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kern: continue page table refactor, implement separate/unmap
This commit is contained in:
parent
197ffa1dbc
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104be247da
@ -233,8 +233,11 @@ namespace ams::kern::arch::arm64 {
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bool MergePages(KProcessAddress virt_addr, PageLinkedList *page_list);
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ALWAYS_INLINE Result SeparatePagesImpl(KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll);
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Result SeparatePages(KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll);
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void MergePages(TraversalContext *context, PageLinkedList *page_list);
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void MergePages(KProcessAddress virt_addr, size_t num_pages, PageLinkedList *page_list);
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Result SeparatePagesImpl(TraversalEntry *entry, TraversalContext *context, KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll);
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Result SeparatePages(KProcessAddress virt_addr, size_t num_pages, PageLinkedList *page_list, bool reuse_ll);
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Result ChangePermissions(KProcessAddress virt_addr, size_t num_pages, PageTableEntry entry_template, DisableMergeAttribute disable_merge_attr, bool refresh_mapping, bool flush_mapping, PageLinkedList *page_list, bool reuse_ll);
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@ -20,18 +20,22 @@
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namespace ams::kern::arch::arm64 {
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constexpr size_t BlocksPerContiguousBlock = 0x10;
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constexpr size_t BlocksPerTable = PageSize / sizeof(u64);
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constexpr size_t L1BlockSize = 1_GB;
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constexpr size_t L1ContiguousBlockSize = 0x10 * L1BlockSize;
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constexpr size_t L1ContiguousBlockSize = BlocksPerContiguousBlock * L1BlockSize;
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constexpr size_t L2BlockSize = 2_MB;
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constexpr size_t L2ContiguousBlockSize = 0x10 * L2BlockSize;
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constexpr size_t L2ContiguousBlockSize = BlocksPerContiguousBlock * L2BlockSize;
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constexpr size_t L3BlockSize = PageSize;
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constexpr size_t L3ContiguousBlockSize = 0x10 * L3BlockSize;
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constexpr size_t L3ContiguousBlockSize = BlocksPerContiguousBlock * L3BlockSize;
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class PageTableEntry {
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public:
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struct InvalidTag{};
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struct TableTag{};
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struct BlockTag{};
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struct SeparateContiguousTag{};
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enum Permission : u64 {
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Permission_KernelRWX = ((0ul << 53) | (1ul << 54) | (0ul << 6)),
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@ -122,6 +126,25 @@ namespace ams::kern::arch::arm64 {
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{
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/* ... */
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}
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/* Construct a table. */
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constexpr explicit ALWAYS_INLINE PageTableEntry(TableTag, KPhysicalAddress phys_addr, bool is_kernel, bool pxn, size_t num_blocks)
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: PageTableEntry(((is_kernel ? 0x3ul : 0) << 60) | (static_cast<u64>(pxn) << 59) | GetInteger(phys_addr) | (num_blocks << 2) | 0x3)
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{
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/* ... */
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}
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/* Construct a block. */
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constexpr explicit ALWAYS_INLINE PageTableEntry(BlockTag, KPhysicalAddress phys_addr, const PageTableEntry &attr, u8 sw_reserved_bits, bool contig, bool page)
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: PageTableEntry(attr, (static_cast<u64>(sw_reserved_bits) << 55) | (static_cast<u64>(contig) << 52) | GetInteger(phys_addr) | (page ? ExtensionFlag_TestTableMask : ExtensionFlag_Valid))
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{
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/* ... */
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}
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constexpr explicit ALWAYS_INLINE PageTableEntry(BlockTag, KPhysicalAddress phys_addr, const PageTableEntry &attr, SeparateContiguousTag)
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: PageTableEntry(attr, GetInteger(phys_addr))
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{
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/* ... */
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}
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protected:
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constexpr ALWAYS_INLINE u64 GetBits(size_t offset, size_t count) const {
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return (m_attributes >> offset) & ((1ul << count) - 1);
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@ -194,6 +217,12 @@ namespace ams::kern::arch::arm64 {
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constexpr ALWAYS_INLINE decltype(auto) SetPageAttribute(PageAttribute a) { this->SetBitsDirect(2, 3, a); return *this; }
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constexpr ALWAYS_INLINE decltype(auto) SetMapped(bool m) { static_assert(static_cast<u64>(MappingFlag_Mapped == (1 << 0))); this->SetBit(0, m); return *this; }
