Add support for robust futex syscalls

2021-07-06 16:04:08 +08:00 · 2021-07-06 16:04:08 +08:00 · 215e8ffbdf
commit 215e8ffbdf
parent 9b425798d6
9 changed files with 355 additions and 9 deletions
--- a/src/libos/src/lib.rs
+++ b/src/libos/src/lib.rs
@ -20,6 +20,7 @@
 #![feature(get_mut_unchecked)]
 // for std::hint::black_box
 #![feature(test)]
 #![feature(atomic_from_mut)]
 #[macro_use]
 extern crate alloc;
--- a/src/libos/src/process/do_exit.rs
+++ b/src/libos/src/process/do_exit.rs
@ -44,6 +44,9 @@ fn exit_thread(term_status: TermStatus) {
        futex_wake(ctid_ptr.as_ptr() as *const i32, 1);
    }
    // Notify waiters that the owner of robust futex has died.
    thread.wake_robust_list();
    // Keep the main thread's tid available as long as the process is not destroyed.
    // This is important as the user space may still attempt to access the main
    // thread's ThreadRef through the process's pid after the process has become
--- a/src/libos/src/process/do_robust_list.rs
+++ b/src/libos/src/process/do_robust_list.rs
@ -0,0 +1,195 @@
 /// Robust futexes provide a mechanism that is used in addition to normal futex,
 /// for kernel assist of cleanup of held locks on thread exit.
 ///
 /// Actual locking and unlocking is handled entirely by user level code with the
 /// existing futex mechanism to wait or wakeup locks.
 /// The kernels only essential involvement in robust futex is to remember where
 /// the list head is, and to walk the list on thread exit, handling locks still
 /// held by the departing thread.
 /// Ref: https://www.kernel.org/doc/html/latest/locking/robust-futex-ABI.html
 ///
 use std::ptr::NonNull;
 use std::sync::atomic::{AtomicU32, Ordering};
 use crate::prelude::*;
 use crate::util::mem_util::from_user::*;
 pub fn do_set_robust_list(list_head_ptr: *mut RobustListHead, len: usize) -> Result<()> {
    debug!(
        "set_robust_list: list_head_ptr: {:?}, len: {}",
        list_head_ptr, len
    );
    if std::mem::size_of::<RobustListHead>() != len {
        return_errno!(EINVAL, "invalid size for RobustListHead");
    }
    // We do not check if the pointer is a valid user space pointer, deferring
    // it in waking the robust list. If the pointer is invalid, we just stop
    // waking the robust list.
    let robust_list = NonNull::new(list_head_ptr);
    let current = current!();
    current.set_robust_list(robust_list);
    Ok(())
 }
 pub fn do_get_robust_list(tid: pid_t) -> Result<*mut RobustListHead> {
    debug!("get_robust_list: tid: {}", tid);
    let thread = if tid == 0 {
        current!()
    } else {
        super::table::get_thread(tid)?
    };
    let robust_list_ptr = thread
        .robust_list()
        .map(|robust_list| robust_list.as_ptr())
        .unwrap_or(std::ptr::null_mut());
    Ok(robust_list_ptr)
 }
 /// This struct is same as Linux's robust_list
 #[repr(C)]
 struct RobustList {
    next: *const RobustList,
 }
 /// This struct is same as Linux's robust_list_head
 #[repr(C)]
 pub struct RobustListHead {
    /// Linked list of lock entries
    ///
    /// If it points to the head of the list, then it is the end of the list.
    /// If it is an invalid user space pointer or a null pointer, stop iterating
    /// the list.
    list: RobustList,
    /// Specifies the offset from the address of the lock entry to the address
    /// of the futex.
    futex_offset: isize,
    /// Contains transient copy of the address of the lock entry, during list
    /// insertion and removal.
    list_op_pending: *const RobustList,
 }
 impl RobustListHead {
    /// Return an iterator for all futexes in the robust list.
