add CI autotest, update README

This commit is contained in:
Yu Chen 2022-06-24 02:25:30 +08:00
parent 03a7e2f0b9
commit 6b51c34c43
11 changed files with 404 additions and 72 deletions

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@ -1,25 +0,0 @@
name: Build Rust Doc
on: [push]
env:
CARGO_TERM_COLOR: always
jobs:
build-doc:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v2
- name: Build doc
run: |
rustup target add riscv64gc-unknown-none-elf
rustup component add llvm-tools-preview
rustup component add rust-src
cd os
cargo doc --no-deps --verbose
- name: Deploy to Github Pages
uses: peaceiris/actions-gh-pages@v3
with:
github_token: ${{ secrets.GITHUB_TOKEN }}
publish_dir: ./os/target/riscv64gc-unknown-none-elf/doc
destination_dir: ${{ github.ref_name }}

69
.github/workflows/doc-and-test.yml vendored Normal file
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@ -0,0 +1,69 @@
name: Build Rust Doc And Run tests
on: [push]
env:
CARGO_TERM_COLOR: always
jobs:
build-doc:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: actions-rs/toolchain@v1
with:
profile: minimal
toolchain: nightly-2022-04-11
components: rust-src, llvm-tools-preview
target: riscv64gc-unknown-none-elf
- name: Build doc
run: cd os && cargo doc --no-deps --verbose --features "board_qemu"
- name: Deploy to Github Pages
uses: peaceiris/actions-gh-pages@v3
with:
github_token: ${{ secrets.GITHUB_TOKEN }}
publish_dir: ./os/target/riscv64gc-unknown-none-elf/doc
destination_dir: ${{ github.ref_name }}
run-tests:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- uses: actions-rs/toolchain@v1
with:
profile: minimal
toolchain: nightly-2022-04-11
components: rust-src, llvm-tools-preview
target: riscv64gc-unknown-none-elf
- uses: actions-rs/install@v0.1
with:
crate: cargo-binutils
version: latest
use-tool-cache: true
- name: Cache QEMU
uses: actions/cache@v3
with:
path: qemu-7.0.0
key: qemu-7.0.0-x86_64-riscv64
- name: Install QEMU
run: |
sudo apt-get update
sudo apt-get install ninja-build -y
if [ ! -d qemu-7.0.0 ]; then
wget https://download.qemu.org/qemu-7.0.0.tar.xz
tar -xf qemu-7.0.0.tar.xz
cd qemu-7.0.0
./configure --target-list=riscv64-softmmu
make -j
else
cd qemu-7.0.0
fi
sudo make install
qemu-system-riscv64 --version
- name: Run usertests
run: cd os && make run TEST=1
timeout-minutes: 10
- name: Build for k210
run: cd os && make build BOARD=k210

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@ -1,12 +1,14 @@
# rCore-Tutorial-v3
rCore-Tutorial version 3.5. See the [Documentation in Chinese](https://rcore-os.github.io/rCore-Tutorial-Book-v3/).
rCore-Tutorial version 3.6. See the [Documentation in Chinese](https://rcore-os.github.io/rCore-Tutorial-Book-v3/).
rCore-Tutorial API Docs. See the [API Docs of Ten OSes ](#OS-API-DOCS)
If you don't know Rust Language and try to learn it, please visit [Rust Learning Resources](https://github.com/rcore-os/rCore/wiki/study-resource-of-system-programming-in-RUST)
Official QQ group number: 735045051
## news
- 25/01/2022: Version 3.6.0 is on the way! Now we directly update the code on chX branches, please periodically check if there are any updates.
- 23/06/2022: Version 3.6.0 is on the way! Now we directly update the code on chX branches, please periodically check if there are any updates.
