N64Recomp/include/recomp_port.h

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#ifndef __RECOMP_PORT__
#define __RECOMP_PORT__
#include <span>
#include <string_view>
#include <cstdint>
#include <utility>
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#include <vector>
#include <unordered_map>
#include <span>
#include <unordered_set>
#include <filesystem>
#include "rabbitizer.hpp"
#include "elfio/elfio.hpp"
#ifdef _MSC_VER
inline uint32_t byteswap(uint32_t val) {
return _byteswap_ulong(val);
}
#else
constexpr uint32_t byteswap(uint32_t val) {
return __builtin_bswap32(val);
}
#endif
namespace RecompPort {
// Potential argument types for function declarations
enum class FunctionArgType {
u32,
s32,
};
// Mapping of function name to argument types
using DeclaredFunctionMap = std::unordered_map<std::string, std::vector<FunctionArgType>>;
struct InstructionPatch {
std::string func_name;
int32_t vram;
uint32_t value;
};
struct FunctionSize {
std::string func_name;
uint32_t size_bytes;
FunctionSize(const std::string& func_name, uint32_t size_bytes) : func_name(func_name), size_bytes(size_bytes) {}
};
struct ManualFunction {
std::string func_name;
std::string section_name;
uint32_t vram;
uint32_t size;
ManualFunction(const std::string& func_name, std::string section_name, uint32_t vram, uint32_t size) : func_name(func_name), section_name(std::move(section_name)), vram(vram), size(size) {}
};
struct Config {
int32_t entrypoint;
bool has_entrypoint;
bool uses_mips3_float_mode;
bool single_file_output;
bool use_absolute_symbols;
std::filesystem::path elf_path;
std::filesystem::path output_func_path;
std::filesystem::path relocatable_sections_path;
std::vector<std::string> stubbed_funcs;
std::vector<std::string> ignored_funcs;
DeclaredFunctionMap declared_funcs;
std::vector<InstructionPatch> instruction_patches;
std::vector<FunctionSize> manual_func_sizes;
std::vector<ManualFunction> manual_functions;
std::string bss_section_suffix;
Config(const char* path);
bool good() { return !bad; }
private:
bool bad;
};
struct JumpTable {
uint32_t vram;
uint32_t addend_reg;
uint32_t rom;
uint32_t lw_vram;
uint32_t addu_vram;
uint32_t jr_vram;
std::vector<uint32_t> entries;
JumpTable(uint32_t vram, uint32_t addend_reg, uint32_t rom, uint32_t lw_vram, uint32_t addu_vram, uint32_t jr_vram, std::vector<uint32_t>&& entries)
: vram(vram), addend_reg(addend_reg), rom(rom), lw_vram(lw_vram), addu_vram(addu_vram), jr_vram(jr_vram), entries(std::move(entries)) {}
};
struct AbsoluteJump {
uint32_t jump_target;
uint32_t instruction_vram;
AbsoluteJump(uint32_t jump_target, uint32_t instruction_vram) : jump_target(jump_target), instruction_vram(instruction_vram) {}
};
struct Function {
uint32_t vram;
uint32_t rom;
std::vector<uint32_t> words;
std::string name;
ELFIO::Elf_Half section_index;
bool ignored;
bool reimplemented;
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bool stubbed;
Function(uint32_t vram, uint32_t rom, std::vector<uint32_t> words, std::string name, ELFIO::Elf_Half section_index, bool ignored = false, bool reimplemented = false, bool stubbed = false)
: vram(vram), rom(rom), words(std::move(words)), name(std::move(name)), section_index(section_index), ignored(ignored), reimplemented(reimplemented), stubbed(stubbed) {}
};
enum class RelocType : uint8_t {
R_MIPS_NONE = 0,
R_MIPS_16,
R_MIPS_32,
R_MIPS_REL32,
R_MIPS_26,
R_MIPS_HI16,
R_MIPS_LO16,
R_MIPS_GPREL16,
};
struct Reloc {
uint32_t address;
uint32_t target_address;
uint32_t symbol_index;
uint32_t target_section;
RelocType type;
bool needs_relocation;
};
struct Section {
ELFIO::Elf_Xword rom_addr = 0;
ELFIO::Elf64_Addr ram_addr = 0;
ELFIO::Elf_Xword size = 0;
std::vector<uint32_t> function_addrs;
std::vector<Reloc> relocs;
std::string name;
ELFIO::Elf_Half bss_section_index = (ELFIO::Elf_Half)-1;
bool executable = false;
bool relocatable = false;
};
struct FunctionStats {
std::vector<JumpTable> jump_tables;
std::vector<AbsoluteJump> absolute_jumps;
};
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struct Context {
// ROM address of each section
std::vector<Section> sections;
std::vector<Function> functions;
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std::unordered_map<uint32_t, std::vector<size_t>> functions_by_vram;
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// A mapping of function name to index in the functions vector
std::unordered_map<std::string, size_t> functions_by_name;
std::vector<uint8_t> rom;
// A list of the list of each function (by index in `functions`) in a given section
std::vector<std::vector<size_t>> section_functions;
// The section names that were specified as relocatable
std::unordered_set<std::string> relocatable_sections;
// Functions with manual size overrides
std::unordered_map<std::string, size_t> manually_sized_funcs;
int executable_section_count;
Context(const ELFIO::elfio& elf_file) {
sections.resize(elf_file.sections.size());
section_functions.resize(elf_file.sections.size());
functions.reserve(1024);
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functions_by_vram.reserve(functions.capacity());
functions_by_name.reserve(functions.capacity());
rom.reserve(8 * 1024 * 1024);
executable_section_count = 0;
}
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};
bool analyze_function(const Context& context, const Function& function, const std::vector<rabbitizer::InstructionCpu>& instructions, FunctionStats& stats);
bool recompile_function(const Context& context, const Config& config, const Function& func, std::ofstream& output_file, std::span<std::vector<uint32_t>> static_funcs, bool write_header);
}
#endif