16-Security Command Reference

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06-IPsec commands
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06-IPsec commands 646.88 KB

Contents

IPsec commands· 1

ah authentication-algorithm·· 2

description· 3

display ipsec { ipv6-policy | policy } 3

display ipsec { ipv6-policy-template | policy-template } 9

display ipsec profile· 11

display ipsec sa· 13

display ipsec statistics· 17

display ipsec transform-set 19

display ipsec tunnel 20

encapsulation-mode· 23

esn enable· 24

esp authentication-algorithm·· 24

esp encryption-algorithm·· 25

ike-profile· 27

ikev2-profile· 28

ipsec { ipv6-policy | policy } 28

ipsec { ipv6-policy | policy } isakmp template· 30

ipsec { ipv6-policy | policy } local-address· 31

ipsec { ipv6-policy-template | policy-template }· 32

ipsec anti-replay check· 33

ipsec anti-replay window· 33

ipsec apply· 34

ipsec decrypt-check enable· 35

ipsec df-bit 35

ipsec fragmentation· 36

ipsec global-df-bit 37

ipsec limit max-tunnel 38

ipsec logging negotiation enable· 38

ipsec logging packet enable· 39

ipsec profile· 39

ipsec redundancy enable· 40

ipsec sa global-duration· 41

ipsec sa global-soft-duration buffer 42

ipsec sa idle-time· 43

ipsec transform-set 44

local-address· 44

pfs· 45

protocol 46

qos pre-classify· 47

redundancy replay-interval 48

remote-address· 49

reset ipsec sa· 50

reset ipsec statistics· 51

reverse-route dynamic· 52

reverse-route preference· 53

reverse-route tag· 54

sa duration· 55

sa hex-key authentication· 56

sa hex-key encryption· 57

sa idle-time· 58

sa soft-duration buffer 59

sa spi 60

sa string-key· 61

sa trigger-mode· 62

security acl 63

snmp-agent trap enable ipsec· 64

tfc enable· 65

transform-set 66

IKE commands· 68

aaa authorization· 69

authentication-algorithm·· 70

authentication-method· 70

certificate domain· 71

client-authentication· 72

description· 73

dh· 74

display ike proposal 75

display ike sa· 76

display ike statistics· 79

dpd· 80

encryption-algorithm·· 81

exchange-mode· 82

ike address-group· 83

ike dpd· 84

ike identity· 85

ike invalid-spi-recovery enable· 86

ike keepalive interval 86

ike keepalive timeout 87

ike keychain· 88

ike limit 88

ike logging negotiation enable· 89

ike nat-keepalive· 90

ike profile· 90

ike proposal 91

ike signature-identity from-certificate· 92

keychain· 93

local-identity· 93

match local address (IKE keychain view) 94

match local address (IKE profile view) 95

match remote· 96

pre-shared-key· 98

priority (IKE keychain view) 99

priority (IKE profile view) 100

proposal 100

reset ike sa· 101

reset ike statistics· 102

sa duration· 102

sa soft-duration buffer 103

snmp-agent trap enable ike· 104

IKEv2 commands· 106

aaa authorization· 107

address· 108

authentication-method· 109

certificate domain· 110

config-exchange· 111

dh· 112

display ikev2 policy· 113

display ikev2 profile· 114

display ikev2 proposal 116

display ikev2 sa· 117

display ikev2 statistics· 121

dpd· 122

encryption· 122

hostname· 123

identity· 124

identity local 125

ikev2 address-group· 126

ikev2 cookie-challenge· 127

ikev2 dpd· 128

ikev2 ipv6-address-group· 129

ikev2 keychain· 130

ikev2 nat-keepalive· 130

ikev2 policy· 131

ikev2 profile· 132

ikev2 proposal 133

integrity· 134

keychain· 134

match local (IKEv2 profile view) 135

match local address (IKEv2 policy view) 136

match remote· 137

nat-keepalive· 139

peer 139

pre-shared-key· 140

prf 142

priority (IKEv2 policy view) 142

priority (IKEv2 profile view) 143

proposal 144

reset ikev2 sa· 144

reset ikev2 statistics· 145

sa duration· 146


IPsec commands

The following compatibility matrixes show the support of hardware platforms for IPsec:

 

Hardware series

Model

Product code

IPsec compatibility

WX1800H series

WX1804H

EWP-WX1804H-PWR-CN

Yes

WX2500H series

WX2508H-PWR-LTE

WX2510H

WX2510H-F

WX2540H

WX2540H-F

WX2560H

EWP-WX2508H-PWR-LTE

EWP-WX2510H-PWR

EWP-WX2510H-F-PWR

EWP-WX2540H

EWP-WX2540H-F

EWP-WX2560H

Yes

WX3000H series

WX3010H

WX3010H-X

WX3010H-L

WX3024H

WX3024H-L

WX3024H-F

EWP-WX3010H

EWP-WX3010H-X-PWR

EWP-WX3010H-L-PWR

EWP-WX3024H

EWP-WX3024H-L-PWR

EWP-WX3024H-F

Yes:

·     WX3010H

·     WX3010H-X

·     WX3024H

·     WX3024H-F

No:

·     WX3010H-L

·     WX3024H-L

WX3500H series

WX3508H

WX3510H

WX3520H

WX3520H-F

WX3540H

EWP-WX3508H

EWP-WX3510H

EWP-WX3520H

EWP-WX3520H-F

EWP-WX3540H

Yes

WX5500E series

WX5510E

WX5540E

EWP-WX5510E

EWP-WX5540E

Yes

WX5500H series

WX5540H

WX5560H

WX5580H

EWP-WX5540H

EWP-WX5560H

EWP-WX5580H

Yes

Access controller modules

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

Yes

Hardware series

Model

Product code

IPsec compatibility

WX1800H series

WX1804H

WX1810H

WX1820H

WX1840H

EWP-WX1804H-PWR

EWP-WX1810H-PWR

EWP-WX1820H

EWP-WX1840H-GL

Yes

WX3800H series

WX3820H

WX3840H

EWP-WX3820H-GL

EWP-WX3840H-GL

Yes

WX5800H series

WX5860H

EWP-WX5860H-GL

Yes

ah authentication-algorithm

Use ah authentication-algorithm to specify authentication algorithms for the AH protocol.

Use undo ah authentication-algorithm to restore the default.

Syntax

ah authentication-algorithm { aes-xcbc-mac | md5 | sha1 | sha256 | sha384 | sha512 } *

undo ah authentication-algorithm

Default

AH does not use any authentication algorithms.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

aes-xcbc-mac: Specifies the HMAC-AES-XCBC-96 algorithm, which uses a 128-bit key. This keyword is available only for IKEv2.

md5: Specifies the HMAC-MD5-96 algorithm, which uses a 128-bit key.

sha1: Specifies the HMAC-SHA1-96 algorithm, which uses a 160-bit key.

sha256: Specifies the HMAC-SHA256 algorithm, which uses a 256-bit key.

sha384: Specifies the HMAC-SHA384 algorithm, which uses a 384-bit key.

sha512: Specifies the HMAC-SHA512 algorithm, which uses a 512-bit key.

Usage guidelines

You can specify multiple AH authentication algorithms for one IPsec transform set, and the algorithm specified earlier has a higher priority.

For a manual or IKEv1-based IPsec policy, the first specified AH authentication algorithm takes effect. To make sure an IPsec tunnel can be established successfully, the IPsec transform sets specified at both ends of the tunnel must have the same first AH authentication algorithm.

Examples

# Specify HMAC-SHA1 as the AH authentication algorithm for IPsec transform set tran1.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] ah authentication-algorithm sha1

description

Use description to configure a description for an IPsec policy, IPsec profile, or IPsec policy template.

Use undo description to restore the default.

Syntax

description text

undo description

Default

No description is configured for an IPsec policy, IPsec profile, or IPsec policy template.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

text: Specifies a description, a case-sensitive string of 1 to 80 characters.

Usage guidelines

You can configure different descriptions for IPsec policies, IPsec profiles, or IPsec policy templates to distinguish them.

Examples

# Configure the description for IPsec policy policy1 as CenterToA.

<Sysname> system-view

[Sysname] ipsec policy policy1 1 isakmp

[Sysname-ipsec-policy-isakmp-policy1-1] description CenterToA

display ipsec { ipv6-policy | policy }

Use display ipsec { ipv6-policy | policy } to display information about IPsec policies.

Syntax

display ipsec { ipv6-policy | policy } [ policy-name [ seq-number ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

ipv6-policy: Displays information about IPv6 IPsec policies.

policy: Displays information about IPv4 IPsec policies.

policy-name: Specifies an IPsec policy by its name, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies an IPsec policy entry by its sequence number in the range of 1 to 65535.

Usage guidelines

If you do not specify any parameters, this command displays information about all IPsec policies.

If you specify an IPsec policy name and a sequence number, this command displays information about the specified IPsec policy entry. If you specify an IPsec policy name without any sequence number, this command displays information about all IPsec policy entries with the specified name.

Examples

# Display information about all IPv4 IPsec policies.

<Sysname> display ipsec policy

-------------------------------------------

IPsec Policy: mypolicy

-------------------------------------------

 

  -----------------------------

  Sequence number: 1

  Mode: Manual

  -----------------------------

  The policy configuration is incomplete:

           ACL not specified

           Incomplete transform-set configuration

  Description: This is my first IPv4 manual policy

  Security data flow:

  Remote address: 2.5.2.1

  Transform set: transform

 

  Inbound AH setting:

    AH SPI: 1200 (0x000004b0)

    AH string-key: ******

    AH authentication hex key:

 

  Inbound ESP setting:

    ESP SPI: 1400 (0x00000578)

    ESP string-key:

    ESP encryption hex key:

    ESP authentication hex key:

 

  Outbound AH setting:

    AH SPI: 1300 (0x00000514)

    AH string-key: ******

    AH authentication hex key:

 

  Outbound ESP setting:

    ESP SPI: 1500 (0x000005dc)

    ESP string-key: ******

    ESP encryption hex key:

    ESP authentication hex key:

 

  -----------------------------

  Sequence number: 2

  Mode: ISAKMP

  -----------------------------

  The policy configuration is incomplete:

           Remote-address not set

           ACL not specified

           Transform-set not set

  Description: This is my first IPv4 Isakmp policy

  Traffic Flow Confidentiality: Enabled

  Security data flow:

  Selector mode: standard

  Local address:

  Remote address:

  Transform set:

  IKE profile:

  IKEv2 profile:

  smart-link policy:

  SA trigger mode: Auto

  SA duration(time based): 3600 seconds

  SA duration(traffic based): 1843200 kilobytes

  SA soft-duration buffer(time based): 1000 seconds

  SA soft-duration buffer(traffic based): 43200 kilobytes

  SA idle time: 100 seconds

-------------------------------------------

IPsec Policy: mycompletepolicy

Interface: LoopBack2

-------------------------------------------

 

  -----------------------------

  Sequence number: 1

  Mode: Manual

  -----------------------------

  Description: This is my complete policy

  Security data flow: 3100

  Remote address: 2.2.2.2

  Transform set: completetransform

 

  Inbound AH setting:

    AH SPI: 5000 (0x00001388)

    AH string-key: ******

    AH authentication hex key:

 

  Inbound ESP setting:

    ESP SPI: 7000 (0x00001b58)

    ESP string-key: ******

    ESP encryption hex key:

    ESP authentication hex key:

 

  Outbound AH setting:

    AH SPI: 6000 (0x00001770)

    AH string-key: ******

    AH authentication hex key:

 

  Outbound ESP setting:

    ESP SPI: 8000 (0x00001f40)

    ESP string-key: ******

    ESP encryption hex key:

    ESP authentication hex key:

 

  -----------------------------

  Sequence number: 2

  Mode: ISAKMP

  -----------------------------

  Description: This is my complete policy

  Traffic Flow Confidentiality: Enabled

  Security data flow: 3200

  Selector mode: standard

  Local address:

  Remote address: 5.3.6.9

  Transform set:  completetransform

  IKE profile:

  IKEv2 profile:

  smart-link policy:

  SA trigger mode: Auto

  SA duration(time based): 3600 seconds

  SA duration(traffic based): 1843200 kilobytes

  SA soft-duration buffer(time based): 1000 seconds

  SA soft-duration buffer(traffic based): 43200 kilobytes

  SA idle time: 100 seconds

# Display information about all IPv6 IPsec policies.

<Sysname> display ipsec ipv6-policy

-------------------------------------------

IPsec Policy: mypolicy

-------------------------------------------

 

  -----------------------------

  Sequence number: 1

  Mode: Manual

  -----------------------------

  Description: This is my first IPv6 policy

  Security data flow: 3600

  Remote address: 1000::2

  Transform set: mytransform

 

  Inbound AH setting:

    AH SPI: 1235 (0x000004d3)

    AH string-key: ******

    AH authentication hex key:

 

  Inbound ESP setting:

    ESP SPI: 1236 (0x000004d4)

    ESP string-key: ******

    ESP encryption hex key:

    ESP authentication hex key:

 

  Outbound AH setting:

    AH SPI: 1237 (0x000004d5)

    AH string-key: ******

    AH authentication hex key:

 

  Outbound ESP setting:

    ESP SPI: 1238 (0x000004d6)

    ESP string-key: ******

    ESP encryption hex key:

    ESP authentication hex key:

 

  -----------------------------

  Sequence number: 2

  Mode: ISAKMP

  -----------------------------

  Description: This is my complete policy

  Traffic Flow Confidentiality: Enabled

  Security data flow: 3200

  Selector mode: standard

  Local address:

  Remote address: 1000::2

  Transform set:  completetransform

  IKE profile:

  IKEv2 profile:

  smart-link policy:

  SA trigger mode: Auto

  SA duration(time based): 3600 seconds

  SA duration(traffic based): 1843200 kilobytes

  SA soft-duration buffer(time based): 1000 seconds

  SA soft-duration buffer(traffic based): 43200 kilobytes

  SA idle time: 100 seconds

Table 1 Command output

Field

Description

IPsec Policy

IPsec policy name.

Interface

Interface applied with the IPsec policy.

Sequence number

Sequence number of the IPsec policy entry.

Mode

Negotiation mode of the IPsec policy:

·     Manual—Manual mode.

·     ISAKMP—IKE negotiation mode.

·     Template—IPsec policy template mode.

The policy configuration is incomplete

IPsec policy configuration incomplete. Possible causes include:

·     The ACL is not configured.

·     The IPsec transform set is not configured.

·     The ACL does not have any permit statements.

·     The IPsec transform set configuration is not complete.

·     The peer IP address of the IPsec tunnel is not specified.

·     The SPI and key of the IPsec SA do not match those in the IPsec policy.

Description

Description of the IPsec policy.

Traffic Flow Confidentiality

Whether Traffic Flow Confidentiality (TFC) padding is enabled.

Security data flow

ACL used by the IPsec policy.

Selector mode

Data flow protection mode of the IPsec policy: standard, aggregation, or per-host.

Local address

Local end IP address of the IPsec tunnel (available only for the IKE-based IPsec policy).

Remote address

Remote end IP address or host name of the IPsec tunnel.

Transform set

Transform set used by the IPsec policy.

IKE profile

IKE profile used by the IPsec policy.

IKEv2 profile

IKEv2 profile used by the IPsec policy.

smart-link policy

This field is not supported in the current software version.

Smart link policy used by the IPsec policy.

SA trigger mode

IPsec SA negotiation triggering mode:

·     Auto—Triggers SA negotiation when required IPsec configuration is complete.

·     Traffic-based—Triggers SA negotiation when traffic requires IPsec protection.

SA duration(time based)

Time-based IPsec SA lifetime, in seconds.

SA duration(traffic based)

Traffic-based IPsec SA lifetime, in Kilobytes.

SA soft-duration buffer(time based)

Time-based IPsec SA soft lifetime buffer, in seconds.

If the time-based IPsec SA soft lifetime buffer is not configured, this field displays two consecutive hyphens (--).

SA soft-duration buffer(traffic based)

Traffic-based IPsec SA soft lifetime buffer, in Kilobytes.

If the traffic-based IPsec SA soft lifetime buffer is not configured, this field displays two consecutive hyphens (--).

SA idle time

Idle timeout of the IPsec SA, in seconds.

If the IPsec SA idle timeout is not configured, this field displays two consecutive hyphens (--).

AH string-key

AH string key. This field displays ****** if the key is configured and it is empty if the key is not configured.

AH authentication hex key

AH authentication hexadecimal key. This field displays ****** if the key is configured and it is empty if the key is not configured.

ESP string-key

ESP string key. This field displays ****** if the key is configured and it is empty if the key is not configured.

ESP encryption hex key

ESP encryption hexadecimal key. This field displays ****** if the key is configured and it is empty if the key is not configured.

ESP authentication hex key

ESP authentication hexadecimal key. This field displays ****** if the key is configured and it is empty if the key is not configured.

 

Related commands

ipsec { ipv6-policy | policy }

display ipsec { ipv6-policy-template | policy-template }

Use display ipsec { ipv6-policy-template | policy-template } to display information about IPsec policy templates

Syntax

display ipsec { ipv6-policy-template | policy-template } [ template-name [ seq-number ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

ipv6-policy-template: Displays information about IPv6 IPsec policy templates.

policy-template: Displays information about IPv4 IPsec policy templates.

template-name: Specifies an IPsec policy template by its name, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies an IPsec policy template entry by its sequence number in the range of 1 to 65535.

Usage guidelines

If you do not specify any parameters, this command displays information about all IPsec policy templates.

If you specify an IPsec policy template name and a sequence number, this command displays information about the specified IPsec policy template entry. If you specify an IPsec policy template name without any sequence number, this command displays information about all IPsec policy template entries with the specified name.

Examples

# Display information about all IPv4 IPsec policy templates.

<Sysname> display ipsec policy-template

-----------------------------------------------

IPsec Policy Template: template

-----------------------------------------------

 

  ---------------------------------

  Sequence number: 1

  ---------------------------------

Description: This is policy template

Traffic Flow Confidentiality: Disabled

Security data flow :

Selector mode: standard

Local address:

IKE profile:

IKEv2 profile:

Remote address: 162.105.10.2

Transform set:  testprop

IPsec SA local duration(time based): 3600 seconds

IPsec SA local duration(traffic based): 1843200 kilobytes

SA idle time: 100 seconds

# Display information about all IPv6 IPsec policy templates.

<Sysname> display ipsec ipv6-policy-template

-----------------------------------------------

IPsec Policy Template: template6

-----------------------------------------------

 

  ---------------------------------

  Sequence number: 1

  ---------------------------------

Description: This is policy template

Traffic Flow Confidentiality: Disabled

Security data flow :

Selector mode: standard

Local address:

IKE profile:

IKEv2 profile:

Remote address: 200::1

Transform set: testprop

IPsec SA local duration(time based): 3600 seconds

IPsec SA local duration(traffic based): 1843200 kilobytes

SA idle time: 100 seconds

Table 2 Command output

Field

Description

IPsec Policy Template

IPsec policy template name.

Sequence number

Sequence number of the IPsec policy template entry.

Description

Description of the IPsec policy template.

Traffic Flow Confidentiality

Whether Traffic Flow Confidentiality (TFC) padding is enabled.

Security data flow

ACL used by the IPsec policy template.

Selector mode

Data flow protection mode of the IPsec policy template: standard, aggregation, or per-host.

Local address

Local end IP address of the IPsec tunnel.

IKE profile

IKE profile used by the IPsec policy template.

IKEv2 profile

IKEv2 profile used by the IPsec policy template.

Remote address

Remote end IP address of the IPsec tunnel.

Transform set

Transform set used by the IPsec policy template.

IPsec SA local duration(time based)

Time-based IPsec SA lifetime, in seconds.

IPsec SA local duration(traffic based)

Traffic-based IPsec SA lifetime, in Kilobytes.

SA idle time

Idle timeout of the IPsec SA, in seconds.

If the IPsec SA idle timeout is not configured, this field displays two consecutive hyphens (--).

 

Related commands

ipsec { ipv6-policy | policy } isakmp template

display ipsec profile

Use display ipsec profile to display information about IPsec profiles.

Syntax

display ipsec profile [ profile-name ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

profile-name: Specifies an IPsec profile by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

If you do not specify any parameters, this command displays information about all IPsec profiles.

Examples

# Display information about all IPsec profiles.

<Sysname> display ipsec profile

-------------------------------------------

IPsec profile: myprofile

Mode: isakmp

-------------------------------------------

  Transform set:  tran1

  IKE profile: profile

  SA duration(time based): 3600 seconds

  SA duration(traffic based): 1843200 kilobytes

  SA soft-duration buffer(time based): 1000 seconds

  SA soft-duration buffer(traffic based): 43200 kilobytes

  SA idle time: 100 seconds

-----------------------------------------------

IPsec profile: profile

Mode: manual

-----------------------------------------------

  Transform set: prop1

  Inbound AH setting:

    AH SPI: 12345 (0x00003039)

    AH string-key:

    AH authentication hex key: ******

  Inbound ESP setting:

    ESP SPI: 23456 (0x00005ba0)

    ESP string-key:

    ESP encryption hex-key: ******

    ESP authentication hex-key: ******

  Outbound AH setting:

    AH SPI: 12345 (0x00003039)

    AH string-key:

    AH authentication hex key: ******

  Outbound ESP setting:

    ESP SPI: 23456 (0x00005ba0)

    ESP string-key:

    ESP encryption hex key: ******

    ESP authentication hex key: ******

Table 3 Command output

Field

Description

IPsec profile

IPsec profile name.

Mode

Negotiation mode used by the IPsec profile.

Description

Description of the IPsec profile.

Transform set

IPsec transform set used by the IPsec profile.

IKE profile

IKE profile used by the IPsec profile.

SA duration(time based)

Time-based IPsec SA lifetime, in seconds.

SA duration(traffic based)

Traffic-based IPsec SA lifetime, in Kilobytes.

SA soft-duration buffer(time based)

Time-based IPsec SA soft lifetime buffer, in seconds.

If the time-based IPsec SA soft lifetime buffer is not configured, this field displays two consecutive hyphens (--).

SA soft-duration buffer(traffic based)

Traffic-based IPsec SA soft lifetime buffer, in Kilobytes.

If the traffic-based IPsec SA soft lifetime buffer is not configured, this field displays two consecutive hyphens (--).

SA idle time

IPsec SA idle timeout, in seconds.

If the IPsec SA idle timeout is not configured, this field displays two consecutive hyphens (--).

 

Related commands

ipsec profile

display ipsec sa

Use display ipsec sa to display information about IPsec SAs.

Syntax

display ipsec sa [ brief | count | interface interface-type interface-number | { ipv6-policy | policy } policy-name [ seq-number ] | profile profile-name | remote [ ipv6 ] ip-address ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

brief: Displays brief information about all IPsec SAs.

count: Displays the number of IPsec SAs.

interface interface-type interface-number: Specifies an interface by its type and number.

ipv6-policy: Displays detailed information about IPsec SAs created by using a specified IPv6 IPsec policy.

policy: Displays detailed information about IPsec SAs created by using a specified IPv4 IPsec policy.

policy-name: Specifies an IPsec policy by its name, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies an IPsec policy entry by its sequence number. The value range is 1 to 65535.

profile: Displays detailed information about IPsec SAs created by using a specified IPsec profile.

profile-name: Specifies an IPsec profile by its name, a case-insensitive string of 1 to 63 characters.

remote ip-address: Specifies an IPsec SA by its remote end IP address.

ipv6: Specifies an IPsec SA by its remote end IPv6 address. If this keyword is not specified, the specified remote end IP address is an IPv4 address.

Usage guidelines

If you do not specify any parameters, this command displays detailed information about all IPsec SAs.

Examples

# Display brief information about IPsec SAs.

<Sysname> display ipsec sa brief

-----------------------------------------------------------------------

Interface/Global   Dst Address      SPI         Protocol  Status

-----------------------------------------------------------------------

Vlan100            10.1.1.1         400         ESP       Active

Vlan100            255.255.255.255  4294967295  ESP       Active

Vlan100            100::1/64        500         AH        Active

Global             --               600         ESP       Active

Table 4 Command output

Field

Description

Interface/Global

Interface where the IPsec SA belongs to or global IPsec SA (created by using an IPsec profile).

Dst Address

Remote end IP address of the IPsec tunnel.

For the IPsec SAs created by using IPsec profiles, this field displays two hyphens (--).

SPI

IPsec SA SPI.

Protocol

Security protocol used by IPsec.

Status

Status of the IPsec SA, which can only be Active.

 

# Display the number of IPsec SAs.

<Sysname> display ipsec sa count

Total IPsec SAs count: 4

# Display detailed information about all IPsec SAs.

<Sysname> display ipsec sa

-------------------------------

Interface: Vlan-interface100

-------------------------------

 

  -----------------------------

  IPsec policy: r2

  Sequence number: 1

  Mode: ISAKMP

  -----------------------------

    Tunnel id: 3

    Encapsulation mode: tunnel

    Perfect Forward Secrecy:

    Inside VRF: vp1

    Extended Sequence Numbers enable: Y

    Traffic Flow Confidentiality enable: N

    Path MTU: 1443

    Tunnel:

        local  address: 2.2.2.2

        remote address: 1.1.1.2

    Flow:

        sour addr: 192.168.2.0/255.255.255.0  port: 0  protocol: ip

        dest addr: 192.168.1.0/255.255.255.0  port: 0  protocol: ip

 

    [Inbound ESP SAs]

      SPI: 3564837569 (0xd47b1ac1)

      Connection ID: 90194313219

      Transform set: ESP-ENCRYPT-AES-CBC-128 ESP-AUTH-SHA1

      SA duration (kilobytes/sec): 4294967295/604800

      SA remaining duration (kilobytes/sec): 1843200/2686

      Max received sequence-number: 5

      Anti-replay check enable: Y

      Anti-replay window size: 32

      UDP encapsulation used for NAT traversal: N

      Status: Active

 

    [Outbound ESP SAs]

      SPI: 801701189 (0x2fc8fd45)

      Connection ID: 64424509441

      Transform set: ESP-ENCRYPT-AES-CBC-128 ESP-AUTH-SHA1

      SA duration (kilobytes/sec): 4294967295/604800

      SA remaining duration (kilobytes/sec): 1843200/2686

      Max sent sequence-number: 6

      UDP encapsulation used for NAT traversal: N

      Status: Active

-------------------------------

Global IPsec SA

-------------------------------

 

  -----------------------------

  IPsec profile: profile

  Mode: Manual

  -----------------------------

    Encapsulation mode: transport

    [Inbound AH SA]

      SPI: 1234563 (0x0012d683)

      Connection ID: 64426789452

      Transform set: AH-SHA1

      No duration limit for this SA

    [Outbound AH SA]

      SPI: 1234563 (0x002d683)

      Connection ID: 64428999468

      Transform set: AH-SHA1

      No duration limit for this SA

Table 5 Command output

Field

Description

Interface

Interface where the IPsec SA belongs.

IPsec policy

Name of the IPsec policy.

IPsec profile

Name of the IPsec profile.

Sequence number

Sequence number of the IPsec policy entry.

Mode

Negotiation mode used by the IPsec policy:

·     Manual—Manual mode.

·     ISAKMP—IKE negotiation mode.

·     Template—IPsec policy template mode.

Tunnel id

IPsec tunnel ID.

Encapsulation mode

Encapsulation mode, transport or tunnel.

Perfect Forward Secrecy

Perfect Forward Secrecy (PFS) used by the IPsec policy for negotiation:

·     768-bit Diffie-Hellman group (dh-group1).

·     1024-bit Diffie-Hellman group (dh-group2).

·     1536-bit Diffie-Hellman group (dh-group5).

·     2048-bit Diffie-Hellman group (dh-group14).

·     2048-bit and 256_bit subgroup Diffie-Hellman group (dh-group24).

·     256-bit ECP Diffie-Hellman group (dh-group19).

·     384-bit ECP Diffie-Hellman group (dh-group20).

Extended Sequence Numbers enable

Whether Extended Sequence Number (ESN) is enabled.

Traffic Flow Confidentiality enable

Whether Traffic Flow Confidentiality (TFC) padding is enabled.

Path MTU

Path MTU of the IPsec SA.

Tunnel

Local and remote addresses of the IPsec tunnel.

local address

Local end IP address of the IPsec tunnel.

remote address

Remote end IP address of the IPsec tunnel.

Flow

Information about the data flow protected by the IPsec tunnel.

sour addr

Source IP address of the data flow.

dest addr

Destination IP address of the data flow.

port

Port number.

protocol

Protocol type: ip or ipv6.

SPI

SPI of the IPsec SA.

Connection ID

Identifier of the IPsec SA.

Transform set

Security protocol and algorithms used by the IPsec transform set.

SA duration (kilobytes/sec)

IPsec SA lifetime, in Kilobytes or seconds.

SA remaining duration (kilobytes/sec)

Remaining IPsec SA lifetime, in Kilobytes or seconds.

Max received sequence-number

Max sequence number in the received packets.

Max sent sequence-number

Max sequence number in the sent packets.

Anti-replay check enable

Whether anti-replay checking is enabled.

UDP encapsulation used for NAT traversal

Whether NAT traversal is used by the IPsec SA.

Status

Status of the IPsec SA, which can only be Active.

No duration limit for this SA

The manual IPsec SAs do not have lifetime.