## Overview
@ -42,7 +44,7 @@ $ rustup component add rust-src
### Install Qemu
Here we manually compile and install Qemu 5.0.0. For example, on Ubuntu 18.04:
Here we manually compile and install Qemu 7.0.0. For example, on Ubuntu 18.04:
```sh
# install dependency packages
@ -50,10 +52,10 @@ $ sudo apt install autoconf automake autotools-dev curl libmpc-dev libmpfr-dev l
gawk build-essential bison flex texinfo gperf libtool patchutils bc \
zlib1g-dev libexpat-dev pkg-config libglib2.0-dev libpixman-1-dev git tmux python3 python3-pip
# download Qemu source code
$ wget https://download.qemu.org/qemu-5.0.0.tar.xz
# extract to qemu-5.0.0/
$ tar xvJf qemu-5.0.0.tar.xz
$ cd qemu-5.0.0
$ wget https://download.qemu.org/qemu-7.0.0.tar.xz
# extract to qemu-7.0.0/
$ tar xvJf qemu-7.0.0.tar.xz
$ cd qemu-7.0.0
# build
$ ./configure --target-list=riscv64-softmmu,riscv64-linux-user
$ make -j$(nproc)
@ -62,9 +64,9 @@ $ make -j$(nproc)
Then, add following contents to `~/.bashrc`(please adjust these paths according to your environment):
```
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-5.0.0
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-5.0.0/riscv64-softmmu
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-5.0.0/riscv64-linux-user
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-7.0.0
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-7.0.0/riscv64-softmmu
export PATH=$PATH:/home/shinbokuow/Downloads/built/qemu-7.0.0/riscv64-linux-user
```
Finally, update the current shell:
@ -77,7 +79,7 @@ Now we can check the version of Qemu:
```sh
$ qemu-system-riscv64 --version
QEMU emulator version 5.0.0
QEMU emulator version 7.0.0
Copyright (c) 2003-2020 Fabrice Bellard and the QEMU Project developers
```
@ -188,6 +190,46 @@ $ make run BOARD=k210
Type `Ctrl+]` to disconnect from K210.
## Show runtime debug info of OS kernel version
The branch of ch9-log contains a lot of debug info. You could try to run rcore tutorial
for understand the internal behavior of os kernel.
```sh
$ git clone https://github.com/rcore-os/rCore-Tutorial-v3.git
$ cd rCore-Tutorial-v3/os
$ git checkout ch9-log
$ make run
......
[rustsbi] RustSBI version 0.2.0-alpha.10, adapting to RISC-V SBI v0.3
.______ __ __ _______.___________. _______..______ __
| _ \ | | | | / | | / || _ \ | |
| |_) | | | | | | (----`---| |----`| (----`| |_) || |
| / | | | | \ \ | | \ \ | _ < | |
| |\ \----.| `--' |.----) | | | .----) | | |_) || |
| _| `._____| \______/ |_______/ |__| |_______/ |______/ |__|
[rustsbi] Implementation: RustSBI-QEMU Version 0.0.2
[rustsbi-dtb] Hart count: cluster0 with 1 cores
[rustsbi] misa: RV64ACDFIMSU
[rustsbi] mideleg: ssoft, stimer, sext (0x222)
[rustsbi] medeleg: ima, ia, bkpt, la, sa, uecall, ipage, lpage, spage (0xb1ab)
[rustsbi] pmp0: 0x10000000 ..= 0x10001fff (rw-)
[rustsbi] pmp1: 0x2000000 ..= 0x200ffff (rw-)
[rustsbi] pmp2: 0xc000000 ..= 0xc3fffff (rw-)
[rustsbi] pmp3: 0x80000000 ..= 0x8fffffff (rwx)
[rustsbi] enter supervisor 0x80200000
[KERN] rust_main() begin
[KERN] clear_bss() begin
[KERN] clear_bss() end
[KERN] mm::init() begin
[KERN] mm::init_heap() begin
[KERN] mm::init_heap() end
[KERN] mm::init_frame_allocator() begin
[KERN] mm::frame_allocator::lazy_static!FRAME_ALLOCATOR begin
......
