src/OpenGL/compiler/PoolAlloc.cpp - SwiftShader - Git at Google

 // Copyright 2016 The SwiftShader Authors. All Rights Reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //    http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #include "PoolAlloc.h"

 #ifndef _MSC_VER
 #include <stdint.h>
 #endif
 #include <stdio.h>
 #include <stdlib.h>

 #include "InitializeGlobals.h"
 #include "osinclude.h"

 OS_TLSIndex PoolIndex = OS_INVALID_TLS_INDEX;

 bool InitializePoolIndex()
 {
 	assert(PoolIndex == OS_INVALID_TLS_INDEX);

 	PoolIndex = OS_AllocTLSIndex();
 	return PoolIndex != OS_INVALID_TLS_INDEX;
 }

 void FreePoolIndex()
 {
 	assert(PoolIndex != OS_INVALID_TLS_INDEX);

 	OS_FreeTLSIndex(PoolIndex);
 	PoolIndex = OS_INVALID_TLS_INDEX;
 }

 TPoolAllocator* GetGlobalPoolAllocator()
 {
 	assert(PoolIndex != OS_INVALID_TLS_INDEX);
 	return static_cast<TPoolAllocator*>(OS_GetTLSValue(PoolIndex));
 }

 void SetGlobalPoolAllocator(TPoolAllocator* poolAllocator)
 {
 	assert(PoolIndex != OS_INVALID_TLS_INDEX);
 	OS_SetTLSValue(PoolIndex, poolAllocator);
 }

 //
 // Implement the functionality of the TPoolAllocator class, which
 // is documented in PoolAlloc.h.
 //
 TPoolAllocator::TPoolAllocator(int growthIncrement, int allocationAlignment) :
 	alignment(allocationAlignment)
 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	, pageSize(growthIncrement),
 	freeList(0),
 	inUseList(0),
 	numCalls(0),
 	totalBytes(0)
 #endif
 {
 	//
 	// Adjust alignment to be at least pointer aligned and
 	// power of 2.
 	//
 	size_t minAlign = sizeof(void*);
 	alignment &= ~(minAlign - 1);
 	if (alignment < minAlign)
 		alignment = minAlign;
 	size_t a = 1;
 	while (a < alignment)
 		a <<= 1;
 	alignment = a;
 	alignmentMask = a - 1;

 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	//
 	// Don't allow page sizes we know are smaller than all common
 	// OS page sizes.
 	//
 	if (pageSize < 4*1024)
 		pageSize = 4*1024;

 	//
 	// A large currentPageOffset indicates a new page needs to
 	// be obtained to allocate memory.
 	//
 	currentPageOffset = pageSize;

 	//
 	// Align header skip
 	//
 	headerSkip = minAlign;
 	if (headerSkip < sizeof(tHeader)) {
 		headerSkip = (sizeof(tHeader) + alignmentMask) & ~alignmentMask;
 	}
 #else  // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	mStack.push_back({});
 #endif
 }

 TPoolAllocator::~TPoolAllocator()
 {
 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	while (inUseList) {
 		tHeader* next = inUseList->nextPage;
 		inUseList->~tHeader();
 		delete [] reinterpret_cast<char*>(inUseList);
 		inUseList = next;
 	}

 	// We should not check the guard blocks
 	// here, because we did it already when the block was
 	// placed into the free list.
 	//
 	while (freeList) {
 		tHeader* next = freeList->nextPage;
 		delete [] reinterpret_cast<char*>(freeList);
 		freeList = next;
 	}
 #else  // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	for (auto& allocs : mStack) {
 		for (auto alloc : allocs) {
 			free(alloc);
 		}
 	}
 	mStack.clear();
 #endif
 }

 // Support MSVC++ 6.0
 const unsigned char TAllocation::guardBlockBeginVal = 0xfb;
 const unsigned char TAllocation::guardBlockEndVal   = 0xfe;
 const unsigned char TAllocation::userDataFill       = 0xcd;