 

Related commands

ipsec sa global-duration

reset ipsec sa

display ipsec statistics

Use display ipsec statistics to display IPsec packet statistics.

Syntax

display ipsec statistics [ tunnel-id tunnel-id ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

tunnel-id tunnel-id: Specifies an IPsec tunnel by its ID. The value range for the tunnel-id argument is 0 to 4294967295. You can use the display ipsec tunnel brief command to view the IDs of established IPsec tunnels.

Usage guidelines

If you do not specify any parameters, this command displays statistics for all IPsec packets.

Examples

# Display statistics for all IPsec packets.

<Sysname> display ipsec statistics

  IPsec packet statistics:

    Received/sent packets: 47/64

    Received/sent bytes: 3948/5208

    Dropped packets (received/sent): 0/45

 

    Dropped packets statistics

      No available SA: 0

      Wrong SA: 0

      Invalid length: 0

      Authentication failure: 0

      Encapsulation failure: 0

      Decapsulation failure: 0

      Replayed packets: 0

      ACL check failure: 45

      MTU check failure: 0

      Loopback limit exceeded: 0

      Crypto speed limit exceeded: 0

# Display statistics for the packets of IPsec tunnel 1.

<Sysname> display ipsec statistics tunnel-id 1

  IPsec packet statistics:

    Received/sent packets: 5124/8231

    Received/sent bytes: 52348/64356

    Dropped packets (received/sent): 0/0

 

    Dropped packets statistics

      No available SA: 0

      Wrong SA: 0

      Invalid length: 0

      Authentication failure: 0

      Encapsulation failure: 0

      Decapsulation failure: 0

      Replayed packets: 0

      ACL check failure: 0

      MTU check failure: 0

      Loopback limit exceeded: 0

      Crypto speed limit exceeded: 0

Table 6 Command output

Field

Description

Received/sent packets

Number of received/sent IPsec-protected packets.

Received/sent bytes

Number of bytes of received/sent IPsec-protected packets.

Dropped packets (received/sent)

Number of dropped IPsec-protected packets (received/sent).

No available SA

Number of packets dropped due to lack of available IPsec SA.

Wrong SA

Number of packets dropped due to wrong IPsec SA.

Invalid length

Number of packets dropped due to invalid packet length.

Authentication failure

Number of packets dropped due to authentication failure.

Encapsulation failure

Number of packets dropped due to encapsulation failure.

Decapsulation failure

Number of packets dropped due to decapsulation failure.

Replayed packets

Number of dropped replayed packets.

ACL check failure

Number of packets dropped due to ACL check failure.

MTU check failure

Number of packets dropped due to MTU check failure.

Loopback limit exceeded

Number of packets dropped due to loopback limit exceeded.

Crypto speed limit exceeded

Number of packets dropped due to crypto speed limit exceeded.

 

Related commands

reset ipsec statistics

display ipsec transform-set

Use display ipsec transform-set to display information about IPsec transform sets.

Syntax

display ipsec transform-set [ transform-set-name ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

transform-set-name: Specifies an IPsec transform set by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

If you do not specify an IPsec transform set, this command displays information about all IPsec transform sets.

Examples

# Display information about all IPsec transform sets.

<Sysname> display ipsec transform-set

IPsec transform set: mytransform

  State: incomplete

  Encapsulation mode: tunnel

  ESN: Enabled

  PFS:

  Transform: ESP

 

IPsec transform set: completeTransform

  State: complete

  Encapsulation mode: transport

  ESN: Enabled

  PFS:

  Transform: AH-ESP

  AH protocol:

    Integrity: SHA1

  ESP protocol:

    Integrity: SHA1

    Encryption: AES-CBC-128

Table 7 Command output

Field

Description

IPsec transform set

Name of the IPsec transform set.

State

Whether the IPsec transform set is complete.

Encapsulation mode

Encapsulation mode used by the IPsec transform set: transport or tunnel.

ESN

Whether Extended Sequence Number (ESN) is enabled.

PFS

Perfect Forward Secrecy (PFS) used by the IPsec policy for negotiation:

·     768-bit Diffie-Hellman group (dh-group1).

·     1024-bit Diffie-Hellman group (dh-group2).

·     1536-bit Diffie-Hellman group (dh-group5).

·     2048-bit Diffie-Hellman group (dh-group14).

·     2048-bit and 256_bit subgroup Diffie-Hellman group (dh-group24).

·     256-bit ECP Diffie-Hellman group (dh-group19).

·     384-bit ECP Diffie-Hellman group (dh-group20).

Transform

Security protocols used by the IPsec transform set: AH, ESP, or both. If both protocols are configured, IPsec uses ESP before AH.

AH protocol

AH settings.

ESP protocol

ESP settings.

Integrity

Authentication algorithm used by the security protocol.

Encryption

Encryption algorithm used by the security protocol.

 

Related commands

ipsec transform-set

display ipsec tunnel

Use display ipsec tunnel to display information about IPsec tunnels.

Syntax

display ipsec tunnel { brief | count | tunnel-id tunnel-id }

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

brief: Displays brief information about all IPsec tunnels.

count: Displays information about the specified number of IPsec tunnels.

tunnel-id tunnel-id: Specifies an IPsec tunnel by its ID. The value range for the tunnel-id argument is 0 to 4294967295.

Usage guidelines

IPsec is a Layer 3 VPN technology that transmits data in a secure channel established between two endpoints (such as two security gateways). Such a secure channel is usually called an IPsec tunnel.

Examples

# Display brief information about all IPsec tunnels.

<Sysname> display ipsec tunnel brief

----------------------------------------------------------------------------

Tunn-id   Src Address     Dst Address     Inbound SPI   Outbound SPI  Status

----------------------------------------------------------------------------

0         --              --              1000          2000          Active

                                          3000          4000

1         1.2.3.1         2.2.2.2         5000          6000          Active

                                          7000          8000

Table 8 Command output

Field

Description

Src Address

Source IP address of the IPsec tunnel.

For IPsec SAs created by using IPsec profiles, this field displays two hyphens (--).

Dst Address

Destination IP address of the IPsec tunnel.

For IPsec SAs created by using IPsec profiles, this field displays two hyphens (--).

Inbound SPI

Valid SPI in the inbound direction of the IPsec tunnel.

If the tunnel uses two security protocols, two SPIs in the inbound direction are displayed in two lines.

Outbound SPI

Valid SPI in the outbound direction of the IPsec tunnel.

If the tunnel uses two security protocols, two SPIs in the outbound direction are displayed in two lines.

Status

Status of the IPsec SA, which can only be Active.

 

# Display the number of IPsec tunnels.

<Sysname> display ipsec tunnel count

Total IPsec Tunnel Count: 2

# Display detailed information about all IPsec tunnels.

<Sysname> display ipsec tunnel

Tunnel ID: 0

Status: Active

Perfect forward secrecy:

Inside vpn-instance:

SA's SPI:

    outbound:  2000        (0x000007d0)   [AH]

    inbound:   1000        (0x000003e8)   [AH]

    outbound:  4000        (0x00000fa0)   [ESP]

    inbound:   3000        (0x00000bb8)   [ESP]

Tunnel:

    local  address:

    remote address:

Flow:

 

Tunnel ID: 1

Status: Active

Perfect forward secrecy:

Inside vpn-instance:

SA's SPI:

    outbound:  6000        (0x00001770)   [AH]

    inbound:   5000        (0x00001388)   [AH]

    outbound:  8000        (0x00001f40)   [ESP]

    inbound:   7000        (0x00001b58)   [ESP]

Tunnel:

    local  address: 1.2.3.1

    remote address: 2.2.2.2

Flow:

    as defined in ACL 3100

# Display detailed information about IPsec tunnel 1.

<Sysname> display ipsec tunnel tunnel-id 1

Tunnel ID: 1

Status: Active

Perfect forward secrecy:

Inside vpn-instance:

SA's SPI:

    outbound:  6000        (0x00001770)   [AH]

    inbound:   5000        (0x00001388)   [AH]

    outbound:  8000        (0x00001f40)   [ESP]

    inbound:   7000        (0x00001b58)   [ESP]

Tunnel:

    local  address: 1.2.3.1

    remote address: 2.2.2.2

Flow:

    as defined in ACL 3100

Table 9 Command output

Field

Description

Tunnel ID

IPsec ID, used to uniquely identify an IPsec tunnel.

Status

IPsec tunnel status, which can only be Active.

Perfect forward secrecy

Perfect Forward Secrecy (PFS) used by the IPsec policy for negotiation:

·     768-bit Diffie-Hellman group (dh-group1).

·     1024-bit Diffie-Hellman group (dh-group2).

·     1536-bit Diffie-Hellman group (dh-group5).

·     2048-bit Diffie-Hellman group (dh-group14).

·     2048-bit and 256_bit subgroup Diffie-Hellman group (dh-group24).

·     256-bit ECP Diffie-Hellman group (dh-group19).

·     384-bit ECP Diffie-Hellman group (dh-group20).

Inside vpn-instance

This field is not supported in the current software version.

Name of the VPN instance to which the IPsec-protected data belongs.

SA's SPI

SPIs of the inbound and outbound SAs.

Tunnel

Local and remote addresses of the IPsec tunnel.

local address

Local end IP address of the IPsec tunnel.

remote address

Remote end IP address of the IPsec tunnel.

Flow

Information about the data flow protected by the IPsec tunnel, including source IP address, destination IP address, source port, destination port, and protocol.

as defined in ACL 3001

Range of data flow protected by the IPsec tunnel that is established manually. This information shows that the IPsec tunnel protects all data flows defined by ACL 3001.

 

encapsulation-mode

Use encapsulation-mode to set the encapsulation mode that the security protocol uses to encapsulate IP packets.

Use undo encapsulation-mode to restore the default.

Syntax

encapsulation-mode { transport | tunnel }

undo encapsulation-mode

Default

IP packets are encapsulated in tunnel mode.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

transport: Uses the transport mode for IP packet encapsulation.

tunnel: Uses the tunnel mode for IP packet encapsulation.

Usage guidelines

IPsec supports the following encapsulation modes:

·     Transport mode—The security protocols protect the upper layer data of an IP packet. Only the transport layer data is used to calculate the security protocol headers. The calculated security protocol headers and the encrypted data (only for ESP encapsulation) are placed after the original IP header. You can use the transport mode when end-to-end security protection is required (the secured transmission start and end points are the actual start and end points of the data). The transport mode is typically used for protecting host-to-host communications.

·     Tunnel mode—The security protocols protect the entire IP packet. The entire IP packet is used to calculate the security protocol headers. The calculated security protocol headers and the encrypted data (only for ESP encapsulation) are encapsulated in a new IP packet. In this mode, the encapsulated packet has two IP headers. The inner IP header is the original IP header. The outer IP header is added by the network device that provides the IPsec service. You must use the tunnel mode when the secured transmission start and end points are not the actual start and end points of the data packets (for example, when two gateways provide IPsec but the data start and end points are two hosts behind the gateways). The tunnel mode is typically used for protecting gateway-to-gateway communications.

The IPsec transform sets at both ends of the IPsec tunnel must have the same encapsulation mode.

Examples

# Configure IPsec transform set tran1 to use the transport mode for IP packet encapsulation.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] encapsulation-mode transport

Related commands

ipsec transform-set

esn enable

Use esn enable to enable the Extended Sequence Number (ESN) feature.

Use undo esn enable to disable the ESN feature.

Syntax

esn enable [ both ]

undo esn enable

Default

The ESN feature is disabled.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

both: Specifies IPsec to support both extended sequence number and traditional sequence number. If you do not specify this keyword, IPsec only supports extended sequence number.

Usage guidelines

The ESN feature extends the sequence number length from 32 bits to 64 bits. This feature prevents the sequence number space from being exhausted when large volumes of data are transmitted at high speeds over an IPsec SA. If the sequence number space is not exhausted, the IPsec SA does not need to be renegotiated.

This feature must be enabled at both the initiator and the responder.

Examples

# Enable the ESN feature in IPsec transform set tran1.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] esn enable

Related commands

display ipsec transform-set

esp authentication-algorithm

Use esp authentication-algorithm to specify authentication algorithms for ESP.

Use undo esp authentication-algorithm to restore the default.

Syntax

esp authentication-algorithm { aes-xcbc-mac | md5 | sha1 | sha256 | sha384 | sha512 } *

undo esp authentication-algorithm

Default

ESP does not use any authentication algorithms.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

aes-xcbc-mac: Specifies the HMAC-AES-XCBC-96 algorithm, which uses a 128-bit key. This keyword is available only for IKEv2.

md5: Specifies the HMAC-MD5-96 algorithm, which uses a 128-bit key.

sha1: Specifies the HMAC-SHA1-96 algorithm, which uses a 160-bit key.

sha256: Specifies the HMAC-SHA256 algorithm, which uses a 256-bit key.

sha384: Specifies the HMAC-SHA384 algorithm, which uses a 384-bit key.

sha512: Specifies the HMAC-SHA512 algorithm, which uses a 512-bit key.

Usage guidelines

You can specify multiple ESP authentication algorithms for one IPsec transform set, and the algorithm specified earlier has a higher priority.

For a manual or IKEv1-based IPsec policy, the first specified ESP authentication algorithm takes effect. To make sure an IPsec tunnel can be established successfully, the IPsec transform sets specified at both ends of the tunnel must have the same first ESP authentication algorithm.

Examples

# Configure IPsec transform set tran1 to use the HMAC-SHA1 algorithm as the ESP authentication algorithm.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] esp authentication-algorithm sha1

Related commands

ipsec transform-set

esp encryption-algorithm

Use esp encryption-algorithm to specify encryption algorithms for ESP.

Use undo esp encryption-algorithm to restore the default.

Syntax

esp encryption-algorithm { 3des-cbc | aes-cbc-128 | aes-cbc-192 | aes-cbc-256 | aes-ctr-128 | aes-ctr-192 | aes-ctr-256 | camellia-cbc-128 | camellia-cbc-192 | camellia-cbc-256 | des-cbc | gmac-128 | gmac-192 | gmac-256 | gcm-128 | gcm-192 | gcm-256 | null } *

undo esp encryption-algorithm

Default

ESP does not use any encryption algorithms.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

3des-cbc: Specifies the 3DES algorithm in CBC mode, which uses a 168-bit key.

aes-cbc-128: Specifies the AES algorithm in CBC mode, which uses a 128-bit key.

aes-cbc-192: Specifies the AES algorithm in CBC mode, which uses a 192-bit key.

aes-cbc-256: Specifies the AES algorithm in CBC mode, which uses a 256-bit key.

aes-ctr-128: Specifies the AES algorithm in CTR mode, which uses a 128-bit key. This keyword is available only for IKEv2.

aes-ctr-192: Specifies the AES algorithm in CTR mode, which uses a 192-bit key. This keyword is available only for IKEv2.

aes-ctr-256: Specifies the AES algorithm in CTR mode, which uses a 256-bit key. This keyword is available only for IKEv2.

camellia-cbc-128: Specifies the Camellia algorithm in CBC mode, which uses a 128-bit key. This keyword is available only for IKEv2.

camellia-cbc-192: Specifies the Camellia algorithm in CBC mode, which uses a 192-bit key. This keyword is available only for IKEv2.

camellia-cbc-256: Specifies the Camellia algorithm in CBC mode, which uses a 256-bit key. This keyword is available only for IKEv2.

des-cbc: Specifies the DES algorithm in CBC mode, which uses a 64-bit key.

gmac-128: Specifies the GMAC algorithm, which uses a 128-bit key. This keyword is available only for IKEv2.

gmac-192: Specifies the GMAC algorithm, which uses a 192-bit key. This keyword is available only for IKEv2.

gmac-256: Specifies the GMAC algorithm, which uses a 256-bit key. This keyword is available only for IKEv2.

gcm-128: Specifies the GCM algorithm, which uses a 128-bit key. This keyword is available only for IKEv2.

gcm-192: Specifies the GCM algorithm, which uses a 192-bit key. This keyword is available only for IKEv2.

gcm-256: Specifies the GCM algorithm, which uses a 256-bit key. This keyword is available only for IKEv2.

null: Specifies the NULL algorithm, which means encryption is not performed.

Usage guidelines

You can specify multiple ESP encryption algorithms for one IPsec transform set, and the algorithm specified earlier has a higher priority.

For a manual or IKEv1-based IPsec policy, the first specified ESP encryption algorithm takes effect. To make sure an IPsec tunnel can be established successfully, the IPsec transform sets specified at both ends of the tunnel must have the same first ESP encryption algorithm.

GCM and GMAC algorithms are combined mode algorithms. GCM algorithms provide encryption and authentication services. GMAC algorithms only provide authentication service. Combined mode algorithms can be used only when ESP is used alone without AH. Combined mode algorithms cannot be used together with ordinary ESP authentication algorithms.

Examples

# Configure IPsec transform set tran1 to use the AES-CBC-128 algorithm as the ESP encryption algorithm.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] esp encryption-algorithm aes-cbc-128

Related commands

ipsec transform-set

ike-profile

Use ike-profile to specify an IKE profile for an IPsec policy, IPsec profile, or IPsec policy template.

Use undo ike-profile to restore the default.

Syntax

ike-profile profile-name

undo ike-profile

Default

No IKE profile is specified.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

profile-name: Specifies an IKE profile by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

If no IKE profile is specified for an IPsec policy, IPsec profile, or IPsec policy template, the device selects an IKE profile configured in system view for negotiation. If no IKE profile is configured in system view, the device uses the global IKE settings.

The IKE profile specified for an IPsec policy, IPsec profile, or IPsec policy template defines the parameters used for IKE negotiation.

You can specify only one IKE profile for an IPsec policy, IPsec profile, or IPsec policy template.

Examples

# Specify IKE profile profile1 for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec policy policy1 10 isakmp

[Sysname-ipsec-policy-isakmp-policy1-10] ike-profile profile1

Related commands

ike profile

ikev2-profile

Use ikev2-profile to specify an IKEv2 profile for an IPsec policy, IPsec profile, or IPsec policy template.

Use undo ikev2-profile to restore the default.

Syntax

ikev2-profile profile-name

undo ikev2-profile

Default

No IKEv2 profile is specified.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

profile-name: Specifies an IKEv2 profile by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

The IKEv2 profile specified for an IPsec policy, IPsec profile, or IPsec policy template defines the parameters used for IKEv2 negotiation.

You can specify only one IKEv2 profile for an IPsec policy, IPsec profile, or IPsec policy template. On the initiator, an IKEv2 profile is required. On the responder, an IKEv2 profile is optional. If you do not specify an IKEv2 profile, the responder can use any IKEv2 profile for negotiation.

Examples

# Specify IKEv2 profile profile1 for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec policy policy1 10 isakmp

[Sysname-ipsec-policy-isakmp-policy1-10] ikev2-profile profile1

Related commands

display ipsec ipv6-policy

display ipsec policy

ikev2 profile

ipsec { ipv6-policy | policy }

Use ipsec { ipv6-policy | policy } to create an IPsec policy entry and enter its view, or enter the view of an existing IPsec policy entry.

Use undo ipsec { ipv6-policy | policy } to delete an IPsec policy.

Syntax

ipsec { ipv6-policy | policy } policy-name seq-number [ isakmp | manual ]

undo ipsec { ipv6-policy | policy } policy-name [ seq-number ]

Default

No IPsec policies exist.

Views

System view

Predefined user roles

network-admin

Parameters

ipv6-policy: Specifies an IPv6 IPsec policy.

policy: Specifies an IPv4 IPsec policy.

policy-name: Specifies a name for the IPsec policy, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies a sequence number for the IPsec policy entry, in the range of 1 to 65535.

isakmp: Establishes IPsec SAs through IKE negotiation.

manual: Establishes IPsec SAs manually.

Usage guidelines

When you create an IPsec policy, you must specify the SA setup mode (isakmp or manual). When you enter the view of an existing IPsec policy, you do not need to specify the SA setup mode.

You cannot change the SA setup mode of an existing IPsec policy.

An IPsec policy is a set of IPsec policy entries that have the same name but different sequence numbers. In the same IPsec policy, an IPsec policy entry with a smaller sequence number has a higher priority.

If you specify the seq-number argument, the undo command deletes the specified IPsec policy entry. If you do not specify this argument, the undo command deletes the specified IPsec policy.

An IPv4 IPsec policy and IPv6 IPsec policy can have the same name.

Examples

# Create an IKE-based IPsec policy entry and enter the IPsec policy view. The policy name is policy1 and the sequence number is 100.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 isakmp

[Sysname-ipsec-policy-isakmp-policy1-100]

# Create a manual IPsec policy entry and enter the IPsec policy view. The policy name is policy1 and the sequence number is 101.

<Sysname> system-view

[Sysname] ipsec policy policy1 101 manual

[Sysname-ipsec-policy-manual-policy1-101]

Related commands

display ipsec { ipv6-policy | policy }

ipsec apply

ipsec { ipv6-policy | policy } isakmp template

Use ipsec { ipv6-policy | policy } isakmp template to create an IKE-based IPsec policy entry by using an IPsec policy template.

Use undo ipsec { ipv6-policy | policy } to delete an IPsec policy.

Syntax

ipsec { ipv6-policy | policy } policy-name seq-number isakmp template template-name

undo ipsec { ipv6-policy | policy } policy-name [ seq-number ]

Default

No IPsec policies exist.

Views

System view

Predefined user roles

network-admin

Parameters

ipv6-policy: Specifies an IPv6 IPsec policy.

policy: Specifies an IPv4 IPsec policy.

policy-name: Specifies a name for the IPsec policy, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies a sequence number for the IPsec policy, in the range of 1 to 65535. A smaller number indicates a higher priority.

isakmp template template-name: Specifies an IPsec policy template by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

If you specify the seq-number argument, the undo command deletes the specified IPsec policy entry. If you do not specify this argument, the undo command deletes the specified IPsec policy.

An interface applied with an IPsec policy that is configured by using an IPsec policy template cannot initiate an SA negotiation, but it can respond to a negotiation request. The parameters not defined in the template are determined by the initiator. When the remote end's information (such as the IP address) is unknown, this method allows the remote end to initiate negotiations with the local end.

Examples

# Create an IPsec policy entry by using IPsec policy template temp1, and specify the IPsec policy name as policy2 and the sequence number as 200.

<Sysname> system-view

[Sysname] ipsec policy policy2 200 isakmp template temp1

Related commands

display ipsec { ipv6-policy | policy }

ipsec { ipv6-policy-template | policy-template }

ipsec { ipv6-policy | policy } local-address

Use ipsec { ipv6-policy | policy } local-address to bind an IPsec policy to a source interface.

Use undo ipsec { ipv6-policy | policy } local-address to remove the binding between an IPsec policy and a source interface.

Syntax

ipsec { ipv6-policy | policy } policy-name local-address interface-type interface-number

undo ipsec { ipv6-policy | policy } policy-name local-address

Default

No IPsec policy is bound to a source interface.

Views

System view

Predefined user roles

network-admin

Parameters

ipv6-policy: Specifies an IPv6 IPsec policy.

policy: Specifies an IPv4 IPsec policy.

policy-name: Specifies an IPsec policy name, a case-insensitive string of 1 to 63 characters.

local-address interface-type interface-number: Specifies the shared source interface by its type and number.

Usage guidelines

For high availability, two interfaces can operate in backup mode. After an IPsec policy is applied to the two interfaces, they negotiate with their peers to establish IPsec SAs separately. When one interface fails and a link failover occurs, the other interface needs to take some time to renegotiate SAs, resulting in service interruption.

To solve these problems, bind a source interface to an IPsec policy and apply the policy to both interfaces. This enables the two physical interfaces to use the same source interface to negotiate IPsec SAs. As long as the source interface is up, the negotiated IPsec SAs will not be removed and will keep working, regardless of link failover.

After an IPsec policy is applied to a service interface and IPsec SAs have been established, if you bind the IPsec policy to a source interface, the existing IPsec SAs are deleted.

Only an IKE-based IPsec policy can be bound to a source interface.

An IPsec policy can be bound to only one source interface. If you execute this command multiple times, the most recent configuration takes effect.

A source interface can be bound to multiple IPsec policies.

As a best practice, use a stable interface, such as a Loopback interface, as a source interface.

Examples

# Bind IPsec policy map to source interface Loopback 11.

<Sysname> system-view

[Sysname] ipsec policy map local-address loopback 11

Related commands

ipsec { ipv6-policy | policy }

ipsec { ipv6-policy-template | policy-template }

Use ipsec { ipv6-policy-template | policy-template } to create an IPsec policy template entry and enter its view, or enter the view of an existing IPsec policy template entry.

Use undo ipsec { ipv6-policy-template | policy-template } to delete an IPsec policy template.

Syntax

ipsec { ipv6-policy-template | policy-template } template-name seq-number

undo ipsec { ipv6-policy-template | policy-template } template-name [ seq-number ]

Default

No IPsec policy templates exist.

Views

System view

Predefined user roles

network-admin

Parameters

ipv6-policy-template: Specifies an IPv6 IPsec policy template.

policy-template: Specifies an IPv4 IPsec policy template.

template-name: Specifies a name for the IPsec policy template, a case-insensitive string of 1 to 63 characters.

seq-number: Specifies a sequence number for the IPsec policy template entry, in the range of 1 to 65535. A smaller number indicates a higher priority.

Usage guidelines

The configurable parameters for an IPsec policy template are similar to the parameters that you use when you configure an IKE-based IPsec policy. However, all parameters except for the IPsec transform sets and the IKE peer are optional for an IPsec policy template.

An IPsec policy template is a set of IPsec policy template entries that have the same name but different sequence numbers.

With the seq-number argument specified, the undo command deletes an IPsec policy template entry.

An IPv4 IPsec policy template and an IPv6 IPsec policy template can have the same name.

Examples

# Create an IPsec policy template entry and enter the IPsec policy template view. The template name is template1 and the sequence number is 100.

<Sysname> system-view

[Sysname] ipsec policy-template template1 100

[Sysname-ipsec-policy-template-template1-100]

Related commands

display ipsec { ipv6-policy-template | policy-template }

ipsec { ipv6-policy | policy }

ipsec { ipv6-policy | policy } isakmp template

ipsec anti-replay check

Use ipsec anti-replay check to enable IPsec anti-replay checking.

Use undo ipsec anti-replay check to disable IPsec anti-replay checking.

Syntax

ipsec anti-replay check

undo ipsec anti-replay check

Default

IPsec anti-replay checking is enabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

IPsec packet de-encapsulation involves complicated calculation. De-encapsulation of replayed packets is not necessary but consumes large amounts of resources and degrades performance, resulting in DoS. IPsec anti-replay checking, when enabled, is performed before the de-encapsulation process, reducing resource waste.

In some situations, service data packets are received in a different order than their original order. The IPsec anti-replay feature drops them as replayed packets, which impacts communications. If this happens, disable IPsec anti-replay checking or adjust the size of the anti-replay window as required.

Only IPsec SAs negotiated by IKE support anti-replay checking. Manually created IPsec SAs do not support anti-replay checking. Enabling or disabling IPsec anti-replay checking does not affect manually created IPsec SAs.

Examples

# Enable IPsec anti-replay checking.

<Sysname> system-view

[Sysname] ipsec anti-replay check

Related commands

ipsec anti-replay window

ipsec anti-replay window

Use ipsec anti-replay window to set the anti-replay window size.

Use undo ipsec anti-replay window to restore the default.

Syntax

ipsec anti-replay window width

undo ipsec anti-replay window

Default

The anti-replay window size is 64.

Views

System view

Predefined user roles

network-admin

Parameters

width: Specifies the size for the anti-replay window. It can be 64, 128, 256, 512, or 1024 packets.

Usage guidelines

Service data packets might be received in a very different order than their original order, and the IPsec anti-replay feature might drop them as replayed packets, affecting normal communications. If this happens, disable IPsec anti-replay checking or adjust the size of the anti-replay window as required.

Changing the anti-replay window size affects only the IPsec SAs negotiated later.

Examples

# Set the size of the anti-replay window to 128.

<Sysname> system-view

[Sysname] ipsec anti-replay window 128

Related commands

ipsec anti-replay check

ipsec apply

Use ipsec apply to apply an IPsec policy to an interface.

Use undo ipsec apply to remove an IPsec policy application from an interface.

Syntax

ipsec apply { ipv6-policy | policy } policy-name

undo ipsec apply { ipv6-policy | policy }

Default

No IPsec policy is applied to an interface.

Views

Interface view

Predefined user roles

network-admin

Parameters

ipv6-policy: Specifies an IPv6 IPsec policy.

policy: Specifies an IPv4 IPsec policy.

policy-name: Specifies an IPsec policy name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

On an interface, you can apply a maximum of two IPsec policies: one IPv4 IPsec policy and one IPv6 IPsec policy.

An IKE-based IPsec policy that is bound to a source interface can be applied to multiple interfaces. A manual IPsec policy can be applied to only one interface.

Examples

# Apply IPsec policy policy1 to VLAN-interface 100.

<Sysname> system-view

[Sysname] interface vlan-interface 100

[Sysname–Vlan-interface100] ipsec apply policy policy1

Related commands

display ipsec { ipv6-policy | policy }

ipsec { ipv6-policy | policy }

ipsec decrypt-check enable

Use ipsec decrypt-check enable to enable ACL checking for de-encapsulated IPsec packets.

