Removed use of std::exit and changed recomp runtime to exit normally, added helpers for getting recompiled args and returning values, added example of patch code calling native code

2023-11-12 14:47:38 -05:00 · 2023-11-12 14:47:38 -05:00 · 8188aee2c1
parent 398988a961
commit 8188aee2c1
21 changed files with 264 additions and 60 deletions
--- a/include/recomp_helpers.h
+++ b/include/recomp_helpers.h
@ -0,0 +1,46 @@
 #ifndef __RECOMP_HELPERS__
 #define __RECOMP_HELPERS__
 #include "recomp.h"
 template<int index, typename T>
 T _arg(uint8_t* rdram, recomp_context* ctx) {
    static_assert(index < 4, "Only args 0 through 3 supported");
    gpr raw_arg = (&ctx->r4)[index];
    if constexpr (std::is_same_v<T, float>) {
        if constexpr (index < 2) {
            static_assert(index != 1, "Floats in arg 1 not supported");
            return ctx->f12.fl;
        }
        else {
            return std::bit_cast<T>(raw_arg);
        }
    }
    else if constexpr (std::is_pointer_v<T>) {
        static_assert (!std::is_pointer_v<std::remove_pointer_t<T>>, "Double pointers not supported");
        return TO_PTR(std::remove_pointer_t<T>, raw_arg);
    }
    else if constexpr (std::is_integral_v<T>) {
        static_assert(sizeof(T) <= 4, "64-bit args not supported");
        return static_cast<T>(raw_arg);
    }
    else {
        // static_assert in else workaround
        [] <bool flag = false>() {
            static_assert(flag, "Unsupported type");
        }();
    }
 }
 template <typename T>
 void _return(recomp_context* ctx, T val) {
    static_assert(sizeof(T) <= 4 && "Only 32-bit value returns supported currently");
    if (std::is_same_v<T, float>) {
        ctx->f0.fl = val;
    }
    else if (std::is_integral_v<T> && sizeof(T) <= 4) {
        ctx->r2 = int32_t(val);
    }
 }
 #endif
--- a/include/recomp_ui.h
+++ b/include/recomp_ui.h
@ -21,5 +21,6 @@ enum class Menu {
 };
 void set_current_menu(Menu menu);
 void destroy_ui();
 #endif
--- a/include/rt64_layer.h
+++ b/include/rt64_layer.h
@ -76,6 +76,7 @@ DLLIMPORT void ProcessRDPList(void);
 DLLIMPORT void ProcessDList(void);
 DLLIMPORT void UpdateScreen(void);
 DLLIMPORT void ChangeWindow(void);
 DLLIMPORT void PluginShutdown(void);
 void set_rt64_hooks();
--- a/patches/Makefile
+++ b/patches/Makefile
@ -5,7 +5,7 @@ LD      := ld.lld
 OBJCOPY := llvm-objcopy
 CFLAGS   := -target mips -mips2 -mabi=32 -O2 -mno-odd-spreg -fomit-frame-pointer -G0 -Wall -Wextra -Wno-incompatible-library-redeclaration -Wno-unused-parameter -Wno-unknown-pragmas -Wno-unused-variable
-CPPFLAGS := -nostdinc -D_LANGUAGE_C -I ../../mm/include -I ../../mm/src -I ../../mm/build -I ../../mm/assets
+CPPFLAGS := -nostdinc -D_LANGUAGE_C -DMIPS -I ../../mm/include -I ../../mm/src -I ../../mm/build -I ../../mm/assets
 LDFLAGS  := -nostdlib -T patches.ld -T syms.ld
 BINFLAGS := -O binary
--- a/patches/cheats.c
+++ b/patches/cheats.c
@ -1,5 +1,4 @@
-#define Audio_PlaySfx play_sound
+#include "patches.h"
 #include "global.h"
 // Infinite magic
 s32 Magic_Consume(PlayState* play, s16 magicToConsume, s16 type) {
--- a/patches/culling.c
+++ b/patches/culling.c
@ -1,4 +1,4 @@
-#include "global.h"
+#include "patches.h"
 // Disable frustum culling for actors, but leave distance culling intact
 s32 func_800BA2FC(PlayState* play, Actor* actor, Vec3f* projectedPos, f32 projectedW) {
--- a/patches/input.c
+++ b/patches/input.c
@ -0,0 +1,24 @@
 #include "patches.h"
 #include "input.h"
 u32 sPlayerItemButtons[] = {
    BTN_B,
    BTN_CLEFT,
    BTN_CDOWN,
    BTN_CRIGHT,
 };
 // Return currently-pressed button, in order of priority B, CLEFT, CDOWN, CRIGHT.
