mirror of
https://github.com/libretro/RetroArch.git
synced 2024-11-28 10:40:39 +00:00
8741ec48d5
heap/linear heap and stack sizes can now change dynamically at runtime, depending on usage, no need to specify those on a per-core basis anymore.
274 lines
5.4 KiB
C++
274 lines
5.4 KiB
C++
/* from https://github.com/smealum/ctrulib
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* modified to allow reducing __linear_heap_size at runtime */
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#include <3ds.h>
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#include <stdlib.h>
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#include <3ds/util/rbtree.h>
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#include "ctr_debug.h"
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struct MemChunk
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{
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u8* addr;
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u32 size;
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};
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struct MemBlock
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{
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MemBlock *prev, *next;
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u8* base;
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u32 size;
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static MemBlock* Create(u8* base, u32 size)
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{
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auto b = (MemBlock*)malloc(sizeof(MemBlock));
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if (!b) return nullptr;
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b->prev = nullptr;
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b->next = nullptr;
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b->base = base;
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b->size = size;
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return b;
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}
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};
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struct MemPool
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{
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MemBlock *first, *last;
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bool Ready() { return first != nullptr; }
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void AddBlock(MemBlock* blk)
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{
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blk->prev = last;
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if (last) last->next = blk;
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if (!first) first = blk;
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last = blk;
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}
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void DelBlock(MemBlock* b)
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{
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auto prev = b->prev, &pNext = prev ? prev->next : first;
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auto next = b->next, &nPrev = next ? next->prev : last;
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pNext = next;
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nPrev = prev;
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free(b);
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}
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void InsertBefore(MemBlock* b, MemBlock* p)
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{
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auto prev = b->prev, &pNext = prev ? prev->next : first;
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b->prev = p;
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p->next = b;
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p->prev = prev;
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pNext = p;
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}
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void InsertAfter(MemBlock* b, MemBlock* n)
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{
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auto next = b->next, &nPrev = next ? next->prev : last;
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b->next = n;
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n->prev = b;
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n->next = next;
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nPrev = n;
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}
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//void CoalesceLeft(MemBlock* b);
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void CoalesceRight(MemBlock* b);
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bool Allocate(MemChunk& chunk, u32 size, int align);
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void Deallocate(const MemChunk& chunk);
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void Destroy()
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{
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MemBlock* next = nullptr;
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for (auto b = first; b; b = next)
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{
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next = b->next;
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free(b);
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}
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first = nullptr;
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last = nullptr;
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}
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//void Dump(const char* title);
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u32 GetFreeSpace();
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};
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static rbtree_t sAddrMap;
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struct addrMapNode
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{
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rbtree_node node;
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MemChunk chunk;
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};
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#define getAddrMapNode(x) rbtree_item((x), addrMapNode, node)
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static int addrMapNodeComparator(const rbtree_node_t* _lhs, const rbtree_node_t* _rhs)
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{
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auto lhs = getAddrMapNode(_lhs)->chunk.addr;
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auto rhs = getAddrMapNode(_rhs)->chunk.addr;
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if (lhs < rhs)
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return -1;
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if (lhs > rhs)
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return 1;
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return 0;
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}
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static void addrMapNodeDestructor(rbtree_node_t* a)
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{
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free(getAddrMapNode(a));
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}
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static addrMapNode* getNode(void* addr)
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{
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addrMapNode n;
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n.chunk.addr = (u8*)addr;
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auto p = rbtree_find(&sAddrMap, &n.node);
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return p ? getAddrMapNode(p) : nullptr;
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}
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static addrMapNode* newNode(const MemChunk& chunk)
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{
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auto p = (addrMapNode*)malloc(sizeof(addrMapNode));
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if (!p) return nullptr;
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p->chunk = chunk;
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return p;
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}
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static void delNode(addrMapNode* node)
