ladybird/Kernel/VM/Region.cpp

#include <Kernel/FileSystem/Inode.h>
#include <Kernel/Process.h>
#include <Kernel/Thread.h>
#include <Kernel/VM/AnonymousVMObject.h>
#include <Kernel/VM/InodeVMObject.h>
#include <Kernel/VM/MemoryManager.h>
#include <Kernel/VM/Region.h>

Region::Region(const Range& range, const String& name, u8 access, bool cow)
    : m_range(range)
    , m_vmo(AnonymousVMObject::create_with_size(size()))
    , m_name(name)
    , m_access(access)
    , m_cow_map(Bitmap::create(m_vmo->page_count(), cow))
{
    MM.register_region(*this);
}

Region::Region(const Range& range, RefPtr<Inode>&& inode, const String& name, u8 access, bool cow)
    : m_range(range)
    , m_vmo(InodeVMObject::create_with_inode(*inode))
    , m_name(name)
    , m_access(access)
    , m_cow_map(Bitmap::create(m_vmo->page_count(), cow))
{
    MM.register_region(*this);
}

Region::Region(const Range& range, NonnullRefPtr<VMObject> vmo, size_t offset_in_vmo, const String& name, u8 access, bool cow)
    : m_range(range)
    , m_offset_in_vmo(offset_in_vmo)
    , m_vmo(move(vmo))
    , m_name(name)
    , m_access(access)
    , m_cow_map(Bitmap::create(m_vmo->page_count(), cow))
{
    MM.register_region(*this);
}

Region::~Region()
{
    if (m_page_directory) {
        MM.unmap_region(*this);
        ASSERT(!m_page_directory);
    }
    MM.unregister_region(*this);
}

bool Region::page_in()
{
    ASSERT(m_page_directory);
    ASSERT(vmo().is_inode());
#ifdef MM_DEBUG
    dbgprintf("MM: page_in %u pages\n", page_count());
#endif
    for (size_t i = 0; i < page_count(); ++i) {
        auto& vmo_page = vmo().physical_pages()[first_page_index() + i];
        if (vmo_page.is_null()) {
            bool success = MM.page_in_from_inode(*this, i);
            if (!success)
                return false;
            continue;
        }
        MM.remap_region_page(*this, i);
    }
    return true;
}

NonnullRefPtr<Region> Region::clone()
{
    ASSERT(current);

    // NOTE: Kernel-only regions should never be cloned.
    ASSERT(is_user_accessible());

    if (m_shared || (is_readable() && !is_writable())) {
#ifdef MM_DEBUG
        dbgprintf("%s<%u> Region::clone(): sharing %s (L%x)\n",
            current->process().name().characters(),
            current->pid(),
            m_name.characters(),
            vaddr().get());
#endif
        // Create a new region backed by the same VMObject.
        return Region::create_user_accessible(m_range, m_vmo, m_offset_in_vmo, m_name, m_access);
    }

#ifdef MM_DEBUG
    dbgprintf("%s<%u> Region::clone(): cowing %s (L%x)\n",
        current->process().name().characters(),
        current->pid(),
        m_name.characters(),
        vaddr().get());
#endif
    // Set up a COW region. The parent (this) region becomes COW as well!
    m_cow_map.fill(true);
    MM.remap_region(current->process().page_directory(), *this);
    return Region::create_user_accessible(m_range, m_vmo->clone(), m_offset_in_vmo, m_name, m_access, true);
}

int Region::commit()
{
    InterruptDisabler disabler;
#ifdef MM_DEBUG
    dbgprintf("MM: commit %u pages in Region %p (VMO=%p) at L%x\n", vmo().page_count(), this, &vmo(), vaddr().get());
#endif
    for (size_t i = first_page_index(); i <= last_page_index(); ++i) {
        if (!vmo().physical_pages()[i].is_null())
            continue;
        auto physical_page = MM.allocate_user_physical_page(MemoryManager::ShouldZeroFill::Yes);
        if (!physical_page) {
            kprintf("MM: commit was unable to allocate a physical page\n");
            return -ENOMEM;
        }
        vmo().physical_pages()[i] = move(physical_page);
        MM.remap_region_page(*this, i);
    }
    return 0;
}

size_t Region::amount_resident() const
{
    size_t bytes = 0;
    for (size_t i = 0; i < page_count(); ++i) {
        if (m_vmo->physical_pages()[first_page_index() + i])
            bytes += PAGE_SIZE;
    }
    return bytes;
}

size_t Region::amount_shared() const
{
    size_t bytes = 0;
    for (size_t i = 0; i < page_count(); ++i) {
        auto& physical_page = m_vmo->physical_pages()[first_page_index() + i];
        if (physical_page && physical_page->ref_count() > 1)
            bytes += PAGE_SIZE;
    }
    return bytes;
}

NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, const StringView& name, u8 access, bool cow)
{
    auto region = adopt(*new Region(range, name, access, cow));
    region->m_user_accessible = true;
    return region;
}

NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<VMObject> vmobject, size_t offset_in_vmobject, const StringView& name, u8 access, bool cow)
{
    auto region = adopt(*new Region(range, move(vmobject), offset_in_vmobject, name, access, cow));
    region->m_user_accessible = true;
    return region;
}

NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<Inode> inode, const StringView& name, u8 access, bool cow)
{
    auto region = adopt(*new Region(range, move(inode), name, access, cow));
    region->m_user_accessible = true;
    return region;
}

NonnullRefPtr<Region> Region::create_kernel_only(const Range& range, const StringView& name, u8 access, bool cow)
{
    auto region = adopt(*new Region(range, name, access, cow));
    region->m_user_accessible = false;
    return region;
}
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`#include <Kernel/FileSystem/Inode.h>`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#include <Kernel/Process.h>`
			`#include <Kernel/Thread.h>`
Kernel: Split VMObject into two classes: Anonymous- and InodeVMObject InodeVMObject is a VMObject with an underlying Inode in the filesystem. AnonymousVMObject has no Inode. I'm happy that InodeVMObject::inode() can now return Inode& instead of VMObject::inode() return Inode*. :^) 2019-08-07 19:06:17 +03:00			`#include <Kernel/VM/AnonymousVMObject.h>`
			`#include <Kernel/VM/InodeVMObject.h>`
Kernel: Run clang-format on everything. 2019-06-07 12:43:58 +03:00			`#include <Kernel/VM/MemoryManager.h>`
			`#include <Kernel/VM/Region.h>`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00
AK: Rename the common integer typedefs to make it obvious what they are. These types can be picked up by including <AK/Types.h>: * u8, u16, u32, u64 (unsigned) * i8, i16, i32, i64 (signed) 2019-07-03 22:17:35 +03:00			`Region::Region(const Range& range, const String& name, u8 access, bool cow)`
Kernel: Let Region keep a Range internally. 2019-05-17 05:32:08 +03:00			`: m_range(range)`
Kernel: Split VMObject into two classes: Anonymous- and InodeVMObject InodeVMObject is a VMObject with an underlying Inode in the filesystem. AnonymousVMObject has no Inode. I'm happy that InodeVMObject::inode() can now return Inode& instead of VMObject::inode() return Inode*. :^) 2019-08-07 19:06:17 +03:00			`, m_vmo(AnonymousVMObject::create_with_size(size()))`
Kernel: Tweak some String&& => const String&. String&& is just not very practical. Also return const String& when the returned string is a member variable. The call site is free to make a copy if he wants, but otherwise we can avoid the retain count churn. 2019-06-07 21:58:12 +03:00			`, m_name(name)`
Kernel: Make the Process allocate_region* API's understand "int prot". Instead of having to inspect 'prot' at every call site, make the Process API's take care of that so we can just pass it through. 2019-05-30 17:14:37 +03:00			`, m_access(access)`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`, m_cow_map(Bitmap::create(m_vmo->page_count(), cow))`
			`{`
			`MM.register_region(*this);`
			`}`

Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`Region::Region(const Range& range, RefPtr<Inode>&& inode, const String& name, u8 access, bool cow)`
Kernel: Let Region keep a Range internally. 2019-05-17 05:32:08 +03:00			`: m_range(range)`
Kernel: Split VMObject into two classes: Anonymous- and InodeVMObject InodeVMObject is a VMObject with an underlying Inode in the filesystem. AnonymousVMObject has no Inode. I'm happy that InodeVMObject::inode() can now return Inode& instead of VMObject::inode() return Inode*. :^) 2019-08-07 19:06:17 +03:00			`, m_vmo(InodeVMObject::create_with_inode(*inode))`
Kernel: Tweak some String&& => const String&. String&& is just not very practical. Also return const String& when the returned string is a member variable. The call site is free to make a copy if he wants, but otherwise we can avoid the retain count churn. 2019-06-07 21:58:12 +03:00			`, m_name(name)`
Kernel: Make the Process allocate_region* API's understand "int prot". Instead of having to inspect 'prot' at every call site, make the Process API's take care of that so we can just pass it through. 2019-05-30 17:14:37 +03:00			`, m_access(access)`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`, m_cow_map(Bitmap::create(m_vmo->page_count(), cow))`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`{`
			`MM.register_region(*this);`
			`}`

