* remove the DEBUG ifdef; defining it is too far reaching throughout
the whole system;
* add a bitmask in the softc for controlling debugging;
* .. enable said debugging as a sysctl;
* add bitmaps for register access, reset and vlans.
TODO:
* Now that the debug statements are configurable, we definitely could
do with more debugging
* Move the debugging into the top-level etherswitch driver and have
sub-drivers obey.
In mediatek etherswitch support, functions mtkswitch_reg_write32_mt7621
and mtkswitch_reg_read32_mt7621 are called without locks held, so
lock assertions fail. Remove the lock assertions.
Sponsored by: Smartcom - Bulgaria AD
Fix issues that crept in with initial import.
Approved by: adrian (mentor)
Sponsored by: Smartcom - Bulgaria AD
Differential Revision: https://reviews.freebsd.org/D6393
This revision introduces basic support for the internal ESW switch found
Ralink/Mediatek SoCs such as RT3050, RT3352, RT5350, MT7628; and GSW
found in MT7620 and MT7621.
It only supports 802.1q VLANs and doesn't support external PHYs at the
moment (only the ones that are built into the switch itself).
Approved by: adrian (mentor)
Sponsored by: Smartcom - Bulgaria AD
Differential Revision: https://reviews.freebsd.org/D6348
The mdio driver interface is generally useful for devices that require
MDIO without the full MII bus interface. This lifts the driver/interface
out of etherswitch(4), and adds a mdio(4) man page.
Submitted by: Landon Fuller <landon@landonf.org>
Differential Revision: https://reviews.freebsd.org/D4606
Add e6000sw driver supporting Marvell 88E6352, 88E6172, 88E6176 switches.
It needs to be attached to mdio interface, exporting SMI access
functionality. e6000sw supports port-based VLAN configuration, per-port
media changing, accessing PHY and switch registers.
e6000sw attaches miibuses and PHY drivers as children. Instead of typical
tick as callout, kthread-based tick is used. This combined with SX locks
allows MDIO read/write calls to sleep. It is expected, because this
hardware requires long delays in SMI read/write procedures, which can not
be handled by busy-waiting.
Reviewed by: adrian
Obtained from: Semihalf
Submitted by: Bartosz Szczepanek <bsz@semihalf.com>
Differential revision: https://reviews.freebsd.org/D3902
I messed up when doing the reset_vlans method - setting vid[0] = 1 here
was making it 'hidden' from configuration (as it needed ETHERSWITCH_VID_VALID
as well) and so there was no way to configure vlangroup0.
In per-port VLAN mode, vlangroup0 is for the CPU port (port0).
Now, it normally wouldn't really matter - the CPU port thus sees
all other ports. However there are two CPU ports on the AR8327 and
so port0 (arge0) was seeing all traffic on port6 (arge1).
If you thus tried to use arge1/port6 for anything (eg a WAN port)
in a bridge group then things would very upset very quickly.
Whilst here, add a comment to remind myself that yes, it'd be nice
if we could specify a boot-time switch config.
Tested:
* AP135 reference platform w/ AR8327N switch
This is slightly different to the other switches - the VLAN table
(VTU) programs in the vlan port mapping /and/ the port config
(tagged, untagged, passthrough, any.)
So:
* Add VTU operations to program the VTU (vlan table)
* abstract out the mirror-disable function so it's .. well, a function.
* setup the port to have a dot1q configuration for dot1q - the
port security is VLAN (not per-port VLAN) and requires an entry
in the VLAN table;
* add set_dot1q / get_dot1q to program the VLAN table;
* since the tagged/untagged ports are now programmed into the VTU,
rather than global - plumb the ports /and/ untagged ports bitmaps
through the arswitch API.
Tested:
* AP135 - QCA9558 SoC + AR8327N switch
All the per-port support is really doing is applying a port visibility
mask to each of the switchports. Everything still look like a single
portgroup (vlan id 1), but the per-port visibility mask is modified.
Whilst I'm here, also add some initial dot1q support - the pvid stuff
is doing the right thing, but it's not useful without the rest of
the VLAN table programming.
It's enough for me to be able to use the LAN/WAN port distinction
on the AP135, where there isn't (for now!) a dedicated PHY for the
"WAN" port.
Tested:
* AP135, QCA9558 SoC + AR8327 switch
* Even though I got the registers around "right", it seems
I'm not tickling the MDIO access correctly for the internal PHY
bus. Some of the switches are fine poking at the external PHY
registers; others aren't. So, enable direct PHY bus access
for the AR8327, and leave the existing code in place for the
others.
