xref: /freebsd/share/man/man4/ena.4 (revision 994297b01b98816bea1abf45ae4bac1bc69ee7a0)
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30.\" $FreeBSD$
31.\"
32.Dd June 4, 2021
33.Dt ENA 4
34.Os
35.Sh NAME
36.Nm ena
37.Nd "FreeBSD kernel driver for Elastic Network Adapter (ENA) family"
38.Sh SYNOPSIS
39To compile this driver into the kernel,
40place the following line in the
41kernel configuration file:
42.Bd -ragged -offset indent
43.Cd "device ena"
44.Ed
45.Pp
46Alternatively, to load the driver as a
47module at boot time, place the following line in
48.Xr loader.conf 5 :
49.Bd -literal -offset indent
50if_ena_load="YES"
51.Ed
52.Sh DESCRIPTION
53The ENA is a networking interface designed to make good use of modern CPU
54features and system architectures.
55.Pp
56The ENA device exposes a lightweight management interface with a
57minimal set of memory mapped registers and extendable command set
58through an Admin Queue.
59.Pp
60The driver supports a range of ENA devices, is link-speed independent
61(i.e., the same driver is used for 10GbE, 25GbE, 40GbE, etc.), and has
62a negotiated and extendable feature set.
63.Pp
64Some ENA devices support SR-IOV.
65This driver is used for both the SR-IOV Physical Function (PF) and Virtual
66Function (VF) devices.
67.Pp
68The ENA devices enable high speed and low overhead network traffic
69processing by providing multiple Tx/Rx queue pairs (the maximum number
70is advertised by the device via the Admin Queue), a dedicated MSI-X
71interrupt vector per Tx/Rx queue pair, and CPU cacheline optimized
72data placement.
73.Pp
74When RSS is enabled, each Tx/Rx queue pair is bound to a corresponding
75CPU core and its NUMA domain.
76The order of those bindings is based on the RSS bucket mapping.
77For builds with RSS support disabled, the
78CPU and NUMA management is left to the kernel.
79.Pp
80The
81.Nm
82driver supports industry standard TCP/IP offload features such
83as checksum offload and TCP transmit segmentation offload (TSO).
84Receive-side scaling (RSS) is supported for multi-core scaling.
85.Pp
86The
87.Nm
88driver and its corresponding devices implement health
89monitoring mechanisms such as watchdog, enabling the device and driver
90to recover in a manner transparent to the application, as well as
91debug logs.
92.Pp
93Some of the ENA devices support a working mode called Low-latency
94Queue (LLQ), which saves several more microseconds.
95.Pp
96Support for the
97.Xr netmap 4
98framework is provided by the
99.Nm
100driver.
101Kernel must be built with the DEV_NETMAP option to be able to use this feature.
102.Sh HARDWARE
103Supported PCI vendor ID/device IDs:
104.Pp
105.Bl -bullet -compact
106.It
1071d0f:0ec2 - ENA PF
108.It
1091d0f:1ec2 - ENA PF with LLQ support
110.It
1111d0f:ec20 - ENA VF
112.It
1131d0f:ec21 - ENA VF with LLQ support
114.El
115.Sh LOADER TUNABLES
116The
117.Nm
118driver's behavior can be changed using run-time or boot-time sysctl
119arguments.
120The boot-time arguments can be set at the
121.Xr loader 8
122prompt before booting the kernel, or stored in the
123.Xr loader.conf 5 .
124The run-time arguments can be set using the
125.Xr sysctl 8
126command.
127.Pp
128Boot-time tunables:
129.Bl -tag -width indent
130.It Va hw.ena.enable_9k_mbufs
131Use 9k mbufs for the Rx descriptors.
132The default is 0.
133If the node value is set to 1, 9k mbufs will be used for the Rx buffers.
134If set to 0, page size mbufs will be used instead.
135.Pp
136Using 9k buffers for Rx can improve Rx throughput, but in low memory conditions
137it might increase allocation time, as the system has to look for 3 contiguous
138pages.
