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#![allow(non_snake_case)]
// Programmable Interrupt Controller
// http://stanislavs.org/helppc/8259.html
use std::sync::{Mutex, MutexGuard};
pub const PIC_LOG: bool = false;
pub const PIC_LOG_VERBOSE: bool = false;
// Note: This layout is deliberately chosen to match the old JavaScript pic state
// (cpu.get_state_pic depens on this layout)
const _: () = assert!(std::mem::offset_of!(Pic0, special_mask_mode) == 12);
#[repr(C)]
struct Pic0 {
irq_mask: u8,
irq_map: u8,
// in-service register
// Holds interrupts that are currently being serviced
isr: u8,
// interrupt request register
// Holds interrupts that have been requested
irr: u8,
master: bool,
dummy: u8, // remove when state image is updated
expect_icw4: bool,
state: u8,
read_isr: bool,
auto_eoi: bool,
elcr: u8,
irq_value: u8,
special_mask_mode: bool,
}
struct Pic {
master: Pic0,
slave: Pic0,
}
static PIC: Mutex<Pic> = Mutex::new(Pic {
master: Pic0 {
// all irqs off
irq_mask: 0,
// Bogus default value (both master and slave mapped to 0).
// Will be initialized by the BIOS
irq_map: 0,
// in-service register
// Holds interrupts that are currently being serviced
isr: 0,
// interrupt request register
// Holds interrupts that have been requested
irr: 0,
irq_value: 0,
expect_icw4: false,
state: 0,
read_isr: false,
auto_eoi: false,
special_mask_mode: false,
elcr: 0,
master: true,
dummy: 0,
},
slave: Pic0 {
// all irqs off
irq_mask: 0,
// Bogus default value (both master and slave mapped to 0).
// Will be initialized by the BIOS
irq_map: 0,
// in-service register
// Holds interrupts that are currently being serviced
isr: 0,
// interrupt request register
// Holds interrupts that have been requested
irr: 0,
irq_value: 0,
expect_icw4: false,
state: 0,
read_isr: false,
auto_eoi: false,
special_mask_mode: false,
elcr: 0,
master: false,
dummy: 0,
},
});
fn get_pic() -> MutexGuard<'static, Pic> { PIC.try_lock().unwrap() }
// called from javascript for saving/restoring state
#[no_mangle]
pub fn get_pic_addr_master() -> u32 { &raw mut get_pic().master as u32 }
#[no_mangle]
pub fn get_pic_addr_slave() -> u32 { &raw mut get_pic().slave as u32 }
impl Pic0 {
fn get_irq(&mut self) -> Option<u8> {
let enabled_irr = self.irr & self.irq_mask;
if enabled_irr == 0 {
if PIC_LOG_VERBOSE {
dbg_log!(
"[PIC] no unmasked irrs. irr={:x} mask={:x} isr={:x}",
self.irr,
self.irq_mask,
self.isr
);
}
return None;
}
let irq_mask = enabled_irr & (!enabled_irr + 1);
let special_mask = if self.special_mask_mode { self.irq_mask } else { 0xFF };
if self.isr != 0 && (self.isr & (!self.isr + 1) & special_mask) <= irq_mask {
// wait for eoi of higher or same priority interrupt
if PIC_LOG {
dbg_log!(
"[PIC] higher prio: master={} isr={:x} mask={:x} irq={:x}",
self.master,
self.isr,
self.irq_mask,
irq_mask
);
}
return None;
}
dbg_assert!(irq_mask != 0);
let irq_number = irq_mask.ilog2() as u8;
dbg_assert!(irq_mask == 1 << irq_number);
if PIC_LOG_VERBOSE {
dbg_log!("[PIC] request irq {}", irq_number);
}
Some(irq_number)
}
fn port0_read(self: &Pic0) -> u32 { (if self.read_isr { self.isr } else { self.irr }) as u32 }
fn port1_read(self: &Pic0) -> u32 { !self.irq_mask as u32 }
}
impl Pic {
fn set_irq(self: &mut Pic, i: u8) {
let mask = 1 << (i & 7);
let dev = if i < 8 { &mut self.master } else { &mut self.slave };
if dev.irq_value & mask == 0 || dev.elcr & mask != 0 {
dev.irr |= mask;
dev.irq_value |= mask;
if i >= 8 {
self.check_irqs_slave()
}
}
}
fn clear_irq(self: &mut Pic, i: u8) {
let mask = 1 << (i & 7);
let dev = if i < 8 { &mut self.master } else { &mut self.slave };
dev.irq_value &= !mask;
if dev.elcr & mask != 0 {
dev.irr &= !mask;
if i >= 8 {
self.check_irqs_slave()
}
}
}
fn port0_write(&mut self, index: u8, v: u8) {
let dev = if index == 0 { &mut self.master } else { &mut self.slave };
if v & 0x10 != 0 {
// xxxx1xxx
// icw1
dbg_log!("icw1 = {:x}", v);
dev.isr = 0;
dev.irr = 0;
dev.irq_mask = 0xff;
dev.irq_value = 0;
dev.auto_eoi = true;
dev.expect_icw4 = v & 1 != 0;
dbg_assert!(v & 2 == 0, "unimplemented: single mode");
dbg_assert!(v & 8 == 0, "unimplemented: level mode");
