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Chipset-Command
| Command: | ethswctl - type Exec | Wiki | Freetz | IPPF | whmf | AVM | Web |
| Location: | Shell-Commands >> Chipset-Commands - Origin: Broadcom | ||||||
| Path: | Release: /bin Lab+Rel: /bin | ||||||
| Properties: | Size: 60.5k - 74.2k - Firmware: 6.54 - 8.00 | ||||||
| Function: | Broadcom Ethernet Switch Configuration Utility. | ||||||
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Details
ethswctl is the Broadcom Ethernet Switch Configuration Utility.
It is a commandline frontend to libethswctl.so and is not used by the system. Binaries use libethswctl.so instead.
7581 fw 7.17:
root@fritz:/var/mod/root# ethswctl
more than 1 or no exclusive option is entered
Usage:
ethswctl {-c|--command} hw-switching {-o|--operation} <enable|disable>
ethswctl {-c|--command} mibdump [-n <unit>] {-p|--port} <port> [-q <queue>] {-a|--all}
-q <queue> is meaningful for chip only mornitoring single queue each time
The queue packet counter will be reset when mornitored queue changes
ethswctl {-c|--command} pagedump {-P|--Page} <page>
ethswctl {-c|--command} iudma [-n <channel>] [-r] [-w] [-d <count>] [-b <byte>] [-e <0|1>]
Display/Control Robo Switch DMA channel
When -n is omit, all channels will be displayed, -n 100 means GMAC DMA channel
-d <count> Display <count> number of descriptor entries started from current pointer backward,
<count>=-1 means all descriptor entries
-r Display DMA Rx channels only
-w Display DMA Tx Ouput channels only
-b <bytes> Display buffer content <bytes> length, <bytes>=-1 means full pakcet dump
-e <1|0> Enable(1)/Disable(0) a DMA channel, -n <channel> needes for this operation
ethswctl {-c|--command} iudmasplit -p <port> {-q <iudma>}
ethswctl {-c|--command} swctrl {-t|--type} <type> [{-v|--value} <val>]
type = 0-BUFF_CTRL; val = 1-TXQ_PAUSE_EN, 2-TXQ_DROP_EN, 4-TOT_PAUSE_EN, 8-TOT_DROP_EN
1-8021Q_CTRL; val = 0-DISABLE, 0x1-ENABLE, Shared VLAN learning, 0x2-ENABLE, Individual VLAN learning
ethswctl {-c|--command} swprioctrl [-m mode] [{-q|--priority} <prio>] [-l <maxStreams>]
[{-t|--type} <type>] [{-v|--value} <val>] [-n <unit>] [-p <port>]
Queue Threshold Configuration Command
mode = 0-Dynamic Mode: Queue Thresholds are configured by Ethernet driver
based on WAN queue map and link up port number dynamically.
see ethswctl -c quemap for reference
1-Static Mode: Queue thresholds are configured by Ethernet driver
based on WAN queue map and total port number.
No reconfiguration based on port link up and down.
2-Manual Mode: Queue thresholds are configured manually
type = 0-TXQ_RESERVE, 1-TXQ_HI_HYS), 2-TXQ_HI_PAUSE
3-TXQ_HI_DROP, 4-TOT_HYST, 5-TOT_PAUSE, 6-TOT_DROP
maxStreams: Max stream number with best system balanced results under
Dynamic or Static mode, -1 to set it back to default value
ethswctl {-c|--command} swflowctrl [-n <unit>] -p <port> {-t|--type} <type> [{-v|--value} <val>]
type = 0-FC_MODE val=(0-Global, 1-per port)
1-TX_BASED_FC, 2-TXQ_PAUSE_EN, 3-TXQ_DROP_EN, 4-TOT_PAUSE_EN
5-TOT_DROP_EN, 6-QBASED_PAUSE, val=1-ENABLE, 0-DISABLE
ethswctl {-c|--command} quemap [-v <WAN Queue Bit Map>] [-q <Ethernet Driver Queue Remapping Map>]
Get or Set port WAN Queue Bit Map and WAN Queue Mapping Bit Map
<WAN Queue Bit Map>: Each bit of total 8 bits, represents the queue
configured for WAN traffic with more buffer allocated than
the rest queues configured for LAN traffic
<Ethernet Driver Queue Remapping Bit Map>: Each 4 bits represents the queue number
to be mapped to. The 4 bit position represent the queue
number to be mapped from. Ex. -q 0x76543255 means queu 0 and 1
will be both remapped queue 5 by Ethernet driver.