139This can further lead to OS instability, together with ENA driver reset and NVMe
140timeouts.
141If network performance is critical and memory capacity is sufficient, the 9k
142mbufs can be used.
143.It Va hw.ena.force_large_llq_headers
144Force the driver to use large LLQ headers (224 bytes).
145The default is 0.
146If the node value is set to 0, the regular size LLQ header will be used, which
147is 96B.
148In some cases, the packet header can be bigger than this (for example -
149IPv6 with multiple extensions).
150In such a situation, the large LLQ headers should be used by setting this node
151value to 1.
152This will take effect only if the device supports both LLQ and large LLQ
153headers.
154Otherwise, it will fallback to the no LLQ mode or regular header size.
155.Pp
156Increasing LLQ header size reduces the size of the Tx queue by half, so it may
157affect the number of dropped Tx packets.
158.El
159.Pp
160Run-time tunables:
161.Bl -tag -width indent
162.It Va hw.ena.log_level
163Controls extra logging verbosity of the driver.
164The default is 2.
165The higher the logging level, the more logs will be printed out. 0 means all
166extra logs are disabled and only error logs will be printed out.
167Default value (2) reports errors, warnings and is verbose about driver
168operation.
169.Pp
170The possible flags are:
171.Pp
172.Bl -bullet -compact
173.It
1740 - ENA_ERR  - Enable driver error messages and ena_com error logs.
175.It
1761 - ENA_WARN - Enable logs for non-critical errors.
177.It
1782 - ENA_INFO - Make the driver more verbose about its actions.
179.It
1803 - ENA_DBG  - Enable debug logs.
181.El
182.Pp
183NOTE: In order to enable logging on the Tx/Rx data path, driver must be compiled
184with ENA_LOG_IO_ENABLE compilation flag.
185.Pp
186Example:
187To enable logs for errors and warnings, the following command should be used:
188.Bd -literal -offset indent
189sysctl hw.ena.log_level=1
190.Ed
191.It Va dev.ena.X.io_queues_nb
192Number of the currently allocated and used IO queues.
193The default is max_num_io_queues.
194Controls the number of IO queue pairs (Tx/Rx). As this call has to reallocate
195the queues, it will reset the interface and restart all the queues - this means
196that everything, which was currently held in the queue, will be lost, leading to
197potential packet drops.
198.Pp
199This call can fail if the system isn't able to provide the driver with enough
200resources.
201In that situation, the driver will try to revert the previous number of the IO
202queues.
203If this also fails, the device reset will be triggered.
204.Pp
205Example:
206To use only 2 Tx and Rx queues for the device ena1, the following command should
207be used:
208.Bd -literal -offset indent
209sysctl dev.ena.1.io_queues_nb=2
210.Ed
211.It Va dev.ena.X.rx_queue_size
212Size of the Rx queue.
213The default is 1024.
214Controls the number of IO descriptors for each Rx queue.
215The user may want to increase the Rx queue size if they observe a high number of
216Rx drops in the driver's statistics.
217For performance reasons, the Rx queue size must be a power of 2.
218.Pp
219This call can fail if the system isn't able to provide the driver with enough
220resources.
221In that situation, the driver will try to revert to the previous number of the
222descriptors.
223If this also fails, the device reset will be triggered.
224.Pp
225Example:
226To increase Rx ring size to 8K descriptors for the device ena0, the following
227command should be used:
228.Bd -literal -offset indent
229sysctl dev.ena.0.rx_queue_size=8192
230.Ed
231.It Va dev.ena.X.buf_ring_size
232Size of the Tx buffer ring (drbr).
233The default is 4096.
234Input must be a power of 2.
235Controls the number of mbufs that can be held in the Tx buffer ring.
236The drbr is used as a multiple-producer, single-consumer lockless ring for
237buffering extra mbufs coming from the stack in case the Tx procedure is busy
238sending the packets, or the Tx ring is full.
239Increasing the size of the buffer ring may reduce the number of Tx packets being
240dropped in case of a big Tx burst, which cannot be handled by the IO queue
241immediately.
