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
been done by U-Boot. This allows the USB to work when we load the kernel
directly.
No dma sync is performed after these operations as the data we read/write
is not used by the cpu after the calls to the maimbox driver.
Differential Revision: https://reviews.freebsd.org/D1940
Reviewed by: imp, Michal Meloun (meloun AT miracle.cz)
MFC after: 1 Week
Sponsored by: ABT Systems Ltd
* 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
When a gpiobus child is added, use its name to identify the mapped pin
names.
Make the respective changes to libgpio.
Add a new '-n' flag to gpioctl(8) to set the pin name.
Differential Revision: https://reviews.freebsd.org/D2002
Reviewed by: rpaulo
Requested by: many
The vtophys() function is used to get the physical page address for
the virtually allocated frame buffers when a physically continuous
memory area is not available. This change also allows removing the
masking of the FB_FLAG_NOMMAP flag in the PS3 syscons driver.
The FB and VT drivers were tested using X.org/xf86-video-scfb and
syscons.
uart implementations, and export them using the new linker-set mechanism.
Differential Revision: https://reviews.freebsd.org/D1993
Submitted by: Michal Meloun
(class and device) FDT UART. Define second one, UART_FDT_CLASS, for UART
class only.
This paves the way for declaring uart_class data and ofw/fdt compat data
with a uart implementation, rather than needing a big global table of
compat data and weak-symbol declarations of every existing implementation.
Differential Revision: https://reviews.freebsd.org/D1992
Submitted by: Michal Meloun
netmap rx queues, and the "batchiness" of rx updates sent to the chip.
These knobs will probably become per-rxq in the near future and will be
documented only after their final form is decided.
MFC after: 1 month
rework the code a little bit to use this function consistently to cleanup
all the changes made as part of the probe phase.
This fixes an issue where a FDT child node without a matching driver could
leave the GPIO pins mapped and prevent the further use of them.
This prints a warning when your system have a hinted child or a FDT child
node for which you don't have a matching driver:
gpiobus0: <unknown device> at pin(s) 24 irq 24
is the case, depending on the options, in some of the ARM hardware
simulators. In these cases we don't get an interrupt so will need to
schedule the task to write more data to the uart.
MFC after: 1 week
Sponsored by: The FreeBSD Foundation
This new function can be used by other drivers to reserve the use of GPIO
pins.
Anyway, the use of ofw_gpiobus_parse_gpios() is preferred when possible.
Requested by: Michal Meloun
the CPU nexus.
* Add ahb as a possible bus attachment
* Lay a comment down to remind me or whoever else ends up trying
to debug why the EEPROM isn't mapped in as to what's going on.
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.
The main purpose of this feature is to be able to unload a KMS driver.
When going back from the current vt(4) backend to the previous backend,
the previous backend is reinitialized with the special VDF_DOWNGRADE
flag set. Then the current driver is terminated with the new "vd_fini"
callback.
In the case of vt_fb and vt_vga, this allows the former to pass the
vgapci device vt_fb used to vt_vga so the device can be rePOSTed.
Differential Revision: https://reviews.freebsd.org/D687
Pass all SR-IOV configuration to the kernel using an nvlist. The
main benefit that this offers is flexibility. It allows a driver
to accept any number of parameters of any type supported by the
SR-IOV configuration infrastructure with having to make any
changes outside of the driver.
It also offers the user very fine-grained control over the
configuration of the VFs -- if they want, they can have different
configuration applied to every VF.
Differential Revision: https://reviews.freebsd.org/D82
Reviewed by: jhb
MFC after: 1 month
Sponsored by: Sandvine Inc.
Add a function that validates that the user-provided SR-IOV
configuration is valid. This includes basic checks that the
structure of the configuration is correct (e.g. all required
configuration nodes are present) as well as validating against
a configuration schema.
The schema validation consists of:
- Ensuring that all required config parameters are present.
- If the schema defines a default value for a parameter,
adding the default value if the parameter is not set.
- Ensuring that no parameters are specified in the config
that are not defined in the schema.
- Ensuring that have the correct type defined in the schema.
- Ensuring that no configuration nodes are present for devices
that do not exist. For example, if 2 VFs are configured,
then we validate that a node called VF-5 does not exist.
Differential Revision: https://reviews.freebsd.org/D81
Reviewed by: jhb
MFC after: 1 month
Sponsored by: Sandvine Inc.
When creating VFs, we must size each SR-IOV BAR on the PF and
allocate a configuous I/O memory window large enough for every VF.
However, the window only needs to be aligned to a boundary equal
to the size of the window for a single VF.
When a VF attempts to allocate an I/O memory resource, we must
intercept the request in the pci driver and pass it off to the
SR-IOV code, which will allocate the correct window from the
pre-allocated memory space for the PF.
Inform the pci driver about the size and address of the BARs on
the VF when the VF is created. This is required by pciconf -b and
bhyve.
Differential Revision: https://reviews.freebsd.org/D78
Reviewed by: jhb
MFC after: 1 month
Sponsored by: Sandvine Inc.
The SR-IOV standard requires VFs to read all-ones when the VID
and DID registers are read. The VMM (hypervisor) is required to
emulate them instead. Make pci_read_config() do this emulation.
Change pci_user.c to use pci_read_config() to read config space
registers instead of going directly to the pcib so that the
emulated VID/DID registers work correctly on VFs. This is
required both for pciconf and bhyve PCI passthrough.
Differential Revision: https://reviews.freebsd.org/D77
Reviewed by: jhb
MFC after: 1 month
Sponsored by: Sandvine Inc.
Implement the interace to create SR-IOV Virtual Functions (VFs).
When a driver registers that they support SR-IOV by calling
pci_setup_iov(), the SR-IOV code creates a new node in /dev/iov
for that device. An ioctl can be invoked on that device to
create VFs and have the driver initialize them.
At this point, allocating memory I/O windows (BARs) is not
supported.
Differential Revision: https://reviews.freebsd.org/D76
Reviewed by: jhb
MFC after: 1 month
Sponsored by: Sandvine Inc.
