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Author	SHA1	Message	Date
Konstantin Belousov	0a110d5b17	Use VT-d interrupt remapping block (IR) to perform FSB messages translation. In particular, despite IO-APICs only take 8bit apic id, IR translation structures accept 32bit APIC Id, which allows x2APIC mode to function properly. Extend msi_cpu of struct msi_intrsrc and io_cpu of ioapic_intsrc to full int from one byte. KPI of IR is isolated into the x86/iommu/iommu_intrmap.h, to avoid bringing all dmar headers into interrupt code. The non-PCI(e) devices which generate message interrupts on FSB require special handling. The HPET FSB interrupts are remapped, while DMAR interrupts are not. For each msi and ioapic interrupt source, the iommu cookie is added, which is in fact index of the IRE (interrupt remap entry) in the IR table. Cookie is made at the source allocation time, and then used at the map time to fill both IRE and device registers. The MSI address/data registers and IO-APIC redirection registers are programmed with the special values which are recognized by IR and used to restore the IRE index, to find proper delivery mode and target. Map all MSI interrupts in the block when msi_map() is called. Since an interrupt source setup and dismantle code are done in the non-sleepable context, flushing interrupt entries cache in the IR hardware, which is done async and ideally waits for the interrupt, requires busy-wait for queue to drain. The dmar_qi_wait_for_seq() is modified to take a boolean argument requesting busy-wait for the written sequence number instead of waiting for interrupt. Some interrupts are configured before IR is initialized, e.g. ACPI SCI. Add intr_reprogram() function to reprogram all already configured interrupts, and call it immediately before an IR unit is enabled. There is still a small window after the IO-APIC redirection entry is reprogrammed with cookie but before the unit is enabled, but to fix this properly, IR must be started much earlier. Add workarounds for 5500 and X58 northbridges, some revisions of which have severe flaws in handling IR. Use the same identification methods as employed by Linux. Review: https://reviews.freebsd.org/D1892 Reviewed by: neel Discussed with: jhb Tested by: glebius, pho (previous versions) Sponsored by: The FreeBSD Foundation MFC after: 3 weeks	2015-03-19 13:57:47 +00:00
Konstantin Belousov	86be9f0dd5	Import the driver for VT-d DMAR hardware, as specified in the revision 1.3 of Intelб╝ Virtualization Technology for Directed I/O Architecture Specification. The Extended Context and PASIDs from the rev. 2.2 are not supported, but I am not aware of any released hardware which implements them. Code does not use queued invalidation, see comments for the reason, and does not provide interrupt remapping services. Code implements the management of the guest address space per domain and allows to establish and tear down arbitrary mappings, but not partial unmapping. The superpages are created as needed, but not promoted. Faults are recorded, fault records could be obtained programmatically, and printed on the console. Implement the busdma(9) using DMARs. This busdma backend avoids bouncing and provides security against misbehaving hardware and driver bad programming, preventing leaks and corruption of the memory by wild DMA accesses. By default, the implementation is compiled into amd64 GENERIC kernel but disabled; to enable, set hw.dmar.enable=1 loader tunable. Code is written to work on i386, but testing there was low priority, and driver is not enabled in GENERIC. Even with the DMAR turned on, individual devices could be directed to use the bounce busdma with the hw.busdma.pci<domain>:<bus>:<device>:<function>.bounce=1 tunable. If DMARs are capable of the pass-through translations, it is used, otherwise, an identity-mapping page table is constructed. The driver was tested on Xeon 5400/5500 chipset legacy machine, Haswell desktop and E5 SandyBridge dual-socket boxes, with ahci(4), ata(4), bce(4), ehci(4), mfi(4), uhci(4), xhci(4) devices. It also works with em(4) and igb(4), but there some fixes are needed for drivers, which are not committed yet. Intel GPUs do not work with DMAR (yet). Many thanks to John Baldwin, who explained me the newbus integration; Peter Holm, who did all testing and helped me to discover and understand several incredible bugs; and to Jim Harris for the access to the EDS and BWG and for listening when I have to explain my findings to somebody. Sponsored by: The FreeBSD Foundation MFC after: 1 month	2013-10-28 13:33:29 +00:00

Author

SHA1

Message

Date

Konstantin Belousov

0a110d5b17

Use VT-d interrupt remapping block (IR) to perform FSB messages

translation.  In particular, despite IO-APICs only take 8bit apic id,
IR translation structures accept 32bit APIC Id, which allows x2APIC
mode to function properly.  Extend msi_cpu of struct msi_intrsrc and
io_cpu of ioapic_intsrc to full int from one byte.

