Initial support for xex patching

2020-10-09 21:02:32 +02:00 · 2020-10-09 21:02:32 +02:00 · 91f43a374d
parent 945976a31d
commit 91f43a374d
13 changed files with 549 additions and 2 deletions
--- a/src/xenia/app/emulator_window.cc
+++ b/src/xenia/app/emulator_window.cc
@ -1004,6 +1004,10 @@ void EmulatorWindow::UpdateTitle() {
    sb.Append(u8" (Preloading shaders\u2026)");
  }
  patcher::Patcher* patcher = emulator()->patcher();
  if (patcher && patcher->IsAnyPatchApplied()) {
    sb.Append(u8" [Patches Applied]");
  }
  window_->SetTitle(sb.to_string_view());
 }
--- a/src/xenia/app/xenia_main.cc
+++ b/src/xenia/app/xenia_main.cc
@ -509,6 +509,10 @@ void EmulatorApp::EmulatorThread() {
        });
      });
  emulator_->on_patch_apply.AddListener([this]() {
    app_context().CallInUIThread([this]() { emulator_window_->UpdateTitle(); });
  });
  emulator_->on_terminate.AddListener([]() {
    if (cvars::discord) {
      discord::DiscordPresence::NotPlaying();
--- a/src/xenia/base/string_util.h
+++ b/src/xenia/base/string_util.h
@ -111,6 +111,32 @@ inline size_t copy_and_swap_maybe_truncating(char16_t* dest,
  return chars_copied;
 }
 inline bool hex_string_to_array(std::vector<uint8_t>& output_array,
                                const std::string_view value) {
  output_array.reserve((value.size() + 1) / 2);
  size_t remaining_length = value.size();
  while (remaining_length > 0) {
    uint8_t chars_to_read = remaining_length > 1 ? 2 : 1;
    const char* substring_pointer =
        value.data() + value.size() - remaining_length;
    uint8_t string_value = 0;
    std::from_chars_result result = std::from_chars(
        substring_pointer, substring_pointer + chars_to_read, string_value, 16);
    if (result.ec != std::errc() ||
        result.ptr != substring_pointer + chars_to_read) {
      output_array.clear();
      return false;
    }
    output_array.push_back(string_value);
    remaining_length -= chars_to_read;
  }
  return true;
 }
 inline std::string to_hex_string(uint32_t value) {
  return fmt::format("{:08X}", value);
 }
--- a/src/xenia/cpu/xex_module.cc
+++ b/src/xenia/cpu/xex_module.cc
@ -930,8 +930,6 @@ bool XexModule::Load(const std::string_view name, const std::string_view path,
  name_ = name;
  path_ = path;
  uint8_t* data = memory()->TranslateVirtual(base_address_);
  // Load in the XEX basefile
  // We'll try using both XEX2 keys to see if any give a valid PE
  int result_code = ReadImage(xex_addr, xex_length, false);
--- a/src/xenia/emulator.cc
+++ b/src/xenia/emulator.cc
@ -219,6 +219,8 @@ X_STATUS Emulator::Setup(
  // Bring up the virtual filesystem used by the kernel.
  file_system_ = std::make_unique<xe::vfs::VirtualFileSystem>();
  patcher_ = std::make_unique<xe::patcher::Patcher>(storage_root_);
  // Shared kernel state.
  kernel_state_ = std::make_unique<xe::kernel::KernelState>(this);
--- a/src/xenia/emulator.h
+++ b/src/xenia/emulator.h
@ -21,6 +21,7 @@
 #include "xenia/base/exception_handler.h"
 #include "xenia/kernel/kernel_state.h"
 #include "xenia/memory.h"
 #include "xenia/patcher/patcher.h"
 #include "xenia/vfs/virtual_file_system.h"
 #include "xenia/xbox.h"
@ -154,6 +155,8 @@ class Emulator {
  // This is effectively the guest operating system.
  kernel::KernelState* kernel_state() const { return kernel_state_.get(); }
  patcher::Patcher* patcher() const { return patcher_.get(); }
  // Initializes the emulator and configures all components.
  // The given window is used for display and the provided functions are used
  // to create subsystems as required.
