#include "stdafx.h" #include "Emu/System.h" #include "Emu/system_config.h" #include "Emu/Memory/vm_ptr.h" #include "Emu/Memory/vm_reservation.h" #include "Emu/Memory/vm_locking.h" #include "Emu/Cell/PPUFunction.h" #include "Emu/Cell/ErrorCodes.h" #include "Emu/Cell/MFC.h" #include "sys_sync.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_game.h" #include "sys_interrupt.h" #include "sys_memory.h" #include "sys_mmapper.h" #include "sys_net.h" #include "sys_overlay.h" #include "sys_ppu_thread.h" #include "sys_process.h" #include "sys_prx.h" #include "sys_rsx.h" #include "sys_rwlock.h" #include "sys_semaphore.h" #include "sys_spu.h" #include "sys_time.h" #include "sys_timer.h" #include "sys_trace.h" #include "sys_tty.h" #include "sys_usbd.h" #include "sys_vm.h" #include "sys_fs.h" #include "sys_dbg.h" #include "sys_gamepad.h" #include "sys_ss.h" #include "sys_gpio.h" #include "sys_config.h" #include "sys_bdemu.h" #include "sys_btsetting.h" #include "sys_console.h" #include "sys_hid.h" #include "sys_io.h" #include "sys_rsxaudio.h" #include "sys_sm.h" #include "sys_storage.h" #include "sys_uart.h" #include "sys_crypto_engine.h" #include #include #include #include "util/tsc.hpp" #include "util/sysinfo.hpp" #include "util/init_mutex.hpp" #if defined(ARCH_X64) #ifdef _MSC_VER #include #include #else #include #endif #endif extern std::string ppu_get_syscall_name(u64 code); namespace rsx { void set_rsx_yield_flag() noexcept; } template <> void fmt_class_string::format(std::string& out, u64 arg) { out += ppu_get_syscall_name(arg); } template <> void fmt_class_string::format(std::string& out, u64 arg) { format_enum(out, arg, [](auto value) { switch (value) { case SYS_SYNC_FIFO: return "FIFO"; case SYS_SYNC_PRIORITY: return "PRIO"; case SYS_SYNC_PRIORITY_INHERIT: return "PRIO-INHER"; case SYS_SYNC_RETRY: return "RETRY"; } return unknown; }); } template <> void fmt_class_string::format(std::string& out, u64 arg) { out += lv2_obj::name64(get_object(arg).data); } static void null_func_(ppu_thread& ppu, ppu_opcode_t, be_t* this_op, ppu_intrp_func*) { ppu_log.todo("Unimplemented syscall %s -> CELL_OK (r3=0x%llx, r4=0x%llx, r5=0x%llx, r6=0x%llx, r7=0x%llx, r8=0x%llx, r9=0x%llx, r10=0x%llx)", ppu_syscall_code(ppu.gpr[11]), ppu.gpr[3], ppu.gpr[4], ppu.gpr[5], ppu.gpr[6], ppu.gpr[7], ppu.gpr[8], ppu.gpr[9], ppu.gpr[10]); ppu.gpr[3] = 0; ppu.cia = vm::get_addr(this_op) + 4; } static void uns_func_(ppu_thread& ppu, ppu_opcode_t, be_t* this_op, ppu_intrp_func*) { ppu_log.trace("Unused syscall %d -> ENOSYS", ppu.gpr[11]); ppu.gpr[3] = CELL_ENOSYS; ppu.cia = vm::get_addr(this_op) + 4; } // Bind Syscall #define BIND_SYSC(func) {BIND_FUNC(func), #func} #define NULL_FUNC(name) {null_func_, #name} constexpr std::pair null_func{null_func_, ""}; constexpr std::pair uns_func{uns_func_, ""}; // UNS = Unused // ROOT = Root // DBG = Debug // DEX..DECR = Unavailable on retail consoles // PM = Product Mode // AuthID = Authentication ID const std::array, 1024> g_ppu_syscall_table { null_func, BIND_SYSC(sys_process_getpid), //1 (0x001) BIND_SYSC(sys_process_wait_for_child), //2 (0x002) ROOT BIND_SYSC(sys_process_exit3), //3 (0x003) BIND_SYSC(sys_process_get_status), //4 (0x004) DBG BIND_SYSC(sys_process_detach_child), //5 (0x005) DBG uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //6-11 UNS BIND_SYSC(sys_process_get_number_of_object), //12 (0x00C) BIND_SYSC(sys_process_get_id), //13 (0x00D) BIND_SYSC(sys_process_is_spu_lock_line_reservation_address), //14 (0x00E) uns_func, uns_func, uns_func, //15-17 UNS BIND_SYSC(sys_process_getppid), //18 (0x012) BIND_SYSC(sys_process_kill), //19 (0x013) uns_func, //20 (0x014) UNS NULL_FUNC(_sys_process_spawn), //21 (0x015) DBG BIND_SYSC(_sys_process_exit), //22 (0x016) BIND_SYSC(sys_process_wait_for_child2), //23 (0x017) DBG null_func,//BIND_SYSC(), //24 (0x018) DBG BIND_SYSC(sys_process_get_sdk_version), //25 (0x019) BIND_SYSC(_sys_process_exit2), //26 (0x01A) BIND_SYSC(sys_process_spawns_a_self2), //27 (0x01B) DBG NULL_FUNC(_sys_process_get_number_of_object), //28 (0x01C) ROOT BIND_SYSC(sys_process_get_id2), //29 (0x01D) ROOT BIND_SYSC(_sys_process_get_paramsfo), //30 (0x01E) NULL_FUNC(sys_process_get_ppu_guid), //31 (0x01F) uns_func, uns_func ,uns_func , uns_func ,uns_func, uns_func ,uns_func, uns_func ,uns_func, //32-40 UNS BIND_SYSC(_sys_ppu_thread_exit), //41 (0x029) uns_func, //42 (0x02A) UNS BIND_SYSC(sys_ppu_thread_yield), //43 (0x02B) BIND_SYSC(sys_ppu_thread_join), //44 (0x02C) BIND_SYSC(sys_ppu_thread_detach), //45 (0x02D) BIND_SYSC(sys_ppu_thread_get_join_state), //46 (0x02E) BIND_SYSC(sys_ppu_thread_set_priority), //47 (0x02F) DBG BIND_SYSC(sys_ppu_thread_get_priority), //48 (0x030) BIND_SYSC(sys_ppu_thread_get_stack_information), //49 (0x031) BIND_SYSC(sys_ppu_thread_stop), //50 (0x032) ROOT BIND_SYSC(sys_ppu_thread_restart), //51 (0x033) ROOT BIND_SYSC(_sys_ppu_thread_create), //52 (0x034) DBG BIND_SYSC(sys_ppu_thread_start), //53 (0x035) null_func,//BIND_SYSC(sys_ppu_...), //54 (0x036) ROOT null_func,//BIND_SYSC(sys_ppu_...), //55 (0x037) ROOT BIND_SYSC(sys_ppu_thread_rename), //56 (0x038) BIND_SYSC(sys_ppu_thread_recover_page_fault), //57 (0x039) BIND_SYSC(sys_ppu_thread_get_page_fault_context), //58 (0x03A) uns_func, //59 (0x03B) UNS BIND_SYSC(sys_trace_create), //60 (0x03C) BIND_SYSC(sys_trace_start), //61 (0x03D) BIND_SYSC(sys_trace_stop), //62 (0x03E) BIND_SYSC(sys_trace_update_top_index), //63 (0x03F) BIND_SYSC(sys_trace_destroy), //64 (0x040) BIND_SYSC(sys_trace_drain), //65 (0x041) BIND_SYSC(sys_trace_attach_process), //66 (0x042) BIND_SYSC(sys_trace_allocate_buffer), //67 (0x043) BIND_SYSC(sys_trace_free_buffer), //68 (0x044) BIND_SYSC(sys_trace_create2), //69 (0x045) BIND_SYSC(sys_timer_create), //70 (0x046) BIND_SYSC(sys_timer_destroy), //71 (0x047) BIND_SYSC(sys_timer_get_information), //72 (0x048) BIND_SYSC(_sys_timer_start), //73 (0x049) BIND_SYSC(sys_timer_stop), //74 (0x04A) BIND_SYSC(sys_timer_connect_event_queue), //75 (0x04B) BIND_SYSC(sys_timer_disconnect_event_queue), //76 (0x04C) NULL_FUNC(sys_trace_create2_in_cbepm), //77 (0x04D) null_func,//BIND_SYSC(sys_trace_...), //78 (0x04E) uns_func, //79 (0x04F) UNS NULL_FUNC(sys_interrupt_tag_create), //80 (0x050) BIND_SYSC(sys_interrupt_tag_destroy), //81 (0x051) BIND_SYSC(sys_event_flag_create), //82 (0x052) BIND_SYSC(sys_event_flag_destroy), //83 (0x053) BIND_SYSC(_sys_interrupt_thread_establish), //84 (0x054) BIND_SYSC(sys_event_flag_wait), //85 (0x055) BIND_SYSC(sys_event_flag_trywait), //86 (0x056) BIND_SYSC(sys_event_flag_set), //87 (0x057) BIND_SYSC(sys_interrupt_thread_eoi), //88 (0x058) BIND_SYSC(_sys_interrupt_thread_disestablish), //89 (0x059) BIND_SYSC(sys_semaphore_create), //90 (0x05A) BIND_SYSC(sys_semaphore_destroy), //91 (0x05B) BIND_SYSC(sys_semaphore_wait), //92 (0x05C) BIND_SYSC(sys_semaphore_trywait), //93 (0x05D) BIND_SYSC(sys_semaphore_post), //94 (0x05E) BIND_SYSC(_sys_lwmutex_create), //95 (0x05F) BIND_SYSC(_sys_lwmutex_destroy), //96 (0x060) BIND_SYSC(_sys_lwmutex_lock), //97 (0x061) BIND_SYSC(_sys_lwmutex_unlock), //98 (0x062) BIND_SYSC(_sys_lwmutex_trylock), //99 (0x063) BIND_SYSC(sys_mutex_create), //100 (0x064) BIND_SYSC(sys_mutex_destroy), //101 (0x065) BIND_SYSC(sys_mutex_lock), //102 (0x066) BIND_SYSC(sys_mutex_trylock), //103 (0x067) BIND_SYSC(sys_mutex_unlock), //104 (0x068) BIND_SYSC(sys_cond_create), //105 (0x069) BIND_SYSC(sys_cond_destroy), //106 (0x06A) BIND_SYSC(sys_cond_wait), //107 (0x06B) BIND_SYSC(sys_cond_signal), //108 (0x06C) BIND_SYSC(sys_cond_signal_all), //109 (0x06D) BIND_SYSC(sys_cond_signal_to), //110 (0x06E) BIND_SYSC(_sys_lwcond_create), //111 (0x06F) BIND_SYSC(_sys_lwcond_destroy), //112 (0x070) BIND_SYSC(_sys_lwcond_queue_wait), //113 (0x071) BIND_SYSC(sys_semaphore_get_value), //114 (0x072) BIND_SYSC(_sys_lwcond_signal), //115 (0x073) BIND_SYSC(_sys_lwcond_signal_all), //116 (0x074) BIND_SYSC(_sys_lwmutex_unlock2), //117 (0x075) BIND_SYSC(sys_event_flag_clear), //118 (0x076) BIND_SYSC(sys_time_get_rtc), //119 (0x077) ROOT BIND_SYSC(sys_rwlock_create), //120 (0x078) BIND_SYSC(sys_rwlock_destroy), //121 (0x079) BIND_SYSC(sys_rwlock_rlock), //122 (0x07A) BIND_SYSC(sys_rwlock_tryrlock), //123 (0x07B) BIND_SYSC(sys_rwlock_runlock), //124 (0x07C) BIND_SYSC(sys_rwlock_wlock), //125 (0x07D) BIND_SYSC(sys_rwlock_trywlock), //126 (0x07E) BIND_SYSC(sys_rwlock_wunlock), //127 (0x07F) BIND_SYSC(sys_event_queue_create), //128 (0x080) BIND_SYSC(sys_event_queue_destroy), //129 (0x081) BIND_SYSC(sys_event_queue_receive), //130 (0x082) BIND_SYSC(sys_event_queue_tryreceive), //131 (0x083) BIND_SYSC(sys_event_flag_cancel), //132 (0x084) BIND_SYSC(sys_event_queue_drain), //133 (0x085) BIND_SYSC(sys_event_port_create), //134 (0x086) BIND_SYSC(sys_event_port_destroy), //135 (0x087) BIND_SYSC(sys_event_port_connect_local), //136 (0x088) BIND_SYSC(sys_event_port_disconnect), //137 (0x089) BIND_SYSC(sys_event_port_send), //138 (0x08A) BIND_SYSC(sys_event_flag_get), //139 (0x08B) BIND_SYSC(sys_event_port_connect_ipc), //140 (0x08C) BIND_SYSC(sys_timer_usleep), //141 (0x08D) BIND_SYSC(sys_timer_sleep), //142 (0x08E) BIND_SYSC(sys_time_set_timezone), //143 (0x08F) ROOT BIND_SYSC(sys_time_get_timezone), //144 (0x090) BIND_SYSC(sys_time_get_current_time), //145 (0x091) BIND_SYSC(sys_time_set_current_time), //146 (0x092) ROOT BIND_SYSC(sys_time_get_timebase_frequency), //147 (0x093) BIND_SYSC(_sys_rwlock_trywlock), //148 (0x094) NULL_FUNC(sys_time_get_system_time), //149 (0x095) BIND_SYSC(sys_raw_spu_create_interrupt_tag), //150 (0x096) BIND_SYSC(sys_raw_spu_set_int_mask), //151 (0x097) BIND_SYSC(sys_raw_spu_get_int_mask), //152 (0x098) BIND_SYSC(sys_raw_spu_set_int_stat), //153 (0x099) BIND_SYSC(sys_raw_spu_get_int_stat), //154 (0x09A) BIND_SYSC(_sys_spu_image_get_information), //155 (0x09B) BIND_SYSC(sys_spu_image_open), //156 (0x09C) BIND_SYSC(_sys_spu_image_import), //157 (0x09D) BIND_SYSC(_sys_spu_image_close), //158 (0x09E) BIND_SYSC(_sys_spu_image_get_segments), //159 (0x09F) BIND_SYSC(sys_raw_spu_create), //160 (0x0A0) BIND_SYSC(sys_raw_spu_destroy), //161 (0x0A1) uns_func, //162 (0x0A2) UNS BIND_SYSC(sys_raw_spu_read_puint_mb), //163 (0x0A3) uns_func, //164 (0x0A4) UNS BIND_SYSC(sys_spu_thread_get_exit_status), //165 (0x0A5) BIND_SYSC(sys_spu_thread_set_argument), //166 (0x0A6) NULL_FUNC(sys_spu_thread_group_start_on_exit), //167 (0x0A7) uns_func, //168 (0x0A8) UNS BIND_SYSC(sys_spu_initialize), //169 (0x0A9) BIND_SYSC(sys_spu_thread_group_create), //170 (0x0AA) BIND_SYSC(sys_spu_thread_group_destroy), //171 (0x0AB) BIND_SYSC(sys_spu_thread_initialize), //172 (0x0AC) BIND_SYSC(sys_spu_thread_group_start), //173 (0x0AD) BIND_SYSC(sys_spu_thread_group_suspend), //174 (0x0AE) BIND_SYSC(sys_spu_thread_group_resume), //175 (0x0AF) BIND_SYSC(sys_spu_thread_group_yield), //176 (0x0B0) BIND_SYSC(sys_spu_thread_group_terminate), //177 (0x0B1) BIND_SYSC(sys_spu_thread_group_join), //178 (0x0B2) BIND_SYSC(sys_spu_thread_group_set_priority), //179 (0x0B3) BIND_SYSC(sys_spu_thread_group_get_priority), //180 (0x0B4) BIND_SYSC(sys_spu_thread_write_ls), //181 (0x0B5) BIND_SYSC(sys_spu_thread_read_ls), //182 (0x0B6) uns_func, //183 (0x0B7) UNS BIND_SYSC(sys_spu_thread_write_snr), //184 (0x0B8) BIND_SYSC(sys_spu_thread_group_connect_event), //185 (0x0B9) BIND_SYSC(sys_spu_thread_group_disconnect_event), //186 (0x0BA) BIND_SYSC(sys_spu_thread_set_spu_cfg), //187 (0x0BB) BIND_SYSC(sys_spu_thread_get_spu_cfg), //188 (0x0BC) uns_func, //189 (0x0BD) UNS BIND_SYSC(sys_spu_thread_write_spu_mb), //190 (0x0BE) BIND_SYSC(sys_spu_thread_connect_event), //191 (0x0BF) BIND_SYSC(sys_spu_thread_disconnect_event), //192 (0x0C0) BIND_SYSC(sys_spu_thread_bind_queue), //193 (0x0C1) BIND_SYSC(sys_spu_thread_unbind_queue), //194 (0x0C2) uns_func, //195 (0x0C3) UNS BIND_SYSC(sys_raw_spu_set_spu_cfg), //196 (0x0C4) BIND_SYSC(sys_raw_spu_get_spu_cfg), //197 (0x0C5) BIND_SYSC(sys_spu_thread_recover_page_fault), //198 (0x0C6) BIND_SYSC(sys_raw_spu_recover_page_fault), //199 (0x0C7) null_func, null_func, null_func, null_func, null_func, //204 UNS? null_func, null_func, null_func, null_func, null_func, //209 UNS? null_func, null_func, null_func, //212 UNS? BIND_SYSC(sys_console_write2), //213 (0x0D5) null_func, //214 UNS? NULL_FUNC(sys_dbg_mat_set_condition), //215 (0x0D7) NULL_FUNC(sys_dbg_mat_get_condition), //216 (0x0D8) uns_func,//BIND_SYSC(sys_dbg_...), //217 (0x0D9) DBG UNS? uns_func,//BIND_SYSC(sys_dbg_...), //218 (0x0DA) DBG UNS? uns_func,//BIND_SYSC(sys_dbg_...), //219 (0x0DB) DBG UNS? null_func, null_func, null_func, null_func, null_func, //224 UNS null_func, null_func, null_func, null_func, null_func, //229 UNS? BIND_SYSC(sys_isolated_spu_create), //230 (0x0E6) ROOT BIND_SYSC(sys_isolated_spu_destroy), //231 (0x0E7) ROOT BIND_SYSC(sys_isolated_spu_start), //232 (0x0E8) ROOT BIND_SYSC(sys_isolated_spu_create_interrupt_tag), //233 (0x0E9) ROOT BIND_SYSC(sys_isolated_spu_set_int_mask), //234 (0x0EA) ROOT BIND_SYSC(sys_isolated_spu_get_int_mask), //235 (0x0EB) ROOT BIND_SYSC(sys_isolated_spu_set_int_stat), //236 (0x0EC) ROOT BIND_SYSC(sys_isolated_spu_get_int_stat), //237 (0x0ED) ROOT BIND_SYSC(sys_isolated_spu_set_spu_cfg), //238 (0x0EE) ROOT BIND_SYSC(sys_isolated_spu_get_spu_cfg), //239 (0x0EF) ROOT BIND_SYSC(sys_isolated_spu_read_puint_mb), //240 (0x0F0) ROOT uns_func, uns_func, uns_func, //241-243 ROOT UNS NULL_FUNC(sys_spu_thread_group_system_set_next_group), //244 (0x0F4) ROOT NULL_FUNC(sys_spu_thread_group_system_unset_next_group),//245 (0x0F5) ROOT NULL_FUNC(sys_spu_thread_group_system_set_switch_group),//246 (0x0F6) ROOT NULL_FUNC(sys_spu_thread_group_system_unset_switch_group),//247 (0x0F7) ROOT null_func,//BIND_SYSC(sys_spu_thread_group...), //248 (0x0F8) ROOT null_func,//BIND_SYSC(sys_spu_thread_group...), //249 (0x0F9) ROOT BIND_SYSC(sys_spu_thread_group_set_cooperative_victims),//250 (0x0FA) BIND_SYSC(sys_spu_thread_group_connect_event_all_threads), //251 (0x0FB) BIND_SYSC(sys_spu_thread_group_disconnect_event_all_threads), //252 (0x0FC) BIND_SYSC(sys_spu_thread_group_syscall_253), //253 (0x0FD) BIND_SYSC(sys_spu_thread_group_log), //254 (0x0FE) uns_func, uns_func, uns_func, uns_func, uns_func, //255-259 UNS NULL_FUNC(sys_spu_image_open_by_fd), //260 (0x104) uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //261-269 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //270-279 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //280-289 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //290-299 UNS BIND_SYSC(sys_vm_memory_map), //300 (0x12C) BIND_SYSC(sys_vm_unmap), //301 (0x12D) BIND_SYSC(sys_vm_append_memory), //302 (0x12E) BIND_SYSC(sys_vm_return_memory), //303 (0x12F) BIND_SYSC(sys_vm_lock), //304 (0x130) BIND_SYSC(sys_vm_unlock), //305 (0x131) BIND_SYSC(sys_vm_touch), //306 (0x132) BIND_SYSC(sys_vm_flush), //307 (0x133) BIND_SYSC(sys_vm_invalidate), //308 (0x134) BIND_SYSC(sys_vm_store), //309 (0x135) BIND_SYSC(sys_vm_sync), //310 (0x136) BIND_SYSC(sys_vm_test), //311 (0x137) BIND_SYSC(sys_vm_get_statistics), //312 (0x138) BIND_SYSC(sys_vm_memory_map_different), //313 (0x139) null_func,//BIND_SYSC(sys_...), //314 (0x13A) null_func,//BIND_SYSC(sys_...), //315 (0x13B) uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //316-323 UNS BIND_SYSC(sys_memory_container_create), //324 (0x144) DBG BIND_SYSC(sys_memory_container_destroy), //325 (0x145) DBG BIND_SYSC(sys_mmapper_allocate_fixed_address), //326 (0x146) BIND_SYSC(sys_mmapper_enable_page_fault_notification), //327 (0x147) BIND_SYSC(sys_mmapper_allocate_shared_memory_from_container_ext), //328 (0x148) BIND_SYSC(sys_mmapper_free_shared_memory), //329 (0x149) BIND_SYSC(sys_mmapper_allocate_address), //330 (0x14A) BIND_SYSC(sys_mmapper_free_address), //331 (0x14B) BIND_SYSC(sys_mmapper_allocate_shared_memory), //332 (0x14C) NULL_FUNC(sys_mmapper_set_shared_memory_flag), //333(0x14D) BIND_SYSC(sys_mmapper_map_shared_memory), //334 (0x14E) BIND_SYSC(sys_mmapper_unmap_shared_memory), //335 (0x14F) BIND_SYSC(sys_mmapper_change_address_access_right), //336 (0x150) BIND_SYSC(sys_mmapper_search_and_map), //337 (0x151) NULL_FUNC(sys_mmapper_get_shared_memory_attribute), //338 (0x152) BIND_SYSC(sys_mmapper_allocate_shared_memory_ext), //339 (0x153) null_func,//BIND_SYSC(sys_...), //340 (0x154) BIND_SYSC(sys_memory_container_create), //341 (0x155) BIND_SYSC(sys_memory_container_destroy), //342 (0x156) BIND_SYSC(sys_memory_container_get_size), //343 (0x157) NULL_FUNC(sys_memory_budget_set), //344 (0x158) BIND_SYSC(sys_memory_container_destroy_parent_with_childs), //345 (0x159) null_func,//BIND_SYSC(sys_memory_...), //346 (0x15A) uns_func, //347 (0x15B) UNS BIND_SYSC(sys_memory_allocate), //348 (0x15C) BIND_SYSC(sys_memory_free), //349 (0x15D) BIND_SYSC(sys_memory_allocate_from_container), //350 (0x15E) BIND_SYSC(sys_memory_get_page_attribute), //351 (0x15F) BIND_SYSC(sys_memory_get_user_memory_size), //352 (0x160) BIND_SYSC(sys_memory_get_user_memory_stat), //353 (0x161) null_func,//BIND_SYSC(sys_memory_...), //354 (0x162) null_func,//BIND_SYSC(sys_memory_...), //355 (0x163) NULL_FUNC(sys_memory_allocate_colored), //356 (0x164) null_func,//BIND_SYSC(sys_memory_...), //357 (0x165) null_func,//BIND_SYSC(sys_memory_...), //358 (0x166) null_func,//BIND_SYSC(sys_memory_...), //359 (0x167) null_func,//BIND_SYSC(sys_memory_...), //360 (0x168) NULL_FUNC(sys_memory_allocate_from_container_colored), //361 (0x169) BIND_SYSC(sys_mmapper_allocate_shared_memory_from_container),//362 (0x16A) null_func,//BIND_SYSC(sys_mmapper_...), //363 (0x16B) null_func,//BIND_SYSC(sys_mmapper_...), //364 (0x16C) uns_func, uns_func, //366 (0x16E) UNS BIND_SYSC(sys_uart_initialize), //367 (0x16F) ROOT BIND_SYSC(sys_uart_receive), //368 (0x170) ROOT BIND_SYSC(sys_uart_send), //369 (0x171) ROOT BIND_SYSC(sys_uart_get_params), //370 (0x172) ROOT uns_func, //371 (0x173) UNS BIND_SYSC(_sys_game_watchdog_start), //372 (0x174) BIND_SYSC(_sys_game_watchdog_stop), //373 (0x175) BIND_SYSC(_sys_game_watchdog_clear), //374 (0x176) BIND_SYSC(_sys_game_set_system_sw_version), //375 (0x177) ROOT BIND_SYSC(_sys_game_get_system_sw_version), //376 (0x178) ROOT BIND_SYSC(sys_sm_set_shop_mode), //377 (0x179) ROOT BIND_SYSC(sys_sm_get_ext_event2), //378 (0x17A) ROOT BIND_SYSC(sys_sm_shutdown), //379 (0x17B) ROOT BIND_SYSC(sys_sm_get_params), //380 (0x17C) DBG NULL_FUNC(sys_sm_get_inter_lpar_parameter), //381 (0x17D) ROOT NULL_FUNC(sys_sm_initialize), //382 (0x17E) ROOT NULL_FUNC(sys_game_get_temperature), //383 (0x17F) ROOT NULL_FUNC(sys_sm_get_tzpb), //384 (0x180) ROOT NULL_FUNC(sys_sm_request_led), //385 (0x181) ROOT BIND_SYSC(sys_sm_control_led), //386 (0x182) ROOT NULL_FUNC(sys_sm_get_system_info), //387 (0x183) DBG BIND_SYSC(sys_sm_ring_buzzer2), //388 (0x184) ROOT NULL_FUNC(sys_sm_set_fan_policy), //389 (0x185) PM NULL_FUNC(sys_sm_request_error_log), //390 (0x186) ROOT NULL_FUNC(sys_sm_request_be_count), //391 (0x187) ROOT BIND_SYSC(sys_sm_ring_buzzer), //392 (0x188) ROOT NULL_FUNC(sys_sm_get_hw_config), //393 (0x189) ROOT NULL_FUNC(sys_sm_request_scversion), //394 (0x18A) ROOT NULL_FUNC(sys_sm_request_system_event_log), //395 (0x18B) PM NULL_FUNC(sys_sm_set_rtc_alarm), //396 (0x18C) ROOT NULL_FUNC(sys_sm_get_rtc_alarm), //397 (0x18D) ROOT BIND_SYSC(sys_console_write), //398 (0x18E) ROOT uns_func, //399 (0x18F) UNS null_func,//BIND_SYSC(sys_sm_...), //400 (0x190) PM null_func,//BIND_SYSC(sys_sm_...), //401 (0x191) ROOT BIND_SYSC(sys_tty_read), //402 (0x192) BIND_SYSC(sys_tty_write), //403 (0x193) null_func,//BIND_SYSC(sys_...), //404 (0x194) ROOT null_func,//BIND_SYSC(sys_...), //405 (0x195) PM null_func,//BIND_SYSC(sys_...), //406 (0x196) PM null_func,//BIND_SYSC(sys_...), //407 (0x197) PM NULL_FUNC(sys_sm_get_tzpb), //408 (0x198) PM NULL_FUNC(sys_sm_get_fan_policy), //409 (0x199) PM BIND_SYSC(_sys_game_board_storage_read), //410 (0x19A) BIND_SYSC(_sys_game_board_storage_write), //411 (0x19B) BIND_SYSC(_sys_game_get_rtc_status), //412 (0x19C) null_func,//BIND_SYSC(sys_...), //413 (0x19D) ROOT null_func,//BIND_SYSC(sys_...), //414 (0x19E) ROOT null_func,//BIND_SYSC(sys_...), //415 (0x19F) ROOT uns_func, uns_func, uns_func, uns_func, //416-419 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //420-429 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //430-439 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //440-449 UNS BIND_SYSC(sys_overlay_load_module), //450 (0x1C2) BIND_SYSC(sys_overlay_unload_module), //451 (0x1C3) NULL_FUNC(sys_overlay_get_module_list), //452 (0x1C4) NULL_FUNC(sys_overlay_get_module_info), //453 (0x1C5) BIND_SYSC(sys_overlay_load_module_by_fd), //454 (0x1C6) NULL_FUNC(sys_overlay_get_module_info2), //455 (0x1C7) NULL_FUNC(sys_overlay_get_sdk_version), //456 (0x1C8) NULL_FUNC(sys_overlay_get_module_dbg_info), //457 (0x1C9) NULL_FUNC(sys_overlay_get_module_dbg_info), //458 (0x1CA) uns_func, //459 (0x1CB) UNS NULL_FUNC(sys_prx_dbg_get_module_id_list), //460 (0x1CC) ROOT BIND_SYSC(_sys_prx_get_module_id_by_address), //461 (0x1CD) uns_func, //462 (0x1CE) DEX BIND_SYSC(_sys_prx_load_module_by_fd), //463 (0x1CF) BIND_SYSC(_sys_prx_load_module_on_memcontainer_by_fd), //464 (0x1D0) BIND_SYSC(_sys_prx_load_module_list), //465 (0x1D1) BIND_SYSC(_sys_prx_load_module_list_on_memcontainer), //466 (0x1D2) BIND_SYSC(sys_prx_get_ppu_guid), //467 (0x1D3) null_func,//BIND_SYSC(sys_...), //468 (0x1D4) ROOT uns_func, //469 (0x1D5) UNS NULL_FUNC(sys_npdrm_check_ekc), //470 (0x1D6) ROOT NULL_FUNC(sys_npdrm_regist_ekc), //471 (0x1D7) ROOT null_func,//BIND_SYSC(sys_...), //472 (0x1D8) ROOT null_func,//BIND_SYSC(sys_...), //473 (0x1D9) null_func,//BIND_SYSC(sys_...), //474 (0x1DA) null_func,//BIND_SYSC(sys_...), //475 (0x1DB) ROOT null_func,//BIND_SYSC(sys_...), //476 (0x1DC) ROOT uns_func, uns_func, uns_func, //477-479 UNS BIND_SYSC(_sys_prx_load_module), //480 (0x1E0) BIND_SYSC(_sys_prx_start_module), //481 (0x1E1) BIND_SYSC(_sys_prx_stop_module), //482 (0x1E2) BIND_SYSC(_sys_prx_unload_module), //483 (0x1E3) BIND_SYSC(_sys_prx_register_module), //484 (0x1E4) BIND_SYSC(_sys_prx_query_module), //485 (0x1E5) BIND_SYSC(_sys_prx_register_library), //486 (0x1E6) BIND_SYSC(_sys_prx_unregister_library), //487 (0x1E7) BIND_SYSC(_sys_prx_link_library), //488 (0x1E8) BIND_SYSC(_sys_prx_unlink_library), //489 (0x1E9) BIND_SYSC(_sys_prx_query_library), //490 (0x1EA) uns_func, //491 (0x1EB) UNS NULL_FUNC(sys_prx_dbg_get_module_list), //492 (0x1EC) DBG NULL_FUNC(sys_prx_dbg_get_module_info), //493 (0x1ED) DBG BIND_SYSC(_sys_prx_get_module_list), //494 (0x1EE) BIND_SYSC(_sys_prx_get_module_info), //495 (0x1EF) BIND_SYSC(_sys_prx_get_module_id_by_name), //496 (0x1F0) BIND_SYSC(_sys_prx_load_module_on_memcontainer), //497 (0x1F1) BIND_SYSC(_sys_prx_start), //498 (0x1F2) BIND_SYSC(_sys_prx_stop), //499 (0x1F3) BIND_SYSC(sys_hid_manager_open), //500 (0x1F4) NULL_FUNC(sys_hid_manager_close), //501 (0x1F5) BIND_SYSC(sys_hid_manager_read), //502 (0x1F6) ROOT BIND_SYSC(sys_hid_manager_ioctl), //503 (0x1F7) NULL_FUNC(sys_hid_manager_map_logical_id_to_port_id), //504 (0x1F8) ROOT NULL_FUNC(sys_hid_manager_unmap_logical_id_to_port_id), //505 (0x1F9) ROOT BIND_SYSC(sys_hid_manager_add_hot_key_observer), //506 (0x1FA) ROOT NULL_FUNC(sys_hid_manager_remove_hot_key_observer), //507 (0x1FB) ROOT NULL_FUNC(sys_hid_manager_grab_focus), //508 (0x1FC) ROOT NULL_FUNC(sys_hid_manager_release_focus), //509 (0x1FD) ROOT BIND_SYSC(sys_hid_manager_check_focus), //510 (0x1FE) NULL_FUNC(sys_hid_manager_set_master_process), //511 (0x1FF) ROOT BIND_SYSC(sys_hid_manager_is_process_permission_root), //512 (0x200) ROOT BIND_SYSC(sys_hid_manager_513), //513 (0x201) BIND_SYSC(sys_hid_manager_514), //514 (0x202) uns_func, //515 (0x203) UNS BIND_SYSC(sys_config_open), //516 (0x204) BIND_SYSC(sys_config_close), //517 (0x205) BIND_SYSC(sys_config_get_service_event), //518 (0x206) BIND_SYSC(sys_config_add_service_listener), //519 (0x207) BIND_SYSC(sys_config_remove_service_listener), //520 (0x208) BIND_SYSC(sys_config_register_service), //521 (0x209) BIND_SYSC(sys_config_unregister_service), //522 (0x20A) BIND_SYSC(sys_config_get_io_event), //523 (0x20B) BIND_SYSC(sys_config_register_io_error_listener), //524 (0x20C) BIND_SYSC(sys_config_unregister_io_error_listener), //525 (0x20D) uns_func, uns_func, uns_func, uns_func, //526-529 UNS BIND_SYSC(sys_usbd_initialize), //530 (0x212) BIND_SYSC(sys_usbd_finalize), //531 (0x213) BIND_SYSC(sys_usbd_get_device_list), //532 (0x214) BIND_SYSC(sys_usbd_get_descriptor_size), //533 (0x215) BIND_SYSC(sys_usbd_get_descriptor), //534 (0x216) BIND_SYSC(sys_usbd_register_ldd), //535 (0x217) BIND_SYSC(sys_usbd_unregister_ldd), //536 (0x218) BIND_SYSC(sys_usbd_open_pipe), //537 (0x219) BIND_SYSC(sys_usbd_open_default_pipe), //538 (0x21A) BIND_SYSC(sys_usbd_close_pipe), //539 (0x21B) BIND_SYSC(sys_usbd_receive_event), //540 (0x21C) BIND_SYSC(sys_usbd_detect_event), //541 (0x21D) BIND_SYSC(sys_usbd_attach), //542 (0x21E) BIND_SYSC(sys_usbd_transfer_data), //543 (0x21F) BIND_SYSC(sys_usbd_isochronous_transfer_data), //544 (0x220) BIND_SYSC(sys_usbd_get_transfer_status), //545 (0x221) BIND_SYSC(sys_usbd_get_isochronous_transfer_status), //546 (0x222) BIND_SYSC(sys_usbd_get_device_location), //547 (0x223) BIND_SYSC(sys_usbd_send_event), //548 (0x224) BIND_SYSC(sys_usbd_event_port_send), //549 (0x225) BIND_SYSC(sys_usbd_allocate_memory), //550 (0x226) BIND_SYSC(sys_usbd_free_memory), //551 (0x227) null_func,//BIND_SYSC(sys_usbd_...), //552 (0x228) null_func,//BIND_SYSC(sys_usbd_...), //553 (0x229) null_func,//BIND_SYSC(sys_usbd_...), //554 (0x22A) null_func,//BIND_SYSC(sys_usbd_...), //555 (0x22B) BIND_SYSC(sys_usbd_get_device_speed), //556 (0x22C) null_func,//BIND_SYSC(sys_usbd_...), //557 (0x22D) BIND_SYSC(sys_usbd_unregister_extra_ldd), //558 (0x22E) BIND_SYSC(sys_usbd_register_extra_ldd), //559 (0x22F) null_func,//BIND_SYSC(sys_...), //560 (0x230) ROOT null_func,//BIND_SYSC(sys_...), //561 (0x231) ROOT null_func,//BIND_SYSC(sys_...), //562 (0x232) ROOT null_func,//BIND_SYSC(sys_...), //563 (0x233) null_func,//BIND_SYSC(sys_...), //564 (0x234) null_func,//BIND_SYSC(sys_...), //565 (0x235) null_func,//BIND_SYSC(sys_...), //566 (0x236) null_func,//BIND_SYSC(sys_...), //567 (0x237) null_func,//BIND_SYSC(sys_...), //568 (0x238) null_func,//BIND_SYSC(sys_...), //569 (0x239) NULL_FUNC(sys_pad_ldd_register_controller), //570 (0x23A) NULL_FUNC(sys_pad_ldd_unregister_controller), //571 (0x23B) NULL_FUNC(sys_pad_ldd_data_insert), //572 (0x23C) NULL_FUNC(sys_pad_dbg_ldd_set_data_insert_mode), //573 (0x23D) NULL_FUNC(sys_pad_ldd_register_controller), //574 (0x23E) NULL_FUNC(sys_pad_ldd_get_port_no), //575 (0x23F) uns_func, //576 (0x240) UNS null_func,//BIND_SYSC(sys_pad_manager_...), //577 (0x241) ROOT PM null_func,//BIND_SYSC(sys_bluetooth_...), //578 (0x242) null_func,//BIND_SYSC(sys_bluetooth_aud_serial_...), //579 (0x243) null_func,//BIND_SYSC(sys_bluetooth_...), //580 (0x244) ROOT null_func,//BIND_SYSC(sys_bluetooth_...), //581 (0x245) ROOT null_func,//BIND_SYSC(sys_bluetooth_...), //582 (0x246) ROOT NULL_FUNC(sys_bt_read_firmware_version), //583 (0x247) ROOT NULL_FUNC(sys_bt_complete_wake_on_host), //584 (0x248) ROOT NULL_FUNC(sys_bt_disable_bluetooth), //585 (0x249) NULL_FUNC(sys_bt_enable_bluetooth), //586 (0x24A) NULL_FUNC(sys_bt_bccmd), //587 (0x24B) ROOT NULL_FUNC(sys_bt_read_hq), //588 (0x24C) NULL_FUNC(sys_bt_hid_get_remote_status), //589 (0x24D) NULL_FUNC(sys_bt_register_controller), //590 (0x24E) ROOT NULL_FUNC(sys_bt_clear_registered_contoller), //591 (0x24F) NULL_FUNC(sys_bt_connect_accept_controller), //592 (0x250) NULL_FUNC(sys_bt_get_local_bdaddress), //593 (0x251) ROOT NULL_FUNC(sys_bt_hid_get_data), //594 (0x252) NULL_FUNC(sys_bt_hid_set_report), //595 (0x253) NULL_FUNC(sys_bt_sched_log), //596 (0x254) NULL_FUNC(sys_bt_cancel_connect_accept_controller), //597 (0x255) null_func,//BIND_SYSC(sys_bluetooth_...), //598 (0x256) ROOT null_func,//BIND_SYSC(sys_bluetooth_...), //599 (0x257) ROOT BIND_SYSC(sys_storage_open), //600 (0x258) ROOT BIND_SYSC(sys_storage_close), //601 (0x259) BIND_SYSC(sys_storage_read), //602 (0x25A) BIND_SYSC(sys_storage_write), //603 (0x25B) BIND_SYSC(sys_storage_send_device_command), //604 (0x25C) BIND_SYSC(sys_storage_async_configure), //605 (0x25D) BIND_SYSC(sys_storage_async_read), //606 (0x25E) BIND_SYSC(sys_storage_async_write), //607 (0x25F) BIND_SYSC(sys_storage_async_cancel), //608 (0x260) BIND_SYSC(sys_storage_get_device_info), //609 (0x261) ROOT BIND_SYSC(sys_storage_get_device_config), //610 (0x262) ROOT BIND_SYSC(sys_storage_report_devices), //611 (0x263) ROOT BIND_SYSC(sys_storage_configure_medium_event), //612 (0x264) ROOT BIND_SYSC(sys_storage_set_medium_polling_interval), //613 (0x265) BIND_SYSC(sys_storage_create_region), //614 (0x266) BIND_SYSC(sys_storage_delete_region), //615 (0x267) BIND_SYSC(sys_storage_execute_device_command), //616 (0x268) BIND_SYSC(sys_storage_check_region_acl), //617 (0x269) BIND_SYSC(sys_storage_set_region_acl), //618 (0x26A) BIND_SYSC(sys_storage_async_send_device_command), //619 (0x26B) null_func,//BIND_SYSC(sys_...), //620 (0x26C) ROOT BIND_SYSC(sys_gamepad_ycon_if), //621 (0x26D) BIND_SYSC(sys_storage_get_region_offset), //622 (0x26E) BIND_SYSC(sys_storage_set_emulated_speed), //623 (0x26F) BIND_SYSC(sys_io_buffer_create), //624 (0x270) BIND_SYSC(sys_io_buffer_destroy), //625 (0x271) BIND_SYSC(sys_io_buffer_allocate), //626 (0x272) BIND_SYSC(sys_io_buffer_free), //627 (0x273) uns_func, uns_func, //629 (0x275) UNS BIND_SYSC(sys_gpio_set), //630 (0x276) BIND_SYSC(sys_gpio_get), //631 (0x277) uns_func, //632 (0x278) UNS NULL_FUNC(sys_fsw_connect_event), //633 (0x279) NULL_FUNC(sys_fsw_disconnect_event), //634 (0x27A) BIND_SYSC(sys_btsetting_if), //635 (0x27B) null_func,//BIND_SYSC(sys_...), //636 (0x27C) null_func,//BIND_SYSC(sys_...), //637 (0x27D) null_func,//BIND_SYSC(sys_...), //638 (0x27E) null_func,//BIND_SYSC(sys...), //639 DEPRECATED NULL_FUNC(sys_usbbtaudio_initialize), //640 DEPRECATED NULL_FUNC(sys_usbbtaudio_finalize), //641 DEPRECATED NULL_FUNC(sys_usbbtaudio_discovery), //642 DEPRECATED NULL_FUNC(sys_usbbtaudio_cancel_discovery), //643 DEPRECATED NULL_FUNC(sys_usbbtaudio_pairing), //644 DEPRECATED NULL_FUNC(sys_usbbtaudio_set_passkey), //645 DEPRECATED NULL_FUNC(sys_usbbtaudio_connect), //646 DEPRECATED NULL_FUNC(sys_usbbtaudio_disconnect), //647 DEPRECATED null_func,//BIND_SYSC(sys_...), //648 DEPRECATED null_func,//BIND_SYSC(sys_...), //649 DEPRECATED BIND_SYSC(sys_rsxaudio_initialize), //650 (0x28A) BIND_SYSC(sys_rsxaudio_finalize), //651 (0x28B) BIND_SYSC(sys_rsxaudio_import_shared_memory), //652 (0x28C) BIND_SYSC(sys_rsxaudio_unimport_shared_memory), //653 (0x28D) BIND_SYSC(sys_rsxaudio_create_connection), //654 (0x28E) BIND_SYSC(sys_rsxaudio_close_connection), //655 (0x28F) BIND_SYSC(sys_rsxaudio_prepare_process), //656 (0x290) BIND_SYSC(sys_rsxaudio_start_process), //657 (0x291) BIND_SYSC(sys_rsxaudio_stop_process), //658 (0x292) BIND_SYSC(sys_rsxaudio_get_dma_param), //659 (0x293) uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //660-665 UNS BIND_SYSC(sys_rsx_device_open), //666 (0x29A) BIND_SYSC(sys_rsx_device_close), //667 (0x29B) BIND_SYSC(sys_rsx_memory_allocate), //668 (0x29C) BIND_SYSC(sys_rsx_memory_free), //669 (0x29D) BIND_SYSC(sys_rsx_context_allocate), //670 (0x29E) BIND_SYSC(sys_rsx_context_free), //671 (0x29F) BIND_SYSC(sys_rsx_context_iomap), //672 (0x2A0) BIND_SYSC(sys_rsx_context_iounmap), //673 (0x2A1) BIND_SYSC(sys_rsx_context_attribute), //674 (0x2A2) BIND_SYSC(sys_rsx_device_map), //675 (0x2A3) BIND_SYSC(sys_rsx_device_unmap), //676 (0x2A4) BIND_SYSC(sys_rsx_attribute), //677 (0x2A5) null_func,//BIND_SYSC(sys_...), //678 (0x2A6) null_func,//BIND_SYSC(sys_...), //679 (0x2A7) ROOT null_func,//BIND_SYSC(sys_...), //680 (0x2A8) ROOT null_func,//BIND_SYSC(sys_...), //681 (0x2A9) ROOT null_func,//BIND_SYSC(sys_...), //682 (0x2AA) ROOT null_func,//BIND_SYSC(sys_...), //683 (0x2AB) ROOT null_func,//BIND_SYSC(sys_...), //684 (0x2AC) ROOT null_func,//BIND_SYSC(sys_...), //685 (0x2AD) ROOT null_func,//BIND_SYSC(sys_...), //686 (0x2AE) ROOT null_func,//BIND_SYSC(sys_...), //687 (0x2AF) ROOT null_func,//BIND_SYSC(sys_...), //688 (0x2B0) ROOT null_func,//BIND_SYSC(sys_...), //689 (0x2B1) ROOT null_func,//BIND_SYSC(sys_...), //690 (0x2B2) ROOT null_func,//BIND_SYSC(sys_...), //691 (0x2B3) ROOT null_func,//BIND_SYSC(sys_...), //692 (0x2B4) ROOT null_func,//BIND_SYSC(sys_...), //693 (0x2B5) ROOT null_func,//BIND_SYSC(sys_...), //694 (0x2B6) DEPRECATED null_func,//BIND_SYSC(sys_...), //695 (0x2B7) DEPRECATED null_func,//BIND_SYSC(sys_...), //696 (0x2B8) ROOT uns_func,//BIND_SYSC(sys_...), //697 (0x2B9) UNS uns_func,//BIND_SYSC(sys_...), //698 (0x2BA) UNS BIND_SYSC(sys_bdemu_send_command), //699 (0x2BB) BIND_SYSC(sys_net_bnet_accept), //700 (0x2BC) BIND_SYSC(sys_net_bnet_bind), //701 (0x2BD) BIND_SYSC(sys_net_bnet_connect), //702 (0x2BE) BIND_SYSC(sys_net_bnet_getpeername), //703 (0x2BF) BIND_SYSC(sys_net_bnet_getsockname), //704 (0x2C0) BIND_SYSC(sys_net_bnet_getsockopt), //705 (0x2C1) BIND_SYSC(sys_net_bnet_listen), //706 (0x2C2) BIND_SYSC(sys_net_bnet_recvfrom), //707 (0x2C3) BIND_SYSC(sys_net_bnet_recvmsg), //708 (0x2C4) BIND_SYSC(sys_net_bnet_sendmsg), //709 (0x2C5) BIND_SYSC(sys_net_bnet_sendto), //710 (0x2C6) BIND_SYSC(sys_net_bnet_setsockopt), //711 (0x2C7) BIND_SYSC(sys_net_bnet_shutdown), //712 (0x2C8) BIND_SYSC(sys_net_bnet_socket), //713 (0x2C9) BIND_SYSC(sys_net_bnet_close), //714 (0x2CA) BIND_SYSC(sys_net_bnet_poll), //715 (0x2CB) BIND_SYSC(sys_net_bnet_select), //716 (0x2CC) BIND_SYSC(_sys_net_open_dump), //717 (0x2CD) BIND_SYSC(_sys_net_read_dump), //718 (0x2CE) BIND_SYSC(_sys_net_close_dump), //719 (0x2CF) BIND_SYSC(_sys_net_write_dump), //720 (0x2D0) BIND_SYSC(sys_net_abort), //721 (0x2D1) BIND_SYSC(sys_net_infoctl), //722 (0x2D2) BIND_SYSC(sys_net_control), //723 (0x2D3) BIND_SYSC(sys_net_bnet_ioctl), //724 (0x2D4) BIND_SYSC(sys_net_bnet_sysctl), //725 (0x2D5) BIND_SYSC(sys_net_eurus_post_command), //726 (0x2D6) uns_func, uns_func, uns_func, //727-729 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //730-739 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //740-749 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //750-759 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //760-769 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //770-779 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //780-789 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //790-799 UNS BIND_SYSC(sys_fs_test), //800 (0x320) BIND_SYSC(sys_fs_open), //801 (0x321) BIND_SYSC(sys_fs_read), //802 (0x322) BIND_SYSC(sys_fs_write), //803 (0x323) BIND_SYSC(sys_fs_close), //804 (0x324) BIND_SYSC(sys_fs_opendir), //805 (0x325) BIND_SYSC(sys_fs_readdir), //806 (0x326) BIND_SYSC(sys_fs_closedir), //807 (0x327) BIND_SYSC(sys_fs_stat), //808 (0x328) BIND_SYSC(sys_fs_fstat), //809 (0x329) BIND_SYSC(sys_fs_link), //810 (0x32A) BIND_SYSC(sys_fs_mkdir), //811 (0x32B) BIND_SYSC(sys_fs_rename), //812 (0x32C) BIND_SYSC(sys_fs_rmdir), //813 (0x32D) BIND_SYSC(sys_fs_unlink), //814 (0x32E) BIND_SYSC(sys_fs_utime), //815 (0x32F) BIND_SYSC(sys_fs_access), //816 (0x330) BIND_SYSC(sys_fs_fcntl), //817 (0x331) BIND_SYSC(sys_fs_lseek), //818 (0x332) BIND_SYSC(sys_fs_fdatasync), //819 (0x333) BIND_SYSC(sys_fs_fsync), //820 (0x334) BIND_SYSC(sys_fs_fget_block_size), //821 (0x335) BIND_SYSC(sys_fs_get_block_size), //822 (0x336) BIND_SYSC(sys_fs_acl_read), //823 (0x337) BIND_SYSC(sys_fs_acl_write), //824 (0x338) BIND_SYSC(sys_fs_lsn_get_cda_size), //825 (0x339) BIND_SYSC(sys_fs_lsn_get_cda), //826 (0x33A) BIND_SYSC(sys_fs_lsn_lock), //827 (0x33B) BIND_SYSC(sys_fs_lsn_unlock), //828 (0x33C) BIND_SYSC(sys_fs_lsn_read), //829 (0x33D) BIND_SYSC(sys_fs_lsn_write), //830 (0x33E) BIND_SYSC(sys_fs_truncate), //831 (0x33F) BIND_SYSC(sys_fs_ftruncate), //832 (0x340) BIND_SYSC(sys_fs_symbolic_link), //833 (0x341) BIND_SYSC(sys_fs_chmod), //834 (0x342) BIND_SYSC(sys_fs_chown), //835 (0x343) BIND_SYSC(sys_fs_newfs), //836 (0x344) BIND_SYSC(sys_fs_mount), //837 (0x345) BIND_SYSC(sys_fs_unmount), //838 (0x346) NULL_FUNC(sys_fs_sync), //839 (0x347) BIND_SYSC(sys_fs_disk_free), //840 (0x348) BIND_SYSC(sys_fs_get_mount_info_size), //841 (0x349) BIND_SYSC(sys_fs_get_mount_info), //842 (0x34A) NULL_FUNC(sys_fs_get_fs_info_size), //843 (0x34B) NULL_FUNC(sys_fs_get_fs_info), //844 (0x34C) BIND_SYSC(sys_fs_mapped_allocate), //845 (0x34D) BIND_SYSC(sys_fs_mapped_free), //846 (0x34E) BIND_SYSC(sys_fs_truncate2), //847 (0x34F) uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //848-853 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //854-859 UNS NULL_FUNC(sys_ss_get_cache_of_analog_sunset_flag), //860 (0x35C) AUTHID NULL_FUNC(sys_ss_protected_file_db), //861 ROOT BIND_SYSC(sys_ss_virtual_trm_manager), //862 ROOT BIND_SYSC(sys_ss_update_manager), //863 ROOT NULL_FUNC(sys_ss_sec_hw_framework), //864 DBG BIND_SYSC(sys_ss_random_number_generator), //865 (0x361) BIND_SYSC(sys_ss_secure_rtc), //866 ROOT BIND_SYSC(sys_ss_appliance_info_manager), //867 ROOT BIND_SYSC(sys_ss_individual_info_manager), //868 ROOT / DBG AUTHID NULL_FUNC(sys_ss_factory_data_manager), //869 ROOT BIND_SYSC(sys_ss_get_console_id), //870 (0x366) BIND_SYSC(sys_ss_access_control_engine), //871 (0x367) DBG BIND_SYSC(sys_ss_get_open_psid), //872 (0x368) BIND_SYSC(sys_ss_get_cache_of_product_mode), //873 (0x369) BIND_SYSC(sys_ss_get_cache_of_flash_ext_flag), //874 (0x36A) BIND_SYSC(sys_ss_get_boot_device), //875 (0x36B) NULL_FUNC(sys_ss_disc_access_control), //876 (0x36C) null_func, //BIND_SYSC(sys_ss_~utoken_if), //877 (0x36D) ROOT NULL_FUNC(sys_ss_ad_sign), //878 (0x36E) NULL_FUNC(sys_ss_media_id), //879 (0x36F) NULL_FUNC(sys_deci3_open), //880 (0x370) NULL_FUNC(sys_deci3_create_event_path), //881 (0x371) NULL_FUNC(sys_deci3_close), //882 (0x372) NULL_FUNC(sys_deci3_send), //883 (0x373) NULL_FUNC(sys_deci3_receive), //884 (0x374) NULL_FUNC(sys_deci3_open2), //885 (0x375) uns_func, uns_func, uns_func, //886-888 UNS null_func,//BIND_SYSC(sys_...), //889 (0x379) ROOT NULL_FUNC(sys_deci3_initialize), //890 (0x37A) NULL_FUNC(sys_deci3_terminate), //891 (0x37B) NULL_FUNC(sys_deci3_debug_mode), //892 (0x37C) NULL_FUNC(sys_deci3_show_status), //893 (0x37D) NULL_FUNC(sys_deci3_echo_test), //894 (0x37E) NULL_FUNC(sys_deci3_send_dcmp_packet), //895 (0x37F) NULL_FUNC(sys_deci3_dump_cp_register), //896 (0x380) NULL_FUNC(sys_deci3_dump_cp_buffer), //897 (0x381) uns_func, //898 (0x382) UNS NULL_FUNC(sys_deci3_test), //899 (0x383) NULL_FUNC(sys_dbg_stop_processes), //900 (0x384) NULL_FUNC(sys_dbg_continue_processes), //901 (0x385) NULL_FUNC(sys_dbg_stop_threads), //902 (0x386) NULL_FUNC(sys_dbg_continue_threads), //903 (0x387) BIND_SYSC(sys_dbg_read_process_memory), //904 (0x388) BIND_SYSC(sys_dbg_write_process_memory), //905 (0x389) NULL_FUNC(sys_dbg_read_thread_register), //906 (0x38A) NULL_FUNC(sys_dbg_write_thread_register), //907 (0x38B) NULL_FUNC(sys_dbg_get_process_list), //908 (0x38C) NULL_FUNC(sys_dbg_get_thread_list), //909 (0x38D) NULL_FUNC(sys_dbg_get_thread_info), //910 (0x38E) NULL_FUNC(sys_dbg_spu_thread_read_from_ls), //911 (0x38F) NULL_FUNC(sys_dbg_spu_thread_write_to_ls), //912 (0x390) NULL_FUNC(sys_dbg_kill_process), //913 (0x391) NULL_FUNC(sys_dbg_get_process_info), //914 (0x392) NULL_FUNC(sys_dbg_set_run_control_bit_to_spu), //915 (0x393) NULL_FUNC(sys_dbg_spu_thread_get_exception_cause), //916 (0x394) NULL_FUNC(sys_dbg_create_kernel_event_queue), //917 (0x395) NULL_FUNC(sys_dbg_read_kernel_event_queue), //918 (0x396) NULL_FUNC(sys_dbg_destroy_kernel_event_queue), //919 (0x397) NULL_FUNC(sys_dbg_get_process_event_ctrl_flag), //920 (0x398) NULL_FUNC(sys_dbg_set_process_event_cntl_flag), //921 (0x399) NULL_FUNC(sys_dbg_get_spu_thread_group_event_cntl_flag),//922 (0x39A) NULL_FUNC(sys_dbg_set_spu_thread_group_event_cntl_flag),//923 (0x39B) NULL_FUNC(sys_dbg_get_module_list), //924 (0x39C) NULL_FUNC(sys_dbg_get_raw_spu_list), //925 (0x39D) NULL_FUNC(sys_dbg_initialize_scratch_executable_area), //926 (0x39E) NULL_FUNC(sys_dbg_terminate_scratch_executable_area), //927 (0x3A0) NULL_FUNC(sys_dbg_initialize_scratch_data_area), //928 (0x3A1) NULL_FUNC(sys_dbg_terminate_scratch_data_area), //929 (0x3A2) NULL_FUNC(sys_dbg_get_user_memory_stat), //930 (0x3A3) NULL_FUNC(sys_dbg_get_shared_memory_attribute_list), //931 (0x3A4) NULL_FUNC(sys_dbg_get_mutex_list), //932 (0x3A4) NULL_FUNC(sys_dbg_get_mutex_information), //933 (0x3A5) NULL_FUNC(sys_dbg_get_cond_list), //934 (0x3A6) NULL_FUNC(sys_dbg_get_cond_information), //935 (0x3A7) NULL_FUNC(sys_dbg_get_rwlock_list), //936 (0x3A8) NULL_FUNC(sys_dbg_get_rwlock_information), //937 (0x3A9) NULL_FUNC(sys_dbg_get_lwmutex_list), //938 (0x3AA) NULL_FUNC(sys_dbg_get_address_from_dabr), //939 (0x3AB) NULL_FUNC(sys_dbg_set_address_to_dabr), //940 (0x3AC) NULL_FUNC(sys_dbg_get_lwmutex_information), //941 (0x3AD) NULL_FUNC(sys_dbg_get_event_queue_list), //942 (0x3AE) NULL_FUNC(sys_dbg_get_event_queue_information), //943 (0x3AF) NULL_FUNC(sys_dbg_initialize_ppu_exception_handler), //944 (0x3B0) NULL_FUNC(sys_dbg_finalize_ppu_exception_handler), //945 (0x3B1) DBG NULL_FUNC(sys_dbg_get_semaphore_list), //946 (0x3B2) NULL_FUNC(sys_dbg_get_semaphore_information), //947 (0x3B3) NULL_FUNC(sys_dbg_get_kernel_thread_list), //948 (0x3B4) NULL_FUNC(sys_dbg_get_kernel_thread_info), //949 (0x3B5) NULL_FUNC(sys_dbg_get_lwcond_list), //950 (0x3B6) NULL_FUNC(sys_dbg_get_lwcond_information), //951 (0x3B7) NULL_FUNC(sys_dbg_create_scratch_data_area_ext), //952 (0x3B8) NULL_FUNC(sys_dbg_vm_get_page_information), //953 (0x3B9) NULL_FUNC(sys_dbg_vm_get_info), //954 (0x3BA) NULL_FUNC(sys_dbg_enable_floating_point_enabled_exception),//955 (0x3BB) NULL_FUNC(sys_dbg_disable_floating_point_enabled_exception),//956 (0x3BC) NULL_FUNC(sys_dbg_get_process_memory_container_information),//957 (0x3BD) uns_func, //958 (0x3BE) UNS null_func,//BIND_SYSC(sys_dbg_...), //959 (0x3BF) NULL_FUNC(sys_control_performance_monitor), //960 (0x3C0) NULL_FUNC(sys_performance_monitor_hidden), //961 (0x3C1) NULL_FUNC(sys_performance_monitor_bookmark), //962 (0x3C2) NULL_FUNC(sys_lv1_pc_trace_create), //963 (0x3C3) NULL_FUNC(sys_lv1_pc_trace_start), //964 (0x3C4) NULL_FUNC(sys_lv1_pc_trace_stop), //965 (0x3C5) NULL_FUNC(sys_lv1_pc_trace_get_status), //966 (0x3C6) NULL_FUNC(sys_lv1_pc_trace_destroy), //967 (0x3C7) NULL_FUNC(sys_rsx_trace_ioctl), //968 (0x3C8) null_func,//BIND_SYSC(sys_dbg_...), //969 (0x3C9) NULL_FUNC(sys_dbg_get_event_flag_list), //970 (0x3CA) NULL_FUNC(sys_dbg_get_event_flag_information), //971 (0x3CB) null_func,//BIND_SYSC(sys_dbg_...), //972 (0x3CC) uns_func,//BIND_SYSC(sys_dbg_...), //973 (0x3CD) null_func,//BIND_SYSC(sys_dbg_...), //974 (0x3CE) NULL_FUNC(sys_dbg_read_spu_thread_context2), //975 (0x3CF) BIND_SYSC(sys_crypto_engine_create), //976 (0x3D0) BIND_SYSC(sys_crypto_engine_destroy), //977 (0x3D1) NULL_FUNC(sys_crypto_engine_hasher_prepare), //978 (0x3D2) ROOT NULL_FUNC(sys_crypto_engine_hasher_run), //979 (0x3D3) NULL_FUNC(sys_crypto_engine_hasher_get_hash), //980 (0x3D4) NULL_FUNC(sys_crypto_engine_cipher_prepare), //981 (0x3D5) ROOT NULL_FUNC(sys_crypto_engine_cipher_run), //982 (0x3D6) NULL_FUNC(sys_crypto_engine_cipher_get_hash), //983 (0x3D7) BIND_SYSC(sys_crypto_engine_random_generate), //984 (0x3D8) NULL_FUNC(sys_dbg_get_console_type), //985 (0x3D9) ROOT null_func,//BIND_SYSC(sys_dbg_...), //986 (0x3DA) ROOT DBG null_func,//BIND_SYSC(sys_dbg_...), //987 (0x3DB) ROOT null_func,//BIND_SYSC(sys_dbg_..._ppu_exception_handler) //988 (0x3DC) null_func,//BIND_SYSC(sys_dbg_...), //989 (0x3DD) uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //990-998 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //999-1007 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //1008-1016 UNS uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, uns_func, //1020-1023 UNS }; #undef BIND_SYSC #undef NULL_FUNC // TODO: more enums enum CellAdecError : u32; enum CellAtracError : u32; enum CellAtracMultiError : u32; enum CellAudioError : u32; enum CellAudioOutError : u32; enum CellAudioInError : u32; enum CellVideoOutError : u32; enum CellSpursCoreError : u32; enum CellSpursPolicyModuleError : u32; enum CellSpursTaskError : u32; enum CellSpursJobError : u32; enum CellSyncError : u32; enum CellGameError : u32; enum CellGameDataError : u32; enum CellDiscGameError : u32; enum CellHddGameError : u32; enum SceNpTrophyError : u32; enum SceNpError : u32; template constexpr auto formatter_of = std::make_pair(EnumMin, &fmt_class_string::format); const std::map s_error_codes_formatting_by_type { formatter_of<0x80610000, CellAdecError>, formatter_of<0x80612100, CellAdecError>, formatter_of<0x80610300, CellAtracError>, formatter_of<0x80610b00, CellAtracMultiError>, formatter_of<0x80310700, CellAudioError>, formatter_of<0x8002b240, CellAudioOutError>, formatter_of<0x8002b260, CellAudioInError>, formatter_of<0x8002b220, CellVideoOutError>, formatter_of<0x80410100, CellSyncError>, formatter_of<0x80410700, CellSpursCoreError>, formatter_of<0x80410800, CellSpursPolicyModuleError>, formatter_of<0x80410900, CellSpursTaskError>, formatter_of<0x80410A00, CellSpursJobError>, formatter_of<0x8002cb00, CellGameError>, formatter_of<0x8002b600, CellGameDataError>, formatter_of<0x8002bd00, CellDiscGameError>, formatter_of<0x8002ba00, CellHddGameError>, formatter_of<0x80022900, SceNpTrophyError>, formatter_of<0x80029500, SceNpError>, }; template<> void fmt_class_string::format(std::string& out, u64 arg) { // Test if can be formatted by this formatter const bool lv2_cell_error = (arg >> 8) == 0x800100u; if (!lv2_cell_error) { // Format by external enum formatters auto upper = s_error_codes_formatting_by_type.upper_bound(arg); if (upper == s_error_codes_formatting_by_type.begin()) { // Format as unknown by another enum formatter upper->second(out, arg); return; } // Find the formatter whose base is the highest that is not more than arg const auto found = std::prev(upper); found->second(out, arg); return; } format_enum(out, arg, [](auto error) { switch (error) { STR_CASE(CELL_EAGAIN); STR_CASE(CELL_EINVAL); STR_CASE(CELL_ENOSYS); STR_CASE(CELL_ENOMEM); STR_CASE(CELL_ESRCH); STR_CASE(CELL_ENOENT); STR_CASE(CELL_ENOEXEC); STR_CASE(CELL_EDEADLK); STR_CASE(CELL_EPERM); STR_CASE(CELL_EBUSY); STR_CASE(CELL_ETIMEDOUT); STR_CASE(CELL_EABORT); STR_CASE(CELL_EFAULT); STR_CASE(CELL_ENOCHILD); STR_CASE(CELL_ESTAT); STR_CASE(CELL_EALIGN); STR_CASE(CELL_EKRESOURCE); STR_CASE(CELL_EISDIR); STR_CASE(CELL_ECANCELED); STR_CASE(CELL_EEXIST); STR_CASE(CELL_EISCONN); STR_CASE(CELL_ENOTCONN); STR_CASE(CELL_EAUTHFAIL); STR_CASE(CELL_ENOTMSELF); STR_CASE(CELL_ESYSVER); STR_CASE(CELL_EAUTHFATAL); STR_CASE(CELL_EDOM); STR_CASE(CELL_ERANGE); STR_CASE(CELL_EILSEQ); STR_CASE(CELL_EFPOS); STR_CASE(CELL_EINTR); STR_CASE(CELL_EFBIG); STR_CASE(CELL_EMLINK); STR_CASE(CELL_ENFILE); STR_CASE(CELL_ENOSPC); STR_CASE(CELL_ENOTTY); STR_CASE(CELL_EPIPE); STR_CASE(CELL_EROFS); STR_CASE(CELL_ESPIPE); STR_CASE(CELL_E2BIG); STR_CASE(CELL_EACCES); STR_CASE(CELL_EBADF); STR_CASE(CELL_EIO); STR_CASE(CELL_EMFILE); STR_CASE(CELL_ENODEV); STR_CASE(CELL_ENOTDIR); STR_CASE(CELL_ENXIO); STR_CASE(CELL_EXDEV); STR_CASE(CELL_EBADMSG); STR_CASE(CELL_EINPROGRESS); STR_CASE(CELL_EMSGSIZE); STR_CASE(CELL_ENAMETOOLONG); STR_CASE(CELL_ENOLCK); STR_CASE(CELL_ENOTEMPTY); STR_CASE(CELL_ENOTSUP); STR_CASE(CELL_EFSSPECIFIC); STR_CASE(CELL_EOVERFLOW); STR_CASE(CELL_ENOTMOUNTED); STR_CASE(CELL_ENOTSDATA); STR_CASE(CELL_ESDKVER); STR_CASE(CELL_ENOLICDISC); STR_CASE(CELL_ENOLICENT); } return unknown; }); } stx::init_lock acquire_lock(stx::init_mutex& mtx, ppu_thread* ppu) { if (!ppu) { ppu = ensure(cpu_thread::get_current()); } return mtx.init([](int invoke_count, const stx::init_lock&, ppu_thread* ppu) { if (!invoke_count) { // Sleep before waiting on lock lv2_obj::sleep(*ppu); } else { // Wake up after acquistion or failure to acquire ppu->check_state(); } }, ppu); } stx::access_lock acquire_access_lock(stx::init_mutex& mtx, ppu_thread* ppu) { if (!ppu) { ppu = ensure(cpu_thread::get_current()); } // TODO: Check if needs to wait return mtx.access(); } stx::reset_lock acquire_reset_lock(stx::init_mutex& mtx, ppu_thread* ppu) { if (!ppu) { ppu = ensure(cpu_thread::get_current()); } return mtx.reset([](int invoke_count, const stx::init_lock&, ppu_thread* ppu) { if (!invoke_count) { // Sleep before waiting on lock lv2_obj::sleep(*ppu); } else { // Wake up after acquistion or failure to acquire ppu->check_state(); } }, ppu); } class ppu_syscall_usage { // Internal buffer std::string m_stats; u64 m_old_stat[1024]{}; public: // Public info collection buffers atomic_t stat[1024]{}; void print_stats(bool force_print) noexcept { std::multimap> usage; for (u32 i = 0; i < 1024; i++) { if (u64 v = stat[i]; m_old_stat[i] != v || (force_print && v)) { // Only add syscalls with non-zero usage counter and only if caught new calls since last print usage.emplace(v, i); m_old_stat[i] = v; } } m_stats.clear(); for (auto&& pair : usage) { fmt::append(m_stats, u8"\n\t⁂ %s [%u]", ppu_get_syscall_name(pair.second), pair.first); } if (!m_stats.empty()) { ppu_log.notice("PPU Syscall Usage Stats:%s", m_stats); } } void operator()() { bool was_paused = false; u64 sleep_until = get_system_time(); for (u32 i = 1; thread_ctrl::state() != thread_state::aborting; i++) { thread_ctrl::wait_until(&sleep_until, 1'000'000); const bool is_paused = Emu.IsPaused(); // Force-print all if paused const bool force_print = is_paused && !was_paused; if (force_print || i % 10 == 0) { was_paused = is_paused; print_stats(force_print); } } } ~ppu_syscall_usage() { print_stats(true); } static constexpr auto thread_name = "PPU Syscall Usage Thread"sv; }; extern void ppu_execute_syscall(ppu_thread& ppu, u64 code) { if (g_cfg.core.ppu_decoder == ppu_decoder_type::llvm) { code = ppu.gpr[11]; } if (code < g_ppu_syscall_table.size()) { g_fxo->get>().stat[code]++; if (const auto func = g_ppu_syscall_table[code].first) { #ifdef __APPLE__ pthread_jit_write_protect_np(false); #endif func(ppu, {}, vm::_ptr(ppu.cia), nullptr); ppu_log.trace("Syscall '%s' (%llu) finished, r3=0x%llx", ppu_syscall_code(code), code, ppu.gpr[3]); #ifdef __APPLE__ pthread_jit_write_protect_np(true); // No need to flush cache lines after a syscall, since we didn't generate any code. #endif return; } } fmt::throw_exception("Invalid syscall number (%llu)", code); } extern ppu_intrp_func_t ppu_get_syscall(u64 code) { if (code < g_ppu_syscall_table.size()) { return g_ppu_syscall_table[code].first; } return nullptr; } std::string ppu_get_syscall_name(u64 code) { if (code < g_ppu_syscall_table.size() && !g_ppu_syscall_table[code].second.empty()) { return std::string(g_ppu_syscall_table[code].second); } return fmt::format("syscall_%u", code); } DECLARE(lv2_obj::g_mutex); DECLARE(lv2_obj::g_ppu){}; DECLARE(lv2_obj::g_pending){}; DECLARE(lv2_obj::g_priority_order_tag){}; thread_local DECLARE(lv2_obj::g_to_notify){}; thread_local DECLARE(lv2_obj::g_postpone_notify_barrier){}; thread_local DECLARE(lv2_obj::g_to_awake); // Scheduler queue for timeouts (wait until -> thread) static std::deque> g_waiting; // Threads which must call lv2_obj::sleep before the scheduler starts static std::deque g_to_sleep; static atomic_t g_scheduler_ready = false; static atomic_t s_yield_frequency = 0; static atomic_t s_max_allowed_yield_tsc = 0; static u64 s_last_yield_tsc = 0; atomic_t g_lv2_preempts_taken = 0; namespace cpu_counter { void remove(cpu_thread*) noexcept; } std::string lv2_obj::name64(u64 name_u64) { const auto ptr = reinterpret_cast(&name_u64); // NTS string, ignore invalid/newline characters // Example: "lv2\n\0tx" will be printed as "lv2" std::string str{ptr, std::find(ptr, ptr + 7, '\0')}; str.erase(std::remove_if(str.begin(), str.end(), [](uchar c){ return !std::isprint(c); }), str.end()); return str; } bool lv2_obj::sleep(cpu_thread& cpu, const u64 timeout) { // Should already be performed when using this flag if (!g_postpone_notify_barrier) { prepare_for_sleep(cpu); } if (cpu.get_class() == thread_class::ppu) { if (u32 addr = static_cast(cpu).res_notify) { static_cast(cpu).res_notify = 0; if (static_cast(cpu).res_notify_time != vm::reservation_notifier_count_index(addr).second) { // Ignore outdated notification request } else if (auto it = std::find(g_to_notify, std::end(g_to_notify), std::add_pointer_t{}); it != std::end(g_to_notify)) { *it++ = vm::reservation_notifier_notify(addr, true); if (it < std::end(g_to_notify)) { // Null-terminate the list if it ends before last slot *it = nullptr; } } else { vm::reservation_notifier_notify(addr); } } } bool result = false; const u64 