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//! Types and traits for easily getting a message's arguments, or appening a message with arguments.
//!
//! Also see the arguments guide (in the examples directory).
//!
//! A message has `read1`, `read2` etc, and `append1`, `append2` etc, which is your
//! starting point into this module's types.
//!
//! **Append a**:
//!
//! `bool, u8, u16, u32, u64, i16, i32, i64, f64` - the corresponding D-Bus basic type
//!
//! `&str` - a D-Bus string. D-Bus strings do not allow null characters, so
//! if the string contains null characters, it will be cropped
//! to only include the data before the null character. (Tip: This allows for skipping an
//! allocation by writing a string literal which ends with a null character.)
//!
//! `&[T] where T: Append` - a D-Bus array. Note: can use an efficient fast-path in case of
//! T being an FixedArray type.
//!
//! `Array<T, I> where T: Append, I: Iterator<Item=T>` - a D-Bus array, maximum flexibility.
//!
//! `Variant<T> where T: Append` - a D-Bus variant.
//!
//! `(T1, T2) where T1: Append, T2: Append` - tuples are D-Bus structs. Implemented up to 12.
//!
//! `Dict<K, V, I> where K: Append + DictKey, V: Append, I: Iterator<Item=(&K, &V)>` - A D-Bus dict (array of dict entries).
//!
//! `Path` - a D-Bus object path.
//!
//! `Signature` - a D-Bus signature.
//!
//! `OwnedFd` - shares the file descriptor with the remote side.
//!
//! **Get / read a**:
//!
//! `bool, u8, u16, u32, u64, i16, i32, i64, f64` - the corresponding D-Bus basic type
//!
//! `&str`, `&CStr` - a D-Bus string. D-Bus strings are always UTF-8 and do not contain null characters.
//!
//! `&[T] where T: FixedArray` - a D-Bus array of integers or f64.
//!
//! `Array<T, Iter> where T: Get` - a D-Bus array, maximum flexibility. Implements Iterator so you can easily
//! collect it into, e g, a `Vec`.
//!
//! `Variant<T> where T: Get` - a D-Bus variant. Use this type of Variant if you know the inner type.
//!
//! `Variant<Iter>` - a D-Bus variant. This type of Variant allows you to examine the inner type.
//!
//! `(T1, T2) where T1: Get, T2: Get` - tuples are D-Bus structs. Implemented up to 12.
//!
//! `Dict<K, V, Iter> where K: Get + DictKey, V: Get` - A D-Bus dict (array of dict entries). Implements Iterator so you can easily
//! collect it into, e g, a `HashMap`.
//!
//! `Path` - a D-Bus object path.
//!
//! `Signature` - a D-Bus signature.
//!
//! `OwnedFd` - a file descriptor sent from the remote side.
//!
mod msgarg;
mod basic_impl;
mod variantstruct_impl;
mod array_impl;
pub use self::msgarg::{Arg, FixedArray, Get, DictKey, Append, RefArg, AppendAll, ReadAll, cast, cast_mut};
pub use self::array_impl::{Array, Dict};
pub use self::variantstruct_impl::Variant;
use std::{fmt, mem, ptr, error};
use {ffi, Message, Signature, Path, OwnedFd};
use std::ffi::{CStr, CString};
use std::os::raw::{c_void, c_int};
fn check(f: &str, i: u32) { if i == 0 { panic!("D-Bus error: '{}' failed", f) }}
fn ffi_iter() -> ffi::DBusMessageIter { unsafe { mem::zeroed() }}
#[derive(Clone, Copy)]
/// Helper struct for appending one or more arguments to a Message.
pub struct IterAppend<'a>(ffi::DBusMessageIter, &'a Message);
impl<'a> IterAppend<'a> {
/// Creates a new IterAppend struct.
pub fn new(m: &'a mut Message) -> IterAppend<'a> {
let mut i = ffi_iter();
unsafe { ffi::dbus_message_iter_init_append(m.ptr(), &mut i) };
IterAppend(i, m)
}
/// Appends the argument.
pub fn append<T: Append>(&mut self, a: T) { a.append(self) }
fn append_container<F: FnOnce(&mut IterAppend<'a>)>(&mut self, arg_type: ArgType, sig: Option<&CStr>, f: F) {
let mut s = IterAppend(ffi_iter(), self.1);
let p = sig.map(|s| s.as_ptr()).unwrap_or(ptr::null());
check("dbus_message_iter_open_container",
unsafe { ffi::dbus_message_iter_open_container(&mut self.0, arg_type as c_int, p, &mut s.0) });
f(&mut s);
check("dbus_message_iter_close_container",
unsafe { ffi::dbus_message_iter_close_container(&mut self.0, &mut s.0) });
}
/// Low-level function to append a variant.
