forked from Bananymous/banan-os
Kernel: Rewrote kmalloc to be much simpler and allow alignment
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Bananymous
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d89b6aa9ce
commit
7d45b3cbd6
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@ -7,4 +7,5 @@ void kmalloc_dump_nodes();
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void* kmalloc_eternal(size_t);
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void* kmalloc(size_t);
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void* kmalloc(size_t, size_t);
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void kfree(void*);
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@ -1,60 +1,71 @@
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#include <kernel/multiboot.h>
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#include <BAN/Errors.h>
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#include <BAN/Math.h>
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#include <kernel/kmalloc.h>
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#include <kernel/Panic.h>
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#include <kernel/Serial.h>
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#include <kernel/multiboot.h>
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#include <stdint.h>
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#define MB (1 << 20)
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#define ALIGN (alignof(max_align_t))
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/*
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Kmalloc holds a bitmap of free/allocated chunks
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When allocating n chunks, kmalloc will put the number of chunks
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to address, and return pointer to the byte after the stored size
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*/
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static constexpr uintptr_t s_kmalloc_base = 0x00200000;
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static constexpr size_t s_kmalloc_size = 1 * MB;
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static constexpr uintptr_t s_kmalloc_end = s_kmalloc_base + s_kmalloc_size;
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static constexpr uintptr_t s_kmalloc_eternal_base = s_kmalloc_end;
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static constexpr size_t s_kmalloc_eternal_size = 1 * MB;
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static constexpr uintptr_t s_kmalloc_eternal_end = s_kmalloc_eternal_base + s_kmalloc_eternal_size;
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static constexpr size_t s_kmalloc_default_align = alignof(max_align_t);
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static constexpr size_t s_kmalloc_chunk_size = s_kmalloc_default_align;
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static constexpr size_t s_kmalloc_chunks_per_size = sizeof(size_t) * 8 / s_kmalloc_chunk_size;
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static constexpr size_t s_kmalloc_total_chunks = s_kmalloc_size / s_kmalloc_chunk_size;
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static uint8_t s_kmalloc_bitmap[s_kmalloc_total_chunks / 8] { 0 };
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extern "C" uintptr_t g_kernel_end;
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/*
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#### KMALLOC ################
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*/
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struct kmalloc_node
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static bool is_kmalloc_chunk_used(size_t index)
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{
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uintptr_t addr;
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size_t size : sizeof(size_t) * 8 - 1;
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size_t free : 1;
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};
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static kmalloc_node* s_kmalloc_node_head = nullptr;
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static size_t s_kmalloc_node_count;
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ASSERT(index < s_kmalloc_total_chunks);
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return s_kmalloc_bitmap[index / 8] & (1 << (index % 8));
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}
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static uintptr_t s_kmalloc_node_base = 0x00200000;
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static size_t s_kmalloc_max_nodes = 1000;
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static uintptr_t chunk_address(size_t index)
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{
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ASSERT(index < s_kmalloc_total_chunks);
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return s_kmalloc_base + s_kmalloc_chunk_size * index;
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}
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static uintptr_t s_kmalloc_base = s_kmalloc_node_base + s_kmalloc_max_nodes * sizeof(kmalloc_node);
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static size_t s_kmalloc_size = 1 * MB;
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static uintptr_t s_kmalloc_end = s_kmalloc_base + s_kmalloc_size;
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static size_t s_kmalloc_available = 0;
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static size_t s_kmalloc_allocated = 0;
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/*
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#### KMALLOC ETERNAL ########
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*/
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static uintptr_t s_kmalloc_eternal_ptr = 0;
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static uintptr_t s_kmalloc_eternal_base = s_kmalloc_end;
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static size_t s_kmalloc_eternal_size = 1 * MB;
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static uintptr_t s_kmalloc_eternal_end = s_kmalloc_eternal_base + s_kmalloc_eternal_size;
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/*
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#############################
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*/
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static bool s_initialized = false;
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static void free_chunks(size_t start)
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{
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ASSERT(s_kmalloc_chunks_per_size <= start && start < s_kmalloc_total_chunks);
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start -= s_kmalloc_chunks_per_size;
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size_t size = *(size_t*)chunk_address(start);
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for (size_t i = 0; i < size; i++)
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s_kmalloc_bitmap[(start + i) / 8] &= ~(1 << ((start + i) % 8));
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}
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void kmalloc_initialize()
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{
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if (!(g_multiboot_info->flags & (1 << 6)))
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Kernel::Panic("Kmalloc: Bootloader didn't provide a memory map");
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if (g_kernel_end > s_kmalloc_node_base)
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if (g_kernel_end > s_kmalloc_base)
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Kernel::Panic("Kmalloc: Kernel end is over kmalloc base");
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dprintln("initializing kmalloc");
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dprintln("kmalloc {} -> {}", (void*)s_kmalloc_base, (void*)s_kmalloc_end);
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dprintln("kmalloc eternal {} -> {}", (void*)s_kmalloc_eternal_base, (void*)s_kmalloc_eternal_end);
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// Validate kmalloc memory
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bool valid = false;
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for (size_t i = 0; i < g_multiboot_info->mmap_length;)
