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Quelle message.rs Sprache: unbekannt |
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use std::borrow::Cow;
use std::{fmt, mem, ptr, ops}; use super::{ffi, Error, MessageType, Signature, libc, to_c_str, c_str_to_slice, init_dbu use super::{BusName, Path, Interface, Member, ErrorName, Connection, SignalArgs}; use std::os::unix::io::{RawFd, AsRawFd}; use std::ffi::CStr; use std::os::raw::{c_void, c_char, c_int}; use super::arg::{Append, IterAppend, Get, Iter, Arg, RefArg, TypeMismatchError}; #[derive(Debug,Copy,Clone)] /// Errors that can happen when creating a MessageItem::Array. pub enum ArrayError { /// The array is empty. EmptyArray, /// The array is composed of different element types. DifferentElementTypes, /// The supplied signature is not a valid array signature InvalidSignature, } fn new_dbus_message_iter() -> ffi::DBusMessageIter { unsafe { mem::zeroed() }} /// An RAII wrapper around Fd to ensure that file descriptor is closed /// when the scope ends. #[derive(Debug, PartialEq, PartialOrd)] pub struct OwnedFd { fd: RawFd } impl OwnedFd { /// Create a new OwnedFd from a RawFd. pub fn new(fd: RawFd) -> OwnedFd { OwnedFd { fd: fd } } /// Convert an OwnedFD back into a RawFd. pub fn into_fd(self) -> RawFd { let s = self.fd; ::std::mem::forget(self); s } } impl Drop for OwnedFd { fn drop(&mut self) { unsafe { libc::close(self.fd); } } } impl Clone for OwnedFd { fn clone(&self) -> OwnedFd { OwnedFd::new(unsafe { libc::dup(self.fd) } ) // FIXME: handle errors } } impl AsRawFd for OwnedFd { fn as_raw_fd(&self) -> RawFd { self.fd } } #[derive(Debug, Clone, PartialEq, PartialOrd)] /// An array of MessageItem where every MessageItem is of the same type. pub struct MessageItemArray { v: Vec<MessageItem>, // signature includes the "a"! sig: Signature<'static>, } impl MessageItemArray { /// Creates a new array where every element has the supplied signature. /// /// Signature is the full array signature, not the signature of the element. pub fn new(v: Vec<MessageItem>, sig: Signature<'static>) -> Result<MessageItemArray, ArrayErro let a = MessageItemArray {v: v, sig: sig }; if a.sig.as_bytes()[0] != ffi::DBUS_TYPE_ARRAY as u8 { return Err(ArrayError::InvalidSig { let esig = a.element_signature(); for i in &a.v { let b = if let MessageItem::DictEntry(ref k, ref v) = *i { let s = format!("{{{}{}}}", k.signature(), v.signature()); s.as_bytes() == esig.to_bytes() } else { i.signature().as_cstr() == esig }; if !b { return Err(ArrayError::DifferentElementTypes) } } } Ok(a) } fn element_signature(&self) -> &CStr { let z = &self.sig.as_cstr().to_bytes_with_nul()[1..]; unsafe { CStr::from_bytes_with_nul_unchecked(z) } } fn make_sig(m: &MessageItem) -> Signature<'static> { if let MessageItem::DictEntry(ref k, ref v) = *m { Signature::new(format!("a{{{}{}}}", k.signature(), v.signature())).unwrap() } else { Signature::new(format!("a{}", m.signature())).unwrap() } } /// Signature of array (full array signature) pub fn signature(&self) -> &Signature<'static> { &self.sig } /// Consumes the MessageItemArray in order to allow you to modify the individual items of the ar pub fn into_vec(self) -> Vec<MessageItem> { self.v } } impl ops::Deref for MessageItemArray { type Target = [MessageItem]; fn deref(&self) -> &Self::Target { &self.v } } /// MessageItem - used as parameters and return values from /// method calls, or as data added to a signal (old, enum version). /// /// Note that the newer generic design (see `arg` module) is both faster /// and less error prone than MessageItem, and should be your first hand choice /// whenever applicable. #[derive(Debug, PartialEq, PartialOrd, Clone)] pub enum MessageItem { /// A D-Bus array requires all elements to be of the same type. /// All elements must match the Signature. Array(MessageItemArray), /// A D-Bus struct allows for values of different types. Struct(Vec<MessageItem>), /// A D-Bus variant is a wrapper around another `MessageItem`, which /// can be of any type. Variant(Box<MessageItem>), /// A D-Bus dictionary entry. These are only allowed inside an array. DictEntry(Box<MessageItem>, Box<MessageItem>), /// A D-Bus objectpath requires its content to be a valid objectpath, /// so this cannot be any string. ObjectPath(Path<'static>), /// A D-Bus String is zero terminated, so no \0 s in the String, please. /// (D-Bus strings are also - like Rust strings - required to be valid UTF-8.) Str(String), /// A D-Bus boolean type. Bool(bool), /// A D-Bus unsigned 8 bit type. Byte(u8), /// A D-Bus signed 16 bit type. Int16(i16), /// A D-Bus signed 32 bit type. Int32(i32), /// A D-Bus signed 64 bit type. Int64(i64), /// A D-Bus unsigned 16 bit type. UInt16(u16), /// A D-Bus unsigned 32 bit type. UInt32(u32), /// A D-Bus unsigned 64 bit type. UInt64(u64), /// A D-Bus IEEE-754 double-precision floating point type. Double(f64), /// D-Bus allows for sending file descriptors, which can be used to /// set up SHM, unix pipes, or other communication channels. UnixFd(OwnedFd), } fn iter_get_basic<T>(i: &mut ffi::DBusMessageIter) -> T { unsafe { let mut c: T = mem::zeroed(); let p = &mut c as *mut _ as *mut c_void; ffi::dbus_message_iter_get_basic(i, p); c } } fn iter_append_array(i: &mut ffi::DBusMessageIter, a: &[MessageItem], t: &CStr) { let mut subiter = new_dbus_message_iter(); assert!