137fdb2f5SManos Pitsidianakis // Copyright 2024, Linaro Limited 237fdb2f5SManos Pitsidianakis // Author(s): Manos Pitsidianakis <manos.pitsidianakis@linaro.org> 337fdb2f5SManos Pitsidianakis // SPDX-License-Identifier: GPL-2.0-or-later 437fdb2f5SManos Pitsidianakis 57a35e2fbSPaolo Bonzini use core::ptr::{addr_of_mut, NonNull}; 69f7d4520SPaolo Bonzini use std::{ 79f7d4520SPaolo Bonzini ffi::CStr, 89f7d4520SPaolo Bonzini os::raw::{c_int, c_uchar, c_uint, c_void}, 937fdb2f5SManos Pitsidianakis }; 1037fdb2f5SManos Pitsidianakis 1137fdb2f5SManos Pitsidianakis use qemu_api::{ 1237fdb2f5SManos Pitsidianakis bindings::{self, *}, 13718e255fSPaolo Bonzini c_str, 144ed4da16SPaolo Bonzini irq::InterruptSource, 157bd8e3efSPaolo Bonzini prelude::*, 164aed0296SPaolo Bonzini qdev::DeviceImpl, 174aed0296SPaolo Bonzini qom::ObjectImpl, 1837fdb2f5SManos Pitsidianakis }; 1937fdb2f5SManos Pitsidianakis 2037fdb2f5SManos Pitsidianakis use crate::{ 218c80c472SPaolo Bonzini device_class, 2237fdb2f5SManos Pitsidianakis memory_ops::PL011_OPS, 2337fdb2f5SManos Pitsidianakis registers::{self, Interrupt}, 2437fdb2f5SManos Pitsidianakis RegisterOffset, 2537fdb2f5SManos Pitsidianakis }; 2637fdb2f5SManos Pitsidianakis 2793243319SManos Pitsidianakis /// Integer Baud Rate Divider, `UARTIBRD` 28230b710bSManos Pitsidianakis const IBRD_MASK: u32 = 0xffff; 2993243319SManos Pitsidianakis 3093243319SManos Pitsidianakis /// Fractional Baud Rate Divider, `UARTFBRD` 31230b710bSManos Pitsidianakis const FBRD_MASK: u32 = 0x3f; 3293243319SManos Pitsidianakis 3337fdb2f5SManos Pitsidianakis const DATA_BREAK: u32 = 1 << 10; 3437fdb2f5SManos Pitsidianakis 3537fdb2f5SManos Pitsidianakis /// QEMU sourced constant. 3637fdb2f5SManos Pitsidianakis pub const PL011_FIFO_DEPTH: usize = 16_usize; 3737fdb2f5SManos Pitsidianakis 382e06e72dSManos Pitsidianakis #[derive(Clone, Copy, Debug)] 392e06e72dSManos Pitsidianakis enum DeviceId { 402e06e72dSManos Pitsidianakis #[allow(dead_code)] 412e06e72dSManos Pitsidianakis Arm = 0, 422e06e72dSManos Pitsidianakis Luminary, 432e06e72dSManos Pitsidianakis } 442e06e72dSManos Pitsidianakis 452e06e72dSManos Pitsidianakis impl std::ops::Index<hwaddr> for DeviceId { 462e06e72dSManos Pitsidianakis type Output = c_uchar; 472e06e72dSManos Pitsidianakis 482e06e72dSManos Pitsidianakis fn index(&self, idx: hwaddr) -> &Self::Output { 492e06e72dSManos Pitsidianakis match self { 502e06e72dSManos Pitsidianakis Self::Arm => &Self::PL011_ID_ARM[idx as usize], 512e06e72dSManos Pitsidianakis Self::Luminary => &Self::PL011_ID_LUMINARY[idx as usize], 522e06e72dSManos Pitsidianakis } 532e06e72dSManos Pitsidianakis } 542e06e72dSManos Pitsidianakis } 552e06e72dSManos Pitsidianakis 562e06e72dSManos Pitsidianakis impl DeviceId { 572e06e72dSManos Pitsidianakis const PL011_ID_ARM: [c_uchar; 8] = [0x11, 0x10, 0x14, 0x00, 0x0d, 0xf0, 0x05, 0xb1]; 582e06e72dSManos Pitsidianakis const PL011_ID_LUMINARY: [c_uchar; 8] = [0x11, 0x00, 0x18, 0x01, 0x0d, 0xf0, 0x05, 0xb1]; 592e06e72dSManos Pitsidianakis } 602e06e72dSManos Pitsidianakis 6137fdb2f5SManos Pitsidianakis #[repr(C)] 62f3518400SJunjie Mao #[derive(Debug, qemu_api_macros::Object, qemu_api_macros::offsets)] 6337fdb2f5SManos Pitsidianakis /// PL011 Device Model in QEMU 6437fdb2f5SManos Pitsidianakis pub struct PL011State { 6537fdb2f5SManos Pitsidianakis pub parent_obj: SysBusDevice, 6637fdb2f5SManos Pitsidianakis pub iomem: MemoryRegion, 6737fdb2f5SManos Pitsidianakis #[doc(alias = "fr")] 6837fdb2f5SManos Pitsidianakis pub flags: registers::Flags, 6937fdb2f5SManos Pitsidianakis #[doc(alias = "lcr")] 7037fdb2f5SManos Pitsidianakis pub line_control: registers::LineControl, 7137fdb2f5SManos Pitsidianakis #[doc(alias = "rsr")] 7237fdb2f5SManos Pitsidianakis pub receive_status_error_clear: registers::ReceiveStatusErrorClear, 7337fdb2f5SManos Pitsidianakis #[doc(alias = "cr")] 7437fdb2f5SManos Pitsidianakis pub control: registers::Control, 7537fdb2f5SManos Pitsidianakis pub dmacr: u32, 7637fdb2f5SManos Pitsidianakis pub int_enabled: u32, 7737fdb2f5SManos Pitsidianakis pub int_level: u32, 7837fdb2f5SManos Pitsidianakis pub read_fifo: [u32; PL011_FIFO_DEPTH], 7937fdb2f5SManos Pitsidianakis pub ilpr: u32, 8037fdb2f5SManos Pitsidianakis pub ibrd: u32, 8137fdb2f5SManos Pitsidianakis pub fbrd: u32, 8237fdb2f5SManos Pitsidianakis pub ifl: u32, 8337fdb2f5SManos Pitsidianakis pub read_pos: usize, 8437fdb2f5SManos Pitsidianakis pub read_count: usize, 8537fdb2f5SManos Pitsidianakis pub read_trigger: usize, 8637fdb2f5SManos Pitsidianakis #[doc(alias = "chr")] 8737fdb2f5SManos Pitsidianakis pub char_backend: CharBackend, 8837fdb2f5SManos Pitsidianakis /// QEMU interrupts 8937fdb2f5SManos