1590faa03SPaolo Bonzini // Copyright 2024 Red Hat, Inc.
2590faa03SPaolo Bonzini // Author(s): Paolo Bonzini <pbonzini@redhat.com>
3590faa03SPaolo Bonzini // SPDX-License-Identifier: GPL-2.0-or-later
4590faa03SPaolo Bonzini
5d015d4cbSZhao Liu //! Bindings for `MemoryRegion`, `MemoryRegionOps` and `MemTxAttrs`
6590faa03SPaolo Bonzini
7590faa03SPaolo Bonzini use std::{
8590faa03SPaolo Bonzini ffi::{CStr, CString},
9*af0868cbSPaolo Bonzini marker::PhantomData,
10590faa03SPaolo Bonzini os::raw::{c_uint, c_void},
11590faa03SPaolo Bonzini };
12590faa03SPaolo Bonzini
13d015d4cbSZhao Liu pub use bindings::{hwaddr, MemTxAttrs};
14590faa03SPaolo Bonzini
15590faa03SPaolo Bonzini use crate::{
16590faa03SPaolo Bonzini bindings::{self, device_endian, memory_region_init_io},
17590faa03SPaolo Bonzini callbacks::FnCall,
18*af0868cbSPaolo Bonzini cell::Opaque,
19590faa03SPaolo Bonzini prelude::*,
20590faa03SPaolo Bonzini zeroable::Zeroable,
21590faa03SPaolo Bonzini };
22590faa03SPaolo Bonzini
23590faa03SPaolo Bonzini pub struct MemoryRegionOps<T>(
24590faa03SPaolo Bonzini bindings::MemoryRegionOps,
25590faa03SPaolo Bonzini // Note: quite often you'll see PhantomData<fn(&T)> mentioned when discussing
26590faa03SPaolo Bonzini // covariance and contravariance; you don't need any of those to understand
27590faa03SPaolo Bonzini // this usage of PhantomData. Quite simply, MemoryRegionOps<T> *logically*
28590faa03SPaolo Bonzini // holds callbacks that take an argument of type &T, except the type is erased
29590faa03SPaolo Bonzini // before the callback is stored in the bindings::MemoryRegionOps field.
30590faa03SPaolo Bonzini // The argument of PhantomData is a function pointer in order to represent
31590faa03SPaolo Bonzini // that relationship; while that will also provide desirable and safe variance
32590faa03SPaolo Bonzini // for T, variance is not the point but just a consequence.
33590faa03SPaolo Bonzini PhantomData<fn(&T)>,
34590faa03SPaolo Bonzini );
35590faa03SPaolo Bonzini
36590faa03SPaolo Bonzini // SAFETY: When a *const T is passed to the callbacks, the call itself
37590faa03SPaolo Bonzini // is done in a thread-safe manner. The invocation is okay as long as
38590faa03SPaolo Bonzini // T itself is `Sync`.