(unsafe { ffi::dbus_message_iter_open_container(i, ffi::DBUS_TYPE_ARRAY, t.as for item in a.iter() { // assert!(item.type_sig() == t); item.iter_append(&mut subiter); } assert!(unsafe { ffi::dbus_message_iter_close_container(i, &mut subiter) } != 0); } fn iter_append_struct(i: &mut ffi::DBusMessageIter, a: &[MessageItem]) { let mut subiter = new_dbus_message_iter(); let res = unsafe { ffi::dbus_message_iter_open_container(i, ffi::DBUS_TYPE_STRUCT, ptr: assert!(res != 0); for item in a.iter() { item.iter_append(&mut subiter); } let res2 = unsafe { ffi::dbus_message_iter_close_container(i, &mut subiter) }; assert!(res2 != 0); } fn iter_append_variant(i: &mut ffi::DBusMessageIter, a: &MessageItem) { let mut subiter = new_dbus_message_iter(); let asig = a.signature(); let atype = asig.as_cstr(); assert!(unsafe { ffi::dbus_message_iter_open_container(i, ffi::DBUS_TYPE_VARIANT, at a.iter_append(&mut subiter); assert!(unsafe { ffi::dbus_message_iter_close_container(i, &mut subiter) } != 0); } fn iter_append_dict(i: &mut ffi::DBusMessageIter, k: &MessageItem, v: &MessageItem) { let mut subiter = new_dbus_message_iter(); assert!(unsafe { ffi::dbus_message_iter_open_container(i, ffi::DBUS_TYPE_DICT_ENTRY k.iter_append(&mut subiter); v.iter_append(&mut subiter); assert!(unsafe { ffi::dbus_message_iter_close_container(i, &mut subiter) } != 0); } impl MessageItem { /// Get the D-Bus Signature for this MessageItem. /// /// Note: Since dictionary entries have no valid signature, calling this function for a dict en pub fn signature(&self) -> Signature<'static> { use arg::Variant; match *self { MessageItem::Str(_) => <String as Arg>::signature(), MessageItem::Bool(_) => <bool as Arg>::signature(), MessageItem::Byte(_) => <u8 as Arg>::signature(), MessageItem::Int16(_) => <i16 as Arg>::signature(), MessageItem::Int32(_) => <i32 as Arg>::signature(), MessageItem::Int64(_) => <i64 as Arg>::signature(), MessageItem::UInt16(_) => <u16 as Arg>::signature(), MessageItem::UInt32(_) => <u32 as Arg>::signature(), MessageItem::UInt64(_) => <u64 as Arg>::signature(), MessageItem::Double(_) => <f64 as Arg>::signature(), MessageItem::Array(ref a) => a.sig.clone(), MessageItem::Struct(ref s) => Signature::new(format!("({})", s.iter().fold(String::ne MessageItem::Variant(_) => <Variant<u8> as Arg>::signature(), MessageItem::DictEntry(_, _) => { panic!("Dict entries are only valid inside arrays, and ther MessageItem::ObjectPath(_) => <Path as Arg>::signature(), MessageItem::UnixFd(_) => <OwnedFd as Arg>::signature(), } } /// Get the D-Bus ASCII type-code for this MessageItem. #[deprecated(note="superseded by signature")] #[allow(deprecated)] pub fn type_sig(&self) -> super::TypeSig<'static> { Cow::Owned(format!("{}", self.signature())) } /// Get the integer value for this MessageItem's type-code. pub fn array_type(&self) -> i32 { let s = match self { &MessageItem::Str(_) => ffi::DBUS_TYPE_STRING, &MessageItem::Bool(_) => ffi::DBUS_TYPE_BOOLEAN, &MessageItem::Byte(_) => ffi::DBUS_TYPE_BYTE, &MessageItem::Int16(_) => ffi::DBUS_TYPE_INT16, &MessageItem::Int32(_) => ffi::DBUS_TYPE_INT32, &MessageItem::Int64(_) => ffi::DBUS_TYPE_INT64, &MessageItem::UInt16(_) => ffi::DBUS_TYPE_UINT16, &MessageItem::UInt32(_) => ffi::DBUS_TYPE_UINT32, &MessageItem::UInt64(_) => ffi::DBUS_TYPE_UINT64, &MessageItem::Double(_) => ffi::DBUS_TYPE_DOUBLE, &MessageItem::Array(_) => ffi::DBUS_TYPE_ARRAY, &MessageItem::Struct(_) => ffi::DBUS_TYPE_STRUCT, &MessageItem::Variant(_) => ffi::DBUS_TYPE_VARIANT, &MessageItem::DictEntry(_,_) => ffi::DBUS_TYPE_DICT_ENTRY, &MessageItem::ObjectPath(_) => ffi::DBUS_TYPE_OBJECT_PATH, &MessageItem::UnixFd(_) => ffi::DBUS_TYPE_UNIX_FD, }; s as i32 } /// Creates a (String, Variant) dictionary from an iterator with Result passthrough (an Err wi pub fn from_dict<E, I: Iterator<Item=Result<(String, MessageItem),E>>>(i: I) -> Result<MessageIt let mut v = Vec::new(); for r in i { let (s, vv) = try!