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Kernel: Remove unused ShouldDeallocateVirtualRange parameters

Browse source 
Since there is no separate virtual range allocator anymore, this is
no longer used for anything.
This commit is contained in:
Andreas Kling 2022-04-04 23:36:09 +02:00
parent b36c3a68d8
commit e3e1d79a7d
6 changed files with 21 additions and 38 deletions
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2
Kernel/Interrupts/APIC.cpp
View file

@ -431,7 +431,7 @@ UNMAP_AFTER_INIT void APIC::do_boot_aps()
// NOTE: Since this region is identity-mapped, we have to unmap it manually to prevent the virtual
// address range from leaking into the general virtual range allocator.
m_ap_boot_environment->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
m_ap_boot_environment->unmap();
m_ap_boot_environment = nullptr;
// When the APs signal that they finished their initialization they have already switched over to their
// idle thread's stack, so the temporary boot stack can be deallocated

14
Kernel/Memory/AddressSpace.cpp
View file

@ -71,11 +71,9 @@ ErrorOr<void> AddressSpace::unmap_mmap_range(VirtualAddress addr, size_t size)
return EPERM;
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but don't deallocate it yet.
// with the exact same start address.
auto region = take_region(*old_region);
// We manually unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Region::ShouldDeallocateVirtualRange::No);
region->unmap();
auto new_regions = TRY(try_split_region_around_range(*region, range_to_unmap));
@ -113,11 +111,9 @@ ErrorOr<void> AddressSpace::unmap_mmap_range(VirtualAddress addr, size_t size)
}
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but don't deallocate it yet.
// with the exact same start address.
auto region = take_region(*old_region);
// We manually unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Region::ShouldDeallocateVirtualRange::No);
region->unmap();
// Otherwise, split the regions and collect them for future mapping.
auto split_regions = TRY(try_split_region_around_range(*region, range_to_unmap));
@ -339,7 +335,7 @@ void AddressSpace::remove_all_regions(Badge<Process>)
SpinlockLocker pd_locker(m_page_directory->get_lock());
SpinlockLocker mm_locker(s_mm_lock);
for (auto& region : m_region_tree.regions())
region.unmap_with_locks_held(Region::ShouldDeallocateVirtualRange::No, ShouldFlushTLB::No, pd_locker, mm_locker);
region.unmap_with_locks_held(ShouldFlushTLB::No, pd_locker, mm_locker);
}
m_region_tree.delete_all_regions_assuming_they_are_unmapped();

8
Kernel/Memory/Region.cpp
View file

@ -73,7 +73,7 @@ Region::~Region()
// If the region is "PROT_NONE", we didn't map it in the first place.
} else {
SpinlockLocker mm_locker(s_mm_lock);
unmap_with_locks_held(ShouldDeallocateVirtualRange::Yes, ShouldFlushTLB::Yes, pd_locker, mm_locker);
unmap_with_locks_held(ShouldFlushTLB::Yes, pd_locker, mm_locker);
VERIFY(!m_page_directory);
}
}
@ -266,16 +266,16 @@ bool Region::remap_vmobject_page(size_t page_index, bool with_flush)
return success;
}
void Region::unmap(ShouldDeallocateVirtualRange should_deallocate_range, ShouldFlushTLB should_flush_tlb)
void Region::unmap(ShouldFlushTLB should_flush_tlb)
{
if (!m_page_directory)
return;
SpinlockLocker pd_locker(m_page_directory->get_lock());
SpinlockLocker mm_locker(s_mm_lock);
unmap_with_locks_held(should_deallocate_range, should_flush_tlb, pd_locker, mm_locker);
unmap_with_locks_held(should_flush_tlb, pd_locker, mm_locker);
}
void Region::unmap_with_locks_held(ShouldDeallocateVirtualRange, ShouldFlushTLB should_flush_tlb, SpinlockLocker<RecursiveSpinlock>&, SpinlockLocker<RecursiveSpinlock>&)
void Region::unmap_with_locks_held(ShouldFlushTLB should_flush_tlb, SpinlockLocker<RecursiveSpinlock>&, SpinlockLocker<RecursiveSpinlock>&)
{
if (!m_page_directory)
return;

