system_properties.rs - platform/system/librustutils - Gitiles

 // Copyright (C) 2021 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 //! This crate provides the PropertyWatcher type, which watches for changes
 //! in Android system properties.

 use anyhow::Context;
 use std::os::raw::c_char;
 use std::ptr::null;
 use std::{
     ffi::{c_void, CStr, CString},
     str::Utf8Error,
 };
 use system_properties_bindgen::prop_info as PropInfo;
 use thiserror::Error;

 /// Errors this crate can generate
 #[derive(Error, Debug)]
 pub enum PropertyWatcherError {
     /// We can't watch for a property whose name contains a NUL character.
     #[error("Cannot convert name to C string")]
     BadNameError(#[from] std::ffi::NulError),
     /// We can only watch for properties that exist when the watcher is created.
     #[error("System property is absent")]
     SystemPropertyAbsent,
     /// System properties are not initialized
     #[error("System properties are not initialized.")]
     Uninitialized,
     /// __system_property_wait timed out despite being given no timeout.
     #[error("Wait failed")]
     WaitFailed,
     /// read callback was not called
     #[error("__system_property_read_callback did not call callback")]
     ReadCallbackNotCalled,
     /// read callback gave us a NULL pointer
     #[error("__system_property_read_callback gave us a NULL pointer instead of a string")]
     MissingCString,
     /// read callback gave us a bad C string
     #[error("__system_property_read_callback gave us a non-UTF8 C string")]
     BadCString(#[from] Utf8Error),
     /// read callback returned an error
     #[error("Callback failed")]
     CallbackError(#[from] anyhow::Error),
     /// Failure in setting the system property
     #[error("__system_property_set failed.")]
     SetPropertyFailed,
 }

 /// Result type specific for this crate.
 pub type Result<T> = std::result::Result<T, PropertyWatcherError>;

 /// PropertyWatcher takes the name of an Android system property such
 /// as `keystore.boot_level`; it can report the current value of this
 /// property, or wait for it to change.
 pub struct PropertyWatcher {
     prop_name: CString,
     prop_info: *const PropInfo,
     serial: system_properties_bindgen::__uint32_t,
 }

 impl PropertyWatcher {
     /// Create a PropertyWatcher for the named system property.
     pub fn new(name: &str) -> Result<Self> {
         Ok(Self {
             prop_name: CString::new(name)?,
             prop_info: null(),
             serial: 0,
         })
     }

     // Lazy-initializing accessor for self.prop_info.
     fn get_prop_info(&mut self) -> Option<*const PropInfo> {
         if self.prop_info.is_null() {
             // Unsafe required for FFI call. Input and output are both const.
             // The returned pointer is valid for the lifetime of the program.
             self.prop_info = unsafe {
                 system_properties_bindgen::__system_property_find(self.prop_name.as_ptr())
             };
         }
         if self.prop_info.is_null() {
             None
         } else {
             Some(self.prop_info)
         }
     }

     fn read_raw(prop_info: *const PropInfo, mut f: impl FnMut(Option<&CStr>, Option<&CStr>)) {
         // Unsafe function converts values passed to us by
         // __system_property_read_callback to Rust form
         // and pass them to inner callback.
         unsafe extern "C" fn callback(
             res_p: *mut c_void,
             name: *const c_char,
             value: *const c_char,
             _: system_properties_bindgen::__uint32_t,
         ) {
             let name = if name.is_null() {
                 None
             } else {
                 Some(CStr::from_ptr(name))
             };
             let value = if value.is_null() {
                 None
             } else {
                 Some(CStr::from_ptr(value))
             };
             let f = &mut *res_p.cast::<&mut dyn FnMut(Option<&CStr>, Option<&CStr>)>();
             f(name, value);
         }

         let mut f: &mut dyn FnMut(Option<&CStr>, Option<&CStr>) = &mut f;

         // Unsafe block for FFI call. We convert the FnMut
         // to a void pointer, and unwrap it in our callback.
         unsafe {
             system_properties_bindgen::__system_property_read_callback(
                 prop_info,
                 Some(callback),
                 &mut f as *mut _ as *mut c_void,
             )
         }
     }

