kernel/process: Remove most allocation functions from Process' interface
In all cases that these functions are needed, the VMManager can just be retrieved and used instead of providing the same functions in Process' interface. This also makes it a little nicer dependency-wise, since it gets rid of cases where the VMManager interface was being used, and then switched over to using the interface for a Process instance. Instead, it makes all accesses uniform and uses the VMManager instance for all necessary tasks. All the basic memory mapping functions did was forward to the Process' VMManager instance anyways.
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@ -198,22 +198,6 @@ void Process::LoadModule(CodeSet module_, VAddr base_addr) {
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Core::System::GetInstance().ArmInterface(3).ClearInstructionCache();
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Core::System::GetInstance().ArmInterface(3).ClearInstructionCache();
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}
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}
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ResultVal<VAddr> Process::HeapAllocate(VAddr target, u64 size, VMAPermission perms) {
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return vm_manager.HeapAllocate(target, size, perms);
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}
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ResultCode Process::HeapFree(VAddr target, u32 size) {
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return vm_manager.HeapFree(target, size);
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}
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ResultCode Process::MirrorMemory(VAddr dst_addr, VAddr src_addr, u64 size, MemoryState state) {
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return vm_manager.MirrorMemory(dst_addr, src_addr, size, state);
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}
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ResultCode Process::UnmapMemory(VAddr dst_addr, VAddr /*src_addr*/, u64 size) {
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return vm_manager.UnmapRange(dst_addr, size);
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}
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Kernel::Process::Process(KernelCore& kernel) : WaitObject{kernel} {}
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Kernel::Process::Process(KernelCore& kernel) : WaitObject{kernel} {}
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Kernel::Process::~Process() {}
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Kernel::Process::~Process() {}
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@ -242,7 +242,7 @@ public:
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void LoadModule(CodeSet module_, VAddr base_addr);
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void LoadModule(CodeSet module_, VAddr base_addr);
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///////////////////////////////////////////////////////////////////////////////////////////////
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///////////////////////////////////////////////////////////////////////////////////////////////
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// Memory Management
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// Thread-local storage management
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// Marks the next available region as used and returns the address of the slot.
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// Marks the next available region as used and returns the address of the slot.
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VAddr MarkNextAvailableTLSSlotAsUsed(Thread& thread);
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VAddr MarkNextAvailableTLSSlotAsUsed(Thread& thread);
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@ -250,13 +250,6 @@ public:
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// Frees a used TLS slot identified by the given address
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// Frees a used TLS slot identified by the given address
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void FreeTLSSlot(VAddr tls_address);
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void FreeTLSSlot(VAddr tls_address);
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ResultVal<VAddr> HeapAllocate(VAddr target, u64 size, VMAPermission perms);
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ResultCode HeapFree(VAddr target, u32 size);
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ResultCode MirrorMemory(VAddr dst_addr, VAddr src_addr, u64 size, MemoryState state);
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ResultCode UnmapMemory(VAddr dst_addr, VAddr src_addr, u64 size);
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private:
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private:
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explicit Process(KernelCore& kernel);
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explicit Process(KernelCore& kernel);
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~Process() override;
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~Process() override;
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@ -190,10 +190,16 @@ static ResultCode SetHeapSize(VAddr* heap_addr, u64 heap_size) {
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return ERR_INVALID_SIZE;
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return ERR_INVALID_SIZE;
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}
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}
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auto& process = *Core::CurrentProcess();
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auto& vm_manager = Core::CurrentProcess()->VMManager();
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const VAddr heap_base = process.VMManager().GetHeapRegionBaseAddress();
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const VAddr heap_base = vm_manager.GetHeapRegionBaseAddress();
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CASCADE_RESULT(*heap_addr,
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const auto alloc_result =
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process.HeapAllocate(heap_base, heap_size, VMAPermission::ReadWrite));
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vm_manager.HeapAllocate(heap_base, heap_size, VMAPermission::ReadWrite);
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if (alloc_result.Failed()) {
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return alloc_result.Code();
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}
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*heap_addr = *alloc_result;
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return RESULT_SUCCESS;
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return RESULT_SUCCESS;
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}
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}
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@ -307,15 +313,14 @@ static ResultCode MapMemory(VAddr dst_addr, VAddr src_addr, u64 size) {
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LOG_TRACE(Kernel_SVC, "called, dst_addr=0x{:X}, src_addr=0x{:X}, size=0x{:X}", dst_addr,
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LOG_TRACE(Kernel_SVC, "called, dst_addr=0x{:X}, src_addr=0x{:X}, size=0x{:X}", dst_addr,
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src_addr, size);
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src_addr, size);
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auto* const current_process = Core::CurrentProcess();
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auto& vm_manager = Core::CurrentProcess()->VMManager();