(r); v.push((s.into(), Box::new(vv).into()).into()); } Ok(MessageItem::Array(MessageItemArray::new(v, Signature::new("a{sv}").unwrap()). } /// Creates an MessageItem::Array from a list of MessageItems. /// /// Note: This requires `v` to be non-empty. See also /// `MessageItem::from(&[T])`, which can handle empty arrays as well. pub fn new_array(v: Vec<MessageItem>) -> Result<MessageItem,ArrayError> { if v.len() == 0 { return Err(ArrayError::EmptyArray); } let s = MessageItemArray::make_sig(&v[0]); Ok(MessageItem::Array(MessageItemArray::new(v, s)?)) } fn new_array2<D, I>(i: I) -> MessageItem where D: Into<MessageItem>, D: Default, I: Iterator<Item=D> { let v: Vec<MessageItem> = i.map(|ii| ii.into()).collect(); let s = { let d; let t = if v.len() == 0 { d = D::default().into(); &d } else { &v[0] }; MessageItemArray::make_sig(t) }; MessageItem::Array(MessageItemArray::new(v, s).unwrap()) } fn new_array3<'b, D: 'b, I>(i: I) -> MessageItem where D: Into<MessageItem> + Default + Clone, I: Iterator<Item=&'b D> { MessageItem::new_array2(i.map(|ii| ii.clone())) } fn from_iter_single(i: &mut ffi::DBusMessageIter) -> Option<MessageItem> { let t = unsafe { ffi::dbus_message_iter_get_arg_type(i) }; match t { ffi::DBUS_TYPE_INVALID => { None }, ffi::DBUS_TYPE_DICT_ENTRY => { let mut subiter = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_recurse(i, &mut subiter) }; let a = MessageItem::from_iter(&mut subiter); if a.len() != 2 { panic!("D-Bus dict entry error"); } let mut a = a.into_iter(); let key = Box::new(a.next().unwrap()); let value = Box::new(a.next().unwrap()); Some(MessageItem::DictEntry(key, value)) } ffi::DBUS_TYPE_VARIANT => { let mut subiter = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_recurse(i, &mut subiter) }; let a = MessageItem::from_iter(&mut subiter); if a.len() != 1 { panic!("D-Bus variant error"); } Some(MessageItem::Variant(Box::new(a.into_iter().next().unwrap()))) } ffi::DBUS_TYPE_ARRAY => { let mut subiter = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_recurse(i, &mut subiter) }; let c = unsafe { ffi::dbus_message_iter_get_signature(&mut subiter) }; let s = format!("a{}", c_str_to_slice(&(c as *const c_char)).unwrap()); unsafe { ffi::dbus_free(c as *mut c_void) }; let t = Signature::new(s).unwrap(); let a = MessageItem::from_iter(&mut subiter); Some(MessageItem::Array(MessageItemArray { v: a, sig: t })) }, ffi::DBUS_TYPE_STRUCT => { let mut subiter = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_recurse(i, &mut subiter) }; Some(MessageItem::Struct(MessageItem::from_iter(&mut subiter))) }, ffi::DBUS_TYPE_STRING => { let mut c: *const c_char = ptr::null(); unsafe { let p: *mut c_void = mem::transmute(&mut c); ffi::dbus_message_iter_get_basic(i, p); }; Some(MessageItem::Str(c_str_to_slice(&c).expect("D-Bus string error").to_string())) }, ffi::DBUS_TYPE_OBJECT_PATH => { let mut c: *const c_char = ptr::null(); unsafe { let p: *mut c_void = mem::transmute(&mut c); ffi::dbus_message_iter_get_basic(i, p); }; let o = Path::new(c_str_to_slice(&c).expect("D-Bus object path error")).ok().expect("D-Bus object pa Some(MessageItem::ObjectPath(o)) }, ffi::DBUS_TYPE_UNIX_FD => Some(MessageItem::UnixFd(OwnedFd::new(iter_get_basic(i))) ffi::DBUS_TYPE_BOOLEAN => Some(MessageItem::Bool(iter_get_basic::<u32>(i) != 0)), ffi::DBUS_TYPE_BYTE => Some(MessageItem::Byte(iter_get_basic(i))), ffi::DBUS_TYPE_INT16 => Some(MessageItem::Int16(iter_get_basic(i))), ffi::DBUS_TYPE_INT32 => Some(MessageItem::Int32(iter_get_basic(i))), ffi::DBUS_TYPE_INT64 => Some(MessageItem::Int64(iter_get_basic(i))), ffi::DBUS_TYPE_UINT16 => Some(MessageItem::UInt16(iter_get_basic(i))), ffi::DBUS_TYPE_UINT32 => Some(MessageItem::UInt32(iter_get_basic(i))), ffi::DBUS_TYPE_UINT64 => Some(MessageItem::UInt64(iter_get_basic(i))), ffi::DBUS_TYPE_DOUBLE => Some(MessageItem::Double(iter_get_basic(i))), _ => { None /* Only the new msgarg module supports signatures */ } } } fn from_iter(i: &mut ffi::DBusMessageIter) -> Vec<MessageItem> { let mut v = Vec::new(); while let Some(m) = Self::from_iter_single(i) { v.push(m); unsafe { ffi::dbus_message_iter_next(i) }; } v } fn iter_append_basic<T>(&self, i: &mut ffi::DBusMessageIter, v: T) { let t = self.array_type() as c_int; let p = &v as *const _ as *const c_void; unsafe { ffi::dbus_message_iter_append_basic(i, t, p); } } fn iter_append(&self, i: &mut ffi::DBusMessageIter) { match self { &MessageItem::Str(ref s) => unsafe { let c = to_c_str(s); let p = mem::transmute(&c); ffi::dbus_message_iter_append_basic(i, ffi::DBUS_TYPE_STRING, p); }, &MessageItem::Bool(b) => self.iter_append_basic(i, if b { 1u32 } else { 0u32 }), &MessageItem::Byte(b) => self.iter_append_basic(i, b), &MessageItem::Int16(b) => self.iter_append_basic(i, b), &MessageItem::Int32(b) => self.iter_append_basic(i, b), &MessageItem::Int64(b) => self.iter_append_basic(i, b), &MessageItem::UInt16(b) => self.iter_append_basic(i, b), &MessageItem::UInt32(b) => self.iter_append_basic(i, b), &MessageItem::UInt64(b) => self.iter_append_basic(i, b), &MessageItem::UnixFd(ref b) => self.iter_append_basic(i, b.as_raw_fd()), &MessageItem::Double(b) => self.iter_append_basic(i, b), &MessageItem::Array(ref a) => iter_append_array(i, &a.v, a.element_signature()), &MessageItem::Struct(ref v) => iter_append_struct(i, &**v), &MessageItem::Variant(ref b) => iter_append_variant(i, &**b), &MessageItem::DictEntry(ref k, ref v) => iter_append_dict(i, &**k, &**v), &MessageItem::ObjectPath(ref s) => unsafe { let c: *const libc::c_char = s.as_ref().as_ptr(); let p = mem::transmute(&c); ffi::dbus_message_iter_append_basic(i, ffi::DBUS_TYPE_OBJECT_PATH, p); } } } fn copy_to_iter(i: &mut ffi::DBusMessageIter, v: &[MessageItem]) { for item in v.iter() { item.iter_append(i); } } /// Conveniently get the inner value of a `MessageItem` /// /// # Example /// ``` /// use dbus::MessageItem; /// let m: MessageItem = 5i64.into(); /// let s: i64 = m.inner().unwrap(); /// assert_eq!