242Each Tx queue has its own drbr.
243.Pp
244It is recommended to keep the drbr with at least the default value, but in case
245the system lacks the resources, it can be reduced.
246This call can fail if the system is not able to provide the driver with enough
247resources.
248In that situation, the driver will try to revert to the previous number of the
249drbr and trigger the device reset.
250.Pp
251Example:
252To set drbr size for interface ena0 to 2048, the following command should
253be used:
254.Bd -literal -offset indent
255sysctl dev.ena.0.buf_ring_size=2048
256.Ed
257.It Va dev.ena.X.eni_metrics.sample_interval
258Interval in seconds for updating ENI metrics.
259The default is 0.
260Determines how often (if ever) the ENI metrics should be updated.
261The ENI metrics are being updated asynchronously in a timer service in order to
262avoid admin queue overload by sysctl node reading.
263The value in this node controls the interval between issuing admin commands to
264the device, which will update the ENI metrics values.
265.Pp
266If some application is periodically monitoring the eni_metrics, then the ENI
267metrics interval can be adjusted accordingly.
268Value 0 turns off the update completely.
269Value 1 is the minimum interval and is equal to 1 second.
270The maximum allowed update interval is 1 hour.
271.Pp
272Example:
273To update ENI metrics for the device ena1 every 10 seconds, the following
274command should be used:
275.Bd -literal -offset indent
276sysctl dev.ena.1.eni_metrics.sample_interval=10
277.Ed
278.It Va dev.ena.X.rss.indir_table_size
279RSS indirection table size.
280The default is 128.
281Returns the number of entries in the RSS indirection table.
282.Pp
283Example:
284To read the RSS indirection table size, the following command should be used:
285.Bd -literal -offset indent
286sysctl dev.ena.0.rss.indir_table_size
287.Ed
288.It Va dev.ena.X.rss.indir_table
289RSS indirection table mapping.
290The default is x:y key-pairs of indir_table_size length.
291Updates selected indices of the RSS indirection table.
292.Pp
293The entry string consists of one or more x:y keypairs, where x stands for
294the table index and y for its new value.
295Table indices that don't need to be
296updated can be omitted from the string and will retain their existing values.
297.Pp
298If an index is entered more than once, the last value is used.
299.Pp
300Example:
301To update two selected indices in the RSS indirection table, e.g. setting index
3020 to queue 5 and then index 5 to queue 0, the following command should be used:
303.Bd -literal -offset indent
304sysctl dev.ena.0.rss.indir_table="0:5 5:0"
305.Ed
306.It Va dev.ena.X.rss.key
307RSS hash key.
308The default is 40 bytes long randomly generated hash key.
309Controls the RSS Toeplitz hash algorithm key value.
310.Pp
311Only available when driver compiled without the kernel side RSS support.
312.Pp
313Example:
314To change the RSS hash key value to
315.Pp
3160x6d, 0x5a, 0x56, 0xda, 0x25, 0x5b, 0x0e, 0xc2,
317.br
3180x41, 0x67, 0x25, 0x3d, 0x43, 0xa3, 0x8f, 0xb0,
319.br
3200xd0, 0xca, 0x2b, 0xcb, 0xae, 0x7b, 0x30, 0xb4,
321.br
3220x77, 0xcb, 0x2d, 0xa3, 0x80, 0x30, 0xf2, 0x0c,
323.br
3240x6a, 0x42, 0xb7, 0x3b, 0xbe, 0xac, 0x01, 0xfa
325.Pp
326the following command should be used:
327.Bd -literal -offset indent
328sysctl dev.ena.0.rss.key=6d5a56da255b0ec24167253d43a38fb0d0ca2bcbae7b30b477cb2da38030f20c6a42b73bbeac01fa
329.Ed
330.El
331.Sh DIAGNOSTICS
332.Ss Device initialization phase
333.Bl -diag
334.It ena%d: failed to init mmio read less
335.Pp
336Error occurred during initialization of the mmio register read request.
337.It ena%d: Can not reset device
338.Pp
339Device could not be reset.
