Move the code from the arm specific to the iicbus controller directory.
Split up between general logic and bus attachment code.
Add support for ACPI attachment in addition to FDT.
Tested by: bz (LS1088a FDT), Pierre-Luc Drouin (Honeycomb, ACPI)
Based on: D24917 by Val Packett (initial early version)
(cherry picked from commit 5ca8e32633c4ffbbcd6762e5888b6a4ba0708c6c)
OpenSSL provides implementations of several AES modes which use
bitslicing and can be accelerated on CPUs which support the NEON
extension. This patch adds arm platform support to ossl(4) and provides
an AES-CBC implementation, though bsaes_cbc_encrypt() only implements
decryption. The real goal is to provide an accelerated AES-GCM
implementation; this will be added in a subsequent patch.
Initially derived from https://reviews.freebsd.org/D37420.
Reviewed by: jhb
Sponsored by: Klara, Inc.
Sponsored by: Stormshield
MFC after: 3 months
Differential Revision: https://reviews.freebsd.org/D41304
(cherry picked from commit 44f8e1e8530e1d2e95e84bbbe3d22ac9cb2557fe)
Now that kldxref is a generic cross tool and can be built on non-FreeBSD
we can bootstrap it during the build and thus remove the condition for
whether it exists. We also need to make sure to add it to the METALOG
for -DNO_ROOT builds.
Reviewed by: brooks, imp
Differential Revision: https://reviews.freebsd.org/D43051
(cherry picked from commit ff7c12c1f17e52337169d8ce48433fae96a9c9db)
While the build-breaking changes were only in a smaller window
further updates restored some functionality as well. Now that
we are done, add iwlwifi back to the build.
Sponsored by: The FreeBSD Foundation
This also adds the (updated) rtw88 driver back to the build.
Functionality has not been tested (much) so might not currently
work but people offered to test.
(cherry picked from commit af6aaa90057d75644c41527acc903082104e4114)
(cherry picked from commit 299e2d5724c2bc4929b6eac3258f04055e97992e)
Disconnect iwlwifi/rtw88 from the build for a few commits which, due to
incompatible LinuxKPI 802.11 changes would break the build for a
revision. It will be re-enabled "instantly".
Sponsored by: The FreeBSD Foundation
(cherry picked from commit 712468443df1130db8f893a5e2ce5c6a8dbf5cde)
(cherry picked from commit b75d1ce6c10652fc4bfbf509deeae0e05c3d1356)
This basic version of the driver obtains properties of the "sff,sfp"
compatible devices and implements a simple interface to provide an I2C
bus device for the rest of the drivers (e.g. to implement SIOCGI2C).
Both of the interface and driver are subjects for a further
generalization to be used in case of non-FDT and non-arm64 platforms.
Reviewed by: bz, manu
Approved by: bz (mentor)
MFC after: 3 weeks
Differential Revision: https://reviews.freebsd.org/D41440
Following the removal of general MIPS support, there's no longer a need
to have the AHB bus-frontend in place, which according to Linux sources
also isn't used with any non-MIPS SoCs. For simplicity, PCI bus support
is only made conditional on the main one again, i. e. device ath_pci is
removed, and built into the main module, i. e. if_ath_pci.ko obsoleted,
respectively.
Effectively, this reverts the following commits and associated changes:
dba9c85977e849bb3ecb
Approved by: adrian
Relnotes: yes
Differential Revision: https://reviews.freebsd.org/D41354
Replace two cases of MACHINE_ARCH with MACHINE_CPUARCH and also use
`aarch64` instead of the improper `arm64` for that test.
Noticed by: Mark Millard
Sponsored by: Netflix
The mac_ipacl policy module enables fine-grained control over IP address
configuration within VNET jails from the base system.
It allows the root user to define rules governing IP addresses for
jails and their interfaces using the sysctl interface.
Requested by: multiple
Sponsored by: Google, Inc. (GSoC 2019)
MFC after: 2 months
Reviewed by: bz, dch (both earlier versions)
Differential Revision: https://reviews.freebsd.org/D20967
This is Broadcom's mpi3mr driver for FreeBSD version 8.6.0.2.0.
The mpi3mr driver supports Broadcom SAS4116-based cards in the 9600
series: 9670W-16i, 9670-24i, 9660-16i, 9620-16i, 9600-24i, 9600-16i,
9600W-16e, 9600-16e, 9600-8i8e.
Initially only available as a module and on amd64/arm64, since that's
how it has been tested to date. Future commits will add it to the kernel
build and may expand the architectures it is supported on.
Co-authored-by: Chandrakanth Patil <chandrakanth.patil@broadcom.com>
Feedback-by: ken (prior versions)
Reviewed-by: imp
RelNotes: yes
Differential-Revision: https://reviews.freebsd.org/D36771
Differential-Revision: https://reviews.freebsd.org/D36772
gVNIC is a virtual network interface designed specifically for
Google Compute Engine (GCE). It is required to support per-VM Tier_1
networking performance, and for using certain VM shapes on GCE.
