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Chapter 5
Advanced Configuration
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Out of Profile DSCP
Advanced Mode > Out of Profile DSCP
DSCP In
Displays the DSCP In value.
DSCP Out
Displays the current DSCP out value. A new
value can be selected from the pull-down menu.
The
Policy Settings
button opens the
Policy Name
screen.
Policy Name
Advanced Mode > Policy Name
Policy Name
Defines a new Policy name.
Add to List
The Add to List button will add the policy to
the Policy Name table.
Select Policy
Selects an existing Policy by name. The
Policy can be comprised of:
Class Map
Action
Policer
New Policy Name
Defines a new Policy name.
Class Map
Selects an existing Class Map by name.
New Class Map
The
New Class Map
button opens the
New Class Map
screen.
New Class Map
Advanced Mode > New Class Map
Class Map Name
Defines a new Class Map name
Preferred ACL
Indicates if packets are first matched to
an IP based ACL or a MAC based ACL. The possible field
values are:
IP Based ACLs
Matches packets to IP based ACLs first,
then matches packets to MAC based ACLs.
MAC Based ACLs
Matches packets to MAC based
ACLs first, then matches packets to IP based ACLs.
IP ACL
Matches packets to IP based ACLs first, then
matches packets to MAC based ACLs.
Match
Criteria used to match IP addresses and /or MAC
addresses with an ACL’s address.The possible field values
are:
And
Both the MAC-based and the IP-based ACL must
match a packet.
Or
Either the MAC-based or the IP-based ACL must
match a packet.
MAC ACL
Matches packets to MAC based ACLs first, then
matches packets to IP based ACLs.
Police
Enables Policer functionality.
Type
Policer type for the class. Possible values are:
Aggregate
Policer
Configures
the
class
to
use
a
configured aggregate policer selected from the drop-
down menu. An aggregate policer is defined if the
policer is shared with multiple classes. Traffic from two
different ports can be configured for policing purposes.
An aggregate policer can be applied to multiple classes in
the same policy map, but cannot be used across different
policy maps.
Single
Configures the class to use manually configured
information rates and exceed actions.
Aggregate Policer
User-defined aggregate policers.
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Aggregate
Policer
Settings
The
Aggregate
Policer
button opens the New Aggregate Policer screen.
New Aggregate Policer
Advanced Mode > New Aggregate Policer
Aggregate Policer Name
Enter a name in this field.
Ingress Committed Information Rate (CIR)
Defines the
CIR in bits per second. This field is only relevant when the
Police value is Single.
Ingress Committed Burst Size (CBS)
Defines the CBS
in bytes per second. This field is only relevant when the
Police value is Single.
Exceed Action
Action assigned to incoming packets
exceeding the CIR. This field is only relevant when the
Police value is Single. Possible values are:
Drop
Drops packets exceeding the defined CIR value.
Remark
DSCP
Remarks
packet’s
DSCP
values
exceeding the defined CIR value.
None
Forwards packets exceeding the defined CIR
value.
Spanning Tree
Spanning Tree Protocol (STP) provides tree topography for
any arrangement of bridges. STP also provides one path
between end stations on a network, eliminating loops.
Loops occur when alternate routes exist between hosts.
Loops in an extended network can cause bridges to
forward traffic indefinitely, resulting in increased traffic
and reducing network efficiency.
The
device
supports
the
following
Spanning
Tree
versions:
Classic STP
Provides a single path between end
stations, avoiding and eliminating loops.
Rapid STP
Detects and uses network topologies
that provide faster convergence of the spanning tree,
without creating forwarding loops.
Multiple STP
Provides full connectivity for packets
allocated to any VLAN. Multiple STP is based on the
RSTP. In addition, Multiple STP transmits packets
assigned to different VLANs through different MST
regions. MST regions act as a single bridge.
Spanning Tree > STP Status
Spanning Tree > STP Status
The
STP Status
screen describes the STP status on the
device.
Spanning Tree State
Indicates if STP is enabled on the
device.
Spanning Tree Mode
Indicates the STP mode by which
STP is enabled on the device.
Bridge
ID
Identifies
the
Bridge
priority
and
MAC
address.
Designated Root
Indicates the ID of the bridge with the
lowest path cost to the instance ID.
Root Port
Indicates the port number that offers the
lowest cost path from this bridge to the Root Bridge. It is
significant when the Bridge is not the Root. The default is
zero
.
Root Path Cost
The cost of the path from this bridge to
the root.