 #ifdef GUARD_BLOCKS
 	const size_t TAllocation::guardBlockSize = 16;
 #else
 	const size_t TAllocation::guardBlockSize = 0;
 #endif

 //
 // Check a single guard block for damage
 //
 void TAllocation::checkGuardBlock(unsigned char* blockMem, unsigned char val, const char* locText) const
 {
 #ifdef GUARD_BLOCKS
 	for (size_t x = 0; x < guardBlockSize; x++) {
 		if (blockMem[x] != val) {
 			char assertMsg[80];

 			// We don't print the assert message.  It's here just to be helpful.
 			#if defined(_MSC_VER)
 				_snprintf(assertMsg, sizeof(assertMsg), "PoolAlloc: Damage %s %Iu byte allocation at 0x%p\n",
 						  locText, size, data());
 			#else
 				snprintf(assertMsg, sizeof(assertMsg), "PoolAlloc: Damage %s %zu byte allocation at 0x%p\n",
 						 locText, size, data());
 			#endif
 			assert(0 && "PoolAlloc: Damage in guard block");
 		}
 	}
 #endif
 }


 void TPoolAllocator::push()
 {
 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	tAllocState state = { currentPageOffset, inUseList };

 	mStack.push_back(state);

 	//
 	// Indicate there is no current page to allocate from.
 	//
 	currentPageOffset = pageSize;
 #else  // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	mStack.push_back({});
 #endif
 }

 //
 // Do a mass-deallocation of all the individual allocations
 // that have occurred since the last push(), or since the
 // last pop(), or since the object's creation.
 //
 // The deallocated pages are saved for future allocations.
 //
 void TPoolAllocator::pop()
 {
 	if (mStack.size() < 1)
 		return;

 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	tHeader* page = mStack.back().page;
 	currentPageOffset = mStack.back().offset;

 	while (inUseList != page) {
 		// invoke destructor to free allocation list
 		inUseList->~tHeader();

 		tHeader* nextInUse = inUseList->nextPage;
 		if (inUseList->pageCount > 1)
 			delete [] reinterpret_cast<char*>(inUseList);
 		else {
 			inUseList->nextPage = freeList;
 			freeList = inUseList;
 		}
 		inUseList = nextInUse;
 	}

 	mStack.pop_back();
 #else  // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	for (auto alloc : mStack.back()) {
 		free(alloc);
 	}
 	mStack.pop_back();
 #endif
 }

 //
 // Do a mass-deallocation of all the individual allocations
 // that have occurred.
 //
 void TPoolAllocator::popAll()
 {
 	while (mStack.size() > 0)
 		pop();
 }

 void* TPoolAllocator::allocate(size_t numBytes)
 {
 #if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	//
 	// Just keep some interesting statistics.
 	//
 	++numCalls;
 	totalBytes += numBytes;

 	// If we are using guard blocks, all allocations are bracketed by
 	// them: [guardblock][allocation][guardblock].  numBytes is how
 	// much memory the caller asked for.  allocationSize is the total
 	// size including guard blocks.  In release build,
 	// guardBlockSize=0 and this all gets optimized away.
 	size_t allocationSize = TAllocation::allocationSize(numBytes);
 	// Detect integer overflow.
 	if (allocationSize < numBytes)
 		return 0;

 	//
 	// Do the allocation, most likely case first, for efficiency.
 	// This step could be moved to be inline sometime.
 	//
 	if (allocationSize <= pageSize - currentPageOffset) {
 		//
 		// Safe to allocate from currentPageOffset.
 		//
 		unsigned char* memory = reinterpret_cast<unsigned char *>(inUseList) + currentPageOffset;
 		currentPageOffset += allocationSize;
 		currentPageOffset = (currentPageOffset + alignmentMask) & ~alignmentMask;

 		return initializeAllocation(inUseList, memory, numBytes);
 	}

 	if (allocationSize > pageSize - headerSkip) {
 		//
 		// Do a multi-page allocation.  Don't mix these with the others.
 		// The OS is efficient and allocating and free-ing multiple pages.
 		//
 		size_t numBytesToAlloc = allocationSize + headerSkip;
 		// Detect integer overflow.
 		if (numBytesToAlloc < allocationSize)
 			return 0;

 		tHeader* memory = reinterpret_cast<tHeader*>(::new char[numBytesToAlloc]);
 		if (memory == 0)
 			return 0;

