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kern: update KPageTable::Finalize for the refactor

This commit is contained in:
Michael Scire 2024-10-10 14:00:15 -07:00 committed by SciresM
parent 62abb31122
commit d2656e3948

View file

@ -174,79 +174,85 @@ namespace ams::kern::arch::arm64 {
/* Traverse, freeing all pages. */ /* Traverse, freeing all pages. */
{ {
/* Get the address space size. */
const size_t as_size = this->GetAddressSpaceSize();
/* Begin the traversal. */ /* Begin the traversal. */
TraversalContext context; TraversalContext context;
TraversalEntry cur_entry = { .phys_addr = Null<KPhysicalAddress>, .block_size = 0, .sw_reserved_bits = 0, .attr = 0 }; TraversalEntry entry;
bool cur_valid = false;
TraversalEntry next_entry;
bool next_valid;
size_t tot_size = 0;
next_valid = impl.BeginTraversal(std::addressof(next_entry), std::addressof(context), this->GetAddressSpaceStart()); KPhysicalAddress cur_phys_addr = Null<KPhysicalAddress>;
size_t cur_size = 0;
u8 has_attr = 0;
/* Iterate over entries. */ bool cur_valid = impl.BeginTraversal(std::addressof(entry), std::addressof(context), this->GetAddressSpaceStart());
while (true) { while (true) {
/* NOTE: Nintendo really does check next_entry.attr == (cur_entry.attr != 0)...but attr is always zero as of 18.0.0, and this is "probably" for the new console or debug-only anyway, */ if (cur_valid) {
/* so we'll implement the weird logic verbatim even though it doesn't match the GetContiguousRange logic. */ /* Free the actual pages, if there are any. */
if ((!next_valid && !cur_valid) || (next_valid && cur_valid && next_entry.phys_addr == cur_entry.phys_addr + cur_entry.block_size && next_entry.attr == (cur_entry.attr ? 1 : 0))) { if (IsHeapPhysicalAddressForFinalize(entry.phys_addr)) {
cur_entry.block_size += next_entry.block_size; if (cur_size > 0) {
} else { /* NOTE: Nintendo really does check next_entry.attr == (cur_entry.attr != 0)...but attr is always zero as of 18.0.0, and this is "probably" for the new console or debug-only anyway, */
if (cur_valid && IsHeapPhysicalAddressForFinalize(cur_entry.phys_addr)) { /* so we'll implement the weird logic verbatim even though it doesn't match the GetContiguousRange logic. */
mm.Close(cur_entry.phys_addr, cur_entry.block_size / PageSize); if (entry.phys_addr == cur_phys_addr + cur_size && entry.attr == has_attr) {
/* Just extend the block, since we can. */
cur_size += entry.block_size;
} else {
/* Close the block, and begin tracking anew. */
mm.Close(cur_phys_addr, cur_size / PageSize);
cur_phys_addr = entry.phys_addr;
cur_size = entry.block_size;
has_attr = entry.attr != 0;
}
} else {
cur_phys_addr = entry.phys_addr;
cur_size = entry.block_size;
has_attr = entry.attr != 0;
}
} }
/* Update tracking variables. */ /* Clean up the page table entries. */
tot_size += cur_entry.block_size; bool freeing_table = false;
cur_entry = next_entry; while (true) {
cur_valid = next_valid; /* Clear the entries. */
} const size_t num_to_clear = (!freeing_table && context.is_contiguous) ? BlocksPerContiguousBlock : 1;
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]));
for (size_t i = 0; i < num_to_clear; ++i) {
pte[i] = InvalidPageTableEntry;
}
if (cur_entry.block_size + tot_size >= as_size) { /* Remove the entries from the previous table. */
break; if (context.level != KPageTableImpl::EntryLevel_L1) {
} context.level_entries[context.level + 1]->RemoveTableEntries(num_to_clear);
}
next_valid = impl.ContinueTraversal(std::addressof(next_entry), std::addressof(context)); /* If we cleared a table, we need to note that we updated and free the table. */
} if (freeing_table) {
KVirtualAddress table = KVirtualAddress(util::AlignDown(reinterpret_cast<uintptr_t>(context.level_entries[context.level - 1]), PageSize));
ClearPageTable(table);
this->GetPageTableManager().Free(table);
}