The NIC supports TSO, Rx and Tx checksum offloads, and RSS.
It does not currently do hardware LRO, and thus the software-LRO
in the host is used instead. It also supports jumbo frames.
For each queue, the driver negotiates a set of pages with the NIC to
serve as a fixed bounce buffer, this precludes the use of iflib.
Reviewed-by: markj
MFC-after: 2 weeks
Differential Revision: https://reviews.freebsd.org/D39873
Hooked to devctl_notify, this allows consumers to received events
by subscribing to a system over a generic netlink protocol
Reviewed by: imp, melifaro
Differential Revision: https://reviews.freebsd.org/D37574
Only build MAC/veriexec modules when MK_VERIEXEC is yes or we
are building all modules.
Add VERIEXEC knob to kernel __DEFAULT_NO_OPTIONS
Reviewed by: sjg
Obtained from: Juniper Networks, Inc.
This is a direct port of the Linux code as the licence allows it, so
style(9) isn't respected to allow applying directly the upstream commits.
Do not add it to linuxkpi directly but add a new linuxkpi_hdmi module
that drm modules will require later, no need to bloat linuxkpi more.
Sponsored by: Beckhoff Automation GmbH & Co. KG
Differential Revision: https://reviews.freebsd.org/D39122
This reduces some duplication between the existing arm64 + x86 section
and the powerpc64 section. To make the diff simpler, enable mlx4 on
powerpc64 since it compiles.
Reviewed by: pkubaj, imp, emaste
Differential Revision: https://reviews.freebsd.org/D38973
Summary:
This review ports mlx5 driver, kernel's OFED stack (userland is already enabled), KTLS and krping to powerpc64 and powerpc64le.
krping requires a small change since it uses assembly for amd64 / i386.
NOTE: On powerpc64le RDMA works fine in the userspace with libmlx5, but on powerpc64 it does not. The problem is that contrib/ofed/libmlx5/doorbell.h checks for SIZEOF_LONG but this macro exists on neither powerpc64* nor amd64. Thus, the file silently goes to the fallback function written for 32-bit architectures. It works fine on little-endian architectures, but causes a hard fail on big-endian. It's possible it may also cause some runtime issues on little-endian.
Thus, on powerpc64 I verified that RDMA works with krping.
Reviewers: #powerpc, hselasky
Subscribers: bdrewery, imp, emaste, jhibbits
Differential Revision: https://reviews.freebsd.org/D38786
Summary:
This review ports mlx5 driver, kernel's OFED stack (userland is already enabled), KTLS and krping to powerpc64 and powerpc64le.
krping requires a small change since it uses assembly for amd64 / i386.
NOTE: On powerpc64le RDMA works fine in the userspace with libmlx5, but on powerpc64 it does not. The problem is that contrib/ofed/libmlx5/doorbell.h checks for SIZEOF_LONG but this macro exists on neither powerpc64* nor amd64. Thus, the file silently goes to the fallback function written for 32-bit architectures. It works fine on little-endian architectures, but causes a hard fail on big-endian. It's possible it may also cause some runtime issues on little-endian.
Thus, on powerpc64 I verified that RDMA works with krping.
Reviewers: #powerpc, hselasky
Subscribers: bdrewery, imp, emaste, jhibbits
Differential Revision: https://reviews.freebsd.org/D38786
This driver is based of the enic (Cisco VIC) DPDK driver. It provides
basic ethernet functionality. Has been run with various VIC cards to
do UEFI PXE boot with NFS root.
Simply said, WDAT is an abstraction for the real WDT hardware. For
instance, to add a newer generation WDT to ichwd(4), one must know the
detailed hardware registers, etc..
With WDAT, the necessary IO accesses to operate the WDT are comprehensively
described in it and no hardware knowledge is required.
With this driver, the WDT on Advantech ARK-1124C, Dell R210 and Dell R240 are
detected and operated flawlessly.
* While R210 is also supported by ichwd(4), others are not supported yet.
The unfortunate thing is that not all systems have WDAT defined.
Submitted by: t_uemura at macome.co.jp
Reviewed by: hrs
Differential Revision: https://reviews.freebsd.org/D37493
Sync serial (e.g. T1/T1/G.703) interfaces are obsolete, this driver
includes obfuscated source, and has reported potential security issues.
Differential Revision: https://reviews.freebsd.org/D33468
Sync serial (e.g. T1/T1/G.703) interfaces are obsolete, this driver
includes obfuscated source, and has reported potential security issues.
Differential Revision: https://reviews.freebsd.org/D33467
MODULES_OVERRIDE has traditionally taken precedence over EXTRA_MODULES
and WITHOUT_MODULES as the exact list of modules to build. Over time,
things have been added that has broken this. Move the .endif that makes
this the case to the right place. The so called 'ALL_MODULES' option is
the only thing with higher precedence, but it's not quite all the
options anymore (though it is much more of them, and doesn't quite
work on !x86).
