mirror of
https://github.com/skyline-emu/skyline.git
synced 2024-11-27 00:04:17 +01:00
Allow providing a callback that's called after every CPU access in GMMU
Required for the planned implementation of GPU side memory trapping.
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@ -116,19 +116,19 @@ namespace skyline {
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/**
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* @return A vector of all physical ranges inside of the given virtual range
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*/
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std::vector<span<u8>> TranslateRange(VaType virt, VaType size);
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std::vector<span<u8>> TranslateRange(VaType virt, VaType size, std::function<void(span<u8>)> cpuAccessCallback = {});
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void Read(u8 *destination, VaType virt, VaType size);
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void Read(u8 *destination, VaType virt, VaType size, std::function<void(span<u8>)> cpuAccessCallback = {});
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template<typename T>
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void Read(span <T> destination, VaType virt) {
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Read(reinterpret_cast<u8 *>(destination.data()), virt, destination.size_bytes());
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void Read(span <T> destination, VaType virt, std::function<void(span<u8>)> cpuAccessCallback = {}) {
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Read(reinterpret_cast<u8 *>(destination.data()), virt, destination.size_bytes(), cpuAccessCallback);
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}
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template<typename T>
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T Read(VaType virt) {
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T Read(VaType virt, std::function<void(span<u8>)> cpuAccessCallback = {}) {
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T obj;
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Read(reinterpret_cast<u8 *>(&obj), virt, sizeof(T));
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Read(reinterpret_cast<u8 *>(&obj), virt, sizeof(T), cpuAccessCallback);
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return obj;
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}
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@ -140,7 +140,7 @@ namespace skyline {
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* @note The function will provide no feedback on if the end has been reached or if there was an early exit
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*/
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template<typename Function, typename Container>
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span<u8> ReadTill(Container& destination, VaType virt, Function function) {
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span<u8> ReadTill(Container& destination, VaType virt, Function function, std::function<void(span<u8>)> cpuAccessCallback = {}) {
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//TRACE_EVENT("containers", "FlatMemoryManager::ReadTill");
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std::scoped_lock lock(this->blockMutex);
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@ -164,7 +164,11 @@ namespace skyline {
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if (predecessor->extraInfo.sparseMapped) {
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std::memset(pointer, 0, blockReadSize);
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} else {
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auto end{function(span<u8>(blockPhys, blockReadSize))};
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span<u8> cpuBlock{blockPhys, blockReadSize};
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if (cpuAccessCallback)
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cpuAccessCallback(cpuBlock);
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auto end{function(cpuBlock)};
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std::memcpy(pointer, blockPhys, end ? *end : blockReadSize);
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if (end)
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return {destination.data(), (destination.size() - remainingSize) + *end};
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@ -184,18 +188,18 @@ namespace skyline {
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return {destination.data(), destination.size()};
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}
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void Write(VaType virt, u8 *source, VaType size);
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void Write(VaType virt, u8 *source, VaType size, std::function<void(span<u8>)> cpuAccessCallback = {});
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template<typename T>
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void Write(VaType virt, span<T> source) {
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void Write(VaType virt, span<T> source, std::function<void(span<u8>)> cpuAccessCallback = {}) {
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Write(virt, reinterpret_cast<u8 *>(source.data()), source.size_bytes());
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}
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void Write(VaType virt, util::TrivialObject auto source) {
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Write(virt, reinterpret_cast<u8 *>(&source), sizeof(source));
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void Write(VaType virt, util::TrivialObject auto source, std::function<void(span<u8>)> cpuAccessCallback = {}) {
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Write(virt, reinterpret_cast<u8 *>(&source), sizeof(source), cpuAccessCallback);
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}
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void Copy(VaType dst, VaType src, VaType size);
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void Copy(VaType dst, VaType src, VaType size, std::function<void(span<u8>)> cpuAccessCallback = {});
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};
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/**
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@ -233,7 +233,7 @@ namespace skyline {
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munmap(sparseMap, SparseMapSize);
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}
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MM_MEMBER(std::vector<span<u8>>)::TranslateRange(VaType virt, VaType size) {
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MM_MEMBER(std::vector<span<u8>>)::TranslateRange(VaType virt, VaType size, std::function<void(span<u8>)> cpuAccessCallback) {
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TRACE_EVENT("containers", "FlatMemoryManager::TranslateRange");
