2011-02-18 08:00:26 +00:00
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/*-
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* Copyright (c) 2011 Chelsio Communications, Inc.
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* All rights reserved.
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* Written by: Navdeep Parhar <np@FreeBSD.org>
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* $FreeBSD$
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*
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*/
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#ifndef __T4_IOCTL_H__
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#define __T4_IOCTL_H__
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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#include <sys/types.h>
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#include <net/ethernet.h>
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2011-02-18 08:00:26 +00:00
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/*
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* Ioctl commands specific to this driver.
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*/
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enum {
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2011-04-07 07:10:42 +00:00
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T4_GETREG = 0x40, /* read register */
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T4_SETREG, /* write register */
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2011-02-18 08:00:26 +00:00
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T4_REGDUMP, /* dump of all registers */
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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T4_GET_FILTER_MODE, /* get global filter mode */
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T4_SET_FILTER_MODE, /* set global filter mode */
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T4_GET_FILTER, /* get information about a filter */
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T4_SET_FILTER, /* program a filter */
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T4_DEL_FILTER, /* delete a filter */
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2011-06-11 04:50:54 +00:00
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T4_GET_SGE_CONTEXT, /* get SGE context for a queue */
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2011-12-16 02:09:51 +00:00
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T4_LOAD_FW, /* flash firmware */
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T4_GET_MEM, /* read memory */
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2012-10-10 17:13:46 +00:00
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T4_GET_I2C, /* read from i2c addressible device */
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2012-10-10 19:27:40 +00:00
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T4_CLEAR_STATS, /* clear a port's MAC statistics */
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2013-07-26 20:54:33 +00:00
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T4_SET_OFLD_POLICY, /* Set offload policy */
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T4_SET_SCHED_CLASS, /* set sched class */
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T4_SET_SCHED_QUEUE, /* set queue class */
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Add support for packet-sniffing tracers to cxgbe(4). This works with
all T4 and T5 based cards and is useful for analyzing TSO, LRO, TOE, and
for general purpose monitoring without tapping any cxgbe or cxl ifnet
directly.
Tracers on the T4/T5 chips provide access to Ethernet frames exactly as
they were received from or transmitted on the wire. On transmit, a
tracer will capture a frame after TSO segmentation, hw VLAN tag
insertion, hw L3 & L4 checksum insertion, etc. It will also capture
frames generated by the TCP offload engine (TOE traffic is normally
invisible to the kernel). On receive, a tracer will capture a frame
before hw VLAN extraction, runt filtering, other badness filtering,
before the steering/drop/L2-rewrite filters or the TOE have had a go at
it, and of course before sw LRO in the driver.
There are 4 tracers on a chip. A tracer can trace only in one direction
(tx or rx). For now cxgbetool will set up tracers to capture the first
128B of every transmitted or received frame on a given port. This is a
small subset of what the hardware can do. A pseudo ifnet with the same
name as the nexus driver (t4nex0 or t5nex0) will be created for tracing.
The data delivered to this ifnet is an additional copy made inside the
chip. Normal delivery to cxgbe<n> or cxl<n> will be made as usual.
/* watch cxl0, which is the first port hanging off t5nex0. */
# cxgbetool t5nex0 tracer 0 tx0 (watch what cxl0 is transmitting)
# cxgbetool t5nex0 tracer 1 rx0 (watch what cxl0 is receiving)
# cxgbetool t5nex0 tracer list
# tcpdump -i t5nex0 <== all that cxl0 sees and puts on the wire
If you were doing TSO, a tcpdump on cxl0 may have shown you ~64K
"frames" with no L3/L4 checksum but this will show you the frames that
were actually transmitted.