Pitsidianakis /// 9037fdb2f5SManos Pitsidianakis /// ```text 9137fdb2f5SManos Pitsidianakis /// * sysbus MMIO region 0: device registers 9237fdb2f5SManos Pitsidianakis /// * sysbus IRQ 0: `UARTINTR` (combined interrupt line) 9337fdb2f5SManos Pitsidianakis /// * sysbus IRQ 1: `UARTRXINTR` (receive FIFO interrupt line) 9437fdb2f5SManos Pitsidianakis /// * sysbus IRQ 2: `UARTTXINTR` (transmit FIFO interrupt line) 9537fdb2f5SManos Pitsidianakis /// * sysbus IRQ 3: `UARTRTINTR` (receive timeout interrupt line) 9637fdb2f5SManos Pitsidianakis /// * sysbus IRQ 4: `UARTMSINTR` (momem status interrupt line) 9737fdb2f5SManos Pitsidianakis /// * sysbus IRQ 5: `UARTEINTR` (error interrupt line) 9837fdb2f5SManos Pitsidianakis /// ``` 9937fdb2f5SManos Pitsidianakis #[doc(alias = "irq")] 1004ed4da16SPaolo Bonzini pub interrupts: [InterruptSource; IRQMASK.len()], 10137fdb2f5SManos Pitsidianakis #[doc(alias = "clk")] 10237fdb2f5SManos Pitsidianakis pub clock: NonNull<Clock>, 10337fdb2f5SManos Pitsidianakis #[doc(alias = "migrate_clk")] 10437fdb2f5SManos Pitsidianakis pub migrate_clock: bool, 1052e06e72dSManos Pitsidianakis /// The byte string that identifies the device. 1062e06e72dSManos Pitsidianakis device_id: DeviceId, 10737fdb2f5SManos Pitsidianakis } 10837fdb2f5SManos Pitsidianakis 109f50cd85cSPaolo Bonzini qom_isa!(PL011State : SysBusDevice, DeviceState, Object); 110f50cd85cSPaolo Bonzini 1117bd8e3efSPaolo Bonzini unsafe impl ObjectType for PL011State { 1126dd818fbSPaolo Bonzini type Class = <SysBusDevice as ObjectType>::Class; 11337fdb2f5SManos Pitsidianakis const TYPE_NAME: &'static CStr = crate::TYPE_PL011; 1147bd8e3efSPaolo Bonzini } 1157bd8e3efSPaolo Bonzini 1167bd8e3efSPaolo Bonzini impl ObjectImpl for PL011State { 117166e8a1fSPaolo Bonzini type ParentType = SysBusDevice; 118166e8a1fSPaolo Bonzini 1191f9d52c9SPaolo Bonzini const INSTANCE_INIT: Option<unsafe fn(&mut Self)> = Some(Self::init); 12037fdb2f5SManos Pitsidianakis } 12137fdb2f5SManos Pitsidianakis 1228c80c472SPaolo Bonzini impl DeviceImpl for PL011State { 1238c80c472SPaolo Bonzini fn properties() -> &'static [Property] { 1248c80c472SPaolo Bonzini &device_class::PL011_PROPERTIES 12537fdb2f5SManos Pitsidianakis } 1268c80c472SPaolo Bonzini fn vmsd() -> Option<&'static VMStateDescription> { 1278c80c472SPaolo Bonzini Some(&device_class::VMSTATE_PL011) 1288c80c472SPaolo Bonzini } 129f75fb90fSPaolo Bonzini const REALIZE: Option<fn(&mut Self)> = Some(Self::realize); 130f75fb90fSPaolo Bonzini const RESET: Option<fn(&mut Self)> = Some(Self::reset); 1318c80c472SPaolo Bonzini } 1328c80c472SPaolo Bonzini 13337fdb2f5SManos Pitsidianakis impl PL011State { 13437fdb2f5SManos Pitsidianakis /// Initializes a pre-allocated, unitialized instance of `PL011State`. 13537fdb2f5SManos Pitsidianakis /// 13637fdb2f5SManos Pitsidianakis /// # Safety 13737fdb2f5SManos Pitsidianakis /// 13837fdb2f5SManos Pitsidianakis /// `self` must point to a correctly sized and aligned location for the 13937fdb2f5SManos Pitsidianakis /// `PL011State` type. It must not be called more than once on the same 14037fdb2f5SManos Pitsidianakis /// location/instance. All its fields are expected to hold unitialized 14137fdb2f5SManos Pitsidianakis /// values with the sole exception of `parent_obj`. 1422e57bb6bSManos Pitsidianakis unsafe fn init(&mut self) { 143718e255fSPaolo Bonzini const CLK_NAME: &CStr = c_str!("clk"); 1442e57bb6bSManos Pitsidianakis 14537fdb2f5SManos Pitsidianakis // SAFETY: 14637fdb2f5SManos Pitsidianakis // 14737fdb2f5SManos Pitsidianakis // self and self.iomem are guaranteed to be valid at this point since callers 14837fdb2f5SManos Pitsidianakis // must make sure the `self` reference is valid. 14937fdb2f5SManos Pitsidianakis unsafe { 15037fdb2f5SManos Pitsidianakis memory_region_init_io( 15137fdb2f5SManos Pitsidianakis addr_of_mut!(self.iomem), 15237fdb2f5SManos Pitsidianakis addr_of_mut!(*self).cast::<Object>(), 15337fdb2f5SManos Pitsidianakis &PL011_OPS, 15437fdb2f5SManos Pitsidianakis addr_of_mut!(*self).cast::<c_void>(), 1553701fb22SPaolo Bonzini Self::TYPE_NAME.as_ptr(), 15637fdb2f5SManos Pitsidianakis 0x1000, 15737fdb2f5SManos Pitsidianakis ); 158f50cd85cSPaolo Bonzini 159f50cd85cSPaolo Bonzini let sbd: &mut SysBusDevice = self.upcast_mut(); 16037fdb2f5SManos Pitsidianakis sysbus_init_mmio(sbd, addr_of_mut!