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cloud-hypervisor/pci/src/msi.rs
Sebastien Boeuf dcc646f5b1 clippy: Fix redundant allocations 
With the new beta version, clippy complains about redundant allocation
when using Arc<Box<dyn T>>, and suggests replacing it simply with
Arc<dyn T>.

Signed-off-by: Sebastien Boeuf <sebastien.boeuf@intel.com>
2021-07-29 13:28:57 +02:00

232 lines
6.9 KiB
Rust
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// Copyright © 2019 Intel Corporation
//
// SPDX-License-Identifier: Apache-2.0 OR BSD-3-Clause
//
use byteorder::{ByteOrder, LittleEndian};
use std::sync::Arc;
use vm_device::interrupt::{
InterruptIndex, InterruptSourceConfig, InterruptSourceGroup, MsiIrqSourceConfig,
};
// MSI control masks
const MSI_CTL_ENABLE: u16 = 0x1;
const MSI_CTL_MULTI_MSG_ENABLE: u16 = 0x70;
const MSI_CTL_64_BITS: u16 = 0x80;
const MSI_CTL_PER_VECTOR: u16 = 0x100;
// MSI message offsets
const MSI_MSG_CTL_OFFSET: u64 = 0x2;
const MSI_MSG_ADDR_LO_OFFSET: u64 = 0x4;
// MSI message masks
const MSI_MSG_ADDR_LO_MASK: u32 = 0xffff_fffc;
pub fn msi_num_enabled_vectors(msg_ctl: u16) -> usize {
let field = (msg_ctl >> 4) & 0x7;
if field > 5 {
return 0;
}
1 << field
}
#[derive(Clone, Copy, Default)]
pub struct MsiCap {
// Message Control Register
// 0: MSI enable.
// 3-1; Multiple message capable.
// 6-4: Multiple message enable.
// 7: 64 bits address capable.
// 8: Per-vector masking capable.
// 15-9: Reserved.
pub msg_ctl: u16,
// Message Address (LSB)
// 1-0: Reserved.
// 31-2: Message address.
pub msg_addr_lo: u32,
// Message Upper Address (MSB)
// 31-0: Message address.
pub msg_addr_hi: u32,
// Message Data
// 15-0: Message data.
pub msg_data: u16,
// Mask Bits
// 31-0: Mask bits.
pub mask_bits: u32,
// Pending Bits
// 31-0: Pending bits.
pub pending_bits: u32,
}
impl MsiCap {
fn addr_64_bits(&self) -> bool {
self.msg_ctl & MSI_CTL_64_BITS == MSI_CTL_64_BITS
}
fn per_vector_mask(&self) -> bool {
self.msg_ctl & MSI_CTL_PER_VECTOR == MSI_CTL_PER_VECTOR
}
fn enabled(&self) -> bool {
self.msg_ctl & MSI_CTL_ENABLE == MSI_CTL_ENABLE
}
fn num_enabled_vectors(&self) -> usize {
msi_num_enabled_vectors(self.msg_ctl)
}
fn vector_masked(&self, vector: usize) -> bool {
if !self.per_vector_mask() {
return false;
}
(self.mask_bits >> vector) & 0x1 == 0x1
}
fn size(&self) -> u64 {
let mut size: u64 = 0xa;
if self.addr_64_bits() {
size += 0x4;
}
if self.per_vector_mask() {
size += 0xa;
}
size
}
fn update(&mut self, offset: u64, data: &[u8]) {
// Calculate message data offset depending on the address being 32 or
// 64 bits.
// Calculate upper address offset if the address is 64 bits.
// Calculate mask bits offset based on the address being 32 or 64 bits
// and based on the per vector masking being enabled or not.
let (msg_data_offset, addr_hi_offset, mask_bits_offset): (u64, Option<u64>, Option<u64>) =
if self.addr_64_bits() {
let mask_bits = if self.per_vector_mask() {
Some(0x10)
} else {
None
};
(0xc, Some(0x8), mask_bits)
} else {
let mask_bits = if self.per_vector_mask() {
Some(0xc)
} else {
None
};
(0x8, None, mask_bits)
};
// Update cache without overriding the read-only bits.
match data.len() {
2 => {
let value = LittleEndian::read_u16(data);
match offset {
MSI_MSG_CTL_OFFSET => {
self.msg_ctl = (self.msg_ctl & !(MSI_CTL_ENABLE | MSI_CTL_MULTI_MSG_ENABLE))
| (value & (MSI_CTL_ENABLE | MSI_CTL_MULTI_MSG_ENABLE))
}
x if x == msg_data_offset => self.msg_data = value,
_ => error!("invalid offset"),
}
}
4 => {
let value = LittleEndian::read_u32(data);
match offset {
0x0 => {
self.msg_ctl = (self.msg_ctl & !(MSI_CTL_ENABLE | MSI_CTL_MULTI_MSG_ENABLE))
| ((value >> 16) as u16 & (MSI_CTL_ENABLE | MSI_CTL_MULTI_MSG_ENABLE))
}
MSI_MSG_ADDR_LO_OFFSET => self.msg_addr_lo = value & MSI_MSG_ADDR_LO_MASK,
x if x == msg_data_offset => self.msg_data = value as u16,
x if addr_hi_offset.is_some() && x == addr_hi_offset.unwrap() => {
self.msg_addr_hi = value
}
x if mask_bits_offset.is_some() && x == mask_bits_offset.unwrap() => {
self.mask_bits = value
}
_ => error!("invalid offset"),
}
}
_ => error!("invalid data length"),
}
}
}
pub struct MsiConfig {
cap: MsiCap,
interrupt_source_group: Arc<dyn InterruptSourceGroup>,
}
impl MsiConfig {
pub fn new(msg_ctl: u16, interrupt_source_group: Arc<dyn InterruptSourceGroup>) -> Self {
let cap = MsiCap {
msg_ctl,
..Default::default()
};
MsiConfig {
cap,
interrupt_source_group,
}
}
pub fn enabled(&self) -> bool {
self.cap.enabled()
}
pub fn size(&self) -> u64 {
self.cap.size()
}
pub fn num_enabled_vectors(&self) -> usize {
self.cap.num_enabled_vectors()
}
pub fn update(&mut self, offset: u64, data: &[u8]) {
let old_enabled = self.cap.enabled();
self.cap.update(offset, data);
if self.cap.enabled() {
for idx in 0..self.num_enabled_vectors() {
let config = MsiIrqSourceConfig {
high_addr: self.cap.msg_addr_hi,
low_addr: self.cap.msg_addr_lo,
data: self.cap.msg_data as u32,
devid: 0,
};
if let Err(e) = self
.interrupt_source_group
.update(idx as InterruptIndex, InterruptSourceConfig::MsiIrq(config))
{
error!("Failed updating vector: {:?}", e);
}
if self.cap.vector_masked(idx) {
if let Err(e) = self.interrupt_source_group.mask(idx as InterruptIndex) {
error!("Failed masking vector: {:?}", e);
}
} else if let Err(e) = self.interrupt_source_group.unmask(idx as InterruptIndex) {
error!("Failed unmasking vector: {:?}", e);
}
}
if !old_enabled {
if let Err(e) = self.interrupt_source_group.enable() {
error!("Failed enabling irq_fd: {:?}", e);
}
}
} else if old_enabled {
if let Err(e) = self.interrupt_source_group.disable() {
error!("Failed disabling irq_fd: {:?}", e);
}
}
}
}
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