[PATCH v2] net: mtk_sgmii: implement mtk_pcs_ops

Fri Oct 21 11:31:56 PDT 2022

On Fri, Oct 21, 2022 at 07:47:47PM +0200, Frank Wunderlich wrote:
> > Gesendet: Freitag, 21. Oktober 2022 um 11:06 Uhr
> > Von: "Russell King (Oracle)" <linux at armlinux.org.uk>
> > An: "Frank Wunderlich" <frank-w at public-files.de>
> > On Fri, Oct 21, 2022 at 08:04:51AM +0200, Frank Wunderlich wrote:
> > > I have no register documentation to check if there is any way to read out pause/duplex setting. Maybe MTK can answer this or extend function later.
> >
> > I suspect we can probably guess.
> >
> > Looking at SGMSYS_PCS_CONTROL_1, this is actually the standard BMCR in
> > the low 16 bits, and BMSR in the upper 16 bits, so:
> >
> > At address 4, I'd expect the PHYSID.
> > At address 8, I'd expect the advertisement register in the low 16 bits
> > and the link partner advertisement in the upper 16 bits.
> >
> > Can you try an experiment, and in mtk_sgmii_init() try accessing the
> > regmap at address 0, 4, and 8 and print their contents please?
> 
> is this what you want to see?
> 
>  int mtk_sgmii_init(struct mtk_sgmii *ss, struct device_node *r, u32 ana_rgc3)
>  {
>         struct device_node *np;
> +       unsigned int val;
>         int i;
> 
>         for (i = 0; i < MTK_MAX_DEVS; i++) {
> @@ -158,6 +159,12 @@ int mtk_sgmii_init(struct mtk_sgmii *ss, struct device_node *r, u32 ana_rgc3)
>                 if (IS_ERR(ss->pcs[i].regmap))
>                         return PTR_ERR(ss->pcs[i].regmap);
> 
> +               regmap_read(ss->pcs[i].regmap, SGMSYS_PCS_CONTROL_1, &val);
> +               printk(KERN_ALERT "dev: %d offset:0 0x%x",i,val);
> +               regmap_read(ss->pcs[i].regmap, SGMSYS_PCS_CONTROL_1+4, &val);
> +               printk(KERN_ALERT "dev: %d offset:4 0x%x",i,val);
> +               regmap_read(ss->pcs[i].regmap, SGMSYS_PCS_CONTROL_1+8, &val);
> +               printk(KERN_ALERT "dev: %d offset:8 0x%x",i,val);
>                 ss->pcs[i].pcs.ops = &mtk_pcs_ops;
>         }
> 
> 
> [    1.083359] dev: 0 offset:0 0x840140
> [    1.083376] dev: 0 offset:4 0x4d544950
> [    1.086955] dev: 0 offset:8 0x1
> [    1.090697] dev: 1 offset:0 0x81140
> [    1.093866] dev: 1 offset:4 0x4d544950
> [    1.097342] dev: 1 offset:8 0x1

Thanks. Decoding these...

dev 0:
 BMCR: fixed, full duplex, 1000Mbps, !autoneg
 BMSR: link up
 Phy ID: 0x4d54 0x4950
 Advertise: 0x0001 (which would correspond with the MAC side of SGMII)
 Link partner: 0x0000 (no advertisement received, but we're not using
    negotiation.)

dev 1:
 BMCR: autoneg (full duplex, 1000Mbps - both would be ignored)
 BMSR: able to do autoneg, no link
 Phy ID: 0x4d54 0x4950
 Advertise: 0x0001 (same as above)
 Link partner: 0x0000 (no advertisement received due to no link)

Okay, what would now be interesting is to see how dev 1 behaves when
it has link with a 1000base-X link partner that is advertising
properly. If this changes to 0x01e0 or similar (in the high 16-bits
of offset 8) then we definitely know that this is an IEEE PHY register
set laid out in memory, and we can program the advertisement and read
the link partner's abilities.

At that point, we should try programming the low 16-bits of offset 8
to see whether that advertisement makes it to the far end of the link.

It would be well worth trying to work this out, because it will then
vastly improve the knowledge of this hardware, and improve the
driver no end.

Is this something you could investigate please?

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