Note: The two parameters above need to match each other or configuration will
be rejected. Ex. -q 2 -v 0x11111111 will be accepted, but
-q 2 -v 0x11110000 will be rejected. since queu 0 is not WAN queue.
ethswctl {-c|--command} quemon [-n <unit>] -p <port> [{-q|-queue} <queue#>]
[{-t|--type} <type>], [{-v|--value} <val>]
type = 0-QueCurCount, 1-QuePeakCount, 2-SysTotalPeakCount, 3-SysTotalCurCount
4-PortPeakRxBuffer, 5-QueFinalCongestedStatus, 6-PortPauseHistory,
7-PortQuantumPauseHistory, 8-PortRxBasedPauseHistory,
9-PortRxBufferErrorHitory, 10-QueCongestedStatus, 11-QueTotalCongestedStatus
* Non parameter means all values applied(ex. (no -q)=(all eight queues)).
* All counters are in 256byte page unit.
* The Peak and History value are read-cleared, thus display values from last command.
ethswctl {-c|--command} acb_cfg {-t|--type} <type> [ -q queue] [{-v|--value} <val>]
type = 0-read all; 1-acb_en; 2-eop_delay; 3-que_flush; 4-algorithm;
5-total_xon_hyst 256B init; 6-queue_xon_hyst 256B unit; 7-pessimistic_mode;
8-total_xon_en; 9-xon_en; 10-total_xoff_en; 11-pkt_len, 1..36;
12-total_xoff_thresh 256B unit; 13-xoff_thresh 256Bytes unit; 14-pkts_in_flight
Setting 4-Algorithm will set multiple fields to default values for that algorithm.
ethswctl {-c|--command} cfp <Operations> [<Position>] <Matching Conditions> <Actions>
----------------------- <Operations> ---------------------------------------------------------
--read : Read cfp rules.
--add : Add a rule to the top of rules.
--append : Append a rule to the end of rules.
--insert : Insert a rule in front of a specified rule.
--priority and --index are mandatory for this operation.
--delete : Delete a single CFP rule. --priority and --index are mandatory.
--delete_all : Delete multiple CFP rules.
: If --index omitted, all rules of the priority will be deleted.
: If --priority omitted, rules of all priorities will be deleted.
: If both --priority and --index omitted, all rules will be deleted.
----------------------- <Positions> -------------------------------------------------------------
--priority <0-2> : Priority Group 0-2; 2 is the highest; 0 is the lowest priority.
Priority group has higher priority than rule index (0-255) inside
a priority group. If this option is omitted, for --read operation,
all priority groups will be displayed; for non --read operation,
priority 0 will be used.
--index <0-255> : The priority index inside a priority group, index 0 has the highest
priority. The operation Insert needs to use this option to specify
insertion index. If omitted for Read op, all entries inside the
group will be displayed.
------------------------ <Matching Conditions> ---------------------------------------------------
* Each condition is followed by a optional mask, if mask is omitted, all bits will be valid
--spmap <sourcePortMap> : Frame receiving source port map, if omitted, all ports valid
--da <hex 6 bytes>,[<mask>] : Destination MAC address in hex format.
--sa <hex 6 bytes>,[<mask>] : Source MAC address in hex format.