    ///
    /// The futex refered to by `list_op_pending`, if any, will be returned as
    /// the last item.
    pub fn futexes<'a>(&'a self) -> FutexIter<'a> {
        FutexIter::new(self)
    }
    /// Return the pending futex address if exist
    fn pending_futex_addr(&self) -> Option<*const i32> {
        if self.list_op_pending.is_null() {
            None
        } else {
            Some(unsafe { self.futex_addr(self.list_op_pending) })
        }
    }
    /// Get the futex address
    unsafe fn futex_addr(&self, entry_ptr: *const RobustList) -> *const i32 {
        (entry_ptr as *const u8).offset(self.futex_offset) as *const i32
    }
 }
 const ROBUST_LIST_LIMIT: isize = 2048;
 pub struct FutexIter<'a> {
    robust_list: &'a RobustListHead,
    entry_ptr: *const RobustList,
    count: isize,
 }
 impl<'a> FutexIter<'a> {
    fn new(robust_list: &'a RobustListHead) -> Self {
        Self {
            robust_list,
            entry_ptr: robust_list.list.next,
            count: 0,
        }
    }
    // The `self.count` is normally a positive value used to iterate the list
    // to avoid excessively long or circular list, we use a special value -1
    // to represent the end of the Iterator.
    fn set_end(&mut self) {
        self.count = -1;
    }
    fn is_end(&self) -> bool {
        self.count < 0
    }
 }
 impl<'a> Iterator for FutexIter<'a> {
    type Item = *const i32;
    /// Returns the futex address.
    fn next(&mut self) -> Option<*const i32> {
        if self.is_end() {
            return None;
        }
        // Iterate the linked list
        while self.entry_ptr != &self.robust_list.list {
            // Avoid excessively long or circular list
            if self.count == ROBUST_LIST_LIMIT {
                break;
            }
            // Invalid pointer, stop iterating the robust list
            if check_ptr(self.entry_ptr).is_err() {
                return None;
            }
            // A pending lock might already be on the list
            let futex_addr = if self.entry_ptr != self.robust_list.list_op_pending {
                Some(unsafe { self.robust_list.futex_addr(self.entry_ptr) })
            } else {
                None
            };
            self.entry_ptr = unsafe { (*self.entry_ptr).next };
            self.count += 1;
            if futex_addr.is_some() {
                return futex_addr;
            }
        }
        // End of iterating the linked list
        // If the pending futex exists, return it as the last one
        self.set_end();
        self.robust_list.pending_futex_addr()
    }
 }
 const FUTEX_WAITERS: u32 = 0x8000_0000;
 const FUTEX_OWNER_DIED: u32 = 0x4000_0000;
 const FUTEX_TID_MASK: u32 = 0x3FFF_FFFF;
 /// Wakeup one robust futex owned by the thread
 pub fn wake_robust_futex(futex_addr: *const i32, tid: pid_t) -> Result<()> {
    let futex_val = {
        check_ptr(futex_addr)?;
        unsafe { AtomicU32::from_mut(&mut *(futex_addr as *mut u32)) }
    };
    let mut old_val = futex_val.load(Ordering::SeqCst);
    loop {
        // This futex may held by another thread, do nothing
        if old_val & FUTEX_TID_MASK != tid {
            break;
        }
        let new_val = (old_val & FUTEX_WAITERS) | FUTEX_OWNER_DIED;
        if let Err(cur_val) =
            futex_val.compare_exchange(old_val, new_val, Ordering::SeqCst, Ordering::SeqCst)
        {
            // The futex value has changed, let's retry with current value
            old_val = cur_val;
            continue;
        }
        // Wakeup one waiter
        if futex_val.load(Ordering::SeqCst) & FUTEX_WAITERS != 0 {
            debug!("wake robust futex addr: {:?}", futex_addr);