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constexpr ALWAYS_INLINE size_t GetTableNumEntries() const { return this->GetBits(2, 10); }
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constexpr ALWAYS_INLINE decltype(auto) SetTableNumEntries(size_t num) { this->SetBits(2, 10, num); }
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constexpr ALWAYS_INLINE decltype(auto) AddTableEntries(size_t num) { return this->SetTableNumEntries(this->GetTableNumEntries() + num); }
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constexpr ALWAYS_INLINE decltype(auto) RemoveTableEntries(size_t num) { return this->SetTableNumEntries(this->GetTableNumEntries() - num); }
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constexpr ALWAYS_INLINE u64 GetEntryTemplateForMerge() const {
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constexpr u64 BaseMask = (0xFFF0000000000FFFul & ~static_cast<u64>((0x1ul << 52) | ExtensionFlag_TestTableMask | ExtensionFlag_DisableMergeHead | ExtensionFlag_DisableMergeHeadAndBody | ExtensionFlag_DisableMergeTail));
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return m_attributes & BaseMask;
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@ -204,6 +233,38 @@ namespace ams::kern::arch::arm64 {
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return (m_attributes & BaseMaskForMerge) == attr;
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}
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static constexpr ALWAYS_INLINE u64 GetEntryTemplateForSeparateContiguousMask(size_t idx) {
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constexpr u64 BaseMask = (0xFFFF000000000FFFul & ~static_cast<u64>((0x1ul << 52) | ExtensionFlag_DisableMergeHead | ExtensionFlag_DisableMergeHeadAndBody | ExtensionFlag_DisableMergeTail));
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if (idx == 0) {
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return BaseMask | ExtensionFlag_DisableMergeHead | ExtensionFlag_DisableMergeHeadAndBody;
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} else if (idx < BlocksPerContiguousBlock - 1) {
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return BaseMask;
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} else {
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return BaseMask | ExtensionFlag_DisableMergeTail;
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}
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}
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constexpr ALWAYS_INLINE u64 GetEntryTemplateForSeparateContiguous(size_t idx) const {
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return m_attributes & GetEntryTemplateForSeparateContiguousMask(idx);
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}
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static constexpr ALWAYS_INLINE u64 GetEntryTemplateForSeparateMask(size_t idx) {
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constexpr u64 BaseMask = (0xFFFF000000000FFFul & ~static_cast<u64>((0x1ul << 52) | ExtensionFlag_TestTableMask | ExtensionFlag_DisableMergeHead | ExtensionFlag_DisableMergeHeadAndBody | ExtensionFlag_DisableMergeTail));
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if (idx == 0) {
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return BaseMask | ExtensionFlag_DisableMergeHead | ExtensionFlag_DisableMergeHeadAndBody;
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} else if (idx < BlocksPerContiguousBlock) {
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return BaseMask | ExtensionFlag_DisableMergeHeadAndBody;
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} else if (idx < BlocksPerTable - 1) {
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return BaseMask;
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} else {
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return BaseMask | ExtensionFlag_DisableMergeTail;
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}
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}
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constexpr ALWAYS_INLINE u64 GetEntryTemplateForSeparate(size_t idx) const {
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return m_attributes & GetEntryTemplateForSeparateMask(idx);
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}
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constexpr ALWAYS_INLINE u64 GetRawAttributesUnsafe() const {
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return m_attributes;
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}
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@ -45,7 +45,7 @@ namespace ams::kern::arch::arm64 {
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};
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struct TraversalContext {
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const PageTableEntry *level_entries[EntryLevel_Count];
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PageTableEntry *level_entries[EntryLevel_Count];
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EntryLevel level;
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bool is_contiguous;
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};
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@ -125,6 +125,10 @@ namespace ams::kern::arch::arm64 {
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ALWAYS_INLINE L3PageTableEntry *GetL3Entry(const L2PageTableEntry *entry, KProcessAddress address) const {
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return GetL3EntryFromTable(KMemoryLayout::GetLinearVirtualAddress(entry->GetTable()), address);
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}
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static constexpr size_t GetBlockSize(EntryLevel level, bool contiguous = false) {
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return 1 << (PageBits + LevelBits * level + 4 * contiguous);
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}
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public:
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constexpr explicit KPageTableImpl(util::ConstantInitializeTag) : m_table(), m_is_kernel(), m_num_entries() { /* ... */ }
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@ -141,6 +145,9 @@ namespace ams::kern::arch::arm64 {
