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https://github.com/yuzu-emu/yuzu-android.git
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301 lines
10 KiB
C++
301 lines
10 KiB
C++
// Copyright 2017 Citra Emulator Project
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// Licensed under GPLv2 or any later version
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// Refer to the license.txt file included.
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#include <vector>
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#include <lz4.h>
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#include "common/logging/log.h"
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#include "common/swap.h"
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#include "core/hle/kernel/process.h"
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#include "core/hle/kernel/resource_limit.h"
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#include "core/loader/nso.h"
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#include "core/memory.h"
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namespace Loader {
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enum class RelocationType : u32 { ABS64 = 257, GLOB_DAT = 1025, JUMP_SLOT = 1026, RELATIVE = 1027 };
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enum DynamicType : u32 {
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DT_NULL = 0,
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DT_PLTRELSZ = 2,
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DT_STRTAB = 5,
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DT_SYMTAB = 6,
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DT_RELA = 7,
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DT_RELASZ = 8,
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DT_STRSZ = 10,
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DT_JMPREL = 23,
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};
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struct NsoSegmentHeader {
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u32_le offset;
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u32_le location;
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u32_le size;
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u32_le alignment;
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};
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static_assert(sizeof(NsoSegmentHeader) == 0x10, "NsoSegmentHeader has incorrect size.");
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struct NsoHeader {
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u32_le magic;
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INSERT_PADDING_BYTES(0xc);
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std::array<NsoSegmentHeader, 3> segments; // Text, RoData, Data (in that order)
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u32_le bss_size;
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INSERT_PADDING_BYTES(0x1c);
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std::array<u32_le, 3> segments_compressed_size;
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};
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static_assert(sizeof(NsoHeader) == 0x6c, "NsoHeader has incorrect size.");
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struct ModHeader {
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INSERT_PADDING_BYTES(0x4);
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u32_le offset_to_start; // Always 8
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u32_le magic;
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u32_le dynamic_offset;
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u32_le bss_start_offset;
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u32_le bss_end_offset;
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u32_le eh_frame_hdr_start_offset;
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u32_le eh_frame_hdr_end_offset;
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u32_le module_offset; // Offset to runtime-generated module object. typically equal to .bss base
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};
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static_assert(sizeof(ModHeader) == 0x24, "ModHeader has incorrect size.");
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FileType AppLoader_NSO::IdentifyType(FileUtil::IOFile& file) {
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u32 magic = 0;
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file.Seek(0, SEEK_SET);
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if (1 != file.ReadArray<u32>(&magic, 1)) {
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return FileType::Error;
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}
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if (MakeMagic('N', 'S', 'O', '0') == magic) {
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return FileType::NSO;
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}
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return FileType::Error;
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}
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static std::vector<u8> ReadSegment(FileUtil::IOFile& file, const NsoSegmentHeader& header,
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int compressed_size) {
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std::vector<u8> compressed_data;
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compressed_data.resize(compressed_size);
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file.Seek(header.offset, SEEK_SET);
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if (compressed_size != file.ReadBytes(compressed_data.data(), compressed_size)) {
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LOG_CRITICAL(Loader, "Failed to read %d NSO LZ4 compressed bytes", compressed_size);
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return {};
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}
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std::vector<u8> uncompressed_data;
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uncompressed_data.resize(header.size);
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const int bytes_uncompressed =
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LZ4_decompress_safe_partial(reinterpret_cast<const char*>(compressed_data.data()),
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reinterpret_cast<char*>(uncompressed_data.data()),
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compressed_size, header.size, header.size);
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ASSERT_MSG(bytes_uncompressed == header.size, "%d != %d", bytes_uncompressed, header.size);
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return uncompressed_data;
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}
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void AppLoader_NSO::WriteRelocations(const std::vector<Symbol>& symbols, VAddr load_base,
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u64 relocation_offset, u64 size, bool is_jump_relocation) {
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for (u64 i = 0; i < size; i += 0x18) {
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VAddr addr = load_base + relocation_offset + i;
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u64 offset = Memory::Read64(addr);