/* all done */
# cxgbetool t5nex0 tracer 0 disable
# cxgbetool t5nex0 tracer 1 disable
# cxgbetool t5nex0 tracer list
# ifconfig t5nex0 destroy
2013-07-26 22:04:11 +00:00
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T4_GET_TRACER, /* get information about a tracer */
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T4_SET_TRACER, /* program a tracer */
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2011-02-18 08:00:26 +00:00
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};
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2011-04-07 07:10:42 +00:00
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struct t4_reg {
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2011-02-18 08:00:26 +00:00
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uint32_t addr;
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2011-04-07 07:10:42 +00:00
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uint32_t size;
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uint64_t val;
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2011-02-18 08:00:26 +00:00
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};
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#define T4_REGDUMP_SIZE (160 * 1024)
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2013-03-30 02:26:20 +00:00
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#define T5_REGDUMP_SIZE (332 * 1024)
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2011-02-18 08:00:26 +00:00
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struct t4_regdump {
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2011-04-07 07:10:42 +00:00
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uint32_t version;
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uint32_t len; /* bytes */
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uint32_t *data;
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2011-02-18 08:00:26 +00:00
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};
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2011-12-16 02:09:51 +00:00
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struct t4_data {
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uint32_t len;
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uint8_t *data;
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};
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2012-10-10 17:13:46 +00:00
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struct t4_i2c_data {
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uint8_t port_id;
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uint8_t dev_addr;
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uint8_t offset;
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uint8_t len;
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uint8_t data[8];
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};
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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/*
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* A hardware filter is some valid combination of these.
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*/
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#define T4_FILTER_IPv4 0x1 /* IPv4 packet */
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#define T4_FILTER_IPv6 0x2 /* IPv6 packet */
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#define T4_FILTER_IP_SADDR 0x4 /* Source IP address or network */
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#define T4_FILTER_IP_DADDR 0x8 /* Destination IP address or network */
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#define T4_FILTER_IP_SPORT 0x10 /* Source IP port */
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#define T4_FILTER_IP_DPORT 0x20 /* Destination IP port */
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#define T4_FILTER_FCoE 0x40 /* Fibre Channel over Ethernet packet */
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#define T4_FILTER_PORT 0x80 /* Physical ingress port */
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2011-12-16 02:09:51 +00:00
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#define T4_FILTER_VNIC 0x100 /* VNIC id or outer VLAN */
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#define T4_FILTER_VLAN 0x200 /* VLAN ID */
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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#define T4_FILTER_IP_TOS 0x400 /* IPv4 TOS/IPv6 Traffic Class */
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#define T4_FILTER_IP_PROTO 0x800 /* IP protocol */
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#define T4_FILTER_ETH_TYPE 0x1000 /* Ethernet Type */
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#define T4_FILTER_MAC_IDX 0x2000 /* MPS MAC address match index */
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#define T4_FILTER_MPS_HIT_TYPE 0x4000 /* MPS match type */
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#define T4_FILTER_IP_FRAGMENT 0x8000 /* IP fragment */
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/* Filter action */
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enum {
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FILTER_PASS = 0, /* default */
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FILTER_DROP,
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FILTER_SWITCH
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};
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/* 802.1q manipulation on FILTER_SWITCH */
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enum {
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VLAN_NOCHANGE = 0, /* default */
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VLAN_REMOVE,
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VLAN_INSERT,
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VLAN_REWRITE
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};
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/* MPS match type */
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enum {
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UCAST_EXACT = 0, /* exact unicast match */
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UCAST_HASH = 1, /* inexact (hashed) unicast match */
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MCAST_EXACT = 2, /* exact multicast match */
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MCAST_HASH = 3, /* inexact (hashed) multicast match */
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PROMISC = 4, /* no match but port is promiscuous */
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HYPPROMISC = 5, /* port is hypervisor-promisuous + not bcast */
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BCAST = 6, /* broadcast packet */
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};
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/* Rx steering */
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enum {
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DST_MODE_QUEUE, /* queue is directly specified by filter */
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DST_MODE_RSS_QUEUE, /* filter specifies RSS entry containing queue */
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DST_MODE_RSS, /* queue selected by default RSS hash lookup */
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DST_MODE_FILT_RSS /* queue selected by hashing in filter-specified
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RSS subtable */
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};
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struct t4_filter_tuple {
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/*
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* These are always available.