Use undo ipsec decrypt-check to disable ACL checking for de-encapsulated IPsec packets.

Syntax

ipsec decrypt-check enable

undo ipsec decrypt-check enable

Default

ACL checking for de-encapsulated IPsec packets is enabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

In tunnel mode, the IP packet encapsulated in an inbound IPsec packet might not be under the protection of the ACL specified in the IPsec policy. After being de-encapsulated, such packets bring threats to the network security. In this scenario, you can enable ACL checking for de-encapsulated IPsec packets. All packets failing the checking are discarded, improving the network security.

Examples

# Enable ACL checking for de-encapsulated IPsec packets.

<Sysname> system-view

[Sysname] ipsec decrypt-check enable

ipsec df-bit

Use ipsec df-bit to configure the DF bit for the outer IP header of IPsec packets on an interface.

Use undo ipsec df-bit to restore the default.

Syntax

ipsec df-bit { clear | copy | set }

undo ipsec df-bit

Default

The DF bit is not configured for the outer IP header of IPsec packets on an interface. The global DF bit setting is used.

Views

Interface view

Predefined user roles

network-admin

Parameters

clear: Clears the DF bit in the outer IP header. IPsec packets can be fragmented.

copy: Copies the DF bit setting of the original IP header to the outer IP header.

set: Sets the DF bit in the outer IP header. IPsec packets cannot be fragmented.

Usage guidelines

This command is effective only when the IPsec encapsulation mode is tunnel mode. It is not effective in transport mode because the outer IP header is not added in transport mode.

This command does not change the DF bit for the original IP header of IPsec packets.

If multiple interfaces use an IPsec policy that is bound to a source interface, you must use the same DF bit setting on these interfaces.

Packet fragmentation and reassembly might cause packet forwarding to be delayed. You can set the DF bit to avoid the forwarding delay. However, to prevent the IPsec packets from being discarded, you must make sure the path MTU is larger than the IPsec packet size. As a best practice, clear the DF bit if you cannot make sure the path MTU is larger than the IPsec packet size.

Examples

# Set the DF bit in the outer IP header of IPsec packets on VLAN-interface100.

<Sysname> system-view

[Sysname] interface vlan-interface 100

[Sysname–Vlan-interface100] ipsec df-bit set

Related commands

ipsec global-df-bit

ipsec fragmentation

Use ipsec fragmentation to configure the IPsec fragmentation feature.

Use undo ipsec fragmentation to restore the default.

Syntax

ipsec fragmentation { after-encryption | before-encryption }

undo ipsec fragmentation

Default

The device fragments packets before IPsec encapsulation.

Views

System view

Predefined user roles

network-admin

Parameters

after-encryption: Fragments packets after IPsec encapsulation.

before-encryption: Fragments packets before IPsec encapsulation.

Usage guidelines

If you configure the device to fragment packets before IPsec encapsulation, the device predetermines the encapsulated packet size before the actual encapsulation. If the encapsulated packet size exceeds the MTU of the output interface and the DF bit is not set, the device fragments the packet before encapsulation. If the packet's DF bit is set, the device drops the packet and sends an ICMP error message.

If you configure the device to fragment packets after IPsec encapsulation, the device directly encapsulates the packets and fragments the encapsulated packets in subsequent service modules.

Examples

# Configure the device to fragment packets after IPsec encapsulation.

<Sysname>system-view

[Sysname] ipsec fragmentation after-encryption

ipsec global-df-bit

Use ipsec global-df-bit to configure the DF bit for the outer IP header of IPsec packets on all interfaces.

Use undo ipsec global-df-bit to restore the default.

Syntax

ipsec global-df-bit { clear | copy | set }

undo ipsec global-df-bit

Default

The DF bit setting of the original IP header is copied to the outer IP header for IPsec packets.

Views

System view

Predefined user roles

network-admin

Parameters

clear: Clears the DF bit in the outer IP header. IPsec packets can be fragmented.

copy: Copies the DF bit setting of the original IP header to the outer IP header.

set: Sets the DF bit in the outer IP header. IPsec packets cannot be fragmented.

Usage guidelines

This command is effective only when the IPsec encapsulation mode is tunnel mode. It is not effective in transport mode because the outer IP header is not added in transport mode.

This command does not change the DF bit for the original IP header of IPsec packets.

Packet fragmentation and reassembly might cause packet forwarding to be delayed. You can set the DF bit to avoid the forwarding delay. However, to prevent IPsec packets from being discarded, you must make sure the path MTU is larger than the IPsec packet size. As a best practice, clear the DF bit if you cannot make sure the path MTU is larger than the IPsec packet size.

Examples

# Set the DF bit in the outer IP header of IPsec packets on all interfaces.

<Sysname> system-view

[Sysname] ipsec global-df-bit set

Related commands

ipsec df-bit

ipsec limit max-tunnel

Use ipsec limit max-tunnel to set the maximum number of IPsec tunnels.

Use undo ipsec limit max-tunnel to restore the default.

Syntax

ipsec limit max-tunnel tunnel-limit

undo ipsec limit max-tunnel

Default

The number of IPsec tunnels is not limited.

Views

System view

Predefined user roles

network-admin

Parameters

tunnel-limit: Specifies the maximum number of IPsec tunnels, in the range of 1 to 4294967295.

Usage guidelines

To maximize concurrent performance of IPsec when memory is sufficient, increase the maximum number of IPsec tunnels. To ensure service availability when memory is insufficient, decrease the maximum number of IPsec tunnels.

Examples

# Set the maximum number of IPsec tunnels to 5000.

<Sysname> system-view

[Sysname] ipsec limit max-tunnel 5000

Related commands

ike limit

ipsec logging negotiation enable

Use ipsec logging negotiation enable to enable logging for IPsec negotiation.

Use undo ipsec logging negotiation packet enable to disable logging for IPsec negotiation.

Syntax

ipsec logging negotiation enable

undo ipsec logging negotiation enable

Default

Logging for IPsec negotiation is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

This command enables the device to output logs for the IPsec negotiation process.

Examples

# Enable logging for IPsec negotiation.

<Sysname> system-view

[Sysname] ipsec logging negotiation enable

ipsec logging packet enable

Use ipsec logging packet enable to enable logging for IPsec packets.

Use undo ipsec logging packet enable to disable logging for IPsec packets.

Syntax

ipsec logging packet enable

undo ipsec logging packet enable

Default

Logging for IPsec packets is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

After logging for IPsec packets is enabled, the device outputs a log when an IPsec packet is discarded. IPsec packets might be discarded due to lack of inbound SA, AH/ESP authentication failure, or ESP encryption failure. A log contains the source and destination IP addresses, SPI, and sequence number of the packet, and the reason it was discarded.

Examples

# Enable logging for IPsec packets.

<Sysname> system-view

[Sysname] ipsec logging packet enable

ipsec profile

Use ipsec profile to create an IPsec profile and enter its view, or enter the view of an existing IPsec profile.

Use undo ipsec profile to delete an IPsec profile.

Syntax

ipsec profile profile-name [ manual | isakmp ]

undo ipsec profile profile-name

Default

No IPsec profiles exist.

Views

System view

Predefined user roles

network-admin

Parameters

profile-name: Specifies a name for the IPsec profile, a case-insensitive string of 1 to 63 characters.

manual: Specifies the IPsec SA setup mode as manual.

isakmp: Specifies the IPsec SA setup mode as IKE.

Usage guidelines

When you create an IPsec profile, you must specify the IPsec SA setup mode (manual or isakmp). When you enter the view of an existing IPsec profile, you do not need to specify the IPsec SA setup mode.

A manual IPsec profile is similar to a manual IPsec policy. It is used exclusively for IPsec protection for application protocols.

An IKE-based IPsec profile is similar to an IKE-based IPsec policy. It uses IKE negotiation to establish IPsec SAs to protect IPv4 and IPv6 application protocols. An IKE-based IPsec profile does not require you to specify the remote end address or an ACL.

Examples

# Create a manual IPsec profile named profile1.

<Sysname> system-view

[Sysname] ipsec profile profile1 manual

[Sysname-ipsec-profile-manual-profile1]

# Create an IKE-based IPsec profile named profile1.

<Sysname> system-view

[Sysname] ipsec profile profile1 isakmp

[Sysname-ipsec-profile-isakmp-profile1]

Related commands

display ipsec profile

ipsec redundancy enable

Use ipsec redundancy enable to enable IPsec redundancy.

Use undo ipsec redundancy enable to disable IPsec redundancy.

Syntax

ipsec redundancy enable

undo ipsec redundancy enable

Default

IPsec redundancy is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

With IPsec redundancy enabled, the system synchronizes the following information from the active device to the standby device at configurable intervals:

·     Lower bound values of the IPsec anti-replay window for inbound packets.

·     IPsec anti-replay sequence numbers for outbound packets.

The synchronization ensures uninterrupted IPsec traffic forwarding and anti-replay protection when the active device fails.

To configure synchronization intervals, use the redundancy replay-interval command.

Examples

# Enable IPsec redundancy.

<Sysname> system-view

[Sysname] ipsec redundancy enable

Related commands

redundancy replay-interval

ipsec sa global-duration

Use ipsec sa global-duration to configure the global IPsec SA lifetime.

Use undo ipsec sa global-duration to restore the default.

Syntax

ipsec sa global-duration { time-based seconds | traffic-based kilobytes }

undo ipsec sa global-duration { time-based | traffic-based }

Default

The time-based global IPsec SA lifetime is 3600 seconds, and the traffic-based global lifetime is 1843200 Kilobytes.

Views

System view

Predefined user roles

network-admin

Parameters

time-based seconds: Specifies the time-based global lifetime for IPsec SAs, in the range of 180 to 604800 seconds.

traffic-based kilobytes: Specifies the traffic-based global lifetime for IPsec SAs, in the range of 2560 to 4294967295 Kilobytes. When traffic on an SA reaches this value, the SA expires.

Usage guidelines

You can also configure IPsec SA lifetimes in IPsec policy view or IPsec policy template view. The device prefers the IPsec SA lifetimes configured in IPsec policy view or IPsec policy template view over the global IPsec SA lifetimes.

When IKE negotiates IPsec SAs, it uses the local lifetime settings or those proposed by the peer, whichever are smaller.

An IPsec SA can have both a time-based lifetime and a traffic-based lifetime. The IPsec SA expires when either lifetime expires. Before the IPsec SA expires, IKE negotiates a new IPsec SA, which takes over immediately after its creation.

Examples

# Configure the global IPsec SA lifetime as 7200 seconds.

<Sysname> system-view

[Sysname] ipsec sa global-duration time-based 7200

# Configure the global IPsec SA lifetime as 10240 Kilobytes.

[Sysname] ipsec sa global-duration traffic-based 10240

Related commands

display ipsec sa

sa duration

ipsec sa global-soft-duration buffer

Use ipsec sa global-soft-duration buffer to set the global time-based or traffic-based IPsec SA soft lifetime buffer.

Use undo ipsec sa global-soft-duration buffer to restore the default.

Syntax

ipsec sa global-soft-duration buffer { time-based seconds | traffic-based kilobytes }

undo ipsec sa global-soft-duration buffer { time-based | traffic-based }

Default

The global time-based and traffic-based IPsec SA soft lifetime buffers are not configured.

Views

System view

Predefined user roles

network-admin

Parameters

time-based seconds: Specifies the time-based IPsec SA soft lifetime buffer, in seconds. The value range is 20 to 201600.

traffic-based kilobytes: Specifies the traffic-based IPsec SA soft lifetime buffer, in Kilobytes. The value range is 1000 to 4294901760.

Usage guidelines

This command takes effect only when IKEv1 is used.

The IPsec SA soft lifetime buffers are used to determine the IPsec SA soft lifetimes.

If no IPsec SA soft lifetime buffers are configured, the system calculates a default time-based and a default traffic-based IPsec SA soft lifetime.

If IPsec SA soft lifetime buffers are configured, the system calculates IPsec SA soft lifetimes as follows:

·     Time-based IPsec SA soft lifetime = time-based IPsec SA lifetime – time-based IPsec SA soft lifetime buffer.

If the calculated time-based IPsec SA soft lifetime is shorter than or equal to 20 seconds, the system uses the default time-based IPsec SA soft lifetime.

·     Traffic-based IPsec SA soft lifetime = traffic-based IPsec SA lifetime – traffic-based IPsec SA soft lifetime buffer.

If the calculated traffic-based IPsec SA soft lifetime is smaller than or equal to 1000 Kilobytes, the system uses the default traffic-based IPsec SA soft lifetime.

You can also configure IPsec SA soft lifetime buffers in IPsec policy view or IPsec profile view. The device prefers the IPsec SA lifetime buffers configured in IPsec policy view or IPsec profile view over the global lifetime buffers configured in system view.

Examples

# Set the global time-based IPsec SA soft lifetime buffer to 600 seconds.

<Sysname> system-view

[Sysname] ipsec sa global-soft-duration buffer time-based 600

# Set the global traffic-based IPsec SA soft lifetime buffer to 10000 Kilobytes.

<Sysname> system-view

[Sysname] ipsec sa global-soft-duration buffer traffic-based 10000

Related commands

sa soft-duration buffer

ipsec sa idle-time

Use ipsec sa idle-time to enable the global IPsec SA idle timeout feature and set the idle timeout.

Use undo ipsec sa idle-time to disable the global IPsec SA idle timeout feature.

Syntax

ipsec sa idle-time seconds

undo ipsec sa idle-time

Default

The global IPsec SA idle timeout feature is disabled.

Views

System view

Predefined user roles

network-admin

Parameters

seconds: Specifies the IPsec SA idle timeout in the range of 60 to 86400 seconds.

Usage guidelines

This feature applies only to IPsec SAs negotiated by IKE.

The IPsec SA idle timer starts when an IPsec SA is created. If no traffic matches the IPsec SA within the idle timeout interval, the IPsec SA is deleted.

The IPsec SA idle timeout can also be configured in IPsec policy view, IPsec profile view, or IPsec policy template view, which takes precedence over the global IPsec SA timeout.

Examples

# Enable the global IPsec SA idle timeout feature and set the IPsec SA idle timeout to 600 seconds.

<Sysname> system-view

[Sysname] ipsec sa idle-time 600

Related commands

display ipsec sa

sa idle-time

ipsec transform-set

Use ipsec transform-set to create an IPsec transform set and enter its view, or enter the view of an existing IPsec transform set.

Use undo ipsec transform-set to delete an IPsec transform set.

Syntax

ipsec transform-set transform-set-name

undo ipsec transform-set transform-set-name

Default

No IPsec transform sets exist.

Views

System view

Predefined user roles

network-admin

Parameters

transform-set-name: Specifies a name for the IPsec transform set, a case-insensitive string of 1 to 63 characters.

Usage guidelines

An IPsec transform set, part of an IPsec policy, defines the security parameters for IPsec SA negotiation, including the security protocol, encryption algorithms, authentication algorithms, and encapsulation mode.

Examples

# Create an IPsec transform set named tran1 and enter its view.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-transform-set-tran1]

Related commands

display ipsec transform-set

local-address

Use local-address to configure the local IP address for the IPsec tunnel.

Use undo local-address to restore the default.

Syntax

local-address { ipv4-address | ipv6 ipv6-address }

undo local-address

Default

The primary IPv4 address of the interface to which the IPsec policy is applied is used as the local IPv4 address. The first IPv6 address of the interface to which the IPsec policy is applied is used as the local IPv6 address.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

ipv4-address: Specifies the local IPv4 address for the IPsec tunnel.

ipv6 ipv6-address: Specifies the local IPv6 address for the IPsec tunnel.

Usage guidelines

The remote IP address on the IKE negotiation initiator must be the same as the local address on the IKE negotiation responder.

The local address cannot be a secondary IP address of the interface where the IPsec policy is applied.

Examples

# Configure local address 1.1.1.1 for the IPsec tunnel.

<Sysname> system-view

[Sysname] ipsec policy map 1 isakmp

[Sysname-ipsec-policy-isakmp-map-1] local-address 1.1.1.1

Related commands

remote-address

pfs

Use pfs to enable the Perfect Forward Secrecy (PFS) feature for an IPsec transform set.

Use undo pfs to restore the default.

Syntax

pfs { dh-group1 | dh-group2 | dh-group5 | dh-group14 | dh-group19 | dh-group20 | dh-group24 }

undo pfs

Default

The PFS feature is disabled for the IPsec transform set.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

dh-group1: Uses 768-bit Diffie-Hellman group.

dh-group2: Uses 1024-bit Diffie-Hellman group.

dh-group5: Uses 1536-bit Diffie-Hellman group.

dh-group14: Uses 2048-bit Diffie-Hellman group.

dh-group24: Uses 2048-bit and 256-bit subgroup Diffie-Hellman group.

dh-group19: Uses 256-bit ECP Diffie-Hellman group. This keyword is available only for IKEv2.

dh-group20: Uses 384-bit ECP Diffie-Hellman group. This keyword is available only for IKEv2.

dh-group24: Uses 2048-bit and 256-bit subgroup Diffie-Hellman group.

Usage guidelines

In terms of security and required calculation time, the following groups are in descending order:

·     384-bit ECP Diffie-Hellman group (dh-group20).

·     256-bit ECP Diffie-Hellman group (dh-group19).

·     2048-bit and 256-bit subgroup Diffie-Hellman group (dh-group24).

·     2048-bit Diffie-Hellman group (dh-group14).

·     1536-bit Diffie-Hellman group (dh-group5).

·     1024-bit Diffie-Hellman group (dh-group2).

·     768-bit Diffie-Hellman group (dh-group1).

If IKEv1 is used, the security level of the Diffie-Hellman group of the initiator must be higher than or equal to that of the responder. This restriction does not apply to IKEv2.

The end without the PFS feature performs IKE negotiation according to the PFS requirements of the peer end.

Examples

# Enable PFS using 2048-bit Diffie-Hellman group for IPsec transform set tran1.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] pfs dh-group14

protocol

Use protocol to specify a security protocol for an IPsec transform set.

Use undo protocol to restore the default.

Syntax

protocol { ah | ah-esp | esp }

undo protocol

Default

The IPsec transform set uses the ESP protocol.

Views

IPsec transform set view

Predefined user roles

network-admin

Parameters

ah: Specifies the AH protocol.

ah-esp: Specifies using the ESP protocol first and then using the AH protocol.

ah: Specifies the AH protocol.

Usage guidelines

The two tunnel ends must use the same security protocol in the IPsec transform set.

Examples

# Specify the AH protocol for the IPsec transform set.

<Sysname> system-view

[Sysname] ipsec transform-set tran1

[Sysname-ipsec-transform-set-tran1] protocol ah

qos pre-classify

Use qos pre-classify to enable the QoS pre-classify feature.

Use undo qos pre-classify to disable the QoS pre-classify feature.

Syntax

qos pre-classify

undo qos pre-classify

Default

The QoS pre-classify feature is disabled. QoS uses the new IP header of IPsec packets to perform traffic classification.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Usage guidelines

The QoS pre-classify feature enables QoS to classify packets by using the IP header of the original IP packets.

Examples

# Enable the QoS pre-classify feature.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] qos pre-classify

redundancy replay-interval

Use redundancy replay-interval to set the anti-replay window lower bound value synchronization interval for inbound packets and the sequence number synchronization interval for outbound packets.

Use undo redundancy replay-interval to restore the default.

Syntax

redundancy replay-interval inbound inbound-interval outbound outbound-interval

undo redundancy replay-interval

Default

The active device synchronizes the anti-replay window lower bound value every time it receives 1000 packets and synchronizes the sequence number every time it sends 100000 packets.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

inbound inbound-interval: Specifies the interval at which the active device synchronizes the lower bound value of the IPsec anti-replay window to the standby device. This interval is expressed in the number of received packets, in the range of 0 to 1000. If you set the value to 0, the lower bound value of the anti-replay window will not be synchronized.

outbound outbound-interval: Specifies the interval at which the active device synchronizes the IPsec anti-replay sequence number to the standby device. This interval is expressed in the number of sent packets, in the range of 1000 to 100000.

Usage guidelines

The intervals take effect only after you enable IPsec redundancy by using the ipsec redundancy enable command.

A short interval improves the anti-replay information consistency between the active device and the standby device, but it sacrifices the forwarding performance of the devices.

Examples

# Set the anti-replay window lower bound value synchronization interval for inbound packets to 800. Set the sequence number synchronization interval for outbound packets to 50000.

<Sysname> system-view

[Sysname] ipsec policy test 1 manual

[sysname-ipsec-policy-manual-test-1] redundancy replay-interval inbound 800 outbound 50000

Related commands

ipsec anti-replay check

ipsec anti-replay window

ipsec redundancy enable

remote-address

Use remote-address to configure the remote IP address for the IPsec tunnel.

Use undo remote-address to restore the default.

Syntax

remote-address { [ ipv6 ] host-name | ipv4-address | ipv6 ipv6-address }

undo remote-address

Default

No remote IP address is configured for the IPsec tunnel.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

ipv6: Specifies the remote address or host name of an IPv6 IPsec tunnel. To specify the remote address or host name of an IPv4 IPsec tunnel, do not specify this keyword.

hostname: Specifies the remote host name, a case-insensitive string of 1 to 253 characters. The host name can be resolved to an IP address by the DNS server.

ipv4-address: Specifies a remote IPv4 address.

ipv6-address: Specifies a remote IPv6 address.

Usage guidelines

This remote IP address configuration is required on the IKE negotiation initiator and optional on the responder if the responder uses an IPsec policy template.

A manual IPsec policy does not support DNS. Therefore, you must specify a remote IP address rather than a remote host name for the manual IPsec policy.

If you configure a remote host name, make sure the local end can always resolve the host name into the latest IP address of the remote end.

·     If a DNS server is used for resolution, the local end queries the remote IP address again from the DNS server after the previously cached remote IP address expires. This mechanism ensures that the local end can always obtain the latest remote IP address.

·     If a static DNS entry is used for resolution, you must reconfigure the remote-address command whenever the remote IP address changes. Without the reconfiguration, the local end cannot obtain the latest remote IP address.

For example, the local end has a static DNS entry which maps the host name test to the IP address 1.1.1.1. Configure the following commands:

# Configure the remote host name to test for the IPsec tunnel in the IPsec policy policy1.

[Sysname] ipsec policy policy1 1 isakmp

[Sysname-ipsec-policy-isakmp-policy1-1] remote-address test

# Change the IP address for the host test to 2.2.2.2.

[Sysname] ip host test 2.2.2.2

In this case, you must reconfigure the remote host name for the IPsec policy policy1 so that the local end can obtain the latest IP address of the remote host.

# Reconfigure the remote host name to test for the IPsec tunnel in the IPsec policy policy1.

[Sysname] ipsec policy policy1 1 isakmp

[Sysname -ipsec-policy-isakmp-policy1-1] remote-address test

Examples

# Specify remote IP address 10.1.1.2 for the IPsec tunnel.

<Sysname> system-view

[Sysname] ipsec policy policy1 10 manual

[Sysname-ipsec-policy-manual-policy1-10] remote-address 10.1.1.2

Related commands

ip host (Network Connectivity Command Reference)

local-address

reset ipsec sa

Use reset ipsec sa to clear IPsec SAs.

Syntax

reset ipsec sa [ { ipv6-policy | policy } policy-name [ seq-number ] | profile policy-name | remote { ipv4-address | ipv6 ipv6-address } | spi { ipv4-address | ipv6 ipv6-address } { ah | esp } spi-num ]

Views

User view

Predefined user roles

network-admin

Parameters

{ ipv6-policy | policy } policy-name [ seq-number ]: Clears IPsec SAs for the specified IPsec policy.

·     ipv6-policy: Specifies an IPv6 IPsec policy.

·     policy: Specifies an IPv4 IPsec policy.

·     policy-name: Specifies the name of the IPsec policy, a case-insensitive string of 1 to 63 characters.

·     seq-number: Specifies the sequence number of an IPsec policy entry, in the range of 1 to 65535. If you do not specify this argument, all the entries in the IPsec policy are specified.

profile profile-name: Clears IPsec SAs for the IPsec profile specified by its name, a case-insensitive string of 1 to 63 characters.

remote: Clears IPsec SAs for the specified remote address.

ipv4-address: Specifies a remote IPv4 address.

ipv6 ipv6-address: Specifies a remote IPv6 address.

spi { ipv4-address | ipv6 ipv6-address } { ah | esp } spi-num: Clears IPsec SAs matching the specified SA triplet: the remote address, the security protocol, and the SPI.

·     ipv4-address: Specifies a remote IPv4 address.

·     ipv6 ipv6-address: Specifies a remote IPv6 address.

·     ah: Specifies the AH protocol.

·     esp: Specifies the ESP protocol.

spi-num: Specifies the security parameter index in the range of 256 to 4294967295.

Usage guidelines

If you do not specify any parameters, this command clears all IPsec SAs.

If you specify an SA triplet, this command clears the IPsec SA matching the triplet, and all the other IPsec SAs that were established during the same negotiation process, including the corresponding IPsec SA in the other direction, and the inbound and outbound IPsec SAs using the other security protocol (AH or ESP).

An outbound SA is uniquely identified by an SA triplet and an inbound SA is uniquely identified by an SPI. To clear IPsec SAs by specifying a triplet in the outbound direction, you should provide the remote IP address, the security protocol, and the SPI, where the remote IP address can be any valid address if the SAs are established by IPsec profiles. To clear IPsec SAs by specifying a triplet in the inbound direction, you should provide the SPI and use any valid values for the other two parameters.

After a manual IPsec SA is cleared, the system automatically creates a new SA based on the parameters of the IPsec policy. After IKE negotiated SAs are cleared, the system creates new SAs only when IKE negotiation is triggered by packets.

Examples

# Clear all IPsec SAs.

<Sysname> reset ipsec sa

# Clear the inbound and outbound IPsec SAs for the triplet of SPI 256, remote IP address 10.1.1.2, and security protocol AH.

<Sysname> reset ipsec sa spi 10.1.1.2 ah 256

# Clear all IPsec SAs for remote IP address 10.1.1.2.

<Sysname> reset ipsec sa remote 10.1.1.2

# Clear all IPsec SAs for entry 10 of IPsec policy policy1.

<Sysname> reset ipsec sa policy policy1 10

# Clear all IPsec SAs for IPsec policy policy1.

<Sysname> reset ipsec sa policy policy1

Related commands

display ipsec sa

reset ipsec statistics

Use reset ipsec statistics to clear IPsec packet statistics.

Syntax

reset ipsec statistics[ tunnel-id tunnel-id ]

Views

User view

Predefined user roles

network-admin

Parameters

tunnel-id tunnel-id: Clears IPsec packet statistics for the specified IPsec tunnel. The value range for the tunnel-id argument is 0 to 4294967295. If you do not specify this option, the command clears all IPsec packet statistics.

Examples

# Clear IPsec packet statistics.

<Sysname> reset ipsec statistics

Related commands

display ipsec statistics

reverse-route dynamic

Use reverse-route dynamic to enable IPsec reverse route inject (RRI).

Use undo reverse-route dynamic to disable IPsec RRI.

Syntax

reverse-route [ next-hop [ ipv6 ] ip-address ] dynamic

undo reverse-route dynamic

Default

IPsec RRI is disabled.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

next-hop: Specifies a next hop IP address for the IPsec RRI-created static route. If you do not specify a next hop IP address, the static route uses the remote IP address of the IPsec tunnel as the next hop IP address.

ipv6: Specifies an IPv6 address.

ip-address: Specifies the next hop IPv4 or IPv6 address.

Usage guidelines

IPsec RRI is usually used on a gateway device at the headquarters side in an IPsec VPN. After IPsec RRI is enabled for an IPsec policy or an IPsec policy template on a gateway device, the gateway device automatically creates a static route upon IPsec SA creation according to this IPsec policy or IPsec policy template. By default, the static route uses the protected peer private network as the destination IP address and the remote IP address of the IPsec tunnel as the next hop address. If there are multiple paths to the remote tunnel end, you can use the next-hop keyword to specify a next hop IP address for the static route.

When you enable IPsec RRI for an IPsec policy, the device deletes all IPsec SAs that are created according to this IPsec policy. Upon IPsec SAs are renegotiated, the static routes are created.

When you disable IPsec RRI for an IPsec policy, the device deletes all IPsec SAs that are created according to this IPsec policy, and the associated static routes.

To display the static routes created by RRI, use the display ip routing-table command.

Examples

# Enable IPsec RRI to create a static route according to the IPsec SA negotiated by the specified IPsec policy. The destination IP address is the protected peer private network 3.0.0.0/24, and the next hop is the IP address (1.1.1.2) of the remote tunnel interface.

<Sysname> system-view

[Sysname] ipsec policy 1 1 isakmp

[Sysname-ipsec-policy-isakmp-1-1] reverse-route dynamic

[Sysname-ipsec-policy-isakmp-1-1] quit

# Display the routing table. You can see a created static route. (Other information is not shown.)

[Sysname] display ip routing-table

 

Destination/Mask    Proto  Pre  Cost         NextHop         Interface

3.0.0.0/24          Static 60   0            1.1.1.2         Vlan100

# Enable IPsec RRI to create a static route according to the IPsec SA negotiated by the specified IPsec policy. Set the next hop IP address of the static route to 2.2.2.3.

