I should have checked it properly. Nevermind, though, I'm gonna push a fix for it on my github-repo in a minute!



  • There, fix pushed, push fixed.


  • administrators

    @luz sorry for the delayed response! GPIOs 18 and 19 are set to the PWM function by default. The Onion DTS file changes them to GPIO functionality.

    Also, we've open-sourced omega2-ctrl, check it out here: https://github.com/OnionIoT/omega2-ctrl



  • @WereCatf The fix just makes "pwm0" group GPIO by default (which I agree should be the case, too). But this does not help with AGPIO mode set.

    @Lazar-Demin yes, I realized that GPIO18/19 were in PWM mode by default. I fixed this in my experimental DTS already.

    However that's not what I was talking about. There is a global switch for all EPHY port1..4 pins to make them either digital I/O functions (GPIOs, PWM, etc.) or ethernet differential "analog" TX/RX pins.

    The bits called EPHY_GPIO_AIO_EN, bit 20..17 in AGPIO_CFG (0x1000003C) control that mode, as I explained in the original post. After a hardware reset, these bits are set to 1, so the MT7688 starts up in digital (GPIO) mode for these pins.

    My problem is that I can't figure out why my LEDE build at some point switches these pins to Ethernet.

    As it's not in the device tree, it must be some network related driver/package doing this, only I can't find it. If I had the omega2 .config, I would diff it with mine and probably be able to spot the difference.



  • @luz I don't understand the problem. GPIO18 and GPIO19 work fine with my latest change, I can see the pin-state change when I connect the pin to HIGH or LOW.



  • @Lazar-Demin said in How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build:

    Also, we've open-sourced omega2-ctrl, check it out here: https://github.com/OnionIoT/omega2-ctrl

    Great! Thanks a lot!

    This allowed me to figure out what the "ephy" setting that confused me actually is.

    It controls EPHY_LED0_N_JTDO pin to be either GPIO43 or the Ethernet LED for Port 0 (P0_LED_AN_MODE, Bits 3..2 in GPIO2_MODE). Thus, it should probably be called "eled". On the other hand, as that pin seems not connected in the Omega2, maybe it should be removed from omega2-ctrl, together with "wled" which seems not connected, too.



  • @WereCatf said in How to switch AGPIO (GPIO 18/19) - Omega2 FW vs LEDE build:

    @luz I don't understand the problem. GPIO18 and GPIO19 work fine with my latest change, I can see the pin-state change when I connect the pin to HIGH or LOW.

    It's definitely not a .dts thing. If I manually disable the AGPIO (see devmem command in the original post), GPIO18/19 work fine.

    But some software piece in my LEDE build does switch this entire pin group (all 16 bins related to ethernet switch port 1..4) into AGPIO/ethernet mode.

    In the meantime, I have a suspect: it could be the mere presence of the "swconfig" package. This is a utility to control built-in switch hardware, but it also pulls in a kernel module and maybe this module enables the switch hardware. I'm now building a new image without swconfig, let's see if that helps...

    Could you please check in your .config, do you have "swconfig" package selected?



  • @luz I have CONFIG_PACKAGE_swconfig=y but CONFIG_PACKAGE_kmod-swconfig=m -- perhaps that's the difference? You could also try if just disabling the switch in the DTS-file works, e.g. add the following to the DTS:

    &esw {
      status = "disabled";
    };
    


  • @WereCatf disabling the switch in the device tree kills ethernet functionality entirely :-(

    So this is no option for me - I need the ethernet port.

    Maybe its using the ethernet port that causes AGPIO to get enabled (and GPIO18/19 disabled)?

    Do you have ethernet in use on your omega2?

    BTW: CONFIG_PACKAGE_swconfig=y and CONFIG_PACKAGE_kmod-swconfig=m didn't help either.



  • @luz No, I don't have any of the various docks, including the Ethernet-dock.



  • @WereCatf I mean, is the eth0 interface enabled (in software)? It does not matter whether you have a ethernet dock or not.
    But if it isn't enabled in your configuration, then that could be the reason why GPIO18/19 work for you, and don't work in my case.