 EquipSlot func_8082FDC4(void) {
    EquipSlot i;
    RecompInputs cur_inputs;
    recomp_get_item_inputs(&cur_inputs);
    for (i = 0; i < ARRAY_COUNT(sPlayerItemButtons); i++) {
        if (CHECK_BTN_ALL(cur_inputs.buttons, sPlayerItemButtons[i])) {
            break;
        }
    }
    return i;
 }
--- a/patches/input.h
+++ b/patches/input.h
@ -0,0 +1,35 @@
 #ifndef __INPUT_H__
 #define __INPUT_H__
 #ifdef MIPS
 #include "ultra64.h"
 #else
 #include "recomp.h"
 #endif
 #ifdef __cplusplus
 extern "C" {
 #endif
 typedef struct RecompInputs {
    u32 buttons;
    float x;
    float y;
 } RecompInputs;
 #ifdef MIPS
 #   define DECLARE_FUNC(type, name, ...) \
        type name(__VA_ARGS__);
 #else
 #   define DECLARE_FUNC(type, name, ...) \
        void name(uint8_t* rdram, recomp_context* ctx);
 #endif
 DECLARE_FUNC(void, recomp_get_item_inputs, RecompInputs* inputs);
 #ifdef __cplusplus
 }
 #endif
 #endif
--- a/patches/patches.h
+++ b/patches/patches.h
@ -0,0 +1,6 @@
 #ifndef __PATCHES_H__
 #define __PATCHES_H__
 #include "global.h"
 #endif
--- a/patches/syms.ld
+++ b/patches/syms.ld
@ -1,7 +1,13 @@
 __start = 0x80000000;
 /* Dummy addresses that get recompiled into function calls */
 recomp_get_item_inputs = 0x81000000;
 /* TODO pull these symbols from the elf file directly */
 Player_PostLimbDrawGameplay = 0x80128BD0;
 Player_DrawImpl = 0x801246F4;
 gRegEditor = 0x801f3f60;
-play_sound = 0x8019f0c8;
+Audio_PlaySfx = 0x8019f0c8;
 gSaveContext = 0x801ef670;
 Interface_SetHudVisibility = 0x8010ef68;
 Player_GetItemOnButton = 0x8012364C;
--- a/portultra/events.cpp
+++ b/portultra/events.cpp
@ -14,6 +14,7 @@
 #include "ultra64.h"
 #include "multilibultra.hpp"
 #include "recomp.h"
 #include "recomp_ui.h"
 #include "rsp.h"
 struct SpTaskAction {
@ -42,17 +43,14 @@ static struct {
        OSMesg msg = (OSMesg)0;
    } sp;
    struct {
        std::thread thread;
        PTR(OSMesgQueue) mq = NULLPTR;
        OSMesg msg = (OSMesg)0;
    } dp;
    struct {
        std::thread thread;
        PTR(OSMesgQueue) mq = NULLPTR;
        OSMesg msg = (OSMesg)0;
    } ai;
    struct {
        std::thread thread;
        PTR(OSMesgQueue) mq = NULLPTR;
        OSMesg msg = (OSMesg)0;
    } si;
@ -95,6 +93,9 @@ extern "C" void osViSetEvent(RDRAM_ARG PTR(OSMesgQueue) mq_, OSMesg msg, u32 ret
 uint64_t total_vis = 0;
 extern std::atomic_bool exited;
 void set_dummy_vi();
 void vi_thread_func() {
@ -106,7 +107,7 @@ void vi_thread_func() {
    int remaining_retraces = events_context.vi.retrace_count;
-    while (true) {
+    while (!exited) {
        // Determine the next VI time (more accurate than adding 16ms each VI interrupt)
        auto next = Multilibultra::get_start() + (total_vis * 1000000us) / (60 * Multilibultra::get_speed_multiplier());
        //if (next > std::chrono::system_clock::now()) {
@ -177,6 +178,7 @@ void RT64Init(uint8_t* rom, uint8_t* rdram, Multilibultra::WindowHandle window_h
 void RT64SendDL(uint8_t* rdram, const OSTask* task);
 void RT64UpdateScreen(uint32_t vi_origin);
 void RT64ChangeWindow();
 void RT64Shutdown();
 uint8_t dmem[0x1000];
 uint16_t rspReciprocals[512];
@ -225,10 +227,14 @@ void task_thread_func(uint8_t* rdram, uint8_t* rom, std::atomic_flag* thread_rea
    thread_ready->test_and_set();
    thread_ready->notify_all();
-    while (1) {
