In order to perform a unified ISSU, your router must be running
a JUNOS Software release that supports unified ISSU for the specific
platform. See Unified ISSU Platform Support. You can use unified ISSU to upgrade from an ISSU-capable software
release to a newer software release. To downgrade from an ISSU-capable
release to a previous software release (ISSU-capable or not), use
the request system add command. See the JUNOS Software Installation and Upgrade
Guide for details.
Note:
Unified ISSU does not support extension application packages
developed using the Juniper Partner Solution Development Platform
(PSDP) SDK.
Unified ISSU Platform Support
Table 9 lists the platforms
on which a unified ISSU is supported.
Table 9: Unified ISSU Platform Support
Routing Platform
JUNOS Software Release
M120 router
9.2 or later
M320 router
9.0 or later
M10i router with Enhanced Compact Forwarding Engine Board (CFEB-E)
9.5 or later
MX Series Ethernet Services Router
Note:
Unified ISSU for MX Series routers does not support IEEE 802.1ag
OAM and IEEE 802.3ah protocols.
9.3 or later
T320 router
9.0 or later
T640 router
9.0 or later
T1600 router
9.1 or later
TX Matrix router
9.3 or later
Unified ISSU Protocol Support
Unified ISSU is dependent on nonstop active routing. Table 10 lists the protocols that are
supported during a unified ISSU.
Table 10: Unified ISSU Protocol Support
Protocol
JUNOS Software Release
BGP, except for BGP VPN services
9.0 or later
IS-IS
9.0 or later
LDP
9.0 or later
LDP-based virtual private LAN service (VPLS)
9.3 or later
Layer 2 circuits
9.2 or later
Layer 3 VPNs using LDP
9.2 or later
Link Aggregation Control Protocol (LACP) on MX Series routers
9.4 or later
OSPF/OSPFv3
9.0 or later
Protocol Independent Multicast (PIM)
9.3 or later
Unified ISSU Support for Layer 2 Control Protocol Process
Unified ISSU supports the Layer 2 Control Protocol process (l2cpd)
on MX Series Ethernet Services Routers. In a Layer 2 bridge environment,
spanning tree protocols share information about port roles, bridge
IDs, and root path costs between bridges using special data frames
called Bridge Protocol Data Units (BPDUs). The transmission of BPDUs
is controlled by the l2cpd process. Transmission of hello BPDUs is
important in maintaining adjacencies on the peer systems.
The transmission of periodic packets on behalf of the l2cpd
process is carried out by periodic packet management (PPM), which,
by default, is configured to run on the Packet Forwarding Engine.
The ppmd process on the Packet Forwarding Engine ensures that the
BPDUs are transmitted even when the l2cpd process control plane is
unavailable, and keeps the remote adjacencies alive during unified
ISSU. However, if you want the distributed PPM (ppmd) process to run
on the Routing Engine instead of the Packet Forwarding Engine, you
can disable the ppmd process on the Packet Forwarding Engine, by including
the no-delegate-processing statement at the [edit routing-options
ppm] hierarchy level.
Note:
The delegate-processing statement at the [edit
routing-options ppm] hierarchy level, which was used to enable
the ppmd process on the Packet Forwarding Engine in JUNOS Software
Release 9.3 and earlier, has been deprecated as the ppmd process is
enabled on the Packet Forwarding Engine by default in JUNOS Software
Release 9.4 and later.
Unified ISSU enhancements and nonstop active bridging support
for the l2cpd process ensure that the new master Routing Engine is
able to take control during unified ISSU without any disruptions in
the control plane and minimize the disruptions in the Layer 2 data
plane during unified ISSU.
Unified ISSU Feature Support
Unified ISSU supports most JUNOS Software features in JUNOS
Release 9.0. However, the following constraints apply:
Link Aggregation Control Protocol (LACP)—Link changes
are not processed until after the unified ISSU is complete.
Automatic Protection Switching (APS)—Network changes
are not processed until after the unified ISSU is complete.
Ethernet Operation, Administration, and Management (OAM)
as defined by IEEE 802.3ah and by IEEE 802.1ag—When a Routing
Engine switchover occurs, the OAM hello times out, triggering protocol
convergence.
Ethernet circuit cross-connect (CCC) encapsulation—Circuit
changes are not processed until after the unified ISSU is complete.
