Such errors can occur as the result of a write error or because the disk
backing the mirror element was removed. They result in a generation ID bump
on all active elements of the mirror, so we can safely disconnect the mirror
component rather than destroy it.
MFC after: 2 weeks
Sponsored by: EMC / Isilon Storage Division
Differential Revision: https://reviews.freebsd.org/D7750
These are useful for testing changes to I/O error handling, and for
reproducing existing bugs in a controlled manner. The fail points are
g_mirror_regular_request_read
g_mirror_regular_request_write
g_mirror_sync_request_read
g_mirror_sync_request_write
g_mirror_metadata_write
They all effectively allow one to inject an error value into the bio_error
field of a corresponding BIO request as it is being completed.
MFC after: 2 weeks
Sponsored by: EMC / Isilon Storage Division
have the serious problem of not actually attaching the hardware they
are driving at the bus level. This causes creator(4) and machfb(4)
to attach and drive the very same hardware in parallel when both
syscons(4) and vt(4) as well as their associated hardware drivers
are built into a kernel, i. e. GENERIC, at the same time.
Also, syscons(4) and its drivers still are way superior to vt(4) and
its equivalents; unlike the syscons(4) counterparts the vt(4) drivers
don't provide hardware acceleration resulting in considerably slower
screen drawing, creator_vt(4) doesn't provide a /dev/fb node as
required by the Xorg sunffb(4) etc. In theory, vt_ofwfb(4) should be
able to handle more devices than machfb(4). However, testing shows
that it hardly works with any hardware machfb(4) isn't also able to
drive, making vt(4) and vt_ofwfb(4) not favorable for the time being
from that perspective either.
MFC after: 3 days
Use C99 designators to set the value of each slot and the nitems macro to
check for valid entries. In the process, switch to indexing by signal
number rather than signal-1 for improved clarity.
Obtained from: CheriBSD (a6053c5abf03a5f53bbfcdd3a26429383f67e09f)
Sponsored by: DARPA, AFRL
Reviewed by: kib
The previous code was forcing an expensive walk in vop_stdvptocnp,
which was causing performance issues on highly contended zfs.
No objections: kib
MFC after: 2 weeks
Add routines to trigger a function level reset (FLR) of a PCI-express
device via the PCI-express device control register. This also includes
support routines to wait for pending transactions to complete as well
as calculating the maximum completion timeout permitted by a device.
Change the ppt(4) driver to reset pass through devices before attaching
to a VM during startup and before detaching from a VM during shutdown.
Reviewed by: imp, wblock (earlier version)
MFC after: 1 month
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D7751
This driver supports two bindings:
- cpufreq-dt: systems which share clock and voltage across all CPUs
- arm_big_little_dt: systems which share clock and voltage across all
CPUs in a single cluster
Reviewed by: andrew, imp
Relnotes: yes
Differential Revision: https://reviews.freebsd.org/D7741
When the I/O MMU is active in bhyve, all PCI devices need valid entries
in the DMAR context tables. The I/O MMU code does a single enumeration
of the available PCI devices during initialization to add all existing
devices to a domain representing the host. The ppt(4) driver then moves
pass through devices in and out of domains for virtual machines as needed.
However, when new PCI devices were added at runtime either via SR-IOV or
HotPlug, the I/O MMU tables were not updated.
This change adds a new set of EVENTHANDLERS that are invoked when PCI
devices are added and deleted. The I/O MMU driver in bhyve installs
handlers for these events which it uses to add and remove devices to
the "host" domain.
Reviewed by: imp
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D7667
This allows a pass through device to be reset to a normal device driver
on the host and reused on the host. ppt devices are now always active in
some I/O MMU domain when the I/O MMU is active, either the host domain
or the domain of a VM they are attached to.
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D7666
This is required on my system, which loads nvidia, vmm, and zfs, and 48M is
no longer enough for that. nvidia-driver's recent update increased its size
by several megabytes.
Reviewed by: jhb
MFC after: 1 week
Other files including pci_host_generic.h failed to compile
due to missing declaration of enum pci_id_type.
Obtained from: Semihalf
Submitted by: Michal Stanek <mst@semihalf.com>
Sponsored by: Annapurna Labs
Reviewed by: wma
Differential Revision: https://reviews.freebsd.org/D7561
Split usbd_xfer_status() check:
- Check xfer length: must be longer, than Rx descriptor size.
- Check frame size: must be shorter than xfer length.
- Discard too short frames.
Tested with WUSB54GC, STA/MONITOR modes.
The upstream change introduced a new load state, SPA_LOAD_CREATE,
and vdev_geom code needs to be aware of it.
Tested by: cy
MFC after: 1 week
X-MFC with: r305331
This adds bhnd(4) bus-level support for querying backplane interrupt vector
routing, and delegating machine/bridge-specific interrupt handling to the
concrete bhnd(4) driver implementation.
On bhndb(4) bridged PCI devices, we provide the PCI/MSI interrupt directly
to attached cores.
On MIPS devices, we report a backplane interrupt count of 0, effectively
disabling the bus-level interrupt assignment. This allows mips/broadcom
to temporarily continue using hard-coded MIPS IRQs until bhnd_mips PIC
support is implemented.
Reviewed by: mizhka
Approved by: adrian (mentor, implicit)
Broadcom Intensi-fi chipsets provided a common set of IP cores; on PCI/PCIe
devices, the USB11 host controller is left floating.
Approved by: adrian (mentor, implicit)
This patch adds driver implementation for BHND USB core. Driver has been
imported from ZRouter project with small adaptions for FreeBSD 11.
Also it's enabled for BroadCom MIPS74k boards by default. It's fully tested
on Asus boards (RT-N16: external USB, RT-N53: USB bus between SoC and WiFi
chips).
Reviewed by: adrian (mentor), ray
Approved by: adrian (mentor)
Obtained from: ZRouter
Differential Revision: https://reviews.freebsd.org/D7781
by reviving the SX control request lock and refining which lock
protects the common scratch area in "struct usb_device".
The SX control request lock was removed by r246759 because it caused a
lock order reversal with the USB enumeration lock inside
usbd_transfer_setup() as a function of r246616. It was thought that
reducing the number of locks would resolve the LOR, but because some
USB device drivers use usbd_do_request_flags() inside callback
functions, like in taskqueues, a deadlock may occur when these are
drained from device_detach(). By restoring the SX control request
lock usbd_do_request_flags() is allowed to complete its execution
when a USB device driver is detaching. By using the SX control request
lock to protect the scratch area, the LOR introduced by r246616 is
also resolved.
Bump the FreeBSD version while at it to force recompilation of all USB
kernel modules.
Found by: avos@
MFC after: 1 week
like we've done elsewhere, e.g., amd64.
As an optimization to the machine-independent layer, change the machine-
dependent pmap_ts_referenced() so that it updates the page's dirty field
if a modified bit is found while counting reference bits. This
opportunistic update can be performed at low cost and can eliminate the
need for some future calls to pmap_is_modified() by the machine-
independent layer.
MFC after: 3 weeks