@ -202,6 +205,7 @@ class Emulator {
 public:
  xe::Delegate<uint32_t, const std::string_view> on_launch;
  xe::Delegate<bool> on_shader_storage_initialization;
  xe::Delegate<> on_patch_apply;
  xe::Delegate<> on_terminate;
  xe::Delegate<> on_exit;
@ -237,6 +241,7 @@ class Emulator {
  std::unique_ptr<cpu::ExportResolver> export_resolver_;
  std::unique_ptr<vfs::VirtualFileSystem> file_system_;
  std::unique_ptr<patcher::Patcher> patcher_;
  std::unique_ptr<kernel::KernelState> kernel_state_;
--- a/src/xenia/kernel/kernel_state.cc
+++ b/src/xenia/kernel/kernel_state.cc
@ -406,6 +406,9 @@ object_ref<UserModule> KernelState::LoadUserModule(
  }
  module->Dump();
  emulator_->patcher()->ApplyPatchesForTitle(memory_, module->title_id(),
                                             module->hash());
  emulator_->on_patch_apply();
  if (module->is_dll_module() && module->entry_point() && call_entry) {
    // Call DllMain(DLL_PROCESS_ATTACH):
--- a/src/xenia/kernel/user_module.cc
+++ b/src/xenia/kernel/user_module.cc
@ -13,6 +13,7 @@
 #include "xenia/base/byte_stream.h"
 #include "xenia/base/logging.h"
 #include "xenia/base/xxhash.h"
 #include "xenia/cpu/elf_module.h"
 #include "xenia/cpu/processor.h"
 #include "xenia/cpu/xex_module.h"
@ -128,6 +129,9 @@ X_STATUS UserModule::LoadFromFile(const std::string_view path) {
    }
  }
  CalculateHash();
  XELOGI("Module hash: {:016X} for {}", hash_.value_or(UINT64_MAX), name_);
  return LoadXexContinue();
 }
@ -804,5 +808,46 @@ void UserModule::Dump() {
  xe::logging::AppendLogLine(xe::LogLevel::Info, 'i', sb.to_string_view());
 }
 void UserModule::CalculateHash() {
  const BaseHeap* module_heap =
      kernel_state_->memory()->LookupHeap(xex_module()->base_address());
  if (!module_heap) {
    XELOGE("Invalid heap for xex module! Address: {:08X}",
           xex_module()->base_address());
    return;
  }
  const uint32_t page_size = module_heap->page_size();
  auto security_info = xex_module()->xex_security_info();
  auto find_code_section_page = [&security_info](bool from_bottom) {
    for (uint32_t i = 0; i < security_info->page_descriptor_count; i++) {
      const uint32_t page_index =
          from_bottom ? i : security_info->page_descriptor_count - i;
      xex2_page_descriptor page_descriptor;
      page_descriptor.value =
          xe::byte_swap(security_info->page_descriptors[page_index].value);
      if (page_descriptor.info != XEX_SECTION_CODE) {
        continue;
      }
      return page_index;
    }
    return UINT32_MAX;
  };
  const uint32_t start_address =
      xex_module()->base_address() + (find_code_section_page(true) * page_size);
  const uint32_t end_address =
      xex_module()->base_address() +
      ((find_code_section_page(false) + 1) * page_size);
  uint8_t* base_code_adr = memory()->TranslateVirtual(start_address);
  XXH3_state_t hash_state;
  XXH3_64bits_reset(&hash_state);
  XXH3_64bits_update(&hash_state, base_code_adr, end_address - start_address);
  hash_ = XXH3_64bits_digest(&hash_state);
 }
 }  // namespace kernel
 }  // namespace xe
--- a/src/xenia/kernel/user_module.h
+++ b/src/xenia/kernel/user_module.h
@ -38,6 +38,7 @@ class UserModule : public XModule {
  const std::string& path() const override { return path_; }
  const std::string& name() const override { return name_; }
  std::optional<uint64_t> hash() const { return hash_; }
  enum ModuleFormat {
    kModuleFormatUndefined = 0,
@ -97,9 +98,11 @@ class UserModule : public XModule {
 private:
  X_STATUS LoadXexContinue();
  void CalculateHash();
  std::string name_;
  std::string path_;
  std::optional<uint64_t> hash_ = std::nullopt;
  uint32_t guest_xex_header_ = 0;
  ModuleFormat module_format_ = kModuleFormatUndefined;
--- a/src/xenia/patcher/patch_db.cc
+++ b/src/xenia/patcher/patch_db.cc
@ -0,0 +1,223 @@
 /**
 ******************************************************************************
 * Xenia : Xbox 360 Emulator Research Project                                 *
 ******************************************************************************
 * Copyright 2022 Ben Vanik. All rights reserved.                             *