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u64 info = Memory::Read64(addr + 8);
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u64 addend_unsigned = Memory::Read64(addr + 16);
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s64 addend{};
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std::memcpy(&addend, &addend_unsigned, sizeof(u64));
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RelocationType rtype = static_cast<RelocationType>(info & 0xFFFFFFFF);
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u32 rsym = static_cast<u32>(info >> 32);
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VAddr ea = load_base + offset;
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const Symbol& symbol = symbols[rsym];
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switch (rtype) {
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case RelocationType::RELATIVE:
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if (!symbol.name.empty()) {
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exports[symbol.name] = load_base + addend;
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}
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Memory::Write64(ea, load_base + addend);
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break;
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case RelocationType::JUMP_SLOT:
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case RelocationType::GLOB_DAT:
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if (!symbol.value) {
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imports[symbol.name] = {ea, 0};
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} else {
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exports[symbol.name] = symbol.value;
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Memory::Write64(ea, symbol.value);
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}
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break;
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case RelocationType::ABS64:
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if (!symbol.value) {
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imports[symbol.name] = {ea, addend};
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} else {
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exports[symbol.name] = symbol.value + addend;
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Memory::Write64(ea, symbol.value + addend);
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}
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break;
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default:
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LOG_CRITICAL(Loader, "Unknown relocation type: %d", rtype);
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break;
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}
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}
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}
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void AppLoader_NSO::Relocate(VAddr load_base, VAddr dynamic_section_addr) {
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std::map<u64, u64> dynamic;
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while (1) {
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u64 tag = Memory::Read64(dynamic_section_addr);
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u64 value = Memory::Read64(dynamic_section_addr + 8);
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dynamic_section_addr += 16;
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if (tag == DT_NULL) {
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break;
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}
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dynamic[tag] = value;
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}
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u64 strtabsize = dynamic[DT_STRSZ];
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std::vector<u8> strtab;
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strtab.resize(strtabsize);
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Memory::ReadBlock(load_base + dynamic[DT_STRTAB], strtab.data(), strtabsize);
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VAddr addr = load_base + dynamic[DT_SYMTAB];
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std::vector<Symbol> symbols;
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while (1) {
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const u32 stname = Memory::Read32(addr);
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const u16 stshndx = Memory::Read16(addr + 6);
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const u64 stvalue = Memory::Read64(addr + 8);
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addr += 24;
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if (stname >= strtabsize) {
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break;
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}
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std::string name = reinterpret_cast<char*>(&strtab[stname]);
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if (stvalue) {
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exports[name] = load_base + stvalue;
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symbols.emplace_back(std::move(name), load_base + stvalue);
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} else {
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symbols.emplace_back(std::move(name), 0);
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}
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}
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if (dynamic.find(DT_RELA) != dynamic.end()) {
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WriteRelocations(symbols, load_base, dynamic[DT_RELA], dynamic[DT_RELASZ], false);
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}
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if (dynamic.find(DT_JMPREL) != dynamic.end()) {
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WriteRelocations(symbols, load_base, dynamic[DT_JMPREL], dynamic[DT_PLTRELSZ], true);
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}
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}
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VAddr AppLoader_NSO::GetEntryPoint(VAddr load_base) const {
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// Find nnMain function, set entrypoint to that address
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const auto& search = exports.find("nnMain");
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if (search != exports.end()) {
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return search->second;
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}
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LOG_ERROR(Loader, "Unable to find entrypoint, defaulting to: 0x%llx", load_base);
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return load_base;
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}
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static constexpr u32 PageAlignSize(u32 size) {
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return (size + Memory::PAGE_MASK) & ~Memory::PAGE_MASK;
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}
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bool AppLoader_NSO::LoadNso(const std::string& path, VAddr load_base) {