 		// Use placement-new to initialize header
 		new(memory) tHeader(inUseList, (numBytesToAlloc + pageSize - 1) / pageSize);
 		inUseList = memory;

 		currentPageOffset = pageSize;  // make next allocation come from a new page

 		// No guard blocks for multi-page allocations (yet)
 		return reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(memory) + headerSkip);
 	}

 	//
 	// Need a simple page to allocate from.
 	//
 	tHeader* memory;
 	if (freeList) {
 		memory = freeList;
 		freeList = freeList->nextPage;
 	} else {
 		memory = reinterpret_cast<tHeader*>(::new char[pageSize]);
 		if (memory == 0)
 			return 0;
 	}

 	// Use placement-new to initialize header
 	new(memory) tHeader(inUseList, 1);
 	inUseList = memory;

 	unsigned char* ret = reinterpret_cast<unsigned char *>(inUseList) + headerSkip;
 	currentPageOffset = (headerSkip + allocationSize + alignmentMask) & ~alignmentMask;

 	return initializeAllocation(inUseList, ret, numBytes);
 #else  // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
 	void *alloc = malloc(numBytes + alignmentMask);
 	mStack.back().push_back(alloc);

 	intptr_t intAlloc = reinterpret_cast<intptr_t>(alloc);
 	intAlloc = (intAlloc + alignmentMask) & ~alignmentMask;
 	return reinterpret_cast<void *>(intAlloc);
 #endif
 }


 //
 // Check all allocations in a list for damage by calling check on each.
 //
 void TAllocation::checkAllocList() const
 {
 	for (const TAllocation* alloc = this; alloc != 0; alloc = alloc->prevAlloc)
 		alloc->check();
 }
	// Copyright 2016 The SwiftShader Authors. All Rights Reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#include "PoolAlloc.h"

	#ifndef _MSC_VER
	#include <stdint.h>
	#endif
	#include <stdio.h>
	#include <stdlib.h>

	#include "InitializeGlobals.h"
	#include "osinclude.h"

	OS_TLSIndex PoolIndex = OS_INVALID_TLS_INDEX;

	bool InitializePoolIndex()
	{
	assert(PoolIndex == OS_INVALID_TLS_INDEX);

	PoolIndex = OS_AllocTLSIndex();
	return PoolIndex != OS_INVALID_TLS_INDEX;
	}

	void FreePoolIndex()
	{
	assert(PoolIndex != OS_INVALID_TLS_INDEX);

	OS_FreeTLSIndex(PoolIndex);
	PoolIndex = OS_INVALID_TLS_INDEX;
	}

	TPoolAllocator* GetGlobalPoolAllocator()
	{
	assert(PoolIndex != OS_INVALID_TLS_INDEX);
	return static_cast<TPoolAllocator*>(OS_GetTLSValue(PoolIndex));
	}

	void SetGlobalPoolAllocator(TPoolAllocator* poolAllocator)
	{
	assert(PoolIndex != OS_INVALID_TLS_INDEX);
	OS_SetTLSValue(PoolIndex, poolAllocator);
	}