 * Released under the BSD license - see LICENSE in the root for more details. *
 ******************************************************************************
 */
 #include "xenia/base/cvar.h"
 #include "xenia/base/filesystem.h"
 #include "xenia/base/logging.h"
 #include "xenia/memory.h"
 #include "xenia/patcher/patch_db.h"
 DEFINE_bool(apply_patches, true, "Enables custom patching functionality",
            "General");
 namespace xe {
 namespace patcher {
 PatchDB::PatchDB(const std::filesystem::path patches_root) {
  patches_root_ = patches_root;
  LoadPatches();
 }
 PatchDB::~PatchDB() {}
 void PatchDB::LoadPatches() {
  if (!cvars::apply_patches) {
    return;
  }
  const std::filesystem::path patches_directory = patches_root_ / "patches";
  const std::vector<xe::filesystem::FileInfo> patch_files =
      filesystem::ListFiles(patches_directory);
  for (const xe::filesystem::FileInfo& patch_file : patch_files) {
    // Skip files that doesn't have only title_id as name and .patch as
    // extension
    if (!std::regex_match(path_to_utf8(patch_file.name),
                          patch_filename_regex_)) {
      XELOGE("PatchDB: Skipped loading file {} due to incorrect filename",
             path_to_utf8(patch_file.name));
      continue;
    }
    const PatchFileEntry loaded_title_patches =
        ReadPatchFile(patch_file.path / patch_file.name);
    if (loaded_title_patches.title_id != -1) {
      loaded_patches_.push_back(loaded_title_patches);
    }
  }
  XELOGI("PatchDB: Loaded patches for {} titles", loaded_patches_.size());
 }
 PatchFileEntry PatchDB::ReadPatchFile(const std::filesystem::path& file_path) {
  PatchFileEntry patch_file;
  std::shared_ptr<cpptoml::table> patch_toml_fields;
  try {
    patch_toml_fields = cpptoml::parse_file(path_to_utf8(file_path));
  } catch (...) {
    XELOGE("PatchDB: Cannot load patch file: {}", path_to_utf8(file_path));
    patch_file.title_id = -1;
    return patch_file;
  };
  auto title_name = patch_toml_fields->get_as<std::string>("title_name");
  auto title_id = patch_toml_fields->get_as<std::string>("title_id");
  patch_file.title_id = strtoul((*title_id).c_str(), NULL, 16);
  patch_file.title_name = *title_name;
  ReadHashes(patch_file, patch_toml_fields);
  auto patch_table = patch_toml_fields->get_table_array("patch");
  for (auto patch_table_entry : *patch_table) {
    PatchInfoEntry patch = PatchInfoEntry();
    auto patch_name = *patch_table_entry->get_as<std::string>("name");
    auto patch_desc = *patch_table_entry->get_as<std::string>("desc");
    auto patch_author = *patch_table_entry->get_as<std::string>("author");
    auto is_enabled = *patch_table_entry->get_as<bool>("is_enabled");
    patch.id = 0;  // Todo(Gliniak): Implement id for future GUI stuff
    patch.patch_name = patch_name;
    patch.patch_desc = patch_desc;
    patch.patch_author = patch_author;
    patch.is_enabled = is_enabled;
    // Iterate through all available data sizes
    for (const auto& patch_data_type : patch_data_types_size_) {
      bool success =
          ReadPatchData(patch.patch_data, patch_data_type, patch_table_entry);
      if (!success) {
        XELOGE("PatchDB: Cannot read patch {}", patch_name);
        break;
      }
    }
    patch_file.patch_info.push_back(patch);
  }
  return patch_file;
 }
 bool PatchDB::ReadPatchData(
    std::vector<PatchDataEntry>& patch_data,
    const std::pair<std::string, PatchData> data_type,
    const std::shared_ptr<cpptoml::table>& patch_table) {
  auto patch_data_tarr = patch_table->get_table_array(data_type.first);
  if (!patch_data_tarr) {
    return true;
  }
  for (const auto& patch_data_table : *patch_data_tarr) {
    uint32_t address = *patch_data_table->get_as<std::uint32_t>("address");
    size_t alloc_size = (size_t)data_type.second.size;
    switch (data_type.second.type) {
      case PatchDataType::kBE8: {
        uint16_t value = *patch_data_table->get_as<uint8_t>("value");
        patch_data.push_back({address, PatchDataValue(alloc_size, value)});
        break;
      }
      case PatchDataType::kBE16: {