Logical Systems—On routers that have logical systems
configured on them, only the master logical system supports unified
ISSU.
Unified ISSU PIC Support
The following sections list the Physical Interface Cards (PICs)
that are supported during a unified ISSU.
Note:
For information about FPC types, FPC/PIC compatibility, and
the initial JUNOS Software release in which an FPC supported a particular
PIC, see the PIC guide for your router platform.
PIC Considerations
Take the following PIC restrictions into consideration before
performing a unified ISSU:
Unsupported PICs—If a PIC is not supported by unified
ISSU, at the beginning of the upgrade the software issues a warning
that the PIC will be brought offline. After the PIC is brought offline
and the ISSU is complete, the PIC is brought back online with the
new firmware.
PIC combinations—For some PICs, newer JUNOS services
can require significant Internet Processor ASIC memory, and some configuration
rules might limit certain combinations of PICs on particular platforms.
With a unified ISSU:
If a PIC combination is not supported by the software
version that the router is being upgraded from, the upgrade will be
aborted.
If a PIC combination is not supported by the software
version to which the router is being upgraded, the in-service software
upgrade will abort, even if the PIC combination is supported by the
software version from which the router is being upgraded.
Interface statistics—Interface statistics might
be incorrect because:
During bootup of the new microkernel on the Packet Forwarding
Engine (PFE), host-bound traffic is not handled and might be dropped,
causing packet loss.
During the hardware update of the Packet Forwarding Engine
and its interfaces, traffic is halted and discarded. (The duration
of the hardware update depends on the number and type of interfaces
and on the router configuration.)
During a unified ISSU, periodic statistics collection
is halted. If hardware counters saturate or wrap around, the software
does not display accurate interface statistics.
CIR oversubscription—If oversubscription of committed
rate information (CIR) is configured on logical interfaces:
And the sum of the CIR exceeds the physical interface's
bandwidth, after a unified in-service software upgrade is performed,
each logical interface might not be given its original CIR.
And the sum of the delay buffer rate configured on logical
interfaces exceeds the physical interface's bandwidth, after a unified
in-service software upgrade is performed, each logical interface might
not receive its original delay-buffer-rate calculation.
SONET/SDH PICs
Table 11 lists the SONET/SDH
PICs that are supported during a unified ISSU.
Table 11: Unified ISSU PIC Support: SONET/SDH
PIC Type
Number of Ports
Model Number
Router
OC3c/STM1
4-port
PB-4OC3-SON-MM — (EOL)
PB-4OC3-SON-SMIR — (EOL)
M120 M320, T320, T640, T1600
PE-4OC3-SON-MM — (EOL)
PE-4OC3-SON-SMIR — (EOL)
M10i
2-port
PE-2OC3-SON-MM — (EOL)
PE-2OC3-SON-SMIR — (EOL)
OC3c/STM1 with SFP
2-port
PE-2OC3-SON-SFP
M10i
OC3c/STM1, SFP (Multi-Rate)
4 OC3 ports, 4 OC12 ports
PB-4OC3-4OC12-SON-SFP
M120 M320, T320, T640, T1600
4 OC3 ports, 1 OC12 port
PB-4OC3-1OC12-SON2-SFP
PE-4OC3-1OC12-SON-SFP
M10i
OC12c/STM4
1-port
PE-1OC12-SON-SFP
PE-1OC12-SON-MM — (EOL)
PE-1OC12-SON-SMIR — (EOL)
M10i
PB-1OC12-SON-MM — (EOL)
PB-1OC12-SON-SMIR — (EOL)
M120, M320, T320, T640, T1600, TX Matrix
4-port
PB-4OC12-SON-MM
PB-4OC12-SON-SMIR
OC12c/STM4, SFP
1-port
PB-1OC12-SON-SFP
M120, M320, T320, T640, T1600, TX Matrix
OC48c/STM16, SFP
1-port
PB-1OC48-SON-SFP
PB-1OC48-SON-B-SFP
M120, M320, T320, T640, T1600, TX Matrix
4-port
PC-4OC48-SON-SFP
OC192/STM64, XFP
1
PC-1OC192-SON-LR,
PC-1OC192-SON-SR2
PC-1OC192-VSR
M320, T320, T640, T1600
OC192/STM64, XFP
4
PD-4OC192-SON-XFP
M120, T640, T1600
OC768/STM256
1
PD-1OC768-SON-SR
T640, T1600
Fast Ethernet and Gigabit Ethernet PICs
Table 12 lists the Fast Ethernet
and Gigabit Ethernet PICs that are supported during a unified ISSU.
