The SPDX folks have obsoleted the BSD-2-Clause-FreeBSD identifier. Catch
up to that fact and revert to their recommended match of BSD-2-Clause.
Discussed with: pfg
MFC After: 3 days
Sponsored by: Netflix
The firmware doesn't report FORCE_FEC in pcaps if the transceiver
plugged in at that time does not support a speed that may use FEC. It
is incorrect for the driver to assume that the FORCE_FEC value it read
during attach (in init_link_config) is permanent. Instead, it should
check pcaps just before issuing the L1CFG command.
MFC after: 1 week
Sponsored by: Chelsio Communications
* New error_flags that can be used from the error ithread and elsewhere
without a synch_op.
* Stop the adapter immediately in t4_fatal_err but defer most of the
rest of the handling to a task. The task is allowed to sleep, unlike
the ithread. Remove async_event_task as it is no longer needed.
* Dump the devlog, CIMLA, and PCIE_FW exactly once on any fatal error
involving the firmware or the CIM block. While here, dump some
additional info (see dump_cim_regs) for these errors.
* If both reset_on_fatal_err and panic_on_fatal_err are set then attempt
a reset first and do not panic the system if it is successful.
MFC after: 1 week
Sponsored by: Chelsio Communications
This eliminates error messages like this from the driver when running at
50Gbps with 100G cables:
[3726] cc0: l1cfg failed: 71
[4407] cc0: l1cfg failed: 71
Note that link comes up anyway with or without this change.
Reported by: Suhas Lokesha @ Chelsio
MFC after: 1 week
Sponsored by: Chelsio Communications
This fixes a driver panic during stats collection when a port's id does
not match its tx channel. The bug affected only the T580 card running
with a non-default VPD.
Reported by: Suhas Lokesha @ Chelsio
MFC after: 1 week
Sponsored by: Chelsio Communications
Modify the GPIO pins only on the Base-T cards and even there drive all
of them low instead of putting them in hi-z state. For the rest (this
is the common case), directly power off the PLLs of the high speed
serdes. This is the simplest method that does not involve or conflict
with the firmware but still works with all T4-T6 cards regardless of
what's plugged into the port.
This fixes a problem where the peer wouldn't always see a link down if
it is connected to the device using a -CR4 copper cable.
MFC after: 3 weeks
Sponsored by: Chelsio Communications
Recent firmwares have support for autonomous FEC selection and a "force"
knob to let the driver control this behavior (or not) in a fine grained
manner. This change adds a driver knob so that all the different ways of
configuring the link FEC can be exercised. Note that this controls the
internal driver/firmware interaction for link configuration and is not
meant for general use.
MFC after: 1 week
Sponsored by: Chelsio Communications
These registers have read side effects and a read at just the right
(wrong?) time can trash some internal hw state.
Obtained from: Chelsio Communications
MFC after: 1 week
Sponsored by: Chelsio Communications
Recent firmwares are able to utilize the traffic classes of tx channels
that were previously unused. This effectively doubles the number of
traffic classes available per port for 2 port cards. Stop using the raw
per-channel value in the driver and ask the firmware for the number of
usable traffic classes instead.
MFC after: 2 weeks
Sponsored by: Chelsio Communications
The hw.cxgbe.kern_tls tunable was used for this in the past and if it
was set then all T6 adapters would be configured for NIC TLS operation
and could not be reconfigured for TOE without a reload. With this
change ifconfig can be used to manipulate toe and txtls caps like any
other caps. hw.cxgbe.kern_tls continues to work as usual but its
effects are not permanent any more.
* Enable nic_ktls_ofld in the default configuration file and use the
firmware instead of direct register manipulation to apply/rollback
NIC TLS configuration. This allows the driver to switch the hardware
between TOE and NIC TLS mode in a safe manner. Note that the
configuration is adapter-wide and not per-port.
* Remove the kern_tls config file as it works with 100G T6 cards only
and leads to firmware crashes with 25G cards. The configurations
included with the driver (with the exception of the FPGA configs) are
supposed to work with all adapters.
Reported by: Veeresh U.K. at Chelsio
MFC after: 2 weeks
Sponsored by: Chelsio Communications
Reviewed by: jhb@
Differential Revision: https://reviews.freebsd.org/D29291
T5 and above have extra bits for the optional filter fields. This is a
correctness issue and not just a waste because a filter mode valid on a
T4 (36b) may not be valid on a T5+ (40b).
MFC after: 2 weeks
Sponsored by: Chelsio Communications
1. Query the firmware for filter mode, mask, and related ingress config
instead of trying to figure them out from hardware registers. Read
configuration from the registers only when the firmware does not
support this query.
2. Use the firmware to set the filter mode. This is the correct way to
do it and is more flexible as well. The filter mode (and associated
ingress config) can now be changed any time it is safe to do so.