(s, 5i64); /// ``` pub fn inner<'a, T: FromMessageItem<'a>>(&'a self) -> Result<T, ()> { T::from(self) } } // For use by the msgarg module pub fn append_messageitem(i: &mut ffi::DBusMessageIter, m: &MessageItem) { m.iter_append(i) } // For use by the msgarg module pub fn get_messageitem(i: &mut ffi::DBusMessageIter) -> Option<MessageItem> { MessageItem::from_iter_single(i) } macro_rules! msgitem_convert { ($t: ty, $s: ident) => { impl From<$t> for MessageItem { fn from(i: $t) -> MessageItem { MessageItem::$s(i) } } impl<'a> FromMessageItem<'a> for $t { fn from(i: &'a MessageItem) -> Result<$t,()> { if let &MessageItem::$s(ref b) = i { Ok(*b) } else { Err(()) } } } } } msgitem_convert!(u8, Byte); msgitem_convert!(u64, UInt64); msgitem_convert!(u32, UInt32); msgitem_convert!(u16, UInt16); msgitem_convert!(i16, Int16); msgitem_convert!(i32, Int32); msgitem_convert!(i64, Int64); msgitem_convert!(f64, Double); msgitem_convert!(bool, Bool); /// Create a `MessageItem::Array`. impl<'a, T> From<&'a [T]> for MessageItem where T: Into<MessageItem> + Clone + Default { fn from(i: &'a [T]) -> MessageItem { MessageItem::new_array3(i.iter()) } } impl<'a> From<&'a str> for MessageItem { fn from(i: &str) -> MessageItem { MessageItem::Str(i.t impl From<String> for MessageItem { fn from(i: String) -> MessageItem { MessageItem::Str(i) } } impl From<Path<'static>> for MessageItem { fn from(i: Path<'static>) -> MessageItem { MessageItem: impl From<OwnedFd> for MessageItem { fn from(i: OwnedFd) -> MessageItem { MessageItem::UnixFd( /// Create a `MessageItem::Variant` impl From<Box<MessageItem>> for MessageItem { fn from(i: Box<MessageItem>) -> MessageItem { MessageItem::Variant(i) } } /// Create a `MessageItem::DictEntry` impl From<(MessageItem, MessageItem)> for MessageItem { fn from(i: (MessageItem, MessageItem)) -> MessageItem { MessageItem::DictEntry(Box::new(i.0), Box::new(i.1)) } } /// Helper trait for `MessageItem::inner()` pub trait FromMessageItem<'a> :Sized { /// Allows converting from a MessageItem into the type it contains. fn from(i: &'a MessageItem) -> Result<Self, ()>; } impl<'a> FromMessageItem<'a> for &'a str { fn from(i: &'a MessageItem) -> Result<&'a str,()> { match i { &MessageItem::Str(ref b) => Ok(&b), &MessageItem::ObjectPath(ref b) => Ok(&b), _ => Err(()), } } } impl<'a> FromMessageItem<'a> for &'a String { fn from(i: &'a MessageItem) -> Result<&'a String,()> { if let &MessageItem::Str(ref b) = i { Ok(&b) } else { Err } impl<'a> FromMessageItem<'a> for &'a Path<'static> { fn from(i: &'a MessageItem) -> Result<&'a Path<'static>,()> { if let &MessageItem::ObjectPath(ref b) = i { Ok(&b) } els } impl<'a> FromMessageItem<'a> for &'a MessageItem { fn from(i: &'a MessageItem) -> Result<&'a MessageItem,()> { if let &MessageItem::Variant(ref b) = i { Ok(&**b) } els } impl<'a> FromMessageItem<'a> for &'a Vec<MessageItem> { fn from(i: &'a MessageItem) -> Result<&'a Vec<MessageItem>,()> { match i { &MessageItem::Array(ref b) => Ok(&b.v), &MessageItem::Struct(ref b) => Ok(&b), _ => Err(()), } } } impl<'a> FromMessageItem<'a> for &'a [MessageItem] { fn from(i: &'a MessageItem) -> Result<&'a [MessageItem],()> { i.inner::<&Vec<MessageItem>>() } impl<'a> FromMessageItem<'a> for &'a OwnedFd { fn from(i: &'a MessageItem) -> Result<&'a OwnedFd,()> { if let &MessageItem::UnixFd(ref b) = i { Ok(b) } else { Err(( } impl<'a> FromMessageItem<'a> for (&'a MessageItem, &'a MessageItem) { fn from(i: &'a MessageItem) -> Result<(&'a MessageItem, &'a MessageItem),()> { if let &MessageItem::DictEntry(ref k, ref v) = i { Ok((&**k, &**v)) } else { Err(()) } } } /// A D-Bus message. A message contains some headers (e g sender and destination address) /// and a list of MessageItems. pub struct Message { msg: *mut ffi::DBusMessage, } unsafe impl Send for Message {} impl Message { /// Creates a new method call message. pub fn new_method_call<'d, 'p, 'i, 'm, D, P, I, M>(destination: D, path: P, iface: I, method: M) -> R where D: Into<BusName<'d>>, P: Into<Path<'p>>, I: Into<Interface<'i>>, M: Into<Member<'m>> { init_dbus(); let (d, p, i, m) = (destination.into(), path.into(), iface.into(), method.into()); let ptr = unsafe { ffi::dbus_message_new_method_call(d.as_ref().as_ptr(), p.as_ref().as_ptr(), i.as_r }; if ptr == ptr::null_mut() { Err("D-Bus error: dbus_message_new_method_call failed".into( else { Ok(Message { msg: ptr}) } } /// Creates a new method call message. pub fn method_call(destination: &BusName, path: &Path, iface: &Interface, name: &Member) -> Message { init_dbus(); let ptr = unsafe { ffi::dbus_message_new_method_call(destination.as_ref().as_ptr(), path.as_ref().as iface.as_ref().as_ptr(), name.as_ref().as_ptr()) }; if ptr == ptr::null_mut() { panic!