--svlan_tag <0-0xffff>,[<mask>] : SVLAN(TPID=0x9100) 2 bytes Service Privider VLAN Tag
--cvlan_tag <0-0xffff>,[<mask>] : CVLAN(TPID=0x8100) 2 bytes Customer VLAN Tag
--l2 <L2_Framing> : 0-EthernetII; 1-SNAP Public; 2-LLC; 3-SNAP Private
--pppoe <1|0> : PPPoE session or not
--etype_sap <0-0xffff>,[<mask>] : Ethernet Type when L2=EthernetII or SNAP_Public,
or {DSAP,SSAP} when L2=LLC or SNAP_Private.
--l3 <L3_Framing> : 0-IPv4, 1-IPv6, 2-Non IP, when omitted, IPv4 will be used
--dscp <0-0x3f>,[<mask>] : IP DSCP field
--ip_protocol <0-255>,[<mask>] : IP Protocol Number or IPv6 Next Hearder Protocol Number
--ipsa <IPv4 address>,[<mask>] : Source IP address.
--ipda <IPv4 address>,[<mask>] : Destination IP address.
--tcp_udp_sport <2 byte value>,[<mask>] : TCP/UDP source port.
--tcp_udp_dport <2 bype value>,[<mask>] : TCP/UDP destination port.
----------------------- <Actions> ---------------------------------------------------------------
--new_dscp_ib <0-0x3f> : New change in-band traffic's DSCP to a new value
--chng_fpmap_ib <1-3> : Change in-band traffic Forwarding Port Map
: 1-Remove DST_MAP from ARL result; 2-Replace ARL result with DST_MAP
3-Add DST_MAP to ARL result
If omitted and --dst_fpmap_ib set, replacement will be performed
--fpmap_ib <0-0x1ff> : New in-band Forwarding Port Map used by --chng_fwd_map_ib
----------------------- <Examples> --------------------------------------------------------------
ethswctl -c cfp --add --da 102233445566 --chng_fpmap_ib 2 --fpmap_ib 0
# Discard matched DA packets.
ethswctl -c cfp --add --ipda 192.168.0.0,255.255.0.0 --chng_fpmap_ib 2 --fpmap_ib 0x108
# force packet with destination IP address 192.168.0.0:255.255.0.0 to port 8 and 3.
ethswctl {-c|--command} rxscheduling {-v|--value} [val]
val = 0-SP, 1-WRR
ethswctl {-c|--command} wrrparams {-t|--type} <type> {-v|--value} [val]
type = 0-interval_in_pkts, 1-weight1, 2-weight2, 3-weight3, 4-weight4
val = interval_in_pkts:<1-1280>; weight:<1-16>
ethswctl {-c|--command} vlan {-v|--value} vlan_id {-f|--fwdmap}
fwd_map {-u|-untagmap} untag_map
ethswctl {-c|--command} pbvlanmap [-n <unit>] {-p|--port} <port> [{-v|--value} <val>]
val = port_map; Bit8: MIPS, Bit7: GPON; Bit5: MoCA: Bits3-0: UNI
ethswctl {-c|--command} getstat [-n <unit>] -p <port> -t <type>
ethswctl {-c|--command} getstat32 [-n <unit>] -p <port> -t <type>
ethswctl {-c|--command} pause [-n <unit>] -p <port> -v val
val = 0-None, 1-Auto, 2-Both, 3-Tx only, 4-Rx only
ethswctl {-c|--command} cosq [-v <val>] # Get/Set Number of TxQ
ethswctl {-c|--command} cosq [-n <unit>] -p <port> -q <priority> -v <txq>
Set Packet reveived at <port> with CoS <priority> to TxQueue number <txq>
ethswctl {-c|--command} cosq -q <priority> -v <dmaChannel>
Set IMP port Tx Queue of <priority> to DMA Channel of <dmaChannel>
