Frame allocator class added

2025-12-09 16:04:32 -08:00 · 2019-02-25 21:19:43 -08:00
parent 5901237fee
commit 626eec4a31
5 changed files with 320 additions and 3 deletions
--- a/modules.yaml
+++ b/modules.yaml
@@ -88,6 +88,7 @@ kutil:
        - src/libraries/kutil/include
    source:
        - src/libraries/kutil/assert.cpp
        - src/libraries/kutil/frame_allocator.cpp
        - src/libraries/kutil/heap_manager.cpp
        - src/libraries/kutil/memory.cpp
@@ -109,6 +110,7 @@ tests:
        - kutil
    source:
        - src/tests/address_manager.cpp
        - src/tests/frame_allocator.cpp
        - src/tests/linked_list.cpp
        - src/tests/heap_manager.cpp
        - src/tests/main.cpp
--- a/src/kernel/page_manager.h
+++ b/src/kernel/page_manager.h
@@ -131,9 +131,6 @@ private:
 			page_block_list used,
 			page_block_list cache);
 	/// Initialize the virtual memory manager based on this object's state
 	void init_memory_manager();
 	/// Create a `page_block` struct or pull one from the cache.
 	/// \returns  An empty `page_block` struct
 	page_block * get_block();
--- a/src/libraries/kutil/frame_allocator.cpp
+++ b/src/libraries/kutil/frame_allocator.cpp
@@ -0,0 +1,156 @@
 #include <algorithm>
 #include "kutil/frame_allocator.h"
 namespace kutil {
 int
 frame_block::compare(const frame_block *rhs) const
 {
 	if (address < rhs->address)
 		return -1;
 	else if (address > rhs->address)
 		return 1;
 	return 0;
 }
 frame_block_list
 frame_block::consolidate(frame_block_list &list)
 {
 	frame_block_list freed;
 	for (auto *cur : list) {
 		auto *next = cur->next();
 		while ( next &&
 				cur->flags == next->flags &&
 				cur->end() == next->address) {
 			cur->count += next->count;
 			list.remove(next);
 			freed.push_back(next);
 		}
 	}
 	return freed;
 }
 void
 frame_block::zero()
 {
 	address = 0;
 	count = 0;
 	flags = frame_block_flags::none;
 }
 void
 frame_block::copy(frame_block *other)
 {
 	address = other->address;
 	count = other->count;
 	flags = other->flags;
 }
 frame_allocator::frame_allocator(
 	frame_block_list free,
 	frame_block_list used,
 	frame_block_list cache)
 {
 	m_free.append(free);
 	m_used.append(used);
 	m_block_slab.append(cache);
 	consolidate_blocks();
 }
 void
 frame_allocator::consolidate_blocks()
 {
 	m_block_slab.append(frame_block::consolidate(m_free));
 	m_block_slab.append(frame_block::consolidate(m_used));
 }
 size_t
 frame_allocator::allocate(size_t count, uintptr_t *address)
 {
 	kassert(!m_free.empty(), "frame_allocator::pop_frames ran out of free frames!");
 	auto *first = m_free.front();
 	unsigned n = std::min(count, static_cast<size_t>(first->count));
 	*address = first->address;
 	if (count >= first->count) {
 		m_free.remove(first);
 		m_used.sorted_insert(first);
 	} else {
 		auto *used = m_block_slab.pop();
 		used->copy(first);
 		used->count = n;
 		m_used.sorted_insert(used);
 		first->address += n * frame_size;
 		first->count -= n;
 	}
 	m_block_slab.append(frame_block::consolidate(m_used));
 	return n;
 }
 void
 frame_allocator::free(uintptr_t address, size_t count)
 {
 	size_t block_count = 0;
 	for (auto *block : m_used) {
 		if (!block->contains(address)) continue;
 		size_t size = frame_size * count;
 		uintptr_t end = address + size;
 		size_t leading = address - block->address;
 		size_t trailing =
 			end > block->end() ?
 			0 : (block->end() - end);
 		if (leading) {
 			size_t frames = leading / frame_size;
 			auto *lead_block = m_block_slab.pop();
 			lead_block->copy(block);
 			lead_block->count = frames;
 			block->count -= frames;
 			block->address += leading;
 			m_used.insert_before(block, lead_block);
 		}
 		if (trailing) {
 			size_t frames = trailing / frame_size;
 			auto *trail_block = m_block_slab.pop();
 			trail_block->copy(block);
 			trail_block->count = frames;
 			trail_block->address += size;
 			trail_block->address += size;
 			block->count -= frames;
 			m_used.insert_after(block, trail_block);
 		}
 		address += block->count * frame_size;
 		m_used.remove(block);
 		m_free.sorted_insert(block);
 		++block_count;
 	}
 	kassert(block_count, "Couldn't find existing allocated frames to free");
 }
 } // namespace kutil
--- a/src/libraries/kutil/include/kutil/frame_allocator.h
+++ b/src/libraries/kutil/include/kutil/frame_allocator.h
@@ -0,0 +1,109 @@
 #pragma once
 /// \file frame_allocator.h
 /// Allocator for physical memory frames
 #include <stdint.h>
 #include "kutil/enum_bitfields.h"
 #include "kutil/linked_list.h"
 #include "kutil/slab_allocator.h"
 namespace kutil {
 struct frame_block;
 using frame_block_list = kutil::linked_list<frame_block>;
 using frame_block_slab = kutil::slab_allocator<frame_block>;
 /// Allocator for physical memory frames
 class frame_allocator
 {
 public:
 	/// Size of a single page frame.
 	static const size_t frame_size = 0x1000;
 	/// Constructor. Sets up the frame allocator from bootstraped memory.