     /// Call the passed function, passing it the name and current value
     /// of this system property. See documentation for
     /// `__system_property_read_callback` for details.
     /// Returns an error if the property is empty or doesn't exist.
     pub fn read<T, F>(&mut self, mut f: F) -> Result<T>
     where
         F: FnMut(&str, &str) -> anyhow::Result<T>,
     {
         let prop_info = self
             .get_prop_info()
             .ok_or(PropertyWatcherError::SystemPropertyAbsent)?;
         let mut result = Err(PropertyWatcherError::ReadCallbackNotCalled);
         Self::read_raw(prop_info, |name, value| {
             // use a wrapping closure as an erzatz try block.
             result = (|| {
                 let name = name.ok_or(PropertyWatcherError::MissingCString)?.to_str()?;
                 let value = value
                     .ok_or(PropertyWatcherError::MissingCString)?
                     .to_str()?;
                 f(name, value).map_err(PropertyWatcherError::CallbackError)
             })()
         });
         result
     }

     // Waits for the property that self is watching to be created. Returns immediately if the
     // property already exists.
     fn wait_for_property_creation(&mut self) -> Result<()> {
         let mut global_serial = 0;
         loop {
             match self.get_prop_info() {
                 Some(_) => return Ok(()),
                 None => {
                     // Unsafe call for FFI. The function modifies only global_serial, and has
                     // no side-effects.
                     if !unsafe {
                         // Wait for a global serial number change, then try again. On success,
                         // the function will update global_serial with the last version seen.
                         system_properties_bindgen::__system_property_wait(
                             null(),
                             global_serial,
                             &mut global_serial,
                             null(),
                         )
                     } {
                         return Err(PropertyWatcherError::WaitFailed);
                     }
                 }
             }
         }
     }

     /// Wait for the system property to change. This
     /// records the serial number of the last change, so
     /// race conditions are avoided.
     pub fn wait(&mut self) -> Result<()> {
         // If the property is null, then wait for it to be created. Subsequent waits will
         // skip this step and wait for our specific property to change.
         if self.prop_info.is_null() {
             return self.wait_for_property_creation();
         }

         let mut new_serial = self.serial;
         // Unsafe block to call __system_property_wait.
         // All arguments are private to PropertyWatcher so we
         // can be confident they are valid.
         if !unsafe {
             system_properties_bindgen::__system_property_wait(
                 self.prop_info,
                 self.serial,
                 &mut new_serial,
                 null(),
             )
         } {
             return Err(PropertyWatcherError::WaitFailed);
         }
         self.serial = new_serial;
         Ok(())
     }
 }

 /// Reads a system property.
 ///
 /// Returns `Ok(None)` if the property doesn't exist.
 pub fn read(name: &str) -> Result<Option<String>> {
     match PropertyWatcher::new(name)?.read(|_name, value| Ok(value.to_owned())) {
         Ok(value) => Ok(Some(value)),
         Err(PropertyWatcherError::SystemPropertyAbsent) => Ok(None),
         Err(e) => Err(e),
     }
 }

 fn parse_bool(value: &str) -> Option<bool> {
     if ["1", "y", "yes", "on", "true"].contains(&value) {
         Some(true)
     } else if ["0", "n", "no", "off", "false"].contains(&value) {
         Some(false)
     } else {
         None
     }
 }

 /// Returns true if the system property `name` has the value "1", "y", "yes", "on", or "true",
 /// false for "0", "n", "no", "off", or "false", or `default_value` otherwise.
 pub fn read_bool(name: &str, default_value: bool) -> Result<bool> {
     Ok(read(name)?
         .as_deref()
         .and_then(parse_bool)
         .unwrap_or(default_value))
 }

 /// Writes a system property.
 pub fn write(name: &str, value: &str) -> Result<()> {
     if
     // Unsafe required for FFI call. Input and output are both const and valid strings.
     unsafe {
         // If successful, __system_property_set returns 0, otherwise, returns -1.
         system_properties_bindgen::__system_property_set(
             CString::new(name)
                 .context("Failed to construct CString from name.")?
                 .as_ptr(),
             CString::new(value)
                 .context("Failed to construct CString from value.")?
                 .as_ptr(),
         )
     } == 0
     {
         Ok(())
     } else {
         Err(PropertyWatcherError::SetPropertyFailed)
     }
 }