+    while (true) {
        // Wait until an RSP task has been sent
        events_context.sp_task.wait(nullptr);
        if (exited) {
            return;
        }
        // Retrieve the task pointer and clear the pending RSP task
        OSTask* task = events_context.sp_task;
        events_context.sp_task.store(nullptr);
@ -265,7 +271,7 @@ void gfx_thread_func(uint8_t* rdram, uint8_t* rom, std::atomic_flag* thread_read
    thread_ready->test_and_set();
    thread_ready->notify_all();
-    while (true) {
+    while (!exited) {
        // Try to pull an action from the queue
        Action action;
        if (events_context.action_queue.wait_dequeue_timed(action, 1ms)) {
@ -284,6 +290,9 @@ void gfx_thread_func(uint8_t* rdram, uint8_t* rom, std::atomic_flag* thread_read
            }
        }
    }
    destroy_ui();
    // TODO restore this call once the RT64 shutdown issue is fixed.
    // RT64Shutdown();
 }
 extern unsigned int VI_STATUS_REG;
@ -469,3 +478,21 @@ void Multilibultra::init_events(uint8_t* rdram, uint8_t* rom, Multilibultra::Win
    events_context.vi.thread = std::thread{ vi_thread_func };
 }
 void Multilibultra::join_event_threads() {
    events_context.sp.gfx_thread.join();
    events_context.vi.thread.join();
    // Send a dummy RSP task so that the task thread is able to exit it's atomic wait and terminate.
    OSTask dummy_task{};
    OSTask* expected = nullptr;
    // Attempt to exchange the task with the dummy task one until it was nullptr, as that indicates the
    // task thread was ready for a new task.
    do {
        expected = nullptr;
    } while (!events_context.sp_task.compare_exchange_weak(expected, &dummy_task));
    events_context.sp_task.notify_all();
    events_context.sp.task_thread.join();
 }
--- a/portultra/multilibultra.hpp
+++ b/portultra/multilibultra.hpp
@ -125,6 +125,8 @@ struct gfx_callbacks_t {
 void start(WindowHandle window_handle, const audio_callbacks_t& audio_callbacks, const input_callbacks_t& input_callbacks, const gfx_callbacks_t& gfx_callbacks);
 void start_game(int game);
 bool is_game_started();
 void quit();
 void join_event_threads();
 } // namespace Multilibultra
--- a/portultra/scheduler.cpp
+++ b/portultra/scheduler.cpp
@ -144,6 +144,8 @@ void swap_running_thread(thread_queue_t& running_thread_queue, OSThread*& cur_ru
    }
 }
 extern std::atomic_bool exited;
 void scheduler_func() {
    thread_queue_t running_thread_queue{};
    OSThread* cur_running_thread = nullptr;
@ -169,8 +171,13 @@ void scheduler_func() {
        // Handle threads that have changed priority
        handle_thread_reprioritization(running_thread_queue);
        if (!exited) {
            // Determine which thread to run, stopping the current running thread if necessary
            swap_running_thread(running_thread_queue, cur_running_thread);
        }
        else {
            return;
        }
        std::this_thread::yield();
        if (old_running_thread != cur_running_thread && old_running_thread && cur_running_thread) {
--- a/portultra/threads.cpp
+++ b/portultra/threads.cpp
@ -161,12 +161,6 @@ extern "C" void osStartThread(RDRAM_ARG PTR(OSThread) t_) {
    } else {
        Multilibultra::schedule_running_thread(t);
    }
    // The main thread "becomes" the first thread started, so join on it and exit after it completes.
