public-collect/books-futures-explained
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Fixed error in green threads example. See: https://github.com/cfsamson/example-greenthreads/issues/20. Ugh... But it works now!

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Carl Fredrik Samson
2020-12-06 01:34:53 +01:00
parent 760fd57be3
commit e4b84bdd83
1 changed files with 78 additions and 58 deletions
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136
src/0_background_information.md
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@@ -149,30 +149,32 @@ _**Press the expand icon in the top right corner to show the example code.**_
```rust, edition2018
# #![feature(llvm_asm, naked_functions)]
#
# use std::ptr;
#
# const DEFAULT_STACK_SIZE: usize = 1024 * 1024 * 2;
# const MAX_THREADS: usize = 4;
# static mut RUNTIME: usize = 0;
#
#
# pub struct Runtime {
# threads: Vec<Thread>,
# current: usize,
# }
#
#
# #[derive(PartialEq, Eq, Debug)]
# enum State {
# Available,
# Running,
# Ready,
# }
#
#
# struct Thread {
# id: usize,
# stack: Vec<u8>,
# ctx: ThreadContext,
# state: State,
# task: Option<Box<dyn Fn()>>,
# }
#
#
# #[derive(Debug, Default)]
# #[repr(C)]
# struct ThreadContext {
@@ -183,8 +185,9 @@ _**Press the expand icon in the top right corner to show the example code.**_
# r12: u64,
# rbx: u64,
# rbp: u64,
# thread_ptr: u64,
# }
#
#
# impl Thread {
# fn new(id: usize) -> Self {
# Thread {
@@ -192,10 +195,11 @@ _**Press the expand icon in the top right corner to show the example code.**_
# stack: vec![0_u8; DEFAULT_STACK_SIZE],
# ctx: ThreadContext::default(),
# state: State::Available,
# task: None,
# }
# }
# }
#
#
# impl Runtime {
# pub fn new() -> Self {
# let base_thread = Thread {
@@ -203,37 +207,39 @@ _**Press the expand icon in the top right corner to show the example code.**_
# stack: vec![0_u8; DEFAULT_STACK_SIZE],
# ctx: ThreadContext::default(),
# state: State::Running,
# task: None,
# };
#
#
# let mut threads = vec![base_thread];
# threads[0].ctx.thread_ptr = &threads[0] as *const Thread as u64;
# let mut available_threads: Vec<Thread> = (1..MAX_THREADS).map(|i| Thread::new(i)).collect();
# threads.append(&mut available_threads);
#
#
# Runtime {
# threads,
# current: 0,
# }
# }
#
#
# pub fn init(&self) {
# unsafe {
# let r_ptr: *const Runtime = self;
# RUNTIME = r_ptr as usize;
# }
# }
#
#
# pub fn run(&mut self) -> ! {
# while self.t_yield() {}
# std::process::exit(0);
# }
#
#
# fn t_return(&mut self) {
# if self.current != 0 {
# self.threads[self.current].state = State::Available;
# self.t_yield();
# }
# }
#
#
# fn t_yield(&mut self) -> bool {
# let mut pos = self.current;
# while self.threads[pos].state != State::Ready {
@@ -245,85 +251,99 @@ _**Press the expand icon in the top right corner to show the example code.**_