```
## Rustdoc
Currently it can only help you view the code since only a tiny part of the code has been documented.
@ -209,13 +251,9 @@ The API Docs for Ten OS
## Working in progress
Our first release 3.5.0 (chapter 1-7) has been published.
Our first release 3.6.0 (chapter 1-9) has been published, and we are still working on it.
There will be 9 chapters in our next release 3.6.0, where 2 new chapters will be added:
* chapter 8: synchronization on a uniprocessor
* chapter 9: I/O devices
Current version is 3.6.0-alpha.1 and we are still working on it.
* chapter 9: need more descripts about different I/O devices
Here are the updates since 3.5.0:
@ -237,18 +275,16 @@ Here are the updates since 3.5.0:
* [x] switch the code of chapter 6 and chapter 7
* [x] support signal mechanism in chapter 7/8(only works for apps with a single thread)
* [x] Add boards/ directory and support rustdoc, for example you can use `cargo doc --no-deps --open` to view the documentation of a crate
* [x] code of chapter 9: device drivers based on interrupts, including UART, block, keyboard, mouse, gpu devices
* [x] add CI autotest and doc in github
### Todo(High priority)
* [ ] review documentation, current progress: 5/9
* [ ] support user-level sync primitives in chapter 8
* [ ] code of chapter 9: device drivers based on interrupts, including UART and block devices
* [ ] review documentation, current progress: 8/9
* [ ] use old fs image optionally, do not always rebuild the image
* [ ] add new system calls: getdents64/fstat
* [ ] shell functionality improvement(to be continued...)
* [ ] give every non-zero process exit code an unique and clear error type
* [ ] effective error handling of mm module
* [ ] add more os functions for understanding os conecpts and principles
### Todo(Low priority)
* [ ] rewrite practice doc and remove some inproper questions

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@ -37,6 +37,9 @@ OBJCOPY := rust-objcopy --binary-architecture=riscv64
# Disassembly
DISASM ?= -x
# Run usertests or usershell
TEST ?=
build: env switch-check $(KERNEL_BIN) fs-img
switch-check:
@ -61,7 +64,7 @@ $(KERNEL_BIN): kernel
@$(OBJCOPY) $(KERNEL_ELF) --strip-all -O binary $@
fs-img: $(APPS)
@cd ../user && make build
@cd ../user && make build TEST=$(TEST)
@rm -f $(FS_IMG)
@cd ../easy-fs-fuse && cargo run --release -- -s ../user/src/bin/ -t ../user/target/riscv64gc-unknown-none-elf/release/

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@ -1,4 +1,5 @@
pub const CLOCK_FREQ: usize = 403000000 / 62;
pub const MEMORY_END: usize = 0x80600000;
pub const MMIO: &[(usize, usize)] = &[
// we don't need clint in S priv when running

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@ -1,5 +1,89 @@
pub const CLOCK_FREQ: usize = 12500000;
pub const MEMORY_END: usize = 0x801000000;
pub const MMIO: &[(usize, usize)] = &[(0x10001000, 0x1000)];
pub const MMIO: &[(usize, usize)] = &[
(0x0010_0000, 0x00_2000), // VIRT_TEST/RTC in virt machine
(0x1000_1000, 0x00_1000), // Virtio Block in virt machine
];
pub type BlockDeviceImpl = crate::drivers::block::VirtIOBlock;
//ref:: https://github.com/andre-richter/qemu-exit
use core::arch::asm;
const EXIT_SUCCESS: u32 = 0x5555; // Equals `exit(0)`. qemu successful exit
const EXIT_FAILURE_FLAG: u32 = 0x3333;
const EXIT_FAILURE: u32 = exit_code_encode(1); // Equals `exit(1)`. qemu failed exit
const EXIT_RESET: u32 = 0x7777; // qemu reset
pub trait QEMUExit {
/// Exit with specified return code.