39590faa03SPaolo Bonzini unsafe impl<T: Sync> Sync for MemoryRegionOps<T> {}
40590faa03SPaolo Bonzini
41590faa03SPaolo Bonzini #[derive(Clone)]
42590faa03SPaolo Bonzini pub struct MemoryRegionOpsBuilder<T>(bindings::MemoryRegionOps, PhantomData<fn(&T)>);
43590faa03SPaolo Bonzini
memory_region_ops_read_cb<T, F: for<'a> FnCall<(&'a T, hwaddr, u32), u64>>( opaque: *mut c_void, addr: hwaddr, size: c_uint, ) -> u6444590faa03SPaolo Bonzini unsafe extern "C" fn memory_region_ops_read_cb<T, F: for<'a> FnCall<(&'a T, hwaddr, u32), u64>>(
45590faa03SPaolo Bonzini opaque: *mut c_void,
46590faa03SPaolo Bonzini addr: hwaddr,
47590faa03SPaolo Bonzini size: c_uint,
48590faa03SPaolo Bonzini ) -> u64 {
49590faa03SPaolo Bonzini F::call((unsafe { &*(opaque.cast::<T>()) }, addr, size))
50590faa03SPaolo Bonzini }
51590faa03SPaolo Bonzini
memory_region_ops_write_cb<T, F: for<'a> FnCall<(&'a T, hwaddr, u64, u32)>>( opaque: *mut c_void, addr: hwaddr, data: u64, size: c_uint, )52590faa03SPaolo Bonzini unsafe extern "C" fn memory_region_ops_write_cb<T, F: for<'a> FnCall<(&'a T, hwaddr, u64, u32)>>(
53590faa03SPaolo Bonzini opaque: *mut c_void,
54590faa03SPaolo Bonzini addr: hwaddr,
55590faa03SPaolo Bonzini data: u64,
56590faa03SPaolo Bonzini size: c_uint,
57590faa03SPaolo Bonzini ) {
58590faa03SPaolo Bonzini F::call((unsafe { &*(opaque.cast::<T>()) }, addr, data, size))
59590faa03SPaolo Bonzini }
60590faa03SPaolo Bonzini
61590faa03SPaolo Bonzini impl<T> MemoryRegionOpsBuilder<T> {
62590faa03SPaolo Bonzini #[must_use]
read<F: for<'a> FnCall<(&'a T, hwaddr, u32), u64>>(mut self, _f: &F) -> Self63590faa03SPaolo Bonzini pub const fn read<F: for<'a> FnCall<(&'a T, hwaddr, u32), u64>>(mut self, _f: &F) -> Self {
64590faa03SPaolo Bonzini self.0.read = Some(memory_region_ops_read_cb::<T, F>);
65590faa03SPaolo Bonzini self
66590faa03SPaolo Bonzini }
67590faa03SPaolo Bonzini
68590faa03SPaolo Bonzini #[must_use]
write<F: for<'a> FnCall<(&'a T, hwaddr, u64, u32)>>(mut self, _f: &F) -> Self69590faa03SPaolo Bonzini pub const fn write<F: for<'a> FnCall<(&'a T, hwaddr, u64, u32)>>(mut self, _f: &F) -> Self {
70590faa03SPaolo Bonzini self.0.write = Some(memory_region_ops_write_cb::<T, F>);
71590faa03SPaolo Bonzini self
72590faa03SPaolo Bonzini }
73590faa03SPaolo Bonzini
74590faa03SPaolo Bonzini #[must_use]
big_endian(mut self) -> Self75590faa03SPaolo Bonzini pub const fn big_endian(mut self) -> Self {
76590faa03SPaolo Bonzini self.0.endianness = device_endian::DEVICE_BIG_ENDIAN;
77590faa03SPaolo Bonzini self
78590faa03SPaolo Bonzini }
79590faa03SPaolo Bonzini
80590faa03SPaolo Bonzini #[must_use]
little_endian(mut self) -> Self81590faa03SPaolo Bonzini pub const fn little_endian(mut self) -> Self {
82590faa03SPaolo Bonzini self.0.endianness = device_endian::DEVICE_LITTLE_ENDIAN;
83590faa03SPaolo Bonzini self
84590faa03SPaolo Bonzini }
85590faa03SPaolo Bonzini
86590faa03SPaolo Bonzini #[must_use]
native_endian(mut self) -> Self87590faa03SPaolo Bonzini pub const fn native_endian(mut self) -> Self {
88590faa03SPaolo Bonzini self.0.endianness = device_endian::DEVICE_NATIVE_ENDIAN;