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bool ContinueTraversal(TraversalEntry *out_entry, TraversalContext *context) const;
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bool GetPhysicalAddress(KPhysicalAddress *out, KProcessAddress virt_addr) const;
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static bool MergePages(KVirtualAddress *out, TraversalContext *context);
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void SeparatePages(TraversalEntry *entry, TraversalContext *context, KProcessAddress address, PageTableEntry *pte) const;
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};
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}
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@ -20,7 +20,7 @@ endif
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DEFINES := $(ATMOSPHERE_DEFINES) -DATMOSPHERE_IS_MESOSPHERE
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SETTINGS := $(ATMOSPHERE_SETTINGS) $(ATMOSPHERE_OPTIMIZATION_FLAG) -mgeneral-regs-only -ffixed-x18 -Wextra -Werror -fno-non-call-exceptions
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CFLAGS := $(ATMOSPHERE_CFLAGS) $(SETTINGS) $(DEFINES) $(INCLUDE)
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CXXFLAGS := $(CFLAGS) $(ATMOSPHERE_CXXFLAGS) -fno-use-cxa-atexit -flto
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CXXFLAGS := $(CFLAGS) $(ATMOSPHERE_CXXFLAGS) -fno-use-cxa-atexit
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ASFLAGS := $(ATMOSPHERE_ASFLAGS) $(SETTINGS) $(DEFINES) $(INCLUDE)
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SOURCES += $(foreach v,$(call ALL_SOURCE_DIRS,../libvapours/source),$(if $(findstring ../libvapours/source/sdmmc,$v),,$v))
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@ -280,18 +280,7 @@ namespace ams::kern::arch::arm64 {
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if (operation == OperationType_Unmap) {
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R_RETURN(this->Unmap(virt_addr, num_pages, page_list, false, reuse_ll));
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} else if (operation == OperationType_Separate) {
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const size_t size = num_pages * PageSize;
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R_TRY(this->SeparatePages(virt_addr, std::min(util::GetAlignment(GetInteger(virt_addr)), size), page_list, reuse_ll));
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ON_RESULT_FAILURE { this->MergePages(virt_addr, page_list); };
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if (num_pages > 1) {
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const auto end_page = virt_addr + size;
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const auto last_page = end_page - PageSize;
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R_TRY(this->SeparatePages(last_page, std::min(util::GetAlignment(GetInteger(end_page)), size), page_list, reuse_ll));
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}
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R_SUCCEED();
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R_RETURN(this->SeparatePages(virt_addr, num_pages, page_list, reuse_ll));
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} else {
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auto entry_template = this->GetEntryTemplate(properties);
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@ -519,16 +508,7 @@ namespace ams::kern::arch::arm64 {
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/* If we're not forcing an unmap, separate pages immediately. */
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if (!force) {
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const size_t size = num_pages * PageSize;
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R_TRY(this->SeparatePages(virt_addr, std::min(util::GetAlignment(GetInteger(virt_addr)), size), page_list, reuse_ll));
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ON_RESULT_FAILURE { this->MergePages(virt_addr, page_list); };
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if (num_pages > 1) {
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const auto end_page = virt_addr + size;
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const auto last_page = end_page - PageSize;
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R_TRY(this->SeparatePages(last_page, std::min(util::GetAlignment(GetInteger(end_page)), size), page_list, reuse_ll));
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}
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R_TRY(this->SeparatePages(virt_addr, num_pages, page_list, reuse_ll));
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}
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/* Cache initial addresses for use on cleanup. */
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@ -558,10 +538,7 @@ namespace ams::kern::arch::arm64 {
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/* Handle the case where the block is bigger than it should be. */
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if (next_entry.block_size > remaining_pages * PageSize) {
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MESOSPHERE_ABORT_UNLESS(force);
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MESOSPHERE_R_ABORT_UNLESS(this->SeparatePages(virt_addr, remaining_pages * PageSize, page_list, reuse_ll));
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const bool new_valid = impl.BeginTraversal(std::addressof(next_entry), std::addressof(context), virt_addr);
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MESOSPHERE_ASSERT(new_valid);
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MESOSPHERE_UNUSED(new_valid);
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MESOSPHERE_R_ABORT_UNLESS(this->SeparatePagesImpl(std::addressof(next_entry), std::addressof(context), virt_addr, remaining_pages * PageSize, page_list, reuse_ll));
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}
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/* Check that our state is coherent. */
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@ -569,87 +546,38 @@ namespace ams::kern::arch::arm64 {
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MESOSPHERE_ASSERT(util::IsAligned(GetInteger(next_entry.phys_addr), next_entry.block_size));