            super::do_futex::futex_wake(futex_addr, 1)?;
        }
        break;
    }
    Ok(())
 }
--- a/src/libos/src/process/mod.rs
+++ b/src/libos/src/process/mod.rs
@ -22,6 +22,7 @@ use self::wait::{WaitQueue, Waiter};
 pub use self::do_exit::handle_force_exit;
 pub use self::do_futex::{futex_wait, futex_wake};
 pub use self::do_robust_list::RobustListHead;
 pub use self::do_spawn::do_spawn_without_exec;
 pub use self::process::{Process, ProcessFilter, ProcessStatus, IDLE};
 pub use self::spawn_attribute::posix_spawnattr_t;
@ -36,6 +37,7 @@ mod do_exec;
 mod do_exit;
 mod do_futex;
 mod do_getpid;
 mod do_robust_list;
 mod do_set_tid_address;
 mod do_spawn;
 mod do_wait4;
--- a/src/libos/src/process/syscalls.rs
+++ b/src/libos/src/process/syscalls.rs
@ -2,6 +2,7 @@ use super::do_arch_prctl::ArchPrctlCode;
 use super::do_clone::CloneFlags;
 use super::do_exec::do_exec;
 use super::do_futex::{FutexFlags, FutexOp, FutexTimeout};
 use super::do_robust_list::RobustListHead;
 use super::do_spawn::FileAction;
 use super::do_wait4::WaitOptions;
 use super::prctl::PrctlCmd;
@ -446,3 +447,26 @@ pub fn do_execve(path: *const i8, argv: *const *const i8, envp: *const *const i8
    do_exec(&path, &argv, &envp, &current)
 }
 pub fn do_set_robust_list(list_head_ptr: *mut RobustListHead, len: usize) -> Result<isize> {
    if !list_head_ptr.is_null() {
        check_mut_ptr(list_head_ptr)?;
    }
    super::do_robust_list::do_set_robust_list(list_head_ptr, len)?;
    Ok(0)
 }
 pub fn do_get_robust_list(
    tid: pid_t,
    list_head_ptr_ptr: *mut *mut RobustListHead,
    len_ptr: *mut usize,
 ) -> Result<isize> {
    check_mut_ptr(list_head_ptr_ptr)?;
    check_mut_ptr(len_ptr)?;
    let list_head_ptr = super::do_robust_list::do_get_robust_list(tid)?;
    unsafe {
        list_head_ptr_ptr.write(list_head_ptr);
        len_ptr.write(std::mem::size_of::<RobustListHead>());
    }
    Ok(0)
 }
--- a/src/libos/src/process/thread/builder.rs
+++ b/src/libos/src/process/thread/builder.rs
@ -1,8 +1,9 @@
 use std::ptr::NonNull;
 use super::{
-    FileTableRef, FsViewRef, ProcessRef, ProcessVM, ProcessVMRef, ResourceLimitsRef, SchedAgentRef,
+    FileTableRef, FsViewRef, ProcessRef, ProcessVM, ProcessVMRef, ResourceLimitsRef,
-    SigQueues, SigSet, Task, Thread, ThreadId, ThreadInner, ThreadName, ThreadRef,
+    RobustListHead, SchedAgentRef, SigQueues, SigSet, Task, Thread, ThreadId, ThreadInner,
    ThreadName, ThreadRef,
 };
 use crate::events::HostEventFd;
 use crate::prelude::*;
@ -22,6 +23,7 @@ pub struct ThreadBuilder {
    rlimits: Option<ResourceLimitsRef>,
    sig_mask: Option<SigSet>,
    clear_ctid: Option<NonNull<pid_t>>,
    robust_list: Option<NonNull<RobustListHead>>,
    name: Option<ThreadName>,
 }
@ -38,6 +40,7 @@ impl ThreadBuilder {
            rlimits: None,
            sig_mask: None,
            clear_ctid: None,
            robust_list: None,
            name: None,
        }
    }
@ -92,6 +95,11 @@ impl ThreadBuilder {
        self
    }
    pub fn robust_list(mut self, robust_list_addr: NonNull<RobustListHead>) -> Self {
        self.robust_list = Some(robust_list_addr);
        self
    }
    pub fn name(mut self, name: ThreadName) -> Self {
        self.name = Some(name);
        self
@ -103,6 +111,7 @@ impl ThreadBuilder {
            .ok_or_else(|| errno!(EINVAL, "task is mandatory"))?;
        let tid = self.tid.unwrap_or_else(|| ThreadId::new());
        let clear_ctid = RwLock::new(self.clear_ctid);
        let robust_list = RwLock::new(self.robust_list);
        let inner = SgxMutex::new(ThreadInner::new());
        let process = self
            .process
@ -130,6 +139,7 @@ impl ThreadBuilder {