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FileUtil::IOFile file(path, "rb");
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if (!file.IsOpen()) {
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return {};
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}
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// Read NSO header
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NsoHeader nso_header{};
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file.Seek(0, SEEK_SET);
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if (sizeof(NsoHeader) != file.ReadBytes(&nso_header, sizeof(NsoHeader))) {
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return {};
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}
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if (nso_header.magic != MakeMagic('N', 'S', 'O', '0')) {
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return {};
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}
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// Build program image
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Kernel::SharedPtr<Kernel::CodeSet> codeset = Kernel::CodeSet::Create("", 0);
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std::vector<u8> program_image;
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for (int i = 0; i < nso_header.segments.size(); ++i) {
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std::vector<u8> data =
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ReadSegment(file, nso_header.segments[i], nso_header.segments_compressed_size[i]);
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program_image.resize(nso_header.segments[i].location);
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program_image.insert(program_image.end(), data.begin(), data.end());
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codeset->segments[i].addr = nso_header.segments[i].location;
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codeset->segments[i].offset = nso_header.segments[i].location;
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codeset->segments[i].size = PageAlignSize(static_cast<u32>(data.size()));
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}
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// Read MOD header
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ModHeader mod_header{};
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u32 bss_size{Memory::PAGE_SIZE}; // Default .bss to page size if MOD0 section doesn't exist
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std::memcpy(&mod_header, program_image.data(), sizeof(ModHeader));
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const bool has_mod_header{mod_header.magic == MakeMagic('M', 'O', 'D', '0')};
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if (has_mod_header) {
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// Resize program image to include .bss section and page align each section
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bss_size = PageAlignSize(mod_header.bss_end_offset - mod_header.bss_start_offset);
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codeset->data.size += bss_size;
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}
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program_image.resize(PageAlignSize(static_cast<u32>(program_image.size()) + bss_size));
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// Load codeset for current process
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codeset->name = path;
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codeset->memory = std::make_shared<std::vector<u8>>(std::move(program_image));
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Kernel::g_current_process->LoadModule(codeset, load_base);
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// Relocate symbols if there was a proper MOD header - This must happen after the image has been
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// loaded into memory
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if (has_mod_header) {
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Relocate(load_base, load_base + mod_header.offset_to_start + mod_header.dynamic_offset);
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}
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return true;
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}
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ResultStatus AppLoader_NSO::Load() {
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if (is_loaded) {
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return ResultStatus::ErrorAlreadyLoaded;
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}
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if (!file.IsOpen()) {
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return ResultStatus::Error;
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}
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// Load and relocate "main" and "sdk" NSO
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static constexpr VAddr main_base{0x10000000};
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Kernel::g_current_process = Kernel::Process::Create("main");
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if (!LoadNso(filepath, main_base)) {
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return ResultStatus::ErrorInvalidFormat;
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}
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const std::string sdkpath = filepath.substr(0, filepath.find_last_of("/\\")) + "/sdk";
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if (!LoadNso(sdkpath, 0x20000000)) {
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LOG_WARNING(Loader, "failed to find SDK NSO");
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}
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Kernel::g_current_process->svc_access_mask.set();
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Kernel::g_current_process->address_mappings = default_address_mappings;
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Kernel::g_current_process->resource_limit =
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Kernel::ResourceLimit::GetForCategory(Kernel::ResourceLimitCategory::APPLICATION);
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Kernel::g_current_process->Run(GetEntryPoint(main_base), 48, Kernel::DEFAULT_STACK_SIZE);
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// Resolve imports
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for (const auto& import : imports) {
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const auto& search = exports.find(import.first);
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if (search != exports.end()) {
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Memory::Write64(import.second.ea, search->second + import.second.addend);
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} else {
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LOG_ERROR(Loader, "Unresolved import: %s", import.first.c_str());
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}
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}
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is_loaded = true;
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return ResultStatus::Success;
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}
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} // namespace Loader
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