(self.iomem)); 16137fdb2f5SManos Pitsidianakis } 1624ed4da16SPaolo Bonzini 1634ed4da16SPaolo Bonzini for irq in self.interrupts.iter() { 164f50cd85cSPaolo Bonzini let sbd: &SysBusDevice = self.upcast(); 1654ed4da16SPaolo Bonzini sbd.init_irq(irq); 16637fdb2f5SManos Pitsidianakis } 1674ed4da16SPaolo Bonzini 16837fdb2f5SManos Pitsidianakis // SAFETY: 16937fdb2f5SManos Pitsidianakis // 17037fdb2f5SManos Pitsidianakis // self.clock is not initialized at this point; but since `NonNull<_>` is Copy, 17137fdb2f5SManos Pitsidianakis // we can overwrite the undefined value without side effects. This is 17237fdb2f5SManos Pitsidianakis // safe since all PL011State instances are created by QOM code which 17337fdb2f5SManos Pitsidianakis // calls this function to initialize the fields; therefore no code is 17437fdb2f5SManos Pitsidianakis // able to access an invalid self.clock value. 17537fdb2f5SManos Pitsidianakis unsafe { 176f50cd85cSPaolo Bonzini let dev: &mut DeviceState = self.upcast_mut(); 17737fdb2f5SManos Pitsidianakis self.clock = NonNull::new(qdev_init_clock_in( 17837fdb2f5SManos Pitsidianakis dev, 17937fdb2f5SManos Pitsidianakis CLK_NAME.as_ptr(), 18037fdb2f5SManos Pitsidianakis None, /* pl011_clock_update */ 18137fdb2f5SManos Pitsidianakis addr_of_mut!(*self).cast::<c_void>(), 18237fdb2f5SManos Pitsidianakis ClockEvent::ClockUpdate.0, 18337fdb2f5SManos Pitsidianakis )) 18437fdb2f5SManos Pitsidianakis .unwrap(); 18537fdb2f5SManos Pitsidianakis } 18637fdb2f5SManos Pitsidianakis } 18737fdb2f5SManos Pitsidianakis 1889f7d4520SPaolo Bonzini pub fn read(&mut self, offset: hwaddr, _size: c_uint) -> std::ops::ControlFlow<u64, u64> { 18937fdb2f5SManos Pitsidianakis use RegisterOffset::*; 19037fdb2f5SManos Pitsidianakis 19137fdb2f5SManos Pitsidianakis std::ops::ControlFlow::Break(match RegisterOffset::try_from(offset) { 192f7ceab1eSJunjie Mao Err(v) if (0x3f8..0x400).contains(&(v >> 2)) => { 1932e06e72dSManos Pitsidianakis u64::from(self.device_id[(offset - 0xfe0) >> 2]) 19437fdb2f5SManos Pitsidianakis } 19537fdb2f5SManos Pitsidianakis Err(_) => { 19637fdb2f5SManos Pitsidianakis // qemu_log_mask(LOG_GUEST_ERROR, "pl011_read: Bad offset 0x%x\n", (int)offset); 19737fdb2f5SManos Pitsidianakis 0 19837fdb2f5SManos Pitsidianakis } 19937fdb2f5SManos Pitsidianakis Ok(DR) => { 20037fdb2f5SManos Pitsidianakis self.flags.set_receive_fifo_full(false); 20137fdb2f5SManos Pitsidianakis let c = self.read_fifo[self.read_pos]; 20237fdb2f5SManos Pitsidianakis if self.read_count > 0 { 20337fdb2f5SManos Pitsidianakis self.read_count -= 1; 20437fdb2f5SManos Pitsidianakis self.read_pos = (self.read_pos + 1) & (self.fifo_depth() - 1); 20537fdb2f5SManos Pitsidianakis } 20637fdb2f5SManos Pitsidianakis if self.read_count == 0 { 20737fdb2f5SManos Pitsidianakis self.flags.set_receive_fifo_empty(true); 20837fdb2f5SManos Pitsidianakis } 20937fdb2f5SManos Pitsidianakis if self.read_count + 1 == self.read_trigger { 21037fdb2f5SManos Pitsidianakis self.int_level &= !registers::INT_RX; 21137fdb2f5SManos Pitsidianakis } 21237fdb2f5SManos Pitsidianakis // Update error bits. 21337fdb2f5SManos Pitsidianakis self.receive_status_error_clear = c.to_be_bytes()[3].into(); 21437fdb2f5SManos Pitsidianakis self.update(); 21537fdb2f5SManos Pitsidianakis // Must call qemu_chr_fe_accept_input, so return Continue: 21637fdb2f5SManos Pitsidianakis return std::ops::ControlFlow::Continue(c.into()); 21737fdb2f5SManos Pitsidianakis } 21837fdb2f5SManos Pitsidianakis Ok(RSR) => u8::from(self.receive_status_error_clear).into(), 21937fdb2f5SManos Pitsidianakis Ok(FR) => u16::from(self.flags).into(), 22037fdb2f5SManos Pitsidianakis Ok(FBRD) => self.fbrd.into(), 22137fdb2f5SManos Pitsidianakis Ok(ILPR) => self.ilpr.into(), 22237fdb2f5SManos Pitsidianakis Ok(IBRD) => self.ibrd.into(), 22337fdb2f5SManos Pitsidianakis Ok(LCR_H) => u16::from(self.line_control).into(), 22437fdb2f5SManos Pitsidianakis Ok(CR) => { 22537fdb2f5SManos Pitsidianakis // We exercise our self-control. 22637fdb2f5SManos Pitsidianakis u16::from(self.control).into() 22737fdb2f5SManos Pitsidianakis } 22837fdb2f5SManos Pitsidianakis Ok(FLS) => self.ifl.into(), 22937fdb2f5SManos Pitsidianakis Ok(IMSC) => self.int_enabled.into(), 23037fdb2f5SManos Pitsidianakis Ok(RIS) => self.int_level.into(), 23137fdb2f5SManos Pitsidianakis Ok(MIS) => u64::from(self.int_level & self.int_enabled), 23237fdb2f5SManos Pitsidianakis Ok(ICR) => { 23337fdb2f5SManos Pitsidianakis // "The UARTICR Register is the interrupt clear register and is write-only" 23437fdb2f5SManos Pitsidianakis // Source: ARM DDI 0183G 3.3.13 Interrupt Clear Register, UARTICR 23537fdb2f5SManos Pitsidianakis 0 23637fdb2f5SManos Pitsidianakis } 23737fdb2f5SManos Pitsidianakis Ok(DMACR) => self.dmacr.into(), 23837fdb2f5SManos Pitsidianakis }) 23937fdb2f5SManos Pitsidianakis } 24037fdb2f5SManos Pitsidianakis 24137fdb2f5SManos Pitsidianakis pub fn write(&mut self, offset: hwaddr, value: u64) { 24237fdb2f5SManos Pitsidianakis // eprintln!