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*/
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uint8_t sip[16]; /* source IP address (IPv4 in [3:0]) */
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uint8_t dip[16]; /* destinatin IP address (IPv4 in [3:0]) */
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uint16_t sport; /* source port */
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uint16_t dport; /* destination port */
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/*
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* A combination of these (upto 36 bits) is available. TP_VLAN_PRI_MAP
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* is used to select the global mode and all filters are limited to the
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* set of fields allowed by the global mode.
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*/
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2011-12-16 02:09:51 +00:00
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uint16_t vnic; /* VNIC id or outer VLAN tag */
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uint16_t vlan; /* VLAN tag */
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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uint16_t ethtype; /* Ethernet type */
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uint8_t tos; /* TOS/Traffic Type */
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uint8_t proto; /* protocol type */
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uint32_t fcoe:1; /* FCoE packet */
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uint32_t iport:3; /* ingress port */
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uint32_t matchtype:3; /* MPS match type */
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uint32_t frag:1; /* fragmentation extension header */
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uint32_t macidx:9; /* exact match MAC index */
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2011-12-16 02:09:51 +00:00
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uint32_t vlan_vld:1; /* VLAN valid */
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uint32_t vnic_vld:1; /* VNIC id/outer VLAN tag valid */
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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};
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struct t4_filter_specification {
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uint32_t hitcnts:1; /* count filter hits in TCB */
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uint32_t prio:1; /* filter has priority over active/server */
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uint32_t type:1; /* 0 => IPv4, 1 => IPv6 */
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uint32_t action:2; /* drop, pass, switch */
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uint32_t rpttid:1; /* report TID in RSS hash field */
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uint32_t dirsteer:1; /* 0 => RSS, 1 => steer to iq */
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uint32_t iq:10; /* ingress queue */
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uint32_t maskhash:1; /* dirsteer=0: store RSS hash in TCB */
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uint32_t dirsteerhash:1;/* dirsteer=1: 0 => TCB contains RSS hash */
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/* 1 => TCB contains IQ ID */
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/*
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* Switch proxy/rewrite fields. An ingress packet which matches a
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* filter with "switch" set will be looped back out as an egress
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* packet -- potentially with some Ethernet header rewriting.
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*/
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uint32_t eport:2; /* egress port to switch packet out */
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uint32_t newdmac:1; /* rewrite destination MAC address */
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uint32_t newsmac:1; /* rewrite source MAC address */
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uint32_t newvlan:2; /* rewrite VLAN Tag */
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uint8_t dmac[ETHER_ADDR_LEN]; /* new destination MAC address */
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uint8_t smac[ETHER_ADDR_LEN]; /* new source MAC address */
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uint16_t vlan; /* VLAN Tag to insert */
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/*
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* Filter rule value/mask pairs.
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*/
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struct t4_filter_tuple val;
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struct t4_filter_tuple mask;
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};
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struct t4_filter {
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uint32_t idx;
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2011-05-30 21:07:26 +00:00
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uint16_t l2tidx;
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uint16_t smtidx;
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T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
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uint64_t hits;
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struct t4_filter_specification fs;
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};
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2011-06-11 04:50:54 +00:00
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#define T4_SGE_CONTEXT_SIZE 24
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enum {
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SGE_CONTEXT_EGRESS,
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SGE_CONTEXT_INGRESS,
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SGE_CONTEXT_FLM,
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SGE_CONTEXT_CNM
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};
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struct t4_sge_context {
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|
|
|
uint32_t mem_id;
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|
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uint32_t cid;
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|
uint32_t data[T4_SGE_CONTEXT_SIZE / 4];
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|
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|
};
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|
2011-12-16 02:09:51 +00:00
|
|
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struct t4_mem_range {
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|
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|
uint32_t addr;
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|
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|
uint32_t len;
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|
uint32_t *data;
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|
};
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|
Add support for packet-sniffing tracers to cxgbe(4). This works with
all T4 and T5 based cards and is useful for analyzing TSO, LRO, TOE, and
for general purpose monitoring without tapping any cxgbe or cxl ifnet
directly.