 /// Iterates through the properties (that the current process is allowed to access).
 pub fn foreach<F>(mut f: F) -> Result<()>
 where
     F: FnMut(&str, &str),
 {
     extern "C" fn read_callback<F: FnMut(&str, &str)>(
         res_p: *mut c_void,
         name: *const c_char,
         value: *const c_char,
         _: system_properties_bindgen::__uint32_t,
     ) {
         // SAFETY: system properties are null-terminated C string in UTF-8. See IsLegalPropertyName
         // and IsLegalPropertyValue in system/core/init/util.cpp.
         let name = unsafe { CStr::from_ptr(name) }.to_str().unwrap();
         let value = unsafe { CStr::from_ptr(value) }.to_str().unwrap();

         let ptr = res_p as *mut F;
         // SAFETY: ptr points to the API user's callback, which was cast to `*mut c_void` below.
         // Here we're casting it back.
         let f = unsafe { ptr.as_mut() }.unwrap();
         f(name, value);
     }

     extern "C" fn foreach_callback<F: FnMut(&str, &str)>(
         prop_info: *const PropInfo,
         res_p: *mut c_void,
     ) {
         // SAFETY: FFI call with an internal callback function in Rust, with other parameters
         // passed through.
         unsafe {
             system_properties_bindgen::__system_property_read_callback(
                 prop_info,
                 Some(read_callback::<F>),
                 res_p,
             )
         }
     }

     // SAFETY: FFI call with an internal callback function in Rust, and another client's callback
     // that's cast only for our own use right above.
     let retval = unsafe {
         system_properties_bindgen::__system_property_foreach(
             Some(foreach_callback::<F>),
             &mut f as *mut _ as *mut c_void,
         )
     };
     if retval < 0 {
         Err(PropertyWatcherError::Uninitialized)
     } else {
         Ok(())
     }
 }

 #[cfg(test)]
 mod test {
     use super::*;

     #[test]
     fn parse_bool_test() {
         for s in ["1", "y", "yes", "on", "true"] {
             assert_eq!(parse_bool(s), Some(true), "testing with {}", s);
         }
         for s in ["0", "n", "no", "off", "false"] {
             assert_eq!(parse_bool(s), Some(false), "testing with {}", s);
         }
         for s in ["random", "00", "of course", "no way", "YES", "Off"] {
             assert_eq!(parse_bool(s), None, "testing with {}", s);
         }
     }

     #[test]
     fn read_absent_bool_test() {
         let prop = "certainly.does.not.exist";
         assert!(matches!(read(prop), Ok(None)));
         assert!(read_bool(prop, true).unwrap_or(false));
         assert!(!read_bool(prop, false).unwrap_or(true));
     }

     #[test]
     fn foreach_test() {
         let mut properties = Vec::new();
         assert!(foreach(|name, value| {
             properties.push((name.to_owned(), value.to_owned()));
         })
         .is_ok());
         // Assuming the test runs on Android, any process can at least see some system properties.
         assert!(!properties.is_empty());
     }
 }
	// Copyright (C) 2021 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	//! This crate provides the PropertyWatcher type, which watches for changes
	//! in Android system properties.

	use anyhow::Context;
	use std::os::raw::c_char;
	use std::ptr::null;
	use std::{
	ffi::{c_void, CStr, CString},
	str::Utf8Error,
	};
	use system_properties_bindgen::prop_info as PropInfo;
	use thiserror::Error;

	/// Errors this crate can generate
	#[derive(Error, Debug)]
	pub enum PropertyWatcherError {
	/// We can't watch for a property whose name contains a NUL character.
	#[error("Cannot convert name to C string")]
	BadNameError(#[from] std::ffi::NulError),
	/// We can only watch for properties that exist when the watcher is created.
	#[error("System property is absent")]
	SystemPropertyAbsent,
	/// System properties are not initialized
	#[error("System properties are not initialized.")]
	Uninitialized,
	/// __system_property_wait timed out despite being given no timeout.
	#[error("Wait failed")]
	WaitFailed,
	/// read callback was not called
	#[error("__system_property_read_callback did not call callback")]
	ReadCallbackNotCalled,
	/// read callback gave us a NULL pointer
	#[error("__system_property_read_callback gave us a NULL pointer instead of a string")]
	MissingCString,
	/// read callback gave us a bad C string
	#[error("__system_property_read_callback gave us a non-UTF8 C string")]
	BadCString(#[from] Utf8Error),
	/// read callback returned an error
	#[error("Callback failed")]
	CallbackError(#[from] anyhow::Error),
	/// Failure in setting the system property
	#[error("__system_property_set failed.")]
	SetPropertyFailed,
	}

	/// Result type specific for this crate.
	pub type Result<T> = std::result::Result<T, PropertyWatcherError>;

	/// PropertyWatcher takes the name of an Android system property such
	/// as `keystore.boot_level`; it can report the current value of this
	/// property, or wait for it to change.
	pub struct PropertyWatcher {
	prop_name: CString,
	prop_info: *const PropInfo,
	serial: system_properties_bindgen::__uint32_t,
	}

	impl PropertyWatcher {
	/// Create a PropertyWatcher for the named system property.
	pub fn new(name: &str) -> Result<Self> {
	Ok(Self {
	prop_name: CString::new(name)?,
	prop_info: null(),
	serial: 0,
	})
	}

