#include void Lock::lock() { ASSERT(!Scheduler::is_active()); if (!are_interrupts_enabled()) { kprintf("Interrupts disabled when trying to take Lock{%s}\n", m_name); dump_backtrace(); hang(); } for (;;) { if (CAS(&m_lock, 1, 0) == 0) { if (!m_holder || m_holder == current) { m_holder = current; ++m_level; memory_barrier(); m_lock = 0; return; } m_lock = 0; } Scheduler::donate_to(m_holder, m_name); } } void Lock::unlock() { for (;;) { if (CAS(&m_lock, 1, 0) == 0) { ASSERT(m_holder == current); ASSERT(m_level); --m_level; if (m_level) { memory_barrier(); m_lock = 0; return; } m_holder = nullptr; memory_barrier(); m_lock = 0; return; } Scheduler::donate_to(m_holder, m_name); } } bool Lock::unlock_if_locked() { for (;;) { if (CAS(&m_lock, 1, 0) == 0) { if (m_level == 0) { memory_barrier(); m_lock = 0; return false; } ASSERT(m_holder == current); ASSERT(m_level); --m_level; if (m_level) { memory_barrier(); m_lock = 0; return false; } m_holder = nullptr; memory_barrier(); m_lock = 0; return true; } } }