        uint16_t value = *patch_data_table->get_as<uint16_t>("value");
        patch_data.push_back(
            {address, PatchDataValue(alloc_size, xe::byte_swap(value))});
        break;
      }
      case PatchDataType::kBE32: {
        uint32_t value = *patch_data_table->get_as<uint32_t>("value");
        patch_data.push_back(
            {address, PatchDataValue(alloc_size, xe::byte_swap(value))});
        break;
      }
      case PatchDataType::kBE64: {
        uint64_t value = *patch_data_table->get_as<uint64_t>("value");
        patch_data.push_back(
            {address, PatchDataValue(alloc_size, xe::byte_swap(value))});
        break;
      }
      case PatchDataType::kF64: {
        double val = *patch_data_table->get_as<double>("value");
        uint64_t value = *reinterpret_cast<uint64_t*>(&val);
        patch_data.push_back(
            {address, PatchDataValue(alloc_size, xe::byte_swap(value))});
        break;
      }
      case PatchDataType::kF32: {
        float value = float(*patch_data_table->get_as<double>("value"));
        patch_data.push_back(
            {address, PatchDataValue(alloc_size, xe::byte_swap(value))});
        break;
      }
      case PatchDataType::kString: {
        std::string value = *patch_data_table->get_as<std::string>("value");
        patch_data.push_back({address, PatchDataValue(value)});
        break;
      }
      case PatchDataType::kU16String: {
        std::u16string value =
            xe::to_utf16(*patch_data_table->get_as<std::string>("value"));
        patch_data.push_back({address, PatchDataValue(value)});
        break;
      }
      case PatchDataType::kByteArray: {
        std::vector<uint8_t> data;
        const std::string value =
            *patch_data_table->get_as<std::string>("value");
        bool success = string_util::hex_string_to_array(data, value);
        if (!success) {
          XELOGW("PatchDB: Cannot convert hex string to byte array! Skipping",
                 address);
          return false;
        }
        patch_data.push_back({address, PatchDataValue(data)});
        break;
      }
      default: {
        XELOGW("PatchDB: Unknown patch data type for address {:08X}! Skipping",
               address);
        return false;
      }
    }
  }
  return true;
 }
 std::vector<PatchFileEntry> PatchDB::GetTitlePatches(
    const uint32_t title_id, const std::optional<uint64_t> hash) {
  std::vector<PatchFileEntry> title_patches;
  std::copy_if(
      loaded_patches_.cbegin(), loaded_patches_.cend(),
      std::back_inserter(title_patches), [=](const PatchFileEntry entry) {
        bool hash_exist = std::find(entry.hashes.cbegin(), entry.hashes.cend(),
                                    hash) != entry.hashes.cend();
        return entry.title_id == title_id &&
               (entry.hashes.empty() || hash_exist);
      });
  return title_patches;
 }
 void PatchDB::ReadHashes(PatchFileEntry& patch_entry,
                         std::shared_ptr<cpptoml::table> patch_toml_fields) {
  auto title_hashes = patch_toml_fields->get_array_of<std::string>("hash");
  for (const auto& hash : *title_hashes) {
    patch_entry.hashes.push_back(strtoull(hash.c_str(), NULL, 16));
  }
  auto single_hash = patch_toml_fields->get_as<std::string>("hash");
  if (single_hash) {
    patch_entry.hashes.push_back(strtoull((*single_hash).c_str(), NULL, 16));
  }
 }
 }  // namespace patcher
 }  // namespace xe
--- a/src/xenia/patcher/patch_db.h
+++ b/src/xenia/patcher/patch_db.h
@ -0,0 +1,132 @@
 /**
 ******************************************************************************
 * Xenia : Xbox 360 Emulator Research Project                                 *
 ******************************************************************************
 * Copyright 2022 Ben Vanik. All rights reserved.                             *
 * Released under the BSD license - see LICENSE in the root for more details. *
 ******************************************************************************
 */
 #ifndef XENIA_PATCH_DB_H_
 #define XENIA_PATCH_DB_H_
 #include <cstring>
 #include <map>
 #include <optional>
 #include <regex>