("D-Bus error: dbus_message_new_signal failed") } Message { msg: ptr} } /// Creates a new signal message. pub fn new_signal<P, I, M>(path: P, iface: I, name: M) -> Result<Message, String> where P: Into<Vec<u8>>, I: Into<Vec<u8>>, M: Into<Vec<u8>> { init_dbus(); let p = try!(Path::new(path)); let i = try!(Interface::new(iface)); let m = try!(Member::new(name)); let ptr = unsafe { ffi::dbus_message_new_signal(p.as_ref().as_ptr(), i.as_ref().as_ptr(), m.as_ref(). }; if ptr == ptr::null_mut() { Err("D-Bus error: dbus_message_new_signal failed".into()) } else { Ok(Message { msg: ptr}) } } /// Creates a new signal message. pub fn signal(path: &Path, iface: &Interface, name: &Member) -> Message { init_dbus(); let ptr = unsafe { ffi::dbus_message_new_signal(path.as_ref().as_ptr(), iface.as_ref().as_ptr(), name }; if ptr == ptr::null_mut() { panic!("D-Bus error: dbus_message_new_signal failed") } Message { msg: ptr} } /// Creates a method reply for this method call. pub fn new_method_return(m: &Message) -> Option<Message> { let ptr = unsafe { ffi::dbus_message_new_method_return(m.msg) }; if ptr == ptr::null_mut() { None } else { Some(Message { msg: ptr} ) } } /// Creates a method return (reply) for this method call. pub fn method_return(&self) -> Message { let ptr = unsafe { ffi::dbus_message_new_method_return(self.msg) }; if ptr == ptr::null_mut() { panic!("D-Bus error: dbus_message_new_method_return failed") Message {msg: ptr} } /// The old way to create a new error reply pub fn new_error(m: &Message, error_name: &str, error_message: &str) -> Option<Message> { let (en, em) = (to_c_str(error_name), to_c_str(error_message)); let ptr = unsafe { ffi::dbus_message_new_error(m.msg, en.as_ptr(), em.as_ptr()) }; if ptr == ptr::null_mut() { None } else { Some(Message { msg: ptr} ) } } /// Creates a new error reply pub fn error(&self, error_name: &ErrorName, error_message: &CStr) -> Message { let ptr = unsafe { ffi::dbus_message_new_error(self.msg, error_name.as_ref().as_ptr(), if ptr == ptr::null_mut() { panic!("D-Bus error: dbus_message_new_error failed") } Message { msg: ptr} } /// Get the MessageItems that make up the message. /// /// Note: use `iter_init` or `get1`/`get2`/etc instead for faster access to the arguments. /// This method is provided for backwards compatibility. pub fn get_items(&self) -> Vec<MessageItem> { let mut i = new_dbus_message_iter(); match unsafe { ffi::dbus_message_iter_init(self.msg, &mut i) } { 0 => Vec::new(), _ => MessageItem::from_iter(&mut i) } } /// Get the D-Bus serial of a message, if one was specified. pub fn get_serial(&self) -> u32 { unsafe { ffi::dbus_message_get_serial(self.msg) } } /// Get the serial of the message this message is a reply to, if present. pub fn get_reply_serial(&self) -> Option<u32> { let s = unsafe { ffi::dbus_message_get_reply_serial(self.msg) }; if s == 0 { None } else { Some(s) } } /// Returns true if the message does not expect a reply. pub fn get_no_reply(&self) -> bool { unsafe { ffi::dbus_message_get_no_reply(self.msg) != 0 } /// Set whether or not the message expects a reply. /// /// Set to true if you send a method call and do not want a reply. pub fn set_no_reply(&self, v: bool) { unsafe { ffi::dbus_message_set_no_reply(self.msg, if v { 1 } else { 0 }) } } /// Returns true if the message can cause a service to be auto-started. pub fn get_auto_start(&self) -> bool { unsafe { ffi::dbus_message_get_auto_start(self.msg) /// Sets whether or not the message can cause a service to be auto-started. /// /// Defaults to true. pub fn set_auto_start(&self, v: bool) { unsafe { ffi::dbus_message_set_auto_start(self.msg, if v { 1 } else { 0 }) } } /// Add one or more MessageItems to this Message. /// /// Note: using `append1`, `append2` or `append3` might be faster, especially for large array /// This method is provided for backwards compatibility. pub fn append_items(&mut self, v: &[MessageItem]) { let mut i = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_init_append(self.msg, &mut i) }; MessageItem::copy_to_iter(&mut i, v); } /// Appends one MessageItem to a message. /// Use in builder style: e g `m.method_return().append(7i32)` /// /// Note: using `append1`, `append2` or `append3` might be faster, especially for large array /// This method is provided for backwards compatibility. pub fn append<I: Into<MessageItem>>(self, v: I) -> Self { let mut i = new_dbus_message_iter(); unsafe { ffi::dbus_message_iter_init_append(self.msg, &mut i) }; MessageItem::copy_to_iter(&mut i, &[v.into()]); self } /// Appends one argument to this message. /// Use in builder style: e g `m.method_return().append1(7i32)` pub fn append1<A: Append>(mut self, a: A) -> Self { { let mut m = IterAppend::new(&mut self); m.append(a); } self } /// Appends two arguments to this message. /// Use in builder style: e g `m.method_return().append2(7i32, 6u8)` pub fn append2<A1: Append, A2: Append>(mut self, a1: A1, a2: A2) -> Self { { let mut m = IterAppend::new(&mut