<Sysname> system-view

[Sysname] ipsec policy 1 1 isakmp

[Sysname-ipsec-policy-isakmp-1-1] reverse-route next-hop 2.2.2.3 dynamic

[Sysname-ipsec-policy-isakmp-1-1] quit

# Display the routing table. You can see a created static route. (Other information is not shown.)

[Sysname] display ip routing-table

Destination/Mask    Proto  Pre  Cost         NextHop         Interface

4.0.0.0/24          Static 60   0            2.2.2.3         GE1/0/1

Related commands

display ip routing-table(Network Connectivity Command Reference)

ipsec policy

ipsec policy-template

reverse-route preference

Use reverse-route preference to set the preference of the static routes created by IPsec RRI.

Use undo reverse-route preference to restore the default.

Syntax

reverse-route preference number

undo reverse-route preference

Default

The preference for the static routes created by IPsec RRI is 60.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

number: Specifies a preference value. The value range is 1 to 255. A smaller value represents a higher preference.

Usage guidelines

When you change this preference in an IPsec policy, the device deletes all IPsec SAs created according to this IPsec policy, and the associated static routes.

Examples

# Change the preference to 100 for static routes created by IPsec RRI.

<Sysname> system-view

[Sysname] ipsec policy 1 1 isakmp

[Sysname-ipsec-policy-isakmp-1-1] reverse-route preference 100

Related commands

ipsec policy

ipsec policy-template

reverse-route tag

Use reverse-route tag to set a route tag for the static routes created by IPsec RRI.

Use undo reverse-route tag to restore the default.

Syntax

reverse-route tag tag-value

undo reverse-route tag

Default

The route tag value is 0 for the static routes created by IPsec RRI.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

tag-value: Specifies a tag value. The value range is 1 to 4294967295.

Usage guidelines

The tag value set by this command helps in implementing flexible route control through routing policies.

When you change this tag value in an IPsec policy, the device deletes all IPsec SAs created by this IPsec policy, and all associated static routes.

Examples

# Set the tag value to 50 for the static routes created by IPsec RRI.

<Sysname>system-view   

[Sysname] ipsec policy 1 1 isakmp

[Sysname-ipsec-policy-isakmp-1-1] reverse-route tag 50

Related commands

ipsec policy

ipsec policy-template

sa duration

Use sa duration to set an SA lifetime.

Use undo sa duration to remove an SA lifetime.

Syntax

sa duration { time-based seconds | traffic-based kilobytes }

undo sa duration { time-based | traffic-based }

Default

The SA lifetime of an IPsec policy, IPsec profile, or IPsec policy template is the current global SA lifetime.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

time-based seconds: Specifies the time-based SA lifetime in the range of 180 to 604800 seconds.

traffic-based kilobytes: Specifies the traffic-based SA lifetime in the range of 2560 to 4294967295 Kilobytes.

Usage guidelines

IKE prefers the SA lifetime of the IPsec policy, IPsec profile, or IPsec policy template over the global SA lifetime configured by the ipsec sa global-duration command. If the IPsec policy, IPsec profile, or IPsec policy template is not configured with the SA lifetime, IKE uses the global SA lifetime for SA negotiation.

During SA negotiation, IKE selects the shorter SA lifetime between the local SA lifetime and the remote SA lifetime.

Examples

# Set the SA lifetime to 7200 seconds for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 isakmp

[Sysname-ipsec-policy-isakmp-policy1-100] sa duration time-based 7200

# Set the SA lifetime to 20 MB for IPsec policy policy1. The IPsec SA expires after transmitting 20480 Kilobytes.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 isakmp

[Sysname-ipsec-policy-isakmp-policy1-100] sa duration traffic-based 20480

Related commands

display ipsec sa

ipsec sa global-duration

sa hex-key authentication

Use sa hex-key authentication to configure a hexadecimal authentication key for manual IPsec SAs.

Use undo sa hex-key authentication to remove the hexadecimal authentication key.

Syntax

sa hex-key authentication { inbound | outbound } { ah | esp } { cipher | simple } string

undo sa hex-key authentication { inbound | outbound } { ah | esp }

Default

No hexadecimal authentication key is configured for manual IPsec SAs.

Views

IPsec policy view

IPsec profile view

Predefined user roles

network-admin

Parameters

inbound: Specifies a hexadecimal authentication key for the inbound SA.

outbound: Specifies a hexadecimal authentication key for the outbound SA.

ah: Uses AH.

esp: Uses ESP.

cipher: Specifies a key in encrypted form.

simple: Specifies a key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.

string: Specifies the key. Its plaintext form is case insensitive and must be a 16-byte hexadecimal string for HMAC-MD5 and a 20-byte hexadecimal string for HMAC-SHA1. Its encrypted form is a case-sensitive string of 1 to 85 characters.

Usage guidelines

This command applies only to manual IPsec policies and IPsec profiles.

You must set an authentication key for both the inbound and outbound SAs.

The local inbound SA must use the same authentication key as the remote outbound SA, and the local outbound SA must use the same authentication key as the remote inbound SA.

In an IPsec profile to be applied to an IPv6 routing protocol, the local authentication keys of the inbound and outbound SAs must be identical.

The keys for the IPsec SAs at the two tunnel ends must be input in the same format (either in hexadecimal or character format). Otherwise, they cannot establish an IPsec tunnel.

If you execute this command multiple times for the same protocol and direction, the most recent configuration takes effect.

Examples

# Configure plaintext authentication keys 0x112233445566778899aabbccddeeff00 and 0xaabbccddeeff001100aabbccddeeff00 for the inbound and outbound SAs that use AH.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] sa hex-key authentication inbound ah simple 112233445566778899aabbccddeeff00

[Sysname-ipsec-policy-manual-policy1-100] sa hex-key authentication outbound ah simple aabbccddeeff001100aabbccddeeff00

Related commands

display ipsec sa

sa string-key

sa hex-key encryption

Use sa encryption-hex configure a hexadecimal encryption key for manual IPsec SAs.

Use undo sa encryption-hex remove the hexadecimal encryption key.

Syntax

sa hex-key encryption { inbound | outbound } esp { cipher | simple } string

undo sa hex-key encryption { inbound | outbound } esp

Default

No hexadecimal encryption key is configured for manual IPsec SAs.

Views

IPsec policy view

IPsec profile view

Predefined user roles

network-admin

Parameters

inbound: Specifies a hexadecimal encryption key for the inbound SA.

outbound: Specifies a hexadecimal encryption key for the outbound SA.

esp: Uses ESP.

cipher: Specifies a key in encrypted form.

simple: Specifies a key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.

string: Specifies the key. Its encrypted form is a case-sensitive string of 1 to 117 characters. Its plaintext form is a case-insensitive hexadecimal string and the key length varies by algorithm.

The following matrix shows the key length for the algorithms:

 

Algorithm

Key length (bytes)

DES-CBC

8

3DES-CBC

24

AES128-CBC

16

AES192-CBC

24

AES256-CBC

32

 

Usage guidelines

This command applies only to manual IPsec policies and IPsec profiles.

You must set an encryption key for both the inbound and outbound SAs.

The local inbound SA must use the same encryption key as the remote outbound SA, and the local outbound SA must use the same encryption key as the remote inbound SA.

In an IPsec profile to be applied to an IPv6 routing protocol, the local encryption keys of the inbound and outbound SAs must be identical.

The keys for the IPsec SAs at the two tunnel ends must be configured in the same format (either in hexadecimal or character format). Otherwise, they cannot establish an IPsec tunnel.

If you execute this command multiple times for the same direction, the most recent configuration takes effect.

Examples

# Configure plaintext encryption keys 0x1234567890abcdef and 0xabcdefabcdef1234 for the inbound and outbound IPsec SAs that use ESP.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] sa hex-key encryption inbound esp simple 1234567890abcdef

[Sysname-ipsec-policy-manual-policy1-100] sa hex-key encryption outbound esp simple abcdefabcdef1234

Related commands

display ipsec sa

sa string-key

sa idle-time

Use sa idle-time to set the IPsec SA idle timeout.

Use undo sa idle-time to restore the default.

Syntax

sa idle-time seconds

undo sa idle-time

Default

An IPsec policy, IPsec profile, or IPsec policy template uses the global IPsec SA idle timeout.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

seconds: Specifies the IPsec SA idle timeout in the range of 60 to 86400 seconds.

Usage guidelines

This feature applies only to IPsec SAs negotiated by IKE and takes effect after the ipsec sa idle-time command is configured.

The IPsec SA idle timer starts when an IPsec SA is created. If no traffic matches the IPsec SA within the idle timeout interval, the IPsec SA is deleted.

The IPsec SA idle timeout configured by this command takes precedence over the global IPsec SA timeout configured by the ipsec sa idle-time command. If the IPsec policy, IPsec profile, or IPsec policy template is not configured with the SA idle timeout, IKE uses the global SA idle timeout.

Examples

# Set the IPsec SA idle timeout to 600 seconds for IPsec policy map.

<Sysname> system-view

[Sysname] ipsec policy map 100 isakmp

[Sysname-ipsec-policy-isakmp-map-100] sa idle-time 600

Related commands

display ipsec sa

ipsec sa idle-time

sa soft-duration buffer

Use sa soft-duration buffer to set the time-based or traffic-based IPsec SA soft lifetime buffer.

Use undo sa soft-duration buffer to restore the default.

Syntax

sa soft-duration buffer { time-based seconds | traffic-based kilobytes }

undo sa soft-duration buffer { time-based | traffic-based }

Default

The time-based and traffic-based IPsec SA soft lifetime buffers are not configured.

Views

IPsec policy view

IPsec profile view

Predefined user roles

network-admin

Parameters

time-based seconds: Specifies the time-based IPsec SA soft lifetime buffer in seconds. The value range is 20 to 201600.

traffic-based kilobytes: Specifies the traffic-based IPsec SA soft lifetime buffer in Kilobytes. The value range is 1000 to 4294901760.

Usage guidelines

This command takes effect only when IKEv1 is used.

The IPsec SA soft lifetime buffers are used to determine the IPsec SA soft lifetimes.

If no IPsec SA soft lifetime buffers are configured, the system calculates a default time-based and a default traffic-based IPsec SA soft lifetime.

If IPsec SA soft lifetime buffers are configured, the system calculates IPsec SA soft lifetimes as follows:

·     Time-based IPsec SA soft lifetime = time-based IPsec SA lifetime – time-based IPsec SA soft lifetime buffer.

If the calculated time-based IPsec SA soft lifetime is shorter than or equal to 20 seconds, the system uses the default time-based IPsec SA soft lifetime.

·     Traffic-based IPsec SA soft lifetime = traffic-based IPsec SA lifetime – traffic-based IPsec SA soft lifetime buffer.

If the calculated traffic-based IPsec SA soft lifetime is smaller than or equal to 1000 Kilobytes, the system uses the default traffic-based IPsec SA soft lifetime.

Examples

# Set the time-based IPsec SA soft lifetime buffer to 600 seconds in IPsec policy example 1.

<Sysname> system-view

[Sysname] ipsec policy example 1 isakmp

[Sysname-ipsec-policy-isakmp-example-1] sa soft-duration buffer time-based 600

# Set the traffic-based IPsec SA soft lifetime buffer to 10000 Kilobytes in IPsec policy example 1.

<Sysname> system-view

[Sysname] ipsec policy example 1 isakmp

[Sysname-ipsec-policy-isakmp-example-1] sa soft-duration buffer traffic-based 10000

Related commands

ipsec sa global-soft-duration buffer

sa spi

Use sa spi to configure an SPI for IPsec SAs.

Use undo sa spi to remove the SPI.

Syntax

sa spi { inbound | outbound } { ah | esp } spi-number

undo sa spi { inbound | outbound } { ah | esp }

Default

No SPI is configured for IPsec SAs.

Views

IPsec policy view

IPsec profile view

Predefined user roles

network-admin

Parameters

inbound: Specifies an SPI for inbound SAs.

outbound: Specifies an SPI for outbound SAs.

ah: Uses AH.

esp: Uses ESP.

spi-number: Specifies a security parameters index (SPI) in the range of 256 to 4294967295.

Usage guidelines

This command applies only to manual IPsec policies and IPsec profiles.

You must configure an SPI for both inbound and outbound SAs, and make sure the SAs in each direction are unique: For an outbound SA, make sure its triplet (remote IP address, security protocol, and SPI) is unique. For an inbound SA, make sure its SPI is unique.

The local inbound SA must use the same SPI as the remote outbound SA, and the local outbound SA must use the same SPI as the remote inbound SA.

Examples

# Set the SPI for the inbound SA to 10000 and the SPI for the outbound SA to 20000 in a manual IPsec policy.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] sa spi inbound ah 10000

[Sysname-ipsec-policy-manual-policy1-100] sa spi outbound ah 20000

Related commands

display ipsec sa

sa string-key

Use sa string-key to set a key string (a key in character format) for manual IPsec SAs.

Use undo sa string-key to remove the key string.

Syntax

sa string-key { inbound | outbound } { ah | esp } [ cipher | simple ] string

undo sa string-key { inbound | outbound } { ah | esp }

Default

No key string is configured for manual IPsec SAs.

Views

IPsec policy view

IPsec profile view

Predefined user roles

network-admin

Parameters

inbound: Sets a key string for inbound IPsec SAs.

outbound: Sets a key string for outbound IPsec SAs.

ah: Uses AH.

esp: Uses ESP.

cipher: Specifies a key string in encrypted form.

simple: Specifies a key string in plaintext form. For security purposes, the key string specified in plaintext form will be stored in encrypted form.

string: Specifies the key string. Its encrypted form is a case-sensitive string of 1 to 373 characters. Its plaintext form is a case-sensitive string of 1 to 255 characters. Using the key string, the system automatically generates keys that meet the algorithm requirements. When the protocol is ESP, the system automatically generates keys for the authentication algorithm and encryption algorithm.

Usage guidelines

This command applies only to manual IPsec policies and IPsec profiles.

You must set a key for both inbound and outbound SAs.

The local inbound SA must use the same key as the remote outbound SA, and the local outbound SA must use the same key as the remote inbound SA.

The keys for the IPsec SAs at the two tunnel ends must be input in the same format (either in hexadecimal or character format). Otherwise, they cannot establish an IPsec tunnel.

If you execute this command multiple times, the most recent configuration takes effect.

Examples

# Configure the inbound and outbound SAs that use AH to use plaintext keys abcdef and efcdab, respectively.

<Sysname> system-view

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] sa string-key inbound ah simple abcdef

[Sysname-ipsec-policy-manual-policy1-100] sa string-key outbound ah simple efcdab

# In an IPv6 IPsec policy, configure the inbound and outbound SAs that use AH to use plaintext key abcdef.

<Sysname> system-view

[Sysname] ipsec ipv6-policy policy1 100 manual

[Sysname-ipsec-ipv6-policy-manual-policy1-100] sa string-key inbound ah simple abcdef

[Sysname-ipsec-ipv6-policy-manual-policy1-100] sa string-key outbound ah simple abcdef

Related commands

display ipsec sa

sa hex-key

sa trigger-mode

Use sa trigger-mode to set the IPsec SA negotiation triggering mode.

Use undo sa trigger-mode to restore the default.

Syntax

sa trigger-mode { auto | traffic-based }

undo sa trigger-mode

Default

IPsec SA negotiation is triggered when traffic requires IPsec protection.

Views

IPsec policy view

Predefined user roles

network-admin

Parameters

auto: Triggers IPsec SA negotiation when required IPsec configuration is complete.

traffic-based: Triggers IPsec SA negotiation when traffic requires IPsec protection.

Usage guidelines

You can specify the IPsec SA negotiation triggering mode only for IKE-based IPsec policies.

Compared to the auto mode, the traffic-based mode is more economical in terms of resource usage because it triggers IPsec SA negotiation only when traffic requires IPsec protection. However, the traffic-based mode leaves traffic unprotected before IPsec SAs are successfully established.

The IPsec SA negotiation triggering modes on the local and remote ends of an IPsec tunnel can be different.

Modifying the IPsec SA negotiation triggering mode does not affect existing IPsec SAs.

If the IPsec SA negotiation triggering mode is set to auto, change the mode to traffic-based as a best practice after IPsec SA establishment is complete.

Examples

# Set the IPsec SA negotiation triggering mode to auto for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec policy policy1 10 isakmp

[Sysname-ipsec-policy-isakmp-policy1-10] sa trigger-mode auto

security acl

Use security acl to specify an ACL for an IPsec policy or IPsec policy template.

Use undo security acl to restore the default.

Syntax

security acl [ ipv6 ] { acl-number | name acl-name } [ aggregation | per-host ]

undo security acl

Default

An IPsec policy or IPsec policy template does not use any ACL.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Parameters

ipv6: Specifies an IPv6 ACL.

acl-number: Specifies an ACL by its number in the range of 3000 to 3999.

name acl-name: Specifies an ACL by its name, a case-insensitive string of 1 to 63 characters.

aggregation: Specifies the data protection mode as aggregation. The device does not support protecting IPv6 data flows in aggregation mode.

per-host: Specifies the data protection mode as per-host.

Usage guidelines

An IKE-based IPsec policy supports the following data flow protection modes:

·     Standard mode—One IPsec tunnel protects one data flow. The data flow permitted by an ACL rule is protected by one IPsec tunnel that is established solely for it. The standard mode is used if you do not specify the aggregation or the per-host mode.

·     Aggregation mode—One IPsec tunnel protects all data flows permitted by all the rules of an ACL. This mode is only used to communicate with old-version devices.

·     Per-host mode—One IPsec tunnel protects one host-to-host data flow. One host-to-host data flow is identified by one ACL rule and protected by one IPsec tunnel established solely for it. This mode consumes more system resources when multiple data flows exist between two subnets to be protected.

A manual IPsec policy supports only the aggregation mode.

Examples

# Specify IPv4 advanced ACL 3001 for IPsec policy policy1.

<Sysname> system-view

[Sysname] acl advanced 3001

[Sysname-acl-ipv4-adv-3001] rule permit tcp source 10.1.1.0 0.0.0.255 destination 10.1.2.0 0.0.0.255

[Sysname-acl-ipv4-adv-3001] quit

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] security acl 3001

# Specify IPv4 advanced ACL 3002 for IPsec policy policy2 and specify the data protection mode as aggregation.

<Sysname> system-view

[Sysname] acl advanced 3002

[Sysname-acl-ipv4-adv-3002] rule 0 permit ip source 10.1.2.1 0.0.0.255 destination 10.1.2.2 0.0.0.255

[Sysname-acl-ipv4-adv-3002] rule 1 permit ip source 10.1.3.1 0.0.0.255 destination 10.1.3.2 0.0.0.255

[Sysname-acl-ipv4-adv-3002] quit

[Sysname] ipsec policy policy2 1 isakmp

[Sysname-ipsec-policy-isakmp-policy2-1] security acl 3002 aggregation

Related commands

display ipsec sa

display ipsec tunnel

snmp-agent trap enable ipsec

Use snmp-agent trap enable ipsec command to enable SNMP notifications for IPsec.

Use undo snmp-agent trap enable ipsec command to disable SNMP notifications for IPsec.

Syntax

snmp-agent trap enable ipsec [ auth-failure | connection-start | connection-stop | decrypt-failure | encrypt-failure | global | invalid-sa-failure | no-sa-failure | policy-add | policy-attach | policy-delete | policy-detach | tunnel-start | tunnel-stop] *

undo snmp-agent trap enable ipsec [ auth-failure | connection-start | connection-stop | decrypt-failure | encrypt-failure | global | invalid-sa-failure | no-sa-failure | policy-add | policy-attach | policy-delete | policy-detach | tunnel-start | tunnel-stop] *

Default

All SNMP notifications for IPsec are disabled.

Views

System view

Predefined user roles

network-admin

Parameters

auth-failure: Specifies notifications about authentication failures.

connection-start: Specifies notifications about successful establishment of the first IPsec tunnel under IPsec policy entries with the same description.

connection-stop: Specifies notifications about successful removal of the last IPsec tunnel under IPsec policy entries with the same description.

decrypt-failure: Specifies notifications about decryption failures.

encrypt-failure: Specifies notifications about encryption failures.

global: Specifies notifications globally.

invalid-sa-failure: Specifies notifications about invalid-SA failures.

no-sa-failure: Specifies notifications about SA-not-found failures.

policy-add: Specifies notifications about events of adding IPsec policies.

policy-attach: Specifies notifications about events of applying IPsec policies to interfaces.

policy-delete: Specifies notifications about events of deleting IPsec policies.

policy-detach: Specifies notifications about events of removing IPsec policies from interfaces.

tunnel-start: Specifies notifications about events of creating IPsec tunnels.

tunnel-stop: Specifies notifications about events of deleting IPsec tunnels.

Usage guidelines

If you do not specify any keywords, this command enables or disables all SNMP notifications for IPsec.

To generate and output SNMP notifications for a specific IPsec failure type or event type, perform the following tasks:

1.     Enable SNMP notifications for IPsec globally.

2.     Enable SNMP notifications for the failure type or event type.

Examples

# Enable SNMP notifications for IPsec globally.

<Sysname> system-view

[Sysname] snmp-agent trap enable ipsec global

# Enable SNMP notifications for events of creating IPsec tunnels.

[Sysname] snmp-agent trap enable ipsec tunnel-start

tfc enable

Use tfc enable to enable Traffic Flow Confidentiality (TFC) padding.

Use undo tfc enable to disable TFC padding.

Syntax

tfc enable

undo tfc enable

Default

TFC padding is disabled.

Views

IPsec policy view

IPsec policy template view

Predefined user roles

network-admin

Usage guidelines

TFC padding can hide the length of the original packet, and might affect the packet encapsulation and de-encapsulation performance. This feature takes effect on UDP packets encapsulated by ESP in transport mode and on original IP packets encapsulated by ESP in tunnel mode.

Examples

# Enable TFC padding for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec policy policy1 10 isakmp

[Sysname-ipsec-policy-isakmp-policy1-10] tfc enable

Related commands

display ipsec ipv6-policy

display ipsec policy

transform-set

Use transform-set to specify an IPsec transform set for an IPsec policy, IPsec profile, or IPsec policy template.

Use undo transform-set to remove the IPsec transform set specified for an IPsec policy, IPsec profile, or IPsec policy template.

Syntax

transform-set transform-set-name&<1-6>

undo transform-set [ transform-set-name ]

Default

No IPsec transform set is specified for an IPsec policy, IPsec profile, or IPsec policy template.

Views

IPsec policy view

IPsec policy template view

IPsec profile view

Predefined user roles

network-admin

Parameters

transform-set-name&<1-6>: Specifies a space-separated list of up to six IPsec transform sets. The specified transform set names must be different. A transform set name is a case-insensitive string of 1 to 63 characters.

Usage guidelines

You can specify only one IPsec transform set for a manual IPsec policy. If you execute this command multiple times, the most recent configuration takes effect.

You can specify a maximum of six IPsec transform sets for an IKE-based IPsec policy. During an IKE negotiation, IKE searches for a fully matched IPsec transform set at the two ends of the IPsec tunnel. If no match is found, no SA can be set up, and the packets expecting to be protected will be dropped.

If you do not specify the transform-set-name argument, the undo transform-set command removes all IPsec transform sets specified for the IPsec policy, IPsec profile, or IPsec policy template.

Examples

# Specify IPsec transform set prop1 for IPsec policy policy1.

<Sysname> system-view

[Sysname] ipsec transform-set prop1

[Sysname-ipsec-transform-set-prop1] quit

[Sysname] ipsec policy policy1 100 manual

[Sysname-ipsec-policy-manual-policy1-100] transform-set prop1

Related commands

ipsec { ipv6-policy | policy }

ipsec profile

ipsec transform-set


IKE commands

The following compatibility matrixes show the support of hardware platforms for IKE:

 

Hardware series

Model

Product code

IKE compatibility

WX1800H series

WX1804H

EWP-WX1804H-PWR-CN

Yes

WX2500H series

WX2508H-PWR-LTE

WX2510H

WX2510H-F

WX2540H

WX2540H-F

WX2560H

EWP-WX2508H-PWR-LTE

EWP-WX2510H-PWR

EWP-WX2510H-F-PWR

EWP-WX2540H

EWP-WX2540H-F

EWP-WX2560H

Yes

WX3000H series

WX3010H

WX3010H-X

WX3010H-L

WX3024H

WX3024H-L

WX3024H-F

EWP-WX3010H

EWP-WX3010H-X-PWR

EWP-WX3010H-L-PWR

EWP-WX3024H

EWP-WX3024H-L-PWR

EWP-WX3024H-F

Yes:

·     WX3010H

·     WX3010H-X

·     WX3024H

·     WX3024H-F

No:

·     WX3010H-L

·     WX3024H-L

WX3500H series

WX3508H

WX3510H

WX3520H

WX3520H-F

WX3540H

EWP-WX3508H

EWP-WX3510H

EWP-WX3520H

EWP-WX3520H-F

EWP-WX3540H

Yes

WX5500E series

WX5510E

WX5540E

EWP-WX5510E

EWP-WX5540E

Yes

WX5500H series

WX5540H

WX5560H

WX5580H

EWP-WX5540H

EWP-WX5560H

EWP-WX5580H

Yes

Access controller modules

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

Yes

Hardware series

Model

Product code

IKE compatibility

WX1800H series

WX1804H

WX1810H

WX1820H

WX1840H

EWP-WX1804H-PWR

EWP-WX1810H-PWR

EWP-WX1820H

EWP-WX1840H-GL

Yes

WX3800H series

WX3820H

WX3840H

EWP-WX3820H-GL

EWP-WX3840H-GL

Yes

WX5800H series

WX5860H

EWP-WX5860H-GL

Yes

aaa authorization

Use aaa authorization to enable IKE AAA authorization.

Use undo aaa authorization to disable IKE AAA authorization.

Syntax

aaa authorization domain domain-name username user-name

undo aaa authorization

Default

IKE AAA authorization is disabled.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

domain domain-name: Specifies the ISP domain used for requesting authorization attributes. The ISP domain name is a case-insensitive string of 1 to 255 characters and must meet the following requirements:

·     The name cannot contain a forward slash (/), backslash (\), vertical bar (|), quotation mark ("), colon (:), asterisk (*), question mark (?), left angle bracket (<), right angle bracket (>), or an at sign (@).

·     The name cannot be d, de, def, defa, defau, defaul, default, i, if, if-, if-u, if-un, if-unk, if-unkn, if-unkno, if-unknow, or if-unknown.

username user-name: Specifies the username used for requesting authorization attributes. The username is a case-sensitive string of 1 to 55 characters and must meet the following requirements:

·     The username cannot contain the domain name.

·     The username cannot contain a forward slash (/), backslash (\), vertical bar (|), colon (:), asterisk (*), question mark (?), left angle bracket (<), right angle bracket (>), or an at sign (@).

·     The username cannot be a, al, or all.

Usage guidelines

The AAA authorization feature enables IKE to request authorization attributes, such as the IKE IPv4 address pool, from AAA.

IKE uses the ISP domain and username to request authorization attributes. AAA uses the authorization settings in the ISP domain to request the user's authorization attributes from the remote AAA server or the local user database. After IKE passes the username authentication, it obtains the authorization attributes.

This feature is applicable when AAA is used to centrally manage and deploy authorization attributes.

Examples

# Create IKE profile profile1.

<Sysname> system-view

[Sysname] ike profile profile1

# Enable AAA authorization. Specify ISP domain abc and username test.

[Sysname-ike-profile-profile1] aaa authorization domain abc username test

authentication-algorithm

Use authentication-algorithm to specify an authentication algorithm for an IKE proposal.

Use undo authentication-algorithm to restore the default.

Syntax

authentication-algorithm { md5 | sha | sha256 | sha384 | sha512 }

undo authentication-algorithm

Default

The IKE proposal uses the HMAC-SHA1 authentication algorithm.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

md5: Specifies the HMAC-MD5 algorithm.

sha: Specifies the HMAC-SHA1 algorithm.

sha256: Specifies the HMAC-SHA256 algorithm.

sha384: Specifies the HMAC-SHA384 algorithm.

sha512: Specifies the HMAC-SHA512 algorithm.

Examples

# Specify HMAC-SHA1 as the authentication algorithm for IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] authentication-algorithm sha

Related commands

display ike proposal

authentication-method

Use authentication-method to specify an authentication method to be used in an IKE proposal.

Use undo authentication-method to restore the default.

Syntax

authentication-method { dsa-signature | pre-share | rsa-signature }

undo authentication-method

Default

The preshared key authentication method is used.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

dsa-signature: Specifies the DSA signature authentication method.

pre-share: Specifies the preshared key authentication method.

rsa-signature: Specifies the RSA signature authentication method.

Usage guidelines

Preshared key authentication does not require certificates as signature authentication does, and it is usually used on a simple network.

Signature authentication provides higher security, and it is usually deployed on a large-scale network, such as a network with many branches.

On a network with many branches, using preshared key authentication requires the headquarters to configure a preshared key for each branch. Using signature authentication only requires the headquarters to configure one PKI domain.

The digital envelope authentication method is supported only in IKEv1 and must be used if the device is subject to China OSCCA regulations.

Authentication methods configured on both IKE ends must match.

If you specify the RSA or DSA signature authentication method, you must configure the IKE peer to obtain certificates from a CA.

