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1 changed files with 2 additions and 2 deletions
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@ -482,7 +482,7 @@ Sockets can be configured using `.socket` files.
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### Writable .socket files
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### Writable .socket files
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If you find a **writable** `.socket` file you can **add** at the begging of the `[Socket]` section something like: `ExecStartPre=/home/kali/sys/backdoor` and the backdoor will be executed before the socket is created. Therefore, you will **probably need to wait until the machine is rebooted.**
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If you find a **writable** `.socket` file you can **add** at the beginning of the `[Socket]` section something like: `ExecStartPre=/home/kali/sys/backdoor` and the backdoor will be executed before the socket is created. Therefore, you will **probably need to wait until the machine is rebooted.**
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_Note that the system must be using that socket file configuration or the backdoor won't be executed_
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_Note that the system must be using that socket file configuration or the backdoor won't be executed_
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### Writable sockets
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### Writable sockets
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@ -586,7 +586,7 @@ D-BUS is an **inter-process communication \(IPC\) system**, providing a simple y
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D-BUS, as a full-featured IPC and object system, has several intended uses. First, D-BUS can perform basic application IPC, allowing one process to shuttle data to another—think **UNIX domain sockets on steroids**. Second, D-BUS can facilitate sending events, or signals, through the system, allowing different components in the system to communicate and ultimately to integrate better. For example, a Bluetooth dæmon can send an incoming call signal that your music player can intercept, muting the volume until the call ends. Finally, D-BUS implements a remote object system, letting one application request services and invoke methods from a different object—think CORBA without the complications. _\*\*_\(From [here](https://www.linuxjournal.com/article/7744)\).
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D-BUS, as a full-featured IPC and object system, has several intended uses. First, D-BUS can perform basic application IPC, allowing one process to shuttle data to another—think **UNIX domain sockets on steroids**. Second, D-BUS can facilitate sending events, or signals, through the system, allowing different components in the system to communicate and ultimately to integrate better. For example, a Bluetooth dæmon can send an incoming call signal that your music player can intercept, muting the volume until the call ends. Finally, D-BUS implements a remote object system, letting one application request services and invoke methods from a different object—think CORBA without the complications. _\*\*_\(From [here](https://www.linuxjournal.com/article/7744)\).
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D-Bus use an **allow/deny model**, where each message \(method call, signal emission, etc.\) can be **allowed or denied** according to the sum of all policy rules which match it. Each or rule in the policy should have the `own`, `send_destination` or `receive_sender` attribute set.
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D-Bus uses an **allow/deny model**, where each message \(method call, signal emission, etc.\) can be **allowed or denied** according to the sum of all policy rules which match it. Each or rule in the policy should have the `own`, `send_destination` or `receive_sender` attribute set.
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Part of the policy of `/etc/dbus-1/system.d/wpa_supplicant.conf`:
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Part of the policy of `/etc/dbus-1/system.d/wpa_supplicant.conf`:
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