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/* Unmap the block. */
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L1PageTableEntry *l1_entry = impl.GetL1Entry(virt_addr);
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switch (next_entry.block_size) {
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case L1BlockSize:
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{
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/* Clear the entry. */
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*l1_entry = InvalidL1PageTableEntry;
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bool freeing_table = false;
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while (true) {
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/* Clear the entries. */
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const size_t num_to_clear = (!freeing_table && context.is_contiguous) ? BlocksPerContiguousBlock : 1;
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auto *pte = reinterpret_cast<PageTableEntry *>(context.is_contiguous ? util::AlignDown(reinterpret_cast<uintptr_t>(context.level_entries[context.level]), BlocksPerContiguousBlock * sizeof(PageTableEntry)) : reinterpret_cast<uintptr_t>(context.level_entries[context.level]));
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for (size_t i = 0; i < num_to_clear; ++i) {
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pte[i] = InvalidPageTableEntry;
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}
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break;
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case L2ContiguousBlockSize:
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case L2BlockSize:
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{
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/* Get the number of L2 blocks. */
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const size_t num_l2_blocks = next_entry.block_size / L2BlockSize;
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/* Get the L2 entry. */
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KPhysicalAddress l2_phys = Null<KPhysicalAddress>;
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MESOSPHERE_ABORT_UNLESS(l1_entry->GetTable(l2_phys));
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const KVirtualAddress l2_virt = GetPageTableVirtualAddress(l2_phys);
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/* Clear the entry. */
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for (size_t i = 0; i < num_l2_blocks; i++) {
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*impl.GetL2EntryFromTable(l2_virt, virt_addr + L2BlockSize * i) = InvalidL2PageTableEntry;
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/* Remove the entries from the previous table. */
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if (context.level != KPageTableImpl::EntryLevel_L1) {
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context.level_entries[context.level + 1]->RemoveTableEntries(num_to_clear);
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}
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PteDataMemoryBarrier();
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/* Close references to the L2 table. */
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if (this->GetPageTableManager().IsInPageTableHeap(l2_virt)) {
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if (this->GetPageTableManager().Close(l2_virt, num_l2_blocks)) {
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*l1_entry = InvalidL1PageTableEntry;
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/* If we cleared a table, we need to note that we updated and free the table. */
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if (freeing_table) {
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this->NoteUpdated();
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this->FreePageTable(page_list, l2_virt);
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pages_to_close.CloseAndReset();
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}
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}
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this->FreePageTable(page_list, KVirtualAddress(util::AlignDown(reinterpret_cast<uintptr_t>(context.level_entries[context.level - 1]), PageSize)));
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}
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/* Advance; we're no longer contiguous. */
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context.is_contiguous = false;
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context.level_entries[context.level] = pte + num_to_clear - 1;
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/* We may have removed the last entries in a table, in which case we can free an unmap the tables. */
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if (context.level >= KPageTableImpl::EntryLevel_L1 || context.level_entries[context.level + 1]->GetTableNumEntries() != 0) {
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break;
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case L3ContiguousBlockSize:
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case L3BlockSize:
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{
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/* Get the number of L3 blocks. */
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const size_t num_l3_blocks = next_entry.block_size / L3BlockSize;
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/* Get the L2 entry. */
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KPhysicalAddress l2_phys = Null<KPhysicalAddress>;
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MESOSPHERE_ABORT_UNLESS(l1_entry->GetTable(l2_phys));
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const KVirtualAddress l2_virt = GetPageTableVirtualAddress(l2_phys);
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L2PageTableEntry *l2_entry = impl.GetL2EntryFromTable(l2_virt, virt_addr);
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/* Get the L3 entry. */
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KPhysicalAddress l3_phys = Null<KPhysicalAddress>;
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MESOSPHERE_ABORT_UNLESS(l2_entry->GetTable(l3_phys));