("write offset {offset} value {value}"); 24337fdb2f5SManos Pitsidianakis use RegisterOffset::*; 24437fdb2f5SManos Pitsidianakis let value: u32 = value as u32; 24537fdb2f5SManos Pitsidianakis match RegisterOffset::try_from(offset) { 24637fdb2f5SManos Pitsidianakis Err(_bad_offset) => { 24737fdb2f5SManos Pitsidianakis eprintln!("write bad offset {offset} value {value}"); 24837fdb2f5SManos Pitsidianakis } 24937fdb2f5SManos Pitsidianakis Ok(DR) => { 25037fdb2f5SManos Pitsidianakis // ??? Check if transmitter is enabled. 25137fdb2f5SManos Pitsidianakis let ch: u8 = value as u8; 25237fdb2f5SManos Pitsidianakis // XXX this blocks entire thread. Rewrite to use 25337fdb2f5SManos Pitsidianakis // qemu_chr_fe_write and background I/O callbacks 25437fdb2f5SManos Pitsidianakis 25537fdb2f5SManos Pitsidianakis // SAFETY: self.char_backend is a valid CharBackend instance after it's been 25637fdb2f5SManos Pitsidianakis // initialized in realize(). 25737fdb2f5SManos Pitsidianakis unsafe { 25837fdb2f5SManos Pitsidianakis qemu_chr_fe_write_all(addr_of_mut!(self.char_backend), &ch, 1); 25937fdb2f5SManos Pitsidianakis } 26037fdb2f5SManos Pitsidianakis self.loopback_tx(value); 26137fdb2f5SManos Pitsidianakis self.int_level |= registers::INT_TX; 26237fdb2f5SManos Pitsidianakis self.update(); 26337fdb2f5SManos Pitsidianakis } 26437fdb2f5SManos Pitsidianakis Ok(RSR) => { 265*f65314bdSPaolo Bonzini self.receive_status_error_clear.reset(); 26637fdb2f5SManos Pitsidianakis } 26737fdb2f5SManos Pitsidianakis Ok(FR) => { 26837fdb2f5SManos Pitsidianakis // flag writes are ignored 26937fdb2f5SManos Pitsidianakis } 27037fdb2f5SManos Pitsidianakis Ok(ILPR) => { 27137fdb2f5SManos Pitsidianakis self.ilpr = value; 27237fdb2f5SManos Pitsidianakis } 27337fdb2f5SManos Pitsidianakis Ok(IBRD) => { 27437fdb2f5SManos Pitsidianakis self.ibrd = value; 27537fdb2f5SManos Pitsidianakis } 27637fdb2f5SManos Pitsidianakis Ok(FBRD) => { 27737fdb2f5SManos Pitsidianakis self.fbrd = value; 27837fdb2f5SManos Pitsidianakis } 27937fdb2f5SManos Pitsidianakis Ok(LCR_H) => { 28037fdb2f5SManos Pitsidianakis let value = value as u16; 28137fdb2f5SManos Pitsidianakis let new_val: registers::LineControl = value.into(); 28237fdb2f5SManos Pitsidianakis // Reset the FIFO state on FIFO enable or disable 28337fdb2f5SManos Pitsidianakis if bool::from(self.line_control.fifos_enabled()) 28437fdb2f5SManos Pitsidianakis ^ bool::from(new_val.fifos_enabled()) 28537fdb2f5SManos Pitsidianakis { 286*f65314bdSPaolo Bonzini self.reset_rx_fifo(); 287*f65314bdSPaolo Bonzini self.reset_tx_fifo(); 28837fdb2f5SManos Pitsidianakis } 28937fdb2f5SManos Pitsidianakis if self.line_control.send_break() ^ new_val.send_break() { 29037fdb2f5SManos Pitsidianakis let mut break_enable: c_int = new_val.send_break().into(); 29137fdb2f5SManos Pitsidianakis // SAFETY: self.char_backend is a valid CharBackend instance after it's been 29237fdb2f5SManos Pitsidianakis // initialized in realize(). 29337fdb2f5SManos Pitsidianakis unsafe { 29437fdb2f5SManos Pitsidianakis qemu_chr_fe_ioctl( 29537fdb2f5SManos Pitsidianakis addr_of_mut!(self.char_backend), 29637fdb2f5SManos Pitsidianakis CHR_IOCTL_SERIAL_SET_BREAK as i32, 29737fdb2f5SManos Pitsidianakis addr_of_mut!(break_enable).cast::<c_void>(), 29837fdb2f5SManos Pitsidianakis ); 29937fdb2f5SManos Pitsidianakis } 30037fdb2f5SManos Pitsidianakis self.loopback_break(break_enable > 0); 30137fdb2f5SManos Pitsidianakis } 30237fdb2f5SManos Pitsidianakis self.line_control = new_val; 30337fdb2f5SManos Pitsidianakis self.set_read_trigger(); 30437fdb2f5SManos Pitsidianakis } 30537fdb2f5SManos Pitsidianakis Ok(CR) => { 30637fdb2f5SManos Pitsidianakis // ??? Need to implement the enable bit. 30737fdb2f5SManos Pitsidianakis let value = value as u16; 30837fdb2f5SManos Pitsidianakis self.control = value.into(); 30937fdb2f5SManos Pitsidianakis self.loopback_mdmctrl(); 31037fdb2f5SManos Pitsidianakis } 31137fdb2f5SManos Pitsidianakis Ok(FLS) => { 31237fdb2f5SManos Pitsidianakis self.ifl = value; 31337fdb2f5SManos Pitsidianakis self.set_read_trigger(); 31437fdb2f5SManos Pitsidianakis } 31537fdb2f5SManos Pitsidianakis Ok(IMSC) => { 31637fdb2f5SManos Pitsidianakis self.int_enabled = value; 31737fdb2f5SManos Pitsidianakis self.update(); 31837fdb2f5SManos Pitsidianakis } 31937fdb2f5SManos Pitsidianakis Ok(RIS) => {} 32037fdb2f5SManos Pitsidianakis Ok(MIS) => {} 32137fdb2f5SManos Pitsidianakis Ok(ICR) => { 32237fdb2f5SManos Pitsidianakis self.int_level &= !value; 32337fdb2f5SManos Pitsidianakis self.update(); 32437fdb2f5SManos Pitsidianakis } 32537fdb2f5SManos Pitsidianakis Ok(DMACR) => { 32637fdb2f5SManos Pitsidianakis self.dmacr = value; 32737fdb2f5SManos Pitsidianakis if value & 3 > 0 { 32837fdb2f5SManos Pitsidianakis // qemu_log_mask(LOG_UNIMP, "pl011: DMA not implemented\n"); 32937fdb2f5SManos Pitsidianakis eprintln!