 	/// \arg free   List of free blocks
 	/// \arg used   List of currently used blocks
 	/// \arg cache  List of pre-allocated but unused frame_block structures
 	frame_allocator(
 			frame_block_list free,
 			frame_block_list used,
 			frame_block_list cache);
 	/// Get free frames from the free list. Only frames from the first free block
 	/// are returned, so the number may be less than requested, but they will
 	/// be contiguous.
 	/// \arg count    The maximum number of frames to get
 	/// \arg address  [out] The physical address of the first frame
 	/// \returns      The number of frames retrieved
 	size_t allocate(size_t count, uintptr_t *address);
 	/// Free previously allocated frames.
 	/// \arg address  The physical address of the first frame to free
 	/// \arg count    The number of frames to be freed
 	void free(uintptr_t address, size_t count);
 private:
 	/// Consolidate the free and used block lists. Return freed blocks
 	/// to the cache.
 	void consolidate_blocks();
 	frame_block_list m_free; ///< Free frames list
 	frame_block_list m_used; ///< In-use frames list
 	frame_block_slab m_block_slab; ///< frame_block slab allocator
 	frame_allocator(const frame_allocator &) = delete;
 };
 /// Flags used by `frame_block`.
 enum class frame_block_flags : uint32_t
 {
 	none         = 0x00,
 	mmio         = 0x01,  ///< Memory is a MMIO region
 	nonvolatile  = 0x02,  ///< Memory is non-volatile storage
 	pending_free = 0x10,  ///< Memory should be freed
 	acpi_wait    = 0x40,  ///< Memory should be freed after ACPI init
 	permanent    = 0x80   ///< Memory is permanently unusable
 };
 } // namespace kutil
 IS_BITFIELD(kutil::frame_block_flags);
 namespace kutil {
 /// A block of contiguous frames. Each `frame_block` represents contiguous
 /// physical frames with the same attributes.
 struct frame_block
 {
 	uintptr_t address;
 	uint32_t count;
 	frame_block_flags flags;
 	inline bool has_flag(frame_block_flags f) const { return bitfield_has(flags, f); }
 	inline uintptr_t end() const { return address + (count * frame_allocator::frame_size); }
 	inline bool contains(uintptr_t addr) const { return addr >= address && addr < end(); }
 	/// Helper to zero out a block and optionally set the next pointer.
 	void zero();
 	/// Helper to copy a bock from another block
 	/// \arg other  The block to copy from
 	void copy(frame_block *other);
 	/// Compare two blocks by address.
 	/// \arg rhs   The right-hand comparator
 	/// \returns   <0 if this is sorts earlier, >0 if this sorts later, 0 for equal
 	int compare(const frame_block *rhs) const;
 	/// Traverse the list, joining adjacent blocks where possible.
 	/// \arg list  The list to consolidate
 	/// \returns   A linked list of freed frame_block structures.
 	static frame_block_list consolidate(frame_block_list &list);
 };
 } // namespace kutil
--- a/src/tests/frame_allocator.cpp
+++ b/src/tests/frame_allocator.cpp
@@ -0,0 +1,53 @@
 #include "kutil/frame_allocator.h"
 #include "kutil/heap_manager.h"
 #include "kutil/memory.h"
 #include "catch.hpp"
 using namespace kutil;
 extern void * grow_callback(void*, size_t);
 extern void free_memory();
 const size_t max_block = 1ull << 36;
 const size_t start = max_block;
 const size_t GB = 1ull << 30;
 TEST_CASE( "Frame allocator tests", "[memory frame]" )
 {
 	heap_manager mm(nullptr, grow_callback);
 	kutil::setup::set_heap(&mm);
 	frame_block_list free;
 	frame_block_list used;
 	frame_block_list cache;
 	auto *f = new frame_block_list::item_type;
 	f->address = 0x1000;
 	f->count = 1;
 	free.sorted_insert(f);
 	f = new frame_block_list::item_type;
 	f->address = 0x2000;
 	f->count = 1;
 	free.sorted_insert(f);
 	frame_allocator fa(
 		std::move(free),
 		std::move(used),
 		std::move(cache));
 	uintptr_t a = 0;
 	size_t c = fa.allocate(2, &a);
 	CHECK( a == 0x1000 );
 	CHECK( c == 2 );
 	fa.free(a, 2);
 	a = 0;
 	c = fa.allocate(2, &a);
 	CHECK( a == 0x1000 );
 	CHECK( c == 2 );
 	kutil::setup::set_heap(nullptr);
 	free_memory();
 }