ethswctl {-c|--command} costxq [-v <channel> -q <queue>] [-t <method>]
method = 0-USE_BD_PRIO, 1-USE_TX_IUDMA
ethswctl {-c|--command} byteratecfg -v <channel> -x {0-disable, 1-enable}
ethswctl {-c|--command} byterate -v <channel> -x <rate>
ethswctl {-c|--command} pktratecfg -v <channel> -x {0-disable, 1-enable}
ethswctl {-c|--command} pktrate -v <channel> -x <rate>
ethswctl {-c|--command} deftxq -i <if_name> -v <val>
ethswctl {-c|--command} deftxqen -i <if_name> -o <enable|disable>
ethswctl {-c|--command} getrxcntrs
ethswctl {-c|--command} resetrxcntrs
ethswctl {-c|--command} arl -m mac [-v <vid>] [-x <data>] [-n <unit>] [-r]
data: 15:Valid, 14:Static, 13:Age, 12-10:Priority,
8-0:Port ID for Unicast or Port Bit Map for Multicast
<-x 0> <-v vid> will remove the ARL entry in a specific VLAN
<-x 0> <-v -1> will remove ARL entries in all VLANs
ethswctl {-c|--command} arldump
ethswctl {-c|--command} arlflush
ethswctl -c untaggedprio [-n <unit>] -p <port> [-v <val>]
Set/Get packet default untagged priority in Rx Port <port> with value <val>
ethswctl -c cosqpriomethod [-n <unit>] [-p port] [-t <pkt_type_mask>] [-v <val>] [-b]
pkt_type_mask = 0x4-Static DA MAC, 0x4-Priority Tagged, 0x1-ipv4/6
mandatory for 63138
val = 0-PORT_QOS, 1-MAC_QOS, 2-8021P_QOS, 3-DIFFSERV_QOS
-b: Disable specifc QoS of a port(For 8021P_QOS and DIFFSERV_QOS)
ethswctl -c cosqsched [-n <unit>] -p <port> [-v val] [-t <sp_queues>] [ -T <deficit_rr>]
[ [-o <which_queues>] -x <weight1> -y <weight2> -z <weight3> -w <weight4> ]
val = 0-SP, 1-WRR
sp_queues: number of SP queues between 1 and 4; Default All queues
deficit_rr = 0-Default Weighted round robin, 1-Deficit Round Robin
which_queues = 'lower', weights for queue 0..3
'upper', weights for queue 4..7
Default 'lower'
ethswctl {-c|--command} portctrl [-n <unit>] {-p|--port} <port> [-v <val>]
val bit-0: 1-Rx Disable, 0-Rx Enable
val bit-1: 1-Tx Disable, 0-Tx Enable
ethswctl {-c|--command} portloopback [-n <unit>] {-p|--port} <port> [-v <val>]
val: 1-Enable, 0-Disable
ethswctl {-c|--command} phymode [-n <unit>] {-p|--port} <port> [-y <speed>] [-z <duplex>]
speed = 0-auto, 10000, 5000, 2500, 1000, 100, 10
duplex: 0-halfduplex, 1-fullduplex
ethswctl {-c|--command} test -t <type> [-x <param>] [-v <val>] [-s]
type = 0-ISR config, param=channel; val=1|0
type = 1-Enable Rx Dump, val=1|0
type = 2-Reset MIB
type = 3-Reset Switch; -s for SPI interface
ethswctl {-c|--command} jumbo [-n <unit>] {-p|--port} <port>
[{-v|--value} <0(disable)|1(enable)>]
port = 9-ALL, 8-MIPS, 7-GPON, 6-USB, 5-MOCA,
4-GPON_SERDES, 3-GMII_2, 2-GMII_1, 1-GPHY_1, 0-GPHY_0
ethswctl -c pid2prio [-n <unit>] -p <port> [-q <prio>]
Port id based priority (TC)
prio is TC value for the port
ethswctl {-c|--command} pcp2prio -v <pcpVal> [-n <unit>] -p <port> [-q <prio>]
<unit> is switch number, Default 0