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@ -77,198 +88,80 @@ void kmalloc_initialize()
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if (!valid)
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{
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Kernel::Panic("Kmalloc: Could not find {}.{} MB of memory",
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(s_kmalloc_eternal_end - s_kmalloc_node_base) / MB,
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(s_kmalloc_eternal_end - s_kmalloc_node_base) % MB
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(s_kmalloc_eternal_end - s_kmalloc_base) / MB,
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(s_kmalloc_eternal_end - s_kmalloc_base) % MB
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);
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}
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s_kmalloc_node_count = 1;
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s_kmalloc_node_head = (kmalloc_node*)s_kmalloc_node_base;
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s_kmalloc_allocated = 0;
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s_kmalloc_available = s_kmalloc_size;
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kmalloc_node& head = s_kmalloc_node_head[0];
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head.addr = s_kmalloc_base;
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head.size = s_kmalloc_size;
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head.free = true;
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s_kmalloc_eternal_ptr = s_kmalloc_eternal_base;
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s_initialized = true;
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}
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void kmalloc_dump_nodes()
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{
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if (!s_initialized)
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Kernel::Panic("kmalloc not initialized!");
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dprintln("Kmalloc memory available {}.{} MB", s_kmalloc_available / MB, s_kmalloc_available % MB);
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dprintln("Kmalloc memory allocated {}.{} MB", s_kmalloc_allocated / MB, s_kmalloc_allocated % MB);
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dprintln("Using {}/{} nodes", s_kmalloc_node_count, s_kmalloc_max_nodes);
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for (size_t i = 0; i < s_kmalloc_node_count; i++)
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{
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kmalloc_node& node = s_kmalloc_node_head[i];
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dprintln(" ({3}) {}, node at {}, free: {}, size: {}", i, (void*)&node, (void*)node.addr, node.free, node.size);
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}
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}
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void* kmalloc_eternal(size_t size)
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{
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if (!s_initialized)
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Kernel::Panic("kmalloc not initialized!");
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if (size % ALIGN)
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size += ALIGN - (size % ALIGN);
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if (s_kmalloc_eternal_ptr % ALIGN)
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Kernel::Panic("Unaligned ptr in kmalloc_eternal");
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if (s_kmalloc_eternal_ptr + size > s_kmalloc_eternal_end)
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{
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dprintln("\e[33mKmalloc eternal: Could not allocate {} bytes\e[0m", size);
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return nullptr;
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}
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void* result = (void*)s_kmalloc_eternal_ptr;
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s_kmalloc_eternal_ptr += size;
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return result;
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dprintln("kmalloc dump: {8b}{8b}{8b}{8b}{8b}{8b}{8b}{8b}",
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s_kmalloc_bitmap[7], s_kmalloc_bitmap[6], s_kmalloc_bitmap[5], s_kmalloc_bitmap[4],
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s_kmalloc_bitmap[3], s_kmalloc_bitmap[2], s_kmalloc_bitmap[1], s_kmalloc_bitmap[0]
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);
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}
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void* kmalloc(size_t size)
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{
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if (!s_initialized)
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Kernel::Panic("kmalloc not initialized!");
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return kmalloc(size, s_kmalloc_default_align);
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}
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if (size % ALIGN)
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size += ALIGN - (size % ALIGN);
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void* kmalloc(size_t size, size_t align)
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{
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if (size == 0)
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return nullptr;
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// Search for node with free memory and big enough size
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size_t valid_node_index = -1;
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for (size_t i = 0; i < s_kmalloc_node_count; i++)
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if (align == 0)
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align = s_kmalloc_chunk_size;
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if (align < s_kmalloc_chunk_size || align % s_kmalloc_chunk_size)
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{
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kmalloc_node& current = s_kmalloc_node_head[i];
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if (current.free && current.size >= size)
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size_t new_align = BAN::Math::lcm(align, s_kmalloc_chunk_size);
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dwarnln("kmalloc asked to align to {}, aliging to {} instead", align, new_align);
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align = new_align;
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}
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size_t needed_chunks = (size - 1) / s_kmalloc_chunk_size + 1 + s_kmalloc_chunks_per_size;
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for (size_t i = 0; i < s_kmalloc_total_chunks - needed_chunks; i++)
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{
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valid_node_index = i;
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if (chunk_address(i + s_kmalloc_chunks_per_size) % align)
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continue;
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bool free = true;
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for (size_t j = 0; j < needed_chunks; j++)
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{
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if (is_kmalloc_chunk_used(i + j))
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{
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free = false;
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i += j;
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break;
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}
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}
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if (valid_node_index == size_t(-1))
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if (free)
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{
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dprintln("\e[33mKmalloc: Could not allocate {} bytes\e[0m", size);
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*(size_t*)chunk_address(i) = needed_chunks;
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for (size_t j = 0; j < needed_chunks; j++)