self); m.append(a1); m.append(a2); } self } /// Appends three arguments to this message. /// Use in builder style: e g `m.method_return().append3(7i32, 6u8, true)` pub fn append3<A1: Append, A2: Append, A3: Append>(mut self, a1: A1, a2: A2, a3: A3) -> Self { { let mut m = IterAppend::new(&mut self); m.append(a1); m.append(a2); m.append(a3); } self } /// Appends RefArgs to this message. /// Use in builder style: e g `m.method_return().append_ref(&[7i32, 6u8, true])` pub fn append_ref<A: RefArg>(mut self, r: &[A]) -> Self { { let mut m = IterAppend::new(&mut self); for rr in r { rr.append(&mut m); } } self } /// Gets the first argument from the message, if that argument is of type G1. /// Returns None if there are not enough arguments, or if types don't match. pub fn get1<'a, G1: Get<'a>>(&'a self) -> Option<G1> { let mut i = Iter::new(&self); i.get() } /// Gets the first two arguments from the message, if those arguments are of type G1 and G2. /// Returns None if there are not enough arguments, or if types don't match. pub fn get2<'a, G1: Get<'a>, G2: Get<'a>>(&'a self) -> (Option<G1>, Option<G2>) { let mut i = Iter::new(&self); let g1 = i.get(); if !i.next() { return (g1, None); } (g1, i.get()) } /// Gets the first three arguments from the message, if those arguments are of type G1, G2 and G3. /// Returns None if there are not enough arguments, or if types don't match. pub fn get3<'a, G1: Get<'a>, G2: Get<'a>, G3: Get<'a>>(&'a self) -> (Option<G1>, Option<G2>, Option<G3>) { let mut i = Iter::new(&self); let g1 = i.get(); if !i.next() { return (g1, None, None) } let g2 = i.get(); if !i.next() { return (g1, g2, None) } (g1, g2, i.get()) } /// Gets the first four arguments from the message, if those arguments are of type G1, G2, G3 and G /// Returns None if there are not enough arguments, or if types don't match. pub fn get4<'a, G1: Get<'a>, G2: Get<'a>, G3: Get<'a>, G4: Get<'a>>(&'a self) -> (Option<G1>, Option<G2>, Op let mut i = Iter::new(&self); let g1 = i.get(); if !i.next() { return (g1, None, None, None) } let g2 = i.get(); if !i.next() { return (g1, g2, None, None) } let g3 = i.get(); if !i.next() { return (g1, g2, g3, None) } (g1, g2, g3, i.get()) } /// Gets the first five arguments from the message, if those arguments are of type G1, G2, G3 and G /// Returns None if there are not enough arguments, or if types don't match. /// Note: If you need more than five arguments, use `iter_init` instead. pub fn get5<'a, G1: Get<'a>, G2: Get<'a>, G3: Get<'a>, G4: Get<'a>, G5: Get<'a>>(&'a self) -> (Option<G1>, Op let mut i = Iter::new(&self); let g1 = i.get(); if !i.next() { return (g1, None, None, None, None) } let g2 = i.get(); if !i.next() { return (g1, g2, None, None, None) } let g3 = i.get(); if !i.next() { return (g1, g2, g3, None, None) } let g4 = i.get(); if !i.next() { return (g1, g2, g3, g4, None) } (g1, g2, g3, g4, i.get()) } /// Gets the first argument from the message, if that argument is of type G1. /// /// Returns a TypeMismatchError if there are not enough arguments, or if types don't match. pub fn read1<'a, G1: Arg + Get<'a>>(&'a self) -> Result<G1, TypeMismatchError> { let mut i = Iter::new(&self); i.read() } /// Gets the first two arguments from the message, if those arguments are of type G1 and G2. /// /// Returns a TypeMismatchError if there are not enough arguments, or if types don't match. pub fn read2<'a, G1: Arg + Get<'a>, G2: Arg + Get<'a>>(&'a self) -> Result<(G1, G2), TypeMismatchErro let mut i = Iter::new(&self); Ok((try!(i.read()), try!(i.read()))) } /// Gets the first three arguments from the message, if those arguments are of type G1, G2 and G3. /// /// Returns a TypeMismatchError if there are not enough arguments, or if types don't match. pub fn read3<'a, G1: Arg + Get<'a>, G2: Arg + Get<'a>, G3: Arg + Get<'a>>(&'a self) -> Result<(G1, G2, G3), TypeMismatchError> { let mut i = Iter::new(&self); Ok((try!(i.read()), try!(i.read()), try!(i.read()))) } /// Gets the first four arguments from the message, if those arguments are of type G1, G2, G3 and G /// /// Returns a TypeMismatchError if there are not enough arguments, or if types don't match. pub fn read4<'a, G1: Arg + Get<'a>, G2: Arg + Get<'a>, G3: Arg + Get<'a>, G4: Arg + Get<'a>>(&'a self) -> Result<(G1, G2, G3, G4), TypeMismatchError> { let mut i = Iter::new(&self); Ok((try!(i.read()), try!(i.read()), try!(i.read()), try!(i.read()))) } /// Gets the first five arguments from the message, if those arguments are of type G1, G2, G3, G4 a /// /// Returns a TypeMismatchError if there are not enough arguments, or if types don't match. /// Note: If you need more than five arguments, use `iter_init` instead. pub fn read5<'a, G1: Arg + Get<'a>, G2: Arg + Get<'a>, G3: Arg + Get<'a>, G4: Arg + Get<'a>, G5: Arg + Get<'a>>(&'a&nb Result<(G1, G2, G3, G4, G5), TypeMismatchError> { let mut i = Iter::new(&self); Ok((try!(i.read()), try!(i.read()), try!(i.read()), try!(i.read()), try!