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{
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rbtree_remove(&sAddrMap, &node->node, addrMapNodeDestructor);
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}
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extern u32 __linear_heap, __linear_heap_size;
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static MemPool sLinearPool;
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static u32 sLinearPool_maxaddr;
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static bool linearInit()
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{
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auto blk = MemBlock::Create((u8*)__linear_heap, __linear_heap_size);
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if (blk)
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{
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sLinearPool.AddBlock(blk);
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sLinearPool_maxaddr = __linear_heap;
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rbtree_init(&sAddrMap, addrMapNodeComparator);
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return true;
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}
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return false;
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}
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void* linearMemAlign(size_t size, size_t alignment)
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{
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// Enforce minimum alignment
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if (alignment < 16)
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alignment = 16;
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// Convert alignment to shift amount
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int shift;
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for (shift = 4; shift < 32; shift ++)
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{
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if ((1U<<shift) == alignment)
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break;
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}
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if (shift == 32) // Invalid alignment
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return nullptr;
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// Initialize the pool if it is not ready
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if (!sLinearPool.Ready() && !linearInit())
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return nullptr;
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// Allocate the chunk
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MemChunk chunk;
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if (!sLinearPool.Allocate(chunk, size, shift))
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return nullptr;
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auto node = newNode(chunk);
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if (!node)
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{
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sLinearPool.Deallocate(chunk);
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return nullptr;
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}
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if (rbtree_insert(&sAddrMap, &node->node));
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if (sLinearPool_maxaddr < (u32)sLinearPool.last->base)
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sLinearPool_maxaddr = (u32)sLinearPool.last->base;
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return chunk.addr;
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}
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void* linearAlloc(size_t size)
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{
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// extern PrintConsole* currentConsole;
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// if(currentConsole->consoleInitialised)
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// {
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// printf("linearAlloc : 0x%08X\n", size);
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// DEBUG_HOLD();
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// }
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return linearMemAlign(size, 0x80);
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}
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void* linearRealloc(void* mem, size_t size)
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{
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// TODO
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return NULL;
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}
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void linearFree(void* mem)
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{
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auto node = getNode(mem);
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if (!node) return;
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// Free the chunk
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sLinearPool.Deallocate(node->chunk);
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// Free the node
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delNode(node);
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}
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u32 linearSpaceFree()
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{
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return sLinearPool.GetFreeSpace();
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}
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extern "C" u32 ctr_get_linear_free(void)
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{
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if(sLinearPool.last->base + sLinearPool.last->size != (u8*)__linear_heap + __linear_heap_size)
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return 0;
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return sLinearPool.last->size;
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}
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extern "C" u32 ctr_get_linear_unused(void)
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{
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return __linear_heap + __linear_heap_size - sLinearPool_maxaddr;
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}
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extern "C" void ctr_linear_free_pages(u32 pages)
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{
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if(sLinearPool.last->base + sLinearPool.last->size != (u8*)__linear_heap + __linear_heap_size)
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return;
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u32 size = pages << 12;
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if(size > sLinearPool.last->size)
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return;
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sLinearPool.last->size -= size;
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__linear_heap_size -= size;
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u32 tmp;
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svcControlMemory(&tmp, __linear_heap + __linear_heap_size, 0x0, size,
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MEMOP_FREE, (MemPerm)(MEMPERM_READ | MEMPERM_WRITE));
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// printf("l:0x%08X-->0x%08X(-0x%08X) \n", sLinearPool.last->size + size, sLinearPool.last->size, size);
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// DEBUG_HOLD();
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}
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extern "C" void ctr_linear_get_stats(void)
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{
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printf("last:\n");
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printf("0x%08X --> 0x%08X (0x%08X) \n", sLinearPool.last->base,
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sLinearPool.last->base + sLinearPool.last->size, sLinearPool.last->size);
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printf("free: 0x%08X unused: 0x%08X \n", ctr_get_linear_unused(), ctr_get_linear_free());
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}
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