If you specify the preshared key authentication method, you must configure the same preshared key on both IKE ends.

Examples

# Specify the preshared key authentication method for IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] authentication-method pre-share

Related commands

display ike proposal

ike keychain

pre-shared-key

certificate domain

Use certificate domain to specify a PKI domain for signature authentication.

Use undo certificate domain to remove a PKI domain for signature authentication.

Syntax

certificate domain domain-name

undo certificate domain domain-name

Default

No PKI domains are specified for signature authentication.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

domain-name: Specifies the name of a PKI domain, a case-insensitive string of 1 to 31 characters.

Usage guidelines

You can specify a maximum of six PKI domains for an IKE profile by executing this command multiple times.

IKE uses the specified PKI domains for enrollment, authentication, certificate issuing, validation, and signature. If you do not specify any PKI domains, IKE uses all PKI domains configured on the device.

Follow these restrictions and guidelines for the device to obtain the CA certificate during IKE negotiation:

·     On the initiator:

¡     If the IKE profile has a PKI domain and the automatic certificate request mode is configured for the PKI domain, the initiator automatically obtains the CA certificate.

¡     If the IKE profile has no PKI domain, you must manually obtain the CA certificate.

·     On the responder:

¡     If main mode is used in IKE phase 1, the responder does not automatically obtain the CA certificate. You must manually obtain the CA certificate.

¡     If aggressive mode is used in IKE phase 1, the responder automatically obtains the CA certificate if the following conditions are met:

-     A matching IKE profile is found.

-     An PKI domain is specified in the IKE profile.

-     The automatic certificate request mode is configured for the PKI domain.

If the conditions are not met, you must manually obtain the CA certificate.

IKE first automatically obtains the CA certificate, and then requests a local certificate. If the CA certificate already exists locally, IKE automatically requests a local certificate.

Examples

# Specify PKI domain abc for IKE profile 1.

<Sysname> system-view

[Sysname] ike profile 1

[Sysname-ike-profile-1] certificate domain abc

Related commands

authentication-method

pki domain

client-authentication

Use client-authentication to enable client authentication.

Use undo client-authentication to disable client authentication.

Syntax

client-authentication xauth

undo client-authentication

Default

Client authentication is disabled.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

xauth: Uses Extended Authentication within ISAKMP/Oakley (XAUTH) for authentication.

Usage guidelines

Client authentication enables an IPsec gateway to authenticate remote users through a RADIUS server in IKE negotiation. Remote users who provide the correct username and password pass the authentication and continue with the IKE negotiation. This feature simplifies the configuration on the IPsec gateway and ensures the validity of the remote users. If you do not use this feature, you must configure an IPsec policy and an authentication password for each remote user.

Examples

# Enable XAUTH client authentication.

<Sysname> system-view

[Sysname] ike profile test

[Sysname-ike-profile-test] client-authentication xauth

Related commands

local-user

description

Use description to configure a description for an IKE proposal.

Use undo description to restore the default.

Syntax

description text

undo description

Default

An IKE proposal does not have a description.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

text: Specifies the description, a case-sensitive string of 1 to 80 characters.

Usage guidelines

When multiple IKE proposals exist, you configure different descriptions for them to distinguish them.

Examples

# Configure a description of test for IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] description test

dh

Use dh to specify the DH group to be used for key negotiation in IKE phase 1.

Use undo dh to restore the default.

Syntax

dh { group1 | group14 | group2 | group24 | group5 }

undo dh

Default

The 768-bit Diffie-Hellman group (group1) is used.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

group1: Uses the 768-bit Diffie-Hellman group.

group14: Uses the 2048-bit Diffie-Hellman group.

group2: Uses the 1024-bit Diffie-Hellman group.

group24: Uses the 2048-bit Diffie-Hellman group with the 256-bit prime order subgroup.

group5: Uses the 1536-bit Diffie-Hellman group.

Usage guidelines

A DH group with a higher group number provides higher security but needs more time for processing. To achieve the best trade-off between processing performance and security, choose a proper Diffie-Hellman group for your network.

Examples

# Specify the 2048-bit Diffie-Hellman group group1 to be used for key negotiation in IKE phase 1 in IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] dh group14

Related commands

display ike proposal

display ike proposal

Use display ike proposal to display configuration information about all IKE proposals.

Syntax

display ike proposal

Views

Any view

Predefined user roles

network-admin

network-operator

Usage guidelines

This command displays the configuration information about all IKE proposals in descending order of proposal priorities. If no IKE proposal is configured, this command displays the default IKE proposal.

Examples

# Display the configuration information about all IKE proposals.

<Sysname> display ike proposal

 Priority Authentication Authentication Encryption  Diffie-Hellman Duration

              method       algorithm    algorithm       group      (seconds)

----------------------------------------------------------------------------

 1        RSA-SIG            SHA1        DES-CBC     Group 1        5000

 11       PRE-SHARED-KEY     SHA1        DES-CBC     Group 1        50000

 default  PRE-SHARED-KEY     SHA1       DES-CBC     Group 1        86400

Table 10 Command output

Field

Description

Priority

Priority of the IKE proposal

Authentication method

Authentication method used by the IKE proposal:

·     DSA-SIG—DSA signature.

·     PRE-SHARED-KEY—Preshared key.

·     RSA-DE—RSA digital envelope.

·     RSA-SIG—RSA signature.

·     SM2-DE—SM2 digital envelope.

Authentication algorithm

Authentication algorithm used in the IKE proposal:

·     MD5—HMAC-MD5 algorithm.

·     SHA1—HMAC-SHA1 algorithm.

·     SHA256—HMAC-SHA256 algorithm.

·     SHA384—HMAC-SHA384 algorithm.

·     SHA512—HMAC-SHA512 algorithm.

Encryption algorithm

Encryption algorithm used by the IKE proposal:

·     3DES-CBC—168-bit 3DES algorithm in CBC mode.

·     AES-CBC-128—128-bit AES algorithm in CBC mode.

·     AES-CBC-192—192-bit AES algorithm in CBC mode.

·     AES-CBC-256—256-bit AES algorithm in CBC mode.

·     DES-CBC—56-bit DES algorithm in CBC mode.

Diffie-Hellman group

DH group used in IKE negotiation phase 1.

Duration (seconds)

IKE SA lifetime (in seconds) of the IKE proposal

 

Related commands

ike proposal

display ike sa

Use display ike sa to display information about IKE SAs.

Syntax

display ike sa [ verbose [ connection-id connection-id | remote-address [ ipv6 ] remote-address ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

verbose: Displays detailed information.

connection-id connection-id: Displays detailed information about IKE SAs by connection ID in the range of 1 to 2000000000.

remote-address: Displays detailed information about IKE SAs with the specified remote address.

ipv6: Specifies an IPv6 address.

remote-address: Remote IP address.

Usage guidelines

If you do not specify any parameters, this command displays summary information about all IKE SAs.

Examples

# Display summary information about all IKE SAs.

<Sysname> display ike sa

    Connection-ID  Remote          Flag        DOI

  ----------------------------------------------------------

      1            202.38.0.2      RD          IPsec

Flags:

RD--READY RL--REPLACED FD-FADING RK-REKEY

Table 11 Command output

Field

Description

Connection-ID

Identifier of the IKE SA.

Remote

Remote IP address of the SA.

Flags

Status of the SA:

·     RD--READY—The SA has been established.

·     RL--REPLACED—The SA has been replaced by a new one and will be deleted later.

·     FD-FADING—The SA is in use, but it is about to expire and will be deleted soon.

·     RK-REKEY—The SA is a Rekey SA.

·     Unknown—The SA status is unknown.

DOI

Interpretation domain to which the SA belongs.

IPsec—The SA belongs to an IPsec DOI.

 

# Display detailed information about all IKE SAs.

<Sysname> display ike sa verbose

    ---------------------------------------------

    Connection ID: 2

    Outside VPN: 1

    Inside VPN: 1

    Profile: prof1

    Transmitting entity: Initiator

    Initiator cookie: 1bcf453f0a217259

    Responder cookie: 5e32a74dfa66a0a4

    ---------------------------------------------

    Local IP: 4.4.4.4

    Local ID type: IPV4_ADDR

    Local ID: 4.4.4.4

 

    Remote IP: 4.4.4.5

    Remote ID type: IPV4_ADDR

    Remote ID: 4.4.4.5

 

    Authentication-method: PRE-SHARED-KEY

    Authentication-algorithm: SHA1

    Encryption-algorithm: AES-CBC-128

 

    Life duration(sec): 86400

    Remaining key duration(sec): 86379

    Exchange-mode: Main

    Diffie-Hellman group: Group 1

    NAT traversal: Not detected

 

    Extend authentication: Enabled

    Assigned IP address: 192.168.2.1

    Vendor ID index: 0xa1d

    Vendor ID sequence number: 0x0

# Display detailed information about the IKE SA with a remote address of 4.4.4.5.

<Sysname> display ike sa verbose remote-address 4.4.4.5

    ---------------------------------------------

    Connection ID: 2

    Outside VPN: 1

    Inside VPN: 1

    Profile: prof1

    Transmitting entity: Initiator

    Initiator cookie: 1bcf453f0a217259

    Responder cookie: 5e32a74dfa66a0a4

    ---------------------------------------------

    Local IP: 4.4.4.4

    Local ID type: IPV4_ADDR

    Local ID: 4.4.4.4

 

    Remote IP: 4.4.4.5

    Remote ID type: IPV4_ADDR

    Remote ID: 4.4.4.5

 

    Authentication-method: PRE-SHARED-KEY

    Authentication-algorithm: SHA1

    Encryption-algorithm: AES-CBC-128

 

    Life duration(sec): 86400

    Remaining key duration(sec): 86379

    Exchange-mode: Main

    Diffie-Hellman group: Group 1

    NAT traversal: Not detected

 

    Extend authentication: Enabled

    Assigned IP address: 192.168.2.1

    Vendor ID index: 0xa1d

    Vendor ID sequence number: 0x0

Table 12 Command output

Field

Description

Connection ID

Identifier of the IKE SA.

Outside VPN

This field is not supported in the current software version.

VPN instance name of the MPLS L3VPN to which the receiving interface belongs.

Inside VPN

This field is not supported in the current software version.

VPN instance name of the MPLS L3VPN to which the protected data belongs.

Profile

Name of the matching IKE profile found in the IKE SA negotiation.

If no matching profile is found, this field displays nothing.

Transmitting entity

Role of the IKE negotiation entity: Initiator or Responder.

Initiator cookie

IKE SA initiator cookie.

Responder cookie

IKE SA responder cookie.

Local IP

IP address of the local gateway.

Local ID type

Identifier type of the local gateway.

Local ID

Identifier of the local gateway.

Remote IP

IP address of the remote gateway.

Remote ID type

Identifier type of the remote gateway.

Remote ID

Identifier of the remote security gateway.

Authentication-method

Authentication method used by the IKE proposal:

·     DSA-SIG—DSA signature.

·     PRE-SHARED-KEY—Preshared key.

·     RSA-DE—RSA digital envelope.

·     RSA-SIG—RSA signature.

Authentication-algorithm

Authentication algorithm used by the IKE proposal:

·     MD5—HMAC-MD5 algorithm.

·     SHA1—HMAC-SHA1 algorithm.

·     SHA256—HMAC-SHA256 algorithm.

·     SHA384—HMAC-SHA384 algorithm.

·     SHA512—HMAC-SHA512 algorithm.

Encryption-algorithm

Encryption algorithm used by the IKE proposal:

·     3DES-CBC—168-bit 3DES algorithm in CBC mode.

·     AES-CBC-128—128-bit AES algorithm in CBC mode.

·     AES-CBC-192—192-bit AES algorithm in CBC mode.

·     AES-CBC-256—256-bit AES algorithm in CBC mode.

·     DES-CBC—56-bit DES algorithm in CBC mode.

Life duration(sec)

Lifetime of the IKE SA in seconds.

Remaining key duration(sec)

Remaining lifetime of the IKE SA in seconds.

Exchange-mode

IKE negotiation mode in phase 1: Main or Aggressive.

Diffie-Hellman group

DH group used for key negotiation in IKE phase 1.

NAT traversal

Whether a NAT gateway is detected.

Extend authentication

Whether extended authentication for clients is enabled.

Assigned IP address

IP address assigned to the remote peer.

This field is not displayed if no IP address is assigned.

Vendor ID index

Vendor ID index used when the IKE negotiation was triggered.

Vendor ID sequence number

Vendor ID sequence number used when the IKE negotiation was triggered.

display ike statistics

Use display ike statistics to display IKE statistics.

Syntax

display ike statistics

Views

Any view

Predefined user roles

network-admin

network-operator

Examples

# Display IKE statistics.

<Sysname> display ike statistics

IKE statistics:

  No matching proposal: 0

  Invalid ID information: 0

  Unavailable certificate: 0

  Unsupported DOI: 0

  Unsupported situation: 0

  Invalid proposal syntax: 0

  Invalid SPI: 0

  Invalid protocol ID: 0

  Invalid certificate: 0

  Authentication failure: 0

  Invalid flags: 0

  Invalid message id: 0

  Invalid cookie: 0

  Invalid transform ID: 0

  Malformed payload: 0

  Invalid key information: 0

  Invalid hash information: 0

  Unsupported attribute: 0

  Unsupported certificate type: 0

  Invalid certificate authority: 0

  Invalid signature: 0

  Unsupported exchange type: 0

  No available SA: 1

  Retransmit timeout: 0

  Not enough memory: 0

  Enqueue fails: 0

  Failures to send R_U_THERE DPD packets: 0

  Failures to receive R_U_THERE DPD packets: 0

  Failures to send ACK DPD packets: 0

  Failures to receive ACK DPD packets: 0

  Sent P1 SA lifetime change packets: 0

  Received P1 SA lifetime change packets: total=0, process failures=0 (no SA=0, failures to reset SA soft lifetime=0, failures to reset SA hard lifetime=0)

  Sent P2 SA lifetime change packets: 0

  Received P2 SA lifetime change packets: total=0, process failures=0

Related commands

reset ike statistics

dpd

Use dpd to configure IKE DPD.

Use undo dpd to disable IKE DPD.

Syntax

dpd interval interval [ retry seconds ] { on-demand | periodic }

undo dpd interval

Default

IKE DPD is disabled.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

interval interval: Specifies a DPD triggering interval in the range of 1 to 300 seconds.

retry seconds: Specifies the DPD retry interval in the range of 1 to 60 seconds. The default is 5 seconds.

on-demand: Triggers DPD on demand. The device triggers DPD if it has IPsec traffic to send and has not received any IPsec packets from the peer for the specified interval.

periodic: Triggers DPD at regular intervals. The device triggers DPD at the specified interval.

Usage guidelines

DPD is triggered periodically or on-demand. As a best practice, use the on-demand mode when the device communicates with a large number of IKE peers. For an earlier detection of dead peers, use the periodic triggering mode, which consumes more bandwidth and CPU.

When DPD settings are configured in both IKE profile view and system view, the DPD settings in IKE profile view apply. If DPD is not configured in IKE profile view, the DPD settings in system view apply.

It is a good practice to set the triggering interval longer than the retry interval so that a DPD detection does not occur during a DPD retry.

Examples

# Configure DPD to be triggered every 10 seconds and every 5 seconds between retries if the peer does not respond.

<Sysname> system-view

[Sysname] ike profile 1

[Sysname-ike-profile-1] dpd interval 10 retry 5 on-demand

Related commands

ike dpd

encryption-algorithm

Use encryption-algorithm to specify an encryption algorithm for an IKE proposal.

Use undo encryption-algorithm to restore the default.

Syntax

encryption-algorithm { 3des-cbc | aes-cbc-128 | aes-cbc-192 | aes-cbc-256 | des-cbc | sm4-cbc }

undo encryption-algorithm

Default

An IKE proposal uses the 56-bit DES encryption algorithm in CBC mode.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

3des-cbc: Specifies the 3DES algorithm in CBC mode. The 3DES algorithm uses a 168-bit key for encryption.

aes-cbc-128: Specifies the AES algorithm in CBC mode. The AES algorithm uses a 128-bit key for encryption.

aes-cbc-192: Specifies the AES algorithm in CBC mode. The AES algorithm uses a 192-bit key for encryption.

aes-cbc-256: Specifies the AES algorithm in CBC mode. The AES algorithm uses a 256-bit key for encryption.

des-cbc: Specifies the DES algorithm in CBC mode. The DES algorithm uses a 56-bit key for encryption.

Examples

# Use the 128-bit AES algorithm in CBC mode as the encryption algorithm for IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] encryption-algorithm aes-cbc-128

Related commands

display ike proposal

exchange-mode

Use exchange-mode to select an IKE negotiation mode for phase 1.

Use undo exchange-mode to restore the default.

Syntax

exchange-mode { aggressive | main }

undo exchange-mode

Default

Main mode is used for phase 1.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

aggressive: Specifies the aggressive mode.

main: Specifies the main mode.

Usage guidelines

As a best practice, specify the aggressive mode at the local end if the following conditions are met:

·     The local end, for example, a dialup user, obtains an IP address automatically.

·     Preshared key authentication is used.

If the IKE profile uses an IKE proposal configured with the RSA or SM2 digital envelope authentication method, you must specify the GM main mode for phase 1 IKE negotiation.

Examples

# Specify that IKE negotiation operates in main mode.

<Sysname> system-view

[Sysname] ike profile 1

[Sysname-ike-profile-1] exchange-mode main

Related commands

display ike proposal

ike address-group

Use ike address-group to configure an IKE IPv4 address pool for assigning IPv4 addresses to remote peers.

Use undo ike address-group to delete an IKE IPv4 address pool.

Syntax

ike address-group group-name start-ipv4-address end-ipv4-address [ mask | mask-length ]

undo ike address-group group-name

Default

No IKE IPv4 address pools exist.

Views

System view

Predefined user roles

network-admin

Parameters

group-name: Specifies a name for the IKE IPv4 address pool, a case-insensitive string of 1 to 63 characters.

start-ipv4-address end-ipv4-address: Specifies an IPv4 address range. The start-ipv4-address argument specifies the start IPv4 address. The end-ipv4-address argument specifies the end IPv4 address.

mask: Specifies the IPv4 address mask.

mask-length: Specifies the length of the IPv4 address mask.

Usage guidelines

An IKE IPv4 address pool can contain a maximum of 8192 IPv4 addresses.

To modify or delete an address pool, you must delete all IKE SAs and IPsec SAs. Otherwise, the assigned IPv4 addresses might not be reclaimed.

Examples

# Configure an IKE IPv4 address pool with name ipv4group, address range 1.1.1.1 to 1.1.1.2, and mask 255.255.255.0.

<Sysname> system-view

[Sysname] ike address-group ipv4group 1.1.1.1 1.1.1.2 255.255.255.0

# Configure an IKE IPv4 address pool with name ipv4group, address range 1.1.1.1 to 1.1.1.2, and mask length 32.

<Sysname> system-view

[Sysname] ike address-group ipv4group 1.1.1.1 1.1.1.2 32

Related commands

aaa authorization

ike dpd

Use ike dpd to configure global IKE DPD.

Use undo ike dpd to disable global IKE DPD.

Syntax

ike dpd interval interval [ retry seconds ] { on-demand | periodic }

undo ike dpd interval

Default

Global IKE DPD is disabled.

Views

System view

Predefined user roles

network-admin

Parameters

interval interval: Specifies a DPD triggering interval in the range of 1 to 300 seconds.

retry seconds: Specifies the DPD retry interval in the range of 1 to 60 seconds. The default is 5 seconds.

on-demand: Triggers DPD on demand. The device triggers DPD if it has IPsec traffic to send and has not received any IPsec packets from the peer for the specified interval.

periodic: Triggers DPD at regular intervals. The device triggers DPD at the specified interval.

Usage guidelines

DPD is triggered periodically or on-demand. As a best practice, use the on-demand mode when the device communicates with a large number of IKE peers. For an earlier detection of dead peers, use the periodical triggering mode, which consumes more bandwidth and CPU.

When DPD settings are configured in both IKE profile view and system view, the DPD settings in IKE profile view apply. If DPD is not configured in IKE profile view, the DPD settings in system view apply.

It is a good practice to set the triggering interval longer than the retry interval so that a DPD detection does not occur during a DPD retry.

Examples

# Configure DPD to be triggered every 10 seconds and every 5 seconds between retries if the peer does not respond.

<Sysname> system-view

[Sysname] ike dpd interval 10 retry 5 on-demand

Related commands

dpd

ike identity

Use ike identity to specify the global identity used by the local end during IKE negotiations.

Use undo ike identity to restore the default.

Syntax

ike identity { address { ipv4-address | ipv6 ipv6-address }| dn | fqdn [ fqdn-name ] | user-fqdn [ user-fqdn-name ] }

undo ike identity

Default

The IP address of the interface where the IPsec policy applies is used as the IKE identity.

Views

System view

Predefined user roles

network-admin

Parameters

address { ipv4-address | ipv6 ipv6-address }: Uses an IPv4 or IPv6 address as the identity.

dn: Uses the DN in the digital signature as the identity.

fqdn fqdn-name: Uses the FQDN name as the identity. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, for example, www.test.com. If you do not specify this argument, the device name configured by using the sysname command is used as the local FQDN.

user-fqdn user-fqdn-name: Uses the user FQDN name as the identity. The user-fqdn-name argument is a case-sensitive string of 1 to 255 characters, for example, abc@test.com. If you do not specify this argument, the device name configured by using the sysname command is used as the user FQDN.

Usage guidelines

The global local identity can be used for all IKE SA negotiations. The local identity (set by the local-identity command for an IKE profile) can be used only for IKE SA negotiations that use the IKE profile.

If the local authentication method is signature authentication, you can set an identity of any type. If the local authentication method is preshared key authentication, you cannot set the DN as the identity.

The ike signature-identity from-certificate command sets the local device to always use the identity information obtained from the local certificate for signature authentication. If the ike signature-identity from-certificate command is not set, the local-identity command configuration, if configured, takes precedence over the ike identity command configuration.

Examples

# Specify IP address 2.2.2.2 as the identity.

<sysname> system-view

[sysname] ike identity address 2.2.2.2

Related commands

local-identity

ike signature-identity from-certificate

ike invalid-spi-recovery enable

Use ike invalid-spi-recovery enable to enable invalid security parameter index (SPI) recovery.

Use undo ike invalid-spi-recovery enable to disable invalid SPI recovery.

Syntax

ike invalid-spi-recovery enable

undo ike invalid-spi-recovery enable

Default

Invalid SPI recovery is disabled.

Views

System view

Predefined user roles

network-admin

Usage guidelines

IPsec "black hole" occurs when one IPsec peer fails (for example, a peer can fail if a reboot occurs). One peer fails and loses its SAs with the other peer. When an IPsec peer receives a data packet for which it cannot find an SA, an invalid SPI is encountered. The peer drops the data packet and tries to send an SPI invalid notification to the data originator. This notification is sent by using the IKE SA. When no IKE SA is available, the notification is not sent. The originating peer continues sending the data by using the IPsec SA that has the invalid SPI, and the receiving peer keeps dropping the traffic.

The invalid SPI recovery feature enables the receiving peer to set up an IKE SA with the originator so that an SPI invalid notification can be sent. Upon receiving the notification, the originating peer deletes the IPsec SA that has the invalid SPI. If the originator has data to send, new SAs will be set up.

Use caution when you enable the invalid SPI recovery feature, because using this feature can result in a DoS attack. Attackers can make a great number of invalid SPI notifications to the same peer.

Examples

# Enable invalid SPI recovery.

<Sysname> system-view

[Sysname] ike invalid-spi-recovery enable

ike keepalive interval

Use ike keepalive interval to set the IKE keepalive interval.

Use undo ike keepalive interval to restore the default.

Syntax

ike keepalive interval interval

undo ike keepalive interval

Default

No IKE keepalives are sent.

Views

System view

Predefined user roles

network-admin

Parameters

interval: Specifies the number of seconds between IKE keepalives, in the range of 20 to 28800.

Usage guidelines

To detect the status of the peer, configure IKE DPD instead of the IKE keepalive feature, unless IKE DPD is not supported on the peer.

The keepalive timeout time configured at the local must be longer than the keepalive interval configured at the peer. Because more than three consecutive packets are rarely lost on a network, you can set the keepalive timeout time to three times as long as the keepalive interval.

Examples

# Set the keepalive interval to 200 seconds

<Sysname> system-view

[Sysname] ike keepalive interval 200

Related commands

ike keepalive timeout

ike keepalive timeout

Use ike keepalive timeout to set the IKE keepalive timeout time.

Use undo ike keepalive timeout to restore the default.

Syntax

ike keepalive timeout seconds

undo ike keepalive timeout

Default

The IKE keepalive timeout time is not set.

Views

System view

Predefined user roles

network-admin

Parameters

seconds: Specifies the number of seconds between IKE keepalives. The value range for this argument is 20 to 28800.

Usage guidelines

If the local end receives no keepalive packets from the peer during the timeout time, the IKE SA is deleted along with the IPsec SAs it negotiated.

The keepalive timeout time configured at the local end must be longer than the keepalive interval configured at the peer. Because more than three consecutive packets are rarely lost on a network, you can set the keepalive timeout time to three times as long as the keepalive interval.

Examples

# Set the keepalive timeout time to 20 seconds.

<Sysname> system-view

[Sysname] ike keepalive timeout 20

Related commands

ike keepalive interval

ike keychain

Use ike keychain to create an IKE keychain and enter its view, or enter the view of an existing IKE keychain.

Use undo ike keychain to delete an IKE keychain.

Syntax

ike keychain keychain-name

undo ike keychain keychain-name

Default

No IKE keychains exist.

Views

System view

Predefined user roles

network-admin

Parameters

keychain-name: Specifies an IKE keychain name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

To use preshared key authentication, you must create and specify an IKE keychain for the IKE profile.

Examples

# Create IKE keychain key1 and enter its view.

<Sysname> system-view

[Sysname] ike keychain key1

[Sysname-ike-keychain-key1]

Related commands

authentication-method

pre-shared-key

ike limit

Use ike limit to set the maximum number of half-open or established IKE SAs.

Use undo ike limit to restore the default.

Syntax

ike limit { max-negotiating-sa negotiation-limit | max-sa sa-limit }

undo ike limit { max-negotiating-sa | max-sa }

Default

There is no limit to the maximum number of half-open or established IKE SAs.

Views

System view

Predefined user roles

network-admin

Parameters

max-negotiating-sa negotiation-limit: Specifies the maximum number of half-open IKE SAs and IPsec SAs. The value range for the negotiation-limit argument is 1 to 99999.

max-sa sa-limit: Specifies the maximum number of established IKE SAs. The value range for the sa-limit argument is 1 to 99999.

Usage guidelines

The supported maximum number of half-open IKE SAs depends on the device's processing capability. Adjust the maximum number of half-open IKE SAs to make full use of the device's processing capability without affecting the IKE SA negotiation efficiency.

The supported maximum number of established IKE SAs depends on the device's memory space. Adjust the maximum number of established IKE SAs to make full use of the device's memory space without affecting other applications in the system.

Examples

# Set the maximum number of half-open IKE SAs and IPsec SAs to 200.

<Sysname> system-view

[Sysname] ike limit max-negotiating-sa 200

# Set the maximum number of established IKE SAs to 5000.

<Sysname> system-view

[Sysname] ike limit max-sa 5000

ike logging negotiation enable

Use ike logging negotiation enable to enable logging for IKE negotiation.

Use undo ike logging negotiation packet enable to disable logging for IKE negotiation.

Syntax

ike logging negotiation enable

undo ike logging negotiation enable

Default

Logging for IKE negotiation is disabled.

 

Views

System view

Predefined user roles

network-admin

Usage guidelines

This command enables the device to output logs for the IKE negotiation process.

Examples

# Enable logging for IKE negotiation.

<Sysname> system-view

[Sysname] ike logging negotiation enable

ike nat-keepalive

Use ike nat-keepalive to set the NAT keepalive interval.

Use undo ike nat-keepalive to restore the default.

Syntax

ike nat-keepalive seconds

undo ike nat-keepalive

Default

The NAT keepalive interval is 20 seconds.

Views

System view

Predefined user roles

network-admin

Parameters

seconds: Specifies the NAT keepalive interval in seconds, in the range of 5 to 300.

Usage guidelines

This command takes effect only for a device that resides in the private network behind a NAT gateway. The device behind the NAT gateway needs to send NAT keepalives to its peer to keep the NAT session alive, so that the peer can access the device.

The NAT keepalive interval must be shorter than the NAT session lifetime.For information about how to display the lifetime of NAT sessions, see Network Connectivity Command Reference.

Examples

# Set the NAT keepalive interval to 5 seconds.

<Sysname> system-view

[Sysname] ike nat-keepalive 5

ike profile

Use ike profile to create an IKE profile and enter its view, or enter the view of an existing IKE profile.

Use undo ike profile to delete an IKE profile.

Syntax

ike profile profile-name

undo ike profile profile-name

Default

No IKE profiles exist.

Views

System view

Predefined user roles

network-admin

Parameters

profile-name: Specifies an IKE profile name, a case-insensitive string of 1 to 63 characters.