current_time = get_guest_system_time(); { std::lock_guard lock{g_mutex}; result = sleep_unlocked(cpu, timeout, current_time); if (!g_to_awake.empty()) { // Schedule pending entries awake_unlocked({}); } schedule_all(current_time); } if (!g_postpone_notify_barrier) { notify_all(); } g_to_awake.clear(); return result; } bool lv2_obj::awake(cpu_thread* thread, s32 prio) { if (ppu_thread* ppu = cpu_thread::get_current()) { if (u32 addr = ppu->res_notify) { ppu->res_notify = 0; if (ppu->res_notify_time != vm::reservation_notifier_count_index(addr).second) { // Ignore outdated notification request } else if (auto it = std::find(g_to_notify, std::end(g_to_notify), std::add_pointer_t{}); it != std::end(g_to_notify)) { *it++ = vm::reservation_notifier_notify(addr, true); if (it < std::end(g_to_notify)) { // Null-terminate the list if it ends before last slot *it = nullptr; } } else { vm::reservation_notifier_notify(addr); } } } bool result = false; { std::lock_guard lock(g_mutex); result = awake_unlocked(thread, prio); schedule_all(); } if (result) { if (auto cpu = cpu_thread::get_current(); cpu && cpu->is_paused()) { vm::temporary_unlock(); } } if (!g_postpone_notify_barrier) { notify_all(); } return result; } bool lv2_obj::yield(cpu_thread& thread) { if (auto ppu = thread.try_get()) { ppu->raddr = 0; // Clear reservation if (!atomic_storage::load(ppu->next_ppu)) { // Nothing to do return false; } } return awake(&thread, yield_cmd); } bool lv2_obj::sleep_unlocked(cpu_thread& thread, u64 timeout, u64 current_time) { const u64 start_time = current_time; auto on_to_sleep_update = [&]() { if (g_to_sleep.size() > 5u) { ppu_log.warning("Threads (%d)", g_to_sleep.size()); } else if (!g_to_sleep.empty()) { // In case there is a deadlock (PPU threads not sleeping) // Print-out their IDs for further inspection (focus at 5 at max for now to avoid log spam) std::string out = fmt::format("Threads (%d):", g_to_sleep.size()); for (auto thread : g_to_sleep) { fmt::append(out, " 0x%x,", thread->id); } out.resize(out.size() - 1); ppu_log.warning("%s", out); } else { ppu_log.warning("Final Thread"); // All threads are ready, wake threads Emu.CallFromMainThread([] { if (Emu.IsStarting()) { // It uses lv2_obj::g_mutex, run it on main thread Emu.FinalizeRunRequest(); } }); } }; bool return_val = true; if (auto ppu = thread.try_get()) { ppu_log.trace("sleep() - waiting (%zu)", g_pending); if (ppu->ack_suspend) { ppu->ack_suspend = false; g_pending--; } if (std::exchange(ppu->cancel_sleep, 0) == 2) { // Signal that the underlying LV2 operation has been cancelled and replaced with a short yield return_val = false; } const auto [_, ok] = ppu->state.fetch_op([&](bs_t& val) { if (!(val & cpu_flag::signal)) { val += cpu_flag::suspend; // Flag used for forced timeout notification ensure(!timeout || !(val & cpu_flag::notify)); return true; } return false; }); if (!ok) { ppu_log.fatal("sleep() failed (signaled) (%s)", ppu->current_function); return false; } // Find and remove the thread if (!unqueue(g_ppu, ppu, &ppu_thread::next_ppu)) { if (auto it = std::find(g_to_sleep.begin(), g_to_sleep.end(), ppu); it != g_to_sleep.end()) { g_to_sleep.erase(it); ppu->start_time = start_time; on_to_sleep_update(); return true; } // Already sleeping ppu_log.trace("sleep(): called on already sleeping thread."); return false; } ppu->raddr = 0; // Clear reservation ppu->start_time = start_time; ppu->end_time = timeout ? start_time + std::min(timeout, ~start_time) : u64{umax}; } else if (auto spu = thread.try_get()) { if (auto it = std::find(g_to_sleep.begin(), g_to_sleep.end(), spu); it != g_to_sleep.end()) { g_to_sleep.erase(it); on_to_sleep_update(); return true; } return false; } if (timeout) { const u64 wait_until = start_time + std::min(timeout, ~start_time); // Register timeout if necessary for (auto it = g_waiting.cbegin(), end = g_waiting.cend();; it++) { if (it == end || it->first > wait_until) { g_waiting.emplace(it, wait_until, &thread); break; } } } return return_val; } bool lv2_obj::awake_unlocked(cpu_thread* cpu, s32 prio) { // Check thread type AUDIT(!cpu || cpu->get_class() == thread_class::ppu); bool push_first = false; switch (prio) { default: { // Priority set auto set_prio = [](atomic_t& prio, s32 value, bool increment_order_last, bool increment_order_first) { s64 tag = 0; if (increment_order_first || increment_order_last) { tag = ++g_priority_order_tag; } prio.atomic_op([&](ppu_thread::ppu_prio_t& prio) { prio.prio = value; if (increment_order_first) { prio.order = ~tag; } else if (increment_order_last) { prio.order = tag; } }); }; const s64 old_prio = static_cast(cpu)->prio.load().prio; // If priority is the same, push ONPROC/RUNNABLE thread to the back of the priority list if it is not the current thread if (old_prio == prio && cpu == cpu_thread::get_current()) { set_prio(static_cast(cpu)->prio, prio, false, false); return true; } if (!unqueue(g_ppu, static_cast(cpu), &ppu_thread::next_ppu)) { set_prio(static_cast(cpu)->prio, prio, old_prio > prio, old_prio < prio); return true; } set_prio(static_cast(cpu)->prio, prio, false, false); break; } case yield_cmd: { usz i = 0; // Yield command for (auto ppu_next = &g_ppu;; i++) { const auto ppu = +*ppu_next; if (!ppu) { return false; } if (ppu == cpu) { auto ppu2 = ppu->next_ppu; if (!ppu2 || ppu2->prio.load().prio != ppu->prio.load().prio) { // Empty 'same prio' threads list return false; } for (i++;; i++) { const auto next = ppu2->next_ppu; if (!next || next->prio.load().prio != ppu->prio.load().prio) { break; } ppu2 = next; } // Rotate current thread to the last position of the 'same prio' threads list // Exchange forward pointers *ppu_next = std::exchange(ppu->next_ppu, std::exchange(ppu2->next_ppu, ppu)); if (i < g_cfg.core.ppu_threads + 0u) { // Threads were rotated, but no context switch was made return false; } ppu->start_time = get_guest_system_time(); break; } ppu_next = &ppu->next_ppu; } break; } case enqueue_cmd: { break; } } const auto emplace_thread = [push_first](cpu_thread* const cpu) { for (auto it = &g_ppu;;) { const auto next = +*it; if (next == cpu) { ppu_log.trace("sleep() - suspended (p=%zu)", g_pending); if (static_cast(cpu)->cancel_sleep == 1) { // The next sleep call of the thread is cancelled static_cast(cpu)->cancel_sleep = 2; } return false; } // Use priority, also preserve FIFO order if (!next || (push_first ? next->prio.load().prio >= static_cast(cpu)->prio.load().prio : next->prio.load().prio > static_cast(cpu)->prio.load().prio)) { atomic_storage::release(static_cast(cpu)->next_ppu, next); atomic_storage::release(*it, static_cast(cpu)); break; } it = &next->next_ppu; } // Unregister timeout if necessary for (auto it = g_waiting.cbegin(), end = g_waiting.cend(); it != end; it++) { if (it->second == cpu) { g_waiting.erase(it); break; } } ppu_log.trace("awake(): %s", cpu->id); return true; }; // Yield changed the queue before bool changed_queue = prio == yield_cmd; s32 lowest_new_priority = smax; const bool has_free_hw_thread_space = count_non_sleeping_threads().onproc_count < g_cfg.core.ppu_threads + 0u; if (cpu && prio != yield_cmd) { // Emplace current thread if (emplace_thread(cpu)) { changed_queue = true; lowest_new_priority = std::min(static_cast(cpu)->prio.load().prio, lowest_new_priority); } } else for (const auto _cpu : g_to_awake) { // Emplace threads from list if (emplace_thread(_cpu)) { changed_queue = true; lowest_new_priority = std::min(static_cast(_cpu)->prio.load().prio, lowest_new_priority); } } auto target = +g_ppu; usz i = 0; // Suspend threads if necessary for (usz thread_count = g_cfg.core.ppu_threads; target; target = target->next_ppu, i++) { if (i >= thread_count && cpu_flag::suspend - target->state) { ppu_log.trace("suspend(): %s", target->id); target->ack_suspend = true; g_pending++; ensure(!target->state.test_and_set(cpu_flag::suspend)); if (is_paused(target->state - cpu_flag::suspend)) { target->state.notify_one(); } } } const auto current_ppu = cpu_thread::get_current(); // Remove pending if necessary if (current_ppu) { if (std::exchange(current_ppu->ack_suspend, false)) { ensure(g_pending)--; } } // In real PS3 (it seems), when a thread with a higher priority than the caller is signaled and - // - that there is available space on the running queue for the other hardware thread to start // It prioritizes signaled thread - caller's hardware thread switches instantly to the new thread code // While signaling to the other hardware thread to execute the caller's code. // Resulting in a delay to the caller after such thread is signaled if (current_ppu && changed_queue && has_free_hw_thread_space) { if (current_ppu->prio.load().prio > lowest_new_priority) { const bool is_create_thread = current_ppu->gpr[11] == 0x35; // When not being set to All timers - activate only for sys_ppu_thread_start if (is_create_thread || g_cfg.core.sleep_timers_accuracy == sleep_timers_accuracy_level::_all_timers) { if (!current_ppu->state.test_and_set(cpu_flag::yield) || current_ppu->hw_sleep_time != 0) { current_ppu->hw_sleep_time += (is_create_thread ? 