///
/// Note: For `X86`, code is binary-OR'ed with `0x1` inside QEMU.
fn exit(&self, code: u32) -> !;
/// Exit QEMU using `EXIT_SUCCESS`, aka `0`, if possible.
///
/// Note: Not possible for `X86`.
fn exit_success(&self) -> !;
/// Exit QEMU using `EXIT_FAILURE`, aka `1`.
fn exit_failure(&self) -> !;
}
/// RISCV64 configuration
pub struct RISCV64 {
/// Address of the sifive_test mapped device.
addr: u64,
}
/// Encode the exit code using EXIT_FAILURE_FLAG.
const fn exit_code_encode(code: u32) -> u32 {
(code << 16) | EXIT_FAILURE_FLAG
}
impl RISCV64 {
/// Create an instance.
pub const fn new(addr: u64) -> Self {
RISCV64 { addr }
}
}
impl QEMUExit for RISCV64 {
/// Exit qemu with specified exit code.
fn exit(&self, code: u32) -> ! {
// If code is not a special value, we need to encode it with EXIT_FAILURE_FLAG.
let code_new = match code {
EXIT_SUCCESS | EXIT_FAILURE | EXIT_RESET => code,
_ => exit_code_encode(code),
};
unsafe {
asm!(
"sw {0}, 0({1})",
in(reg)code_new, in(reg)self.addr
);
// For the case that the QEMU exit attempt did not work, transition into an infinite
// loop. Calling `panic!()` here is unfeasible, since there is a good chance
// this function here is the last expression in the `panic!()` handler
// itself. This prevents a possible infinite loop.
loop {
asm!("wfi", options(nomem, nostack));
}
}
}
fn exit_success(&self) -> ! {
self.exit(EXIT_SUCCESS);
}
fn exit_failure(&self) -> ! {
self.exit(EXIT_FAILURE);
}
}
const VIRT_TEST: u64 = 0x100000;
pub const QEMU_EXIT_HANDLE: RISCV64 = RISCV64::new(VIRT_TEST);

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@ -46,6 +46,8 @@ lazy_static! {
unsafe { UPSafeCell::new(RecycleAllocator::new()) };
}
pub const IDLE_PID: usize = 0;
pub struct PidHandle(pub usize);
pub fn pid_alloc() -> PidHandle {

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@ -18,7 +18,7 @@ use switch::__switch;
use crate::timer::remove_timer;
pub use context::TaskContext;
pub use id::{kstack_alloc, pid_alloc, KernelStack, PidHandle};
pub use id::{kstack_alloc, pid_alloc, KernelStack, PidHandle, IDLE_PID};
pub use manager::{add_task, remove_task, pid2process, remove_from_pid2process};
pub use processor::{
current_kstack_top, current_process, current_task, current_trap_cx, current_trap_cx_user_va,
@ -53,6 +53,8 @@ pub fn block_current_and_run_next() {
drop(task_inner);
schedule(task_cx_ptr);
}
#[cfg(feature = "board_qemu")]
use crate::board::QEMUExit;
pub fn exit_current_and_run_next(exit_code: i32) {
let task = take_current_task().unwrap();
@ -69,7 +71,22 @@ pub fn exit_current_and_run_next(exit_code: i32) {
// however, if this is the main thread of current process
// the process should terminate at once
if tid == 0 {
remove_from_pid2process(process.getpid());
let pid = process.getpid();
#[cfg(feature = "board_qemu")]
if pid == IDLE_PID {
println!(
"[kernel] Idle process exit with exit_code {} ...",
exit_code
);
if exit_code != 0 {