Kernel: Remove use of copy_ref() in favor of regular RefPtr copies. This is obviously more readable. If we ever run into a situation where ref count churn is actually causing trouble in the future, we can deal with it then. For now, let's keep it simple. :^) 2019-07-11 16:38:47 +03:00			`Region::Region(const Range& range, NonnullRefPtr<VMObject> vmo, size_t offset_in_vmo, const String& name, u8 access, bool cow)`
Kernel: Let Region keep a Range internally. 2019-05-17 05:32:08 +03:00			`: m_range(range)`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`, m_offset_in_vmo(offset_in_vmo)`
			`, m_vmo(move(vmo))`
Kernel: Tweak some String&& => const String&. String&& is just not very practical. Also return const String& when the returned string is a member variable. The call site is free to make a copy if he wants, but otherwise we can avoid the retain count churn. 2019-06-07 21:58:12 +03:00			`, m_name(name)`
Kernel: Make the Process allocate_region* API's understand "int prot". Instead of having to inspect 'prot' at every call site, make the Process API's take care of that so we can just pass it through. 2019-05-30 17:14:37 +03:00			`, m_access(access)`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`, m_cow_map(Bitmap::create(m_vmo->page_count(), cow))`
			`{`
			`MM.register_region(*this);`
			`}`

			`Region::~Region()`
			`{`
			`if (m_page_directory) {`
			`MM.unmap_region(*this);`
			`ASSERT(!m_page_directory);`
			`}`
			`MM.unregister_region(*this);`
			`}`

			`bool Region::page_in()`
			`{`
			`ASSERT(m_page_directory);`
Kernel: Split VMObject into two classes: Anonymous- and InodeVMObject InodeVMObject is a VMObject with an underlying Inode in the filesystem. AnonymousVMObject has no Inode. I'm happy that InodeVMObject::inode() can now return Inode& instead of VMObject::inode() return Inode*. :^) 2019-08-07 19:06:17 +03:00			`ASSERT(vmo().is_inode());`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#ifdef MM_DEBUG`
			`dbgprintf("MM: page_in %u pages\n", page_count());`
			`#endif`
			`for (size_t i = 0; i < page_count(); ++i) {`
			`auto& vmo_page = vmo().physical_pages()[first_page_index() + i];`
			`if (vmo_page.is_null()) {`
			`bool success = MM.page_in_from_inode(*this, i);`
			`if (!success)`
			`return false;`
VM: Don't remap each Region page twice in page_in(). page_in_from_inode() will map the page after reading it from disk, so we don't need to remap it once again. 2019-06-01 16:44:48 +03:00			`continue;`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`}`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`MM.remap_region_page(*this, i);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`}`
			`return true;`
			`}`

AK: Rename RetainPtr => RefPtr and Retained => NonnullRefPtr. 2019-06-21 19:37:47 +03:00			`NonnullRefPtr<Region> Region::clone()`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`{`
			`ASSERT(current);`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00
			`// NOTE: Kernel-only regions should never be cloned.`
			`ASSERT(is_user_accessible());`

Kernel: Make the Process allocate_region* API's understand "int prot". Instead of having to inspect 'prot' at every call site, make the Process API's take care of that so we can just pass it through. 2019-05-30 17:14:37 +03:00			`if (m_shared \|\| (is_readable() && !is_writable())) {`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#ifdef MM_DEBUG`
			`dbgprintf("%s<%u> Region::clone(): sharing %s (L%x)\n",`
Kernel: Run clang-format on everything. 2019-06-07 12:43:58 +03:00			`current->process().name().characters(),`
			`current->pid(),`
			`m_name.characters(),`
Kernel: Rename LinearAddress => VirtualAddress. 2019-06-07 13:56:50 +03:00			`vaddr().get());`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#endif`
			`// Create a new region backed by the same VMObject.`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`return Region::create_user_accessible(m_range, m_vmo, m_offset_in_vmo, m_name, m_access);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`}`