    if (is_main_thread) {
        t->context->host_thread.join();
        std::exit(EXIT_SUCCESS);
    }
 }
 extern "C" void osCreateThread(RDRAM_ARG PTR(OSThread) t_, OSId id, PTR(thread_func_t) entrypoint, PTR(void) arg, PTR(void) sp, OSPri pri) {
--- a/portultra/timer.cpp
+++ b/portultra/timer.cpp
@ -121,7 +121,8 @@ void timer_thread(RDRAM_ARG1) {
            active_timers.insert(cur_timer_);
            // Process the new action
            process_timer_action(cur_action);
-        } else {
+        }
        else {
            // Waiting for the timer completed, so send the timer's message to its message queue
            osSendMesg(PASS_RDRAM cur_timer->mq, cur_timer->msg, OS_MESG_NOBLOCK);
            // If the timer has a specified interval then reload it with that value
@ -135,6 +136,7 @@ void timer_thread(RDRAM_ARG1) {
 void Multilibultra::init_timers(RDRAM_ARG1) {
    timer_context.thread = std::thread{ timer_thread, PASS_RDRAM1 };
    timer_context.thread.detach();
 }
 uint32_t Multilibultra::get_speed_multiplier() {
--- a/src/cont.cpp
+++ b/src/cont.cpp
@ -1,5 +1,5 @@
 #include "../portultra/multilibultra.hpp"
-#include "recomp.h"
+#include "recomp_helpers.h"
 static Multilibultra::input_callbacks_t input_callbacks;
@ -10,8 +10,8 @@ void set_input_callbacks(const Multilibultra::input_callbacks_t& callbacks) {
 static int max_controllers = 0;
 extern "C" void osContInit_recomp(uint8_t* rdram, recomp_context* ctx) {
-    gpr bitpattern = ctx->r5;
+    PTR(void) bitpattern = _arg<1, PTR(void)>(rdram, ctx);
-    gpr status = ctx->r6;
+    PTR(void) status = _arg<2, PTR(void)>(rdram, ctx);
    // Set bit 0 to indicate that controller 0 is present
    MEM_B(0, bitpattern) = 0x01;
@ -29,22 +29,15 @@ extern "C" void osContInit_recomp(uint8_t* rdram, recomp_context* ctx) {
        MEM_B(4 * controller + 3, status) = 0x80 >> 4; // errno: CONT_NO_RESPONSE_ERROR >> 4
    }
-    ctx->r2 = 0;
+    _return<s32>(ctx, 0);
 }
 extern "C" void osContStartReadData_recomp(uint8_t* rdram, recomp_context* ctx) {
    Multilibultra::send_si_message();
 }
 struct OSContPad {
    u16 button;
    s8 stick_x;		/* -80 <= stick_x <= 80 */
    s8 stick_y;		/* -80 <= stick_y <= 80 */
    u8 errno_;
 };
 extern "C" void osContGetReadData_recomp(uint8_t* rdram, recomp_context* ctx) {
-    int32_t pad = (int32_t)ctx->r4;
+    PTR(void) pad = _arg<0, PTR(void)>(rdram, ctx);
    uint16_t buttons = 0;
    float x = 0.0f;
@ -74,7 +67,7 @@ extern "C" void osContStartQuery_recomp(uint8_t * rdram, recomp_context * ctx) {
 }
 extern "C" void osContGetQuery_recomp(uint8_t * rdram, recomp_context * ctx) {
-    gpr status = ctx->r4;
+    PTR(void) status = _arg<0, PTR(void)>(rdram, ctx);
    // Mark controller 0 as present
    MEM_H(0, status) = 0x0005; // type: CONT_TYPE_NORMAL (from joybus)
@ -89,8 +82,8 @@ extern "C" void osContGetQuery_recomp(uint8_t * rdram, recomp_context * ctx) {
 }
 extern "C" void osContSetCh_recomp(uint8_t* rdram, recomp_context* ctx) {
-    max_controllers = std::min((unsigned int)ctx->r4, 4u);
+    max_controllers = std::min(_arg<0, u8>(rdram, ctx), u8(4));
-    ctx->r2 = 0;
+    _return<s32>(ctx, 0);
 }
 extern "C" void __osMotorAccess_recomp(uint8_t* rdram, recomp_context* ctx) {
@ -108,3 +101,16 @@ extern "C" void osMotorStart_recomp(uint8_t* rdram, recomp_context* ctx) {
 extern "C" void osMotorStop_recomp(uint8_t* rdram, recomp_context* ctx) {
    ;