///
/// Use in case the `Variant` struct is not flexible enough -
/// the easier way is to just call e g "append1" on a message and supply a `Variant` parameter.
///
/// In order not to get D-Bus errors: during the call to "f" you need to call "append" on
/// the supplied `IterAppend` exactly once,
/// and with a value which has the same signature as inner_sig.
pub fn append_variant<F: FnOnce(&mut IterAppend<'a>)>(&mut self, inner_sig: &Signature, f: F) {
self.append_container(ArgType::Variant, Some(inner_sig.as_cstr()), f)
}
/// Low-level function to append an array.
///
/// Use in case the `Array` struct is not flexible enough -
/// the easier way is to just call e g "append1" on a message and supply an `Array` parameter.
///
/// In order not to get D-Bus errors: during the call to "f", you should only call "append" on
/// the supplied `IterAppend` with values which has the same signature as inner_sig.
pub fn append_array<F: FnOnce(&mut IterAppend<'a>)>(&mut self, inner_sig: &Signature, f: F) {
self.append_container(ArgType::Array, Some(inner_sig.as_cstr()), f)
}
/// Low-level function to append a struct.
///
/// Use in case tuples are not flexible enough -
/// the easier way is to just call e g "append1" on a message and supply a tuple parameter.
pub fn append_struct<F: FnOnce(&mut IterAppend<'a>)>(&mut self, f: F) {
self.append_container(ArgType::Struct, None, f)
}
/// Low-level function to append a dict entry.
///
/// Use in case the `Dict` struct is not flexible enough -
/// the easier way is to just call e g "append1" on a message and supply a `Dict` parameter.
///
/// In order not to get D-Bus errors: during the call to "f", you should call "append" once
/// for the key, then once for the value. You should only call this function for a subiterator
/// you got from calling "append_dict", and signatures need to match what you specified in "append_dict".
pub fn append_dict_entry<F: FnOnce(&mut IterAppend<'a>)>(&mut self, f: F) {
self.append_container(ArgType::DictEntry, None, f)
}
/// Low-level function to append a dict.
///
/// Use in case the `Dict` struct is not flexible enough -
/// the easier way is to just call e g "append1" on a message and supply a `Dict` parameter.
///
/// In order not to get D-Bus errors: during the call to "f", you should only call "append_dict_entry"
/// for the subiterator - do this as many times as the number of dict entries.
pub fn append_dict<F: FnOnce(&mut IterAppend<'a>)>(&mut self, key_sig: &Signature, value_sig: &Signature, f: F) {
let sig = format!("{{{}{}}}", key_sig, value_sig);
self.append_container(Array::<bool,()>::ARG_TYPE, Some(&CString::new(sig).unwrap()), f);
}
}
#[derive(Clone, Copy)]
/// Helper struct for retrieve one or more arguments from a Message.
pub struct Iter<'a>(ffi::DBusMessageIter, &'a Message, u32);
impl<'a> Iter<'a> {
/// Creates a new struct for iterating over the arguments of a message, starting with the first argument.
pub fn new(m: &'a Message) -> Iter<'a> {
let mut i = ffi_iter();
unsafe { ffi::dbus_message_iter_init(m.ptr(), &mut i) };
Iter(i, m, 0)
}
/// Returns the current argument, if T is the argument type. Otherwise returns None.
pub fn get<T: Get<'a>>(&mut self) -> Option<T> {
T::get(self)
}
/// Returns the current argument as a trait object (experimental).
///
/// Note: For the more complex arguments (arrays / dicts / structs, and especially
/// combinations thereof), their internal representations are still a bit in flux.
/// Instead, use as_iter() to read the values of those.
///
/// The rest are unlikely to change - Variants are `Variant<Box<RefArg>>`, strings are `String`,
/// paths are `Path<'static>`, signatures are `Signature<'static>`, Int32 are `i32s` and so on.