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std::scoped_lock lock(this->blockMutex);
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@ -258,7 +258,11 @@ namespace skyline {
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blockPhys = sparseMap;
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}
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ranges.push_back(span(blockPhys, blockSize));
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span cpuBlock{blockPhys, blockSize};
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if (cpuAccessCallback)
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cpuAccessCallback(cpuBlock);
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ranges.push_back(cpuBlock);
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size -= blockSize;
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@ -272,7 +276,7 @@ namespace skyline {
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return ranges;
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}
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MM_MEMBER(void)::Read(u8 *destination, VaType virt, VaType size) {
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MM_MEMBER(void)::Read(u8 *destination, VaType virt, VaType size, std::function<void(span<u8>)> cpuAccessCallback) {
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TRACE_EVENT("containers", "FlatMemoryManager::Read");
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std::scoped_lock lock(this->blockMutex);
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@ -291,11 +295,15 @@ namespace skyline {
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if (predecessor->phys == nullptr) {
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throw exception("Page fault at 0x{:X}", predecessor->virt);
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} else {
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if (predecessor->extraInfo.sparseMapped) // Sparse mappings read all zeroes
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if (predecessor->extraInfo.sparseMapped) { // Sparse mappings read all zeroes
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std::memset(destination, 0, blockReadSize);
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else
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} else {
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if (cpuAccessCallback)
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cpuAccessCallback(span{blockPhys, blockReadSize});
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std::memcpy(destination, blockPhys, blockReadSize);
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}
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}
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destination += blockReadSize;
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size -= blockReadSize;
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@ -308,7 +316,7 @@ namespace skyline {
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}
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}
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MM_MEMBER(void)::Write(VaType virt, u8 *source, VaType size) {
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MM_MEMBER(void)::Write(VaType virt, u8 *source, VaType size, std::function<void(span<u8>)> cpuAccessCallback) {
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TRACE_EVENT("containers", "FlatMemoryManager::Write");
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std::scoped_lock lock(this->blockMutex);
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@ -329,9 +337,13 @@ namespace skyline {
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if (predecessor->phys == nullptr) {
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throw exception("Page fault at 0x{:X}", predecessor->virt);
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} else {
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if (!predecessor->extraInfo.sparseMapped) // Sparse mappings ignore writes
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if (!predecessor->extraInfo.sparseMapped) { // Sparse mappings ignore writes
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if (cpuAccessCallback)
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cpuAccessCallback(span{blockPhys, blockWriteSize});
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std::memcpy(blockPhys, source, blockWriteSize);
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}
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}
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source += blockWriteSize;
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size -= blockWriteSize;
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@ -344,7 +356,7 @@ namespace skyline {
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}
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}
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MM_MEMBER(void)::Copy(VaType dst, VaType src, VaType size) {
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MM_MEMBER(void)::Copy(VaType dst, VaType src, VaType size, std::function<void(span<u8>)> cpuAccessCallback) {
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TRACE_EVENT("containers", "FlatMemoryManager::Copy");
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std::scoped_lock lock(this->blockMutex);
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@ -378,11 +390,17 @@ namespace skyline {
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} else if (dstPredecessor->phys == nullptr) {
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throw exception("Page fault at 0x{:X}", dstPredecessor->virt);
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} else { [[likely]]
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if (srcPredecessor->extraInfo.sparseMapped)
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if (srcPredecessor->extraInfo.sparseMapped) {
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std::memset(dstBlockPhys, 0, blockCopySize);
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else [[likely]]
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} else [[likely]] {
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if (cpuAccessCallback) {
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cpuAccessCallback(span{dstBlockPhys, blockCopySize});
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cpuAccessCallback(span{srcBlockPhys, blockCopySize});
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}
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std::memcpy(dstBlockPhys, srcBlockPhys, blockCopySize);
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}
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}
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dstBlockPhys += blockCopySize;
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srcBlockPhys += blockCopySize;
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