Tracers on the T4/T5 chips provide access to Ethernet frames exactly as
they were received from or transmitted on the wire. On transmit, a
tracer will capture a frame after TSO segmentation, hw VLAN tag
insertion, hw L3 & L4 checksum insertion, etc. It will also capture
frames generated by the TCP offload engine (TOE traffic is normally
invisible to the kernel). On receive, a tracer will capture a frame
before hw VLAN extraction, runt filtering, other badness filtering,
before the steering/drop/L2-rewrite filters or the TOE have had a go at
it, and of course before sw LRO in the driver.
There are 4 tracers on a chip. A tracer can trace only in one direction
(tx or rx). For now cxgbetool will set up tracers to capture the first
128B of every transmitted or received frame on a given port. This is a
small subset of what the hardware can do. A pseudo ifnet with the same
name as the nexus driver (t4nex0 or t5nex0) will be created for tracing.
The data delivered to this ifnet is an additional copy made inside the
chip. Normal delivery to cxgbe<n> or cxl<n> will be made as usual.
/* watch cxl0, which is the first port hanging off t5nex0. */
# cxgbetool t5nex0 tracer 0 tx0 (watch what cxl0 is transmitting)
# cxgbetool t5nex0 tracer 1 rx0 (watch what cxl0 is receiving)
# cxgbetool t5nex0 tracer list
# tcpdump -i t5nex0 <== all that cxl0 sees and puts on the wire
If you were doing TSO, a tcpdump on cxl0 may have shown you ~64K
"frames" with no L3/L4 checksum but this will show you the frames that
were actually transmitted.
/* all done */
# cxgbetool t5nex0 tracer 0 disable
# cxgbetool t5nex0 tracer 1 disable
# cxgbetool t5nex0 tracer list
# ifconfig t5nex0 destroy
2013-07-26 22:04:11 +00:00
|
|
|
#define T4_TRACE_LEN 112
|
|
|
|
struct t4_trace_params {
|
|
|
|
uint32_t data[T4_TRACE_LEN / 4];
|
|
|
|
uint32_t mask[T4_TRACE_LEN / 4];
|
|
|
|
uint16_t snap_len;
|
|
|
|
uint16_t min_len;
|
|
|
|
uint8_t skip_ofst;
|
|
|
|
uint8_t skip_len;
|
|
|
|
uint8_t invert;
|
|
|
|
uint8_t port;
|
|
|
|
};
|
|
|
|
|
|
|
|
struct t4_tracer {
|
|
|
|
uint8_t idx;
|
|
|
|
uint8_t enabled;
|
|
|
|
uint8_t valid;
|
|
|
|
struct t4_trace_params tp;
|
|
|
|
};
|
|
|
|
|
2011-04-07 07:10:42 +00:00
|
|
|
#define CHELSIO_T4_GETREG _IOWR('f', T4_GETREG, struct t4_reg)
|
|
|
|
#define CHELSIO_T4_SETREG _IOW('f', T4_SETREG, struct t4_reg)
|
2011-02-18 08:00:26 +00:00
|
|
|
#define CHELSIO_T4_REGDUMP _IOWR('f', T4_REGDUMP, struct t4_regdump)
|
T4 packet filtering/steering.
- Enable 5-tuple and every-packet lookup.
- Setup the default filter mode to allow filtering/steering based on IP
protocol, ingress port, inner VLAN ID, IP frag, FCoE, and MPS match
type; all combined together. You can also filter based on MAC index,
Ethernet type, IP TOS/IPv6 Traffic Class, and outer VLAN ID but you'll
have to modify the default filter mode and exclude some of the
match-fields in it.
IPv4 and IPv6 SIP/DIP/SPORT/DPORT are always available in all filter
rules.
- Add driver ioctls to get/set the global filter mode.
- Add driver ioctls to program and delete hardware filters. A couple of
the "switch" actions that rewrite Ethernet and VLAN information and
switch the packet out of another port may not work as the L2 code is not
yet in place. Everything else, including all "drop" and "pass" rules
with RSS or absolute qid, should work.