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const KVirtualAddress l3_virt = GetPageTableVirtualAddress(l3_phys);
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/* Clear the entry. */
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for (size_t i = 0; i < num_l3_blocks; i++) {
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*impl.GetL3EntryFromTable(l3_virt, virt_addr + L3BlockSize * i) = InvalidL3PageTableEntry;
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}
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PteDataMemoryBarrier();
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/* Close references to the L3 table. */
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if (this->GetPageTableManager().IsInPageTableHeap(l3_virt)) {
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if (this->GetPageTableManager().Close(l3_virt, num_l3_blocks)) {
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*l2_entry = InvalidL2PageTableEntry;
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this->NoteUpdated();
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/* Close reference to the L2 table. */
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if (this->GetPageTableManager().IsInPageTableHeap(l2_virt)) {
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if (this->GetPageTableManager().Close(l2_virt, 1)) {
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*l1_entry = InvalidL1PageTableEntry;
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this->NoteUpdated();
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this->FreePageTable(page_list, l2_virt);
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}
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}
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this->FreePageTable(page_list, l3_virt);
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pages_to_close.CloseAndReset();
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}
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}
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}
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break;
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MESOSPHERE_UNREACHABLE_DEFAULT_CASE();
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/* Advance; we will not be working with blocks any more. */
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context.level = static_cast<KPageTableImpl::EntryLevel>(util::ToUnderlying(context.level) + 1);
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freeing_table = true;
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}
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/* Close the blocks. */
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@ -663,8 +591,19 @@ namespace ams::kern::arch::arm64 {
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}
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/* Advance. */
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virt_addr += next_entry.block_size;
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remaining_pages -= next_entry.block_size / PageSize;
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size_t freed_size = next_entry.block_size;
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if (freeing_table) {
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/* We advanced more than by the block, so we need to calculate the actual advanced size. */
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const KProcessAddress new_virt_addr = util::AlignUp(GetInteger(virt_addr), impl.GetBlockSize(context.level, context.is_contiguous));
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MESOSPHERE_ABORT_UNLESS(new_virt_addr >= virt_addr + next_entry.block_size);
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freed_size = std::min<size_t>(new_virt_addr - virt_addr, remaining_pages * PageSize);
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}
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/* We can just advance by the block size. */
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virt_addr += freed_size;
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remaining_pages -= freed_size / PageSize;
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next_valid = impl.ContinueTraversal(std::addressof(next_entry), std::addressof(context));
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}
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@ -1032,141 +971,116 @@ namespace ams::kern::arch::arm64 {
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return merged;
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}
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Result KPageTable::SeparatePagesImpl(KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll) {
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void KPageTable::MergePages(TraversalContext *context, PageLinkedList *page_list) {
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MESOSPHERE_ASSERT(this->IsLockedByCurrentThread());
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auto &impl = this->GetImpl();
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/* First, try to separate an L1 block into contiguous L2 blocks. */
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L1PageTableEntry *l1_entry = impl.GetL1Entry(virt_addr);
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if (l1_entry->IsBlock()) {
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/* If our block size is too big, don't bother. */
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R_SUCCEED_IF(block_size >= L1BlockSize);
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/* Get the addresses we're working with. */
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const KProcessAddress block_virt_addr = util::AlignDown(GetInteger(virt_addr), L1BlockSize);
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const KPhysicalAddress block_phys_addr = l1_entry->GetBlock();
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/* Allocate a new page for the L2 table. */
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const KVirtualAddress l2_table = this->AllocatePageTable(page_list, reuse_ll);
|
||||
R_UNLESS(l2_table != Null<KVirtualAddress>, svc::ResultOutOfResource());
|
||||
const KPhysicalAddress l2_phys = GetPageTablePhysicalAddress(l2_table);
|
||||
|
||||
