uart2: <Intel AMT - PM965/GM965 KT Controller> port 0x1830-0x1837
mem 0xfe024000-0xfe024fff irq 17 at device 3.3 on pci0
uart2: console (115200,n,8,1)
Tested as tty and serial console. Seems "fine"
- Put "_LE_" into the register access macros to indicate little endian
byte order is expected by the hardware.
- Avoid using the bounce buffer when not strictly needed. Try to move
data directly using bus-space functions first.
- Ensure we preserve the reserved bits in the power down mode
register. Else the hardware goes into a non-recoverable state.
- Always use 32-bit access when writing or reading registers or FIFOs,
because the hardware is 32-bit oriented and don't really understand 8-
and 16-bit access.
- Correct writes to the memory address register. There is no need to
shift the register offset.
- Correct interval for interrupt endpoints.
- Optimise 90ns internal memory buffer read delay.
- Rename PDT into PTD, which is how the datasheet writes it.
- Add missing programming for activating host controller PTDs.
Sponsored by: DARPA, AFRL
mappings. Instead, they should be first mapping to an RSS bucket and
then querying the RSS bucket -> CPU ID mapping to figure out the target
CPU.
When (if?) RSS rebalancing is implemented or some other (non round-robin)
distribution of work from buckets to CPU IDs, various bits of code - both
userland and kernel - will need to know how this mapping works.
So, to support this:
* Add a new function rss_m2bucket() - this maps an mbuf to a given bucket.
Anything which is currently doing hash -> CPU work may instead wish to
do hash -> bucket, and then query the bucket->cpuid map for which
CPU it belongs on. Or, map it to a bucket, then re-pin that bucket ->
CPU during a rebalance operation.
* For userland applications which wish to exploit affinity to RSS buckets,
the bucket -> CPU ID mapping is now available via a sysctl.
net.inet.rss.bucket_mapping lists the bucket to CPU ID mapping via
a list of bucket:cpu pairs.
Use armv7_setttb that sets proper PT attributes.
Get rid of unused CPU functions, put nullop instead.
Exchange obsolete pj4b_/arm11_ functions to the appropriate armv7_ ones.
API function 'vie_calculate_gla()'.
While the current implementation is simplistic it forms the basis of doing
segmentation checks if the guest is in 32-bit protected mode.
of the guest linear address space. These APIs in turn use a new ioctl
'VM_GLA2GPA' to convert the guest linear address to guest physical.
Use the new copyin/copyout APIs when emulating ins/outs instruction in
bhyve(8).
taskqueue worker thread(s) to.
For now it isn't a taskqueue/taskthread error to fail to pin
to the given cpuid.
Thanks to rpaulo@, kib@ and jhb@ for feedback.
Tested:
* igb(4), with local RSS patches to pin taskqueues.
TODO:
* ask the doc team for help in documenting the new API call.
* add a taskqueue_start_threads_cpuset() method which takes
a cpuset_t - but this may require a bunch of surgery to
bring cpuset_t into scope.
'struct vm_guest_paging'.
Check for canonical addressing in vmm_gla2gpa() and inject a protection
fault into the guest if a violation is detected.
If the page table walk is restarted in vmm_gla2gpa() then reset 'ptpphys' to
point to the root of the page tables.
indicate the faulting linear address.
If the guest PML4 entry has the PG_PS bit set then inject a page fault into
the guest with the PGEX_RSV bit set in the error_code.
Get rid of redundant checks for the PG_RW violations when walking the page
tables.
memory ordering model allows writes to different devices to complete out
of order, leading to a situation where the write that clears an interrupt
source at a device can complete after a write that unmasks and EOIs the
interrupt at the interrupt controller, leading to a spurious re-interrupt.
This adds a generic barrier function specific to the needs of interrupt
controllers, and calls that function from the GIC and TI AINTC controllers.
There may still be other soc-specific controllers that need to make the call.
Reviewed by: cognet, Svatopluk Kraus <onwahe@gmail.com>
MFC after: 3 days
Idle priority is not even time-share, so if system is busy in any way,
those events may never be executed. Since in some cases system waits
for events processed by that thread, that may cause deadlocks.
to be consistent with mutex destruction in ipf_log_soft_destroy(). As a
result mutex destruction in ipf_log_soft_fini() is redundant.
Approved by: glebius (mentor)
Obtained from: darrenr (author)
the kmem object lock is held. Do the pmap_remove() before acquiring the
kmem object lock.
MFC after: 1 week
Sponsored by: EMC / Isilon Storage Division
The CUSE library is a wrapper for the devfs kernel functionality which
is exposed through /dev/cuse . In order to function the CUSE kernel
code must either be enabled in the kernel configuration file or loaded
separately as a module. Currently none of the committed items are
connected to the default builds, except for installing the needed
header files. The CUSE code will be connected to the default world and
kernel builds in a follow-up commit.
The CUSE module was written by Hans Petter Selasky, somewhat inspired
by similar functionality found in FUSE. The CUSE library can be used
for many purposes. Currently CUSE is used when running Linux kernel
drivers in user-space, which need to create a character device node to
communicate with its applications. CUSE has full support for almost
all devfs functionality found in the kernel:
- kevents
- read
- write
- ioctl
- poll
- open
- close
- mmap
- private per file handle data
Requested by several people. Also see "multimedia/cuse4bsd-kmod" in
ports.
the UART FIFO.
The emulation is constrained in a number of ways: 64-bit only, doesn't check
for all exception conditions, limited to i/o ports emulated in userspace.
Some of these constraints will be relaxed in followup commits.
Requested by: grehan
Reviewed by: tychon (partially and a much earlier version)
the proper ICWx initialization sequence. It assumes, probably correctly, that
the boot firmware has done the 8259 initialization.
Since grub-bhyve does not initialize the 8259 this write to the mask register
takes a code path in which 'error' remains uninitialized (ready=0,icw_num=0).
Fix this by initializing 'error' at the start of the function.
shared flag is set on normal-memory mappings made via pmap_kenter() for SMP.
The "shared flag" part of this change isn't obvious from the diff, here's
the deal... by using the array of preformatted page table entry templates
instead of constructing the PTE from scratch, we automatically get the
right attribute bits set for both caching and shared.
MFC after: 1 week
These masks are documented in the Intel Architecture Instruction Set
Extensions Programming Reference (March 2014).
Reviewed by: kib
MFC after: 1 month
"fatal firmware error" happens. Previously it was neccessary to reset
it manually, using "/etc/rc.d/netif restart".
Approved by: adrian@
MFC after: 1 month
Sponsored by: The FreeBSD Foundation
"fatal firmware error" happens. Previously it was neccessary to reset
it manually, using "/etc/rc.d/netif restart".
Approved by: adrian@
MFC after: 1 month
Sponsored by: The FreeBSD Foundation