Note:
Starting with JUNOS 9.2, new Ethernet IQ2 PIC features might
cause the software to reboot the PIC when a unified ISSU is performed.
For information about applicable new Ethernet IQ2 PIC features, refer
to the release notes for the specific JUNOS release.
Table 12: Unified ISSU PIC Support: Fast Ethernet and Gigabit Ethernet
PIC Type
Number of Ports
Model Number
Router
Fast Ethernet
4
PB-4FE-TX
M120, M320, T320, T640, T1600, TX Matrix
PE-4FE-TX
M10i
8
PB-8FE-FX
M120, M320
PE-8FE-FX
M10i
12
PB-12FE-TX-MDI
PB-12FE-TX-MDIX
M120, M320, T320
PE-12FE-TX-MDI
PE-12FE-TX-MDIX
M10i
48
PB-48FE-TX-MDI
PB-48FE-TX-MDIX
M120, M320, T320
Gigabit Ethernet, SFP
1
PE-1GE-SFP
M10i
PB-1GE-SFP
M120, M320, T320, T640, T1600, TX Matrix
2
4
PB-2GE-SFP
PB-4GE-SFP
10
PC-10GE-SFP
Gigabit Ethernet IQ, SFP
1
PE-1GE-SFP-QPP
M10i
PB-1GE-SFP-QPP
M120, M320, T320, T640, T1600, TX Matrix
2
PB-2GE-SFP-QPP
Gigabit Ethernet IQ2, SFP
4
PB-4GE-TYPE1-SFP-IQ2
M120, M320, T320, T640, T1600, TX Matrix
8
PB-8GE-TYPE2-SFP-IQ2
Gigabit Ethernet IQ2, XFP
8
PC-8GE-TYPE3-XFP-IQ2
M120, M320, T320, T640, T1600, TX Matrix
1
PC-1XGE-TYPE3-XFP-IQ2
10-Gigabit Ethernet, XENPAK
1
PC-1XGE-XENPAK
M120, M320, T320, T640, T1600, TX Matrix
10-Gigabit Ethernet, DWDM
1
PC-1XGE-DWDM-CBAND
M120, M320, T320, T640, T1600, TX Matrix
10-Gigabit Ethernet
4
PD-4XGE-XFP
T640, T1600, TX Matrix, TX Matrix Plus
Channelized PICs
Table 13 lists the
channelized PICs that are supported during a unified ISSU.
Table 13: Unified ISSU PIC Support: Channelized
PIC Type
Number of Ports
Model Number
Platform
Channelized E1 IQ
10
PB-10CHE1-RJ48-QPP
M120, M320, T320, T640, T1600, TX Matrix
PE-10CHE1-RJ48-QPP-N
M10i
Channelized T1 IQ
10
PB-10CHT1-RJ48-QPP
M320, T320, T640, T1600
PE-10CHT1-RJ48-QPP
M10i
Channelized OC IQ
1
PB-1CHOC12SMIR-QPP
PB-1CHSTM1-SMIR-QPP
PB-1CHOC3-SMIR-QPP
M120, M320, T320, T640, T1600, TX Matrix
PE-1CHOC12SMIR-QPP
PE-1CHOC3-SMIR-QPP
M10i
Channelized DS3 to DS0 IQ
4
PB-4CHDS3-QPP
M120, M320, T320, T640, T1600, TX Matrix
PE-4CHDS3-QPP
M10i
Channelized STM 1
1
PE-1CHSTM1-SMIR-QPP
M10i
Tunnel Services PICs
Table 14 lists the tunnel
services PICs that are supported during a unified ISSU.
Unified ISSU DPC and FPC Support on MX Series Routers
Unified ISSU supports all
Dense Port Concentrators (DPCs) except the Multiservices DPC (MS-DPC)
on the MX Series routers. However, unified ISSU does not support either
of the FPCs (FPC type 2, MX-FPC2, and FPC type 3, MX-FPC3) on the MX Series routers. For more information about DPCs and FPCs
on MX Series routers, see the MX Series Ethernet Services
Router Documentation. at http://www.juniper.net/techpubs/en_US/release-independent/junos/
information-products/pathway-pages/mx-series/.