<port>is switch port
<pcpVal> is the 802.1p priority value
<prio> is the switch priority
ethswctl -c dscp2prio -v <dscpVal> [-q <prio>] >
<dscpVal> is the DSCP value
<prio> is the switch priority
ethswctl {-c|--command} regaccess -v offset -l len [-d <data>] [-n <unit>]
ethswctl {-c|--command} spiaccess -x addr -l len [-d <data>]
ethswctl {-c|--command} pmdioaccess -x addr -l len [-d <data>]
ethswctl {-c|--command} switchinfo -v switch_number
ethswctl {-c|--command} setlinkstatus [-n <unit>] -p port -x linkstatus -y speed -z duplex
speed = 10-10Mbps, 100-100Mbps, 1000-1000Mbps
ethswctl {-c|--command} rxratectrl [-n <unit>] -p port [-x limit-kbps -y burst-kbits]
if -y 0, the Rx rate control will be disabled, thus no rate limitation
ethswctl {-c|--command} txratectrl [-n <unit>] -p port [ -q <queue> -T <pkt or byte>] [-x <limit> -y <burst>]
specify -q if configuring per q
specify -T 1 if packet mode shaper, or it is Byte mode
limit: kbps units in Byte mode, pps in Packet mode
burst: kbits units in Byte mode, 1 pkt in Packet mode
ethswctl {-c|--command} txratecfg [-n <unit>] -p port [ -q <queue> ] -t <shaper_mode_mask> -v <val>
shaper_mode_mask = 1-Enable Shaper, 2-packet mode else byte mode
4-Shaper Blocked, 8-Include IFG
val = 1-enable, 0-disable
ethswctl {-c|--command} dosctrl -v <value>
<value> = 1-IP_LAN, 2-TCP_BLAT, 3-UDP_BLAT, 4-TCP_NULL
5-TCP_XMAS, 6-TCP_SYNFIN, 7-TCP_SYNERR, 8-TCP_SHORTHDR
9-TCP_FRAGERR, 10-ICMPv4_FRAG, 11-ICMPv6_FRAG, 12-ICMPv4_LONGPING
13-ICMPv6_LONGPING, 14-DOS_LRN
ethswctl {-c|--command} softswitch [-i] <if_name> [-o] <enable|disable>
ethswctl {-c|--command} hwstp [-i] <if_name> [-o] <enable|disable>
ethswctl {-c|--command} wan [ -i if_name -o <enable|disable> ]
ethswctl {-c|--command} mirror -o <enable|disable> [-n <unit>] [-p <mirror_port> -x <ingress_mirror_port_map>
-y <egress_mirror_port_map> [-z <block_no_mirror_pkts 0|1>]
[-v <TX packet mirror port map>] [-w <RX packet mirror port map>
Note: -v and -w are applicable if not supplied all traffic is mirrored
to <mirror_port> in Runner platform
ethswctl {-c|--command} trunk [ -o <sada|da|sa> ]
ethswctl {-c|--command} stormctrl [-n <unit>] -p port [-t pkt_type_mask -x rate -y bucket_size]
pkt_type_mask = 0x1(unicast lookup hit), 0x2(multicast lookup hit), 0x4(reserved mac addr 01-80-c2-00-00- 00~2f)
0x8(broadcast), 0x10(multicast lookup fail), 0x20(unicast lookup fail)
rate = 1~28 (Bit rate = rate*8*1024/125, that is 64Kb~1.792Mb with resolution 64Kb)
29~127 (Bit rate = (rate-27)1024, that is 2Mb~100Mb with resolution 1Mb)
128~240 (Bit rate = (rate-115)*8*1024, that is 104Mb~1000Mb with resolution 8Mb)
bucket_size = 0(4K), 1(8K), 2(16K), 3(32K), 4(64K), others(488K) bytes
ethswctl {-c|--command} oamindex -v <oam index> -t <0=unit/port; 1=rdpa_if>]
Usage: ethswctl <command> [arguments...]