* Go and shuffle the register access around. Whilst here,
restore the 2ms delay if changing page.
* Comment out some of the stub printf()s; there's some upcoming
work to add port VLAN support.
Tested:
* AP135 development board
* Carambola2 - AR9331 SoC
I noticed that openwrt/linux does this, citing "instability", so
until they figure out why I'm going to disable it here as well.
Tested:
* QCA AP135 - QCA955x SoC + AR8327 switch.
So, it turns out that the AR8327 has 7 ports internally:
* GMAC0 / external (CPU) MAC0
* GMAC1 / port1 -> GMAC5 / port5: external switch port PHYs
* GMAC6 / external (CPU) MAC1
Now, depending upon how things are wired up, the second CPU port (MAC1)
can be wired to either the switch (port6), or through port5's PHY, bypassing
the GMAC+switch entirely. Ie, it can pretend to be a boring PHY, saving
system designers from having to include a separate PHY for a "WAN" port.
Here's the rub - the AP135 board (QCA955x SoC) hooks up arge0 to
the second CPU port on the AR8327, but it's hooked up as RGMII.
So, in order to hook it up to the rest of the switch, it isn't configured
as a separate PHY - OpenWRT has it setup as connected via RGMII to
GMAC6 and (I'm guessing) it's set to be a WAN port by configuring up
port-based VLANs or something.
Thus, with a port mask of 0x3f, GMAC6 was never allowed to receive traffic
from any other port. It could transmit fine, but not receive anything.
So, now it works enough for me to continue doing board bootstrapping.
Note, this isn't enough to make the QCA955x + AR8327 work - there's
a bunch of uncommitted work to both the platform SoC (interrupt handling,
ethernet, etc) and the ethernet switch (register access space, setup, etc)
that needs to happen. However, this particular change is also relevant to
other SoCs, like the AR934x and AR7161, both of which can be glued to
this switch.
Tested:
* AP135 development board
TODO:
* Figure out whether I can somehow abuse another port mode to have this
be a pass-through PHY, or whether I should just create some more boot
time hints to explicitly set up port-based isolation so this works
in a more useful way by default.
Update some comments on code, specifying the correct vlans used on switch
setup.
Advertise the proper switch operation mode (the rtl8366rb only support
dot1q vlans).
This fixes the breakage that i introduced on r249752 and make the rtl8366rb
switch works again with etherswitchcfg(8).
Tested on TP-Link 1043ND.
Tested by: me, Harm Weites (harm at weites.com)
(pvid=1) and we already configure them to send to other ports.
Setting pvid=portnum would mean that there were separate vlangroups
for each ports, but 'leaking' into other ports. The result? All port
traffic flooded to all other port traffic.
Tested:
* DB120, AR9344 + AR8327 switch
The OpenWRT AR8xxx switch support flushes the ATU (address translation
unit) after each port link 'up' status change. I've modified this to
just flush on any port transition.
Whilst here, bump the number of ports on the AR8327 to 6, rather than
the default of 5. It's DB120 specific; I'll go and make this configurable
later.
There's some debugging code in here still; I am still debugging whether
this is or isn't working fully.
Tested:
* DB120, AR9344 + AR8327 switch
Obtained from: OpenWRT
This patch does four things:
* it globally disables mirroring;
* it globally sets the mirroring on each port to be disabled;
* the initial port setup now programs a portmask for the port to allow
transmission (forwarding) to all other ports bar itself;
* the vlan setup path now programs the portmask for the port to
allow transmission (forwarding) to all other ports bar itself.
Before this, I hard-coded the portmask to 0x3f which would mean all
ports (bar port 6, which currently isn't hooked up to anything.)
This means that traffic would be duplicated back out the port it
received it. I bet this wasn't .. optimal.
In any case, this _seems_ to make DHCP from my macosx laptop
work through this access point. I'll do some further testing
to ensure it's actually working correctly on all my devices.
Tested:
* DB120, AR8327 switch
It's still hardcoded (for db120) but it is now hardcoded in all the
same place (ie, the pdata path.) The port config/status code now checks
port0/port6 as appropriate to configure things.
Tested:
* Qualcomm Atheros DB120, AR8327 switch.
