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54b9a4ec1e
Previously we would crash the process immediately when a promise violation was found during a syscall. This is error prone, as we don't unwind the stack. This means that in certain cases we can leak resources, like an OwnPtr / RefPtr tracked on the stack. Or even leak a lock acquired in a ScopeLockLocker. To remedy this situation we move the promise violation handling to the syscall handler, right before we return to user space. This allows the code to follow the normal unwind path, and grantees there is no longer any cleanup that needs to occur. The Process::require_promise() and Process::require_no_promises() functions were modified to return ErrorOr<void> so we enforce that the errors are always propagated by the caller.
129 lines
5 KiB
C++
129 lines
5 KiB
C++
/*
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* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
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*
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* SPDX-License-Identifier: BSD-2-Clause
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*/
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#include <Kernel/Debug.h>
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#include <Kernel/FileSystem/Custody.h>
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#include <Kernel/FileSystem/OpenFileDescription.h>
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#include <Kernel/Memory/Region.h>
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#include <Kernel/PerformanceManager.h>
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#include <Kernel/Process.h>
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namespace Kernel {
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ErrorOr<FlatPtr> Process::sys$fork(RegisterState& regs)
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{
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VERIFY_PROCESS_BIG_LOCK_ACQUIRED(this);
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TRY(require_promise(Pledge::proc));
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RefPtr<Thread> child_first_thread;
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auto child_name = TRY(m_name->try_clone());
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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));
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child->m_veil_state = m_veil_state;
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child->m_unveiled_paths = m_unveiled_paths.deep_copy();
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TRY(child->m_fds.try_clone(m_fds));
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child->m_pg = m_pg;
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{
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ProtectedDataMutationScope scope { *child };
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child->m_protected_values.promises = m_protected_values.promises.load();
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child->m_protected_values.execpromises = m_protected_values.execpromises.load();
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child->m_protected_values.has_promises = m_protected_values.has_promises.load();
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child->m_protected_values.has_execpromises = m_protected_values.has_execpromises.load();
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child->m_protected_values.sid = m_protected_values.sid;
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child->m_protected_values.extra_gids = m_protected_values.extra_gids;
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child->m_protected_values.umask = m_protected_values.umask;
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child->m_protected_values.signal_trampoline = m_protected_values.signal_trampoline;
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child->m_protected_values.dumpable = m_protected_values.dumpable;
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}
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dbgln_if(FORK_DEBUG, "fork: child={}", child);
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child->address_space().set_enforces_syscall_regions(address_space().enforces_syscall_regions());
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// A child created via fork(2) inherits a copy of its parent's signal mask
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child_first_thread->update_signal_mask(Thread::current()->signal_mask());
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// A child process created via fork(2) inherits a copy of its parent's alternate signal stack settings.
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child_first_thread->m_alternative_signal_stack = Thread::current()->m_alternative_signal_stack;
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child_first_thread->m_alternative_signal_stack_size = Thread::current()->m_alternative_signal_stack_size;
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#if ARCH(I386)
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auto& child_regs = child_first_thread->m_regs;
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child_regs.eax = 0; // fork() returns 0 in the child :^)
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child_regs.ebx = regs.ebx;
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child_regs.ecx = regs.ecx;
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child_regs.edx = regs.edx;
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child_regs.ebp = regs.ebp;
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child_regs.esp = regs.userspace_esp;
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child_regs.esi = regs.esi;
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child_regs.edi = regs.edi;
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child_regs.eflags = regs.eflags;
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child_regs.eip = regs.eip;
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child_regs.cs = regs.cs;
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child_regs.ds = regs.ds;
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child_regs.es = regs.es;
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child_regs.fs = regs.fs;
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child_regs.gs = regs.gs;
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child_regs.ss = regs.userspace_ss;
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dbgln_if(FORK_DEBUG, "fork: child will begin executing at {:#04x}:{:p} with stack {:#04x}:{:p}, kstack {:#04x}:{:p}",
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child_regs.cs, child_regs.eip, child_regs.ss, child_regs.esp, child_regs.ss0, child_regs.esp0);
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#else
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auto& child_regs = child_first_thread->m_regs;
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child_regs.rax = 0; // fork() returns 0 in the child :^)
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child_regs.rbx = regs.rbx;
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child_regs.rcx = regs.rcx;
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child_regs.rdx = regs.rdx;
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child_regs.rbp = regs.rbp;
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child_regs.rsp = regs.userspace_rsp;
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child_regs.rsi = regs.rsi;
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child_regs.rdi = regs.rdi;
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child_regs.r8 = regs.r8;
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child_regs.r9 = regs.r9;
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child_regs.r10 = regs.r10;
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child_regs.r11 = regs.r11;
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child_regs.r12 = regs.r12;
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child_regs.r13 = regs.r13;
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child_regs.r14 = regs.r14;
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child_regs.r15 = regs.r15;
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child_regs.rflags = regs.rflags;
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child_regs.rip = regs.rip;
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child_regs.cs = regs.cs;
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dbgln_if(FORK_DEBUG, "fork: child will begin executing at {:#04x}:{:p} with stack {:p}, kstack {:p}",
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child_regs.cs, child_regs.rip, child_regs.rsp, child_regs.rsp0);
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#endif
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{
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SpinlockLocker lock(address_space().get_lock());
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for (auto& region : address_space().regions()) {
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dbgln_if(FORK_DEBUG, "fork: cloning Region({}) '{}' @ {}", region, region->name(), region->vaddr());
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auto region_clone = TRY(region->try_clone());
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auto* child_region = TRY(child->address_space().add_region(move(region_clone)));
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TRY(child_region->map(child->address_space().page_directory(), Memory::ShouldFlushTLB::No));
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if (region == m_master_tls_region.unsafe_ptr())
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child->m_master_tls_region = child_region;
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}
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}
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Process::register_new(*child);
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PerformanceManager::add_process_created_event(*child);
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SpinlockLocker lock(g_scheduler_lock);
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child_first_thread->set_affinity(Thread::current()->affinity());
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child_first_thread->set_state(Thread::State::Runnable);
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auto child_pid = child->pid().value();
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// NOTE: All user processes have a leaked ref on them. It's balanced by Thread::WaitBlockerSet::finalize().
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(void)child.leak_ref();
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return child_pid;
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}
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}
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