pub fn get_refarg(&mut self) -> Option<Box<RefArg + 'static>> {
Some(match self.arg_type() {
ArgType::Array => array_impl::get_array_refarg(self),
ArgType::Variant => Box::new(Variant::new_refarg(self).unwrap()),
ArgType::Boolean => Box::new(self.get::<bool>().unwrap()),
ArgType::Invalid => return None,
ArgType::String => Box::new(self.get::<String>().unwrap()),
ArgType::DictEntry => unimplemented!(),
ArgType::Byte => Box::new(self.get::<u8>().unwrap()),
ArgType::Int16 => Box::new(self.get::<i16>().unwrap()),
ArgType::UInt16 => Box::new(self.get::<u16>().unwrap()),
ArgType::Int32 => Box::new(self.get::<i32>().unwrap()),
ArgType::UInt32 => Box::new(self.get::<u32>().unwrap()),
ArgType::Int64 => Box::new(self.get::<i64>().unwrap()),
ArgType::UInt64 => Box::new(self.get::<u64>().unwrap()),
ArgType::Double => Box::new(self.get::<f64>().unwrap()),
ArgType::UnixFd => Box::new(self.get::<OwnedFd>().unwrap()),
ArgType::Struct => Box::new(self.recurse(ArgType::Struct).unwrap().collect::<Vec<_>>()),
ArgType::ObjectPath => Box::new(self.get::<Path>().unwrap().into_static()),
ArgType::Signature => Box::new(self.get::<Signature>().unwrap().into_static()),
})
}
/// Returns the type signature for the current argument.
pub fn signature(&mut self) -> Signature<'static> {
unsafe {
let c = ffi::dbus_message_iter_get_signature(&mut self.0);
assert!(c != ptr::null_mut());
let cc = CStr::from_ptr(c);
let r = Signature::new(cc.to_bytes());
ffi::dbus_free(c as *mut c_void);
r.unwrap()
}
}
/// The raw arg_type for the current item.
///
/// Unlike Arg::arg_type, this requires access to self and is not a static method.
/// You can match this against Arg::arg_type for different types to understand what type the current item is.
/// In case you're past the last argument, this function will return 0.
pub fn arg_type(&mut self) -> ArgType {
let s = unsafe { ffi::dbus_message_iter_get_arg_type(&mut self.0) };
ArgType::from_i32(s as i32).unwrap()
}
/// Returns false if there are no more items.
pub fn next(&mut self) -> bool {
self.2 += 1;
unsafe { ffi::dbus_message_iter_next(&mut self.0) != 0 }
}
/// Wrapper around `get` and `next`. Calls `get`, and then `next` if `get` succeeded.
///
/// Also returns a `Result` rather than an `Option` to give an error if successful.
///
/// # Example
/// ```ignore
/// struct ServiceBrowserItemNew {
/// interface: i32,
/// protocol: i32,
/// name: String,
/// item_type: String,
/// domain: String,
/// flags: u32,
/// }
///
/// fn service_browser_item_new_msg(m: &Message) -> Result<ServiceBrowserItemNew, TypeMismatchError> {
/// let mut iter = m.iter_init();
/// Ok(ServiceBrowserItemNew {
/// interface: iter.read()?,
/// protocol: iter.read()?,
/// name: iter.read()?,
/// item_type: iter.read()?,
/// domain: iter.read()?,
/// flags: iter.read()?,
/// })
/// }
/// ```
pub fn read<T: Arg + Get<'a>>(&mut self) -> Result<T, TypeMismatchError> {
let r = try!(self.get().ok_or_else(||
TypeMismatchError { expected: T::ARG_TYPE, found: self.arg_type(), position: self.2 }));
self.next();
Ok(r)
}
/// If the current argument is a container of the specified arg_type, then a new
/// Iter is returned which is for iterating over the contents inside the container.
///
/// Primarily for internal use (the "get" function is more ergonomic), but could be
/// useful for recursing into containers with unknown types.
pub fn recurse(&mut self, arg_type: ArgType) -> Option<Iter<'a>> {
let containers = [ArgType::Array, ArgType::DictEntry, ArgType::Struct, ArgType::Variant];
if !containers.iter().any(|&t| t == arg_type) { return None; }
let mut subiter = ffi_iter();
unsafe {
if ffi::dbus_message_iter_get_arg_type(&mut self.0) != arg_type as c_int { return None };
ffi::dbus_message_iter_recurse(&mut self.0, &mut subiter)
}
Some(Iter(subiter, self.1, 0))
}
}
impl<'a> fmt::Debug for Iter<'a> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
let mut z = self.clone();
let mut t = f.debug_tuple("Iter");
loop {
t.field(&z.arg_type());
if !z.next() { break }
}
t.finish()
}
}
impl<'a> Iterator for Iter<'a> {
type Item = Box<RefArg + 'static>;
fn next(&mut self) -> Option<Self::Item> {
let r = self.get_refarg();
if r.is_some() { self.next(); }
r
}
}
/// Type of Argument
///
/// use this to figure out, e g, which type of argument is at the current position of Iter.
#[repr(u8)]
#[derive(Copy, Clone, Debug, Hash, Eq, PartialEq, Ord, PartialOrd)]
pub enum ArgType {
/// Dicts are Arrays of dict entries, so Dict types will have Array as ArgType.