89590faa03SPaolo Bonzini self
90590faa03SPaolo Bonzini }
91590faa03SPaolo Bonzini
92590faa03SPaolo Bonzini #[must_use]
valid_sizes(mut self, min: u32, max: u32) -> Self93590faa03SPaolo Bonzini pub const fn valid_sizes(mut self, min: u32, max: u32) -> Self {
94590faa03SPaolo Bonzini self.0.valid.min_access_size = min;
95590faa03SPaolo Bonzini self.0.valid.max_access_size = max;
96590faa03SPaolo Bonzini self
97590faa03SPaolo Bonzini }
98590faa03SPaolo Bonzini
99590faa03SPaolo Bonzini #[must_use]
valid_unaligned(mut self) -> Self100590faa03SPaolo Bonzini pub const fn valid_unaligned(mut self) -> Self {
101590faa03SPaolo Bonzini self.0.valid.unaligned = true;
102590faa03SPaolo Bonzini self
103590faa03SPaolo Bonzini }
104590faa03SPaolo Bonzini
105590faa03SPaolo Bonzini #[must_use]
impl_sizes(mut self, min: u32, max: u32) -> Self106590faa03SPaolo Bonzini pub const fn impl_sizes(mut self, min: u32, max: u32) -> Self {
107590faa03SPaolo Bonzini self.0.impl_.min_access_size = min;
108590faa03SPaolo Bonzini self.0.impl_.max_access_size = max;
109590faa03SPaolo Bonzini self
110590faa03SPaolo Bonzini }
111590faa03SPaolo Bonzini
112590faa03SPaolo Bonzini #[must_use]
impl_unaligned(mut self) -> Self113590faa03SPaolo Bonzini pub const fn impl_unaligned(mut self) -> Self {
114590faa03SPaolo Bonzini self.0.impl_.unaligned = true;
115590faa03SPaolo Bonzini self
116590faa03SPaolo Bonzini }
117590faa03SPaolo Bonzini
118590faa03SPaolo Bonzini #[must_use]
build(self) -> MemoryRegionOps<T>119590faa03SPaolo Bonzini pub const fn build(self) -> MemoryRegionOps<T> {
120590faa03SPaolo Bonzini MemoryRegionOps::<T>(self.0, PhantomData)
121590faa03SPaolo Bonzini }
122590faa03SPaolo Bonzini
123590faa03SPaolo Bonzini #[must_use]
new() -> Self124590faa03SPaolo Bonzini pub const fn new() -> Self {
125590faa03SPaolo Bonzini Self(bindings::MemoryRegionOps::ZERO, PhantomData)
126590faa03SPaolo Bonzini }
127590faa03SPaolo Bonzini }
128590faa03SPaolo Bonzini
129590faa03SPaolo Bonzini impl<T> Default for MemoryRegionOpsBuilder<T> {
default() -> Self130590faa03SPaolo Bonzini fn default() -> Self {
131590faa03SPaolo Bonzini Self::new()
132590faa03SPaolo Bonzini }
133590faa03SPaolo Bonzini }
134590faa03SPaolo Bonzini
135*af0868cbSPaolo Bonzini /// A safe wrapper around [`bindings::MemoryRegion`].
136*af0868cbSPaolo Bonzini #[repr(transparent)]
137*af0868cbSPaolo Bonzini #[derive(qemu_api_macros::Wrapper)]
138*af0868cbSPaolo Bonzini pub struct MemoryRegion(Opaque<bindings::MemoryRegion>);
139*af0868cbSPaolo Bonzini
140*af0868cbSPaolo Bonzini unsafe impl Send for MemoryRegion {}
141*af0868cbSPaolo Bonzini unsafe impl Sync for MemoryRegion {}
142590faa03SPaolo Bonzini
143590faa03SPaolo Bonzini impl MemoryRegion {
144590faa03SPaolo Bonzini // inline to ensure that it is not included in tests, which only
145590faa03SPaolo Bonzini // link to hwcore and qom. FIXME: inlining is actually the opposite
146590faa03SPaolo Bonzini // of what we want, since this is the type-erased version of the
147590faa03SPaolo Bonzini // init_io function below. Look into splitting the qemu_api crate.
