A pure-Rust library to work with Linux capabilities.
caps provides support for manipulating capabilities available in modern Linux kernels. It supports traditional POSIX sets (Effective, Inheritable, Permitted) as well as Linux-specific Ambient and Bounding capabilities sets.
caps provides a simple and idiomatic interface to handle capabilities on Linux. See capabilities(7) for more details.
This library tries to achieve the following goals:
type ExResult<T> = Result<T, Box<dyn std::error::Error + 'static>>; fn manipulate_caps() -> ExResult<()> { use caps::{Capability, CapSet}; // Retrieve permitted set. let cur = caps::read(None, CapSet::Permitted)?; println!("Current permitted caps: {:?}.", cur); // Retrieve effective set. let cur = caps::read(None, CapSet::Effective)?; println!("Current effective caps: {:?}.", cur); // Check if CAP_CHOWN is in permitted set. let perm_chown = caps::has_cap(None, CapSet::Permitted, Capability::CAP_CHOWN)?; if !perm_chown { return Err("Try running this as root!".into()); } // Clear all effective caps. caps::clear(None, CapSet::Effective)?; println!("Cleared effective caps."); let cur = caps::read(None, CapSet::Effective)?; println!("Current effective caps: {:?}.", cur); // Since `CAP_CHOWN` is still in permitted, it can be raised again. caps::raise(None, CapSet::Effective, Capability::CAP_CHOWN)?; println!("Raised CAP_CHOWN in effective set."); let cur = caps::read(None, CapSet::Effective)?; println!("Current effective caps: {:?}.", cur); Ok(()) }
Some more examples are available under examples.
Licensed under either of
at your option.