/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include namespace Kernel { ErrorOr Process::sys$fork(RegisterState& regs) { VERIFY_PROCESS_BIG_LOCK_ACQUIRED(this); TRY(require_promise(Pledge::proc)); RefPtr child_first_thread; auto child_name = TRY(m_name->try_clone()); auto child = TRY(Process::try_create(child_first_thread, move(child_name), uid(), gid(), pid(), m_is_kernel_process, m_cwd, m_executable, m_tty, this)); child->m_veil_state = m_veil_state; child->m_unveiled_paths = m_unveiled_paths.deep_copy(); TRY(child->m_fds.try_clone(m_fds)); child->m_pg = m_pg; { ProtectedDataMutationScope scope { *child }; child->m_protected_values.promises = m_protected_values.promises.load(); child->m_protected_values.execpromises = m_protected_values.execpromises.load(); child->m_protected_values.has_promises = m_protected_values.has_promises.load(); child->m_protected_values.has_execpromises = m_protected_values.has_execpromises.load(); child->m_protected_values.sid = m_protected_values.sid; child->m_protected_values.extra_gids = m_protected_values.extra_gids; child->m_protected_values.umask = m_protected_values.umask; child->m_protected_values.signal_trampoline = m_protected_values.signal_trampoline; child->m_protected_values.dumpable = m_protected_values.dumpable; } dbgln_if(FORK_DEBUG, "fork: child={}", child); child->address_space().set_enforces_syscall_regions(address_space().enforces_syscall_regions()); // A child created via fork(2) inherits a copy of its parent's signal mask child_first_thread->update_signal_mask(Thread::current()->signal_mask()); // A child process created via fork(2) inherits a copy of its parent's alternate signal stack settings. child_first_thread->m_alternative_signal_stack = Thread::current()->m_alternative_signal_stack; child_first_thread->m_alternative_signal_stack_size = Thread::current()->m_alternative_signal_stack_size; #if ARCH(I386) auto& child_regs = child_first_thread->m_regs; child_regs.eax = 0; // fork() returns 0 in the child :^) child_regs.ebx = regs.ebx; child_regs.ecx = regs.ecx; child_regs.edx = regs.edx; child_regs.ebp = regs.ebp; child_regs.esp = regs.userspace_esp; child_regs.esi = regs.esi; child_regs.edi = regs.edi; child_regs.eflags = regs.eflags; child_regs.eip = regs.eip; child_regs.cs = regs.cs; child_regs.ds = regs.ds; child_regs.es = regs.es; child_regs.fs = regs.fs; child_regs.gs = regs.gs; child_regs.ss = regs.userspace_ss; dbgln_if(FORK_DEBUG, "fork: child will begin executing at {:#04x}:{:p} with stack {:#04x}:{:p}, kstack {:#04x}:{:p}", child_regs.cs, child_regs.eip, child_regs.ss, child_regs.esp, child_regs.ss0, child_regs.esp0); #else auto& child_regs = child_first_thread->m_regs; child_regs.rax = 0; // fork() returns 0 in the child :^) child_regs.rbx = regs.rbx; child_regs.rcx = regs.rcx; child_regs.rdx = regs.rdx; child_regs.rbp = regs.rbp; child_regs.rsp = regs.userspace_rsp; child_regs.rsi = regs.rsi; child_regs.rdi = regs.rdi; child_regs.r8 = regs.r8; child_regs.r9 = regs.r9; child_regs.r10 = regs.r10; child_regs.r11 = regs.r11; child_regs.r12 = regs.r12; child_regs.r13 = regs.r13; child_regs.r14 = regs.r14; child_regs.r15 = regs.r15; child_regs.rflags = regs.rflags; child_regs.rip = regs.rip; child_regs.cs = regs.cs; dbgln_if(FORK_DEBUG, "fork: child will begin executing at {:#04x}:{:p} with stack {:p}, kstack {:p}", child_regs.cs, child_regs.rip, child_regs.rsp, child_regs.rsp0); #endif { SpinlockLocker lock(address_space().get_lock()); for (auto& region : address_space().regions()) { dbgln_if(FORK_DEBUG, "fork: cloning Region({}) '{}' @ {}", region, region->name(), region->vaddr()); auto region_clone = TRY(region->try_clone()); auto* child_region = TRY(child->address_space().add_region(move(region_clone))); TRY(child_region->map(child->address_space().page_directory(), Memory::ShouldFlushTLB::No)); if (region == m_master_tls_region.unsafe_ptr()) child->m_master_tls_region = child_region; } } Process::register_new(*child); PerformanceManager::add_process_created_event(*child); SpinlockLocker lock(g_scheduler_lock); child_first_thread->set_affinity(Thread::current()->affinity()); child_first_thread->set_state(Thread::State::Runnable); auto child_pid = child->pid().value(); // NOTE: All user processes have a leaked ref on them. It's balanced by Thread::WaitBlockerSet::finalize(). (void)child.leak_ref(); return child_pid; } }