getifname : Get the interface name for the given port
ethswctl getifname <unit [0...1]> <port [0...7]>
NOTE : if only one argument; unit is assumed 0
debug : Get/Set Debug level
ethswctl debug <level>
Examples
7581 fw 7.17:
root@fritz:/var/mod/root# ethswctl getifname 0 0 The interface name for unit 0 port 0 is eth0 root@fritz:/var/mod/root# ethswctl getifname 1 0 The interface name for unit 1 port 0 is eth1 root@fritz:/var/mod/root# ethswctl getifname 1 1 The interface name for unit 1 port 1 is eth2 root@fritz:/var/mod/root# ethswctl getifname 1 2 The interface name for unit 1 port 2 is eth3 root@fritz:/var/mod/root# ethswctl getifname 1 3 The interface name for unit 1 port 3 is eth4 root@fritz:/var/mod/root# ethswctl -c switchinfo -v 0 Port Map = 0x3; Phy Port Map = 0x0 No switch connected Success. root@fritz:/var/mod/root# ethswctl -c switchinfo -v 1 Port Map = 0xf; Phy Port Map = 0xf switch connected through MMAP VendorID = 0x600d, Dev ID = 0x85c0, Rev ID = 0x0, Success.
Dependencies
Daily updated index of all dependencies of this command. Last update: 2024-11-14 07:42 GMT.
A * in the Mod column marks info from Supportdata-Probes, which will always stay incomplete.
| Relation | Typ | Object | Mod | Firmware | Info | Origin |
|---|---|---|---|---|---|---|
| Depends on | lib | ld.so | 1 | 7.20 - 8.00 | Dynamic linker / loader | Linux |
| Depends on | lib | libbcm_crc.so | 2 | 6.54 - 6.85 | Broadcom CRC32 calculation. | Broadcom |
| Depends on | lib | libbcm_flashutil.so | 2 | 6.54 - 6.85 | Broadcom flash updater utility | Broadcom |
| Depends on | lib | libc.so | 3 | 6.54 - 8.00 | Standard C library | Linux |
| Depends on | lib | libcms_boardctl.so | 2 | 6.54 - 6.85 | Broadcom CMS board control functions | Broadcom |
| Depends on | lib | libcms_msg.so | 2 | 6.54 - 6.85 | Broadcom CMS messaging API | Broadcom |
| Depends on | lib | libcms_util.so | 2 | 6.54 - 6.85 | Broadcom CMS utility functions | Broadcom |
| Depends on | lib | libcrypt.so | 2 | 6.54 - 6.85 | Encoding and decoding handling routines. | Linux |
| Depends on | lib | libethswctl.so | 3 | 6.54 - 8.00 | Broadcom Ethernet Switch Configuration API | Broadcom |
| 9 dependencies for this command | ||||||
Model-Matrix
Daily updated index of the presence, path and size of this command for each model. Last update: 2024-11-14 05:50 GMT.
Showing all models using this command. Click any column header (click-wait-click) to sort the list by the respective data.
The (main/scrpn/boot/arm/prx/atom/rtl) label in the Model column shows which CPU is meant for Multi-Linux models.
Note that this list is merged from Firmware-Probes of all known AVM firmware for a model, including Recovery.exe and Labor-Files.
| Model | Firmware | Path | Size |
|---|---|---|---|
| FRITZ!Box 7530 AX | 7.20 - 8.00 | /bin | 62.3k - 74.2k |
| FRITZ!Box 7581 | 6.54 - 7.18 | /bin | 60.5k - 72.0k |
| FRITZ!Box 7582 | 6.83 - 7.18 | /bin | 60.5k - 72.0k |
| 3 models use this command | |||
Symbols
Daily updated index of all symbols of this command. Last update: 2024-11-14 07:42 GMT.
| Firmware | Symbol |
|---|---|
| 7.20 - 7.31 | main |
| 1 symbol for this command | |