/* Set the entries in the L2 table. */
|
||||
for (size_t i = 0; i < L1BlockSize / L2BlockSize; i++) {
|
||||
const u64 entry_template = l1_entry->GetEntryTemplateForL2Block(i);
|
||||
*(impl.GetL2EntryFromTable(l2_table, block_virt_addr + L2BlockSize * i)) = L2PageTableEntry(PageTableEntry::BlockTag{}, block_phys_addr + L2BlockSize * i, PageTableEntry(entry_template), PageTableEntry::SoftwareReservedBit_None, true);
|
||||
/* Iteratively merge, until we can't. */
|
||||
while (true) {
|
||||
/* Try to merge. */
|
||||
KVirtualAddress freed_table = Null<KVirtualAddress>;
|
||||
if (!impl.MergePages(std::addressof(freed_table), context)) {
|
||||
break;
|
||||
}
|
||||
|
||||
/* Open references to the L2 table. */
|
||||
this->GetPageTableManager().Open(l2_table, L1BlockSize / L2BlockSize);
|
||||
/* Note that we updated. */
|
||||
this->NoteUpdated();
|
||||
|
||||
/* Replace the L1 entry with one to the new table. */
|
||||
PteDataMemoryBarrier();
|
||||
*l1_entry = L1PageTableEntry(PageTableEntry::TableTag{}, l2_phys, this->IsKernel(), true);
|
||||
/* Free the page. */
|
||||
ClearPageTable(freed_table);
|
||||
this->FreePageTable(page_list, freed_table);
|
||||
}
|
||||
}
|
||||
|
||||
void KPageTable::MergePages(KProcessAddress virt_addr, size_t num_pages, PageLinkedList *page_list) {
|
||||
MESOSPHERE_ASSERT(this->IsLockedByCurrentThread());
|
||||
|
||||
auto &impl = this->GetImpl();
|
||||
|
||||
/* Begin traversal. */
|
||||
TraversalContext context;
|
||||
TraversalEntry entry;
|
||||
MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(entry), std::addressof(context), virt_addr));
|
||||
|
||||
/* Merge start of the range. */
|
||||
this->MergePages(std::addressof(context), page_list);
|
||||
|
||||
/* If we have more than one page, do the same for the end of the range. */
|
||||
if (num_pages > 1) {
|
||||
/* Begin traversal for end of range. */
|
||||
const size_t size = num_pages * PageSize;
|
||||
const auto end_page = virt_addr + size;
|
||||
const auto last_page = end_page - PageSize;
|
||||
MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(entry), std::addressof(context), last_page));
|
||||
|
||||
/* Merge. */
|
||||
this->MergePages(std::addressof(context), page_list);
|
||||
}
|
||||
}
|
||||
|
||||
Result KPageTable::SeparatePagesImpl(TraversalEntry *entry, TraversalContext *context, KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll) {
|
||||
MESOSPHERE_ASSERT(this->IsLockedByCurrentThread());
|
||||
|
||||
auto &impl = this->GetImpl();
|
||||
|
||||
/* If at any point we fail, we want to merge. */
|
||||
ON_RESULT_FAILURE { this->MergePages(context, page_list); };
|
||||
|
||||
/* Iterate, separating until our block size is small enough. */
|
||||
while (entry->block_size > block_size) {
|
||||
/* If necessary, allocate a table. */
|
||||
KVirtualAddress table = Null<KVirtualAddress>;
|
||||
if (!context->is_contiguous) {
|
||||
table = this->AllocatePageTable(page_list, reuse_ll);
|
||||
R_UNLESS(table != Null<KVirtualAddress>, svc::ResultOutOfResource());
|
||||
}
|
||||
|
||||
/* Separate. */
|
||||
impl.SeparatePages(entry, context, virt_addr, nullptr);
|
||||
this->NoteUpdated();
|
||||
}
|
||||
|
||||
/* If we don't have an l1 table, we're done. */
|
||||
MESOSPHERE_ABORT_UNLESS(l1_entry->IsTable() || l1_entry->IsEmpty());
|
||||
R_SUCCEED_IF(!l1_entry->IsTable());
|
||||
|
||||
/* We want to separate L2 contiguous blocks into L2 blocks, so check that our size permits that. */
|
||||
R_SUCCEED_IF(block_size >= L2ContiguousBlockSize);
|
||||
|
||||
L2PageTableEntry *l2_entry = impl.GetL2Entry(l1_entry, virt_addr);
|
||||
if (l2_entry->IsBlock()) {
|
||||
/* If we're contiguous, try to separate. */
|
||||
if (l2_entry->IsContiguous()) {
|
||||
const KProcessAddress block_virt_addr = util::AlignDown(GetInteger(virt_addr), L2ContiguousBlockSize);
|
||||
const KPhysicalAddress block_phys_addr = util::AlignDown(GetInteger(l2_entry->GetBlock()), L2ContiguousBlockSize);
|
||||
|
||||
/* Mark the entries as non-contiguous. */
|
||||
for (size_t i = 0; i < L2ContiguousBlockSize / L2BlockSize; i++) {
|
||||
L2PageTableEntry *target = impl.GetL2Entry(l1_entry, block_virt_addr + L2BlockSize * i);
|
||||
const u64 entry_template = target->GetEntryTemplateForL2Block(i);
|
||||
*target = L2PageTableEntry(PageTableEntry::BlockTag{}, block_phys_addr + L2BlockSize * i, PageTableEntry(entry_template), PageTableEntry::SoftwareReservedBit_None, false);
|
||||
}
|
||||
this->NoteUpdated();
|
||||
}
|
||||
|
||||
/* We want to separate L2 blocks into L3 contiguous blocks, so check that our size permits that. */
|
||||
R_SUCCEED_IF(block_size >= L2BlockSize);
|
||||
|
||||
/* Get the addresses we're working with. */
|
||||
const KProcessAddress block_virt_addr = util::AlignDown(GetInteger(virt_addr), L2BlockSize);
|
||||
const KPhysicalAddress block_phys_addr = l2_entry->GetBlock();
|
||||
|
||||
/* Allocate a new page for the L3 table. */
|
||||
const KVirtualAddress l3_table = this->AllocatePageTable(page_list, reuse_ll);
|
||||
R_UNLESS(l3_table != Null<KVirtualAddress>, svc::ResultOutOfResource());
|
||||
const KPhysicalAddress l3_phys = GetPageTablePhysicalAddress(l3_table);
|
||||
|
||||
/* Set the entries in the L3 table. */
|
||||
for (size_t i = 0; i < L2BlockSize / L3BlockSize; i++) {
|
||||
const u64 entry_template = l2_entry->GetEntryTemplateForL3Block(i);
|
||||
*(impl.GetL3EntryFromTable(l3_table, block_virt_addr + L3BlockSize * i)) = L3PageTableEntry(PageTableEntry::BlockTag{}, block_phys_addr + L3BlockSize * i, PageTableEntry(entry_template), PageTableEntry::SoftwareReservedBit_None, true);
|
||||
}
|
||||
|
||||
/* Open references to the L3 table. */
|
||||
this->GetPageTableManager().Open(l3_table, L2BlockSize / L3BlockSize);
|
||||
|
||||
/* Replace the L2 entry with one to the new table. */
|
||||
PteDataMemoryBarrier();
|
||||
*l2_entry = L2PageTableEntry(PageTableEntry::TableTag{}, l3_phys, this->IsKernel(), true);
|
||||
this->NoteUpdated();
|
||||
}
|
||||
|
||||
/* If we don't have an L3 table, we're done. */
|
||||
MESOSPHERE_ABORT_UNLESS(l2_entry->IsTable() || l2_entry->IsEmpty());
|
||||
R_SUCCEED_IF(!l2_entry->IsTable());
|
||||
|
||||
/* We want to separate L3 contiguous blocks into L2 blocks, so check that our size permits that. */
|
||||
R_SUCCEED_IF(block_size >= L3ContiguousBlockSize);
|
||||
|
||||
/* If we're contiguous, try to separate. */