(i.read()))) } /// Returns a struct for retreiving the arguments from a message. Supersedes get_items(). pub fn iter_init<'a>(&'a self) -> Iter<'a> { Iter::new(&self) } /// Gets the MessageType of the Message. pub fn msg_type(&self) -> MessageType { unsafe { mem::transmute(ffi::dbus_message_get_type(self.msg)) } } fn msg_internal_str<'a>(&'a self, c: *const libc::c_char) -> Option<&'a [u8]> { if c == ptr::null() { None } else { Some( unsafe { CStr::from_ptr(c) }.to_bytes_with_nul()) } } /// Gets the name of the connection that originated this message. pub fn sender<'a>(&'a self) -> Option<BusName<'a>> { self.msg_internal_str(unsafe { ffi::dbus_message_get_sender(self.msg) }) .map(|s| unsafe { BusName::from_slice_unchecked(s) }) } /// Returns a tuple of (Message type, Path, Interface, Member) of the current message. pub fn headers(&self) -> (MessageType, Option<String>, Option<String>, Option<String>) { let p = unsafe { ffi::dbus_message_get_path(self.msg) }; let i = unsafe { ffi::dbus_message_get_interface(self.msg) }; let m = unsafe { ffi::dbus_message_get_member(self.msg) }; (self.msg_type(), c_str_to_slice(&p).map(|s| s.to_string()), c_str_to_slice(&i).map(|s| s.to_string()), c_str_to_slice(&m).map(|s| s.to_string())) } /// Gets the object path this Message is being sent to. pub fn path<'a>(&'a self) -> Option<Path<'a>> { self.msg_internal_str(unsafe { ffi::dbus_message_get_path(self.msg) }) .map(|s| unsafe { Path::from_slice_unchecked(s) }) } /// Gets the destination this Message is being sent to. pub fn destination<'a>(&'a self) -> Option<BusName<'a>> { self.msg_internal_str(unsafe { ffi::dbus_message_get_destination(self.msg) }) .map(|s| unsafe { BusName::from_slice_unchecked(s) }) } /// Sets the destination of this Message /// /// If dest is none, that means broadcast to all relevant destinations. pub fn set_destination(&mut self, dest: Option<BusName>) { let c_dest = dest.as_ref().map(|d| d.as_cstr().as_ptr()).unwrap_or(ptr::null()); assert!(unsafe { ffi::dbus_message_set_destination(self.msg, c_dest) } != 0); } /// Gets the interface this Message is being sent to. pub fn interface<'a>(&'a self) -> Option<Interface<'a>> { self.msg_internal_str(unsafe { ffi::dbus_message_get_interface(self.msg) }) .map(|s| unsafe { Interface::from_slice_unchecked(s) }) } /// Gets the interface member being called. pub fn member<'a>(&'a self) -> Option<Member<'a>> { self.msg_internal_str(unsafe { ffi::dbus_message_get_member(self.msg) }) .map(|s| unsafe { Member::from_slice_unchecked(s) }) } /// When the remote end returns an error, the message itself is /// correct but its contents is an error. This method will /// transform such an error to a D-Bus Error or otherwise return /// the original message. pub fn as_result(&mut self) -> Result<&mut Message, Error> { self.set_error_from_msg().map(|_| self) } pub (super) fn set_error_from_msg(&self) -> Result<(), Error> { let mut e = Error::empty(); if unsafe { ffi::dbus_set_error_from_message(e.get_mut(), self.msg) } != 0 { Err(e) } else { Ok(()) } } pub (crate) fn ptr(&self) -> *mut ffi::DBusMessage { self.msg } pub (crate) fn from_ptr(ptr: *mut ffi::DBusMessage, add_ref: bool) -> Message { if add_ref { unsafe { ffi::dbus_message_ref(ptr) }; } Message { msg: ptr } } } impl Drop for Message { fn drop(&mut self) { unsafe { ffi::dbus_message_unref(self.msg); } } } impl fmt::Debug for Message { fn fmt(&self, f: &mut fmt::Formatter) -> Result<(), fmt::Error> { write!(f, "{:?}", self.headers()) } } /// A convenience struct that wraps connection, destination and path. /// /// Useful if you want to make many method calls to the same destination path. #[derive(Clone, Debug)] pub struct ConnPath<'a, C> { /// Some way to access the connection, e g a &Connection or Rc<Connection> pub conn: C, /// Destination, i e what D-Bus service you're communicating with pub dest: BusName<'a>, /// Object path on the destination pub path: Path<'a>, /// Timeout in milliseconds for blocking method calls pub timeout: i32, } impl<'a, C: ::std::ops::Deref<Target=Connection>> ConnPath<'a, C> { /// Make a D-Bus method call, where you can append arguments inside the closure. pub fn method_call_with_args<F: FnOnce(&mut Message)>(&self, i: &Interface, m: &Member, f: F) -> Result<M let mut msg = Message::method_call(&self.dest, &self.path, i, m); f(&mut msg); self.conn.send_with_reply_and_block(msg, self.timeout) } /// Emit a D-Bus signal, where you can append arguments inside the closure. pub fn signal_with_args<F: FnOnce(&mut Message)>(&self, i: &Interface, m: &Member, f: F) -> Result<u32, Er let mut msg = Message::signal(&self.path, i, m); f(&mut msg); self.conn.send(msg).map_err(|_| Error::new_custom("org.freedesktop.DBus.Error.Fai } /// Emit a D-Bus signal, where the arguments are in a struct. pub fn emit<S: SignalArgs>(&self, signal: &S) -> Result<u32, Error> { let msg = signal.to_emit_message(&self.path); self.conn.send(msg).map_err(|_| Error::new_custom("org.freedesktop.DBus.Error.Fai } } // For purpose of testing