/* * 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 #include "ro_debug_monitor_service.hpp" #include "ro_ro_service.hpp" extern "C" { extern u32 __start__; u32 __nx_applet_type = AppletType_None; u32 __nx_fs_num_sessions = 1; #define INNER_HEAP_SIZE 0x0 size_t nx_inner_heap_size = INNER_HEAP_SIZE; char nx_inner_heap[INNER_HEAP_SIZE]; void __libnx_initheap(void); void __appInit(void); void __appExit(void); void *__libnx_alloc(size_t size); void *__libnx_aligned_alloc(size_t alignment, size_t size); void __libnx_free(void *mem); } using namespace ams; namespace ams::ro { namespace { /* ldr:ro, ro:dmnt, ro:1. */ enum PortIndex { PortIndex_DebugMonitor, PortIndex_User, PortIndex_JitPlugin, PortIndex_Count, }; constexpr sm::ServiceName DebugMonitorServiceName = sm::ServiceName::Encode("ro:dmnt"); constexpr size_t DebugMonitorMaxSessions = 2; /* NOTE: Official code passes 32 for ldr:ro max sessions. We will pass 2, because that's the actual limit. */ constexpr sm::ServiceName UserServiceName = sm::ServiceName::Encode("ldr:ro"); constexpr size_t UserMaxSessions = 2; constexpr sm::ServiceName JitPluginServiceName = sm::ServiceName::Encode("ro:1"); constexpr size_t JitPluginMaxSessions = 2; static constexpr size_t MaxSessions = DebugMonitorMaxSessions + UserMaxSessions + JitPluginMaxSessions; using ServerOptions = sf::hipc::DefaultServerManagerOptions; class ServerManager final : public sf::hipc::ServerManager { private: virtual ams::Result OnNeedsToAccept(int port_index, Server *server) override; }; using Allocator = sf::ExpHeapAllocator; using ObjectFactory = sf::ObjectFactory; alignas(0x40) constinit u8 g_server_allocator_buffer[4_KB]; lmem::HeapHandle g_server_heap_handle; Allocator g_server_allocator; ServerManager g_server_manager; ams::Result ServerManager::OnNeedsToAccept(int port_index, Server *server) { switch (port_index) { case PortIndex_DebugMonitor: return this->AcceptImpl(server, ObjectFactory::CreateSharedEmplaced(std::addressof(g_server_allocator))); case PortIndex_User: return this->AcceptImpl(server, ObjectFactory::CreateSharedEmplaced(std::addressof(g_server_allocator), ro::NrrKind_User)); case PortIndex_JitPlugin: return this->AcceptImpl(server, ObjectFactory::CreateSharedEmplaced(std::addressof(g_server_allocator), ro::NrrKind_JitPlugin)); AMS_UNREACHABLE_DEFAULT_CASE(); } } void *Allocate(size_t size) { return lmem::AllocateFromExpHeap(g_server_heap_handle, size); } void Deallocate(void *p, size_t size) { return lmem::FreeToExpHeap(g_server_heap_handle, p); } void InitializeHeap() { /* Setup server allocator. */ g_server_heap_handle = lmem::CreateExpHeap(g_server_allocator_buffer, sizeof(g_server_allocator_buffer), lmem::CreateOption_None); } void LoopServer() { /* Create services. */ R_ABORT_UNLESS(ro::g_server_manager.RegisterServer(PortIndex_DebugMonitor, DebugMonitorServiceName, DebugMonitorMaxSessions)); R_ABORT_UNLESS(ro::g_server_manager.RegisterServer(PortIndex_User, UserServiceName, UserMaxSessions)); if (hos::GetVersion() >= hos::Version_7_0_0) { R_ABORT_UNLESS(ro::g_server_manager.RegisterServer(PortIndex_JitPlugin, JitPluginServiceName, JitPluginMaxSessions)); } /* Loop forever, servicing our services. */ ro::g_server_manager.LoopProcess(); } } } void __libnx_initheap(void) { void* addr = nx_inner_heap; size_t size = nx_inner_heap_size; /* Newlib */ extern char* fake_heap_start; extern char* fake_heap_end; fake_heap_start = (char*)addr; fake_heap_end = (char*)addr + size; ams::ro::InitializeHeap(); } void __appInit(void) { hos::InitializeForStratosphere(); fs::SetAllocator(ro::Allocate, ro::Deallocate); R_ABORT_UNLESS(sm::Initialize()); R_ABORT_UNLESS(setsysInitialize()); R_ABORT_UNLESS(fsInitialize()); spl::Initialize(); R_ABORT_UNLESS(fs::MountSdCard("sdmc")); ams::CheckApiVersion(); } void __appExit(void) { fsExit(); setsysExit(); } namespace ams { void *Malloc(size_t size) { AMS_ABORT("ams::Malloc was called"); } void Free(void *ptr) { AMS_ABORT("ams::Free was called"); } } void *operator new(size_t size) { AMS_ABORT("operator new(size_t) was called"); } void operator delete(void *p) { AMS_ABORT("operator delete(void *) was called"); } void *__libnx_alloc(size_t size) { AMS_ABORT("__libnx_alloc was called"); } void *__libnx_aligned_alloc(size_t alignment, size_t size) { AMS_ABORT("__libnx_aligned_alloc was called"); } void __libnx_free(void *mem) { AMS_ABORT("__libnx_free was called"); } int main(int argc, char **argv) { /* Set thread name. */ os::SetThreadNamePointer(os::GetCurrentThread(), AMS_GET_SYSTEM_THREAD_NAME(ro, Main)); AMS_ASSERT(os::GetThreadPriority(os::GetCurrentThread()) == AMS_GET_SYSTEM_THREAD_PRIORITY(ro, Main)); /* Attach the server allocator. */ ro::g_server_allocator.Attach(ro::g_server_heap_handle); /* Disable auto-abort in fs operations. */ fs::SetEnabledAutoAbort(false); /* Initialize Debug config. */ { ON_SCOPE_EXIT { spl::Finalize(); }; ro::SetDevelopmentHardware(spl::IsDevelopment()); ro::SetDevelopmentFunctionEnabled(spl::IsDevelopmentFunctionEnabled()); } /* Run the ro server. */ ro::LoopServer(); /* Cleanup */ return 0; }