The user can specify a subset of a valid mode and the driver will
enable enough bits to make sure that the mode is maxed out -- that
is, it is not possible to set another bit without exceeding the
total width for optional filter fields. This is a hardware
requirement that was not enforced by the driver previously.
MFC after: 2 weeks
Sponsored by: Chelsio Communications
Read the PF-only hardware settings directly in get_params__post_init.
Split the rest into two routines used by both the PF and VF drivers: one
that reads the SGE rx buffer configuration and another that verifies
miscellaneous hardware configuration.
MFC after: 1 week
Sponsored by: Chelsio Communications
The issue was found while building cxgbe with gcc 10 (in illumos),
the array subscription check is warning us about outside the bounds
access.
See also: https://gcc.gnu.org/onlinedocs/gcc/Zero-Length.html
It is common for freelists to be starving when a netmap application
stops. Mailbox commands to free queues can hang in such a situation.
Avoid that by not freeing the queues when netmap is switched off.
Instead, use an alternate method to stop the queues without releasing
the context ids. If netmap is enabled again later then the same queue
is reinitialized for use. Move alloc_nm_rxq and txq to t4_netmap.c
while here.
MFC after: 1 week
Sponsored by: Chelsio Communications
The MAC address can be set with the optional mac-addr property in the VF
section of the iovctl.conf(5) used to instantiate the VFs.
MFC after: 2 weeks
Sponsored by: Chelsio Communications
Query the firmware for the MAC address set by the PF for the VF and use
it instead of the firmware generated MAC if it's available.
MFC after: 2 weeks
Sponsored by: Chelsio Communications
r365732 was the first attempt to get an accurate count but it was
writing to some read-only registers to clear them and that obviously
didn't work. Instead, note the counter's value when it is supposed to
be cleared and subtract it from future readings.
dev.<port>.stats.rx_fcs_error should not be serviced from the MPS
register for T6.
The stats.* sysctls should all use T5_PORT_REG for T5 and above. This
must have been missed in the initial T5 support years ago. Fix it while
here.
MFC after: 3 days
Sponsored by: Chelsio Communications
Hardware assistance includes checksumming (tx and rx), TSO, and RSS on
the inner traffic in a VXLAN tunnel.
Relnotes: Yes
Sponsored by: Chelsio Communications
Rx is more efficient within the chip when the receive buffer size
matches the TLS PDU size.
MFC after: 3 days
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D26127
- Ask the firmware for the number of frames that can be stuffed in one
work request.
- Modify mp_ring to increase the likelihood of tx coalescing when there
are just one or two threads that are doing most of the tx. Add teeth
to the abdication mechanism by pushing the consumer lock into mp_ring.
This reduces the likelihood that a consumer will get stuck with all
the work even though it is above its budget.
- Add support for coalesced tx WR to the VF driver. This, with the
changes above, results in a 7x improvement in the tx pps of the VF
driver for some common cases. The firmware vets the L2 headers
submitted by the VF driver and it's a big win if the checks are
performed for a batch of packets and not each one individually.
Reviewed by: jhb@
MFC after: 2 weeks
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D25454
buffer group.
This fixes a bug where congestion drops on port 1 of a T6 card would
incorrectly be counted as drops on port 0.
MFC after: 1 week
Sponsored by: Chelsio Communications
should try in order to link up with the peer.
Various FEC variables within the driver can now have multiple bits set
instead of being powers of 2. 0 and -1 in the user knobs still mean no
FEC and auto (driver decides) respectively for backward compatibility,
but no-FEC and auto now have their own bits in the internal
representation. There is a new bit that can be set to request the FEC
recommended by the cable/transceiver module.
Add sysctls to display link related capabilities of the local side as
well as the link partner.
Note that all this needs a new firmware and the documentation for the
driver FEC knobs will be updated after that firmware is added to the
driver.
MFC after: 1 week
Sponsored by: Chelsio Communications
This adds support for ifnet (NIC) KTLS using Chelsio T6 adapters.
Unlike the TOE-based KTLS in r353328, NIC TLS works with non-TOE
connections.
NIC KTLS on T6 is not able to use the normal TSO (LSO) path to segment
the encrypted TLS frames output by the crypto engine. Instead, the
TOE is placed into a special setup to permit "dummy" connections to be
associated with regular sockets using KTLS. This permits using the
TOE to segment the encrypted TLS records. However, this approach does
have some limitations:
1) Regular TOE sockets cannot be used when the TOE is in this special
mode. One can use either TOE and TOE-based KTLS or NIC KTLS, but
not both at the same time.
2) In NIC KTLS mode, the TOE is only able to accept a per-connection
timestamp offset that varies in the upper 4 bits. Put another way,
only connections whose timestamp offset has the 28 lower bits
cleared can use NIC KTLS and generate correct timestamps. The
driver will refuse to enable NIC KTLS on connections with a
timestamp offset with any of the lower 28 bits set. To use NIC
KTLS, users can either disable TCP timestamps by setting the
net.inet.tcp.rfc1323 sysctl to 0, or apply a local patch to the
tcp_new_ts_offset() function to clear the lower 28 bits of the
generated offset.