 }
 #include "../patches/input.h"
 extern "C" void recomp_get_item_inputs(uint8_t* rdram, recomp_context* ctx) {
    RecompInputs* inputs = _arg<0, RecompInputs*>(rdram, ctx);
    if (input_callbacks.get_input) {
        u16 buttons;
        input_callbacks.get_input(&buttons, &inputs->x, &inputs->y);
        // TODO remap the inputs for items here
        inputs->buttons = buttons;
    }
 }
--- a/src/main/main.cpp
+++ b/src/main/main.cpp
@ -99,7 +99,7 @@ std::vector<GameControllerButtonMapping> controller_button_map{
 std::vector<SDL_JoystickID> controllers{};
-int sdl_event_filter(void* userdata, SDL_Event* event) {
+bool sdl_event_filter(void* userdata, SDL_Event* event) {
    switch (event->type) {
    //case SDL_EventType::SDL_KEYUP:
    //case SDL_EventType::SDL_KEYDOWN:
@ -138,13 +138,13 @@ int sdl_event_filter(void* userdata, SDL_Event* event) {
        }
        break;
    case SDL_EventType::SDL_QUIT:
-        std::quick_exit(EXIT_SUCCESS);
+        Multilibultra::quit();
-        break;
+        return true;
    default:
        queue_event(*event);
        break;
    }
-    return 1;
+    return false;
 }
 Multilibultra::gfx_callbacks_t::gfx_data_t create_gfx() {
@ -185,8 +185,9 @@ void update_gfx(void*) {
    constexpr int max_events_per_frame = 16;
    SDL_Event cur_event;
    int i = 0;
-    while (i++ < max_events_per_frame && SDL_PollEvent(&cur_event)) {
+    static bool exited = false;
-        sdl_event_filter(nullptr, &cur_event);
+    while (i++ < max_events_per_frame && SDL_PollEvent(&cur_event) && !exited) {
        exited = sdl_event_filter(nullptr, &cur_event);
    }
 }
--- a/src/recomp.cpp
+++ b/src/recomp.cpp
@ -122,6 +122,28 @@ extern "C" void unload_overlays(int32_t ram_addr, uint32_t size);
 std::unique_ptr<uint8_t[]> rdram_buffer;
 recomp_context context{};
 void read_patch_data(uint8_t* rdram, gpr patch_data_address) {
    const char patches_data_file_path[] = "patches/patches.bin";
    std::ifstream patches_data_file{ patches_data_file_path, std::ios::binary };
    if (!patches_data_file) {
        fprintf(stderr, "Failed to open patches data file: %s\n", patches_data_file_path);
        exit(EXIT_FAILURE);
    }
    patches_data_file.seekg(0, std::ios::end);
    size_t patches_data_size = patches_data_file.tellg();
    patches_data_file.seekg(0, std::ios::beg);
    std::unique_ptr<uint8_t[]> patches_data = std::make_unique<uint8_t[]>(patches_data_size);
    patches_data_file.read(reinterpret_cast<char*>(patches_data.get()), patches_data_size);
    for (size_t i = 0; i < patches_data_size; i++) {
        MEM_B(i, patch_data_address) = patches_data[i];
    }
 }
 EXPORT extern "C" void init() {
    {
        std::ifstream rom_file{ get_rom_name(), std::ios::binary };
@ -160,6 +182,9 @@ EXPORT extern "C" void init() {
    // Initial 1MB DMA (rom address 0x1000 = physical address 0x10001000)
    do_rom_read(rdram_buffer.get(), entrypoint, 0x10001000, 0x100000);
    // Read in any extra data from patches
    read_patch_data(rdram_buffer.get(), (gpr)(s32)0x80800100);
    // Set up stack pointer
    context.r29 = 0xFFFFFFFF803FFFF0u;
@ -197,6 +222,15 @@ bool Multilibultra::is_game_started() {
 void set_audio_callbacks(const Multilibultra::audio_callbacks_t& callbacks);
 void set_input_callbacks(const Multilibultra::input_callbacks_t& callback);
 std::atomic_bool exited = false;
 void Multilibultra::quit() {
    exited.store(true);