  • @luz It is enabled and all, yes. At least I haven't done anything to disable it.



  • Hi,

    Yeah, probably I'm a thread necromancer... But I think I found why (when, how) the official Omega2 image sets AGPIO to digital IO, and which is not done by the original LEDE project.

    I did the following trick, and it seems it succeeded: I connect one channel of my scope to one of the GPIOs (GPIO17) which was ~1.65V by default during boot and changed to 0V at a point in time and I attached the other probe to the TX line.

    As it clearly show the next screenshot, the line switched to digital at SD card initialization:

    0_1501790261164_omega2_agpio_switch.png

    It changes right after the kernel prints MSDC device init.. So, I searched for it in the kernel source and I found.

    Here is the corresponding snippet (it is located in linux-4.9.37/drivers/mmc/host/mtk-mmc/sd.c):

    static int __init mt_msdc_init(void)
    {
        int ret;
    /* +++ by chhung */
        u32 reg;
    
    #if defined (CONFIG_MTD_ANY_RALINK)
        extern int ra_check_flash_type(void);
        if(ra_check_flash_type() == 2) { /* NAND */
    	    printk("%s: !!!!! SDXC Module Initialize Fail !!!!!", __func__);
    	    return 0;
        }
    #endif
        printk("MTK MSDC device init.\n");
        mtk_sd_device.dev.platform_data = &msdclinux-4.9.37/drivers/mmc/host/mtk-mmc/sd.c0_hw;
    if (ralink_soc == MT762X_SOC_MT7620A || ralink_soc == MT762X_SOC_MT7621AT) {
    //#if defined (CONFIG_RALINK_MT7620) || defined (CONFIG_RALINK_MT7621)
        reg = sdr_read32((volatile u32*)(RALINK_SYSCTL_BASE + 0x60)) & ~(0x3<<18);
    //#if defined (CONFIG_RALINK_MT7620)
    	if (ralink_soc == MT762X_SOC_MT7620A)
        		reg |= 0x1<<18;
    //#endif
    } else {
    //#elif defined (CONFIG_RALINK_MT7628)
        /* TODO: maybe omitted when RAether already toggle AGPIO_CFG */
        reg = sdr_read32((volatile u32*)(RALINK_SYSCTL_BASE + 0x3c));
        reg |= 0x1e << 16;
        sdr_write32((volatile u32*)(RALINK_SYSCTL_BASE + 0x3c), reg);
    
        reg = sdr_read32((volatile u32*)(RALINK_SYSCTL_BASE + 0x60)) & ~(0x3<<10);
    #if defined (CONFIG_MTK_MMC_EMMC_8BIT)
        reg |= 0x3<<26 | 0x3<<28 | 0x3<<30;
        msdc0_hw.data_pins      = 8,
    #endif
    //#endif
    }
        sdr_write32((volatile u32*)(RALINK_SYSCTL_BASE + 0x60), reg);
        //platform_device_register(&mtk_sd_device);
    /* end of +++ */
    
        ret = platform_driver_register(&mt_msdc_driver);
        if (ret) {
            printk(KERN_ERR DRV_NAME ": Can't register driver");
            return ret;
        }
        printk(KERN_INFO DRV_NAME ": MediaTek MT6575 MSDC Driver\n");
    
    #if defined (MT6575_SD_DEBUG)
        msdc_debug_proc_init();
    #endif
        return 0;
    }
    

    It contains the part which actually do the job:

        reg = sdr_read32((volatile u32*)(RALINK_SYSCTL_BASE + 0x3c));
        reg |= 0x1e << 16;
        sdr_write32((volatile u32*)(RALINK_SYSCTL_BASE + 0x3c), reg);
    

    It sets all the four bits of AGPIO_CFG (EPHY_GPIO_AIO_EN, bit 20..17 (GPIO14, GPIO15, GPIO16 and GPIO17)) to 1 - thus enabling them as digital GPIO.