KPI of IR is isolated into the x86/iommu/iommu_intrmap.h, to avoid
bringing all dmar headers into interrupt code. The non-PCI(e) devices
which generate message interrupts on FSB require special handling. The
HPET FSB interrupts are remapped, while DMAR interrupts are not.

For each msi and ioapic interrupt source, the iommu cookie is added,
which is in fact index of the IRE (interrupt remap entry) in the IR
table. Cookie is made at the source allocation time, and then used at
the map time to fill both IRE and device registers. The MSI
address/data registers and IO-APIC redirection registers are
programmed with the special values which are recognized by IR and used
to restore the IRE index, to find proper delivery mode and target.
Map all MSI interrupts in the block when msi_map() is called.

Since an interrupt source setup and dismantle code are done in the
non-sleepable context, flushing interrupt entries cache in the IR
hardware, which is done async and ideally waits for the interrupt,
requires busy-wait for queue to drain.  The dmar_qi_wait_for_seq() is
modified to take a boolean argument requesting busy-wait for the
written sequence number instead of waiting for interrupt.

Some interrupts are configured before IR is initialized, e.g. ACPI
SCI.  Add intr_reprogram() function to reprogram all already
configured interrupts, and call it immediately before an IR unit is
enabled.  There is still a small window after the IO-APIC redirection
entry is reprogrammed with cookie but before the unit is enabled, but
to fix this properly, IR must be started much earlier.

Add workarounds for 5500 and X58 northbridges, some revisions of which
have severe flaws in handling IR.  Use the same identification methods
as employed by Linux.

Review:	https://reviews.freebsd.org/D1892
Reviewed by:	neel
Discussed with:	jhb
Tested by:	glebius, pho (previous versions)
Sponsored by:	The FreeBSD Foundation
MFC after:	3 weeks

2015-03-19 13:57:47 +00:00

Konstantin Belousov

86be9f0dd5

Import the driver for VT-d DMAR hardware, as specified in the revision

1.3 of Intelб╝ Virtualization Technology for Directed I/O Architecture
Specification.  The Extended Context and PASIDs from the rev. 2.2 are
not supported, but I am not aware of any released hardware which
implements them.  Code does not use queued invalidation, see comments
for the reason, and does not provide interrupt remapping services.

Code implements the management of the guest address space per domain
and allows to establish and tear down arbitrary mappings, but not
partial unmapping.  The superpages are created as needed, but not
promoted.  Faults are recorded, fault records could be obtained
programmatically, and printed on the console.

Implement the busdma(9) using DMARs.  This busdma backend avoids
bouncing and provides security against misbehaving hardware and driver
bad programming, preventing leaks and corruption of the memory by wild
DMA accesses.

By default, the implementation is compiled into amd64 GENERIC kernel
but disabled; to enable, set hw.dmar.enable=1 loader tunable.  Code is
written to work on i386, but testing there was low priority, and
driver is not enabled in GENERIC.  Even with the DMAR turned on,
individual devices could be directed to use the bounce busdma with the
hw.busdma.pci<domain>:<bus>:<device>:<function>.bounce=1 tunable.  If
DMARs are capable of the pass-through translations, it is used,
otherwise, an identity-mapping page table is constructed.

The driver was tested on Xeon 5400/5500 chipset legacy machine,
Haswell desktop and E5 SandyBridge dual-socket boxes, with ahci(4),
ata(4), bce(4), ehci(4), mfi(4), uhci(4), xhci(4) devices.  It also
works with em(4) and igb(4), but there some fixes are needed for
drivers, which are not committed yet.  Intel GPUs do not work with
DMAR (yet).

Many thanks to John Baldwin, who explained me the newbus integration;
Peter Holm, who did all testing and helped me to discover and
understand several incredible bugs; and to Jim Harris for the access
to the EDS and BWG and for listening when I have to explain my
findings to somebody.

Sponsored by:	The FreeBSD Foundation
MFC after:	1 month

2013-10-28 13:33:29 +00:00

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