The output from verbose option can be troublesome to interpret by an administrator seeing it for the
first time. Presented below is some typical ikesnoop output with annotations to explain it. The tunnel
negotiation considered is based on Pre-shared Keys. A negotiation based on certificates is not
discussed here but the principles are similar.
Complete ikesnoop command options can be found in the CLI Reference Guide.
The Client and the Server
The two parties involved in the tunnel negotiation are referred to in this section as the client and
server. In this context, the word "client" is used to refer to the device which is the initiator of the
negotiation and the server refers to the device which is the responder.
Step 1. Client Initiates Exchange by Sending a Supported Algorithm List
The verbose option output initially shows the proposed list of algorithms that the client first sends to
the server. This list details the protocols and encryption methods it can support. The purpose of the
algorithm list is that the client is trying to find a matching set of protocols/methods supported by the
server. The server examines the list and attempts to find a combination of the protocols/methods
sent by the client which it can support. This matching process is one of the key purposes of the IKE
exchange.
IkeSnoop: Received IKE packet from 192.168.0.10:500 Exchange type :
Identity Protection (main mode) ISAKMP Version : 1.0
Flags
:
Cookies
: 0x6098238b67d97ea6 -> 0x00000000
Message ID
: 0x00000000
Packet length
: 324 bytes
# payloads
: 8
Payloads:
SA (Security Association)
Payload data length : 152 bytes
DOI : 1 (IPsec DOI)
Proposal 1/1
Protocol 1/1
Protocol ID
: ISAKMP
SPI Size
: 0
Transform 1/4
Transform ID
: IKE
Encryption algorithm
: Rijndael-cbc (aes)
Key length
: 128
Hash algorithm
: MD5
Authentication method
: Pre-Shared Key
Group description
: MODP 1024
Life type
: Seconds
Life duration
: 43200
Life type
: Kilobytes
Life duration
: 50000
Transform 2/4
Transform ID
: IKE
Encryption algorithm
: Rijndael-cbc (aes)
Key length
: 128
Hash algorithm
: SHA
Authentication method
: Pre-Shared Key
Group description
: MODP 1024
Life type
: Seconds
Life duration
: 43200
Life type
: Kilobytes
Life duration
: 50000
Transform 3/4
Transform ID
: IKE
9.4.5. Troubleshooting with ikesnoop
Chapter 9. VPN
453
Содержание NetDefend DFL-1660
Страница 28: ...1 3 NetDefendOS State Engine Packet Flow Chapter 1 NetDefendOS Overview 28 ...
Страница 88: ...2 6 3 Restore to Factory Defaults Chapter 2 Management and Maintenance 88 ...
Страница 166: ...3 10 DNS Chapter 3 Fundamentals 166 ...
Страница 254: ...4 7 5 Advanced Settings for Transparent Mode Chapter 4 Routing 254 ...
Страница 268: ...5 4 IP Pools Chapter 5 DHCP Services 268 ...
Страница 368: ...6 7 Blacklisting Hosts and Networks Chapter 6 Security Mechanisms 368 ...
Страница 390: ...7 4 7 SAT and FwdFast Rules Chapter 7 Address Translation 390 ...
Страница 414: ...8 3 Customizing Authentication HTML Pages Chapter 8 User Authentication 414 ...
Страница 490: ...9 8 6 Specific Symptoms Chapter 9 VPN 490 ...
Страница 528: ...10 4 6 Setting Up SLB_SAT Rules Chapter 10 Traffic Management 528 ...
Страница 544: ...11 7 HA Advanced Settings Chapter 11 High Availability 544 ...
Страница 551: ...12 3 5 Limitations Chapter 12 ZoneDefense 551 ...
Страница 574: ...Default 512 13 9 Miscellaneous Settings Chapter 13 Advanced Settings 574 ...
Страница 575: ...13 9 Miscellaneous Settings Chapter 13 Advanced Settings 575 ...