3) Because the TCP segmentation relies on fields mirrored in a TCB in
the TOE, not all fields in a TCP packet can be sent in the TCP
segments generated from a TLS record. Specifically, for packets
containing TCP options other than timestamps, the driver will
inject an "empty" TCP packet holding the requested options (e.g. a
SACK scoreboard) along with the segments from the TLS record.
These empty TCP packets are counted by the
dev.cc.N.txq.M.kern_tls_options sysctls.
Unlike TOE TLS which is able to buffer encrypted TLS records in
on-card memory to handle retransmits, NIC KTLS must re-encrypt TLS
records for retransmit requests as well as non-retransmit requests
that do not include the start of a TLS record but do include the
trailer. The T6 NIC KTLS code tries to optimize some of the cases for
requests to transmit partial TLS records. In particular it attempts
to minimize sending "waste" bytes that have to be given as input to
the crypto engine but are not needed on the wire to satisfy mbufs sent
from the TCP stack down to the driver.
TCP packets for TLS requests are broken down into the following
classes (with associated counters):
- Mbufs that send an entire TLS record in full do not have any waste
bytes (dev.cc.N.txq.M.kern_tls_full).
- Mbufs that send a short TLS record that ends before the end of the
trailer (dev.cc.N.txq.M.kern_tls_short). For sockets using AES-CBC,
the encryption must always start at the beginning, so if the mbuf
starts at an offset into the TLS record, the offset bytes will be
"waste" bytes. For sockets using AES-GCM, the encryption can start
at the 16 byte block before the starting offset capping the waste at
15 bytes.
- Mbufs that send a partial TLS record that has a non-zero starting
offset but ends at the end of the trailer
(dev.cc.N.txq.M.kern_tls_partial). In order to compute the
authentication hash stored in the trailer, the entire TLS record
must be sent as input to the crypto engine, so the bytes before the
offset are always "waste" bytes.
In addition, other per-txq sysctls are provided:
- dev.cc.N.txq.M.kern_tls_cbc: Count of sockets sent via this txq
using AES-CBC.
- dev.cc.N.txq.M.kern_tls_gcm: Count of sockets sent via this txq
using AES-GCM.
- dev.cc.N.txq.M.kern_tls_fin: Count of empty FIN-only packets sent to
compensate for the TOE engine not being able to set FIN on the last
segment of a TLS record if the TLS record mbuf had FIN set.
- dev.cc.N.txq.M.kern_tls_records: Count of TLS records sent via this
txq including full, short, and partial records.
- dev.cc.N.txq.M.kern_tls_octets: Count of non-waste bytes (TLS header
and payload) sent for TLS record requests.
- dev.cc.N.txq.M.kern_tls_waste: Count of waste bytes sent for TLS
record requests.
To enable NIC KTLS with T6, set the following tunables prior to
loading the cxgbe(4) driver:
hw.cxgbe.config_file=kern_tls
hw.cxgbe.kern_tls=1
Reviewed by: np
Sponsored by: Chelsio Communications
Differential Revision: https://reviews.freebsd.org/D21962
The driver used to log any non-zero cause and when running with a single
line interrupt it would spam the console/logs with reports of interrupts
that are of no interest to anyone.
MFC after: 1 week
Sponsored by: Chelsio Communications
interrupt enable are not fatal.
The firmware sets up all the interrupt enables based on run time
configuration, which means the information in the enables is more
accurate than what's compiled into the driver. This change also allows
the fatal bits to be updated without any changes in the driver in some
cases.
MFC after: 1 week
Sponsored by: Chelsio Communications
Recent firmwares prefer to use a different format for viid internally
and this change allows them to do so.
MFC after: 1 week
Sponsored by: Chelsio Communications
This fixes a panic during configuration if the tx channel of a port
isn't the same as its port id.
Reported by: Fabrice Bruel
MFC after: 1 week
Sponsored by: Chelsio Communications
"slow" interrupt handler:
- Expand the list of INT_CAUSE registers known to the driver.
- Add decode information for many more bits but decouple it from the
rest of intr_info so that it is entirely optional.
- Call t4_fatal_err exactly once, and from the top level PL intr handler.
t4_fatal_err:
- Use t4_shutdown_adapter from the common code to stop the adapter.
- Stop servicing slow interrupts after the first fatal one.
Driver/firmware interaction:
- CH_DUMP_MBOX: note whether the mailbox being dumped is a command or a
reply or something else.
- Log the raw value of pcie_fw for some errors.
- Use correct log levels (debug vs. error).
Sponsored by: Chelsio Communications
card initialization. This is an expanded version of r333682.
Break up prep_firmware into simpler routines while here. Load the
firmware/config KLD only if needed.
MFC after: 1 month
Sponsored by: Chelsio Communications