Array = ffi::DBUS_TYPE_ARRAY as u8,
/// Variant
Variant = ffi::DBUS_TYPE_VARIANT as u8,
/// bool
Boolean = ffi::DBUS_TYPE_BOOLEAN as u8,
/// Invalid arg type - this is also the ArgType returned when there are no more arguments available.
Invalid = ffi::DBUS_TYPE_INVALID as u8,
/// String
String = ffi::DBUS_TYPE_STRING as u8,
/// Dict entry; you'll usually not encounter this one as dicts are arrays of dict entries.
DictEntry = ffi::DBUS_TYPE_DICT_ENTRY as u8,
/// u8
Byte = ffi::DBUS_TYPE_BYTE as u8,
/// i16
Int16 = ffi::DBUS_TYPE_INT16 as u8,
/// u16
UInt16 = ffi::DBUS_TYPE_UINT16 as u8,
/// i32
Int32 = ffi::DBUS_TYPE_INT32 as u8,
/// u32
UInt32 = ffi::DBUS_TYPE_UINT32 as u8,
/// i64
Int64 = ffi::DBUS_TYPE_INT64 as u8,
/// u64
UInt64 = ffi::DBUS_TYPE_UINT64 as u8,
/// f64
Double = ffi::DBUS_TYPE_DOUBLE as u8,
/// OwnedFd
UnixFd = ffi::DBUS_TYPE_UNIX_FD as u8,
/// Use tuples or Vec<Box<RefArg>> to read/write structs.
Struct = ffi::DBUS_TYPE_STRUCT as u8,
/// Path
ObjectPath = ffi::DBUS_TYPE_OBJECT_PATH as u8,
/// Signature
Signature = ffi::DBUS_TYPE_SIGNATURE as u8,
}
const ALL_ARG_TYPES: [(ArgType, &'static str); 18] =
[(ArgType::Variant, "Variant"),
(ArgType::Array, "Array/Dict"),
(ArgType::Struct, "Struct"),
(ArgType::String, "String"),
(ArgType::DictEntry, "Dict entry"),
(ArgType::ObjectPath, "Path"),
(ArgType::Signature, "Signature"),
(ArgType::UnixFd, "OwnedFd"),
(ArgType::Boolean, "bool"),
(ArgType::Byte, "u8"),
(ArgType::Int16, "i16"),
(ArgType::Int32, "i32"),
(ArgType::Int64, "i64"),
(ArgType::UInt16, "u16"),
(ArgType::UInt32, "u32"),
(ArgType::UInt64, "u64"),
(ArgType::Double, "f64"),
(ArgType::Invalid, "nothing")];
impl ArgType {
/// A str corresponding to the name of a Rust type.
pub fn as_str(self) -> &'static str {
ALL_ARG_TYPES.iter().skip_while(|a| a.0 != self).next().unwrap().1
}
/// Converts an i32 to an ArgType (or an error).
pub fn from_i32(i: i32) -> Result<ArgType, String> {
for &(a, _) in &ALL_ARG_TYPES {
if a as i32 == i { return Ok(a); }
}
Err(format!("Invalid ArgType {} ({})", i, i as u8 as char))
}
}
/// Error struct to indicate a D-Bus argument type mismatch.
///
/// Might be returned from `iter::read()`.
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub struct TypeMismatchError {
expected: ArgType,
found: ArgType,
position: u32,
}
impl TypeMismatchError {
/// The ArgType we were trying to read, but failed
pub fn expected_arg_type(&self) -> ArgType { self.expected }
/// The ArgType we should have been trying to read, if we wanted the read to succeed
pub fn found_arg_type(&self) -> ArgType { self.found }
/// At what argument was the error found?
///
/// Returns 0 for first argument, 1 for second argument, etc.
pub fn pos(&self) -> u32 { self.position }
}
impl error::Error for TypeMismatchError {
fn description(&self) -> &str { "D-Bus argument type mismatch" }
fn cause(&self) -> Option<&error::Error> { None }
}
impl fmt::Display for TypeMismatchError {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
write!(f, "{} at position {}: expected {}, found {}",
(self as &error::Error).description(),
self.position, self.expected.as_str(),
if self.expected == self.found { "same but still different somehow" } else { self.found.as_str() }
)
}
}
#[allow(dead_code)]
fn test_compile() {
let mut q = IterAppend::new(unsafe { mem::transmute(0usize) });
q.append(5u8);
q.append(Array::new(&[5u8, 6, 7]));
q.append((8u8, &[9u8, 6, 7][..]));
q.append(Variant((6u8, 7u8)));
}