forked from Bananymous/banan-os
Kernel: Restructure process and thread termination
When we want to kill a process, we mark its threads as Terminating or Terminated. If the thread is in critical section that has to be finished, it will be in Terminating state until done. Once Scheduler is trying to execute Terminated thread it will instead delete it. Once processes last thread is marked Terminated, the processes will turn it into a cleanup thread, that will allow blocks and memory cleanup to be done.
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@ -41,8 +41,9 @@ namespace Kernel
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static Process* create_kernel(entry_t, void*);
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static BAN::ErrorOr<Process*> create_userspace(const Credentials&, BAN::StringView);
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~Process();
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void cleanup_function();
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[[noreturn]] void exit(int status);
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void exit(int status);
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void add_thread(Thread*);
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void on_thread_exit(Thread&);
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@ -20,9 +20,6 @@ namespace Kernel
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void reschedule_if_idling();
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void set_current_thread_sleeping(uint64_t);
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[[noreturn]] void set_current_thread_done();
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[[noreturn]] void set_current_process_done();
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void block_current_thread(Semaphore*);
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void unblock_threads(Semaphore*);
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@ -33,6 +30,8 @@ namespace Kernel
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static bool is_valid_tid(pid_t tid);
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[[noreturn]] void delete_current_process_and_thread();
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private:
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Scheduler() = default;
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@ -76,6 +75,7 @@ namespace Kernel
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uint64_t m_last_reschedule = 0;
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friend class Thread;
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friend class Process;
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};
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@ -27,6 +27,16 @@ namespace Kernel
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NotStarted,
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Executing,
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Terminating,
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Terminated
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};
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class TerminateBlocker
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{
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public:
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TerminateBlocker(Thread&);
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~TerminateBlocker();
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private:
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Thread& m_thread;
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};
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public:
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@ -36,6 +46,7 @@ namespace Kernel
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BAN::ErrorOr<Thread*> clone(Process*, uintptr_t rsp, uintptr_t rip);
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void setup_exec();
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void setup_process_cleanup();
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bool has_signal_to_execute() const;
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void set_signal_done(int signal);
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@ -55,8 +66,8 @@ namespace Kernel
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uintptr_t rip() const { return m_rip; }
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void set_started() { ASSERT(m_state == State::NotStarted); m_state = State::Executing; }
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void set_terminating();
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State state() const { return m_state; }
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void terminate() { m_state = State::Terminating; }
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vaddr_t stack_base() const { return m_stack->vaddr(); }
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size_t stack_size() const { return m_stack->size(); }
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@ -103,6 +114,9 @@ namespace Kernel
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int m_handling_signal { 0 };
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static_assert(_SIGMAX < 64);
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uint64_t m_terminate_blockers { 0 };
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friend class TerminateBlocker;
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friend class Scheduler;
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};
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@ -2,6 +2,7 @@
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#include <BAN/StringView.h>
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#include <kernel/CriticalScope.h>
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#include <kernel/FS/VirtualFileSystem.h>
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#include <kernel/InterruptController.h>
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#include <kernel/LockGuard.h>
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#include <kernel/Memory/Heap.h>
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#include <kernel/Memory/PageTableScope.h>
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@ -108,6 +109,7 @@ namespace Kernel
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ASSERT(m_fixed_width_allocators.empty());
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ASSERT(!m_general_allocator);
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ASSERT(m_mapped_ranges.empty());
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ASSERT(m_exit_status.waiting == 0);
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ASSERT(&PageTable::current() != m_page_table.ptr());
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}
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@ -117,20 +119,15 @@ namespace Kernel
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MUST(m_threads.push_back(thread));
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}
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void Process::on_thread_exit(Thread& thread)
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void Process::cleanup_function()
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{
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LockGuard _(m_lock);
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for (size_t i = 0; i < m_threads.size(); i++)
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if (m_threads[i] == &thread)
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m_threads.remove(i);
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if (m_threads.empty())
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exit(0);
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}
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s_process_lock.lock();
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for (size_t i = 0; i < s_processes.size(); i++)
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if (s_processes[i] == this)
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s_processes.remove(i);
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s_process_lock.unlock();
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void Process::exit(int status)
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{
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m_lock.lock();
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m_exit_status.exit_code = status;
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m_exit_status.exited = true;
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while (m_exit_status.waiting > 0)
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{
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@ -141,7 +138,6 @@ namespace Kernel
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m_lock.lock();
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}
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m_threads.clear();
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m_open_file_descriptors.close_all();
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// NOTE: We must unmap ranges while the page table is still alive
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@ -153,21 +149,47 @@ namespace Kernel
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if (m_tty && m_tty->foreground_process() == pid())
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m_tty->set_foreground_process(0);
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}
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s_process_lock.lock();
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for (size_t i = 0; i < s_processes.size(); i++)
