default wMaxPacketSize (64 or 512 bytes). This actually helps older FTDI
devices (which were USB 1/full speed) more than the new H-series high
speed, but even for the new chips it helps cut the number of interrupts
when doing very high speed (3-12mbaud).
This avoids extra locking in icl_pdu_queue(); the upper layer needs to call
it while holding its own lock anyway, to avoid sending PDUs out of order.
Sponsored by: The FreeBSD Foundation
PCIe Alternate RID Interpretation (ARI) is an optional feature that
allows devices to have up to 256 different functions. It is
implemented by always setting the PCI slot number to 0 and
re-purposing the 5 bits used to encode the slot number to instead
contain the function number. Combined with the original 3 bits
allocated for the function number, this allows for 256 functions.
This is enabled by default, but it's expected to be a no-op on currently
supported hardware. It's a prerequisite for supporting PCI SR-IOV, and
I want the ARI support to go in early to help shake out any bugs in it.
ARI can be disabled by setting the tunable hw.pci.enable_ari=0.
Reviewed by: kib
MFC after: 2 months
Sponsored by: Sandvine Inc.
Recent FDTI chips have the ability to operate at up to 12mbps. The newer
chips with faster clocks have the same usb vendor/product IDs as the older
chips; the bcdDevice field must be used to detect the newer versions. This
change includes a new function to do that instead of using just the IDs from
the vendor/product table.
The code to choose the baud clock divisor is completely rewritten. In
addition to supporting the new higher clock rates, the rewrite fixes a
longstanding bug in the old code which put the high bits of the fractional
part of the divisor into the wrong place in the wIndex field. That bug
was mostly harmless -- it accidentally didn't affect standard baud rates
and would only show up when using relatively fast non-standard rates.
Under the hood the VT-d spec is really implemented in terms of
PCI RIDs instead of bus/slot/function, even though the spec makes
pains to convert back to bus/slot/function in examples. However
working with bus/slot/function is not correct when PCI ARI is
in use, so convert to using RIDs in most cases. bus/slot/function
will only be used when reporting errors to a user.
Reviewed by: kib
MFC after: 2 months
Sponsored by: Sandvine Inc.
My PCI RID changes somehow got intermixed with my PCI ARI patch when I
committed it. I may have accidentally applied a patch to a non-clean
working tree. Revert everything while I figure out what went wrong.
Pointy hat to: rstone
Under the hood the VT-d spec is really implemented in terms of
PCI RIDs instead of bus/slot/function, even though the spec makes
pains to convert back to bus/slot/function in examples. However
working with bus/slot/function is not correct when PCI ARI is
in use, so convert to using RIDs in most cases. bus/slot/function
will only be used when reporting errors to a user.
Reviewed by: kib
Sponsored by: Sandvine Inc.
generate dwarf4 by default as well, so always force dwarf2 when
generating debugging data. It is harmless on older versions of both
clang and gcc, but required on newer ones.
them for actual target errors. They can be enabled back by setting
kern.cam.ctl.verbose=1, or booting with bootverbose.
Sponsored by: The FreeBSD Foundation
out 32 is not enough to support a full sized TSO packet.
While I'm here fix a long standing bug introduced in r169632 in
bce(4) where it didn't include L2 header length of TSO packet in
the maximum DMA segment size calculation.
In collaboration with: rmacklem
MFC after: 2 weeks
Support covers device drivers for:
- Interrupt Combiner
- gpio/pad, External Interrupts Controller (pad)
- I2C Interface
- Chrome Embedded Controller
- Chrome Keyboard
Also:
- Use new gpio dev class in EHCI driver
- Expand device tree information
* Save the required VFP registers on context switch. If the exception bit
is set we need to save and restore the FPINST register, and if the fp2v
bit is also set we need to save and restore FPINST2.
* Move saving and restoring the floating point control registers to C.
* Clear the fpexc exception and fp2v flags on a floating-point exception.
* Signal a SIGFPE if the fpexc exception flag is set on an undefined
instruction. This is how the ARM core signals to software there is a
floating-point exception.
is already correctly reset to the FPU user save area, only PCB_KERNFPU
flag might leak from old thread state into the new state.
For creation of the user-mode thread, the change is nop since
corresponding syscall code does not use FPU. On the other hand,
creation of a kernel thread forks from a thread selected arbitrary
from proc0, which might use FPU.
Reported and tested by: Chris Torek <torek@torek.net>
Sponsored by: The FreeBSD Foundation
MFC after: 1 week
o Move vd_bitbltchr vga's driver method to vd_maskbitbltchr.
o Implement new vd_bitbltchr method for vga driver. (It do single write for 8
pixels, have to be a bit faster).
MFC after: 7 days
Sponsored by: The FreeBSD Foundation
- When clearing a bit for a cpuid in pmap->pm_save, ensure that the
cpuid is not set in pm_active. The pm_save indicates which CPUs may
have cached translations for given PCID, which implies that a CPU
executing with the given pmap active have the translations
cached. [1]
- In smp_masked_invltlb(), pass pmap to smp_targeted_tlb_shootdown(). [1]
- In invlrng_handler(), check for the special values of pcid (0 and
-1) and do corresponding global or total invalidations before
checking for performing PCID-specific range invalidation with
INVPCID_ADDR. [2]
- In invltlb_pcid_handler(), do not read %cr3 unless needed. [2]
- Do minor style tweaks. [2]
Submitted by: Henrik Gulbrandsen <henrik@gulbra.net> [1]
Other parts sponsored by: The FreeBSD Foundation [2]
Tested by: Henrik Gulbrandsen, pho
MFC after: 1 week