This is (almost!) enough to actually probe, attach, configure a default
port group and do some basic work. It's also totally hard-coded for
the Qualcomm Atheros DB120 board - it doesn't yet have any of the code
from OpenWRT which parses extra configuration data to know how to program
the switch. The LED stuff is also missing.
But, it's enough to facilitate board, PHY, switch and VLAN bringup,
so I am committing it now.
Tested:
* Qualcomm Atheros DB120
Obtained from: OpenWRT
switches.
* Add some new VLAN HAL methods that will be used by the VLAN configuration
code. The AR933x and later switches use slightly different register
layouts (even though the driver currently doesn't support it.)
HAL methods.
This allows the AR8327 code to override it as appropriate.
Tested:
* DB120 - AR8327 and AR9340 on-board switch; only running 'etherswitchcfg'
to check configs. The actual VLAN programming wasn't tested.
The registers (and perhaps the flags) are different for the AR8327, so
I'll stub those out until they're written.
Tested:
* DB120 - both on-chip AR9340 and AR8327 switches.
a single port to setup.
This may end up later being used as part of some logic to program
the PHY for a single port, rather than having to reinitialise them
all at once.
Tested:
* DB120
shifts into the sign bit. Instead use (1U << 31) which gets the
expected result.
This fix is not ideal as it assumes a 32 bit int, but does fix the issue
for most cases.
A similar change was made in OpenBSD.
Discussed with: -arch, rdivacky
Reviewed by: cperciva
* Do the hardware setup in the right order!
* Modify/improve the chip probe check so it can actually
probe the 7240/9340 directly (although it's not yet used..)
* Initialise and fetch the is_mii option
* Fix some debugging whilst I'm here.
This is enough to get things off the ground.
Tested:
* AR9344 SoC
* Add an AR9340 switch version entry;
* Support the switch being connected via MII;
* Add a flag to note that a switch is actually an internal
switch rather than an external switch.
Now:
* The ar9340 switch can interconnect via MII;
* Since some slightly different phy/switch register access methods
and quirks appear for the internal versus external switch,
we will need a flag to mark it as an "internal" switch.
Tested:
* AR9344 (internal switch)
* AR9331 (internal switch)
TODO:
* Test the AR8316 switch!
This is just the chip initialisation code (for now.)
It's not linked into the main build as it requires a bunch of other code
to be tidied up and committed. But it indeed does function as advertised.
Tested:
* AR9344 SoC
arswitch_writereg() routine was writing the registers in the wrong order.
Revert -r241918 as the root problem is now fixed. Remove another workaround
from arswitch_ar7240.c.
Simplify and fix the code on arswitch_writephy() by using
arswitch_writereg().
While here remove a redundant declaration from arswitchvar.h.
Approved by: adrian (mentor)
This fix the case when etherswitch is printing the information of port 0
vlan group (in port based vlan mode) with no member ports.
Add the ETHERSWITCH_VID_VALID support to ip17x driver.
Add the ETHERSWITCH_VID_VALID support to rt8366 driver.
arswitch doesn't need to be updated as it doesn't support vlans management
yet.
Approved by: adrian (mentor)
* Fix API changes;
* remove unused code;
* Allow some switches to be used that don't expose a set of PHY
registers for the CPU facing port (eg the ADM6996 for the Ubiquiti
Routerstation.)
Submitted by: Luiz Otavio O Souza <loos.br@gmail.com>
Reviewed by: ray
This adds a vlan capability field to etherswitch_info structure and some
definitions of ports flags.
It adds the support to global config parameters which right now is used
only to switch between the vlan modes, but it is intended to be extended
to support the setup of others parameters (STP, mirror, etc.).
Submitted by: Luiz Otavio O Souza <loos.br@gmail.com>
Reviewed by: ray
than VLAN groups.
Some chips (eg this rtl8366rb) has a VLAN group per port - you first
define a set of VLANs in a vlan group, then you assign a VLAN group
to a port.
Other chips (eg the AR8xxx switch chips) have a VLAN ID array per
port - there's no group per se, just a list of vlans that can be
configured.
So for now, the switch API will use the latter and rely on drivers
doing the heavy lifting if one wishes to use the VLAN group method.
Maybe later on both can be supported.
PR: kern/177878
PR: kern/177873
Submitted by: Luiz Otavio O Souza <loos.br@gmail.com>
Reviewed by: ray
This is intended to be used as a stop-gap for switch devices
which expose multiple ethernet PHYs but we don't have a driver
for - here, etherswitchcfg and the general switch configuration
API can be used to interface to said PHYs.
