The x86 provides it own bus space support. Use the generic
bus space calls. This however requires the BUS_SPACE_MEM tag
be provided for all architectures. Make the generic value
match the x86 value.
The documentation for this function suggests that it can handle invalid
descriptors safely. This change allows negative descriptors to be
handled without a crash.
The kernel open call requires a path so to open a file we need to
set the current directory to the parent vnode. If the open mode is
create the path info vnode is the directory to perform the open
create in. Using the parent node creates the file in wrong path.
Updates #4723
The BSD SD subsystem enforces a 50MHz clock cap for devices which don't
report their own maximum clock speed. This setting is unnecessary for
the Zynq 7000 version of this IP and restricts the Zynq Ultrascale+
MPSoC version of this IP without need since it reports its maximum speed
as 200MHz.
The initial version of this driver was masking the capabilities register
to hide 8 bit bus capability. This is not necessary since these devices
report that capability correctly and the masking affects performance
negatively on ZynqMP boards where the 8 bit bus is supported. This also
removes two quirks that were made necessary by the capabilities masking.
Probing a SDIO/SDHCI interface that has been disabled by system init via
holding it in reset can cause a CPU hang. This prevents probing of
devices that have been disabled in such a manner on ZynqMP systems.
Required by FreeBSD commit:
Author: Mike Karels <karels@FreeBSD.org>
Date: Tue Oct 26 22:01:09 2021 -0500
kernel: deprecate Internet Class A/B/C
Hide historical Class A/B/C macros unless IN_HISTORICAL_NETS is defined;
define it for user level. Define IN_MULTICAST separately from IN_CLASSD,
and use it in pf instead of IN_CLASSD. Stop using class for setting
default masks when not specified; instead, define new default mask
(24 bits). Warn when an Internet address is set without a mask.
MFC after: 1 month
Reviewed by: cy
Differential Revision: https://reviews.freebsd.org/D32708
Without this patch, the MSG_TLSAPPDATA flag would cause
soreceive_generic() to return ENXIO for any non-application
data record in a TLS receive stream.
This works ok for TLS1.2, since Alert records appear to be
the only non-application data records received.
However, for TLS1.3, there can be post-handshake handshake
records, such as NewSessionKey sent to the client from the
server. These handshake records cannot be handled by the
upcall which does an SSL_read() with length == 0.
It appears that the client can simply throw away these
NewSessionKey records, but to do so, it needs to receive
them within the kernel.
This patch modifies the semantics of MSG_TLSAPPDATA slightly,
so that it only applies to Alert records and not Handshake
records. It is needed to allow the krpc to work with KTLS1.3.
Reviewed by: hselasky
MFC after: 2 weeks
Differential Revision: https://reviews.freebsd.org/D35170
Widen the ifnet_detach_sxlock to cover the entire vnet sysuninit code.
This ensures that we can't end up having the vnet_sysuninit free the UDP
pcb while the detach code is running and trying to purge the UDP pcb.
MFC after: 1 week
Differential Revision: https://reviews.freebsd.org/D28530
The kernel RPC cannot process non-application data records when
using TLS. It must to an upcall to a userspace daemon that will
call SSL_read() to process them.
This patch adds a new flag called MSG_TLSAPPDATA that the kernel
RPC can use to tell sorecieve() to return ENXIO instead of a non-application
data record, when that is what is at the top of the receive queue.
I put the code in #ifdef KERN_TLS/#endif, although it will build without
that, so that it is recognized as only useful when KERN_TLS is enabled.
The alternative to doing this is to have the kernel RPC re-queue the
non-application data message after receiving it, but that seems more
complicated and might introduce message ordering issues when there
are multiple non-application data records one after another.
I do not know what, if any, changes will be required to support TLS1.3.
Reviewed by: glebius
Differential Revision: https://reviews.freebsd.org/D25923
The standard FreeBSD MII support causes severe problems on the LPC3200
chip family. If an Ethernet module register is accessed while there is
no clock from the PHY, the chip completely locks up and only an external
watchdog can recover from this state. The legacy driver had a custom
PHY management code which helped to avoid such issues. The if_lpe.c
driver is no longer maintained by FreeBSD.
Under unknown conditions the receive path ended up in a frozen state.
In this state, the DMA and driver descriptor head were equal and all
receive descriptors had the used bit set. So, the DMA was unable to
store received frames. However, the receive daemon was never woken up
to refill the receive buffers. It seems that the RXUBR interrupt can be
used to recover from this state.
Update #4652.