Examples

# Create IKE profile 1 and enter its view.

<Sysname> system-view

[Sysname] ike profile 1

[Sysname-ike-profile-1]

ike proposal

Use ike proposal to create an IKE proposal and enter its view, or enter the view of an existing IKE proposal.

Use undo ike proposal to delete an IKE proposal.

Syntax

ike proposal proposal-number

undo ike proposal proposal-number

Default

An IKE proposal exists, which has the lowest priority and uses the following settings:

·     Encryption algorithm—DES-CBC.

·     Authentication algorithm—HMAC-SHA1.

·     Authentication method—Preshared key authentication.

·     DH group—768-bit Diffie-Hellman group.

·     IKE SA lifetime—86400 seconds.

You cannot change the settings of the default IKE proposal.

Views

System view

Predefined user roles

network-admin

Parameters

proposal-number: Specifies an IKE proposal number in the range of 1 to 65535. The lower the number, the higher the priority of the IKE proposal.

Usage guidelines

During IKE negotiation:

·     The initiator sends its IKE proposals to the peer.

¡     If the initiator is using an IPsec policy with an IKE profile, the initiator sends all IKE proposals specified for the IKE profile to the peer. An IKE proposal specified earlier for the IKE profile has a higher priority.

¡     If the initiator is using an IPsec policy with no IKE profile, the initiator sends all its IKE proposals to the peer. An IKE proposal with a smaller number has a higher priority.

·     The peer searches its own IKE proposals for a match. The search starts from the IKE proposal with the highest priority and proceeds in descending order of priority until a match is found. The matching IKE proposals are used to establish the IKE SA. If all user-defined IKE proposals are mismatched, the two peers use their default IKE proposals to establish the IKE SA.

Examples

# Create IKE proposal 1 and enter its view.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1]

Related commands

display ike proposal

ike signature-identity from-certificate

Use ike signature-identity from-certificate to configure the local device to obtain the identity information from the local certificate for signature authentication.

Use undo ike signature-identity from-certificate to restore the default.

Syntax

ike signature-identity from-certificate

undo ike signature-identity from-certificate

Default

The local end uses the identity information specified by the local-identity or ike identity command for signature authentication.

Views

System view

Predefined user roles

network-admin

Usage guidelines

This command requires the local device to always use the identity information in the local certificate for signature authentication, regardless of the local-identity or ike identity configuration.

Configure this command when the aggressive mode and signature authentication are used and the device interconnects with a Comware 5-based peer device. Comware 5 supports only DN for signature authentication.

If the ike signature-identity from-certificate command is not configured, the local-identity command configuration, if configured, takes precedence over the ike identity command configuration.

Examples

# Configure the local device to always obtain the identity information from the local certificate for signature authentication.

<Sysname> system-view

[sysname] ike signature-identity from-certificate

Related commands

local-identity

ike identity

keychain

Use keychain to specify an IKE keychain for preshared key authentication.

Use undo keychain to remove an IKE keychain.

Syntax

keychain keychain-name

undo keychain keychain-name

Default

No IKE keychain is specified for preshared key authentication.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

keychain-name: Specifies an IKE keychain name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

You can specify a maximum of six IKE keychains for an IKE profile. An IKE keychain specified earlier has a higher priority.

Examples

# Specify IKE keychain abc for IKE profile 1.

<Sysname> system-view

[Sysname] ike profile 1

[Sysname-ike-profile-1] keychain abc

Related commands

ike keychain

local-identity

Use local-identity to configure the local ID, the ID that the device uses to identify itself to the peer during IKE negotiation.

Use undo local-identity to restore the default.

Syntax

local-identity { address { ipv4-address | ipv6 ipv6-address } | dn | fqdn [ fqdn-name ] | user-fqdn [ user-fqdn-name ] }

undo local-identity

Default

No local ID is configured for an IKE profile. An IKE profile uses the local ID configured in system view by using the ike identity command. If the local ID is not configured in system view, the IKE profile uses the IP address of the interface to which the IPsec policy is applied as the local ID.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

address { ipv4-address | ipv6 ipv6-address }: Uses an IPv4 or IPv6 address as the local ID.

dn: Uses the DN in the local certificate as the local ID.

fqdn fqdn-name: Uses an FQDN as the local ID. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as www.test.com. If you do not specify this argument, the device name configured by using the sysname command is used as the local FQDN.

user-fqdn user-fqdn-name: Uses a user FQDN as the local ID. The user-fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as adc@test.com. If you do not specify this argument, the device name configured by using the sysname command is used as the user FQDN.

Usage guidelines

For digital signature authentication, the device can use any type of ID. For preshared key authentication, the device can use any type of ID other than the DN.

In digital signature authentication, if the local ID is an IP address that is different from the IP address in the local certificate, the device uses its FQDN instead. The FQDN is the device name configured by using the sysname command.

The initiator uses the local ID to identify itself to the responder. The responder compares the initiator's ID with the peer IDs configured by the match remote command to look for a matching IKE profile.

An IKE profile can have only one local ID.

An IKE profile with no local ID specified uses the local ID configured by using the ike identity command in system view.

Examples

# Set the local ID to IP address 2.2.2.2.

<Sysname> system-view

[Sysname] ike profile prof1

[Sysname-ike-profile-prof1] local-identity address 2.2.2.2

Related commands

match remote

ike identity

match local address (IKE keychain view)

Use match local address to specify a local interface or IP address to which an IKE keychain can be applied.

Use undo match local address to restore the default.

Syntax

match local address { interface-type interface-number | { ipv4-address | ipv6 ipv6-address } }

undo match local address

Default

An IKE keychain can be applied to any local interface or IP address.

Views

IKE keychain view

Predefined user roles

network-admin

Parameters

interface-type interface-number: Specifies a local interface. It can be any Layer 3 interface.

ipv4-address: Specifies the IPv4 address of a local interface.

ipv6 ipv6-address: Specifies the IPv6 address of a local interface.

Usage guidelines

Use this command to specify which address or interface can use the IKE keychain for IKE negotiation. Specify the local address configured in IPsec policy or IPsec policy template view (using the local-address command) for this command. If no local address is configured, specify the IP address of the interface that uses the IPsec policy.

You can specify a maximum of six IKE keychains for an IKE profile. An IKE keychain specified earlier has a higher priority. To give an IKE keychain a higher priority, you can configure this command for the keychain. For example, suppose you specified IKE keychain A before specifying IKE keychain B, and you configured the peer ID 2.2.0.0/16 for IKE keychain A and the peer ID 2.2.2.0/24 for IKE keychain B. For the local interface with the IP address 3.3.3.3 to negotiate with the peer 2.2.2.6, IKE keychain A is preferred because IKE keychain A was specified earlier. To use IKE keychain B, you can use this command to restrict the application scope of IKE keychain B to address 3.3.3.3.

Examples

# Create IKE keychain key1.

<Sysname> system-view

[Sysname] ike keychain key1

# Apply IKE keychain key1 to IP address 2.2.2.2.

[sysname-ike-keychain-key1] match local address 2.2.2.1

match local address (IKE profile view)

Use match local address to specify a local interface or IP address to which an IKE profile can be applied.

Use undo match local address to restore the default.

Syntax

match local address { interface-type interface-number | { ipv4-address | ipv6 ipv6-address } }

undo match local address

Default

An IKE profile can be applied to any local interface or IP address.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

interface-type interface-number: Specifies a local interface. It can be any Layer 3 interface.

ipv4-address: Specifies the IPv4 address of a local interface.

ipv6 ipv6-address: Specifies the IPv6 address of a local interface.

Usage guidelines

Use this command to specify which address or interface can use the IKE profile for IKE negotiation. Specify the local address configured in IPsec policy or IPsec policy template view (using the local-address command) for this command. If no local address is configured, specify the IP address of the interface that uses the IPsec policy.

An IKE profile configured earlier has a higher priority. To give an IKE profile that is configured later a higher priority, you can configure this command for the profile. For example, suppose you configured IKE profile A before configuring IKE profile B, and you configured the match remote identity address range 2.2.2.1 2.2.2.100 command for IKE profile A and the match remote identity address range 2.2.2.1 2.2.2.10 command for IKE profile B. For the local interface with the IP address 3.3.3.3 to negotiate with the peer 2.2.2.6, IKE profile A is preferred because IKE profile A was configured earlier. To use IKE profile B, you can use this command to restrict the application scope of IKE profile B to address 3.3.3.3.

Examples

# Create IKE profile prof1.

<Sysname> system-view

[Sysname] ike profile prof1

# Apply IKE profile prof1 to IP address 2.2.2.2.

[sysname-ike-profile-prof1] match local address 2.2.2.1

match remote

Use match remote to configure a peer ID for IKE profile matching.

Use undo match remote to delete a peer ID for IKE profile matching.

Syntax

match remote { certificate policy-name | identity { address { { ipv4-address [ mask | mask-length ] | range low-ipv4-address high-ipv4-address } | ipv6 { ipv6-address [ prefix-length ] | range low-ipv6-address high-ipv6-address } } | fqdn fqdn-name | user-fqdn user-fqdn-name } }

undo match remote { certificate policy-name | identity { address { { ipv4-address [ mask | mask-length ] | range low-ipv4-address high-ipv4-address } | ipv6 { ipv6-address [ prefix-length ] | range low-ipv6-address high-ipv6-address } } | fqdn fqdn-name | user-fqdn user-fqdn-name } }

Default

No peer ID is configured for IKE profile matching.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

certificate policy-name: Uses the DN in the peer's digital certificate as the peer ID for IKE profile matching. The policy-name argument is a string of 1 to 31 characters.

identity: Uses the specified information as the peer ID for IKE profile matching. The specified information is configured on the peer by using the local-identity command.

·     address ipv4-address [ mask | mask-length ]: Uses an IPv4 host address or an IPv4 subnet address as the peer ID for IKE profile matching. The value range for the mask-length argument is 0 to 32, and the default is 32.

·     address range low-ipv4-address high-ipv4-address: Uses a range of IPv4 addresses as the peer ID for IKE profile matching. The end address must be higher than the start address.

·     address ipv6 ipv6-address [ prefix-length ]: Uses an IPv6 host address or an IPv6 subnet address as the peer ID for IKE profile matching. The value range for the prefix-length argument is 0 to 128, and the default is 128.

·     address ipv6 range low-ipv6-address high-ipv6-address: Uses a range of IPv6 addresses as the peer ID for IKE profile matching. The end address must be higher than the start address.

·     fqdn fqdn-name: Uses the peer's FQDN as the peer ID for IKE profile matching. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as www.test.com.

·     user-fqdn user-fqdn-name: Uses the peer's user FQDN as the peer ID for IKE profile matching. The user-fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as adc@test.com.

Usage guidelines

The responder compares the initiator's ID it received with the peer IDs of its local IKE profiles. If a match is found, the responder uses the IKE profile with the matching peer ID for IKE negotiation with the initiator.

On the responder, each IKE profile must have at least one peer ID configured. To make sure only one IKE profile is matched for a peer, do not configure the same peer ID for two or more IKE profiles. If you configure the same peer ID for two or more IKE profiles, which IKE profile is selected for IKE negotiation is unpredictable.

For an IKE profile, you can configure multiple peer IDs. A peer ID configured earlier has a higher priority.

Examples

# Create IKE profile prof1.

<Sysname> system-view

[Sysname] ike profile prof1

# Configure a peer ID with the identity type of FQDN and the value of www.test.com.

[Sysname-ike-profile-prof1] match remote identity fqdn www.test.com

# Configure a peer ID with the identity type of IP address and the value of 10.1.1.1.

[Sysname-ike-profile-prof1] match remote identity address 10.1.1.1

Related commands

local-identity

pre-shared-key

Use pre-shared-key to configure a preshared key.

Use undo pre-shared-key to delete a preshared key.

Syntax

pre-shared-key { address { ipv4-address [ mask | mask-length ] | ipv6 ipv6-address [ prefix-length ] } | hostname host-name } key { cipher | simple } string

undo pre-shared-key { address { ipv4-address [ mask | mask-length ] | ipv6 ipv6-address [ prefix-length ] } | hostname host-name }

Default

No preshared key is configured.

Views

IKE keychain view

Predefined user roles

network-admin

Parameters

address: Specifies a peer by its address.

ipv4-address: Specifies the IPv4 address of the peer.

mask: Specifies the mask in dotted decimal notation. The default mask is 255.255.255.255.

mask-length: Specifies the mask length in the range of 0 to 32. The default mask length is 32.

ipv6: Specifies an IPv6 peer.

ipv6-address: Specifies the IPv6 address of the peer.

prefix-length: Specifies the prefix length in the range of 0 to 128. The default prefix length is 128.

hostname host-name: Specifies a peer by its hostname, a case-sensitive string of 1 to 255 characters.

key: Specifies a preshared key.

cipher: Specifies a preshared key in encrypted form.

simple: Specifies a preshared key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.

string: Specifies the preshared key. The key is case sensitive.Its plaintext form is a string of 1 to 128 characters and its encrypted form is a string of 1 to 201 characters.

Usage guidelines

The address option or the hostname option specifies the peer with which the device can use the preshared key to perform IKE negotiation.

If you specify the peer by using the hostname option, the device can act as only a responder in IKE negotiation and it must use the aggressive mode in IKE phase 1. The peer device ID must be the peer FQDN that matches the hostname.

Two peers must be configured with the same preshared key to pass preshared key authentication.

If you do not specify the cipher string option, you specify a plaintext pre-shared key in interactive mode. The key is a case-sensitive string of 15 to 128 characters, and it must contain uppercase and lowercase letters, digits, and special characters other than the question mark (?).

Examples

# Create IKE keychain key1 and enter IKE keychain view.

<Sysname> system-view

[Sysname] ike keychain key1

# Set the preshared key to be used for IKE negotiation with peer 1.1.1.2 to 123456TESTplat&!.

[Sysname-ike-keychain-key1] pre-shared-key address 1.1.1.2 255.255.255.255 key simple 123456TESTplat&!

Related commands

authentication-method

keychain

priority (IKE keychain view)

Use priority to specify a priority for an IKE keychain.

Use undo priority to restore the default.

Syntax

priority priority

undo priority

Default

The priority of an IKE keychain is 100.

Views

IKE keychain view

Predefined user roles

network-admin

Parameters

priority priority: Specifies a priority number in the range of 1 to 65535. The lower the priority number, the higher the priority.

Usage guidelines

To determine the priority of an IKE keychain, the device examines the existence of the match local address command before examining the priority number. An IKE keychain with the match local address command configured has a higher priority than an IKE keychain that does not have the match local address command configured.

Examples

# Set the priority to 10 for IKE keychain key1.

<Sysname> system-view

[Sysname] ike keychain key1

[Sysname-ike-keychain-key1] priority 10

priority (IKE profile view)

Use priority to specify a priority for an IKE profile.

Use undo priority to restore the default.

Syntax

priority priority

undo priority

Default

The priority of an IKE profile is 100.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

priority priority: Specifies a priority number in the range of 1 to 65535. The smaller the priority number, the higher the priority.

Usage guidelines

To determine the priority of an IKE profile, the device examines the existence of the match local address command before examining the priority number. An IKE profile with the match local address command configured has a higher priority than an IKE profile that does not have the match local address command configured.

Examples

# Set the priority to 10 for IKE profile prof1.

<Sysname> system-view

[Sysname] ike profile prof1

[Sysname-ike-profile-prof1] priority 10

proposal

Use proposal to specify IKE proposals for an IKE profile.

Use undo proposal to restore the default.

Syntax

proposal proposal-number&<1-6>

undo proposal

Default

No IKE proposals are specified for an IKE profile and the IKE proposals configured in system view are used for IKE negotiation.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

proposal-number&<1-6>: Specifies a space-separated list of up to six IKE proposals by their numbers in the range of 1 to 65535. An IKE proposal specified earlier has a higher priority.

Usage guidelines

When acting as the initiator, the device sends the specified IKE proposals to its peer for IKE negotiation. When acting as the responder, the device uses the IKE proposals configured in system view to match the IKE proposals received from the initiator.

Examples

# Specify IKE proposal 10 for IKE profile prof1.

<Sysname> system-view

[Sysname] ike profile prof1

[Sysname-ike-profile-prof1] proposal 10

Related commands

ike proposal

reset ike sa

Use reset ike sa to delete IKE SAs.

Syntax

reset ike sa [ connection-id connection-id ]

Views

User view

Predefined user roles

network-admin

Parameters

connection-id connection-id: Specifies the connection ID of the IKE SA to be cleared, in the range of 1 to 2000000000.

Usage guidelines

When you delete an IKE SA, the device automatically sends a notification to the peer.

Examples

# Display the current IKE SAs.

<Sysname> display ike sa

    Connection-ID  Remote            Flag        DOI

  ----------------------------------------------------------

      1            202.38.0.2        RD          IPsec

      2            202.38.0.3        RD          IPsec

Flags:

RD--READY RL--REPLACED FD-FADING RK-REKEY

# Delete the IKE SA with the connection ID 2.

<Sysname> reset ike sa connection-id 2

# Display the current IKE SAs.

<Sysname> display ike sa

    Connection-ID  Remote            Flag        DOI

  ----------------------------------------------------------

      1            202.38.0.2        RD          IPsec

Flags:

RD--READY RL--REPLACED FD-FADING RK-REKEY

reset ike statistics

Use reset ike statistics command to clear IKE MIB statistics.

Syntax

reset ike statistics

Views

User view

Predefined user roles

network-admin

Examples

# Clears IKE MIB statistics.

<Sysname> reset ike statistics

Related commands

snmp-agent trap enable ike

sa duration

Use sa duration to set the IKE SA lifetime for an IKE proposal.

Use undo sa duration to restore the default.

Syntax

sa duration seconds

undo sa duration

Default

The IKE SA lifetime is 86400 seconds for an IKE proposal.

Views

IKE proposal view

Predefined user roles

network-admin

Parameters

seconds: Specifies the IKE SA lifetime in seconds, in the range of 60 to 604800.

Usage guidelines

Before an IKE SA expires, IKE negotiates a new SA. The new SA takes effect immediately after it is negotiated. The old IKE SA will be cleared when it expires.

If the communicating peers are configured with different IKE SA lifetime settings, the smaller setting takes effect.

If the IPsec SA lifetime is also configured, set the IKE SA lifetime longer than the IPsec SA lifetime as a best practice.

Examples

# Set the IKE SA lifetime to 600 seconds for IKE proposal 1.

<Sysname> system-view

[Sysname] ike proposal 1

[Sysname-ike-proposal-1] sa duration 600

Related commands

display ike proposal

sa soft-duration buffer

Use sa soft-duration buffer to set the IKE SA soft lifetime buffer time.

Use undo sa soft-duration buffer to restore the default.

Syntax

sa soft-duration buffer seconds

undo sa soft-duration buffer

Default

The IKE SA soft lifetime buffer time is not configured.

Views

IKE profile view

Predefined user roles

network-admin

Parameters

seconds: Specifies the IKE SA soft lifetime buffer time, in seconds. The value range is 10 to 36000.

Usage guidelines

This command takes effect only when IKEv1 is used.

The IKE SA soft lifetime buffer time is used determine the IKE SA soft lifetime. A new IKE SA will be negotiated when the IKE SA soft lifetime expires.

The IKE SA soft lifetime is calculated as follows: IKE SA soft lifetime = IKE SA lifetime – IKE SA soft lifetime buffer time.

If the IKE SA soft lifetime buffer time is not configured, the system calculates a default IKE SA soft lifetime based on the IKE SA lifetime.

The default IKE SA soft lifetime is also used if the IKE soft lifetime calculated based on the soft lifetime buffer is shorter than or equal to 10 seconds.

Examples

# Set the IKE SA soft lifetime buffer time to 600 seconds.

<Sysname> system-view

[Sysname] ike profile abc

[Sysname-ike-profile-abc] sa soft-duration buffer 600

Related commands

display ike sa

snmp-agent trap enable ike

Use snmp-agent trap enable ike command to enable SNMP notifications for IKE.

Use undo snmp-agent trap enable ike to disable SNMP notifications for IKE.

Syntax

snmp-agent trap enable ike [ attr-not-support | auth-failure | cert-type-unsupport | cert-unavailable | decrypt-failure | encrypt-failure | global | invalid-cert-auth | invalid-cookie | invalid-id | invalid-proposal | invalid-protocol | invalid-sign | no-sa-failure | proposal-add | proposal–delete | tunnel-start | tunnel-stop | unsupport-exch-type ] *

undo snmp-agent trap enable ike [ attr-not-support | auth-failure | cert-type-unsupport | cert-unavailable | decrypt-failure | encrypt-failure | global | invalid-cert-auth | invalid-cookie | invalid-id | invalid-proposal | invalid-protocol | invalid-sign | no-sa-failure | proposal-add | proposal–delete | tunnel-start | tunnel-stop | unsupport-exch-type ] *

Default

All SNMP notifications for IKE are disabled.

Views

System view

Predefined user roles

network-admin

Parameters

attr-not-support: Specifies notifications about attribute-unsupported failures.

auth-failure: Specifies notifications about authentication failures.

cert-type-unsupport: Specifies notifications about certificate-type-unsupported failures.

cert-unavailable: Specifies notifications about certificate-unavailable failures.

decrypt-failure: Specifies notifications about decryption failures.

encrypt-failure: Specifies notifications about encryption failures.

global: Specifies notifications globally.

invalid-cert-auth: Specifies notifications about invalid-certificate-authentication failures.

invalid-cookie: Specifies notifications about invalid-cookie failures.

invalid-id: Specifies notifications about invalid-ID failures.

invalid-proposal: Specifies notifications about invalid-IKE-proposal failures.

invalid-protocol: Specifies notifications about invalid-protocol failures.

invalid-sign: Specifies notifications about invalid-signature failures.

no-sa-failure: Specifies notifications about SA-not-found failures.

proposal-add: Specifies notifications about events of adding IKE proposals.

proposal-delete: Specifies notifications about events of deleting IKE proposals.

tunnel-start: Specifies notifications about events of creating IKE tunnels.

tunnel-stop: Specifies notifications about events of deleting IKE tunnels.

unsupport-exch-type: Specifies notifications about negotiation-type-unsupported failures.

Usage guidelines

If you do not specify any keywords, this command enables or disables all SNMP notifications for IKE.

To generate and output SNMP notifications for a specific IKE failure type or event type, perform the following tasks:

1.     Enable SNMP notifications for IKE globally.

2.     Enable SNMP notifications for the failure type or event type.

Examples

# Enable SNMP notifications for IKE globally.

<Sysname> system-view

[Sysname] snmp-agent trap enable ike global

# Enable SNMP notifications for events of creating IKE tunnels.

[Sysname] snmp-agent trap enable ike tunnel-start


IKEv2 commands

The following compatibility matrixes show the support of hardware platforms for IKEv2:

 

Hardware series

Model

Product code

IKEv2 compatibility

WX1800H series

WX1804H

EWP-WX1804H-PWR-CN

Yes

WX2500H series

WX2508H-PWR-LTE

WX2510H

WX2510H-F

WX2540H

WX2540H-F

WX2560H

EWP-WX2508H-PWR-LTE

EWP-WX2510H-PWR

EWP-WX2510H-F-PWR

EWP-WX2540H

EWP-WX2540H-F

EWP-WX2560H

Yes

WX3000H series

WX3010H

WX3010H-X

WX3010H-L

WX3024H

WX3024H-L

WX3024H-F

EWP-WX3010H

EWP-WX3010H-X-PWR

EWP-WX3010H-L-PWR

EWP-WX3024H

EWP-WX3024H-L-PWR

EWP-WX3024H-F

Yes:

·     WX3010H

·     WX3010H-X

·     WX3024H

·     WX3024H-F

No:

·     WX3010H-L

·     WX3024H-L

WX3500H series

WX3508H

WX3510H

WX3520H

WX3520H-F

WX3540H

EWP-WX3508H

EWP-WX3510H

EWP-WX3520H

EWP-WX3520H-F

EWP-WX3540H

Yes

WX5500E series

WX5510E

WX5540E

EWP-WX5510E

EWP-WX5540E

Yes

WX5500H series

WX5540H

WX5560H

WX5580H

EWP-WX5540H

EWP-WX5560H

EWP-WX5580H

Yes

Access controller modules

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

LSUM1WCME0

EWPXM1WCME0

LSQM1WCMX20

LSUM1WCMX20RT

LSQM1WCMX40

LSUM1WCMX40RT

EWPXM2WCMD0F

EWPXM1MAC0F

Yes

Hardware series

Model

Product code

IKEv2 compatibility

WX1800H series

WX1804H

WX1810H

WX1820H

WX1840H

EWP-WX1804H-PWR

EWP-WX1810H-PWR

EWP-WX1820H

EWP-WX1840H-GL

Yes

WX3800H series

WX3820H

WX3840H

EWP-WX3820H-GL

EWP-WX3840H-GL

Yes

WX5800H series

WX5860H

EWP-WX5860H-GL

Yes

 

aaa authorization

Use aaa authorization to enable IKEv2 AAA authorization.

Use undo aaa authorization to disable IKEv2 AAA authorization.

Syntax

aaa authorization domain domain-name username user-name

undo aaa authorization

Default

IKEv2 AAA authorization is disabled.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

domain domain-name: Specifies the ISP domain used for requesting authorization attributes. The ISP domain name is a case-insensitive string of 1 to 255 characters and must meet the following requirements:

·     The name cannot contain a forward slash (/), backslash (\), vertical bar (|), quotation mark ("), colon (:), asterisk (*), question mark (?), left angle bracket (<), right angle bracket (>), or an at sign (@).

·     The name cannot be d, de, def, defa, defau, defaul, default, i, if, if-, if-u, if-un, if-unk, if-unkn, if-unkno, if-unknow, or if-unknown.

username user-name: Specifies the username used for requesting authorization attributes. The username is a case-sensitive string of 1 to 55 characters and must meet the following requirements:

·     The username cannot contain the domain name.

·     The username cannot contain a forward slash (/), backslash (\), vertical bar (|), colon (:), asterisk (*), question mark (?), left angle bracket (<), right angle bracket (>), or an at sign (@).

·     The username cannot be a, al, or all.

Usage guidelines

The AAA authorization feature enables IKEv2 to request authorization attributes, such as the IKEv2 address pool, from AAA.

IKEv2 uses the ISP domain and username to request authorization attributes. AAA uses the authorization settings in the ISP domain to request the user's authorization attributes from the remote AAA server or the local user database. After IKEv2 passes the username authentication, it obtains the authorization attributes.

This feature is applicable when AAA is used to centrally manage and deploy authorization attributes.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Enable AAA authorization. Specify ISP domain name abc and username test.

[Sysname-ikev2-profile-profile1] aaa authorization domain abc username test

Related commands

display ikev2 profile

address

Use address to specify the IP address or IP address range of an IKEv2 peer.

Use undo address to restore the default.

Syntax

address { ipv4-address [ mask | mask-length ] | ipv6 ipv6-address [ prefix-length ] }

undo address

Default

The IKEv2 peer's IP address or IP address range is not specified.

Views

IKEv2 peer view

Predefined user roles

network-admin

Parameters

ipv4-address: Specifies the IPv4 address of the IKEv2 peer.

mask: Specifies the subnet mask of the IPv4 address.

mask-length: Specifies the subnet mask length of the IPv4 address, in the range of 0 to 32.

ipv6 ipv6-address: Specifies the IPv6 address of the IKEv2 peer.

prefix-length: Specifies the prefix length of the IPv6 address, in the range of 0 to 128.

Usage guidelines

Both the initiator and the responder can look up an IKEv2 peer by IP address in IKEv2 negotiation.

The IP addresses of different IKEv2 peers in the same IKEv2 keychain cannot be the same.

Examples

# Create an IKEv2 keychain named key1.

<Sysname> system-view

[Sysname] ikev2 keychain key1

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-key1] peer peer1

# Specify the IKEv2 peer's IP address 3.3.3.3 with subnet mask 255.255.255.0.

[Sysname-ikev2-keychain-key1-peer-peer1] address 3.3.3.3 255.255.255.0

Related commands

ikev2 keychain

peer

authentication-method

Use authentication-method to specify the local or remote identity authentication method.

Use undo authentication-method to remove the local or remote identity authentication method.

Syntax

authentication-method { local | remote } { dsa-signature | ecdsa-signature | pre-share | rsa-signature }

undo authentication-method local

undo authentication-method remote { dsa-signature | ecdsa-signature | pre-share | rsa-signature }

Default

No local or remote identity authentication method is specified.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

local: Specifies the local identity authentication method.

remote: Specifies the remote identity authentication method.

dsa-signature: Specifies the DSA signatures as the identity authentication method.

ecdsa-signature: Specifies the ECDSA signatures as the identity authentication method.

pre-share: Specifies the preshared key as the identity authentication method.

rsa-signature: Specifies the RSA signatures as the identity authentication method.

Usage guidelines

The local and remote identity authentication methods must both be specified and they can be different.

You can specify only one local identity authentication method. You can specify multiple remote identity authentication methods by executing this command multiple times when there are multiple remote ends whose authentication methods are unknown.

If you use RSA, DSA, or ECDSA signature authentication, you must specify PKI domains for obtaining certificates. You can specify PKI domains by using the certificate domain command in IKEv2 profile view. If you do not specify PKI domains in IKEv2 profile view, the PKI domains configured by the pki domain command in system view will be used.