Obtained from: Chelsio Communications
2011-05-05 02:04:56 +00:00
|
|
|
#define CHELSIO_T4_GET_FILTER_MODE _IOWR('f', T4_GET_FILTER_MODE, uint32_t)
|
|
|
|
#define CHELSIO_T4_SET_FILTER_MODE _IOW('f', T4_SET_FILTER_MODE, uint32_t)
|
|
|
|
#define CHELSIO_T4_GET_FILTER _IOWR('f', T4_GET_FILTER, struct t4_filter)
|
|
|
|
#define CHELSIO_T4_SET_FILTER _IOW('f', T4_SET_FILTER, struct t4_filter)
|
|
|
|
#define CHELSIO_T4_DEL_FILTER _IOW('f', T4_DEL_FILTER, struct t4_filter)
|
2011-06-11 04:50:54 +00:00
|
|
|
#define CHELSIO_T4_GET_SGE_CONTEXT _IOWR('f', T4_GET_SGE_CONTEXT, \
|
|
|
|
struct t4_sge_context)
|
2011-12-16 02:09:51 +00:00
|
|
|
#define CHELSIO_T4_LOAD_FW _IOW('f', T4_LOAD_FW, struct t4_data)
|
|
|
|
#define CHELSIO_T4_GET_MEM _IOW('f', T4_GET_MEM, struct t4_mem_range)
|
2012-10-10 17:13:46 +00:00
|
|
|
#define CHELSIO_T4_GET_I2C _IOWR('f', T4_GET_I2C, struct t4_i2c_data)
|
2012-10-10 19:27:40 +00:00
|
|
|
#define CHELSIO_T4_CLEAR_STATS _IOW('f', T4_CLEAR_STATS, uint32_t)
|
Add support for packet-sniffing tracers to cxgbe(4). This works with
all T4 and T5 based cards and is useful for analyzing TSO, LRO, TOE, and
for general purpose monitoring without tapping any cxgbe or cxl ifnet
directly.
Tracers on the T4/T5 chips provide access to Ethernet frames exactly as
they were received from or transmitted on the wire. On transmit, a
tracer will capture a frame after TSO segmentation, hw VLAN tag
insertion, hw L3 & L4 checksum insertion, etc. It will also capture
frames generated by the TCP offload engine (TOE traffic is normally
invisible to the kernel). On receive, a tracer will capture a frame
before hw VLAN extraction, runt filtering, other badness filtering,
before the steering/drop/L2-rewrite filters or the TOE have had a go at
it, and of course before sw LRO in the driver.
There are 4 tracers on a chip. A tracer can trace only in one direction
(tx or rx). For now cxgbetool will set up tracers to capture the first
128B of every transmitted or received frame on a given port. This is a
small subset of what the hardware can do. A pseudo ifnet with the same
name as the nexus driver (t4nex0 or t5nex0) will be created for tracing.
The data delivered to this ifnet is an additional copy made inside the
chip. Normal delivery to cxgbe<n> or cxl<n> will be made as usual.
/* watch cxl0, which is the first port hanging off t5nex0. */
# cxgbetool t5nex0 tracer 0 tx0 (watch what cxl0 is transmitting)
# cxgbetool t5nex0 tracer 1 rx0 (watch what cxl0 is receiving)
# cxgbetool t5nex0 tracer list
# tcpdump -i t5nex0 <== all that cxl0 sees and puts on the wire
If you were doing TSO, a tcpdump on cxl0 may have shown you ~64K
"frames" with no L3/L4 checksum but this will show you the frames that
were actually transmitted.
/* all done */
# cxgbetool t5nex0 tracer 0 disable
# cxgbetool t5nex0 tracer 1 disable
# cxgbetool t5nex0 tracer list
# ifconfig t5nex0 destroy
2013-07-26 22:04:11 +00:00
|
|
|
#define CHELSIO_T4_GET_TRACER _IOWR('f', T4_GET_TRACER, struct t4_tracer)
|
|
|
|
#define CHELSIO_T4_SET_TRACER _IOW('f', T4_SET_TRACER, struct t4_tracer)
|
2011-02-18 08:00:26 +00:00
|
|
|
#endif
|