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const auto& vm_manager = current_process->VMManager();
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const auto result = MapUnmapMemorySanityChecks(vm_manager, dst_addr, src_addr, size);
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const auto result = MapUnmapMemorySanityChecks(vm_manager, dst_addr, src_addr, size);
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if (result != RESULT_SUCCESS) {
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if (result.IsError()) {
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return result;
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return result;
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}
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}
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return current_process->MirrorMemory(dst_addr, src_addr, size, MemoryState::Stack);
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return vm_manager.MirrorMemory(dst_addr, src_addr, size, MemoryState::Stack);
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}
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}
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/// Unmaps a region that was previously mapped with svcMapMemory
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/// Unmaps a region that was previously mapped with svcMapMemory
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@ -323,15 +328,14 @@ static ResultCode UnmapMemory(VAddr dst_addr, VAddr src_addr, u64 size) {
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LOG_TRACE(Kernel_SVC, "called, dst_addr=0x{:X}, src_addr=0x{:X}, size=0x{:X}", dst_addr,
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LOG_TRACE(Kernel_SVC, "called, dst_addr=0x{:X}, src_addr=0x{:X}, size=0x{:X}", dst_addr,
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src_addr, size);
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src_addr, size);
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auto* const current_process = Core::CurrentProcess();
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auto& vm_manager = Core::CurrentProcess()->VMManager();
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const auto& vm_manager = current_process->VMManager();
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const auto result = MapUnmapMemorySanityChecks(vm_manager, dst_addr, src_addr, size);
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const auto result = MapUnmapMemorySanityChecks(vm_manager, dst_addr, src_addr, size);
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if (result != RESULT_SUCCESS) {
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if (result.IsError()) {
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return result;
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return result;
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}
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}
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return current_process->UnmapMemory(dst_addr, src_addr, size);
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return vm_manager.UnmapRange(dst_addr, size);
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}
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}
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/// Connect to an OS service given the port name, returns the handle to the port to out
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/// Connect to an OS service given the port name, returns the handle to the port to out
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@ -318,14 +318,18 @@ public:
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return;
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return;
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}
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}
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ASSERT(process->MirrorMemory(*map_address, nro_addr, nro_size,
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ASSERT(vm_manager
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Kernel::MemoryState::ModuleCodeStatic) == RESULT_SUCCESS);
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.MirrorMemory(*map_address, nro_addr, nro_size,
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ASSERT(process->UnmapMemory(nro_addr, 0, nro_size) == RESULT_SUCCESS);
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Kernel::MemoryState::ModuleCodeStatic)
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.IsSuccess());
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ASSERT(vm_manager.UnmapRange(nro_addr, nro_size).IsSuccess());
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if (bss_size > 0) {
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if (bss_size > 0) {
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ASSERT(process->MirrorMemory(*map_address + nro_size, bss_addr, bss_size,
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ASSERT(vm_manager
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Kernel::MemoryState::ModuleCodeStatic) == RESULT_SUCCESS);
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.MirrorMemory(*map_address + nro_size, bss_addr, bss_size,
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ASSERT(process->UnmapMemory(bss_addr, 0, bss_size) == RESULT_SUCCESS);
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Kernel::MemoryState::ModuleCodeStatic)
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.IsSuccess());
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ASSERT(vm_manager.UnmapRange(bss_addr, bss_size).IsSuccess());
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}
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}
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vm_manager.ReprotectRange(*map_address, header.text_size,
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vm_manager.ReprotectRange(*map_address, header.text_size,
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@ -380,13 +384,14 @@ public:
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return;
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return;
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}
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}
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auto* process = Core::CurrentProcess();
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auto& vm_manager = Core::CurrentProcess()->VMManager();
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auto& vm_manager = process->VMManager();
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const auto& nro_size = iter->second.size;
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const auto& nro_size = iter->second.size;
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ASSERT(process->MirrorMemory(heap_addr, mapped_addr, nro_size,
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ASSERT(vm_manager
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Kernel::MemoryState::ModuleCodeStatic) == RESULT_SUCCESS);
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.MirrorMemory(heap_addr, mapped_addr, nro_size,
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ASSERT(process->UnmapMemory(mapped_addr, 0, nro_size) == RESULT_SUCCESS);
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Kernel::MemoryState::ModuleCodeStatic)
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.IsSuccess());
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ASSERT(vm_manager.UnmapRange(mapped_addr, nro_size).IsSuccess());
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Core::System::GetInstance().InvalidateCpuInstructionCaches();
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Core::System::GetInstance().InvalidateCpuInstructionCaches();
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