#include "stdafx.h" #include "sys_process.h" #include "Emu/Memory/vm_ptr.h" #include "Emu/System.h" #include "Emu/IdManager.h" #include "Crypto/unedat.h" #include "Emu/Cell/ErrorCodes.h" #include "Emu/Cell/PPUThread.h" #include "sys_lwmutex.h" #include "sys_lwcond.h" #include "sys_mutex.h" #include "sys_cond.h" #include "sys_event.h" #include "sys_event_flag.h" #include "sys_interrupt.h" #include "sys_memory.h" #include "sys_mmapper.h" #include "sys_prx.h" #include "sys_overlay.h" #include "sys_rwlock.h" #include "sys_semaphore.h" #include "sys_timer.h" #include "sys_trace.h" #include "sys_fs.h" #include "sys_spu.h" LOG_CHANNEL(sys_process); ps3_process_info_t g_ps3_process_info; s32 process_getpid() { // TODO: get current process id return 1; } s32 sys_process_getpid() { sys_process.trace("sys_process_getpid() -> 1"); return process_getpid(); } s32 sys_process_getppid() { sys_process.todo("sys_process_getppid() -> 0"); return 0; } template u32 idm_get_count() { return idm::select([&](u32, Get&) {}); } s32 sys_process_get_number_of_object(u32 object, vm::ptr nump) { sys_process.error("sys_process_get_number_of_object(object=0x%x, nump=*0x%x)", object, nump); switch(object) { case SYS_MEM_OBJECT: *nump = idm_get_count(); break; case SYS_MUTEX_OBJECT: *nump = idm_get_count(); break; case SYS_COND_OBJECT: *nump = idm_get_count(); break; case SYS_RWLOCK_OBJECT: *nump = idm_get_count(); break; case SYS_INTR_TAG_OBJECT: *nump = idm_get_count(); break; case SYS_INTR_SERVICE_HANDLE_OBJECT: *nump = idm_get_count(); break; case SYS_EVENT_QUEUE_OBJECT: *nump = idm_get_count(); break; case SYS_EVENT_PORT_OBJECT: *nump = idm_get_count(); break; case SYS_TRACE_OBJECT: sys_process.error("sys_process_get_number_of_object: object = SYS_TRACE_OBJECT"); *nump = 0; break; case SYS_SPUIMAGE_OBJECT: *nump = idm_get_count(); break; case SYS_PRX_OBJECT: *nump = idm_get_count(); break; case SYS_SPUPORT_OBJECT: sys_process.error("sys_process_get_number_of_object: object = SYS_SPUPORT_OBJECT"); *nump = 0; break; case SYS_OVERLAY_OBJECT: *nump = idm_get_count(); break; case SYS_LWMUTEX_OBJECT: *nump = idm_get_count(); break; case SYS_TIMER_OBJECT: *nump = idm_get_count(); break; case SYS_SEMAPHORE_OBJECT: *nump = idm_get_count(); break; case SYS_FS_FD_OBJECT: *nump = idm_get_count(); break; case SYS_LWCOND_OBJECT: *nump = idm_get_count(); break; case SYS_EVENT_FLAG_OBJECT: *nump = idm_get_count(); break; default: { return CELL_EINVAL; } } return CELL_OK; } #include template void idm_get_set(std::set& out) { idm::select([&](u32 id, Get&) { out.emplace(id); }); } s32 sys_process_get_id(u32 object, vm::ptr buffer, u32 size, vm::ptr set_size) { sys_process.error("sys_process_get_id(object=0x%x, buffer=*0x%x, size=%d, set_size=*0x%x)", object, buffer, size, set_size); std::set objects; switch (object) { case SYS_MEM_OBJECT: idm_get_set(objects); break; case SYS_MUTEX_OBJECT: idm_get_set(objects); break; case SYS_COND_OBJECT: idm_get_set(objects); break; case SYS_RWLOCK_OBJECT: idm_get_set(objects); break; case SYS_INTR_TAG_OBJECT: idm_get_set(objects); break; case SYS_INTR_SERVICE_HANDLE_OBJECT: idm_get_set(objects); break; case SYS_EVENT_QUEUE_OBJECT: idm_get_set(objects); break; case SYS_EVENT_PORT_OBJECT: idm_get_set(objects); break; case SYS_TRACE_OBJECT: fmt::throw_exception("SYS_TRACE_OBJECT" HERE); case SYS_SPUIMAGE_OBJECT: idm_get_set(objects); break; case SYS_PRX_OBJECT: idm_get_set(objects); break; case SYS_OVERLAY_OBJECT: idm_get_set(objects); break; case SYS_LWMUTEX_OBJECT: idm_get_set(objects); break; case SYS_TIMER_OBJECT: idm_get_set(objects); break; case SYS_SEMAPHORE_OBJECT: idm_get_set(objects); break; case SYS_FS_FD_OBJECT: idm_get_set(objects); break; case SYS_LWCOND_OBJECT: idm_get_set(objects); break; case SYS_EVENT_FLAG_OBJECT: idm_get_set(objects); break; case SYS_SPUPORT_OBJECT: // Unallowed default: { return CELL_EINVAL; } } u32 i = 0; for (auto id = objects.begin(); i < size && id != objects.end(); id++, i++) { buffer[i] = *id; } *set_size = i; return