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s_kmalloc_bitmap[(i + j) / 8] |= (1 << ((i + j) % 8));
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return (void*)chunk_address(i + s_kmalloc_chunks_per_size);
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}
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}
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dwarnln("Could not allocate {} bytes", size);
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return nullptr;
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}
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kmalloc_node& valid_node = s_kmalloc_node_head[valid_node_index];
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// If node's size happens to match requested size,
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// just flip free bit and return the address
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if (valid_node.size == size)
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void kfree(void* address)
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{
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valid_node.free = false;
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if (valid_node.addr % ALIGN)
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Kernel::Panic("Unaligned ptr in kmalloc");
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return (void*)valid_node.addr;
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}
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if (s_kmalloc_node_count == s_kmalloc_max_nodes)
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{
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dprintln("\e[33mKmalloc: Out of kmalloc nodes\e[0m");
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return nullptr;
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}
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// Shift every node after valid_node one place to right
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for (size_t i = s_kmalloc_node_count - 1; i > valid_node_index; i--)
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s_kmalloc_node_head[i + 1] = s_kmalloc_node_head[i];
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// Create new node after the valid node
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s_kmalloc_node_count++;
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kmalloc_node& new_node = s_kmalloc_node_head[valid_node_index + 1];
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new_node.addr = valid_node.addr + size;
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new_node.size = valid_node.size - size;
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new_node.free = true;
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// Update the valid node
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valid_node.size = size;
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valid_node.free = false;
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s_kmalloc_allocated += size;
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s_kmalloc_available -= size;
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if (valid_node.addr % ALIGN)
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Kernel::Panic("Unaligned ptr in kmalloc");
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return (void*)valid_node.addr;
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}
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void kfree(void* addr)
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{
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if (!s_initialized) Kernel::Panic("kmalloc not initialized!");
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if (addr == nullptr)
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if (!address)
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return;
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ASSERT(((uintptr_t)address % s_kmalloc_chunk_size) == 0);
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ASSERT(s_kmalloc_base <= (uintptr_t)address && (uintptr_t)address < s_kmalloc_end);
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// TODO: use binary search etc.
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size_t first_chunk = ((uintptr_t)address - s_kmalloc_base) / s_kmalloc_chunk_size - s_kmalloc_chunks_per_size;
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ASSERT(is_kmalloc_chunk_used(first_chunk));
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size_t node_index = -1;
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for (size_t i = 0; i < s_kmalloc_node_count; i++)
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{
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if (s_kmalloc_node_head[i].addr == (uintptr_t)addr)
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{
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node_index = i;
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break;
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}
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}
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if (node_index == size_t(-1))
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{
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dprintln("\e[33mKmalloc: Attempting to free unallocated pointer {}\e[0m", addr);
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return;
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}
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// Mark this node as free
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kmalloc_node* node = &s_kmalloc_node_head[node_index];
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node->free = true;
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size_t size = node->size;
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// If node before this node is free, merge them
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if (node_index > 0)
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{
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kmalloc_node& prev = s_kmalloc_node_head[node_index - 1];
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if (prev.free)
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{
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prev.size += node->size;
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s_kmalloc_node_count--;
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for (size_t i = node_index; i < s_kmalloc_node_count; i++)
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s_kmalloc_node_head[i] = s_kmalloc_node_head[i + 1];
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node_index--;
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node = &s_kmalloc_node_head[node_index];
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}
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}
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// If node after this node is free, merge them
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if (node_index < s_kmalloc_node_count - 1)
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{
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kmalloc_node& next = s_kmalloc_node_head[node_index + 1];
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if (next.free)
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{
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node->size += next.size;
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s_kmalloc_node_count--;
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for (size_t i = node_index; i < s_kmalloc_node_count; i++)
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s_kmalloc_node_head[i + 1] = s_kmalloc_node_head[i + 2];
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node_index--;
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node = &s_kmalloc_node_head[node_index];
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}
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}
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s_kmalloc_allocated -= size;
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s_kmalloc_available += size;
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size_t size = *(size_t*)chunk_address(first_chunk);
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for (size_t i = 0; i < size; i++)
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s_kmalloc_bitmap[(first_chunk + i) / 8] &= ~(1 << ((first_chunk + i) % 8));
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}
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