("pl011: DMA not implemented"); 33037fdb2f5SManos Pitsidianakis } 33137fdb2f5SManos Pitsidianakis } 33237fdb2f5SManos Pitsidianakis } 33337fdb2f5SManos Pitsidianakis } 33437fdb2f5SManos Pitsidianakis 33537fdb2f5SManos Pitsidianakis #[inline] 33637fdb2f5SManos Pitsidianakis fn loopback_tx(&mut self, value: u32) { 33737fdb2f5SManos Pitsidianakis if !self.loopback_enabled() { 33837fdb2f5SManos Pitsidianakis return; 33937fdb2f5SManos Pitsidianakis } 34037fdb2f5SManos Pitsidianakis 34137fdb2f5SManos Pitsidianakis // Caveat: 34237fdb2f5SManos Pitsidianakis // 34337fdb2f5SManos Pitsidianakis // In real hardware, TX loopback happens at the serial-bit level 34437fdb2f5SManos Pitsidianakis // and then reassembled by the RX logics back into bytes and placed 34537fdb2f5SManos Pitsidianakis // into the RX fifo. That is, loopback happens after TX fifo. 34637fdb2f5SManos Pitsidianakis // 34737fdb2f5SManos Pitsidianakis // Because the real hardware TX fifo is time-drained at the frame 34837fdb2f5SManos Pitsidianakis // rate governed by the configured serial format, some loopback 34937fdb2f5SManos Pitsidianakis // bytes in TX fifo may still be able to get into the RX fifo 35037fdb2f5SManos Pitsidianakis // that could be full at times while being drained at software 35137fdb2f5SManos Pitsidianakis // pace. 35237fdb2f5SManos Pitsidianakis // 35337fdb2f5SManos Pitsidianakis // In such scenario, the RX draining pace is the major factor 35437fdb2f5SManos Pitsidianakis // deciding which loopback bytes get into the RX fifo, unless 35537fdb2f5SManos Pitsidianakis // hardware flow-control is enabled. 35637fdb2f5SManos Pitsidianakis // 35737fdb2f5SManos Pitsidianakis // For simplicity, the above described is not emulated. 35837fdb2f5SManos Pitsidianakis self.put_fifo(value); 35937fdb2f5SManos Pitsidianakis } 36037fdb2f5SManos Pitsidianakis 36137fdb2f5SManos Pitsidianakis fn loopback_mdmctrl(&mut self) { 36237fdb2f5SManos Pitsidianakis if !self.loopback_enabled() { 36337fdb2f5SManos Pitsidianakis return; 36437fdb2f5SManos Pitsidianakis } 36537fdb2f5SManos Pitsidianakis 36637fdb2f5SManos Pitsidianakis /* 36737fdb2f5SManos Pitsidianakis * Loopback software-driven modem control outputs to modem status inputs: 36837fdb2f5SManos Pitsidianakis * FR.RI <= CR.Out2 36937fdb2f5SManos Pitsidianakis * FR.DCD <= CR.Out1 37037fdb2f5SManos Pitsidianakis * FR.CTS <= CR.RTS 37137fdb2f5SManos Pitsidianakis * FR.DSR <= CR.DTR 37237fdb2f5SManos Pitsidianakis * 37337fdb2f5SManos Pitsidianakis * The loopback happens immediately even if this call is triggered 37437fdb2f5SManos Pitsidianakis * by setting only CR.LBE. 37537fdb2f5SManos Pitsidianakis * 37637fdb2f5SManos Pitsidianakis * CTS/RTS updates due to enabled hardware flow controls are not 37737fdb2f5SManos Pitsidianakis * dealt with here. 37837fdb2f5SManos Pitsidianakis */ 37937fdb2f5SManos Pitsidianakis 38037fdb2f5SManos Pitsidianakis self.flags.set_ring_indicator(self.control.out_2()); 38137fdb2f5SManos Pitsidianakis self.flags.set_data_carrier_detect(self.control.out_1()); 38237fdb2f5SManos Pitsidianakis self.flags.set_clear_to_send(self.control.request_to_send()); 38337fdb2f5SManos Pitsidianakis self.flags 38437fdb2f5SManos Pitsidianakis .set_data_set_ready(self.control.data_transmit_ready()); 38537fdb2f5SManos Pitsidianakis 38637fdb2f5SManos Pitsidianakis // Change interrupts based on updated FR 38737fdb2f5SManos Pitsidianakis let mut il = self.int_level; 38837fdb2f5SManos Pitsidianakis 38937fdb2f5SManos Pitsidianakis il &= !Interrupt::MS; 39037fdb2f5SManos Pitsidianakis 39137fdb2f5SManos Pitsidianakis if self.flags.data_set_ready() { 39237fdb2f5SManos Pitsidianakis il |= Interrupt::DSR as u32; 39337fdb2f5SManos Pitsidianakis } 39437fdb2f5SManos Pitsidianakis if self.flags.data_carrier_detect() { 39537fdb2f5SManos Pitsidianakis il |= Interrupt::DCD as u32; 39637fdb2f5SManos Pitsidianakis } 39737fdb2f5SManos Pitsidianakis if self.flags.clear_to_send() { 39837fdb2f5SManos Pitsidianakis il |= Interrupt::CTS as u32; 39937fdb2f5SManos Pitsidianakis } 40037fdb2f5SManos Pitsidianakis if self.flags.ring_indicator() { 40137fdb2f5SManos Pitsidianakis il |= Interrupt::RI as u32; 40237fdb2f5SManos Pitsidianakis } 40337fdb2f5SManos Pitsidianakis self.int_level = il; 40437fdb2f5SManos Pitsidianakis self.update(); 40537fdb2f5SManos Pitsidianakis } 40637fdb2f5SManos Pitsidianakis 40737fdb2f5SManos Pitsidianakis fn loopback_break(&mut self, enable: bool) { 40837fdb2f5SManos Pitsidianakis if enable { 40937fdb2f5SManos Pitsidianakis self.loopback_tx(DATA_BREAK); 41037fdb2f5SManos Pitsidianakis } 41137fdb2f5SManos Pitsidianakis } 41237fdb2f5SManos Pitsidianakis 41337fdb2f5SManos Pitsidianakis fn set_read_trigger(&mut self) { 41437fdb2f5SManos Pitsidianakis self.read_trigger = 1; 41537fdb2f5SManos Pitsidianakis } 41637fdb2f5SManos Pitsidianakis 41737fdb2f5SManos Pitsidianakis pub fn realize(&mut self) { 41837fdb2f5SManos Pitsidianakis // SAFETY: self.char_backend has the correct size and alignment for a 41937fdb2f5SManos Pitsidianakis // CharBackend object, and its callbacks are of the correct types. 