|
||||
L3PageTableEntry *l3_entry = impl.GetL3Entry(l2_entry, virt_addr);
|
||||
if (l3_entry->IsBlock() && l3_entry->IsContiguous()) {
|
||||
const KProcessAddress block_virt_addr = util::AlignDown(GetInteger(virt_addr), L3ContiguousBlockSize);
|
||||
const KPhysicalAddress block_phys_addr = util::AlignDown(GetInteger(l3_entry->GetBlock()), L3ContiguousBlockSize);
|
||||
|
||||
/* Mark the entries as non-contiguous. */
|
||||
for (size_t i = 0; i < L3ContiguousBlockSize / L3BlockSize; i++) {
|
||||
L3PageTableEntry *target = impl.GetL3Entry(l2_entry, block_virt_addr + L3BlockSize * i);
|
||||
const u64 entry_template = target->GetEntryTemplateForL3Block(i);
|
||||
*target = L3PageTableEntry(PageTableEntry::BlockTag{}, block_phys_addr + L3BlockSize * i, PageTableEntry(entry_template), PageTableEntry::SoftwareReservedBit_None, false);
|
||||
}
|
||||
this->NoteUpdated();
|
||||
}
|
||||
|
||||
/* We're done! */
|
||||
R_SUCCEED();
|
||||
}
|
||||
|
||||
Result KPageTable::SeparatePages(KProcessAddress virt_addr, size_t block_size, PageLinkedList *page_list, bool reuse_ll) {
|
||||
Result KPageTable::SeparatePages(KProcessAddress virt_addr, size_t num_pages, PageLinkedList *page_list, bool reuse_ll) {
|
||||
MESOSPHERE_ASSERT(this->IsLockedByCurrentThread());
|
||||
|
||||
/* If we fail while separating, re-merge. */
|
||||
ON_RESULT_FAILURE { this->MergePages(virt_addr, page_list); };
|
||||
auto &impl = this->GetImpl();
|
||||
|
||||
/* Try to separate pages. */
|
||||
R_RETURN(this->SeparatePagesImpl(virt_addr, block_size, page_list, reuse_ll));
|
||||
/* Begin traversal. */
|
||||
TraversalContext start_context;
|
||||
TraversalEntry entry;
|
||||
MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(entry), std::addressof(start_context), virt_addr));
|
||||
|
||||
/* Separate pages at the start of the range. */
|
||||
const size_t size = num_pages * PageSize;
|
||||
R_TRY(this->SeparatePagesImpl(std::addressof(entry), std::addressof(start_context), virt_addr, std::min(util::GetAlignment(GetInteger(virt_addr)), size), page_list, reuse_ll));
|
||||
|
||||
/* If necessary, separate pages at the end of the range. */
|
||||
if (num_pages > 1) {
|
||||
const auto end_page = virt_addr + size;
|
||||
const auto last_page = end_page - PageSize;
|
||||
|
||||
/* Begin traversal. */
|
||||
TraversalContext end_context;
|
||||
MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(entry), std::addressof(end_context), last_page));
|
||||
|
||||
|
||||
ON_RESULT_FAILURE { this->MergePages(std::addressof(start_context), page_list); };
|
||||
|
||||
R_TRY(this->SeparatePagesImpl(std::addressof(entry), std::addressof(end_context), last_page, std::min(util::GetAlignment(GetInteger(end_page)), size), page_list, reuse_ll));
|
||||
}
|
||||
|
||||
R_SUCCEED();
|
||||
}
|
||||
|
||||
Result KPageTable::ChangePermissions(KProcessAddress virt_addr, size_t num_pages, PageTableEntry entry_template, DisableMergeAttribute disable_merge_attr, bool refresh_mapping, bool flush_mapping, PageLinkedList *page_list, bool reuse_ll) {
|
||||
MESOSPHERE_ASSERT(this->IsLockedByCurrentThread());
|
||||
|
||||
/* Separate pages before we change permissions. */
|
||||
const size_t size = num_pages * PageSize;
|
||||
R_TRY(this->SeparatePages(virt_addr, std::min(util::GetAlignment(GetInteger(virt_addr)), size), page_list, reuse_ll));
|
||||
if (num_pages > 1) {
|
||||
const auto end_page = virt_addr + size;
|
||||
const auto last_page = end_page - PageSize;
|
||||
|
||||
ON_RESULT_FAILURE { this->MergePages(virt_addr, page_list); };
|
||||
|
||||
R_TRY(this->SeparatePages(last_page, std::min(util::GetAlignment(GetInteger(end_page)), size), page_list, reuse_ll));
|
||||
}
|
||||
R_TRY(this->SeparatePages(virt_addr, num_pages, page_list, reuse_ll));
|
||||
|
||||
/* ===================================================== */
|
||||
|
||||
@ -1376,10 +1290,7 @@ namespace ams::kern::arch::arm64 {
|
||||
}
|
||||
|
||||
/* We've succeeded, now perform what coalescing we can. */
|
||||
this->MergePages(virt_addr, page_list);
|
||||
if (num_pages > 1) {
|
||||
this->MergePages(virt_addr + (num_pages - 1) * PageSize, page_list);
|
||||
}
|
||||
this->MergePages(virt_addr, num_pages, page_list);
|
||||
|
||||
R_SUCCEED();
|
||||
}
|
||||
|
@ -33,94 +33,6 @@ namespace ams::kern::arch::arm64 {
|
||||
return m_table;
|
||||
}
|
||||
|
||||
// bool KPageTableImpl::ExtractL3Entry(TraversalEntry *out_entry, TraversalContext *out_context, const L3PageTableEntry *l3_entry, KProcessAddress virt_addr) const {
|
||||
// /* Set the L3 entry. */
|
||||
// out_context->l3_entry = l3_entry;
|
||||
//
|
||||
// if (l3_entry->IsBlock()) {
|
||||
// /* Set the output entry. */
|
||||
// out_entry->phys_addr = l3_entry->GetBlock() + (virt_addr & (L3BlockSize - 1));
|
||||
// if (l3_entry->IsContiguous()) {
|
||||
// out_entry->block_size = L3ContiguousBlockSize;
|
||||
// } else {
|
||||
// out_entry->block_size = L3BlockSize;
|
||||
// }
|
||||
// out_entry->sw_reserved_bits = l3_entry->GetSoftwareReservedBits();
|
||||
// out_entry->attr = 0;
|
||||
//
|
||||
// return true;
|
||||
// } else {
|
||||
// out_entry->phys_addr = Null<KPhysicalAddress>;
|
||||
// out_entry->block_size = L3BlockSize;
|
||||
// out_entry->sw_reserved_bits = 0;
|
||||
// out_entry->attr = 0;
|
||||
// return false;
|
||||
// }
|
||||
// }
|
||||
//
|
||||
// bool KPageTableImpl::ExtractL2Entry(TraversalEntry *out_entry, TraversalContext *out_context, const L2PageTableEntry *l2_entry, KProcessAddress virt_addr) const {
|
||||
// /* Set the L2 entry. */
|
||||
// out_context->l2_entry = l2_entry;
|
||||
//
|
||||
// if (l2_entry->IsBlock()) {
|
||||
// /* Set the output entry. */
|
||||
// out_entry->phys_addr = l2_entry->GetBlock() + (virt_addr & (L2BlockSize - 1));
|
||||
// if (l2_entry->IsContiguous()) {
|
||||
// out_entry->block_size = L2ContiguousBlockSize;
|
||||
// } else {
|
||||
// out_entry->block_size = L2BlockSize;
|
||||
// }
|
||||
// out_entry->sw_reserved_bits = l2_entry->GetSoftwareReservedBits();
|
||||
// out_entry->attr = 0;
|
||||
//
|
||||
// /* Set the output context. */
|
||||
// out_context->l3_entry = nullptr;
|
||||
// return true;
|
||||
// } else if (l2_entry->IsTable()) {
|
||||
// return this->ExtractL3Entry(out_entry, out_context, this->GetL3EntryFromTable(GetPageTableVirtualAddress(l2_entry->GetTable()), virt_addr), virt_addr);