Root
Maximum
Age
(sec)
Indicates
the
device
Maximum Age Time. The Maximum Age Time indicates
the amount of time in seconds a bridge waits before
sending configuration messages. The default max age is
20
seconds. The range is 6 to 40 seconds.
Root Hello Time (sec)
Indicates the device Hello Time.
The Hello Time indicates the amount of time in seconds
a root bridge waits between configuration messages. The
default is
2
seconds. The range is 1 to 10 seconds.
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Root Forward delay (sec)
Indicates the device forward
delay time. The Forward Delay Time indicates the amount
of time in seconds a bridge remains in a listening and
learning state before forwarding packets. The default is
15
seconds. The range is 4 to 30 seconds.
Topology Changes Counts
Indicates the total amount of
STP state changes that have occurred.
Last Topology Change
Indicates the amount of time
that has elapsed since the bridge was initialized or reset,
and the last topographic change occurred. The time
is displayed in a day hour minute second format, for
example, 2 days 5 hours 10 minutes and 4 seconds.
Spanning Tree > Global STP
Spanning Tree > Global STP
The
Global STP
screen contains parameters for enabling
STP on the device.
Global Setting
Spanning Tree State
Indicates if STP is enabled on the
device.
STP Operation Mode
Indicates the STP mode by which
STP is enabled on the device. The possible field values
are:
Classic STP
Enables Classic STP on the device. This is
the default value.
Rapid STP
Enables Rapid STP on the device.
Multiple STP
Enables Multiple STP on the device.
BPDU
Handling
Determines
how
BPDU
packets
are managed when STP is disabled on the port/
device.
BPDUs
are
used
to
transmit
spanning
tree
information.
The
possible
field
values
are:
Filtering
Filters BPDU packets when spanning tree is
disabled on an interface. This is the default value.
Flooding
Floods BPDU packets when spanning tree is
disabled on an interface.
Path Cost Default Values
Specifies the method used to
assign default path costs to STP ports. The possible field
values are:
Short
Specifies 1 through 65,535 range for port path
costs. This is the default value.
Long
Specifies 1 through 200,000,000 range for
port path costs.The default path costs assigned to an
interface varies according to the selected method.
NOTE:
Lower numeric values indicate higher
priority.
Bridge Settings
Priority
Specifies the bridge priority value. When switches
or bridges are running STP, each is assigned a priority.
After exchanging BPDUs, the device with the lowest
priority value becomes the Root Bridge. The default value
is 32768. The port priority value is provided in increments
of 4096. For example, 4096, 8192, 12288, etc. The range is
0 to 65535.
Hello Time
Specifies the device Hello Time. The Hello
Time indicates the amount of time in seconds a root bridge
waits between configuration messages. The default is
2
seconds. The range is 1 to 10 seconds.
Max Age
Specifies the device Maximum Age Time.
The Maximum Age Time indicates the amount of time
in seconds a bridge waits before sending configuration
messages. The default max age is
20
seconds. The range
is 6 to 40 seconds.
Forward Delay
Specifies the device forward delay time.
The Forward Delay Time indicates the amount of time in
seconds a bridge remains in a listening and learning state
before forwarding packets. The default is
15
seconds. The
range is 4 to 30 seconds.
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Spanning Tree > STP Port Settings
Spanning Tree > STP Port Settings
Network administrators can assign STP settings to specific
interfaces using the
STP Interface Settings
screen.
The
STP Interface Settings
screen contains the following
fields:
Interface
Indicates the port or LAG on which STP is
enabled.
STP
Indicates if STP is enabled on the port.
Port Fast
Indicates if Fast Link is enabled on the port.
If Fast Link mode is enabled for a port, the Port State
is automatically placed in the Forwarding state when
the port link is up. Fast Link optimizes the STP protocol
convergence. STP convergence can take 30-60 seconds in
large networks.
Port State
Displays the current STP state of a port. If
enabled, the port state determines what forwarding
action is taken on traffic. Possible port states are:
Disabled
Indicates that STP is currently disabled on
the port. The port forwards traffic while learning MAC
addresses.
Blocking
Indicates that the port is currently blocked
and cannot forward traffic or learn MAC addresses.
Blocking is displayed when Classic STP is enabled.
Listening
Indicates that the port is in Listening mode.
The port cannot forward traffic nor can it learn MAC
addresses.
Learning
Indicates that the port is in Learning
mode.
The
port
cannot
forward
traffic,
however
it
can
learn
new
MAC
addresses.
Forwarding
Indicates that the port is in Forwarding
mode. The port can forward traffic and learn new MAC
addresses.
