mirror of
https://github.com/Atmosphere-NX/Atmosphere.git
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94eb2195d3
* Implemented a system updater homebrew (titled Daybreak) * git subrepo pull ./troposphere/daybreak/nanovg subrepo: subdir: "troposphere/daybreak/nanovg" merged: "c197ba2f" upstream: origin: "https://github.com/Adubbz/nanovg-deko.git" branch: "master" commit: "c197ba2f" git-subrepo: version: "0.4.1" origin: "???" commit: "???" (+1 squashed commits) Squashed commits: [232dc943] git subrepo clone https://github.com/Adubbz/nanovg-deko.git troposphere/daybreak/nanovg subrepo: subdir: "troposphere/daybreak/nanovg" merged: "52bb784b" upstream: origin: "https://github.com/Adubbz/nanovg-deko.git" branch: "master" commit: "52bb784b" git-subrepo: version: "0.4.1" origin: "???" commit: "???" * daybreak: switch to using hiddbg for home blocking (+1 squashed commits) Squashed commits: [4bfc7b0d] daybreak: block the home button during installation
175 lines
4.5 KiB
C++
175 lines
4.5 KiB
C++
/*
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** Sample Framework for deko3d Applications
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** CMemPool.cpp: Pooled dynamic memory allocation manager class
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*/
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#include "CMemPool.h"
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inline auto CMemPool::_newSlice() -> Slice*
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{
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Slice* ret = m_sliceHeap.pop();
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if (!ret) ret = (Slice*)::malloc(sizeof(Slice));
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return ret;
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}
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inline void CMemPool::_deleteSlice(Slice* s)
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{
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if (!s) return;
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m_sliceHeap.add(s);
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}
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CMemPool::~CMemPool()
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{
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m_memMap.iterate([](Slice* s) { ::free(s); });
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m_sliceHeap.iterate([](Slice* s) { ::free(s); });
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m_blocks.iterate([](Block* blk) {
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blk->m_obj.destroy();
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::free(blk);
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});
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}
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auto CMemPool::allocate(uint32_t size, uint32_t alignment) -> Handle
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{
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if (!size) return nullptr;
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if (alignment & (alignment - 1)) return nullptr;
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size = (size + alignment - 1) &~ (alignment - 1);
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#ifdef DEBUG_CMEMPOOL
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printf("Allocating size=%u alignment=0x%x\n", size, alignment);
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{
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Slice* temp = /*m_freeList*/m_memMap.first();
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while (temp)
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{
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printf("-- blk %p | 0x%08x-0x%08x | %s used\n", temp->m_block, temp->m_start, temp->m_end, temp->m_pool ? " " : "not");
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temp = /*m_freeList*/m_memMap.next(temp);
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}
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}
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#endif
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uint32_t start_offset = 0;
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uint32_t end_offset = 0;
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Slice* slice = m_freeList.find(size, decltype(m_freeList)::LowerBound);
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while (slice)
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{
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#ifdef DEBUG_CMEMPOOL
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printf(" * Checking slice 0x%x - 0x%x\n", slice->m_start, slice->m_end);
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#endif
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start_offset = (slice->m_start + alignment - 1) &~ (alignment - 1);
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end_offset = start_offset + size;
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if (end_offset <= slice->m_end)
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break;
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slice = m_freeList.next(slice);
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}
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if (!slice)
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{
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Block* blk = (Block*)::malloc(sizeof(Block));
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if (!blk)
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return nullptr;
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uint32_t unusableSize = (m_flags & DkMemBlockFlags_Code) ? DK_SHADER_CODE_UNUSABLE_SIZE : 0;
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uint32_t blkSize = m_blockSize - unusableSize;
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blkSize = size > blkSize ? size : blkSize;
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blkSize = (blkSize + unusableSize + DK_MEMBLOCK_ALIGNMENT - 1) &~ (DK_MEMBLOCK_ALIGNMENT - 1);
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#ifdef DEBUG_CMEMPOOL
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printf(" ! Allocating block of size 0x%x\n", blkSize);
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#endif
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blk->m_obj = dk::MemBlockMaker{m_dev, blkSize}.setFlags(m_flags).create();
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if (!blk->m_obj)
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{
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::free(blk);
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return nullptr;
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}
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slice = _newSlice();
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if (!slice)
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{
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blk->m_obj.destroy();
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::free(blk);
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return nullptr;
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}
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slice->m_pool = nullptr;
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slice->m_block = blk;
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slice->m_start = 0;
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slice->m_end = blkSize - unusableSize;
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m_memMap.add(slice);
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blk->m_cpuAddr = blk->m_obj.getCpuAddr();
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blk->m_gpuAddr = blk->m_obj.getGpuAddr();
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m_blocks.add(blk);
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start_offset = 0;
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end_offset = size;
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}
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else
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{
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#ifdef DEBUG_CMEMPOOL
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printf(" * found it\n");
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#endif
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m_freeList.remove(slice);
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}
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if (start_offset != slice->m_start)
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{
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Slice* t = _newSlice();
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if (!t) goto _bad;
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t->m_pool = nullptr;
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t->m_block = slice->m_block;
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t->m_start = slice->m_start;
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t->m_end = start_offset;
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#ifdef DEBUG_CMEMPOOL
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printf("-> subdivide left: %08x-%08x\n", t->m_start, t->m_end);
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#endif
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m_memMap.addBefore(slice, t);
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m_freeList.insert(t, true);
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slice->m_start = start_offset;
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}
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if (end_offset != slice->m_end)
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{
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Slice* t = _newSlice();
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if (!t) goto _bad;
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t->m_pool = nullptr;
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t->m_block = slice->m_block;
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t->m_start = end_offset;
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t->m_end = slice->m_end;
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#ifdef DEBUG_CMEMPOOL
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printf("-> subdivide right: %08x-%08x\n", t->m_start, t->m_end);
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#endif
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m_memMap.addAfter(slice, t);
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m_freeList.insert(t, true);
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slice->m_end = end_offset;
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}
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slice->m_pool = this;
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return slice;
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_bad:
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m_freeList.insert(slice, true);
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return nullptr;
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}
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void CMemPool::_destroy(Slice* slice)
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{
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slice->m_pool = nullptr;
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Slice* left = m_memMap.prev(slice);
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Slice* right = m_memMap.next(slice);
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if (left && left->canCoalesce(*slice))
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{
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slice->m_start = left->m_start;
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m_freeList.remove(left);
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m_memMap.remove(left);
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_deleteSlice(left);
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}
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if (right && slice->canCoalesce(*right))
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{
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slice->m_end = right->m_end;
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m_freeList.remove(right);
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m_memMap.remove(right);
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_deleteSlice(right);
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}
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m_freeList.insert(slice, true);
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}
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