• progress_activity cloud_sync

    Reconnection to the server…

    Movim cannot talk with the server, please try again later


    • Public subscriptions

    • chevron_right

      coopr8

    • chevron_right

      gabagoo

    • chevron_right

      kenu_demon

    • chevron_right

      coopr8

    • chevron_right

      gabagoo

    • chevron_right

      kenu_demon

    • chevron_right

      coopr8

    • chevron_right

      gabagoo

    • chevron_right

      kenu_demon

  • Register Login

    Movim

    movim.chatterboxtown.us


  • group_work rss_feed
    add Follow

    ArsTechnica

    • Ar chevron_right

      Backdoor infecting VPNs used “magic packets” for stealth and security

      news.movim.eu / ArsTechnica • 23 January 2025 • 1 minute

    When threat actors use backdoor malware to gain access to a network, they want to make sure all their hard work can’t be leveraged by competing groups or detected by defenders. One countermeasure is to equip the backdoor with a passive agent that remains dormant until it receives what’s known in the business as a “magic packet.” On Thursday, researchers revealed that a never-before-seen backdoor that quietly took hold of dozens of enterprise VPNs running Juniper Network’s Junos OS has been doing just that.

    J-Magic, the tracking name for the backdoor, goes one step further to prevent unauthorized access. After receiving a magic packet hidden in the normal flow of TCP traffic, it relays a challenge to the device that sent it. The challenge comes in the form of a string of text that’s encrypted using the public portion of an RSA key. The initiating party must then respond with the corresponding plaintext, proving it has access to the secret key.

    Open sesame

    The lightweight backdoor is also notable because it resided only in memory, a trait that makes detection harder for defenders. The combination prompted researchers at Lumin Technology’s Black Lotus Lab to sit up and take notice.

    Read full article

    Comments

    • tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns

    • Pictures 3 image

    • visibility
    • visibility
    • visibility
    • Ar chevron_right

      Backdoor infecting VPNs used “magic packets” for stealth and security

      news.movim.eu / ArsTechnica • 23 January 2025 • 1 minute

    When threat actors use backdoor malware to gain access to a network, they want to make sure all their hard work can’t be leveraged by competing groups or detected by defenders. One countermeasure is to equip the backdoor with a passive agent that remains dormant until it receives what’s known in the business as a “magic packet.” On Thursday, researchers revealed that a never-before-seen backdoor that quietly took hold of dozens of enterprise VPNs running Juniper Network’s Junos OS has been doing just that.

    J-Magic, the tracking name for the backdoor, goes one step further to prevent unauthorized access. After receiving a magic packet hidden in the normal flow of TCP traffic, it relays a challenge to the device that sent it. The challenge comes in the form of a string of text that’s encrypted using the public portion of an RSA key. The initiating party must then respond with the corresponding plaintext, proving it has access to the secret key.

    Open sesame

    The lightweight backdoor is also notable because it resided only in memory, a trait that makes detection harder for defenders. The combination prompted researchers at Lumin Technology’s Black Lotus Lab to sit up and take notice.

    Read full article

    Comments

    • tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns

    • Pictures 3 image

    • visibility
    • visibility
    • visibility
    • Ar chevron_right

      Backdoor infecting VPNs used “magic packets” for stealth and security

      news.movim.eu / ArsTechnica • 23 January 2025 • 1 minute

    When threat actors use backdoor malware to gain access to a network, they want to make sure all their hard work can’t be leveraged by competing groups or detected by defenders. One countermeasure is to equip the backdoor with a passive agent that remains dormant until it receives what’s known in the business as a “magic packet.” On Thursday, researchers revealed that a never-before-seen backdoor that quietly took hold of dozens of enterprise VPNs running Juniper Network’s Junos OS has been doing just that.

    J-Magic, the tracking name for the backdoor, goes one step further to prevent unauthorized access. After receiving a magic packet hidden in the normal flow of TCP traffic, it relays a challenge to the device that sent it. The challenge comes in the form of a string of text that’s encrypted using the public portion of an RSA key. The initiating party must then respond with the corresponding plaintext, proving it has access to the secret key.

    Open sesame

    The lightweight backdoor is also notable because it resided only in memory, a trait that makes detection harder for defenders. The combination prompted researchers at Lumin Technology’s Black Lotus Lab to sit up and take notice.

    Read full article

    Comments

    • tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns tagbiz & it tagbiz & it tagbiz & it tagsecurity tagsecurity tagsecurity tagbackdoors tagbackdoors tagbackdoors tagjuniper tagjuniper tagjuniper tagmagic packets tagmagic packets tagmagic packets tagvpns tagvpns tagvpns

    • Pictures 3 image

    • visibility
    • visibility
    • visibility
  • cloud_queue

    Powered by Movim