    int desired = -1;
    game_started.compare_exchange_strong(desired, -2);
    game_started.notify_all();
 }
 void Multilibultra::start(WindowHandle window_handle, const audio_callbacks_t& audio_callbacks, const input_callbacks_t& input_callbacks, const gfx_callbacks_t& gfx_callbacks_) {
    set_audio_callbacks(audio_callbacks);
    set_input_callbacks(input_callbacks);
@ -231,16 +265,20 @@ void Multilibultra::start(WindowHandle window_handle, const audio_callbacks_t& a
            case 0:
                recomp_entrypoint(rdram_buffer.get(), &context);
                break;
            case -2:
                break;
        }
        debug_printf("[Recomp] Quitting\n");
    }, window_handle};
-    while (true) {
+    while (!exited) {
        using namespace std::chrono_literals;
        std::this_thread::sleep_for(1ms);
        if (gfx_callbacks.update_gfx != nullptr) {
            gfx_callbacks.update_gfx(gfx_data);
        }
    }
    game_thread.join();
    Multilibultra::join_event_threads();
 }
--- a/src/rt64_layer.cpp
+++ b/src/rt64_layer.cpp
@ -130,3 +130,7 @@ void RT64UpdateScreen(uint32_t vi_origin) {
 void RT64ChangeWindow() {
    ChangeWindow();
 }
 void RT64Shutdown() {
    PluginShutdown();
 }
--- a/src/ui/ui_renderer.cpp
+++ b/src/ui/ui_renderer.cpp
@ -587,6 +587,10 @@ struct {
        Rml::Context* context;
        std::unique_ptr<Rml::EventListenerInstancer> event_listener_instancer;
        void unload() {
            render_interface.reset();
        }
        void swap_document(Menu menu) {
            if (current_document != nullptr) {
                current_document->Hide();
@ -752,3 +756,8 @@ void set_rt64_hooks() {
 void set_current_menu(Menu menu) {
    open_menu.store(menu);
 }
 void destroy_ui() {
    Rml::Shutdown();
    UIContext.rml.unload();
 }
--- a/us.rev1.toml
+++ b/us.rev1.toml
@ -10,10 +10,15 @@ relocatable_sections_path = "overlays.us.rev1.txt"
 [patches]
 stubs = [
    # Stub out unused functions that directly manipulate RCP status.
-    "func_80084940",
+    "RcpUtils_PrintRegisterStatus",
-    "func_80084968",
+    "RcpUtils_Reset",
    # Stub out an unnecessary function that accesses kseg1 addresses.
-    "func_800818F4"
+    "CIC6105_Init"
 ]
 ignored = [
    # Not actually a function
    "D_80186028"
 ]
 # Hooks
@ -25,23 +30,14 @@ args = ["u32", "u32", "u32"]
 # Function hooks for overlay loading.
 [[patches.hook]]
-func = "Idle_InitCodeAndMemory"
+func = "Main_Init"
-calls = "load_overlays"
+text = "    load_overlays((uint32_t)ctx->r6, (uint32_t)ctx->r5, (uint32_t)ctx->r7);"
 args = ["a2", "a1", "a3"]
 after_vram = 0x800802A4
 [[patches.hook]]
-func = "Load2_LoadOverlay"
+func = "Overlay_Load"
-calls = "load_overlays"
+text = "    load_overlays((uint32_t)ctx->r4, MEM_W(0x10, ctx->r29), (uint32_t)(ctx->r5 - ctx->r4));"
-# args = [
+# No after_vram means this will be placed at the start of the function
 #     "a0", # $a0 contains rom start
 #     {operation = "load", type = "u32", base = "sp", offset = 0x10}, # sp + 10 contains the ram address
 #     {operation = "subtract", arguments = ["a1", "a0"]} # Calculate size from rom end - rom start
 # ]
 args = ["a1", "a0", "a2"]
 # This vram address is an instruction in a delay slot. In that case, the recompiler will emit the
 # hook call after this instruction is run and before the function is called.
 after_vram = 0x80085048
 # Single-instruction patches