dev.state = 1;
}
else if v & 8 != 0 {
// xxx01xxx
// ocw3
dbg_log!("ocw3: {:x}", v);
if v & 2 != 0 {
dev.read_isr = v & 1 != 0;
}
if v & 4 != 0 {
dbg_assert!(false, "unimplemented: polling");
}
if v & 0x40 != 0 {
dev.special_mask_mode = (v & 0x20) == 0x20;
dbg_log!("special mask mode: {}", dev.special_mask_mode);
}
}
else {
// xxx00xxx
// ocw2
// end of interrupt
if PIC_LOG {
dbg_log!("eoi: {:x}", v);
}
let eoi_type = v >> 5;
if eoi_type == 1 {
// non-specific eoi
dev.isr &= dev.isr - 1;
if PIC_LOG {
dbg_log!("new isr: {:x}", dev.isr);
}
}
else if eoi_type == 3 {
// specific eoi
dev.isr &= !(1 << (v & 7));
}
else if eoi_type == 6 {
// os2 v4, freebsd
let priority = v & 7;
dbg_log!("lowest priority: {:x}", priority);
}
else {
dbg_log!("Unknown eoi: {:x} type={:x}", v, eoi_type);
dbg_assert!(false);
dev.isr &= dev.isr - 1;
}
if index == 1 {
self.check_irqs_slave()
}
}
}
fn port1_write(&mut self, index: u8, v: u8) {
let dev = if index == 0 { &mut self.master } else { &mut self.slave };
if dev.state == 0 {
if dev.expect_icw4 {
// icw4
dev.expect_icw4 = false;
dev.auto_eoi = v & 2 != 0;
dbg_log!("icw4: {:x} autoeoi={}", v, dev.auto_eoi);
dbg_assert!(v & 0x10 == 0, "unimplemented: nested mode");
dbg_assert!(v & 1 == 1, "unimplemented: 8086/88 mode");
}
else {
// ocw1
dev.irq_mask = !v;
if PIC_LOG_VERBOSE {
dbg_log!("interrupt mask: {:x}", dev.irq_mask);
}
if index == 1 {
self.check_irqs_slave()
}
}
}
else if dev.state == 1 {
// icw2
dev.irq_map = v;
dbg_log!("interrupts are mapped to {:x}", dev.irq_map);
dev.state += 1;
}
else if dev.state == 2 {
// icw3
dev.state = 0;
dbg_log!("icw3: {:x}", v);
}
}
fn check_irqs_slave(&mut self) {
let is_set = self.slave.get_irq().is_some();
if is_set {
self.set_irq(2)
}
else {
self.clear_irq(2)
}
}
}
// called by the cpu
pub fn pic_acknowledge_irq() -> Option<u8> {
let mut pic = get_pic();
let irq = match pic.master.get_irq() {
Some(i) => i,
None => return None,
};
if pic.master.irr == 0 {
dbg_assert!(false);
//PIC_LOG_VERBOSE && dbg_log!("master> spurious requested=" + irq);
//Some(pic.irq_map | 7)
return None;
}
let mask = 1 << irq;
if pic.master.elcr & mask == 0 {
// not in level mode
pic.master.irr &= !mask;
}
if !pic.master.auto_eoi {
pic.master.isr |= mask;
}
if PIC_LOG_VERBOSE {
dbg_log!("[PIC] master> acknowledge {}", irq);
}
dbg_assert!(pic.master.get_irq().is_none());
if irq == 2 {
acknowledge_irq_slave(&mut pic)
}
else {
Some(pic.master.irq_map | irq)
}
}
fn acknowledge_irq_slave(pic: &mut Pic) -> Option<u8> {
let irq = match pic.slave.get_irq() {
Some(i) => i,
None => return None,
};
if pic.slave.irr == 0 {
//PIC_LOG_VERBOSE && dbg_log!("slave> spurious requested=" + irq);
//Some(pic.irq_map | 7)
dbg_assert!(false);
return None;
}
let mask = 1 << irq;
if pic.slave.elcr & mask == 0 {
// not in level mode
pic.slave.irr &= !mask;
}
if !pic.slave.auto_eoi {
pic.slave.isr |= mask;
}
if PIC_LOG_VERBOSE {
dbg_log!("[PIC] slave> acknowledge {}", irq);
}
dbg_assert!(pic.slave.get_irq().is_none());
pic.clear_irq(2);
Some(pic.slave.irq_map | irq)
}
pub fn set_irq(i: u8) {
dbg_assert!(i < 16);
if PIC_LOG_VERBOSE {
dbg_log!("[PIC] set irq {}", i);
}
get_pic().set_irq(i)
}
pub fn clear_irq(i: u8) {
dbg_assert!(i < 16);
if PIC_LOG_VERBOSE {
dbg_log!("[PIC] clear irq {}", i);
}
get_pic().clear_irq(i)
}
pub fn port20_read() -> u32 { get_pic().master.port0_read() }
pub fn port21_read() -> u32 { get_pic().master.port1_read() }
pub fn portA0_read() -> u32 { get_pic().slave.port0_read() }
pub fn portA1_read() -> u32 { get_pic().slave.port1_read() }
pub fn port20_write(v: u8) { get_pic().port0_write(0, v) }
pub fn port21_write(v: u8) { get_pic().port1_write(0, v) }
pub fn portA0_write(v: u8) { get_pic().port0_write(1, v) }
pub fn portA1_write(v: u8) { get_pic().port1_write(1, v) }
pub fn port4D0_read() -> u32 { get_pic().master.elcr as u32 }
pub fn port4D1_read() -> u32 { get_pic().slave.elcr as u32 }
pub fn port4D0_write(v: u8) { get_pic().master.elcr = v }
pub fn port4D1_write(v: u8) { get_pic().slave.elcr = v }
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