If you specify the preshared key method, you must specify a preshared key for the IKEv2 peer in the keychain used by the IKEv2 profile.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Specify the preshared key and RSA signatures as the local and remote authentication methods, respectively.

[Sysname-ikev2-profile-profile1] authentication-method local pre-share

[Sysname-ikev2-profile-profile1] authentication-method remote rsa-signature

# Specify PKI domain genl as the PKI domain for obtaining certificates.

[Sysname-ikev2-profile-profile1] certificate domain genl

# Specify IKEv2 keychain keychain1.

[Sysname-ikev2-profile-profile1] keychain keychain1

Related commands

display ikev2 profile

certificate domain (IKEv2 profile view)

keychain (IKEv2 profile view)

certificate domain

Use certificate domain to specify a PKI domain for signature authentication in IKEv2 negotiation.

Use undo certificate domain to remove a PKI domain for signature authentication in IKEv2 negotiation.

Syntax

certificate domain domain-name [ sign | verify ]

undo certificate domain domain-name

Default

PKI domains configured in system view are used for signature authentication.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

domain-name: Specifies a PKI domain by its name, a case-insensitive string of 1 to 31 characters.

sign: Uses the local certificate in the PKI domain to generate a signature.

verify: Uses the CA certificate in the PKI domain to verify the remote end's certificate.

Usage guidelines

If you do not specify the sign or verify keyword, the PKI domain is used for both sign and verify purposes. You can specify a PKI domain for each purpose by executing this command multiple times. If you specify the same PKI domain for both purposes, the later configuration takes effect. For example, if you execute certificate domain abc sign and certificate domain abc verify successively, the PKI domain abc will be used only for verification.

If the local end uses RSA, DSA, or ECDSA signature authentication, you must specify a PKI domain for signature generation. If the remote end uses RSA, DSA, or ECDSA signature authentication, you must specify a PKI domain for verifying the remote end's certificate. If you do not specify PKI domains, the PKI domains configured in system view will be used.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Specify PKI domain abc for signature. Specify PKI domain def for verification.

[Sysname-ikev2-profile-profile1] certificate domain abc sign

[Sysname-ikev2-profile-profile1] certificate domain def verify

Related commands

authentication-method

pki domain

config-exchange

Use config-exchange to enable configuration exchange.

Use undo config-exchange to disable configuration exchange.

Syntax

config-exchange { request | set { accept | send } }

undo config-exchange { request | set { accept | send } }

Default

Configuration exchange is disabled.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

request: Enables the device to send request messages carrying the configuration request payload during the IKE_AUTH exchange.

set: Specifies the configuration set payload exchange.

accept: Enables the device to accept the configuration set payload carried in Info messages.

send: Enables the device to send Info messages carrying the configuration set payload.

Usage guidelines

The configuration exchange feature enables the local and remote ends to exchange configuration data, such as gateway address, internal IP address, and route. The exchange includes data request and response, and data push and response. The enterprise center can push IP addresses to branches. The branches can request IP addresses, but the requested IP addresses cannot be used.

You can specify both request and set for the device.

If you specify request for the local end, the remote end will respond if it can obtain the requested data through AAA authorization.

If you specify set send for the local end, you must specify set accept for the remote end.

The device with set send specified pushes an IP address after the IKEv2 SA is set up if it does not receive any configuration request from the peer.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Enable the local end to add the configuration request payload to the request message of IKE_AUTH exchange.

[Sysname-ikev2-profile-profile1] config-exchange request

Related commands

aaa authorization

display ikev2 profile

dh

Use dh to specify DH groups to be used in IKEv2 key negotiation.

Use undo group to restore the default.

Syntax

dh { group1 | group14 | group2 | group24 | group5 | group19 | group20 } *

undo dh

Default

No DH group is specified for an IKEv2 proposal.

Views

IKEv2 proposal view

Predefined user roles

network-admin

Parameters

group1: Uses the 768-bit Diffie-Hellman group.

group2: Uses the 1024-bit Diffie-Hellman group.

group5: Uses the 1536-bit Diffie-Hellman group.

group14: Uses the 2048-bit Diffie-Hellman group.

group24: Uses the 2048-bit Diffie-Hellman group with the 256-bit prime order subgroup.

group19: Uses the 256-bit ECP Diffie-Hellman group.

group20: Uses the 384-bit ECP Diffie-Hellman group.

Usage guidelines

A DH group with a higher group number provides higher security but needs more time for processing. To achieve the best trade-off between processing performance and security, choose proper DH groups for your network.

You must specify a minimum of one DH group for an IKEv2 proposal. Otherwise, the proposal is incomplete and useless.

You can specify multiple DH groups for an IKEv2 proposal. A group specified earlier has a higher priority.

Examples

# Specify DH group 1 for IKEv2 proposal 1.

<Sysname> system-view

[Sysname] ikev2 proposal 1

[Sysname-ikev2-proposal-1] dh group1

Related commands

ikev2 proposal

display ikev2 policy

Use display ikev2 policy to display the IKEv2 policy configuration.

Syntax

display ikev2 policy [ policy-name | default ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

policy-name: Specifies an IKEv2 policy by its name, a case-insensitive string of 1 to 63 characters.

default: Specifies the default IKEv2 policy.

Usage guidelines

If you do not specify any parameters, this command displays the configuration of all IKEv2 policies.

Examples

# Display the configuration of all IKEv2 policies.

<Sysname> display ikev2 policy

IKEv2 policy: 1

  Priority: 100

  Match local address: 1.1.1.1

  Match local address ipv6: 1:1::1:1

  Match VRF: vpn1

  Proposal: 1

  Proposal: 2

IKEv2 policy: default

  Match VRF: any

  Proposal: default

Table 13 Command output

Field

Description

IKEv2 policy

Name of the IKEv2 policy.

Priority

Priority of the IKEv2 policy.

Match local address

IPv4 address to which the IKEv2 policy can be applied.

Match local address ipv6

IPv6 address to which the IKEv2 policy can be applied.

Match VRF

This field is not supported in the current software version.

VPN instance to which the IKEv2 policy can be applied.

Proposal

IKEv2 proposal that the IKEv2 policy uses.

 

Related commands

ikev2 policy

display ikev2 profile

Use display ikev2 profile to display the IKEv2 profile configuration.

Syntax

display ikev2 profile [ profile-name ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

profile-name: Specifies an IKEv2 profile by its name, a case-insensitive string of 1 to 63 characters. If you do not specify an IKEv2 profile, this command displays the configuration of all IKEv2 profiles.

Examples

# Display the configuration of all IKEv2 profiles.

<Sysname> display ikev2 profile

IKEv2 profile: 1

  Priority: 100

  Match criteria:

    Local address 1.1.1.1

    Local address Vlan-interface100

    Local address 1:1::1:1

    Remote identity ipv4 address 3.3.3.3/32

    VRF vrf1

  Inside-vrf:

  Local identity: address 1.1.1.1

  Local authentication method: pre-share

  Remote authentication methods: pre-share

  Keychain: Keychain1

  Sign certificate domain:

     Domain1

     abc

  Verify certificate domain:

     Domain2

     yy

  SA duration: 500

  DPD: Interval 32, retry 23, periodic

  Config-exchange: Request, Set send, Set accept

  NAT keepalive: 10

  AAA authorization: Domain domain1, username ikev2

Table 14 Command output

Field

Description

IKEv2 profile

Name of the IKEv2 profile.

Priority

Priority of the IKEv2 profile.

Match criteria

Criteria for looking up the IKEv2 profile.

Inside-vrf

This field is not supported in the current software version.

Inside VPN instance.

Local identity

ID of the local end.

Local authentication method

Method that the local end uses for authentication.

Remote authentication methods

Methods that the remote end uses for authentication.

Keychain

IKEv2 keychain that the IKEv2 profile uses.

Sign certificate domain

PKI domain used for signature generation.

Verify certificate domain

PKI domain used for verifying the remote end's certificate.

SA duration

Lifetime of the IKEv2 SA.

DPD

DPD settings:

·     Detection interval in seconds.

·     Retry interval in seconds.

·     Detection mode, on demand or periodically.

If DPD is disabled, this field displays Disabled.

Config-exchange

Configuration exchange settings:

·     Request—The local end sends request messages carrying the configuration request payload during the IKE_AUTH exchange.

·     Set accept—The local end accepts the configuration set payload carried in Info messages.

·     Set send—The local end sends Info messages carrying the configuration set payload.

NAT keepalive

NAT keepalive interval in seconds.

AAA authorization

AAA authorization settings:

·     ISP domain name.

·     Username.

 

Related commands

ikev2 profile

display ikev2 proposal

Use display ikev2 proposal to display the IKEv2 proposal configuration.

Syntax

display ikev2 proposal [ name | default ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

name: Specifies an IKEv2 proposal by its name, a case-insensitive string of 1 to 63 characters.

default: Specifies the default IKEv2 proposal.

Usage guidelines

This command displays IKEv2 proposals in descending order of priorities. If you do not specify any parameters, this command displays the configuration of all IKEv2 proposals.

Examples

# Display the configuration of all IKEv2 proposals.

<Sysname> display ikev2 proposal

IKEv2 proposal : 1                                                             

  Encryption: 3DES-CBC AES-CBC-128 AES-CTR-192 CAMELLIA-CBC-128                

  Integrity: MD5 SHA256 AES-XCBC-MAC                                           

  PRF: MD5 SHA256 AES-XCBC-MAC                                                 

  DH Group: MODP1024/Group2 MODP1536/Group5                                    

                                                                               

IKEv2 proposal : default                                                       

  Encryption: AES-CBC-128 3DES-CBC                                             

  Integrity: SHA1 MD5                                                          

  PRF: SHA1 MD5                                                                 

  DH Group: MODP1536/Group5 MODP1024/Group2

Table 15 Command output

Field

Description

IKEv2 proposal

Name of the IKEv2 proposal.

Encryption

Encryption algorithms that the IKEv2 proposal uses.

Integrity

Integrity protection algorithms that the IKEv2 proposal uses.

PRF

PRF algorithms that the IKEv2 proposal uses.

DH Group

DH groups that the IKEv2 proposal uses.

 

Related commands

ikev2 proposal

display ikev2 sa

Use display ikev2 sa to display the IKEv2 SA information.

Syntax

display ikev2 sa [ count | [ { local | remote } { ipv4-address | ipv6 ipv6-address } ] [ verbose [ tunnel tunnel-id ] ] ]

Views

Any view

Predefined user roles

network-admin

network-operator

Parameters

count: Displays the number of IKEv2 SAs.

local: Displays IKEv2 SA information for a local IP address.

remote: Displays IKEv2 SA information for a remote IP address.

ipv4-address: Specifies a local or remote IPv4 address.

ipv6 ipv6-address: Specifies a local or remote IPv6 address.

verbose: Displays detailed information. If you do not specify this keyword, the command displays the summary information.

tunnel tunnel-id: Displays detailed IKEv2 SA information for an IPsec tunnel. The tunnel-id argument specifies an IPsec tunnel by its ID in the range of 1 to 2000000000.

Usage guidelines

If you do not specify any parameters, this command displays summary information about all IKEv2 SAs.

Examples

# Display summary information about all IKEv2 SAs.

<Sysname> display ikev2 sa

     Tunnel ID          Local             Remote             Status

  --------------------------------------------------------------------

     1                  1.1.1.1/500       1.1.1.2/500        EST

     2                  2.2.2.1/500       2.2.2.2/500        EST

  Status:

  IN-NEGO: Negotiating, EST: Established, DEL: Deleting

# Display summary IKEv2 SA information for the remote IP address 1.1.1.2.

<Sysname> display ikev2 sa remote 1.1.1.2

     Tunnel ID          Local             Remote             Status

  --------------------------------------------------------------------

     1                  1.1.1.1/500       1.1.1.2/500        EST

  Status:

  IN-NEGO: Negotiating, EST: Established, DEL: Deleting

Table 16 Command output

Field

Description

Tunnel ID

ID of the IPsec tunnel to which the IKEv2 SA belongs.

Local

Local IP address of the IKEv2 SA.

Remote

Remote IP address of the IKEv2 SA.

Status

Status of the IKEv2 SA:

·     IN-NEGO (Negotiating)—The IKEv2 SA is under negotiation.

·     EST (Established)—The IKEv2 SA has been set up.

·     DEL (Deleting)—The IKEv2 SA is about to be deleted.

 

# Display detailed information about all IKEv2 SAs.

<Sysname> display ikev2 sa verbose

  Tunnel ID: 1

  Local IP/Port: 1.1.1.1/500

  Remote IP/Port: 1.1.1.2/500

  Outside VRF: -

  Inside VRF: -

  Local SPI: 8f8af3dbf5023a00

  Remote SPI: 0131565b9b3155fa

 

  Local ID type: FQDN

  Local ID: device_a

  Remote ID type: FQDN

  Remote ID: device_b

 

  Auth sign method: Pre-shared key

  Auth verify method: Pre-shared key

  Integrity algorithm: HMAC_MD5

  PRF algorithm: HMAC_MD5

  Encryption algorithm: AES-CBC-192

 

  Life duration: 86400 secs

  Remaining key duration: 85604 secs

  Diffie-Hellman group: MODP1024/Group2

  NAT traversal: Not detected

  DPD: Interval 20 secs, retry interval 2 secs

  Transmitting entity: Initiator

 

  Local window: 1

  Remote window: 1

  Local request message ID: 2

  Remote request message ID:2

  Local next message ID: 0

  Remote next message ID: 0

 

  Pushed IP address: 192.168.1.5

  Assigned IP address: 192.168.2.24

 

# Display detailed IKEv2 SA information for the remote IP address 1.1.1.2.

<Sysname> display ikev2 sa remote 1.1.1.2 verbose

  Tunnel ID: 1

  Local IP/Port: 1.1.1.1/500

  Remote IP/Port: 1.1.1.2/500

  Outside VRF: -

  Inside VRF: -

  Local SPI: 8f8af3dbf5023a00

  Remote SPI: 0131565b9b3155fa

 

  Local ID type: FQDN

  Local ID: device_a

  Remote ID type: FQDN

  Remote ID: device_b

 

  Auth sign method: Pre-shared key

  Auth verify method: Pre-shared key

  Integrity algorithm: HMAC_MD5

  PRF algorithm: HMAC_MD5

  Encryption algorithm: AES-CBC-192

 

  Life duration: 86400 secs

  Remaining key duration: 85604 secs

  Diffie-Hellman group: MODP1024/Group2

  NAT traversal: Not detected

  DPD: Interval 30 secs, retry interval 10 secs

  Transmitting entity: Initiator

 

  Local window: 1

  Remote window: 1

  Local request message ID: 2

  Remote request message ID: 2

  Local next message ID: 0

  Remote next message ID: 0

 

  Pushed IP address: 192.168.1.5

  Assigned IP address: 192.168.2.24

Table 17 Command output

Field

Description

Tunnel ID

ID of the IPsec tunnel to which the IKEv2 SA belongs.

Local IP/Port

IP address and port number of the local security gateway.

Remote IP/Port

IP address and port number of the remote security gateway.

Outside VRF

This field is not supported in the current software version.

Name of the VPN instance to which the protected outbound data flow belongs.

If the protected outbound data flow belongs to the public network, this field displays a hyphen (-).

Inside VRF

This field is not supported in the current software version.

Name of the VPN instance to which the protected inbound data flow belongs.

If the protected inbound data flow belongs to the public network, this field displays a hyphen (-).

Local SPI

SPI that the local end uses.

Remote SPI

SPI that the remote end uses.

Local ID type

ID type of the local security gateway.

Local ID

ID of the local security gateway.

Remote ID type

ID type of the remote security gateway.

Remote ID

ID of the remote security gateway.

Auth sign method

Signature method that the IKEv2 proposal uses in authentication.

Auth verify method

Verification method that the IKEv2 proposal uses in authentication.

Integrity algorithm

Integrity protection algorithms that the IKEv2 proposal uses.

PRF algorithm

PRF algorithms that the IKEv2 proposal uses.

Encryption algorithm

Encryption algorithms that the IKEv2 proposal uses.

Life duration

Lifetime of the IKEv2 SA, in seconds.

Remaining key duration

Remaining lifetime of the IKEv2 SA, in seconds.

Diffie-Hellman group

DH groups used in IKEv2 key negotiation.

NAT traversal

Whether a NAT gateway is detected between the local and remote ends.

DPD

DPD settings:

·     Detection interval in seconds.

·     Retry interval in seconds.

If DPD is disabled, this field displays Disabled.

Transmitting entity

Role of the local end in IKEv2 negotiation, initiator or responder.

Local window

Window size that the local end uses.

Remote window

Window size that the remote end uses.

Local request message ID

ID of the request message that the local end is about to send.

Remote request message ID

ID of the request message that the remote end is about to send.

Local next message ID

ID of the message that the local end expects to receive.

Remote next message ID

ID of the message that the remote end expects to receive.

Pushed IP address

IP address pushed to the local end by the remote end.

Assigned IP address

IP address assigned to the remote end by the local end .

 

# Display the number of IKEv2 SAs.

[Sysname] display ikev2 sa count

IKEv2 SAs count: 0

display ikev2 statistics

Use display ikev2 statistics to display IKEv2 statistics.

Syntax

display ikev2 statistics

Views

Any view

Predefined user roles

network-admin

network-operator

Examples

# Display IKEv2 statistics.

<Sysname> display ikev2 statistics

IKEv2 statistics:

  Unsupported critical payload: 0

  Invalid IKE SPI: 0

  Invalid major version: 0

  Invalid syntax: 0

  Invalid message ID: 0

  Invalid SPI: 0

  No proposal chosen: 0

  Invalid KE payload: 0

  Authentication failed: 0

  Single pair required: 0

  TS unacceptable: 0

  Invalid selectors: 0

  Temporary failure: 0

  No child SA: 0

  Unknown other notify: 0

  No enough resource: 0

  Enqueue error: 0

  No IKEv2 SA: 0

  Packet error: 0

  Other error: 0

  Retransmit timeout: 0

  DPD detect error: 0

  Del child for IPsec message: 1

  Del child for deleting IKEv2 SA: 1

  Del child for receiving delete message: 0

Related commands

reset ikev2 statistics

dpd

Use dpd to configure IKEv2 DPD.

Use undo dpd to disable IKEv2 DPD.

Syntax

dpd interval interval [ retry seconds ] { on-demand | periodic }

undo dpd interval

Default

IKEv2 DPD is disabled. The global IKEv2 DPD settings are used.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

interval interval: Specifies a DPD triggering interval in the range of 10 to 3600 seconds.

retry seconds Specifies the DPD retry interval in the range of 2 to 60 seconds. The default is 5 seconds.

on-demand: Triggers DPD on demand. The device triggers DPD if it has IPsec traffic to send and has not received any IPsec packets from the peer for the specified interval.

periodic: Triggers DPD at regular intervals. The device triggers DPD at the specified interval.

Usage guidelines

DPD is triggered periodically or on-demand. As a best practice, use the on-demand mode when the device communicates with a large number of IKEv2 peers. For an earlier detection of dead peers, use the periodic triggering mode, which consumes more bandwidth and CPU.

The triggering interval must be longer than the retry interval, so that the device will not trigger a new round of DPD during a DPD retry.

Examples

# Configure on-demand IKEv2 DPD. Set the DPD triggering interval to 10 seconds and the retry interval to 5 seconds.

<Sysname> system-view

[Sysname] ikev2 profile profile1

[Sysname-ikev2-profile-profile1] dpd interval 10 retry 5 on-demand

Related commands

ikev2 dpd

encryption

Use encryption to specify encryption algorithms for an IKEv2 proposal.

Use undo encryption to restore the default.

Syntax

encryption { 3des-cbc | aes-cbc-128 | aes-cbc-192 | aes-cbc-256 | aes-ctr-128 | aes-ctr-192 | aes-ctr-256 | camellia-cbc-128 | camellia-cbc-192 | camellia-cbc-256 | des-cbc } *

undo encryption

Default

No encryption algorithm is specified for an IKEv2 proposal.

Views

IKEv2 proposal view

Predefined user roles

network-admin

Parameters

3des-cbc: Specifies the 3DES algorithm in CBC mode, which uses a 168-bit key.

aes-cbc-128: Specifies the AES algorithm in CBC mode, which uses a 128-bit key.

aes-cbc-192: Specifies the AES algorithm in CBC mode, which uses a 192-bit key.

aes-cbc-256: Specifies the AES algorithm in CBC mode, which uses a 256-bit key.

aes-ctr-128: Specifies the AES algorithm in CTR mode, which uses a 128-bit key.

aes-ctr-192: Specifies the AES algorithm in CTR mode, which uses a 192-bit key.

aes-ctr-256: Specifies the AES algorithm in CTR mode, which uses a 256-bit key.

camellia-cbc-128: Specifies the Camellia algorithm in CBC mode, which uses a 128-bit key.

camellia-cbc-192: Specifies the Camellia algorithm in CBC mode, which uses a 192-bit key.

camellia-cbc-256: Specifies the Camellia algorithm in CBC mode, which uses a 256-bit key.

des-cbc: Specifies the DES algorithm in CBC mode, which uses a 56-bit key.

Usage guidelines

You must specify a minimum of one encryption algorithm for an IKEv2 proposal. Otherwise, the proposal is incomplete and useless. You can specify multiple encryption algorithms for an IKEv2 proposal. An algorithm specified earlier has a higher priority.

Examples

# Specify the 168-bit 3DES algorithm in CBC mode as the encryption algorithm for IKE proposal prop1.

<Sysname> system-view

[Sysname] ikev2 proposal prop1

[Sysname-ikev2-proposal-prop1] encryption 3des-cbc

Related commands

ikev2 proposal

hostname

Use hostname to specify the host name of an IKEv2 peer.

Use undo hostname to restore the default.

Syntax

hostname name

undo hostname

Default

The IKEv2 peer's host name is not specified.

Views

IKEv2 peer view

Predefined user roles

network-admin

Parameters

name: Specifies the host name of the IKEv2 peer, a case-insensitive string of 1 to 253 characters.

Usage guidelines

Only the initiator can look up an IKEv2 peer by host name in IKEv2 negotiation, and the initiator must use an IPsec policy rather than an IPsec profile.

Examples

# Create an IKEv2 keychain named key1.

<Sysname> system-view

[Sysname] ikev2 keychain key1

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-key1] peer peer1

# Specify host name test of the IKEv2 peer.

[Sysname-ikev2-keychain-key1-peer-peer1] hostname test

Related commands

ikev2 keychain

peer

identity

Use identity to specify the ID of an IKEv2 peer.

Use undo identity to restore the default.

Syntax

identity { address { ipv4-address | ipv6 { ipv6-address } } | fqdn fqdn-name | email email-string | key-id key-id-string }

undo identity

Default

The IKEv2 peer's ID is not specified.

Views

IKEv2 peer view

Predefined user roles

network-admin

Parameters

ipv4-address: Specifies the IPv4 address of the peer.

ipv6 ipv6-address: Specifies the IPv6 address of the peer.

fqdn fqdn-name: Specifies the FQDN of the peer. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as www.test.com.

email email-string: Specifies the email address of the peer. The email-string argument is a case-sensitive string of 1 to 255 characters in the format defined by RFC 822, such as esec@test.com.

key-id key-id-string: Specifies the remote gateway's key ID. The key-id-string argument is a case-sensitive string of 1 to 255 characters, and is usually a vendor-specific string for doing proprietary types of identification.

Usage guidelines

Only the responder can look up an IKEv2 peer by ID in IKEv2 negotiation. The initiator does not know the peer ID when initiating the IKEv2 negotiation, so it cannot use an ID for IKEv2 peer lookup.

Examples

# Create an IKEv2 keychain named key1.

<Sysname> system-view

[Sysname] ikev2 keychain key1

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-key1] peer peer1

# Specify IPv4 address 1.1.1.2 as the ID of the IKEv2 peer.

[Sysname-ikev2-keychain-key1-peer-peer1] identity address 1.1.1.2

Related commands

ikev2 keychain

peer

identity local

Use identity local to configure the local ID, the ID that the device uses to identify itself to the peer during IKEv2 negotiation..

Use undo identity local to restore the default.

Syntax

identity local { address { ipv4-address | ipv6 ipv6-address } | dn | email email-string | fqdn fqdn-name | key-id key-id-string }

undo identity local

Default

No local ID is configured. The IP address of the interface to which the IPsec policy is applied is used as the local ID.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

address { ipv4-address | ipv6 ipv6-address }: Uses an IPv4 or IPv6 address as the local ID.

dn: Uses the DN in the local certificate as the local ID.

email email-string: Uses an email address as the local ID. The email-string argument is a case-sensitive string of 1 to 255 characters in the format defined by RFC 822, such as sec@abc.com.

fqdn fqdn-name: Uses an FQDN as the local ID. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as www.test.com.

key-id key-id-string: Uses the device's key ID as the local ID. The key-id-string argument is a case-sensitive string of 1 to 255 characters, and is usually a vendor-specific string for doing proprietary types of identification.

Usage guidelines

Peers exchange local IDs for identifying each other in negotiation.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Use IP address 2.2.2.2 as the local ID.

[Sysname-ikev2-profile-profile1] identity local address 2.2.2.2

Related commands

peer

ikev2 address-group

Use ikev2 address-group to configure an IKEv2 IPv4 address pool for assigning IPv4 addresses to remote peers.

Use undo ikev2 address-group to delete an IKEv2 IPv4 address pool.

Syntax

ikev2 address-group group-name start-ipv4-address end-ipv4-address [ mask | mask-length ]

undo ikev2 address-group group-name [ start-ipv4-address [ end-ipv4-address ] ]

Default

No IKEv2 IPv4 address pools exist.

Views

System view

Predefined user roles

network-admin

Parameters

group-name: Specifies an name for the IKEv2 IPv4 address pool. The group-name argument is a case-insensitive string of 1 to 63 characters.

start-ipv4-address end-ipv4-address: Specifies an IPv4 address range. The start-ipv4-address argument specifies the start IPv4 address. The end-ipv4-address argument specifies the end IPv4 address.

mask: Specifies the IPv4 address mask.

mask-length: Specifies the length of the IPv4 address mask.

Usage guidelines

An IKE IPv4 address pool can contain a maximum of 8192 IPv4 addresses.

Follow these guidelines when you delete IKEv2 IPv4 address pools:

·     To delete all IPv4 address pools with a designated group name, use the undo ikev2 address-group group-name command.

·     To delete an IPv4 address pool that contains only one IP address, use the undo ikev2 address-group group-name start-ipv4-address command.

·     To delete a specific IPv4 address pool, use the ikev2 address-group group-name start-ipv4-address end-ipv4-address command.

·     If the IPv4 address pool with the specified name and address range does not exist, no address group will be deleted.

Examples

# Configure an IKEv2 IPv4 address pool with name ipv4group, address range 1.1.1.1 to 1.1.1.2, and mask 255.255.255.0.

<Sysname> system-view

[Sysname] ikev2 address-group ipv4group 1.1.1.1 1.1.1.2 255.255.255.0

# Configure an IKEv2 IPv4 address pool with name ipv4group, address range 1.1.1.1 to 1.1.1.2, and mask length 32.

<Sysname> system-view

[Sysname] ikev2 address-group ipv4group 1.1.1.1 1.1.1.2 32

# Delete IKEv2 IPv4 address pool ipv4group with address range 1.1.1.1 to 1.1.1.2.

<Sysname> system-view

[Sysname] undo ikev2 address-group ipv4group 1.1.1.1 1.1.1.2

Related commands

address-group

ikev2 cookie-challenge

Use ikev2 cookie-challenge to enable the cookie challenging feature.

Use undo ikev2 cookie-challenge to disable the cookie challenging feature.

Syntax

ikev2 cookie-challenge number

undo ikev2 cookie-challenge

Default

The cookie challenging feature is disabled.

Views

System view

Predefined user roles

network-admin

Parameters

number: Specifies the threshold for triggering the cookie challenging feature. The value range for this argument is 0 to 1000 half-open IKE SAs.

Usage guidelines

When an IKEv2 responder maintains a threshold number of half-open IKE SAs, it starts the cookie challenging mechanism. The responder generates a cookie and includes it in the response sent to the initiator. If the initiator initiates a new IKE_SA_INIT request that carries the correct cookie, the responder considers the initiator valid and proceeds with the negotiation. If the carried cookie is incorrect, the responder terminates the negotiation.

This feature can protect the responder against DoS attacks which aim to exhaust the responder's system resources by using a large number of IKE_SA_INIT requests with forged source IP addresses.

Examples

# Enable the cookie challenging feature and set the threshold to 450.

<Sysname> system-view

[Sysname] ikev2 cookie-challenge 450

ikev2 dpd

Use ikev2 dpd to configure global IKEv2 DPD.

Use undo ikev2 dpd to disable global IKEv2 DPD.

Syntax

ikev2 dpd interval interval [ retry seconds ] { on-demand | periodic }

undo ikev2 dpd interval

Default

The global IKEv2 DPD feature is disabled.

Views

System view

Predefined user roles

network-admin

Parameters

interval interval: Specifies a DPD triggering interval in the range of 10 to 3600 seconds.

retry seconds: Specifies the DPD retry interval in the range of 2 to 60 seconds. The default is 5 seconds.

on-demand: Triggers DPD on demand. The device triggers DPD if it has IPsec traffic to send and has not received any IPsec packets from the peer for the specified interval.

periodic: Triggers DPD at regular intervals. The device triggers DPD at the specified interval.