|
||||
// } else {
|
||||
// out_entry->phys_addr = Null<KPhysicalAddress>;
|
||||
// out_entry->block_size = L2BlockSize;
|
||||
// out_entry->sw_reserved_bits = 0;
|
||||
// out_entry->attr = 0;
|
||||
//
|
||||
// out_context->l3_entry = nullptr;
|
||||
// return false;
|
||||
// }
|
||||
// }
|
||||
//
|
||||
// bool KPageTableImpl::ExtractL1Entry(TraversalEntry *out_entry, TraversalContext *out_context, const L1PageTableEntry *l1_entry, KProcessAddress virt_addr) const {
|
||||
// /* Set the L1 entry. */
|
||||
// out_context->level_entries[EntryLevel_L1] = l1_entry;
|
||||
//
|
||||
// if (l1_entry->IsBlock()) {
|
||||
// /* Set the output entry. */
|
||||
// out_entry->phys_addr = l1_entry->GetBlock() + (virt_addr & (L1BlockSize - 1));
|
||||
// if (l1_entry->IsContiguous()) {
|
||||
// out_entry->block_size = L1ContiguousBlockSize;
|
||||
// } else {
|
||||
// out_entry->block_size = L1BlockSize;
|
||||
// }
|
||||
// out_entry->sw_reserved_bits = l1_entry->GetSoftwareReservedBits();
|
||||
//
|
||||
// /* Set the output context. */
|
||||
// out_context->l2_entry = nullptr;
|
||||
// out_context->l3_entry = nullptr;
|
||||
// return true;
|
||||
// } else if (l1_entry->IsTable()) {
|
||||
// return this->ExtractL2Entry(out_entry, out_context, this->GetL2EntryFromTable(GetPageTableVirtualAddress(l1_entry->GetTable()), virt_addr), virt_addr);
|
||||
// } else {
|
||||
// out_entry->phys_addr = Null<KPhysicalAddress>;
|
||||
// out_entry->block_size = L1BlockSize;
|
||||
// out_entry->sw_reserved_bits = 0;
|
||||
// out_entry->attr = 0;
|
||||
//
|
||||
// out_context->l2_entry = nullptr;
|
||||
// out_context->l3_entry = nullptr;
|
||||
// return false;
|
||||
// }
|
||||
// }
|
||||
|
||||
bool KPageTableImpl::BeginTraversal(TraversalEntry *out_entry, TraversalContext *out_context, KProcessAddress address) const {
|
||||
/* Setup invalid defaults. */
|
||||
*out_entry = {};
|
||||
@ -176,9 +88,8 @@ namespace ams::kern::arch::arm64 {
|
||||
|
||||
bool KPageTableImpl::ContinueTraversal(TraversalEntry *out_entry, TraversalContext *context) const {
|
||||
/* Advance entry. */
|
||||
|
||||
auto *cur_pte = context->level_entries[context->level];
|
||||
auto *next_pte = reinterpret_cast<PageTableEntry *>(context->is_contiguous ? util::AlignDown(reinterpret_cast<uintptr_t>(cur_pte), 0x10 * sizeof(PageTableEntry)) + 0x10 * sizeof(PageTableEntry) : reinterpret_cast<uintptr_t>(cur_pte) + sizeof(PageTableEntry));
|
||||
auto *next_pte = reinterpret_cast<PageTableEntry *>(context->is_contiguous ? util::AlignDown(reinterpret_cast<uintptr_t>(cur_pte), BlocksPerContiguousBlock * sizeof(PageTableEntry)) + BlocksPerContiguousBlock * sizeof(PageTableEntry) : reinterpret_cast<uintptr_t>(cur_pte) + sizeof(PageTableEntry));
|
||||
|
||||
/* Set the pte. */
|
||||
context->level_entries[context->level] = next_pte;
|
||||
@ -255,6 +166,53 @@ namespace ams::kern::arch::arm64 {
|
||||
return is_block;
|
||||
}
|
||||
|
||||
bool KPageTableImpl::MergePages(KVirtualAddress *out, TraversalContext *context) {
|
||||
/* TODO */
|
||||
MESOSPHERE_UNUSED(out, context);
|
||||
MESOSPHERE_PANIC("page tables");
|
||||
}
|
||||
|
||||
void KPageTableImpl::SeparatePages(TraversalEntry *entry, TraversalContext *context, KProcessAddress address, PageTableEntry *pte) const {
|
||||
/* We want to downgrade the pages by one step. */
|
||||
if (context->is_contiguous) {
|
||||
/* We want to downgrade a contiguous mapping to a non-contiguous mapping. */
|
||||
pte = reinterpret_cast<PageTableEntry *>(util::AlignDown(reinterpret_cast<uintptr_t>(context->level_entries[context->level]), BlocksPerContiguousBlock * sizeof(PageTableEntry)));
|
||||
|
||||
auto * const first = pte;
|
||||
const KPhysicalAddress block = this->GetBlock(first, context->level);
|
||||
for (size_t i = 0; i < BlocksPerContiguousBlock; ++i) {
|
||||
pte[i] = PageTableEntry(PageTableEntry::BlockTag{}, block + (i << (PageBits + LevelBits * context->level)), PageTableEntry(first->GetEntryTemplateForSeparateContiguous(i)), PageTableEntry::SeparateContiguousTag{});
|
||||
}
|
||||
|
||||
context->is_contiguous = false;
|
||||
|
||||
context->level_entries[context->level] = pte + (this->GetLevelIndex(address, context->level) & (BlocksPerContiguousBlock - 1));
|
||||
} else {
|
||||
/* We want to downgrade a block into a table. */
|
||||
auto * const first = context->level_entries[context->level];
|
||||
const KPhysicalAddress block = this->GetBlock(first, context->level);
|
||||
for (size_t i = 0; i < BlocksPerTable; ++i) {
|
||||
pte[i] = PageTableEntry(PageTableEntry::BlockTag{}, block + (i << (PageBits + LevelBits * (context->level - 1))), PageTableEntry(first->GetEntryTemplateForSeparate(i)), PageTableEntry::SoftwareReservedBit_None, true, context->level == EntryLevel_L3);
|
||||
}
|
||||
|
||||
context->is_contiguous = true;
|
||||
context->level = static_cast<EntryLevel>(util::ToUnderlying(context->level) - 1);
|
||||
|
||||
/* Wait for pending stores to complete. */
|
||||
cpu::DataSynchronizationBarrierInnerShareableStore();
|
||||
|
||||
/* Update the block entry to be a table entry. */
|
||||
*context->level_entries[context->level + 1] = PageTableEntry(PageTableEntry::TableTag{}, KPageTable::GetPageTablePhysicalAddress(KVirtualAddress(first)), m_is_kernel, true, BlocksPerTable);
|
||||
|
||||
context->level_entries[context->level] = pte + this->GetLevelIndex(address, context->level);
|
||||
}
|
||||
|
||||
entry->sw_reserved_bits = 0;
|
||||
entry->attr = 0;
|
||||
entry->phys_addr = this->GetBlock(context->level_entries[context->level], context->level) + this->GetOffset(address, context->level);
|
||||
entry->block_size = static_cast<size_t>(1) << (PageBits + LevelBits * context->level + 4 * context->is_contiguous);
|
||||
}
|
||||
|
||||
void KPageTableImpl::Dump(uintptr_t start, size_t size) const {
|
||||
/* If zero size, there's nothing to dump. */
|
||||
if (size == 0) {
|
||||
|
@ -1438,7 +1438,10 @@ namespace ams::kern {
|
||||
this->SetState(ThreadState_Waiting);
|
||||
|
||||
/* Set our wait queue. */
|
||||
#pragma GCC diagnostic push
|
||||
#pragma GCC diagnostic ignored "-Wdangling-pointer"
|
||||
m_wait_queue = queue;
|
||||
#pragma GCC diagnostic pop
|
||||
}
|
||||
|
||||
void KThread::NotifyAvailable(KSynchronizationObject *signaled_object, Result wait_result) {
|
||||
|
Loading…
Reference in New Issue
Block a user