8
Kernel/Memory/Region.h
View file

@ -182,12 +182,8 @@ public:
void set_page_directory(PageDirectory&);
ErrorOr<void> map(PageDirectory&, ShouldFlushTLB = ShouldFlushTLB::Yes);
enum class ShouldDeallocateVirtualRange {
No,
Yes,
};
void unmap(ShouldDeallocateVirtualRange, ShouldFlushTLB = ShouldFlushTLB::Yes);
void unmap_with_locks_held(ShouldDeallocateVirtualRange, ShouldFlushTLB, SpinlockLocker<RecursiveSpinlock>& pd_locker, SpinlockLocker<RecursiveSpinlock>& mm_locker);
void unmap(ShouldFlushTLB = ShouldFlushTLB::Yes);
void unmap_with_locks_held(ShouldFlushTLB, SpinlockLocker<RecursiveSpinlock>& pd_locker, SpinlockLocker<RecursiveSpinlock>& mm_locker);
void remap();

15
Kernel/Syscalls/mmap.cpp
View file

@ -290,11 +290,9 @@ ErrorOr<FlatPtr> Process::sys$mprotect(Userspace<void*> addr, size_t size, int p
TRY(validate_inode_mmap_prot(prot, static_cast<Memory::InodeVMObject const&>(old_region->vmobject()).inode(), old_region->is_shared()));
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but do not deallocate it yet
// with the exact same start address.
auto region = address_space().take_region(*old_region);
// Unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
region->unmap();
// This vector is the region(s) adjacent to our range.
// We need to allocate a new region for the range we wanted to change permission bits on.
@ -346,11 +344,9 @@ ErrorOr<FlatPtr> Process::sys$mprotect(Userspace<void*> addr, size_t size, int p
continue;
}
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but dont deallocate it yet
// with the exact same start address.
auto region = address_space().take_region(*old_region);
// Unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
region->unmap();
// This vector is the region(s) adjacent to our range.
// We need to allocate a new region for the range we wanted to change permission bits on.
@ -467,8 +463,7 @@ ErrorOr<FlatPtr> Process::sys$mremap(Userspace<Syscall::SC_mremap_params const*>
auto new_vmobject = TRY(Memory::PrivateInodeVMObject::try_create_with_inode(inode));
auto old_name = old_region->take_name();
// Unmap without deallocating the VM range since we're going to reuse it.
old_region->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
old_region->unmap();
address_space().deallocate_region(*old_region);
auto* new_region = TRY(address_space().allocate_region_with_vmobject(range, move(new_vmobject), old_offset, old_name->view(), old_prot, false));

12
Kernel/Syscalls/sigaction.cpp
View file

@ -156,11 +156,9 @@ ErrorOr<void> Process::remap_range_as_stack(FlatPtr address, size_t size)
return EINVAL;
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but do not deallocate it yet
// with the exact same start address.
auto region = address_space().take_region(*old_region);
// Unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
region->unmap();
// This vector is the region(s) adjacent to our range.
// We need to allocate a new region for the range we wanted to change permission bits on.
@ -214,11 +212,9 @@ ErrorOr<void> Process::remap_range_as_stack(FlatPtr address, size_t size)
continue;
}
// Remove the old region from our regions tree, since were going to add another region
// with the exact same start address, but dont deallocate it yet
// with the exact same start address.
auto region = address_space().take_region(*old_region);
// Unmap the old region here, specifying that we *don't* want the VM deallocated.
region->unmap(Memory::Region::ShouldDeallocateVirtualRange::No);
region->unmap();
// This vector is the region(s) adjacent to our range.
// We need to allocate a new region for the range we wanted to change permission bits on.