# return false;
# }
# }
#
#
# if self.threads[self.current].state != State::Available {
# self.threads[self.current].state = State::Ready;
# }
#
#
# self.threads[pos].state = State::Running;
# let old_pos = self.current;
# self.current = pos;
#
#
# unsafe {
# let old: *mut ThreadContext = &mut self.threads[old_pos].ctx;
# let new: *const ThreadContext = &self.threads[pos].ctx;
# llvm_asm!(
# "mov $0, %rdi
# mov $1, %rsi"::"r"(old), "r"(new)
# );
# switch();
# }
# self.threads.len() > 0
# let old: *mut ThreadContext = &mut self.threads[old_pos].ctx;
# let new: *const ThreadContext = &self.threads[pos].ctx;
# llvm_asm!(
# "mov $0, %rdi
# mov $1, %rsi"::"r"(old), "r"(new)
# );
# switch();
# }
# true
# }
#
# pub fn spawn(&mut self, f: fn()) {
# let available = self
# .threads
# .iter_mut()
# .find(|t| t.state == State::Available)
# .expect("no available thread.");
#
# let size = available.stack.len();
#
# pub fn spawn<F: Fn() + 'static>(f: F){
# unsafe {
# let rt_ptr = RUNTIME as *mut Runtime;
# let available = (*rt_ptr)
# .threads
# .iter_mut()
# .find(|t| t.state == State::Available)
# .expect("no available thread.");
#
# let size = available.stack.len();
# let s_ptr = available.stack.as_mut_ptr().offset(size as isize);
# let s_ptr = (s_ptr as usize & !15) as *mut u8;
# available.task = Some(Box::new(f));
# available.ctx.thread_ptr = available as *const Thread as u64;
# //ptr::write(s_ptr.offset((size - 8) as isize) as *mut u64, guard as u64);
# std::ptr::write(s_ptr.offset(-16) as *mut u64, guard as u64);
# std::ptr::write(s_ptr.offset(-24) as *mut u64, skip as u64);
# std::ptr::write(s_ptr.offset(-32) as *mut u64, f as u64);
# std::ptr::write(s_ptr.offset(-32) as *mut u64, call as u64);
# available.ctx.rsp = s_ptr.offset(-32) as u64;
# available.state = State::Ready;
# }
# available.state = State::Ready;
# }
# }
#
#
# fn call(thread: u64) {
# let thread = unsafe { &*(thread as *const Thread) };
# if let Some(f) = &thread.task {
# f();
# }
# }
#
# #[naked]
# fn skip() { }
#
#
# fn guard() {
# unsafe {
# let rt_ptr = RUNTIME as *mut Runtime;
# (*rt_ptr).t_return();
# let rt = &mut *rt_ptr;
# println!("THREAD {} FINISHED.", rt.threads[rt.current].id);
# rt.t_return();
# };
# }
#
#
# pub fn yield_thread() {
# unsafe {
# let rt_ptr = RUNTIME as *mut Runtime;
# (*rt_ptr).t_yield();
# };
# }
#
#
# #[naked]
# #[inline(never)]
# unsafe fn switch() {
# llvm_asm!("
# mov %rsp, 0x00(%rdi)
# mov %r15, 0x08(%rdi)
# mov %r14, 0x10(%rdi)
# mov %r13, 0x18(%rdi)
# mov %r12, 0x20(%rdi)
# mov %rbx, 0x28(%rdi)
# mov %rbp, 0x30(%rdi)
#
# mov 0x00(%rsi), %rsp
# mov 0x08(%rsi), %r15
# mov 0x10(%rsi), %r14
# mov 0x18(%rsi), %r13
# mov 0x20(%rsi), %r12
# mov 0x28(%rsi), %rbx
# mov 0x30(%rsi), %rbp
# "
# );
# mov %rsp, 0x00(%rdi)
# mov %r15, 0x08(%rdi)
# mov %r14, 0x10(%rdi)
# mov %r13, 0x18(%rdi)
# mov %r12, 0x20(%rdi)
# mov %rbx, 0x28(%rdi)
# mov %rbp, 0x30(%rdi)
#
# mov 0x00(%rsi), %rsp
# mov 0x08(%rsi), %r15
# mov 0x10(%rsi), %r14
# mov 0x18(%rsi), %r13
# mov 0x20(%rsi), %r12
# mov 0x28(%rsi), %rbx
# mov 0x30(%rsi), %rbp
# mov 0x38(%rsi), %rdi
# "
# );
# }
# #[cfg(not(windows))]
fn main() {