(i asked about this on the kernel newbies list earlier as a kind of
puzzle but i think i really want a definitive answer so i'm taking it
to the experts. (i will *try* to be concise.)
imagine i'm building a bunch of 8-port switches, using PHYs from
acme corp, who manufacture four different PHYs that differ only in
their supported speeds, with PHY IDs that differ only in the final
nybble which identifies the PHY speed:
0x1234.5671 1G
0x1234.5672 2.5G
0x1234.5675 5G
0x1234.567A 10G
the problem i have is that i have been handed a bucket of mixed
PHYs of all four types that are visually indistinguishable -- the
only way to tell them apart is, upon system boot, i can read a given
H/W register which precisely identifies the type of PHY of the four
possible types. however, in this situation, all i can do is reach into
the bucket, grab eight random PHYs, bolt them in, and somehow later
dynamically identify them at runtime. how to do this?
first, i can't identify the precise PHY ID in the device tree file
since i have no idea what type will be at each of the eight PHY addresses,
so i will "wildcard" the compatible value for each of them thusly (where
the final nybble of zero is, of course, irrelevant):
compatible = "ethernet-phy-id1234.5670"
i see no way to avoid this at the device tree level so ... onward.
moving over to the driver, it seems pretty clear that, since the
PHY IDs i'm getting from the device tree are acme-generic, i would
have:
#define PHY_ID_ACME_WILDCARD 0x12345670
#define PHY_ID_ACME_1G 0x12345671
#define PHY_ID_ACME_2G 0x12345672
#define PHY_ID_ACME_5G 0x12345675
#define PHY_ID_ACME_10G 0x1234567A
#define PHY_ID_ACME_MASK 0xfffffff0
...
static struct mdio_device_id __maybe_unused acme_tbl[] = {
{ PHY_ID_ACME_WILDCARD, 0xfffffff0 },
{ }
};
MODULE_DEVICE_TABLE(mdio, acme_tbl);
again, this seems fairly obvious since the PHY ID field for any PHY
will contain only that "generic" value. but here's the discussion i'm
having with a colleague.
i'm fairly sure that i should have a single phy_driver structure
still incorporating the wildcard since, at this point, i still have no
idea what each PHY type is, so my suggestion was:
static struct phy_driver acme_driver[] = { {
.phy_id = PHY_ID_ACME_WILDCARD,
.name = "An ACME PHY",
.phy_id_mask = PHY_ID_ACME_MASK,
.features = PHY_BASIC_FEATURES,
... snip ...
} };
at which point, at probe time, for each PHY, i could read the
respective H/W register, then assign the proper value to the
phy_device phy_id field and use that from now on.
my colleague suggests that, no, i could actually define
four phy_driver structures, one for each specific PHY,
as in:
static struct phy_driver acme_driver[] = { {
.phy_id = PHY_ID_ACME_1G,
.name = "Acme 1G PHY",
.phy_id_mask = 0xffffffff,
.features = PHY_BASIC_FEATURES,
... snip ...
}, {
.phy_id = PHY_ID_ACME_25G,
.name = "Acme 2.5G PHY",
.phy_id_mask = 0xffffffff,
.features = PHY_BASIC_FEATURES,
... snip ...
and so on.
given that the precise PHY type is not available from the device tree,
could the above possibly work? or is it that, once i probe each PHY,
determine its precise type and write that type into the phy_id field
of the phy_device structure, the above would become relevant?
any pointers appreciated.
rday