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if (s_processes[i] == this)
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s_processes.remove(i);
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s_process_lock.unlock();
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void Process::on_thread_exit(Thread& thread)
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{
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ASSERT(!interrupts_enabled());
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// FIXME: we can't assume this is the current process
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ASSERT(&Process::current() == this);
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Scheduler::get().set_current_process_done();
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ASSERT(m_threads.size() > 0);
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if (m_threads.size() == 1)
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{
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ASSERT(m_threads.front() == &thread);
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m_threads.clear();
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thread.setup_process_cleanup();
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Scheduler::get().execute_current_thread();
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}
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for (size_t i = 0; i < m_threads.size(); i++)
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{
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if (m_threads[i] == &thread)
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{
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m_threads.remove(i);
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return;
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}
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}
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ASSERT_NOT_REACHED();
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}
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void Process::exit(int status)
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{
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LockGuard _(m_lock);
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m_exit_status.exit_code = status;
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for (auto* thread : m_threads)
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thread->set_terminating();
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}
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BAN::ErrorOr<long> Process::sys_exit(int status)
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{
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exit(status);
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Thread::TerminateBlocker _(Thread::current());
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ASSERT_NOT_REACHED();
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}
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@ -558,6 +580,7 @@ namespace Kernel
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BAN::ErrorOr<long> Process::sys_read(int fd, void* buffer, size_t count)
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{
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Thread::TerminateBlocker blocker(Thread::current());
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LockGuard _(m_lock);
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return TRY(m_open_file_descriptors.read(fd, buffer, count));
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}
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@ -192,32 +192,67 @@ namespace Kernel
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return false;
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}
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void Scheduler::delete_current_process_and_thread()
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{
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DISABLE_INTERRUPTS();
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load_temp_stack();
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PageTable::kernel().load();
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Thread* thread = m_current_thread->thread;
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ASSERT(thread->has_process());
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delete &thread->process();
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remove_and_advance_current_thread();
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delete thread;
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execute_current_thread();
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}
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void Scheduler::execute_current_thread()
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{
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VERIFY_CLI();
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Thread& current = current_thread();
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load_temp_stack();
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PageTable::kernel().load();
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if (current.has_process())
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Thread* current = ¤t_thread();
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while (current->state() == Thread::State::Terminated)
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{
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current.process().page_table().load();
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GDT::set_tss_stack(current.interrupt_stack_base() + current.interrupt_stack_size());
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Thread* thread = m_current_thread->thread;
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if (thread->has_process())
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thread->process().on_thread_exit(*thread);
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remove_and_advance_current_thread();
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delete thread;
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current = ¤t_thread();
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}
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if (current->has_process())
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{
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current->process().page_table().load();
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GDT::set_tss_stack(current->interrupt_stack_base() + current->interrupt_stack_size());
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}
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else
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PageTable::kernel().load();
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switch (current.state())
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switch (current->state())
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{
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case Thread::State::NotStarted:
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current.set_started();
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start_thread(current.rsp(), current.rip());
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current->set_started();
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start_thread(current->rsp(), current->rip());
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case Thread::State::Executing:
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while (current.has_signal_to_execute())
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current.handle_next_signal();
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continue_thread(current.rsp(), current.rip());
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while (current->has_signal_to_execute() && current->state() == Thread::State::Executing)
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current->handle_next_signal();
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// fall through
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case Thread::State::Terminating:
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ENABLE_INTERRUPTS();
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current.on_exit();
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continue_thread(current->rsp(), current->rip());
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case Thread::State::Terminated:
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ASSERT_NOT_REACHED();
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}
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@ -253,60 +288,6 @@ namespace Kernel
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ASSERT_NOT_REACHED();
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}
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void Scheduler::set_current_thread_done()
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{
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DISABLE_INTERRUPTS();
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load_temp_stack();
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ASSERT(m_current_thread);
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Thread* thread = m_current_thread->thread;
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remove_and_advance_current_thread();
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delete thread;
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execute_current_thread();
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ASSERT_NOT_REACHED();
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}