51 : 35); } else { current_ppu->hw_sleep_time = 30000; // In addition to another flag's use (TODO: Refactor and clean this) } } } } return changed_queue; } void lv2_obj::cleanup() { g_ppu = nullptr; g_scheduler_ready = false; g_to_sleep.clear(); g_waiting.clear(); g_pending = 0; s_yield_frequency = 0; } void lv2_obj::schedule_all(u64 current_time) { auto it = std::find(g_to_notify, std::end(g_to_notify), std::add_pointer_t{}); if (!g_pending && g_scheduler_ready) { auto target = +g_ppu; // Wake up threads for (usz x = g_cfg.core.ppu_threads; target && x; target = target->next_ppu, x--) { if (target->state & cpu_flag::suspend) { ppu_log.trace("schedule(): %s", target->id); // Remove yield if it was sleeping until now const bs_t remove_yield = target->start_time == 0 ? +cpu_flag::suspend : (cpu_flag::yield + cpu_flag::preempt); target->start_time = 0; if ((target->state.fetch_op(AOFN(x += cpu_flag::signal, x -= cpu_flag::suspend, x-= remove_yield, void())) & (cpu_flag::wait + cpu_flag::signal)) != cpu_flag::wait) { continue; } if (it == std::end(g_to_notify)) { // Out of notification slots, notify locally (resizable container is not worth it) target->state.notify_one(); } else { *it++ = &target->state; } } } } // Check registered timeouts while (!g_waiting.empty()) { const auto pair = &g_waiting.front(); if (!current_time) { current_time = get_guest_system_time(); } if (pair->first <= current_time) { const auto target = pair->second; g_waiting.pop_front(); if (target != cpu_thread::get_current()) { // Change cpu_thread::state for the lightweight notification to work ensure(!target->state.test_and_set(cpu_flag::notify)); // Otherwise notify it to wake itself if (it == std::end(g_to_notify)) { // Out of notification slots, notify locally (resizable container is not worth it) target->state.notify_one(); } else { *it++ = &target->state; } } } else { // The list is sorted so assume no more timeouts break; } } if (it < std::end(g_to_notify)) { // Null-terminate the list if it ends before last slot *it = nullptr; } if (const u64 freq = s_yield_frequency) { const u64 tsc = utils::get_tsc(); const u64 last_tsc = s_last_yield_tsc; if (tsc >= last_tsc && tsc <= s_max_allowed_yield_tsc && tsc - last_tsc >= freq) { auto target = +g_ppu; cpu_thread* cpu = nullptr; for (usz x = g_cfg.core.ppu_threads;; target = target->next_ppu, x--) { if (!target || !x) { if (g_ppu && cpu_flag::preempt - g_ppu->state) { // Don't be picky, pick up any running PPU thread even it has a wait flag cpu = g_ppu; } // TODO: If this case is common enough it may be valuable to iterate over all CPU threads to find a perfect candidate (one without a wait or suspend flag) else if (auto current = cpu_thread::get_current(); current && cpu_flag::suspend - current->state) { // May be an SPU or RSX thread, use them as a last resort cpu = current; } break; } if (target->state.none_of(cpu_flag::preempt + cpu_flag::wait)) { cpu = target; break; } } if (cpu && cpu_flag::preempt - cpu->state && !cpu->state.test_and_set(cpu_flag::preempt)) { s_last_yield_tsc = tsc; g_lv2_preempts_taken.release(g_lv2_preempts_taken.load() + 1); // Has a minor race but performance is more important rsx::set_rsx_yield_flag(); } } } } void lv2_obj::make_scheduler_ready() { g_scheduler_ready.release(true); lv2_obj::awake_all(); } std::pair lv2_obj::ppu_state(ppu_thread* ppu, bool lock_idm, bool lock_lv2) { std::optional opt_lock[2]; if (lock_idm) { opt_lock[0].emplace(id_manager::g_mutex); } if (!Emu.IsReady() ? ppu->state.all_of(cpu_flag::stop) : ppu->stop_flag_removal_protection) { return { PPU_THREAD_STATUS_IDLE, 0}; } switch (ppu->joiner) { case ppu_join_status::zombie: return { PPU_THREAD_STATUS_ZOMBIE, 0}; case ppu_join_status::exited: return { PPU_THREAD_STATUS_DELETED, 0}; default: break; } if (lock_lv2) { opt_lock[1].emplace(lv2_obj::g_mutex); } u32 pos = umax; u32 i = 0; for (auto target = +g_ppu; target; target = target->next_ppu, i++) { if (target == ppu) { pos = i; break; } } if (pos == umax) { if (!ppu->interrupt_thread_executing) { return { PPU_THREAD_STATUS_STOP, 0}; } return { PPU_THREAD_STATUS_SLEEP, 0 }; } if (pos >= g_cfg.core.ppu_threads + 0u) { return { PPU_THREAD_STATUS_RUNNABLE, pos }; } return { PPU_THREAD_STATUS_ONPROC, pos}; } void lv2_obj::set_future_sleep(cpu_thread* cpu) { g_to_sleep.emplace_back(cpu); } bool lv2_obj::is_scheduler_ready() { reader_lock lock(g_mutex); return g_to_sleep.empty(); } ppu_non_sleeping_count_t lv2_obj::count_non_sleeping_threads() { ppu_non_sleeping_count_t total{}; auto target = atomic_storage::load(g_ppu); for (usz thread_count = g_cfg.core.ppu_threads; target; target = atomic_storage::load(target->next_ppu)) { if (total.onproc_count == thread_count) { total.has_running = true; break; } total.onproc_count++; } return total; } void lv2_obj::set_yield_frequency(u64 freq, u64 max_allowed_tsc) { s_yield_frequency.release(freq); s_max_allowed_yield_tsc.release(max_allowed_tsc); g_lv2_preempts_taken.release(0); } #if defined(_MSC_VER) #define mwaitx_func #define waitpkg_func #else #define mwaitx_func __attribute__((__target__("mwaitx"))) #define waitpkg_func __attribute__((__target__("waitpkg"))) #endif #if defined(ARCH_X64) // Waits for a number of TSC clock cycles in power optimized state // Cstate is represented in bits [7:4]+1 cstate. So C0 requires bits [7:4] to be set to 0xf, C1 requires bits [7:4] to be set to 0. mwaitx_func static void __mwaitx(u32 cycles, u32 cstate) { constexpr u32 timer_enable = 0x2; // monitorx will wake if the cache line is written to. We don't want this, so place the monitor value on it's own cache line. alignas(64) u64 monitor_var{}; _mm_monitorx(&monitor_var, 0, 0); _mm_mwaitx(timer_enable, cstate, cycles); } // First bit indicates cstate, 0x0 for C.02 state (lower power) or 0x1 for C.01 state (higher power) waitpkg_func static void __tpause(u32 cycles, u32 cstate) { const u64 tsc = utils::get_tsc() + cycles; _tpause(cstate, tsc); } #endif bool lv2_obj::wait_timeout(u64 usec, ppu_thread* cpu, bool scale, bool is_usleep) { static_assert(u64{umax} / max_timeout >= 100, "max timeout is not valid for scaling"); const u64 start_time = get_system_time(); if (cpu) { if (u64 end_time = cpu->end_time; end_time != umax) { const u64 guest_start = get_guest_system_time(start_time); if (end_time <= guest_start) { return true; } usec = end_time - guest_start; scale = true; } } if (scale) { // Scale time usec = std::min(usec, u64{umax} / 100) * 100 / g_cfg.core.clocks_scale; } // Clamp usec = std::min(usec, max_timeout); u64 passed = 0; atomic_bs_t dummy{}; const auto& state = cpu ? cpu->state : dummy; auto old_state = +state; auto wait_for = [&](u64 timeout) { thread_ctrl::wait_on(state, old_state, timeout); }; for (;; old_state = state) { if (old_state & cpu_flag::notify) { // Timeout notification has been forced break; } if (old_state & cpu_flag::signal) { return false; } if (::is_stopped(old_state) || thread_ctrl::state() == thread_state::aborting) { return passed >= usec; } if (passed >= usec) { break; } u64 remaining = usec - passed; #ifdef __linux__ // NOTE: Assumption that timer initialization has succeeded constexpr u64 host_min_quantum = 10; #else // Host scheduler quantum for windows (worst case) // NOTE: On ps3 this function has very high accuracy constexpr u64 host_min_quantum = 500; #endif // TODO: Tune for other non windows operating sytems if (g_cfg.core.sleep_timers_accuracy < (is_usleep ? sleep_timers_accuracy_level::_usleep : sleep_timers_accuracy_level::_all_timers)) { wait_for(remaining); } else { if (remaining > host_min_quantum) { #ifdef __linux__ // With timerslack set low, Linux is precise for all values above wait_for(remaining); #else // Wait on multiple of min quantum for large durations to avoid overloading low thread cpus wait_for(remaining - (remaining % host_min_quantum)); #endif } // TODO: Determine best value for yield delay #if defined(ARCH_X64) else if (utils::has_appropriate_um_wait()) { const u32 us_in_tsc_clocks = ::narrow(remaining * (utils::get_tsc_freq() / 1000000ULL)); if (utils::has_waitpkg()) { __tpause(us_in_tsc_clocks, 0x1); } else { __mwaitx(us_in_tsc_clocks, 0xf0); } } #endif else { // Try yielding. May cause long wake latency but helps weaker CPUs a lot by alleviating resource pressure std::this_thread::yield(); } } passed = get_system_time() - start_time; } return true; } void lv2_obj::prepare_for_sleep(cpu_thread& cpu) { vm::temporary_unlock(cpu); cpu_counter::remove(&cpu); }