//crate::sbi::shutdown(255); //255 == -1 for err hint
crate::board::QEMU_EXIT_HANDLE.exit_failure();
} else {
//crate::sbi::shutdown(0); //0 for success hint
crate::board::QEMU_EXIT_HANDLE.exit_success();
}
}
remove_from_pid2process(pid);
let mut process_inner = process.inner_exclusive_access();
// mark this process as a zombie process
process_inner.is_zombie = true;

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@ -8,9 +8,15 @@ BINS := $(patsubst $(APP_DIR)/%.rs, $(TARGET_DIR)/%.bin, $(APPS))
OBJDUMP := rust-objdump --arch-name=riscv64
OBJCOPY := rust-objcopy --binary-architecture=riscv64
CP := cp
TEST ?=
elf: $(APPS)
@cargo build --release
ifeq ($(TEST), 1)
@$(CP) $(TARGET_DIR)/usertests $(TARGET_DIR)/initproc
endif
binary: elf
$(foreach elf, $(ELFS), $(OBJCOPY) $(elf) --strip-all -O binary $(patsubst $(TARGET_DIR)/%, $(TARGET_DIR)/%.bin, $(elf));)

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@ -4,40 +4,136 @@
#[macro_use]
extern crate user_lib;
static TESTS: &[&str] = &[
"exit\0",
"fantastic_text\0",
"forktest\0",
"forktest2\0",
"forktest_simple\0",
"hello_world\0",
"matrix\0",
"sleep\0",
"sleep_simple\0",
"stack_overflow\0",
"yield\0",
// not in SUCC_TESTS & FAIL_TESTS
// count_lines, infloop, user_shell, usertests
// item of TESTS : app_name(argv_0), argv_1, argv_2, argv_3, exit_code
static SUCC_TESTS: &[(&str, &str, &str, &str, i32)] = &[
("filetest_simple\0", "\0", "\0", "\0", 0),
("cat\0", "filea\0", "\0", "\0", 0),
("cmdline_args\0", "1\0", "2\0", "3\0", 0),
("exit\0", "\0", "\0", "\0", 0),
("fantastic_text\0", "\0", "\0", "\0", 0),
("forktest_simple\0", "\0", "\0", "\0", 0),
("forktest\0", "\0", "\0", "\0", 0),
("forktest2\0", "\0", "\0", "\0", 0),
("forktree\0", "\0", "\0", "\0", 0),
("hello_world\0", "\0", "\0", "\0", 0),
("huge_write\0", "\0", "\0", "\0", 0),
("matrix\0", "\0", "\0", "\0", 0),
("mpsc_sem\0", "\0", "\0", "\0", 0),
("phil_din_mutex\0", "\0", "\0", "\0", 0),
("pipe_large_test\0", "\0", "\0", "\0", 0),
("pipetest\0", "\0", "\0", "\0", 0),
("race_adder_arg\0", "3\0", "\0", "\0", 0),
("race_adder_atomic\0", "\0", "\0", "\0", 0),
("race_adder_mutex_blocking\0", "\0", "\0", "\0", 0),
("race_adder_mutex_spin\0", "\0", "\0", "\0", 0),
("run_pipe_test\0", "\0", "\0", "\0", 0),
("sleep_simple\0", "\0", "\0", "\0", 0),
("sleep\0", "\0", "\0", "\0", 0),
("sleep_simple\0", "\0", "\0", "\0", 0),
("sync_sem\0", "\0", "\0", "\0", 0),
("test_condvar\0", "\0", "\0", "\0", 0),
("threads_arg\0", "\0", "\0", "\0", 0),
("threads\0", "\0", "\0", "\0", 0),
("yield\0", "\0", "\0", "\0", 0),
];
static FAIL_TESTS: &[(&str, &str, &str, &str, i32)] = &[
("stack_overflow\0", "\0", "\0", "\0", -11),
("race_adder_loop\0", "\0", "\0", "\0", -6),
("priv_csr\0", "\0", "\0", "\0", -4),
("priv_inst\0", "\0", "\0", "\0", -4),
("store_fault\0", "\0", "\0", "\0", -11),
("until_timeout\0", "\0", "\0", "\0", -6),
("race_adder\0", "\0", "\0", "\0", -6),
("huge_write_mt\0", "\0", "\0", "\0", -6),