    So, it does not happen in any user space utility (like swconfig), but it happens in the kernel by enabling SD card.

    Hope this is still useful for some of you ;-)

    /sza2



  • @sza2-sza2 wow! Impressive analysis and I admire your patience to figure that out!

    Indeed, that is useful to know. Technically I had „solved“ the problem with directly writing to the AGPIO_CFG register, but I was wary of that hack without knowing why this was needed in the first place. Now I feel better ;-)

    LEDE is a router box OS, so it makes sense it makes the choice for Ethernet (AGPIO) by default. But still, it has to make that choice at some point, because after reset, the MT7688 is not in AGPIO mode. So there must be code somewhere else which enabkes AGPIO mode on in the first place. Probably low level ethernet init code...

    IMHO it would make sense for a non-router device like the Omega2 to never ever switch these pins to AGPIO, because otherwise there's a short period of unpredictable signal level left between reset and the time whatever code has a chance to switch back to GPIO mode, making them unusable for some purposes.

    Your work motivates me to dig in a bit and find (and eventually patch) that initialisation code :-)



  • @luz Hi,

    I cannot recall perfectly, but as far as I remember, those pins became ~1.65V during bootloader time. Actually, I saw a glitch on the line somewhere before it permanently set to 0V, and it was already during kernel boot (maybe around MTD initialization) but I did not dig deeper. Probably, later on I'll check it - although my online radio receiver already works, so there is no compelling reason :-)

    /sza2



  • @sza2-sza2 thinking about it, it is likely AGPIO is enabled in the bootloader already. Onion's modified uboot for sure can use the ethernet, and probably that code was originally written for router-type boxes with all ethernet ports enabled.

    Unfortunately, as per now, we don't have the Omega uboot source, so no way to check or even patch. But I hope this is only a matter of time, as it was for the LEDE tree which is finally available now! (Update 2017-10-07: bootloader sources are available now as well)



  • @luz Hi,

    Finally, I had some time to capture the boot process.GPIO17 and UART TX lines were connected to Saleae Logic's inputs. I recorded the waveform from issuing the reboot command on previously booted system, through U-boot, until the next kernel boot (official Omega2 image).

    Since I was not able to upload the captured file to this comment (although the zipped file was smaller than the 2MB limit), I put in on my Google Drive: omega2_boot.logicdata - if any of you interested in.

    There are three spot where GPIO17 changes its state:

    In U-boot at Resetting MT7628 PHY:
    0_1502221184114_uboot.png
    Where it is switched to Ethernet (there is a short period when it seems to configured as GPIO output (for ~70us)).

    During kernel boot around MTD partitions check:
    0_1502221650435_kernel_glitch.png
    This takes ~700us.

    And finally, SD init set those pins to normal GPIOs as I figured it out previously:
    0_1502221719552_sd_init.png

    There are three voltage levels:

    • ~2.5V (I assume this is when the pin is GPIO input and the logic analyzer pulls somewhat down the pin)
    • ~1.5V (when the pin is configured for Ethernet)
    • ~3.3V (probably the pin is configured as GPIO output)

    So, based on the above, I suppose, it is proven that U-boot changes the state from normal GPIO to Ethernet.

    /sza2



  • @sza2-sza2 Your analysis is correct, the problem affects pin 14 through 29, and is easily fixed is in the bootloader:

    diff --git a/drivers/rt2880_eth.c b/drivers/rt2880_eth.c
    index 7c83a46..9b6f1ec 100644
    --- a/drivers/rt2880_eth.c
    +++ b/drivers/rt2880_eth.c
    @@ -2134,6 +2134,8 @@ void rt305x_esw_init(void)
     /*TODO: Init MT7628 ASIC PHY HERE*/
            i = RALINK_REG(RT2880_AGPIOCFG_REG);
            i = i & ~(MT7628_EPHY_EN);
    +       // only enable PHY 0
    +       i = i | (0x1e << 16);
            RALINK_REG(RT2880_AGPIOCFG_REG) = i;
    
            printf("Resetting MT7628 PHY.\n");
    
    

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