            task,
            tid,
            clear_ctid,
            robust_list,
            inner,
            process,
            vm,
--- a/src/libos/src/process/thread/mod.rs
+++ b/src/libos/src/process/thread/mod.rs
@ -4,7 +4,7 @@ use std::ptr::NonNull;
 use super::task::Task;
 use super::{
    FileTableRef, ForcedExitStatus, FsViewRef, ProcessRef, ProcessVM, ProcessVMRef,
-    ResourceLimitsRef, SchedAgentRef, TermStatus, ThreadRef,
+    ResourceLimitsRef, RobustListHead, SchedAgentRef, TermStatus, ThreadRef,
 };
 use crate::events::HostEventFd;
 use crate::fs::{EventCreationFlags, EventFile};
@ -28,6 +28,7 @@ pub struct Thread {
    tid: ThreadId,
    // Mutable info
    clear_ctid: RwLock<Option<NonNull<pid_t>>>,
    robust_list: RwLock<Option<NonNull<RobustListHead>>>,
    inner: SgxMutex<ThreadInner>,
    name: RwLock<ThreadName>,
    // Process
@ -139,6 +140,37 @@ impl Thread {
        *self.clear_ctid.write().unwrap() = new_clear_ctid;
    }
    pub fn robust_list(&self) -> Option<NonNull<RobustListHead>> {
        *self.robust_list.read().unwrap()
    }
    pub fn set_robust_list(&self, new_robust_list: Option<NonNull<RobustListHead>>) {
        *self.robust_list.write().unwrap() = new_robust_list;
    }
    /// Walks the robust futex list, marking futex dead and wake waiters.
    /// It corresponds to Linux's exit_robust_list(), errors are silently ignored.
    pub fn wake_robust_list(&self) {
        let list_head_ptr = match self.robust_list() {
            None => {
                return;
            }
            Some(robust_list) => robust_list.as_ptr(),
        };
        debug!("wake the rubust_list: {:?}", list_head_ptr);
        let robust_list = {
            // Invalid pointer, stop scanning the list further
            if crate::util::mem_util::from_user::check_ptr(list_head_ptr).is_err() {
                return;
            }
            unsafe { &*list_head_ptr }
        };
        for futex_addr in robust_list.futexes() {
            super::do_robust_list::wake_robust_futex(futex_addr, self.tid());
        }
        self.set_robust_list(None);
    }
    pub fn name(&self) -> ThreadName {
        self.name.read().unwrap().clone()
    }
--- a/src/libos/src/syscall/mod.rs
+++ b/src/libos/src/syscall/mod.rs
@ -41,10 +41,11 @@ use crate::net::{
    do_shutdown, do_socket, do_socketpair, mmsghdr, msghdr, msghdr_mut,
 };
 use crate::process::{
-    do_arch_prctl, do_clone, do_execve, do_exit, do_exit_group, do_futex, do_getegid, do_geteuid,
+    do_arch_prctl, do_clone, do_execve, do_exit, do_exit_group, do_futex, do_get_robust_list,
-    do_getgid, do_getgroups, do_getpgid, do_getpid, do_getppid, do_gettid, do_getuid, do_prctl,
+    do_getegid, do_geteuid, do_getgid, do_getgroups, do_getpgid, do_getpid, do_getppid, do_gettid,
-    do_set_tid_address, do_spawn_for_glibc, do_spawn_for_musl, do_wait4, pid_t, posix_spawnattr_t,
+    do_getuid, do_prctl, do_set_robust_list, do_set_tid_address, do_spawn_for_glibc,
-    FdOp, SpawnFileActions, ThreadStatus,
+    do_spawn_for_musl, do_wait4, pid_t, posix_spawnattr_t, FdOp, RobustListHead, SpawnFileActions,
    ThreadStatus,
 };
 use crate::sched::{do_getcpu, do_sched_getaffinity, do_sched_setaffinity, do_sched_yield};
 use crate::signal::{
@ -359,8 +360,8 @@ macro_rules! process_syscall_table_with_callback {
            (Pselect6 = 270) => handle_unsupported(),
            (Ppoll = 271) => handle_unsupported(),
            (Unshare = 272) => handle_unsupported(),
-            (SetRobustList = 273) => handle_unsupported(),
+            (SetRobustList = 273) => do_set_robust_list(list_head_ptr: *mut RobustListHead, len: usize),
