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IPSec VPN Setup with IKE Preshared Key and Manual Key on WRVS4400N Router

Objective

Secure Password Generator. Other Password Tools. IPsec Pre-Shared Key Generator Quick Password List Large Password List Prime Length Passwords WordPress Salts. Aug 17, 2017  IPSec VPN Setup with IKE Preshared Key and Manual Key on WRVS4400N Router. This document shows the configuration of the IPSec VPN with IKE Preshared Key and Manual Key on a WRVS4400N router. Applicable Devices. WRVS4400N. IKE Phase 2 negotiation will generate a new key material for IP traffic encryption. 4 Ways to Generate a Strong Pre-Shared Key (PSK) in Linux by helix February 14, 2020 A Pre-Shared Key (PSK) or also known as a shared secret is a string of characters that is used as an authentication key in cryptographic processes. A future release of the WLAN Strong Key Generator will provide the capability to generate a strong Wi-Fi Protected Access Pre-Shared Key (WPA-PSK). INSTRUCTIONS: To generate a random WEP key, select the bit key length to generate and press the corresponding button; the ASCII or HEX key can then be copied to your clipboard manually or via the.

Internet Protocol Security (IPSec) is used to protect communications through the encryption of IP packets during a communication session. IPSec is also an internet protocol used to establish mutual authentication between two endpoints at the beginning of a communication session and negotiation of cryptographic keys during session. Virtual Private Network (VPN) is a private network that allows the transmission of information between two PCs across the network. VPN establishes a high level of security on the private network through the use of encryption.

This document shows the configuration of the IPSec VPN with IKE Preshared Key and Manual Key on a WRVS4400N router.

Applicable Devices

• WRVS4400N

Software Version

• v2.0.2.1 Update auto generated primary key sql server set identity_insert.

Configuration of IPSec VPN Setup

Step 1. Log into the web configuration utility page and choose VPN > IPSec VPN. The IPSec VPN page opens:

Step 2. Choose an option from the Keying Mode drop-down list.

• IKE with Preshared Key — If you select IKE with Preshared key the automatic key management protocols are used to negotiate key material for SA (Security Association).

• Manual — If you select Manual Key Management no key negotiation is needed. The Manual key is usually used for small environments or for troubleshooting purposes.

Note: Both sides of the VPN Tunnel must use the same key management method.

IPSec VPN Setup with IKE Preshared Key

Step 1. Choose IKE with Preshared Key from the drop-down list of the Keying Mode field.

In the Phase 1 area,

Step 2. Choose 3DES in the Encryption field. The Encryption method determines the length of the key used to encrypt/decrypt ESP packets. Only 3DES is supported.

Note: Both sides of the VPN Tunnel must use the same Encryption method.

Step 3. Choose an option from the Authentication drop-down list. Authentication determines a method to authenticate ESP Packets. The user can choose MD5 or SHA1 from the drop-down list.

• MD5 — A one-way hashing algorithm that produces a 128-bit digest. This is not as secure as SHA1 because it is a broken one-way has algorithm.

• SHA1 — A one-way hashing algorithm that produces a 160-bit digest. This is a more secure has algorithm but is not as fast as MD5.

Note: Mac free cache cleaner. Both sides of the VPN endpoints must use the same Authentication method.

Key

Step 4. Choose an option from the Group drop-down list. The Diffie-Hellman (DH) group is used for key exchange.

•768-bit (Group 1) algorithm — This group provides the least level of security and specifies the IPSec to use 768-bit for DH key exchange

•1024-bit (Group 2) algorithm — This group specifies the IPSec to use for 1024-bit for DH key exchange.

•1536-bit (Group 5) algorithm — This group provides the highest level of security to the network and specifies the IPSec to use 1536-bit for DH key exchange.

Note: Group 5 provides the most security whereas the Group 1 the least security.

Step 5. Enter the lifetime (in seconds) of the IKE generated key in the Key LifeTime. When the time expires, a new key will be renegotiated automatically. The Key Lifetime ranges from 1081 to 86400 seconds. The default value for Phase 1 is 28800 seconds.

In the Phase 2 area,

Step 6. Choose 3EDS in the Encryption field. The Encryption method determines the length of the key used to encrypt/decrypt ESP packets, Only 3DES is supported

Note: Both sides of the VPN Tunnel must use the same Encryption method.

Step 7. Choose an option from the Authentication drop-down list. Authentication determines a method to authenticate ESP Packets. The user can choose MD5 or SHA1 from the drop-down list.

• MD5 — A one-way hashing algorithm that produces a 128-bit digest. This is not as secure as SHA1 because it is a broken one-way hash algorithm.

• SHA1 — A one-way hashing algorithm that produces a 160-bit digest. This is a more secure has algorithm but is not as fast as MD5.

Note: Both sides of the VPN endpoints must use the same Authentication method.

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Step 8. Choose an option from the Prefect Forward Secrecy (PFS) drop-down list.

• Enabled — If PFS is enabled, IKE Phase 2 negotiation will generate a new key material for IP traffic encryption and authentication.

• Disabled —If PFS is disabled, IKE Phase 2 negotiation will not generate a new key material for IP traffic encryption and authentication.

Note: Both sides must have selected the same PFS.

Step 9. Enter the character and hexadecimal value that specifies a key used to authenticate IP traffic in the Preshared Key field.