42037fdb2f5SManos Pitsidianakis unsafe { 42137fdb2f5SManos Pitsidianakis qemu_chr_fe_set_handlers( 42237fdb2f5SManos Pitsidianakis addr_of_mut!(self.char_backend), 42337fdb2f5SManos Pitsidianakis Some(pl011_can_receive), 42437fdb2f5SManos Pitsidianakis Some(pl011_receive), 42537fdb2f5SManos Pitsidianakis Some(pl011_event), 42637fdb2f5SManos Pitsidianakis None, 42737fdb2f5SManos Pitsidianakis addr_of_mut!(*self).cast::<c_void>(), 42837fdb2f5SManos Pitsidianakis core::ptr::null_mut(), 42937fdb2f5SManos Pitsidianakis true, 43037fdb2f5SManos Pitsidianakis ); 43137fdb2f5SManos Pitsidianakis } 43237fdb2f5SManos Pitsidianakis } 43337fdb2f5SManos Pitsidianakis 43437fdb2f5SManos Pitsidianakis pub fn reset(&mut self) { 43537fdb2f5SManos Pitsidianakis self.line_control.reset(); 43637fdb2f5SManos Pitsidianakis self.receive_status_error_clear.reset(); 43737fdb2f5SManos Pitsidianakis self.dmacr = 0; 43837fdb2f5SManos Pitsidianakis self.int_enabled = 0; 43937fdb2f5SManos Pitsidianakis self.int_level = 0; 44037fdb2f5SManos Pitsidianakis self.ilpr = 0; 44137fdb2f5SManos Pitsidianakis self.ibrd = 0; 44237fdb2f5SManos Pitsidianakis self.fbrd = 0; 44337fdb2f5SManos Pitsidianakis self.read_trigger = 1; 44437fdb2f5SManos Pitsidianakis self.ifl = 0x12; 44537fdb2f5SManos Pitsidianakis self.control.reset(); 446*f65314bdSPaolo Bonzini self.flags.reset(); 447*f65314bdSPaolo Bonzini self.reset_rx_fifo(); 448*f65314bdSPaolo Bonzini self.reset_tx_fifo(); 44937fdb2f5SManos Pitsidianakis } 45037fdb2f5SManos Pitsidianakis 451*f65314bdSPaolo Bonzini pub fn reset_rx_fifo(&mut self) { 45237fdb2f5SManos Pitsidianakis self.read_count = 0; 45337fdb2f5SManos Pitsidianakis self.read_pos = 0; 45437fdb2f5SManos Pitsidianakis 455*f65314bdSPaolo Bonzini // Reset FIFO flags 456*f65314bdSPaolo Bonzini self.flags.set_receive_fifo_full(false); 457*f65314bdSPaolo Bonzini self.flags.set_receive_fifo_empty(true); 458*f65314bdSPaolo Bonzini } 459*f65314bdSPaolo Bonzini 460*f65314bdSPaolo Bonzini pub fn reset_tx_fifo(&mut self) { 461*f65314bdSPaolo Bonzini // Reset FIFO flags 462*f65314bdSPaolo Bonzini self.flags.set_transmit_fifo_full(false); 463*f65314bdSPaolo Bonzini self.flags.set_transmit_fifo_empty(true); 46437fdb2f5SManos Pitsidianakis } 46537fdb2f5SManos Pitsidianakis 46637fdb2f5SManos Pitsidianakis pub fn can_receive(&self) -> bool { 46737fdb2f5SManos Pitsidianakis // trace_pl011_can_receive(s->lcr, s->read_count, r); 46837fdb2f5SManos Pitsidianakis self.read_count < self.fifo_depth() 46937fdb2f5SManos Pitsidianakis } 47037fdb2f5SManos Pitsidianakis 47137fdb2f5SManos Pitsidianakis pub fn event(&mut self, event: QEMUChrEvent) { 472ac096b0bSPaolo Bonzini if event == bindings::QEMUChrEvent::CHR_EVENT_BREAK && !self.loopback_enabled() { 47337fdb2f5SManos Pitsidianakis self.put_fifo(DATA_BREAK); 47437fdb2f5SManos Pitsidianakis } 47537fdb2f5SManos Pitsidianakis } 47637fdb2f5SManos Pitsidianakis 47737fdb2f5SManos Pitsidianakis #[inline] 47837fdb2f5SManos Pitsidianakis pub fn fifo_enabled(&self) -> bool { 47937fdb2f5SManos Pitsidianakis matches!(self.line_control.fifos_enabled(), registers::Mode::FIFO) 48037fdb2f5SManos Pitsidianakis } 48137fdb2f5SManos Pitsidianakis 48237fdb2f5SManos Pitsidianakis #[inline] 48337fdb2f5SManos Pitsidianakis pub fn loopback_enabled(&self) -> bool { 48437fdb2f5SManos Pitsidianakis self.control.enable_loopback() 48537fdb2f5SManos Pitsidianakis } 48637fdb2f5SManos Pitsidianakis 48737fdb2f5SManos Pitsidianakis #[inline] 48837fdb2f5SManos Pitsidianakis pub fn fifo_depth(&self) -> usize { 48937fdb2f5SManos Pitsidianakis // Note: FIFO depth is expected to be power-of-2 49037fdb2f5SManos Pitsidianakis if self.fifo_enabled() { 49137fdb2f5SManos Pitsidianakis return PL011_FIFO_DEPTH; 49237fdb2f5SManos Pitsidianakis } 49337fdb2f5SManos Pitsidianakis 1 49437fdb2f5SManos Pitsidianakis } 49537fdb2f5SManos Pitsidianakis 49637fdb2f5SManos Pitsidianakis pub fn put_fifo(&mut self, value: c_uint) { 49737fdb2f5SManos Pitsidianakis let depth = self.fifo_depth(); 49837fdb2f5SManos Pitsidianakis assert!