the library only. #[cfg(test)] pub (crate) fn message_set_serial(m: &mut Message, s: u32) { unsafe { ffi::dbus_message_set_serial(m.msg, s) }; } #[cfg(test)] mod test { extern crate tempdir; use super::super::{Connection, Message, MessageType, BusType, MessageItem, OwnedFd, lib #[test] fn unix_fd() { use std::io::prelude::*; use std::io::SeekFrom; use std::fs::OpenOptions; use std::os::unix::io::AsRawFd; let c = Connection::get_private(BusType::Session).unwrap(); c.register_object_path("/hello").unwrap(); let mut m = Message::new_method_call(&c.unique_name(), "/hello", "com.example.hello", "Hello").unwr let tempdir = tempdir::TempDir::new("dbus-rs-test").unwrap(); let mut filename = tempdir.path().to_path_buf(); filename.push("test"); println!("Creating file {:?}", filename); let mut file = OpenOptions::new().create(true).read(true).write(true).open(&filename).unwrap(); file.write_all(b"z").unwrap(); file.seek(SeekFrom::Start(0)).unwrap(); let ofd = OwnedFd::new(file.as_raw_fd()); m.append_items(&[MessageItem::UnixFd(ofd.clone())]); println!("Sending {:?}", m.get_items()); c.send(m).unwrap(); loop { for n in c.incoming(1000) { if n.msg_type() == MessageType::MethodCall { let z: OwnedFd = n.read1().unwrap(); println!("Got {:?}", z); let mut q: libc::c_char = 100; assert_eq!(1, unsafe { libc::read(z.as_raw_fd(), &mut q as *mut _ as *mut libc::c_void, 1) } assert_eq!(q, 'z' as libc::c_char); return; } else { println!("Got {:?}", n); } }} } #[test] fn message_types() { let c = Connection::get_private(BusType::Session).unwrap(); c.register_object_path("/hello").unwrap(); let mut m = Message::new_method_call(&c.unique_name(), "/hello", "com.example.hello", "Hello").unwr m.append_items(&[ 2000u16.into(), MessageItem::new_array(vec!(129u8.into())).unwrap(), ["Hello", "world"][..].into(), 987654321u64.into(), (-1i32).into(), format!("Hello world").into(), (-3.14f64).into(), MessageItem::Struct(vec!(256i16.into())), Path::new("/some/path").unwrap().into(), MessageItem::new_array(vec!((123543u32.into(), true.into()).into())).unwrap() ]); let sending = format!("{:?}", m.get_items()); println!("Sending {}", sending); c.send(m).unwrap(); loop { for n in c.incoming(1000) { if n.msg_type() == MessageType::MethodCall { let receiving = format!("{:?}", n.get_items()); println!("Receiving {}", receiving); assert_eq!(sending, receiving); return; } else { println!("Got {:?}", n); } }} } #[test] fn dict_of_dicts() { use std::collections::BTreeMap; let officeactions: BTreeMap<&'static str, MessageItem> = BTreeMap::new(); let mut officethings = BTreeMap::new(); officethings.insert("pencil", 2u16.into()); officethings.insert("paper", 5u16.into()); let mut homethings = BTreeMap::new(); homethings.insert("apple", 11u16.into()); let mut homeifaces = BTreeMap::new(); homeifaces.insert("getThings", homethings); let mut officeifaces = BTreeMap::new(); officeifaces.insert("getThings", officethings); officeifaces.insert("getActions", officeactions); let mut paths = BTreeMap::new(); paths.insert("/hello/office", officeifaces); paths.insert("/hello/home", homeifaces); println!("Original treemap: {:?}", paths); let m = MessageItem::new_array(paths.iter().map( |(path, ifaces)| (MessageItem::ObjectPath(Path::new(*path).unwrap()), MessageItem::new_array(ifaces.iter().map( |(iface, props)| (iface.to_string().into(), MessageItem::from_dict::<(),_>(props.iter().map( |(name, value)| Ok((name.to_string(), value.clone())) )).unwrap() ).into() ).collect()).unwrap() ).into() ).collect()).unwrap(); println!("As MessageItem: {:?}", m); assert_eq!(&*m.signature(), "a{oa{sa{sv}}}"); let c = Connection::get_private(BusType::Session).unwrap(); c.register_object_path("/hello").unwrap(); let mut msg = Message::new_method_call(&c.unique_name(), "/hello", "org.freedesktop.DBusObjectMana msg.append_items(&[m]); let sending = format!("{:?}", msg.get_items()); println!("Sending {}", sending); c.send(msg).unwrap(); loop { for n in c.incoming(1000) { if n.msg_type() == MessageType::MethodCall { let receiving = format!("{:?}", n.get_items()); println!("Receiving {}", receiving); assert_eq!(sending, receiving); return; } else { println!("Got {:?}", n); } } } } #[test] fn issue24() { let c = Connection::get_private(BusType::Session).unwrap(); let mut m = Message::new_method_call("org.test.rust", "/", "org.test.rust", "Test").unw let a = MessageItem::from("test".to_string()); let b = MessageItem::from("test".to_string()); let foo = MessageItem::Struct(vec!(a, b)); let bar = foo.clone(); let args = [MessageItem::new_array(vec!(foo, bar)).unwrap()]; println!("{:?}", args); m.append_items(&args); c.send(m).unwrap(); } #[test] fn set_valid_destination() { let mut m = Message::new_method_call("org.test.rust", "/", "org.test.rust", "Test").unw let d = Some(BusName::new(":1.14").unwrap()); m.set_destination(d); assert!(!m.get_no_reply()); m.set_no_reply(true); assert!(m.get_no_reply()); } } [ Dauer der Verarbeitung: 0.6 Sekunden (vorverarbeitet) ] |
2026-04-02