Step 10. Choose an option from the Group drop-down list.The Diffie-Hellman (DH) group to be used for key exchange.

•768-bit (Group 1) algorithm — This group provides the least level of security and specifies the IPSec to use 768-bit for DH key exchange

•1024-bit (Group 2) algorithm — This group specifies the IPSec to use for 1024-bit for DH key exchange.

•1536-bit (Group 5) algorithm — This group provides the highest level of security to the network and specifies the IPSec to use 1536-bit for DH key exchange.

Note: Group 5 provides the most security whereas the Group 1 the least security.

Step 11. Enter the lifetime (in seconds) of the IKE generated key in the Key LifeTime. If time expires,a new key will be renegotiated automatically. The Key Lifetime ranges from 1081 to 86400 seconds. The default value for Phase 2 is 3600 seconds.

Step 12. Click the Save to save set up.

IPSec VPN Setup with Manual Key

In the IPSec Setup area,

Step 1. Choose the Manual key from the drop-down list of the Keying Mode field.

In the Phase 1 area,

Step 2. Choose 3DES in the Encryption field. The Encryption method determines the length of the key used to encrypt/decrypt ESP packets,Only 3DES is supported.

Note: Both sides of the VPN Tunnel must use the same Encryption method.

Step 3. Choose an option from the Authentication drop-down list. /we-happy-few-key-to-the-generator-room.html. Authentication determines a method to authenticate ESP Packets. The user can choose MD5 or SHA1 from the drop-down list.

•MD5 — A one-way hashing algorithm that produces a 128-bit digest.

•SHA1 — A one-way hashing algorithm that produces a 160-bit digest.

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Note: Both sides of the VPN endpoints must use the same Authentication method.

Step 4. Choose an option from the Group drop-down list. The Diffie-Hellman (DH) group is used for key exchange.

•768-bit (Group 1) algorithm — This group provides the least level of security and specifies the IPSec to use 768-bit for DH key exchange

•1024-bit (Group 2) algorithm — This group specifies the IPSec to use for 1024-bit for DH key exchange.

•1536-bit (Group 5) algorithm — This group provides the highest level of security to the network and specifies the IPSec to use 1536-bit for DH key exchange.

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Note: Group 5 provides the most security whereas the Group 1 the least security.

Step 5. Enter the lifetime (in seconds) of the IKE generated key in the Key LifeTime. If time expires, a new key will be renegotiated automatically. The Key Lifetime range from 1081 to 86400 seconds. The default value for Phase 1 is 28800 seconds.

In the Phase 2 area,

Step 6. Choose 3EDS in the Encryption Algorithm field. The Encryption method determines the length of the key used to encrypt/decrypt ESP packets, Only 3DES is supported

Note: Both sides of the VPN Tunnel must use the same Encryption method.

Step 7. Enter the encryption key in the Encryption Key field. Since Encryption Algorithm is 3DES enter 24 ASCII Characters as key in the Encryption Key field.

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Step 8. Choose an option from the Authentication Algorithm drop-down list. Authentication determines a method to authenticate ESP Packets. The user can choose MD5 or SHA1 from the drop-down list.

• MD5 — A one-way hashing algorithm that produces a 128-bit digest.

•SHA1 — A one-way hashing algorithm that produces a 160-bit digest.

Step 9. Enter the authentication key in the Authentication Key field. If MD5 algorithm was chosen in authentication algorithm field enter 16 ASCII characters as key, otherwise if SHA1 algorithm was chosen enter 20 ASCII characters as authentication key.

Step 10. Enter the inbound SPI (Security Parameter Index) in the Inbound SPI field.

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Step 11. Enter the outbound SPI (Security Parameter Index) in the Inbound SPI field.

The SPI (Security Parameter Index) is carried in the ESP(Encapsulating Security Payload) header. This enables the receiver to select the SA, under which a packet should be processed. The SPI is a 32-bit value. Both decimal and hexadecimal values are acceptable. Each tunnel must have unique an Inbound SPI and Outbound SPI. No two tunnels share the same SPI.

Step 12. Enter the outbound SPI (Security Parameter Index) in the Inbound SPI field.

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Note: The Inbound SPI should match with the router Outbound SPI, and vice verse.

Step 13. Click the Save to save set up.

IPSec VPN Status

Step 1. Log in to the web configuration utility, choose VPN > IPSec VPN. The IPSec VPN page opens:

Note: Please make sure a VPN Tunnel is created. Refer to article IPSec VPN Local and Remote Group Setup on WRVS4400N Router on how to do this.

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Step 2. Click Advanced. It displays two more options.

• Aggressive mode — Aggressive Mode squeezes the IKE SA negotiation into three packets, with all data required for the SA passed by the initiator. The responder sends the proposal, key material and ID, and authenticates the session in the next packet. The initiator replies by authenticating the session. Negotiation is quicker, and the initiator and responder ID pass in the clear.

• NetBios Broadcast — NetBIOS broadcasts a Name Query packet to the local network on UDP port 137. Every computer on the local subnet processes the broadcast packet. If a computer on the network is configured for the NetBIOS over TCP/IP (NetBT) protocol, the NetBIOS module in the computer receives the broadcast.

Step 3. Click the desired button.

• Connect — Establishes the connection for the current VPN tunnel.

• Disconnect — Breaks the connection for the current VPN tunnel.

• View Log — It displays VPN logs and the details of each tunnel established.

Step 4. Click Save, to save all the changes.