	//
	// Implement the functionality of the TPoolAllocator class, which
	// is documented in PoolAlloc.h.
	//
	TPoolAllocator::TPoolAllocator(int growthIncrement, int allocationAlignment) :
	alignment(allocationAlignment)
	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	, pageSize(growthIncrement),
	freeList(0),
	inUseList(0),
	numCalls(0),
	totalBytes(0)
	#endif
	{
	//
	// Adjust alignment to be at least pointer aligned and
	// power of 2.
	//
	size_t minAlign = sizeof(void*);
	alignment &= ~(minAlign - 1);
	if (alignment < minAlign)
	alignment = minAlign;
	size_t a = 1;
	while (a < alignment)
	a <<= 1;
	alignment = a;
	alignmentMask = a - 1;

	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	//
	// Don't allow page sizes we know are smaller than all common
	// OS page sizes.
	//
	if (pageSize < 4*1024)
	pageSize = 4*1024;

	//
	// A large currentPageOffset indicates a new page needs to
	// be obtained to allocate memory.
	//
	currentPageOffset = pageSize;

	//
	// Align header skip
	//
	headerSkip = minAlign;
	if (headerSkip < sizeof(tHeader)) {
	headerSkip = (sizeof(tHeader) + alignmentMask) & ~alignmentMask;
	}
	#else // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	mStack.push_back({});
	#endif
	}

	TPoolAllocator::~TPoolAllocator()
	{
	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	while (inUseList) {
	tHeader* next = inUseList->nextPage;
	inUseList->~tHeader();
	delete [] reinterpret_cast<char*>(inUseList);
	inUseList = next;
	}

	// We should not check the guard blocks
	// here, because we did it already when the block was
	// placed into the free list.
	//
	while (freeList) {
	tHeader* next = freeList->nextPage;
	delete [] reinterpret_cast<char*>(freeList);
	freeList = next;
	}
	#else // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	for (auto& allocs : mStack) {
	for (auto alloc : allocs) {
	free(alloc);
	}
	}
	mStack.clear();
	#endif
	}

	// Support MSVC++ 6.0
	const unsigned char TAllocation::guardBlockBeginVal = 0xfb;
	const unsigned char TAllocation::guardBlockEndVal = 0xfe;
	const unsigned char TAllocation::userDataFill = 0xcd;

	#ifdef GUARD_BLOCKS
	const size_t TAllocation::guardBlockSize = 16;
	#else
	const size_t TAllocation::guardBlockSize = 0;
	#endif

	//
	// Check a single guard block for damage
	//
	void TAllocation::checkGuardBlock(unsigned char* blockMem, unsigned char val, const char* locText) const
	{
	#ifdef GUARD_BLOCKS
	for (size_t x = 0; x < guardBlockSize; x++) {
	if (blockMem[x] != val) {
	char assertMsg[80];

	// We don't print the assert message. It's here just to be helpful.
	#if defined(_MSC_VER)
	_snprintf(assertMsg, sizeof(assertMsg), "PoolAlloc: Damage %s %Iu byte allocation at 0x%p\n",
	locText, size, data());
	#else
	snprintf(assertMsg, sizeof(assertMsg), "PoolAlloc: Damage %s %zu byte allocation at 0x%p\n",
	locText, size, data());
	#endif
	assert(0 && "PoolAlloc: Damage in guard block");
	}
	}
	#endif
	}


	void TPoolAllocator::push()
	{
	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	tAllocState state = { currentPageOffset, inUseList };

	mStack.push_back(state);

	//
	// Indicate there is no current page to allocate from.
	//
	currentPageOffset = pageSize;
	#else // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	mStack.push_back({});
	#endif
	}

	//
	// Do a mass-deallocation of all the individual allocations
	// that have occurred since the last push(), or since the
	// last pop(), or since the object's creation.
	//
	// The deallocated pages are saved for future allocations.
	//
	void TPoolAllocator::pop()
	{
	if (mStack.size() < 1)
	return;

