/* * Copyright (c) 2018-2020 Atmosphère-NX * * This program is free software; you can redistribute it and/or modify it * under the terms and conditions of the GNU General Public License, * version 2, as published by the Free Software Foundation. * * This program is distributed in the hope it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for * more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include namespace ams::fssystem { /* TODO: All of this should really be inside fs process, but ams.mitm wants it to. */ /* How should we handle this? */ namespace { /* Official FS has a 4.5 MB exp heap, a 6 MB buffer pool, an 8 MB device buffer manager heap, and a 14 MB buffer manager heap. */ /* We don't need so much memory for ams.mitm (as we're servicing a much more limited context). */ /* We'll give ourselves a 2.5 MB exp heap, a 2 MB buffer pool, a 2 MB device buffer manager heap, and a 2 MB buffer manager heap. */ /* These numbers match signed-system-partition safe FS. */ constexpr size_t ExpHeapSize = 2_MB + 512_KB; constexpr size_t BufferPoolSize = 2_MB; constexpr size_t DeviceBufferSize = 2_MB; constexpr size_t BufferManagerHeapSize = 2_MB; constexpr size_t MaxCacheCount = 1024; constexpr size_t BlockSize = 16_KB; alignas(os::MemoryPageSize) u8 g_exp_heap_buffer[ExpHeapSize]; lmem::HeapHandle g_exp_heap_handle = nullptr; fssrv::PeakCheckableMemoryResourceFromExpHeap g_exp_allocator(ExpHeapSize); void InitializeExpHeap() { if (g_exp_heap_handle == nullptr) { g_exp_heap_handle = lmem::CreateExpHeap(g_exp_heap_buffer, ExpHeapSize, lmem::CreateOption_ThreadSafe); AMS_ABORT_UNLESS(g_exp_heap_handle != nullptr); g_exp_allocator.SetHeapHandle(g_exp_heap_handle); } } void *AllocateForFileSystemProxy(size_t size) { AMS_ABORT_UNLESS(g_exp_heap_handle != nullptr); auto scoped_lock = g_exp_allocator.GetScopedLock(); void *p = lmem::AllocateFromExpHeap(g_exp_heap_handle, size); g_exp_allocator.OnAllocate(p, size); return p; } void DeallocateForFileSystemProxy(void *p, size_t size) { AMS_ABORT_UNLESS(g_exp_heap_handle != nullptr); auto scoped_lock = g_exp_allocator.GetScopedLock(); g_exp_allocator.OnDeallocate(p, size); lmem::FreeToExpHeap(g_exp_heap_handle, p); } alignas(os::MemoryPageSize) u8 g_device_buffer[DeviceBufferSize]; alignas(os::MemoryPageSize) u8 g_buffer_pool[BufferPoolSize]; TYPED_STORAGE(mem::StandardAllocator) g_buffer_allocator; TYPED_STORAGE(fssrv::MemoryResourceFromStandardAllocator) g_allocator; /* TODO: Nintendo uses os::SetMemoryHeapSize (svc::SetHeapSize) and os::AllocateMemoryBlock for the BufferManager heap. */ /* It's unclear how we should handle this in ams.mitm (especially hoping to reuse some logic for fs reimpl). */ /* Should we be doing the same(?) */ TYPED_STORAGE(fssystem::FileSystemBufferManager) g_buffer_manager; alignas(os::MemoryPageSize) u8 g_buffer_manager_heap[BufferManagerHeapSize]; /* FileSystem creators. */ TYPED_STORAGE(fssrv::fscreator::RomFileSystemCreator) g_rom_fs_creator; TYPED_STORAGE(fssrv::fscreator::PartitionFileSystemCreator) g_partition_fs_creator; TYPED_STORAGE(fssrv::fscreator::StorageOnNcaCreator) g_storage_on_nca_creator; fssrv::fscreator::FileSystemCreatorInterfaces g_fs_creator_interfaces = {}; } void InitializeForFileSystemProxy() { /* TODO FS-REIMPL: fssystem::RegisterServiceContext */ /* TODO FS-REIMPL: spl::InitializeForFs(); */ /* Determine whether we're prod or dev. */ bool is_prod = !spl::IsDevelopment(); bool is_development_function_enabled = spl::IsDevelopmentFunctionEnabled(); /* Setup our crypto configuration. */ SetUpKekAccessKeys(is_prod); /* Setup our heap. */ InitializeExpHeap(); /* Initialize buffer allocator. */ new (GetPointer(g_buffer_allocator)) mem::StandardAllocator(g_buffer_pool, BufferPoolSize); new (GetPointer(g_allocator)) fssrv::MemoryResourceFromStandardAllocator(GetPointer(g_buffer_allocator)); /* Set allocators. */ fs::SetAllocator(AllocateForFileSystemProxy, DeallocateForFileSystemProxy); fssystem::InitializeAllocator(AllocateForFileSystemProxy, DeallocateForFileSystemProxy); /* Initialize the buffer manager. */ /* TODO FS-REIMPL: os::AllocateMemoryBlock(...); */ new (GetPointer(g_buffer_manager)) fssystem::FileSystemBufferManager; GetReference(g_buffer_manager).Initialize(MaxCacheCount, reinterpret_cast(g_buffer_manager_heap), BufferManagerHeapSize, BlockSize); /* TODO FS-REIMPL: Memory Report Creators, fssrv::SetMemoryReportCreator */ /* TODO FS-REIMPL: Create Pooled Threads, fssystem::RegisterThreadPool. */ /* Initialize fs creators. */ new (GetPointer(g_rom_fs_creator)) fssrv::fscreator::RomFileSystemCreator(GetPointer(g_allocator)); new (GetPointer(g_partition_fs_creator)) fssrv::fscreator::PartitionFileSystemCreator; new (GetPointer(g_storage_on_nca_creator)) fssrv::fscreator::StorageOnNcaCreator(GetPointer(g_allocator), *GetNcaCryptoConfiguration(is_prod), is_prod, GetPointer(g_buffer_manager)); /* TODO FS-REIMPL: Initialize other creators. */ g_fs_creator_interfaces = { .rom_fs_creator = GetPointer(g_rom_fs_creator), .partition_fs_creator = GetPointer(g_partition_fs_creator), .storage_on_nca_creator = GetPointer(g_storage_on_nca_creator), }; /* TODO FS-REIMPL: Sd Card detection, speed emulation. */ /* Initialize fssrv. TODO FS-REIMPL: More arguments, more actions taken. */ fssrv::InitializeForFileSystemProxy(std::addressof(g_fs_creator_interfaces), GetPointer(g_buffer_manager), is_development_function_enabled); /* Disable auto-abort in fs library code. */ /* TODO: fs::SetEnabledAutoAbort(false); */ /* TODO FS-REIMPL: Initialize fsp server. */ /* NOTE: This is done in fsp server init, normally. */ fssystem::InitializeBufferPool(reinterpret_cast(g_device_buffer), DeviceBufferSize); } const ::ams::fssrv::fscreator::FileSystemCreatorInterfaces *GetFileSystemCreatorInterfaces() { return std::addressof(g_fs_creator_interfaces); } }