	// Lazy-initializing accessor for self.prop_info.
	fn get_prop_info(&mut self) -> Option<*const PropInfo> {
	if self.prop_info.is_null() {
	// Unsafe required for FFI call. Input and output are both const.
	// The returned pointer is valid for the lifetime of the program.
	self.prop_info = unsafe {
	system_properties_bindgen::__system_property_find(self.prop_name.as_ptr())
	};
	}
	if self.prop_info.is_null() {
	None
	} else {
	Some(self.prop_info)
	}
	}

	fn read_raw(prop_info: *const PropInfo, mut f: impl FnMut(Option<&CStr>, Option<&CStr>)) {
	// Unsafe function converts values passed to us by
	// __system_property_read_callback to Rust form
	// and pass them to inner callback.
	unsafe extern "C" fn callback(
	res_p: *mut c_void,
	name: *const c_char,
	value: *const c_char,
	_: system_properties_bindgen::__uint32_t,
	) {
	let name = if name.is_null() {
	None
	} else {
	Some(CStr::from_ptr(name))
	};
	let value = if value.is_null() {
	None
	} else {
	Some(CStr::from_ptr(value))
	};
	let f = &mut *res_p.cast::<&mut dyn FnMut(Option<&CStr>, Option<&CStr>)>();
	f(name, value);
	}

	let mut f: &mut dyn FnMut(Option<&CStr>, Option<&CStr>) = &mut f;

	// Unsafe block for FFI call. We convert the FnMut
	// to a void pointer, and unwrap it in our callback.
	unsafe {
	system_properties_bindgen::__system_property_read_callback(
	prop_info,
	Some(callback),
	&mut f as mut _ as mut c_void,
	)
	}
	}

	/// Call the passed function, passing it the name and current value
	/// of this system property. See documentation for
	/// `__system_property_read_callback` for details.
	/// Returns an error if the property is empty or doesn't exist.
	pub fn read<T, F>(&mut self, mut f: F) -> Result<T>
	where
	F: FnMut(&str, &str) -> anyhow::Result<T>,
	{
	let prop_info = self
	.get_prop_info()
	.ok_or(PropertyWatcherError::SystemPropertyAbsent)?;
	let mut result = Err(PropertyWatcherError::ReadCallbackNotCalled);
	Self::read_raw(prop_info, \|name, value\| {
	// use a wrapping closure as an erzatz try block.
	result = (\|\| {
	let name = name.ok_or(PropertyWatcherError::MissingCString)?.to_str()?;
	let value = value
	.ok_or(PropertyWatcherError::MissingCString)?
	.to_str()?;
	f(name, value).map_err(PropertyWatcherError::CallbackError)
	})()
	});
	result
	}

	// Waits for the property that self is watching to be created. Returns immediately if the
	// property already exists.
	fn wait_for_property_creation(&mut self) -> Result<()> {
	let mut global_serial = 0;
	loop {
	match self.get_prop_info() {
	Some(_) => return Ok(()),
	None => {
	// Unsafe call for FFI. The function modifies only global_serial, and has
	// no side-effects.
	if !unsafe {
	// Wait for a global serial number change, then try again. On success,
	// the function will update global_serial with the last version seen.
	system_properties_bindgen::__system_property_wait(
	null(),
	global_serial,
	&mut global_serial,
	null(),
	)
	} {
	return Err(PropertyWatcherError::WaitFailed);
	}
	}
	}
	}
	}

	/// Wait for the system property to change. This
	/// records the serial number of the last change, so
	/// race conditions are avoided.
	pub fn wait(&mut self) -> Result<()> {
	// If the property is null, then wait for it to be created. Subsequent waits will
	// skip this step and wait for our specific property to change.
	if self.prop_info.is_null() {
	return self.wait_for_property_creation();
	}

	let mut new_serial = self.serial;
	// Unsafe block to call __system_property_wait.
	// All arguments are private to PropertyWatcher so we
	// can be confident they are valid.
	if !unsafe {
	system_properties_bindgen::__system_property_wait(
	self.prop_info,
	self.serial,
	&mut new_serial,
	null(),
	)
	} {
	return Err(PropertyWatcherError::WaitFailed);
	}
	self.serial = new_serial;
	Ok(())
	}
	}