/* Handle the last block. */ /* Advance; we're no longer contiguous. */
if (cur_valid && IsHeapPhysicalAddressForFinalize(cur_entry.phys_addr)) { context.is_contiguous = false;
mm.Close(cur_entry.phys_addr, cur_entry.block_size / PageSize); context.level_entries[context.level] = pte + num_to_clear - 1;
}
}
/* Cache address space extents for convenience. */ /* We may have removed the last entries in a table, in which case we can free and unmap the tables. */
const KProcessAddress as_start = this->GetAddressSpaceStart(); if (context.level >= KPageTableImpl::EntryLevel_L1 || context.level_entries[context.level + 1]->GetTableNumEntries() != 0) {
const KProcessAddress as_last = as_start + this->GetAddressSpaceSize() - 1; break;
}
/* Free all L3 tables. */ /* Advance; we will not be working with blocks any more. */
for (KProcessAddress cur_address = as_start; cur_address <= as_last; cur_address += L2BlockSize) { context.level = static_cast<KPageTableImpl::EntryLevel>(util::ToUnderlying(context.level) + 1);
L1PageTableEntry *l1_entry = impl.GetL1Entry(cur_address); freeing_table = true;
if (l1_entry->IsTable()) {
L2PageTableEntry *l2_entry = impl.GetL2Entry(l1_entry, cur_address);
if (l2_entry->IsTable()) {
const KVirtualAddress l3_table = GetPageTableVirtualAddress(l2_entry->GetTable());
if (this->GetPageTableManager().IsInPageTableHeap(l3_table)) {
while (!this->GetPageTableManager().Close(l3_table, 1)) { /* ... */ }
ClearPageTable(l3_table);
this->GetPageTableManager().Free(l3_table);
} }
}
}
}
/* Free all L2 tables. */
for (KProcessAddress cur_address = as_start; cur_address <= as_last; cur_address += L1BlockSize) {
L1PageTableEntry *l1_entry = impl.GetL1Entry(cur_address);
if (l1_entry->IsTable()) {
const KVirtualAddress l2_table = GetPageTableVirtualAddress(l1_entry->GetTable());
if (this->GetPageTableManager().IsInPageTableHeap(l2_table)) {
while (!this->GetPageTableManager().Close(l2_table, 1)) { /* ... */ }
ClearPageTable(l2_table);
this->GetPageTableManager().Free(l2_table);
} }
/* Continue the traversal. */
cur_valid = impl.ContinueTraversal(std::addressof(entry), std::addressof(context));
}
/* Free any remaining pages. */
if (cur_size > 0) {
mm.Close(cur_phys_addr, cur_size / PageSize);
} }
} }
@ -260,6 +266,7 @@ namespace ams::kern::arch::arm64 {
KPageTableBase::Finalize(); KPageTableBase::Finalize();
} }
R_SUCCEED(); R_SUCCEED();
} }
@ -570,7 +577,7 @@ namespace ams::kern::arch::arm64 {
context.is_contiguous = false; context.is_contiguous = false;
context.level_entries[context.level] = pte + num_to_clear - 1; context.level_entries[context.level] = pte + num_to_clear - 1;
/* We may have removed the last entries in a table, in which case we can free an unmap the tables. */ /* We may have removed the last entries in a table, in which case we can free and unmap the tables. */
if (context.level >= KPageTableImpl::EntryLevel_L1 || context.level_entries[context.level + 1]->GetTableNumEntries() != 0) { if (context.level >= KPageTableImpl::EntryLevel_L1 || context.level_entries[context.level + 1]->GetTableNumEntries() != 0) {
break; break;
} }
@ -1056,7 +1063,7 @@ namespace ams::kern::arch::arm64 {
/* If we merged, correct the traversal to a sane state. */ /* If we merged, correct the traversal to a sane state. */
if (merge) { if (merge) {
/* NOTE: Nintendo does not verify the result of this BeginTraversal call. */ /* NOTE: Begin a new traversal, now that we've merged. */
MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(next_entry), std::addressof(context), cur_virt_addr)); MESOSPHERE_ABORT_UNLESS(impl.BeginTraversal(std::addressof(next_entry), std::addressof(context), cur_virt_addr));
/* The actual size needs to not take into account the portion of the block before our virtual address. */ /* The actual size needs to not take into account the portion of the block before our virtual address. */