			`#ifdef MM_DEBUG`
			`dbgprintf("%s<%u> Region::clone(): cowing %s (L%x)\n",`
Kernel: Run clang-format on everything. 2019-06-07 12:43:58 +03:00			`current->process().name().characters(),`
			`current->pid(),`
			`m_name.characters(),`
Kernel: Rename LinearAddress => VirtualAddress. 2019-06-07 13:56:50 +03:00			`vaddr().get());`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#endif`
			`// Set up a COW region. The parent (this) region becomes COW as well!`
Kernel: Encapsulate the Region's COW map a bit better. 2019-05-14 18:31:57 +03:00			`m_cow_map.fill(true);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`MM.remap_region(current->process().page_directory(), *this);`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`return Region::create_user_accessible(m_range, m_vmo->clone(), m_offset_in_vmo, m_name, m_access, true);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`}`

			`int Region::commit()`
			`{`
			`InterruptDisabler disabler;`
			`#ifdef MM_DEBUG`
Kernel: Rename LinearAddress => VirtualAddress. 2019-06-07 13:56:50 +03:00			`dbgprintf("MM: commit %u pages in Region %p (VMO=%p) at L%x\n", vmo().page_count(), this, &vmo(), vaddr().get());`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`#endif`
			`for (size_t i = first_page_index(); i <= last_page_index(); ++i) {`
			`if (!vmo().physical_pages()[i].is_null())`
			`continue;`
Kernel: Refactor MemoryManager to use a Bitmap rather than a Vector This significantly reduces the pressure on the kernel heap when allocating a lot of pages. Previously at about 250MB allocated, the free page list would outgrow the kernel's heap. Given that there is no longer a page list, this does not happen. The next barrier will be the kernel memory used by the page records for in-use memory. This kicks in at about 1GB. 2019-06-11 14:13:02 +03:00			`auto physical_page = MM.allocate_user_physical_page(MemoryManager::ShouldZeroFill::Yes);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`if (!physical_page) {`
			`kprintf("MM: commit was unable to allocate a physical page\n");`
			`return -ENOMEM;`
			`}`
			`vmo().physical_pages()[i] = move(physical_page);`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00			`MM.remap_region_page(*this, i);`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`}`
			`return 0;`
			`}`

			`size_t Region::amount_resident() const`
			`{`
			`size_t bytes = 0;`
			`for (size_t i = 0; i < page_count(); ++i) {`
			`if (m_vmo->physical_pages()[first_page_index() + i])`
			`bytes += PAGE_SIZE;`
			`}`
			`return bytes;`
			`}`

			`size_t Region::amount_shared() const`
			`{`
			`size_t bytes = 0;`
			`for (size_t i = 0; i < page_count(); ++i) {`
			`auto& physical_page = m_vmo->physical_pages()[first_page_index() + i];`
AK: Rename Retainable => RefCounted. (And various related renames that go along with it.) 2019-06-21 16:29:31 +03:00			`if (physical_page && physical_page->ref_count() > 1)`
Kernel: Move VM-related files into Kernel/VM/. Also break MemoryManager.{cpp,h} into one file per class. 2019-04-03 16:13:07 +03:00			`bytes += PAGE_SIZE;`
			`}`
			`return bytes;`
			`}`
Kernel: Track user accessibility per Region. Region now has is_user_accessible(), which informs the memory manager how to map these pages. Previously, we were just passing a "bool user_allowed" to various functions and I'm not at all sure that any of that was correct. All the Region constructors are now hidden, and you must go through one of these helpers to construct a region: - Region::create_user_accessible(...) - Region::create_kernel_only(...) That ensures that we don't accidentally create a Region without specifying user accessibility. :^) 2019-07-19 17:09:34 +03:00
			`NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, const StringView& name, u8 access, bool cow)`
			`{`
			`auto region = adopt(*new Region(range, name, access, cow));`
			`region->m_user_accessible = true;`
			`return region;`
			`}`

			`NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<VMObject> vmobject, size_t offset_in_vmobject, const StringView& name, u8 access, bool cow)`
			`{`
			`auto region = adopt(*new Region(range, move(vmobject), offset_in_vmobject, name, access, cow));`
			`region->m_user_accessible = true;`
			`return region;`
			`}`

			`NonnullRefPtr<Region> Region::create_user_accessible(const Range& range, NonnullRefPtr<Inode> inode, const StringView& name, u8 access, bool cow)`
			`{`
			`auto region = adopt(*new Region(range, move(inode), name, access, cow));`
			`region->m_user_accessible = true;`
			`return region;`
			`}`

			`NonnullRefPtr<Region> Region::create_kernel_only(const Range& range, const StringView& name, u8 access, bool cow)`
			`{`
			`auto region = adopt(*new Region(range, name, access, cow));`
			`region->m_user_accessible = false;`
			`return region;`
			`}`