	/// Reads a system property.
	///
	/// Returns `Ok(None)` if the property doesn't exist.
	pub fn read(name: &str) -> Result<Option<String>> {
	match PropertyWatcher::new(name)?.read(\|_name, value\| Ok(value.to_owned())) {
	Ok(value) => Ok(Some(value)),
	Err(PropertyWatcherError::SystemPropertyAbsent) => Ok(None),
	Err(e) => Err(e),
	}
	}

	fn parse_bool(value: &str) -> Option<bool> {
	if ["1", "y", "yes", "on", "true"].contains(&value) {
	Some(true)
	} else if ["0", "n", "no", "off", "false"].contains(&value) {
	Some(false)
	} else {
	None
	}
	}

	/// Returns true if the system property `name` has the value "1", "y", "yes", "on", or "true",
	/// false for "0", "n", "no", "off", or "false", or `default_value` otherwise.
	pub fn read_bool(name: &str, default_value: bool) -> Result<bool> {
	Ok(read(name)?
	.as_deref()
	.and_then(parse_bool)
	.unwrap_or(default_value))
	}

	/// Writes a system property.
	pub fn write(name: &str, value: &str) -> Result<()> {
	if
	// Unsafe required for FFI call. Input and output are both const and valid strings.
	unsafe {
	// If successful, __system_property_set returns 0, otherwise, returns -1.
	system_properties_bindgen::__system_property_set(
	CString::new(name)
	.context("Failed to construct CString from name.")?
	.as_ptr(),
	CString::new(value)
	.context("Failed to construct CString from value.")?
	.as_ptr(),
	)
	} == 0
	{
	Ok(())
	} else {
	Err(PropertyWatcherError::SetPropertyFailed)
	}
	}

	/// Iterates through the properties (that the current process is allowed to access).
	pub fn foreach<F>(mut f: F) -> Result<()>
	where
	F: FnMut(&str, &str),
	{
	extern "C" fn read_callback<F: FnMut(&str, &str)>(
	res_p: *mut c_void,
	name: *const c_char,
	value: *const c_char,
	_: system_properties_bindgen::__uint32_t,
	) {
	// SAFETY: system properties are null-terminated C string in UTF-8. See IsLegalPropertyName
	// and IsLegalPropertyValue in system/core/init/util.cpp.
	let name = unsafe { CStr::from_ptr(name) }.to_str().unwrap();
	let value = unsafe { CStr::from_ptr(value) }.to_str().unwrap();

	let ptr = res_p as *mut F;
	// SAFETY: ptr points to the API user's callback, which was cast to `*mut c_void` below.
	// Here we're casting it back.
	let f = unsafe { ptr.as_mut() }.unwrap();
	f(name, value);
	}

	extern "C" fn foreach_callback<F: FnMut(&str, &str)>(
	prop_info: *const PropInfo,
	res_p: *mut c_void,
	) {
	// SAFETY: FFI call with an internal callback function in Rust, with other parameters
	// passed through.
	unsafe {
	system_properties_bindgen::__system_property_read_callback(
	prop_info,
	Some(read_callback::<F>),
	res_p,
	)
	}
	}

	// SAFETY: FFI call with an internal callback function in Rust, and another client's callback
	// that's cast only for our own use right above.
	let retval = unsafe {
	system_properties_bindgen::__system_property_foreach(
	Some(foreach_callback::<F>),
	&mut f as mut _ as mut c_void,
	)
	};
	if retval < 0 {
	Err(PropertyWatcherError::Uninitialized)
	} else {
	Ok(())
	}
	}

	#[cfg(test)]
	mod test {
	use super::*;

	#[test]
	fn parse_bool_test() {
	for s in ["1", "y", "yes", "on", "true"] {
	assert_eq!(parse_bool(s), Some(true), "testing with {}", s);
	}
	for s in ["0", "n", "no", "off", "false"] {
	assert_eq!(parse_bool(s), Some(false), "testing with {}", s);
	}
	for s in ["random", "00", "of course", "no way", "YES", "Off"] {
	assert_eq!(parse_bool(s), None, "testing with {}", s);
	}
	}

	#[test]
	fn read_absent_bool_test() {
	let prop = "certainly.does.not.exist";
	assert!(matches!(read(prop), Ok(None)));
	assert!(read_bool(prop, true).unwrap_or(false));
	assert!(!read_bool(prop, false).unwrap_or(true));
	}

	#[test]
	fn foreach_test() {
	let mut properties = Vec::new();
	assert!(foreach(\|name, value\| {
	properties.push((name.to_owned(), value.to_owned()));
	})
	.is_ok());
	// Assuming the test runs on Android, any process can at least see some system properties.
	assert!(!properties.is_empty());
	}
	}