Sponsored by: Netflix
This commit brings back the driver from FreeBSD commit
f187d6dfbf plus subsequent fixes from
upstream.
Relative to upstream this commit includes a few other small fixes such
as additional INET and INET6 #ifdef's, #include cleanups, and updates
for recent API changes in main.
Reviewed by: pauamma, gbe, kevans, emaste
Obtained from: git@git.zx2c4.com:wireguard-freebsd @ 3cc22b2
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D36909
Now that armv[45] are removed, simplify some tests for armv[67] that are
now either always true, or always true when we're on arm.
Sponsored by: Netflix
Ah, the joys of pushing a commit with a dirty editor buffer that all the
checks in git didn't catch... Also, my eyeballs missed it too :(.
Fixes: ba9f71ddec
Noticed by: jrtc27
Sponsored by: Netflix
When building a kernel without FDT these modules don't build. As they
depend on FDT and don't work with ACPI disable them.
Reviewed by: imp, kevans
Sponsored by: The FreeBSD Foundation
Differential Revision: https://reviews.freebsd.org/D37178
This is the last part for ARM64 Hyper-V enablement. This includes
commone files and make file changes to enable the ARM64 FreeBSD
guest on Hyper-V. With this patch, it should be able to build
the ARM64 image and install it on Hyper-V.
Reviewed by: emaste, andrew, whu
Tested by: Souradeep Chakrabarti <schakrabarti@microsoft.com>
Sponsored by: Microsoft
Differential Revision: https://reviews.freebsd.org/D36744
DPAA2 is a hardware-level networking architecture found in some NXP
SoCs which contain hardware blocks including Management Complex
(MC, a command interface to manipulate DPAA2 objects), Wire Rate I/O
processor (WRIOP, packets distribution, queuing, drop decisions),
Queues and Buffers Manager (QBMan, Rx/Tx queues control, Rx buffer
pools) and the others.
The Management Complex runs NXP-supplied firmware which provides DPAA2
objects as an abstraction layer over those blocks to simplify an
access to the underlying hardware. Each DPAA2 object has its own
driver (to perform an initialization at least) and will be visible
as a separate device in the device tree.
Two new drivers (dpaa2_mc and dpaa2_rc) act like firmware buses in
order to form a hierarchy of the DPAA2 devices:
acpiX (or simplebusX)
dpaa2_mcX
dpaa2_rcX
dpaa2_mcp0
...
dpaa2_mcpN
dpaa2_bpX
dpaa2_macX
dpaa2_io0
...
dpaa2_ioM
dpaa2_niX
dpaa2_mc is suppossed to be a root of the hierarchy, comes in ACPI
and FDT flavours and implements helper interfaces to allocate and
assign bus resources, MSI and "managed" DPAA2 devices (NXP treats some
of the objects as resources for the other DPAA2 objects to let them
function properly). Almost all of the DPAA2 objects are assigned to
the resource containers (dpaa2_rc) to implement isolation.
The initial implementation focuses on the DPAA2 network interface
to be operational. It is the most complex object in terms of
dependencies which uses I/O objects to transmit/receive packets.
Approved by: bz (mentor)
Tested by: manu, bz
MFC after: 3 months
Differential Revision: https://reviews.freebsd.org/D36638
Netlinks is a communication protocol currently used in Linux kernel to modify,
read and subscribe for nearly all networking state. Interfaces, addresses, routes,
firewall, fibs, vnets, etc are controlled via netlink.
It is async, TLV-based protocol, providing 1-1 and 1-many communications.
The current implementation supports the subset of NETLINK_ROUTE
family. To be more specific, the following is supported:
* Dumps:
- routes
- nexthops / nexthop groups
- interfaces
- interface addresses
- neighbors (arp/ndp)
* Notifications:
- interface arrival/departure
- interface address arrival/departure
- route addition/deletion
* Modifications:
- adding/deleting routes
- adding/deleting nexthops/nexthops groups
- adding/deleting neghbors
- adding/deleting interfaces (basic support only)
* Rtsock interaction
- route events are bridged both ways
The implementation also supports the NETLINK_GENERIC family framework.
Implementation notes:
Netlink is implemented via loadable/unloadable kernel module,
not touching many kernel parts.
Each netlink socket uses dedicated taskqueue to support async operations
that can sleep, such as interface creation. All message processing is
performed within these taskqueues.
Compatibility:
Most of the Netlink data models specified above maps to FreeBSD concepts
nicely. Unmodified ip(8) binary correctly works with
interfaces, addresses, routes, nexthops and nexthop groups. Some
software such as net/bird require header-only modifications to compile
and work with FreeBSD netlink.
Reviewed by: imp
Differential Revision: https://reviews.freebsd.org/D36002
MFC after: 2 months
Although originally socket was intended to use with ipfw(4) only, now
it also can be used with pf(4). On a kernel without packet filters,
it still can be used to inject traffic.