340.br
341Device may not be responding or is already during reset.
342.It ena%d: device version is too low
343.Pp
344Version of the controller is too old and it is not supported by the driver.
345.It ena%d: Invalid dma width value %d
346.Pp
347The controller is unable to request dma transaction width.
348.br
349Device stopped responding or it demanded invalid value.
350.It ena%d: Can not initialize ena admin queue with device
351.Pp
352Initialization of the Admin Queue failed.
353.br
354Device may not be responding or there was a problem with initialization of
355the resources.
356.It ena%d: Cannot get attribute for ena device rc: %d
357.Pp
358Failed to get attributes of the device from the controller.
359.It ena%d: Cannot configure aenq groups rc: %d
360.Pp
361Errors occurred when trying to configure AENQ groups.
362.El
363.Ss Driver initialization/shutdown phase
364.Bl -diag
365.It ena%d: PCI resource allocation failed!
366.It ena%d: failed to pmap registers bar
367.It ena%d: can not allocate ifnet structure
368.It ena%d: Error with network interface setup
369.It ena%d: Failed to enable and set the admin interrupts
370.It ena%d: Error, MSI-X is already enabled
371.It ena%d: Failed to enable MSIX, vectors %d rc %d
372.It ena%d: Not enough number of MSI-X allocated: %d
373.It ena%d: Error with MSI-X enablement
374.It ena%d: could not allocate irq vector: %d
375.It ena%d: unable to allocate bus resource: registers!
376.It ena%d: unable to allocate bus resource: msix!
377.Pp
378Resource allocation failed when initializing the device.
379.br
380Driver will not be attached.
381.It ena%d: ENA device init failed (err: %d)
382.It ena%d: Cannot initialize device
383.Pp
384Device initialization failed.
385.br
386Driver will not be attached.
387.It ena%d: failed to register interrupt handler for irq %ju: %d
388.Pp
389Error occurred when trying to register Admin Queue interrupt handler.
390.It ena%d: Cannot setup mgmnt queue intr
391.Pp
392Error occurred during configuration of the Admin Queue interrupts.
393.It ena%d: Enable MSI-X failed
394.Pp
395Configuration of the MSI-X for Admin Queue failed.
396.br
397There could be lack of resources or interrupts could not have been configured.
398.br
399Driver will not be attached.
400.It ena%d: VLAN is in use, detach first
401.Pp
402VLANs are being used when trying to detach the driver.
403.br
404VLANs must be detached first and then detach routine have to be called again.
405.It ena%d: Unmapped RX DMA tag associations
406.It ena%d: Unmapped TX DMA tag associations
407.Pp
408Error occurred when trying to destroy RX/TX DMA tag.
409.It ena%d: Cannot init indirect table
410.It ena%d: Cannot fill indirect table
411.It ena%d: Cannot fill hash function
412.It ena%d: Cannot fill hash control
413.It ena%d: WARNING: RSS was not properly initialized, it will affect bandwidth
414.Pp
415Error occurred during initialization of one of RSS resources.
416.br
417The device will work with reduced performance because all RX packets will be
418passed to queue 0 and there will be no hash information.
419.It ena%d: LLQ is not supported. Fallback to host mode policy.
420.It ena%d: Failed to configure the device mode. Fallback to host mode policy.
421.It ena%d: unable to allocate LLQ bar resource. Fallback to host mode policy.
422.Pp
423Error occurred during Low-latency Queue mode setup.
424.br
425The device will work, but without the LLQ performance gain.
426.It ena%d: failed to enable write combining.
427.Pp
428Error occurred while setting the Write Combining mode, required for the LLQ.
429.It ena%d: failed to tear down irq: %d
430.It ena%d: dev has no parent while releasing res for irq: %d
431Release of the interrupts failed.
432.El
433.Ss Additional diagnostic
434.Bl -diag
435.It ena%d: Invalid MTU setting. new_mtu: %d max_mtu: %d min mtu: %d
436.Pp
437Requested MTU value is not supported and will not be set.