CELL_OK; } s32 process_is_spu_lock_line_reservation_address(u32 addr, u64 flags) { if (!flags || flags & ~(SYS_MEMORY_ACCESS_RIGHT_SPU_THR | SYS_MEMORY_ACCESS_RIGHT_RAW_SPU)) { return CELL_EINVAL; } // TODO return CELL_OK; } s32 sys_process_is_spu_lock_line_reservation_address(u32 addr, u64 flags) { sys_process.warning("sys_process_is_spu_lock_line_reservation_address(addr=0x%x, flags=0x%llx)", addr, flags); return process_is_spu_lock_line_reservation_address(addr, flags); } s32 _sys_process_get_paramsfo(vm::ptr buffer) { sys_process.warning("_sys_process_get_paramsfo(buffer=0x%x)", buffer); if (!Emu.GetTitleID().length()) { return CELL_ENOENT; } memset(buffer.get_ptr(), 0, 0x40); memcpy(buffer.get_ptr() + 1, Emu.GetTitleID().c_str(), std::min(Emu.GetTitleID().length(), 9)); return CELL_OK; } s32 process_get_sdk_version(u32 pid, s32& ver) { // get correct SDK version for selected pid ver = g_ps3_process_info.sdk_ver; return CELL_OK; } s32 sys_process_get_sdk_version(u32 pid, vm::ptr version) { sys_process.warning("sys_process_get_sdk_version(pid=0x%x, version=*0x%x)", pid, version); s32 sdk_ver; s32 ret = process_get_sdk_version(pid, sdk_ver); if (ret != CELL_OK) { return ret; // error code } else { *version = sdk_ver; return CELL_OK; } } s32 sys_process_kill(u32 pid) { sys_process.todo("sys_process_kill(pid=0x%x)", pid); return CELL_OK; } s32 sys_process_wait_for_child(u32 pid, vm::ptr status, u64 unk) { sys_process.todo("sys_process_wait_for_child(pid=0x%x, status=*0x%x, unk=0x%llx", pid, status, unk); return CELL_OK; } s32 sys_process_wait_for_child2(u64 unk1, u64 unk2, u64 unk3, u64 unk4, u64 unk5, u64 unk6) { sys_process.todo("sys_process_wait_for_child2(unk1=0x%llx, unk2=0x%llx, unk3=0x%llx, unk4=0x%llx, unk5=0x%llx, unk6=0x%llx)", unk1, unk2, unk3, unk4, unk5, unk6); return CELL_OK; } s32 sys_process_get_status(u64 unk) { sys_process.todo("sys_process_get_status(unk=0x%llx)", unk); //vm::write32(CPU.gpr[4], GetPPUThreadStatus(CPU)); return CELL_OK; } s32 sys_process_detach_child(u64 unk) { sys_process.todo("sys_process_detach_child(unk=0x%llx)", unk); return CELL_OK; } void _sys_process_exit(ppu_thread& ppu, s32 status, u32 arg2, u32 arg3) { vm::temporary_unlock(ppu); sys_process.warning("_sys_process_exit(status=%d, arg2=0x%x, arg3=0x%x)", status, arg2, arg3); Emu.CallAfter([]() { sys_process.success("Process finished"); Emu.Stop(); }); ppu.state += cpu_flag::dbg_global_stop; } void _sys_process_exit2(ppu_thread& ppu, s32 status, vm::ptr arg, u32 arg_size, u32 arg4) { sys_process.warning("_sys_process_exit2(status=%d, arg=*0x%x, arg_size=0x%x, arg4=0x%x)", status, arg, arg_size, arg4); auto pstr = +arg->args; std::vector argv; std::vector envp; while (auto ptr = *pstr++) { argv.emplace_back(ptr.get_ptr()); sys_process.notice(" *** arg: %s", ptr); } while (auto ptr = *pstr++) { envp.emplace_back(ptr.get_ptr()); sys_process.notice(" *** env: %s", ptr); } std::vector data; if (arg_size > 0x1030) { data.resize(0x1000); std::memcpy(data.data(), vm::base(arg.addr() + arg_size - 0x1000), 0x1000); } if (argv.empty()) { return _sys_process_exit(ppu, status, 0, 0); } // TODO: set prio, flags std::string path = vfs::get(argv[0]); std::string hdd1 = vfs::get("/dev_hdd1/"); std::string disc; if (Emu.GetCat() == "DG" || Emu.GetCat() == "GD") disc = vfs::get("/dev_bdvd/"); if (disc.empty() && Emu.GetTitleID().size()) disc = vfs::get(Emu.GetDir()); vm::temporary_unlock(ppu); Emu.CallAfter([path = std::move(path), argv = std::move(argv), envp = std::move(envp), data = std::move(data), disc = std::move(disc), hdd1 = std::move(hdd1), klic = g_fxo->get()->devKlic]() mutable { sys_process.success("Process finished -> %s", argv[0]); Emu.SetForceBoot(true); Emu.Stop(); Emu.argv = std::move(argv); Emu.envp = std::move(envp); Emu.data = std::move(data); Emu.disc = std::move(disc); Emu.hdd1 = std::move(hdd1); if (klic != std::array{}) { Emu.klic.assign(klic.begin(), klic.end()); } Emu.SetForceBoot(true); Emu.BootGame(path, "", true); }); ppu.state += cpu_flag::dbg_global_stop; }