Speed
Indicates
the
speed
at
which
the
port
is
operating.
Path Cost
Indicates the port contribution to the root
path cost. The path cost is adjusted to a higher or lower
value, and is used to forward traffic when a path being
rerouted.
Default Path Cost
When selected the default path cost
is implemented.
Priority
Priority value of the port. The priority value
influences the port choice when a bridge has two ports
connected in a loop. The priority value is between 0 -240.
The priority value is provided in increments of 16.
Designated Bridge ID
Indicates the bridge priority and
the MAC Address of the designated bridge.
Designated Port ID
Indicates the selected port’s priority
and interface.
Designated
Cost
Indicates
the
cost
of
the
port
participating in the STP topology. Ports with a lower cost
are less likely to be blocked if STP detects loops.
Forward Transitions
Indicates the number of times the
port has changed from the Blocking state to Forwarding
state.
Spanning Tree > RSTP Port Settings
Spanning Tree > RSTP Port Settings
While the classic spanning tree prevents Layer 2 forwarding
loops in a general network topology, convergence can take
between 30-60 seconds. This time may delay detecting
possible loops, and propagating status topology changes.
Rapid Spanning Tree Protocol (RSTP) detects and uses
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network topologies that allow a faster STP convergence
without creating forwarding loops.
Interface
Displays the port or LAG on which Rapid STP
is enabled.
Role
Indicates the port role assigned by the STP algorithm
in order to provide to STP paths. The possible field values
are:
Root
Provides the lowest cost path to forward packets
to root switch.
Designated
Indicates that the port or LAG via which
the designated switch is attached to the LAN.
Alternate
Provides an alternate path to the root
switch from the root interface.
Backup
Provides a backup path to the designated
port path toward the Spanning Tree leaves. Backup
ports occur only when two ports are connected in a
loop by a point-to-point link. Backup ports also occur
when a LAN has two or more connections connected
to a shared segment.
Disabled
Indicates the port is not participating in the
Spanning Tree.
Mode
Indicates the current Spanning Tree mode. The
Spanning Tree mode is selected in the Global STP screen.
The possible field values are:
Classic STP
Indicates that Classic STP is enabled on
the device.
Rapid STP
Indicates that Rapid STP is enabled on the
device.
Multiple STP
Indicates that Multiple STP is enabled
on the device.
Fast Link
Indicates if Fast Link is enabled or disabled for
the port or LAG. If Fast Link is enabled for a port, the port
is automatically placed in the forwarding state.
Port State
Indicates if RSTP is enabled on the interface.
Point-to-Point Admin Status
Indicates if a point-to-point
links are established, or permits the device to establish a
point-to-point link. The possible field values are:
Auto
Point-to-point
links
are
automatically
established by the device.
Enabled
Enables the device to establish a point-to-
point link. To establish communications over a point-
to-point link, the originating PPP first sends Link
Control Protocol (LCP) packets to configure and test
the data link. After a link is established and optional
facilities are negotiated as needed by the LCP, the
originating PPP sends Network Control Protocols (NCP)
packets to select and configure one or more network
layer protocols. When each of the chosen network
layer protocols has been configured, packets from
each network layer protocol can be sent over the link.
The link remains configured for communications until
explicit LCP or NCP packets close the link, or until some
external event occurs. This is the actual switch port link
type. It may differ from the administrative state.
Disabled
Disables point-to-point link.
Point-to-Point Oper Status
Indicates the Point-to-Point
operating state.
To run a migration test, press
Activate
next to the
Activate
Protocol Migration Test
field. The test sends Link Control
Protocol (LCP) packets to test if a data link is enabled.
Spanning Tree > MSTP Properties
Spanning Tree > MSTP Properties
MSTP provides differing load balancing scenarios. For
example, while port A is blocked in one STP instance, the
same port is placed in the Forwarding State in another STP
instance. The MSTP Properties screen contains information
for defining global MSTP settings, including region names,
MSTP revisions, and maximum hops.
The
MSTP Properties
screen contains the following fields:
Region Name
Provides a user-defined STP region name.
Revision
Defines unsigned 16-bit number that identifies
the revision of the current MST configuration. The revision
number is required as part of the MST configuration. The
possible field range 0-65535.
Max Hops
Indicates the total number of hops that occur
in a specific region before the BPDU is discarded. Once the
BPDU is discarded, the port information is aged out. The
possible field range is 1-40. The field default is
20
hops.
IST Master
Identifies the Spanning Tree Master instance.
The IST Master is the specified instance root.

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