148590faa03SPaolo Bonzini #[inline(always)]
do_init_io( slot: *mut bindings::MemoryRegion, owner: *mut Object, ops: &'static bindings::MemoryRegionOps, name: &'static str, size: u64, )149590faa03SPaolo Bonzini unsafe fn do_init_io(
150590faa03SPaolo Bonzini slot: *mut bindings::MemoryRegion,
151590faa03SPaolo Bonzini owner: *mut Object,
152590faa03SPaolo Bonzini ops: &'static bindings::MemoryRegionOps,
153590faa03SPaolo Bonzini name: &'static str,
154590faa03SPaolo Bonzini size: u64,
155590faa03SPaolo Bonzini ) {
156590faa03SPaolo Bonzini unsafe {
157590faa03SPaolo Bonzini let cstr = CString::new(name).unwrap();
158590faa03SPaolo Bonzini memory_region_init_io(
159590faa03SPaolo Bonzini slot,
1607fb4a99dSPaolo Bonzini owner.cast::<bindings::Object>(),
161590faa03SPaolo Bonzini ops,
162590faa03SPaolo Bonzini owner.cast::<c_void>(),
163590faa03SPaolo Bonzini cstr.as_ptr(),
164590faa03SPaolo Bonzini size,
165590faa03SPaolo Bonzini );
166590faa03SPaolo Bonzini }
167590faa03SPaolo Bonzini }
168590faa03SPaolo Bonzini
init_io<T: IsA<Object>>( &mut self, owner: *mut T, ops: &'static MemoryRegionOps<T>, name: &'static str, size: u64, )169590faa03SPaolo Bonzini pub fn init_io<T: IsA<Object>>(
170590faa03SPaolo Bonzini &mut self,
171590faa03SPaolo Bonzini owner: *mut T,
172590faa03SPaolo Bonzini ops: &'static MemoryRegionOps<T>,
173590faa03SPaolo Bonzini name: &'static str,
174590faa03SPaolo Bonzini size: u64,
175590faa03SPaolo Bonzini ) {
176590faa03SPaolo Bonzini unsafe {
177*af0868cbSPaolo Bonzini Self::do_init_io(
178*af0868cbSPaolo Bonzini self.0.as_mut_ptr(),
179*af0868cbSPaolo Bonzini owner.cast::<Object>(),
180*af0868cbSPaolo Bonzini &ops.0,
181*af0868cbSPaolo Bonzini name,
182*af0868cbSPaolo Bonzini size,
183*af0868cbSPaolo Bonzini );
184590faa03SPaolo Bonzini }
185590faa03SPaolo Bonzini }
186590faa03SPaolo Bonzini }
187590faa03SPaolo Bonzini
188590faa03SPaolo Bonzini unsafe impl ObjectType for MemoryRegion {
189590faa03SPaolo Bonzini type Class = bindings::MemoryRegionClass;
190590faa03SPaolo Bonzini const TYPE_NAME: &'static CStr =
191590faa03SPaolo Bonzini unsafe { CStr::from_bytes_with_nul_unchecked(bindings::TYPE_MEMORY_REGION) };
192590faa03SPaolo Bonzini }
193590faa03SPaolo Bonzini qom_isa!(MemoryRegion: Object);
194d015d4cbSZhao Liu
195d015d4cbSZhao Liu /// A special `MemTxAttrs` constant, used to indicate that no memory
196d015d4cbSZhao Liu /// attributes are specified.
197d015d4cbSZhao Liu ///
198d015d4cbSZhao Liu /// Bus masters which don't specify any attributes will get this,
199d015d4cbSZhao Liu /// which has all attribute bits clear except the topmost one
200d015d4cbSZhao Liu /// (so that we can distinguish "all attributes deliberately clear"
201d015d4cbSZhao Liu /// from "didn't specify" if necessary).
202d015d4cbSZhao Liu pub const MEMTXATTRS_UNSPECIFIED: MemTxAttrs = MemTxAttrs {
203d015d4cbSZhao Liu unspecified: true,
204d015d4cbSZhao Liu ..Zeroable::ZERO
205d015d4cbSZhao Liu };
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