// SPDX-License-Identifier: GPL-2.0 // Copyright (C) 2024 Google LLC. //! Linux Security Modules (LSM). //! //! C header: [`include/linux/security.h`](srctree/include/linux/security.h). use crate::{ bindings, cred::Credential, error::{to_result, Result}, fs::File, }; /// Calls the security modules to determine if the given task can become the manager of a binder /// context. #[inline] pub fn binder_set_context_mgr(mgr: &Credential) -> Result { // SAFETY: `mrg.0` is valid because the shared reference guarantees a nonzero refcount. to_result(unsafe { bindings::security_binder_set_context_mgr(mgr.as_ptr()) }) } /// Calls the security modules to determine if binder transactions are allowed from task `from` to /// task `to`. #[inline] pub fn binder_transaction(from: &Credential, to: &Credential) -> Result { // SAFETY: `from` and `to` are valid because the shared references guarantee nonzero refcounts. to_result(unsafe { bindings::security_binder_transaction(from.as_ptr(), to.as_ptr()) }) } /// Calls the security modules to determine if task `from` is allowed to send binder objects /// (owned by itself or other processes) to task `to` through a binder transaction. #[inline] pub fn binder_transfer_binder(from: &Credential, to: &Credential) -> Result { // SAFETY: `from` and `to` are valid because the shared references guarantee nonzero refcounts. to_result(unsafe { bindings::security_binder_transfer_binder(from.as_ptr(), to.as_ptr()) }) } /// Calls the security modules to determine if task `from` is allowed to send the given file to /// task `to` (which would get its own file descriptor) through a binder transaction. #[inline] pub fn binder_transfer_file(from: &Credential, to: &Credential, file: &File) -> Result { // SAFETY: `from`, `to` and `file` are valid because the shared references guarantee nonzero // refcounts. to_result(unsafe { bindings::security_binder_transfer_file(from.as_ptr(), to.as_ptr(), file.as_ptr()) }) } /// A security context string. /// /// # Invariants /// /// The `ctx` field corresponds to a valid security context as returned by a successful call to /// `security_secid_to_secctx`, that has not yet been released by `security_release_secctx`. pub struct SecurityCtx { ctx: bindings::lsm_context, } impl SecurityCtx { /// Get the security context given its id. #[inline] pub fn from_secid(secid: u32) -> Result { // SAFETY: `struct lsm_context` can be initialized to all zeros. let mut ctx: bindings::lsm_context = unsafe { core::mem::zeroed() }; // SAFETY: Just a C FFI call. The pointer is valid for writes. to_result(unsafe { bindings::security_secid_to_secctx(secid, &mut ctx) })?; // INVARIANT: If the above call did not fail, then we have a valid security context. Ok(Self { ctx }) } /// Returns whether the security context is empty. #[inline] pub fn is_empty(&self) -> bool { self.ctx.len == 0 } /// Returns the length of this security context. #[inline] pub fn len(&self) -> usize { self.ctx.len as usize } /// Returns the bytes for this security context. #[inline] pub fn as_bytes(&self) -> &[u8] { let ptr = self.ctx.context; if ptr.is_null() { debug_assert_eq!(self.len(), 0); // We can't pass a null pointer to `slice::from_raw_parts` even if the length is zero. return &[]; } // SAFETY: The call to `security_secid_to_secctx` guarantees that the pointer is valid for // `self.len()` bytes. Furthermore, if the length is zero, then we have ensured that the // pointer is not null. unsafe { core::slice::from_raw_parts(ptr.cast(), self.len()) } } } impl Drop for SecurityCtx { #[inline] fn drop(&mut self) { // SAFETY: By the invariant of `Self`, this releases an lsm context that came from a // successful call to `security_secid_to_secctx` and has not yet been released. unsafe { bindings::security_release_secctx(&mut self.ctx) }; } }