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#define remove_threads(list, condition) \
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for (auto it = list.begin(); it != list.end();) \
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{ \
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if (condition) \
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{ \
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delete it->thread; \
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it = list.remove(it); \
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} \
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else \
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{ \
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it++; \
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} \
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}
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void Scheduler::set_current_process_done()
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{
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DISABLE_INTERRUPTS();
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load_temp_stack();
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PageTable::kernel().load();
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ASSERT(m_current_thread);
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Thread* thread = m_current_thread->thread;
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Process* process = &thread->process();
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remove_threads(m_blocking_threads, it->thread->process().pid() == process->pid());
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remove_threads(m_sleeping_threads, it->thread->process().pid() == process->pid());
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remove_threads(m_active_threads, it != m_current_thread && it->thread->process().pid() == process->pid());
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remove_and_advance_current_thread();
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delete thread;
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delete process;
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execute_current_thread();
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ASSERT_NOT_REACHED();
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}
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void Scheduler::block_current_thread(Semaphore* semaphore)
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{
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VERIFY_STI();
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@ -25,6 +25,52 @@ namespace Kernel
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memcpy((void*)rsp, (void*)&value, sizeof(uintptr_t));
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}
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Thread::TerminateBlocker::TerminateBlocker(Thread& thread)
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: m_thread(thread)
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{
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{
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CriticalScope _;
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if (m_thread.state() == State::Executing || m_thread.m_terminate_blockers > 0)
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{
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m_thread.m_terminate_blockers++;
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return;
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}
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if (m_thread.state() == State::Terminating && m_thread.m_terminate_blockers == 0)
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m_thread.m_state = State::Terminated;
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}
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while (true)
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Scheduler::get().reschedule();
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}
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Thread::TerminateBlocker::~TerminateBlocker()
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{
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{
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CriticalScope _;
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m_thread.m_terminate_blockers--;
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if (m_thread.state() == State::Executing || m_thread.m_terminate_blockers > 0)
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return;
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if (m_thread.state() == State::Terminating && m_thread.m_terminate_blockers == 0)
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m_thread.m_state = State::Terminated;
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}
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while (true)
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Scheduler::get().reschedule();
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}
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void Thread::set_terminating()
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{
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CriticalScope _;
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m_state = m_terminate_blockers == 0 ? State::Terminated : State::Terminating;
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Scheduler::get().unblock_thread(tid());
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}
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static pid_t s_next_tid = 1;
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BAN::ErrorOr<Thread*> Thread::create_kernel(entry_t entry, void* data, Process* process)
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@ -144,6 +190,32 @@ namespace Kernel
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}
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}
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void Thread::setup_process_cleanup()
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{
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m_state = State::NotStarted;
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static entry_t entry(
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[](void* process)
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{
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((Process*)process)->cleanup_function();
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Scheduler::get().delete_current_process_and_thread();
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ASSERT_NOT_REACHED();
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}
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);
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m_rsp = stack_base() + stack_size();
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m_rip = (uintptr_t)entry;
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m_signal_mask = ~0ull;
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// Setup stack for returning
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{
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// FIXME: don't use PageTableScope
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PageTableScope _(m_process->page_table());
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write_to_stack(m_rsp, this);
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write_to_stack(m_rsp, &Thread::on_exit);
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write_to_stack(m_rsp, m_process);
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}
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}
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bool Thread::has_signal_to_execute() const
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{
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return !m_signal_queue.empty() && !m_handling_signal;
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@ -227,12 +299,8 @@ namespace Kernel
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case SIGPROF:
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case SIGVTALRM:
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{
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// NOTE: we cannot have schedulers temporary stack when
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// enabling interrupts
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asm volatile("movq %0, %%rsp" :: "r"(m_return_rsp));
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ENABLE_INTERRUPTS();
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process().exit(128 + signal);
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ASSERT_NOT_REACHED();
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break;
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}
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// Ignore the signal
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@ -280,9 +348,8 @@ namespace Kernel
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void Thread::on_exit()
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{
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if (m_process)
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m_process->on_thread_exit(*this);
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Scheduler::get().set_current_thread_done();
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set_terminating();
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TerminateBlocker(*this);
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ASSERT_NOT_REACHED();
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}
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