438.It ena%d: Failed to set MTU to %d
439.Pp
440This message appears when either MTU change feature is not supported, or device
441communication error has occurred.
442.It ena%d: Keep alive watchdog timeout.
443.Pp
444Device stopped responding and will be reset.
445.It ena%d: Found a Tx that wasn't completed on time, qid %d, index %d.
446.Pp
447Packet was pushed to the NIC but not sent within given time limit.
448.br
449It may be caused by hang of the IO queue.
450.It ena%d: The number of lost tx completion is above the threshold (%d > %d). Reset the device
451.Pp
452If too many Tx weren't completed on time the device is going to be reset.
453.br
454It may be caused by hanged queue or device.
455.It ena%d: Trigger reset is on
456.Pp
457Device will be reset.
458.br
459Reset is triggered either by watchdog or if too many TX packets were not
460completed on time.
461.It ena%d: device reset scheduled but trigger_reset is off
462.Pp
463Reset task has been triggered, but the driver did not request it.
464.br
465Device reset will not be performed.
466.It ena%d: Device reset failed
467.Pp
468Error occurred while trying to reset the device.
469.It ena%d: Cannot initialize device
470.It ena%d: Error, mac address are different
471.It ena%d: Error, device max mtu is smaller than ifp MTU
472.It ena%d: Validation of device parameters failed
473.It ena%d: Enable MSI-X failed
474.It ena%d: Failed to create I/O queues
475.It ena%d: Reset attempt failed. Can not reset the device
476.Pp
477Error occurred while trying to restore the device after reset.
478.It ena%d: Device reset completed successfully, Driver info: %s
479.Pp
480Device has been correctly restored after reset and is ready to use.
481.It ena%d: Allocation for Tx Queue %u failed
482.It ena%d: Allocation for Rx Queue %u failed
483.It ena%d: Unable to create Rx DMA map for buffer %d
484.It ena%d: Failed to create io TX queue #%d rc: %d
485.It ena%d: Failed to get TX queue handlers. TX queue num %d rc: %d
486.It ena%d: Failed to create io RX queue[%d] rc: %d
487.It ena%d: Failed to get RX queue handlers. RX queue num %d rc: %d
488.It ena%d: could not allocate irq vector: %d
489.It ena%d: failed to register interrupt handler for irq %ju: %d
490.Pp
491IO resources initialization failed.
492.br
493Interface will not be brought up.
494.It ena%d: LRO[%d] Initialization failed!
495.Pp
496Initialization of the LRO for the RX ring failed.
497.It ena%d: failed to alloc buffer for rx queue
498.It ena%d: failed to add buffer for rx queue %d
499.It ena%d: refilled rx qid %d with only %d mbufs (from %d)
500.Pp
501Allocation of resources used on RX path failed.
502.br
503If happened during initialization of the IO queue, the interface will not be
504brought up.
505.It ena%d: NULL mbuf in rx_info
506.Pp
507Error occurred while assembling mbuf from descriptors.
508.It ena%d: tx_info doesn't have valid mbuf
509.It ena%d: Invalid req_id: %hu
510.It ena%d: failed to prepare tx bufs
511.Pp
512Error occurred while preparing a packet for transmission.
513.It ena%d: ioctl promisc/allmulti
514.Pp
515IOCTL request for the device to work in promiscuous/allmulti mode.
516.br
517See
518.Xr ifconfig 8
519for more details.
520.El
521.Sh SUPPORT
522If an issue is identified with the released source code with a supported
523adapter, please email the specific information related to the issue to
524.Aq Mt mk@semihalf.com ,
525.Aq Mt dgr@semihalf.com
526and
527.Aq Mt mw@semihalf.com .
528.Sh SEE ALSO
529.Xr netmap 4 ,
530.Xr vlan 4 ,
531.Xr ifconfig 8
532.Sh HISTORY
533The
534.Nm
535driver first appeared in
536.Fx 11.1 .
537.Sh AUTHORS
538The
539.Nm
540driver was written by
541.An Semihalf .
542