-            (GetRobustList = 274) => handle_unsupported(),
+            (GetRobustList = 274) => do_get_robust_list(tid: pid_t, list_head_ptr_ptr: *mut *mut RobustListHead, len_ptr: *mut usize),
            (Splice = 275) => handle_unsupported(),
            (Tee = 276) => handle_unsupported(),
            (SyncFileRange = 277) => handle_unsupported(),
--- a/test/pthread/main.c
+++ b/test/pthread/main.c
@ -84,6 +84,83 @@ static int test_mutex_with_concurrent_counter(void) {
    return 0;
 }
 // ============================================================================
 // The test case of robust mutex
 // ============================================================================
 struct thread_robust_arg {
    int                         ti;
    volatile int                *global_count;
    pthread_mutex_t             *mutex;
 };
 int ret_err = -1;
 static void *thread_worker(void *_arg) {
    struct thread_robust_arg *arg = _arg;
    int err = pthread_mutex_lock(arg->mutex);
    if (err == EOWNERDEAD) {
        // The mutex is locked by the thread here, but the state is marked as
        // inconsistent, the thread should call 'pthread_mutex_consistent' to
        // make the mutex consistent again.
        if (pthread_mutex_consistent(arg->mutex) != 0) {
            printf("ERROR: failed to recover the mutex\n");
            return &ret_err;
        }
    } else if (err != 0) {
        printf("ERROR: failed to lock the mutex with error: %d\n", err);
        return &ret_err;
    }
    // Mutex is locked
    (*arg->global_count)++;
    // Wait for other threads to acquire the lock
    sleep(1);
    // Exit without unlocking the mutex, this will makes the mutex in an
    // inconsistent state.
    return NULL;
 }
 static int test_robust_mutex_with_concurrent_counter(void) {
    volatile int global_count = 0;
    pthread_t threads[NTHREADS];
    struct thread_robust_arg thread_args[NTHREADS];
    // Init robust mutex
    pthread_mutex_t mutex;
    pthread_mutexattr_t attr;
    pthread_mutexattr_init(&attr);
    pthread_mutexattr_setrobust(&attr, PTHREAD_MUTEX_ROBUST);
    pthread_mutex_init(&mutex, &attr);
    // Start the threads
    for (int ti = 0; ti < NTHREADS; ti++) {
        struct thread_robust_arg *thread_arg = &thread_args[ti];
        thread_arg->ti = ti;
        thread_arg->global_count = &global_count;
        thread_arg->mutex = &mutex;
        if (pthread_create(&threads[ti], NULL, thread_worker, thread_arg) < 0) {
            THROW_ERROR("pthread_create failed (ti = %d)", ti);
        }
    }
    // Wait for the threads to finish
    for (int ti = 0; ti < NTHREADS; ti++) {
        int *ret_val;
        if (pthread_join(threads[ti], (void **)&ret_val) < 0) {
            THROW_ERROR("pthread_join failed (ti = %d)", ti);
        }
        if (ret_val && *ret_val != 0) {
            THROW_ERROR("run thread failed (ti = %d) with return val: %d", ti, *ret_val);
        }
    }
    // Check the result
    if (global_count != NTHREADS) {
        THROW_ERROR("incorrect global_count (actual = %d, expected = %d)", global_count,
                    NTHREADS);
    }
    pthread_mutex_destroy(&mutex);
    return 0;
 }
 // ============================================================================
 // The test case of waiting condition variable
 // ============================================================================
@ -189,6 +266,7 @@ static int test_mutex_timedlock() {
 static test_case_t test_cases[] = {
    TEST_CASE(test_mutex_with_concurrent_counter),
    TEST_CASE(test_robust_mutex_with_concurrent_counter),
    TEST_CASE(test_mutex_with_cond_wait),
    TEST_CASE(test_mutex_timedlock),
 };