(depth > 0); 49937fdb2f5SManos Pitsidianakis let slot = (self.read_pos + self.read_count) & (depth - 1); 50037fdb2f5SManos Pitsidianakis self.read_fifo[slot] = value; 50137fdb2f5SManos Pitsidianakis self.read_count += 1; 50237fdb2f5SManos Pitsidianakis self.flags.set_receive_fifo_empty(false); 50337fdb2f5SManos Pitsidianakis if self.read_count == depth { 50437fdb2f5SManos Pitsidianakis self.flags.set_receive_fifo_full(true); 50537fdb2f5SManos Pitsidianakis } 50637fdb2f5SManos Pitsidianakis 50737fdb2f5SManos Pitsidianakis if self.read_count == self.read_trigger { 50837fdb2f5SManos Pitsidianakis self.int_level |= registers::INT_RX; 50937fdb2f5SManos Pitsidianakis self.update(); 51037fdb2f5SManos Pitsidianakis } 51137fdb2f5SManos Pitsidianakis } 51237fdb2f5SManos Pitsidianakis 51337fdb2f5SManos Pitsidianakis pub fn update(&self) { 51437fdb2f5SManos Pitsidianakis let flags = self.int_level & self.int_enabled; 51537fdb2f5SManos Pitsidianakis for (irq, i) in self.interrupts.iter().zip(IRQMASK) { 5164ed4da16SPaolo Bonzini irq.set(flags & i != 0); 51737fdb2f5SManos Pitsidianakis } 51837fdb2f5SManos Pitsidianakis } 51993243319SManos Pitsidianakis 52093243319SManos Pitsidianakis pub fn post_load(&mut self, _version_id: u32) -> Result<(), ()> { 52193243319SManos Pitsidianakis /* Sanity-check input state */ 52293243319SManos Pitsidianakis if self.read_pos >= self.read_fifo.len() || self.read_count > self.read_fifo.len() { 52393243319SManos Pitsidianakis return Err(()); 52493243319SManos Pitsidianakis } 52593243319SManos Pitsidianakis 52693243319SManos Pitsidianakis if !self.fifo_enabled() && self.read_count > 0 && self.read_pos > 0 { 52793243319SManos Pitsidianakis // Older versions of PL011 didn't ensure that the single 52893243319SManos Pitsidianakis // character in the FIFO in FIFO-disabled mode is in 52993243319SManos Pitsidianakis // element 0 of the array; convert to follow the current 53093243319SManos Pitsidianakis // code's assumptions. 53193243319SManos Pitsidianakis self.read_fifo[0] = self.read_fifo[self.read_pos]; 53293243319SManos Pitsidianakis self.read_pos = 0; 53393243319SManos Pitsidianakis } 53493243319SManos Pitsidianakis 53593243319SManos Pitsidianakis self.ibrd &= IBRD_MASK; 53693243319SManos Pitsidianakis self.fbrd &= FBRD_MASK; 53793243319SManos Pitsidianakis 53893243319SManos Pitsidianakis Ok(()) 53993243319SManos Pitsidianakis } 54037fdb2f5SManos Pitsidianakis } 54137fdb2f5SManos Pitsidianakis 54237fdb2f5SManos Pitsidianakis /// Which bits in the interrupt status matter for each outbound IRQ line ? 54337fdb2f5SManos Pitsidianakis pub const IRQMASK: [u32; 6] = [ 54437fdb2f5SManos Pitsidianakis /* combined IRQ */ 54537fdb2f5SManos Pitsidianakis Interrupt::E 54637fdb2f5SManos Pitsidianakis | Interrupt::MS 54737fdb2f5SManos Pitsidianakis | Interrupt::RT as u32 54837fdb2f5SManos Pitsidianakis | Interrupt::TX as u32 54937fdb2f5SManos Pitsidianakis | Interrupt::RX as u32, 55037fdb2f5SManos Pitsidianakis Interrupt::RX as u32, 55137fdb2f5SManos Pitsidianakis Interrupt::TX as u32, 55237fdb2f5SManos Pitsidianakis Interrupt::RT as u32, 55337fdb2f5SManos Pitsidianakis Interrupt::MS, 55437fdb2f5SManos Pitsidianakis Interrupt::E, 55537fdb2f5SManos Pitsidianakis ]; 55637fdb2f5SManos Pitsidianakis 55737fdb2f5SManos Pitsidianakis /// # Safety 55837fdb2f5SManos Pitsidianakis /// 55937fdb2f5SManos Pitsidianakis /// We expect the FFI user of this function to pass a valid pointer, that has 56037fdb2f5SManos Pitsidianakis /// the same size as [`PL011State`]. We also expect the device is 56137fdb2f5SManos Pitsidianakis /// readable/writeable from one thread at any time. 56237fdb2f5SManos Pitsidianakis pub unsafe extern "C" fn pl011_can_receive(opaque: *mut c_void) -> c_int { 56337fdb2f5SManos Pitsidianakis unsafe { 56437fdb2f5SManos Pitsidianakis debug_assert!(!opaque.is_null()); 56537fdb2f5SManos Pitsidianakis let state = NonNull::new_unchecked(opaque.cast::<PL011State>()); 56637fdb2f5SManos Pitsidianakis state.as_ref().can_receive().into() 56737fdb2f5SManos Pitsidianakis } 56837fdb2f5SManos Pitsidianakis } 56937fdb2f5SManos Pitsidianakis 57037fdb2f5SManos Pitsidianakis /// # Safety 57137fdb2f5SManos Pitsidianakis /// 57237fdb2f5SManos Pitsidianakis /// We expect the FFI user of this function to pass a valid pointer, that has 57337fdb2f5SManos Pitsidianakis /// the same size as [`PL011State`]. We also expect the device is 57437fdb2f5SManos Pitsidianakis /// readable/writeable from one thread at any time. 57537fdb2f5SManos Pitsidianakis /// 57637fdb2f5SManos Pitsidianakis /// The buffer and size arguments must also be valid. 5779f7d4520SPaolo Bonzini pub unsafe extern "C" fn pl011_receive(opaque: *mut c_void, buf: *const u8, size: c_int) { 57837fdb2f5SManos Pitsidianakis unsafe { 57937fdb2f5SManos Pitsidianakis debug_assert!