Usage guidelines

DPD is triggered periodically or on-demand. As a best practice, use the on-demand mode when the device communicates with a large number of IKEv2 peers. For an earlier detection of dead peers, use the periodic triggering mode, which consumes more bandwidth and CPU.

The triggering interval must be longer than the retry interval, so that the device will not trigger a new round of DPD during a DPD retry.

You can configure IKEv2 DPD in both IKEv2 profile view and system view. The IKEv2 DPD settings in IKEv2 profile view apply. If you do not configure IKEv2 DPD in IKEv2 profile view, the IKEv2 DPD settings in system view apply.

Examples

# Configure the device to trigger IKEv2 DPD if it has IPsec traffic to send and has not received any IPsec packets from the peer for 15 seconds.

<Sysname> system-view

[Sysname] ikev2 dpd interval 15 on-demand

# Configure the device to trigger IKEv2 DPD every 15 seconds.

<Sysname> system-view

[Sysname] ikev2 dpd interval 15 periodic

Related commands

dpd (IKEv2 profile view)

ikev2 ipv6-address-group

Use ikev2 ipv6-address-group to configure an IKEv2 IPv6 address pool for assigning IPv6 addresses to remote peers.

Use undo ikev2 ipv6-address-group to delete an IKEv2 IPv6 address pool.

Syntax

ikev2 ipv6-address-group group-name prefix prefix/prefix-len assign-len assign-len

undo ikev2 ipv6-address-group group-name

Default

No IKEv2 IPv6 address pools exist.

Views

System view

Predefined user roles

network-admin

Parameters

group-name: Specifies a name for the IKEv2 IPv6 address pool. The group-name argument is a case-insensitive string of 1 to 63 characters.

prefix prefix/prefix-len: Specifies an IPv6 prefix in the format of prefix/prefix length. The value range for the prefix-len argument is 1 to 128.

assign-len assign-len: Specifies the assigned prefix length. The value range for the assign-len argument is 0 to 128, and the value must be greater than or equal to prefix-len. The difference between assign-len and prefix-len must be no more than 16.

Usage guidelines

Different from the IKEv2 IPv4 address pool, the device assigns an IPv6 subnet to a peer from the IKEv2 IPv6 address pool. The peer can use the assigned IPv6 subnet to assign IPv6 addresses to other devices.

IKEv2 IPv6 address pools cannot overlap with each other.

Examples

# Configure an IKEv2 IPv6 address pool with name ipv6group, prefix 1:1::/64, and assigned prefix length 80.

<Sysname> system-view

[Sysname] ikev2 ipv6-address-group ipv6group prefix 1:1::/64 assign-len 80

Related commands

ipv6-address-group

ikev2 keychain

Use ikev2 keychain to create an IKEv2 keychain and enter its view, or enter the view of an existing IKEv2 keychain.

Use undo ikev2 keychain to delete an IKEv2 keychain.

Syntax

ikev2 keychain keychain-name

undo ikev2 keychain keychain-name

Default

No IKEv2 keychains exist.

Views

System view

Predefined user roles

network-admin

Parameters

keychain-name: Specifies a name for the IKEv2 keychain. The keychain name is a case-insensitive string of 1 to 63 characters and cannot contain a hyphen (-).

Usage guidelines

An IKEv2 keychain is required on both ends if either end uses preshared key authentication. The preshared key configured on both ends must be the same.

You can configure multiple IKEv2 peers in an IKEv2 keychain.

Examples

# Create an IKEv2 keychain named key1 and enter IKEv2 keychain view.

<Sysname> system-view

[Sysname] ikev2 keychain key1

[Sysname-ikev2-keychain-key1]

ikev2 nat-keepalive

Use ikev2 nat-keepalive to set the NAT keepalive interval.

Use undo ikev2 nat-keepalive to restore the default.

Syntax

ikev2 nat-keepalive seconds

undo ikev2 nat-keepalive

Default

The NAT keepalive interval is 10 seconds.

Views

System view

Predefined user roles

network-admin

Parameters

seconds: Specifies the NAT keepalive interval in seconds, in the range of 5 to 3600.

Usage guidelines

This command takes effect when the device resides in the private network behind a NAT device. The device must send NAT keepalive packets regularly to its peer to keep the NAT session alive, so that the peer can access the device.

The NAT keepalive interval must be shorter than the NAT session lifetime.

Examples

# Set the NAT keepalive interval to 5 seconds.

<Sysname> system-view

[Sysname] ikev2 nat-keepalive 5

ikev2 policy

Use ikev2 policy to create an IKEv2 policy and enter its view, or enter the view of an existing IKEv2 policy.

Use undo ikev2 policy to delete an IKEv2 policy.

Syntax

ikev2 policy policy-name

undo ikev2 policy policy-name

Default

An IKEv2 policy named default exists, which uses the default IKEv2 proposal and matches any local addresses.

Views

System view

Predefined user roles

network-admin

Parameters

policy-name: Specifies a name for the IKEv2 policy. The policy name is a case-insensitive string of 1 to 63 characters.

Usage guidelines

Each end must have an IKEv2 policy for the IKE_SA_INIT exchange. The initiator looks up an IKEv2 policy by the IP address of the interface to which the IPsec policy is applied. The responder looks up an IKEv2 policy by the IP address of the interface that receives the IKEv2 packet. An IKEv2 policy uses IKEv2 proposals to define the encryption algorithms, integrity protection algorithms, PRF algorithms, and DH groups to be used for negotiation.

You can configure multiple IKEv2 policies. An IKEv2 policy must have a minimum of one IKEv2 proposal. Otherwise, the policy is incomplete.

If the initiator uses an IPsec policy that is bound to a source interface, the initiator looks up an IKEv2 policy by the IP address of the source interface.

You can set priorities to adjust the match order of IKEv2 policies that have the same match criteria.

If no IKEv2 policy is configured, the default IKEv2 policy is used. You cannot enter the view of the default IKEv2 policy, nor modify it.

Examples

# Create an IKEv2 policy named policy1 and enter IKEv2 policy view.

<Sysname> system-view

[Sysname] ikev2 policy policy1

[Sysname-ikev2-policy-policy1]

Related commands

display ikev2 policy

ikev2 profile

Use ikev2 profile to create an IKEv2 profile and enter its view, or enter the view of an existing IKEv2 profile.

Use undo ikev2 profile to delete an IKEv2 profile.

Syntax

ikev2 profile profile-name

undo ikev2 profile profile-name

Default

No IKEv2 profiles exist.

Views

System view

Predefined user roles

network-admin

Parameters

profile-name: Specifies a name for the IKEv2 profile. The profile name is a case-insensitive string of 1 to 63 characters.

Usage guidelines

An IKEv2 profile contains the IKEv2 SA parameters that are not negotiated, such as the identity information and authentication methods of the peers, and the matching criteria for profile lookup.

Examples

# Create an IKEv2 profile named profile1 and enter IKEv2 profile view.

<Sysname> system-view

[Sysname] ikev2 profile profile1

[Sysname-ikev2-profile-profile1]

Related commands

display ikev2 profile

ikev2 proposal

Use ikev2 proposal to create an IKEv2 proposal and enter its view, or enter the view of an existing IKEv2 proposal.

Use undo ikev2 proposal to delete an IKEv2 proposal.

Syntax

ikev2 proposal proposal-name

undo ikev2 proposal proposal-name

Default

An IKEv2 proposal named default exists.

The default IKEv2 proposal has the lowest priority and uses the following settings:

·     Encryption algorithm—AES-CBC-128 and 3DES.

·     Integrity protection algorithm—HMAC-SHA1 and HMAC-MD5.

·     PRF algorithm—HMAC-SHA1 and HMAC-MD5.

·     DH group—Group 5 and group 2.

Views

System view

Predefined user roles

network-admin

Parameters

proposal-name: Specifies a name for the IKEv2 proposal. The proposal name is a case-insensitive string of 1 to 63 characters and cannot be default.

Usage guidelines

An IKEv2 proposal contains security parameters used in IKE_SA_INIT exchanges, including the encryption algorithms, integrity protection algorithms, PRF algorithms, and DH groups.

An IKEv2 proposal must have a minimum of one set of security parameters, including one encryption algorithm, one integrity protection algorithm, one PRF algorithm, and one DH group.

In an IKEv2 proposal, you can specify multiple parameters of the same type. The parameters of different types combine and form multiple sets of security parameters. If you want to use only one set of security parameters, configure only one set of security parameters for the IKEv2 proposal.

Examples

# Create an IKEv2 proposal named prop1. Specify encryption algorithm AES-CBC-128, integrity protection algorithm SHA1, PRF algorithm SHA1, and DH group 2.

<Sysname> system-view

[Sysname] ikev2 proposal prop1

[Sysname-ikev2-proposal-prop1] encryption aes-cbc-128

[Sysname-ikev2-proposal-prop1] integrity sha1

[Sysname-ikev2-proposal-prop1] prf sha1

[Sysname-ikev2-proposal-prop1] dh group2

Related commands

encryption-algorithm

integrity

prf

dh

integrity

Use integrity to specify integrity protection algorithms for an IKEv2 proposal.

Use undo integrity to restore the default.

Syntax

integrity { aes-xcbc-mac | md5 | sha1 | sha256 | sha384 | sha512 } *

undo integrity

Default

No integrity protection algorithm is specified for an IKEv2 proposal.

Views

IKEv2 proposal view

Predefined user roles

network-admin

Parameters

aes-xcbc-mac: Uses the HMAC-AES-XCBC-MAC algorithm.

md5: Uses the HMAC-MD5 algorithm.

sha1: Uses the HMAC-SHA1 algorithm.

sha256: Uses the HMAC-SHA256 algorithm.

sha384: Uses the HMAC-SHA384 algorithm.

sha512: Uses the HMAC-SHA512 algorithm.

Usage guidelines

You must specify a minimum of one integrity protection algorithm for an IKEv2 proposal. Otherwise, the proposal is incomplete and useless. You can specify multiple integrity protection algorithms for an IKEv2 proposal. An algorithm specified earlier has a higher priority.

Examples

# Create an IKEv2 proposal named prop1.

<Sysname> system-view

[Sysname] ikev2 proposal prop1

# Specify HMAC-SHA1 and HMAC-MD5 as the integrity protection algorithms, with HMAC-SHA1 preferred.

[Sysname-ikev2-proposal-prop1] integrity sha1 md5

Related commands

ikev2 proposal

keychain

Use keychain to specify an IKEv2 keychain for preshared key authentication.

Use undo keychain to restore the default.

Syntax

keychain keychain-name

undo keychain

Default

No IKEv2 keychain is specified for an IKEv2 profile.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

keychain-name: Specifies an IKEv2 keychain by its name. The keychain name is a case-insensitive string of 1 to 63 characters and cannot contain a hyphen (-).

Usage guidelines

An IKEv2 keychain is required on both ends if either end uses preshared key authentication. You can specify only one IKEv2 keychain for an IKEv2 profile.

You can specify the same IKEv2 keychain for different IKEv2 profiles.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Specify IKEv2 keychain keychain1.

[Sysname-ikev2-profile-profile1] keychain keychain1

Related commands

display ikev2 profile

ikev2 keychain

match local (IKEv2 profile view)

Use match local to specify a local interface or a local IP address to which an IKEv2 profile can be applied.

Use undo match local to remove a local interface or a local IP address to which an IKEv2 profile can be applied.

Syntax

match local address { interface-type interface-number | ipv4-address | ipv6 ipv6-address }

undo match local address { interface-type interface-number | ipv4-address | ipv6 ipv6-address }

Default

An IKEv2 profile can be applied to any local interface or IP address.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

address: Specifies a local interface or IP address to which an IKEv2 profile can be applied.

interface-type interface-number: Specifies a local interface by its type and number. It can be any Layer 3 interface.

ipv4-address: Specifies the IPv4 address of a local interface.

ipv6 ipv6-address: Specifies the IPv6 address of a local interface.

Usage guidelines

Use this command to specify which address or interface can use the IKEv2 profile for IKEv2 negotiation. The interface is the interface that receives IKEv2 packets. The IP address is the IP address of the interface that receives IKEv2 packets.

An IKEv2 profile configured earlier has a higher priority. To give an IKEv2 profile that is configured later a higher priority, you can configure the priority command or this command for the profile. For example, suppose you configured IKEv2 profile A before configuring IKEv2 profile B, and you configured the match remote identity address range 2.2.2.1 2.2.2.100 command for IKEv2 profile A and the match remote identity address range 2.2.2.1 2.2.2.10 command for IKEv2 profile B. For the local interface with the IP address 3.3.3.3 to negotiate with the peer 2.2.2.6, IKEv2 profile A is preferred because IKEv2 profile A was configured earlier. To use IKEv2 profile B, you can use this command to restrict the application scope of IKEv2 profile B to IPv4 address 3.3.3.3.

You can specify multiple applicable local interfaces or IP addresses for an IKEv2 profile.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Apply IKEv2 profile profile1 to the interface whose IP address is 2.2.2.2.

[Sysname-ikev2-profile-profile1] match local address 2.2.2.2

Related commands

match remote

match local address (IKEv2 policy view)

Use match local address to specify a local interface or a local address that an IKEv2 policy matches.

Use undo match local address to remove a local interface or a local address that an IKEv2 policy matches.

Syntax

match local address { interface-type interface-number | ipv4-address | ipv6 ipv6-address }

undo match local address { interface-type interface-number | ipv4-address | ipv6 ipv6-address }

Default

No local interface or local address is specified, and the IKEv2 policy matches any local interface or local address.

Views

IKEv2 policy view

Predefined user roles

network-admin

Parameters

interface-type interface-number: Specifies a local interface by its type and number. It can be any Layer 3 interface.

ipv4-address: Specifies the IPv4 address of a local interface.

ipv6 ipv6-address: Specifies the IPv6 address of a local interface.

Usage guidelines

IKEv2 policies with this command configured are looked up before those that do not have this command configured.

Examples

# Configure IKEv2 policy policy1 to match local address 3.3.3.3.

<Sysname> system-view

[Sysname] ikev2 policy policy1

[Sysname-ikev2-policy-policy1] match local address 3.3.3.3

Related commands

display ikev2 policy

match remote

Use match remote to configure a peer ID that an IKEv2 profile matches.

Use undo match remote to delete a peer ID that an IKEv2 profile matches.

Syntax

match remote { certificate policy-name | identity { address { { ipv4-address [ mask | mask-length ] | range low-ipv4-address high-ipv4-address } | ipv6 { ipv6-address [ prefix-length ] | range low-ipv6-address high-ipv6-address } } | fqdn fqdn-name | email email-string | key-id key-id-string } }

undo match remote { certificate policy-name | identity { address { { ipv4-address [ mask |mask-length ] | range low-ipv4-address high-ipv4-address } | ipv6 { ipv6-address [ prefix-length ] | range low-ipv6-address high-ipv6-address } } | fqdn fqdn-name | email email-string | key-id key-id-string } }

Default

No matching peer ID is configured for the IKEv2 profile.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

certificate policy-name: Uses the information in the peer's digital certificate as the peer ID for IKEv2 profile matching. The policy-name argument specifies a certificate-based access control policy by its name, a case-insensitive string of 1 to 31 characters.

identity: Uses the specified information as the peer ID for IKEv2 profile matching. The specified information is configured on the peer by using the identity local command.

·     address ipv4-address [ mask | mask-length ]: Uses an IPv4 host address or an IPv4 subnet address as the peer ID for IKEv2 profile matching. The value range for the mask-length argument is 0 to 32, and the default is 32.

·     address range low-ipv4-address high-ipv4-address: Uses a range of IPv4 addresses as the peer ID for IKEv2 profile matching. The end address must be higher than the start address.

·     address ipv6 ipv6-address [ prefix-length ]: Uses an IPv6 host address or an IPv6 subnet address as the peer ID for IKEv2 profile matching. The value range for the prefix-length argument is 0 to 128, and the default is 128.

·     address ipv6 range low-ipv6-address high-ipv6-address: Uses a range of IPv6 addresses as the peer ID for IKEv2 profile matching. The end address must be higher than the start address.

·     fqdn fqdn-name: Uses the peer's FQDN as the peer ID for IKEv2 profile matching. The fqdn-name argument is a case-sensitive string of 1 to 255 characters, such as www.test.com.

·     email email-string: Uses peer's email address as the peer ID for IKEv2 profile matching. The email-string argument is a case-sensitive string of 1 to 255 characters in the format defined by RFC 822, such as sec@abc.com.

·     key-id key-id-string: Uses the peer's key ID as the peer ID for IKEv2 profile matching. The key-id-string argument is a case-sensitive string of 1 to 255 characters, and is usually a vendor-specific string for doing proprietary types of identification.

Usage guidelines

The device compares the received peer ID with the peer IDs configured in local IKEv2 profiles. If a match is found, it uses the IKEv2 profile with the matching peer ID for IKEv2 negotiation.

If the device has the match remote and match local address commands configured, it uses the IKEv2 profile that matches all the criteria configured by the commands.

To make sure only one IKEv2 profile is matched for a peer, do not configure the same peer ID for two or more IKEv2 profiles. If you configure the same peer ID for two or more IKEv2 profiles, which IKEv2 profile is selected for IKEv2 negotiation is unpredictable.

You can configure an IKEv2 profile to match multiple peer IDs. A peer ID configured earlier has a higher priority.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Configure the IKEv2 profile to match the peer ID that is FQDN name www.test.com.

[Sysname-ikev2-profile-profile1] match remote identity fqdn www.test.com

# Configure the IKEv2 profile to match the peer ID that is IP address 10.1.1.1.

[Sysname-ikev2-profile-profile1]match remote identity address 10.1.1.1

Related commands

identity local

match local address

nat-keepalive

Use nat-keepalive to set the NAT keepalive interval.

Use undo nat-keepalive to restore the default.

Syntax

nat-keepalive seconds

undo nat-keepalive

Default

The NAT keepalive interval set in system view is used.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

seconds: Specifies the NAT keepalive interval in seconds, in the range of 5 to 3600.

Usage guidelines

This command takes effect when the device resides in the private network behind a NAT device. The device must send NAT keepalive packets regularly to its peer to keep the NAT session alive, so that the peer can access the device.

The NAT keepalive interval must be shorter than the NAT session lifetime.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Set the NAT keepalive interval to 1200 seconds.

[Sysname-ikev2-profile-profile1]nat-keepalive 1200

Related commands

display ikev2 profile

ikev2 nat-keepalive

peer

Use peer to create an IKEv2 peer and enter its view, or enter the view of an existing IKEv2 peer.

Use undo peer to delete an IKEv2 peer.

Syntax

peer name

undo peer name

Default

No IKEv2 peers exist.

Views

IKEv2 keychain view

Predefined user roles

network-admin

Parameters

name: Specifies a name for the IKEv2 peer. The peer name is a case-insensitive string of 1 to 63 characters.

Usage guidelines

An IKEv2 peer contains a preshared key and the criteria for looking up the peer. The criteria for peer lookup includes the peer's host name, IP address, IP address range, and ID. The IKEv2 negotiation initiator uses the peer's host name, IP address, or IP address range to look up its peer. The responder uses the peer's IP address, IP address range, or ID to look up its peer.

Examples

# Create an IKEv2 keychain named key1 and enter IKEv2 keychain view.

<Sysname> system-view

[Sysname] ikev2 keychain key1

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-key1] peer peer1

Related commands

address

hostname

identity

ikev2 keychain

pre-shared-key

Use pre-shared-key to configure a preshared key.

Use undo pre-shared-key to delete a preshared key.

Syntax

pre-shared-key [ local | remote ] { ciphertext | plaintext } string

undo pre-shared-key [ local | remote ]

Default

No preshared key exists.

Views

IKEv2 peer view

Predefined user roles

network-admin

Parameters

local: Specifies a preshared key for certificate signing.

remote: Specifies a preshared key for certificate authentication.

ciphertext: Specifies a preshared key in encrypted form.

plaintext: Specifies a preshared key in plaintext form. For security purposes, the key specified in plaintext form will be stored in encrypted form.

string: Specifies the preshared key. The key is case sensitive. Its plaintext form is a string of 1 to 128 characters and its encrypted form is a string of 1 to 201 characters.

Usage guidelines

If you specify the local or remote keyword, you configure an asymmetric key. If you specify neither the local nor the remote keyword, you configure a symmetric key.

To delete a key by using the undo command, you must specify the correct key type. For example, if you configure a key by using the pre-shared-key local command, you cannot delete the key by using the undo pre-shared-key or undo pre-shared-key remote command.

If you execute this command multiple times, the most recent configuration takes effect.

Examples

·     On the initiator:

# Create an IKEv2 keychain named key1.

<Sysname> system-view

[Sysname] ikev2 keychain key1

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-key1] peer peer1

# Configure 111-key as the symmetric plaintext preshared key.

[Sysname-ikev2-keychain-key1-peer-peer1] pre-shared-key plaintext 111-key

[Sysname-ikev2-keychain-key1-peer-peer1] quit

# Create an IKEv2 peer named peer2.

[Sysname-ikev2-keychain-key1] peer peer2

# Configure asymmetric plaintext preshared keys. The key for certificate signing is 111-key-a and the key for certificate authentication is 111-key-b.

[Sysname-ikev2-keychain-key1-peer-peer2] pre-shared-key local plaintext 111-key-a

[Sysname-ikev2-keychain-key1-peer-peer2] pre-shared-key remote plaintext 111-key-b

·     On the responder:

# Create an IKEv2 keychain named telecom.

<Sysname> system-view

[Sysname] ikev2 keychain telecom

# Create an IKEv2 peer named peer1.

[Sysname-ikev2-keychain-telecom] peer peer1

# Configure 111-key as the symmetric plaintext preshared key.

[Sysname-ikev2-keychain-telecom-peer-peer1] pre-shared-key plaintext 111-key

[Sysname-ikev2-keychain-telecom-peer-peer1] quit

# Create an IKEv2 peer named peer2.

[Sysname-ikev2-keychain-telecom] peer peer2

# Configure asymmetric plaintext preshared keys. The key for certificate signing is 111-key-b and the key for certificate authentication is 111-key-a.

[Sysname-ikev2-keychain-telecom-peer-peer2] pre-shared-key local plaintext 111-key-b

[Sysname-ikev2-keychain-telecom-peer-peer2] pre-shared-key remote plaintext 111-key-a

Related commands

ikev2 keychain

peer

prf

Use prf to specify pseudo-random function (PRF) algorithms for an IKEv2 proposal.

Use undo prf to restore the default.

Syntax

prf { aes-xcbc-mac | md5 | sha1 | sha256 | sha384 | sha512 } *

undo prf

Default

An IKEv2 proposal uses the integrity protection algorithms as the PRF algorithms.

Views

IKEv2 proposal view

Predefined user roles

network-admin

Parameters

aes-xcbc-mac: Uses the HMAC-AES-XCBC-MAC algorithm.

md5: Uses the HMAC-MD5 algorithm.

sha1: Uses the HMAC-SHA1 algorithm.

sha256: Uses the HMAC-SHA256 algorithm.

sha384: Uses the HMAC-SHA384 algorithm.

sha512: Uses the HMAC-SHA512 algorithm.

Usage guidelines

You can specify multiple PRF algorithms for an IKEv2 proposal. An algorithm specified earlier has a higher priority.

Examples

# Create an IKEv2 proposal named prop1.

<Sysname> system-view

[Sysname] ikev2 proposal prop1

# Specify HMAC-SHA1 and HMAC-MD5 as the PRF algorithms, with HMAC-SHA1 preferred.

[Sysname-ikev2-proposal-prop1] prf sha1 md5

Related commands

ikev2 proposal

integrity

priority (IKEv2 policy view)

Use priority to set a priority for an IKEv2 policy.

Use undo priority to restore the default.

Syntax

priority priority

undo priority

Default

The priority of an IKEv2 policy is 100.

Views

IKEv2 policy view

Predefined user roles

network-admin

Parameters

priority: Specifies the priority of the IKEv2 policy, in the range of 1 to 65535. A smaller number represents a higher priority.

Usage guidelines

The priority set by this command can only be used to adjust the match order of IKEv2 policies.

Examples

# Set the priority to 10 for IKEv2 policy policy1.

<Sysname> system-view

[Sysname] ikev2 policy policy1

[Sysname-ikev2-policy-policy1] priority 10

Related commands

display ikev2 policy

priority (IKEv2 profile view)

Use priority to set a priority for an IKEv2 profile.

Use undo priority to restore the default.

Syntax

priority priority

undo priority

Default

The priority of an IKEv2 profile is 100.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

priority: Specifies the priority of the IKEv2 profile, in the range of 1 to 65535. A smaller number represents a higher priority.

Usage guidelines

The priority set by this command can only be used to adjust the match order of IKEv2 profiles.

Examples

# Set the priority to 10 for IKEv2 profile profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

[Sysname-ikev2-profile-profile1] priority 10

proposal

Use proposal to specify an IKEv2 proposal for an IKEv2 policy.

Use undo proposal to remove an IKEv2 proposal from an IKEv2 policy.

Syntax

proposal proposal-name

undo proposal proposal-name

Default

No IKEv2 proposal is specified for an IKEv2 policy.

Views

IKEv2 policy view

Predefined user roles

network-admin

Parameters

proposal-name: Specifies an IKEv2 proposal by its name, a case-insensitive string of 1 to 63 characters.

Usage guidelines

You can specify multiple IKEv2 proposals for an IKEv2 policy. A proposal specified earlier has a higher priority.

Examples

# Specify IKEv2 proposal proposal1 for IKEv2 policy policy1.

<Sysname> system-view

[Sysname] ikev2 policy policy1

[Sysname-ikev2-policy-policy1] proposal proposal1

Related commands

display ikev2 policy

ikev2 proposal

reset ikev2 sa

Use reset ikev2 sa to delete IKEv2 SAs.

Syntax

reset ikev2 sa [ [ { local | remote } { ipv4-address | ipv6 ipv6-address } ] | tunnel tunnel-id ] [ fast ]

Views

User view

Predefined user roles

network-admin

Parameters

local: Deletes IKEv2 SAs for a local IP address.

remote: Deletes IKEv2 SAs for a remote IP address.

ipv4-address: Specifies a local or remote IPv4 address.

ipv6 ipv6-address: Specifies a local or remote IPv6 address.

tunnel tunnel-id: Deletes IKEv2 SAs for an IPsec tunnel. The tunnel-id argument specifies an IPsec tunnel by its ID in the range of 1 to 2000000000.

fast: Notifies the peers of the deletion and deletes IKEv2 SAs directly before receiving the peers' responses. If you do not specify this keyword, the device notifies the peers of the deletion and deletes IKEv2 SAs after it receives the peers' responses.

Usage guidelines

Deleting an IKEv2 SA will also delete the child SAs negotiated through the IKEv2 SA.

If you do not specify any parameters, this command deletes all IKEv2 SAs and the child SAs negotiated through the IKEv2 SAs.

Examples

# Display information about IKEv2 SAs.

<Sysname> display ikev2 sa

     Tunnel ID          Local             Remote             Status

  --------------------------------------------------------------------

     1                  1.1.1.1/500       1.1.1.2/500        EST

     2                  2.2.2.1/500       2.2.2.2/500        EST

  Status:

  IN-NEGO: Negotiating, EST: Established, DEL: Deleting   

# Delete the IKEv2 SA whose remote IP address is 1.1.1.2.

<Sysname> reset ikev2 sa remote 1.1.1.2

# Display information about IKEv2 SAs again. Verify that the IKEv2 SA is deleted.

<Sysname> display ikev2 sa

     Tunnel ID          Local             Remote             Status

  --------------------------------------------------------------------

     2                  2.2.2.1/500       2.2.2.2/500        EST

  Status:

  IN-NEGO: Negotiating, EST: Established, DEL: Deleting   

Related commands

display ikev2 sa

reset ikev2 statistics

Use reset ikev2 statistics to clear IKEv2 statistics.

Syntax

reset ikev2 statistics

Views

User view

Predefined user roles

network-admin

Examples

# Clear IKEv2 statistics.

<Sysname> reset ikev2 statistics

Related commands

display ikev2 statistics

sa duration

Use sa duration to set the IKEv2 SA lifetime.

Use undo sa duration to restore the default.

Syntax

sa duration seconds

undo sa duration

Default

The IKEv2 SA lifetime is 86400 seconds.

Views

IKEv2 profile view

Predefined user roles

network-admin

Parameters

seconds: Specifies the IKEv2 SA lifetime in seconds, in the range of 120 to 86400.

Usage guidelines

An IKEv2 SA can be used for subsequent IKEv2 negotiations before its lifetime expires, saving a lot of negotiation time. However, the longer the lifetime, the higher the possibility that attackers collect enough information and initiate attacks.

Two peers can have different IKEv2 SA lifetime settings, and they do not perform lifetime negotiation. The peer with a shorter lifetime always initiates the rekeying.

Examples

# Create an IKEv2 profile named profile1.

<Sysname> system-view

[Sysname] ikev2 profile profile1

# Set the IKEv2 SA lifetime to 1200 seconds.

[Sysname-ikev2-profile-profile1] sa duration 1200

Related commands

display ikev2 profile

 

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