	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	tHeader* page = mStack.back().page;
	currentPageOffset = mStack.back().offset;

	while (inUseList != page) {
	// invoke destructor to free allocation list
	inUseList->~tHeader();

	tHeader* nextInUse = inUseList->nextPage;
	if (inUseList->pageCount > 1)
	delete [] reinterpret_cast<char*>(inUseList);
	else {
	inUseList->nextPage = freeList;
	freeList = inUseList;
	}
	inUseList = nextInUse;
	}

	mStack.pop_back();
	#else // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	for (auto alloc : mStack.back()) {
	free(alloc);
	}
	mStack.pop_back();
	#endif
	}

	//
	// Do a mass-deallocation of all the individual allocations
	// that have occurred.
	//
	void TPoolAllocator::popAll()
	{
	while (mStack.size() > 0)
	pop();
	}

	void* TPoolAllocator::allocate(size_t numBytes)
	{
	#if !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	//
	// Just keep some interesting statistics.
	//
	++numCalls;
	totalBytes += numBytes;

	// If we are using guard blocks, all allocations are bracketed by
	// them: [guardblock][allocation][guardblock]. numBytes is how
	// much memory the caller asked for. allocationSize is the total
	// size including guard blocks. In release build,
	// guardBlockSize=0 and this all gets optimized away.
	size_t allocationSize = TAllocation::allocationSize(numBytes);
	// Detect integer overflow.
	if (allocationSize < numBytes)
	return 0;

	//
	// Do the allocation, most likely case first, for efficiency.
	// This step could be moved to be inline sometime.
	//
	if (allocationSize <= pageSize - currentPageOffset) {
	//
	// Safe to allocate from currentPageOffset.
	//
	unsigned char* memory = reinterpret_cast<unsigned char *>(inUseList) + currentPageOffset;
	currentPageOffset += allocationSize;
	currentPageOffset = (currentPageOffset + alignmentMask) & ~alignmentMask;

	return initializeAllocation(inUseList, memory, numBytes);
	}

	if (allocationSize > pageSize - headerSkip) {
	//
	// Do a multi-page allocation. Don't mix these with the others.
	// The OS is efficient and allocating and free-ing multiple pages.
	//
	size_t numBytesToAlloc = allocationSize + headerSkip;
	// Detect integer overflow.
	if (numBytesToAlloc < allocationSize)
	return 0;

	tHeader* memory = reinterpret_cast<tHeader*>(::new char[numBytesToAlloc]);
	if (memory == 0)
	return 0;

	// Use placement-new to initialize header
	new(memory) tHeader(inUseList, (numBytesToAlloc + pageSize - 1) / pageSize);
	inUseList = memory;

	currentPageOffset = pageSize; // make next allocation come from a new page

	// No guard blocks for multi-page allocations (yet)
	return reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(memory) + headerSkip);
	}

	//
	// Need a simple page to allocate from.
	//
	tHeader* memory;
	if (freeList) {
	memory = freeList;
	freeList = freeList->nextPage;
	} else {
	memory = reinterpret_cast<tHeader*>(::new char[pageSize]);
	if (memory == 0)
	return 0;
	}

	// Use placement-new to initialize header
	new(memory) tHeader(inUseList, 1);
	inUseList = memory;

	unsigned char* ret = reinterpret_cast<unsigned char *>(inUseList) + headerSkip;
	currentPageOffset = (headerSkip + allocationSize + alignmentMask) & ~alignmentMask;

	return initializeAllocation(inUseList, ret, numBytes);
	#else // !defined(SWIFTSHADER_TRANSLATOR_DISABLE_POOL_ALLOC)
	void *alloc = malloc(numBytes + alignmentMask);
	mStack.back().push_back(alloc);

	intptr_t intAlloc = reinterpret_cast<intptr_t>(alloc);
	intAlloc = (intAlloc + alignmentMask) & ~alignmentMask;
	return reinterpret_cast<void *>(intAlloc);
	#endif
	}


	//
	// Check all allocations in a list for damage by calling check on each.
	//
	void TAllocation::checkAllocList() const
	{
	for (const TAllocation* alloc = this; alloc != 0; alloc = alloc->prevAlloc)
	alloc->check();
	}