Submitted by: Luiz Otavio O Souza <loos.br@gmail.com>
depending upon the bootloader initialising it.
The aim is to eventually support a full switch set and reinitialisation
rather than relying on a consistent bootloader setup.
Remove the port flood config from arswitch.c, it's not yet used and
it's totally incorrect.
Whilst I'm here, also add in a comment describing why the full switch
reset is disabled.
Obtained from: Linux (OpenWRT) - Values
size for the AR7240.
* Include SM/MS macros, thanks to ath_hal(4).
* This field is for normal packets, VLAN and other headers are added to
this by the switch device.
* Set the MTU to 1536, to match what is done in Linux. Use the SM
macro to write this field.
Obtained from: Atheros (AR7240 datasheet), Linux OpenWRT (MTU default)
* Add in the AR724x support. It probes the same as an AR8216/AR8316, so
just add in a hint to force the probe success rather than auto-detecting
it.
* Add in the missing entries from conf/files, lacking in the previous
commit.
The register values and CPU port / mirror port initialisation value was
obtained from Linux OpenWRT ag71xx_ar7240.c.
The DELAY(1000) to let things settle is my local workaround. For some
reason, PHY4 doesn't seem to probe very reliably without it. It's quite
possible that we're missing some MDIO bus initialisation code in if_arge
for the AR724x case. As I dislike DELAY() workarounds in general, it's
definitely worth trying to figure out why this is the case.
Tested on: AP93 (AR7240) reference design
Obtained from: Linux OpenWRT
This is designed to support the very basic ethernet switch chip behaviour,
specifically:
* accessing switch register space;
* accessing per-PHY registers (for switches that actually expose PHYs);
* basic vlan group support, which applies for the rtl8366 driver but not
for the atheros switches.
This also includes initial support for:
* rtl8366rb support - which is a 10/100/1000 switch which supports
vlan groups;
* Initial Atheros AR8316 switch support - which is a 10/100/1000 switch
which supports an alternate vlan configuration (so the vlan group
methods are stubbed.)
The general idea here is that the switch driver may speak to a variety of
backend busses (mdio, i2c, spi, whatever) and expose:
* If applicable, one or more MDIO busses which ethernet interfaces can
then attach PHYs to via miiproxy/mdioproxy;
* exposes miibusses, one for each port at the moment, so ..
* .. a PHY can be exposed on each miibus, for each switch port, with all
of the existing MII/ifnet framework.
However:
* The ifnet is manually created for now, and it isn't linked into the
interface list, nor can you (currently) send/receive frames on this ifnet.
At some point in the future there may be _some_ support for this, for
switches with a multi-port, isolated mode.
* I'm still in the process of sorting out correct(er) locking.
TODO:
* ray's switch code in zrouter (zrouter.org) includes a much more developed
newbus API that covers the various switch methods, as well as a
capability API so drivers, the switch layer and the userland utility
can properly control the subset of supported features.
The plan is to sort that out later, once the rest of ray's switch drivers
are brought over and extended to export MII busses and PHYs.
Submitted by: Stefan Bethke <stb@lassitu.de>
Reviewed by: ray
MDIO/MII rendezvous proxy.
* Add an 'mdio' bus, which is the "IO" side of an MII bus (but by design
can be anything which implements the underlying register access API.)
* Add 'miiproxy' and 'mdioproxy', which provides a rendezvous mechanism
for MII busses to appear hanging off arbitrary busses (ie, that aren't
necessarily a traditional looking MII bus.)
MII busses can now hang off anything that implements an mdiobus.
For the AR71xx SoC, there's one MDIO bus but two MII busses. So to
properly support two or more real PHYs, this can be done:
# arge0 MDIO bus - there's no arge1 MDIO bus for AR71xx
hint.argemdio.0.at="nexus0"
hint.argemdio.0.maddr=0x19000000
hint.argemdio.0.msize=0x1000
hint.argemdio.0.order=0
# Create two mdioproxy instances
hint.mdioproxy.0.at="mdio0"
hint.mdioproxy.1.at="mdio0"
# .. and with a follow-up patch
hint.arge.0.mdio=mdioproxy0
hint.arge.1.mdio=mdioproxy0
TODO:
* Do a sweep or two and add appropriate locking in mdio/mdioproxy/miiproxy.
Submitted by: Stefan Bethke <stb@lassitu.de>
Reviewed by: ray