];
use user_lib::{exec, fork, waitpid};
#[no_mangle]
pub fn main() -> i32 {
for test in TESTS {
println!("Usertests: Running {}", test);
fn run_tests(tests: &[(&str, &str, &str, &str, i32)]) -> i32 {
let mut pass_num = 0;
let mut arr: [*const u8; 4] = [
core::ptr::null::<u8>(),
core::ptr::null::<u8>(),
core::ptr::null::<u8>(),
core::ptr::null::<u8>(),
];
for test in tests {
println!("Usertests: Running {}", test.0);
arr[0] = test.0.as_ptr();
if test.1 != "\0" {
arr[1] = test.1.as_ptr();
arr[2] = core::ptr::null::<u8>();
arr[3] = core::ptr::null::<u8>();
if test.2 != "\0" {
arr[2] = test.2.as_ptr();
arr[3] = core::ptr::null::<u8>();
if test.3 != "\0" {
arr[3] = test.3.as_ptr();
} else {
arr[3] = core::ptr::null::<u8>();
}
} else {
arr[2] = core::ptr::null::<u8>();
arr[3] = core::ptr::null::<u8>();
}
} else {
arr[1] = core::ptr::null::<u8>();
arr[2] = core::ptr::null::<u8>();
arr[3] = core::ptr::null::<u8>();
}
let pid = fork();
if pid == 0 {
exec(*test, &[core::ptr::null::<u8>()]);
exec(test.0, &arr[..]);
panic!("unreachable!");
} else {
let mut exit_code: i32 = Default::default();
let wait_pid = waitpid(pid as usize, &mut exit_code);
assert_eq!(pid, wait_pid);
if exit_code == test.4 {
// summary apps with exit_code
pass_num = pass_num + 1;
}
println!(
"\x1b[32mUsertests: Test {} in Process {} exited with code {}\x1b[0m",
test, pid, exit_code
test.0, pid, exit_code
);
}
}
println!("Usertests passed!");
0
pass_num
}
#[no_mangle]
pub fn main() -> i32 {
let succ_num = run_tests(SUCC_TESTS);
let err_num = run_tests(FAIL_TESTS);
if succ_num == SUCC_TESTS.len() as i32 && err_num == FAIL_TESTS.len() as i32 {
println!(
"{} of sueecssed apps, {} of failed apps run correctly. \nUsertests passed!",
SUCC_TESTS.len(),
FAIL_TESTS.len()
);
return 0;
}
if succ_num != SUCC_TESTS.len() as i32 {
println!(
"all successed app_num is {} , but only passed {}",
SUCC_TESTS.len(),
succ_num
);
}
if err_num != FAIL_TESTS.len() as i32 {
println!(
"all failed app_num is {} , but only passed {}",
FAIL_TESTS.len(),
err_num
);
}
println!(" Usertests failed!");
return -1;
}

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@ -0,0 +1,43 @@
#![no_std]
#![no_main]
#[macro_use]
extern crate user_lib;
static TESTS: &[&str] = &[
"exit\0",
"fantastic_text\0",
"forktest\0",
"forktest2\0",
"forktest_simple\0",
"hello_world\0",
"matrix\0",
"sleep\0",
"sleep_simple\0",
"stack_overflow\0",
"yield\0",
];
use user_lib::{exec, fork, waitpid};
#[no_mangle]
pub fn main() -> i32 {
for test in TESTS {
println!("Usertests: Running {}", test);
let pid = fork();
if pid == 0 {
exec(*test, &[core::ptr::null::<u8>()]);
panic!("unreachable!");
} else {
let mut exit_code: i32 = Default::default();
let wait_pid = waitpid(pid as usize, &mut exit_code);
assert_eq!(pid, wait_pid);
println!(
"\x1b[32mUsertests: Test {} in Process {} exited with code {}\x1b[0m",
test, pid, exit_code
);
}
}
println!("Usertests passed!");
0
}