(!opaque.is_null()); 58037fdb2f5SManos Pitsidianakis let mut state = NonNull::new_unchecked(opaque.cast::<PL011State>()); 58137fdb2f5SManos Pitsidianakis if state.as_ref().loopback_enabled() { 58237fdb2f5SManos Pitsidianakis return; 58337fdb2f5SManos Pitsidianakis } 58437fdb2f5SManos Pitsidianakis if size > 0 { 58537fdb2f5SManos Pitsidianakis debug_assert!(!buf.is_null()); 58637fdb2f5SManos Pitsidianakis state.as_mut().put_fifo(c_uint::from(buf.read_volatile())) 58737fdb2f5SManos Pitsidianakis } 58837fdb2f5SManos Pitsidianakis } 58937fdb2f5SManos Pitsidianakis } 59037fdb2f5SManos Pitsidianakis 59137fdb2f5SManos Pitsidianakis /// # Safety 59237fdb2f5SManos Pitsidianakis /// 59337fdb2f5SManos Pitsidianakis /// We expect the FFI user of this function to pass a valid pointer, that has 59437fdb2f5SManos Pitsidianakis /// the same size as [`PL011State`]. We also expect the device is 59537fdb2f5SManos Pitsidianakis /// readable/writeable from one thread at any time. 5969f7d4520SPaolo Bonzini pub unsafe extern "C" fn pl011_event(opaque: *mut c_void, event: QEMUChrEvent) { 59737fdb2f5SManos Pitsidianakis unsafe { 59837fdb2f5SManos Pitsidianakis debug_assert!(!opaque.is_null()); 59937fdb2f5SManos Pitsidianakis let mut state = NonNull::new_unchecked(opaque.cast::<PL011State>()); 60037fdb2f5SManos Pitsidianakis state.as_mut().event(event) 60137fdb2f5SManos Pitsidianakis } 60237fdb2f5SManos Pitsidianakis } 60337fdb2f5SManos Pitsidianakis 60437fdb2f5SManos Pitsidianakis /// # Safety 60537fdb2f5SManos Pitsidianakis /// 60637fdb2f5SManos Pitsidianakis /// We expect the FFI user of this function to pass a valid pointer for `chr`. 60737fdb2f5SManos Pitsidianakis #[no_mangle] 60837fdb2f5SManos Pitsidianakis pub unsafe extern "C" fn pl011_create( 60937fdb2f5SManos Pitsidianakis addr: u64, 61037fdb2f5SManos Pitsidianakis irq: qemu_irq, 61137fdb2f5SManos Pitsidianakis chr: *mut Chardev, 61237fdb2f5SManos Pitsidianakis ) -> *mut DeviceState { 61337fdb2f5SManos Pitsidianakis unsafe { 6143701fb22SPaolo Bonzini let dev: *mut DeviceState = qdev_new(PL011State::TYPE_NAME.as_ptr()); 61537fdb2f5SManos Pitsidianakis let sysbus: *mut SysBusDevice = dev.cast::<SysBusDevice>(); 61637fdb2f5SManos Pitsidianakis 617718e255fSPaolo Bonzini qdev_prop_set_chr(dev, c_str!("chardev").as_ptr(), chr); 6187a35e2fbSPaolo Bonzini sysbus_realize_and_unref(sysbus, addr_of_mut!(error_fatal)); 61937fdb2f5SManos Pitsidianakis sysbus_mmio_map(sysbus, 0, addr); 62037fdb2f5SManos Pitsidianakis sysbus_connect_irq(sysbus, 0, irq); 62137fdb2f5SManos Pitsidianakis dev 62237fdb2f5SManos Pitsidianakis } 62337fdb2f5SManos Pitsidianakis } 62437fdb2f5SManos Pitsidianakis 6252e06e72dSManos Pitsidianakis #[repr(C)] 6262e06e72dSManos Pitsidianakis #[derive(Debug, qemu_api_macros::Object)] 6272e06e72dSManos Pitsidianakis /// PL011 Luminary device model. 6282e06e72dSManos Pitsidianakis pub struct PL011Luminary { 6292e06e72dSManos Pitsidianakis parent_obj: PL011State, 6302e06e72dSManos Pitsidianakis } 6312e06e72dSManos Pitsidianakis 6321f9d52c9SPaolo Bonzini impl PL011Luminary { 6332e06e72dSManos Pitsidianakis /// Initializes a pre-allocated, unitialized instance of `PL011Luminary`. 6342e06e72dSManos Pitsidianakis /// 6352e06e72dSManos Pitsidianakis /// # Safety 6362e06e72dSManos Pitsidianakis /// 6371f9d52c9SPaolo Bonzini /// We expect the FFI user of this function to pass a valid pointer, that 6381f9d52c9SPaolo Bonzini /// has the same size as [`PL011Luminary`]. We also expect the device is 6392e06e72dSManos Pitsidianakis /// readable/writeable from one thread at any time. 6401f9d52c9SPaolo Bonzini unsafe fn init(&mut self) { 6411f9d52c9SPaolo Bonzini self.parent_obj.device_id = DeviceId::Luminary; 6422e06e72dSManos Pitsidianakis } 6432e06e72dSManos Pitsidianakis } 6442e06e72dSManos Pitsidianakis 645f50cd85cSPaolo Bonzini qom_isa!(PL011Luminary : PL011State, SysBusDevice, DeviceState, Object); 646f50cd85cSPaolo Bonzini 6477bd8e3efSPaolo Bonzini unsafe impl ObjectType for PL011Luminary { 6486dd818fbSPaolo Bonzini type Class = <PL011State as ObjectType>::Class; 6492e06e72dSManos Pitsidianakis const TYPE_NAME: &'static CStr = crate::TYPE_PL011_LUMINARY; 6507bd8e3efSPaolo Bonzini } 6517bd8e3efSPaolo Bonzini 6527bd8e3efSPaolo Bonzini impl ObjectImpl for PL011Luminary { 653166e8a1fSPaolo Bonzini type ParentType = PL011State; 654166e8a1fSPaolo Bonzini 6551f9d52c9SPaolo Bonzini const INSTANCE_INIT: Option<unsafe fn(&mut Self)> = Some(Self::init); 6562e06e72dSManos Pitsidianakis } 6578c80c472SPaolo Bonzini 6588c80c472SPaolo Bonzini impl DeviceImpl for PL011Luminary {} 659