 #include "third_party/cpptoml/include/cpptoml.h"
 namespace xe {
 namespace patcher {
 struct PatchDataValue {
  const size_t alloc_size;
  std::vector<uint8_t> patch_data;
  template <typename T>
  PatchDataValue(const size_t size, const T value) : alloc_size(size) {
    patch_data.resize(alloc_size);
    std::memcpy(patch_data.data(), &value, alloc_size);
  };
  PatchDataValue(const std::vector<uint8_t> value) : alloc_size(value.size()) {
    patch_data.resize(alloc_size);
    std::memcpy(patch_data.data(), value.data(), alloc_size);
  };
  PatchDataValue(const std::string value) : alloc_size(value.size()) {
    patch_data.resize(alloc_size);
    std::memcpy(patch_data.data(), value.c_str(), alloc_size);
  };
  PatchDataValue(const std::u16string value) : alloc_size(value.size() * 2) {
    patch_data.resize(alloc_size);
    std::memcpy(patch_data.data(), value.c_str(), alloc_size);
  };
 };
 struct PatchDataEntry {
  const uint32_t address;
  const PatchDataValue data;
  PatchDataEntry(const uint32_t memory_address, const PatchDataValue patch_data)
      : address(memory_address), data(patch_data){};
 };
 struct PatchInfoEntry {
  uint32_t id;
  std::string patch_name;
  std::string patch_desc;
  std::string patch_author;
  std::vector<PatchDataEntry> patch_data;
  bool is_enabled;
 };
 struct PatchFileEntry {
  uint32_t title_id;
  std::string title_name;
  std::vector<uint64_t> hashes;
  std::vector<PatchInfoEntry> patch_info;
 };
 enum class PatchDataType {
  kBE8,
  kBE16,
  kBE32,
  kBE64,
  kF32,
  kF64,
  kString,
  kU16String,
  kByteArray
 };
 struct PatchData {
  uint8_t size;
  PatchDataType type;
  PatchData(uint8_t size_, PatchDataType type_) : size(size_), type(type_){};
 };
 class PatchDB {
 public:
  PatchDB(const std::filesystem::path patches_root);
  ~PatchDB();
  void LoadPatches();
  PatchFileEntry ReadPatchFile(const std::filesystem::path& file_path);
  bool ReadPatchData(std::vector<PatchDataEntry>& patch_data,
                     const std::pair<std::string, PatchData> data_type,
                     const std::shared_ptr<cpptoml::table>& patch_table);
  std::vector<PatchFileEntry> GetTitlePatches(
      const uint32_t title_id, const std::optional<uint64_t> hash);
  std::vector<PatchFileEntry>& GetAllPatches() { return loaded_patches_; }
 private:
  void ReadHashes(PatchFileEntry& patch_entry,
                  std::shared_ptr<cpptoml::table> patch_toml_fields);
  inline static const std::regex patch_filename_regex_ =
      std::regex("^[A-Fa-f0-9]{8}.*\\.patch\\.toml$");
  const std::map<std::string, PatchData> patch_data_types_size_ = {
      {"string", PatchData(0, PatchDataType::kString)},
      {"u16string", PatchData(0, PatchDataType::kU16String)},
      {"array", PatchData(0, PatchDataType::kByteArray)},
      {"f64", PatchData(sizeof(uint64_t), PatchDataType::kF64)},
      {"f32", PatchData(sizeof(uint32_t), PatchDataType::kF32)},
      {"be64", PatchData(sizeof(uint64_t), PatchDataType::kBE64)},
      {"be32", PatchData(sizeof(uint32_t), PatchDataType::kBE32)},
      {"be16", PatchData(sizeof(uint16_t), PatchDataType::kBE16)},
      {"be8", PatchData(sizeof(uint8_t), PatchDataType::kBE8)}};
  std::vector<PatchFileEntry> loaded_patches_;
  std::filesystem::path patches_root_;
 };
 }  // namespace patcher
 }  // namespace xe
 #endif  // XENIA_PATCH_LOADER_H_
--- a/src/xenia/patcher/patcher.cc
+++ b/src/xenia/patcher/patcher.cc
@ -0,0 +1,66 @@
 /**
 ******************************************************************************
 * Xenia : Xbox 360 Emulator Research Project                                 *
 ******************************************************************************
 * Copyright 2022 Ben Vanik. All rights reserved.                             *
 * Released under the BSD license - see LICENSE in the root for more details. *
 ******************************************************************************
 */
 #include <cstring>
 #include "xenia/base/logging.h"
 #include "xenia/patcher/patcher.h"
 namespace xe {
 namespace patcher {
 Patcher::Patcher(const std::filesystem::path patches_root) {
  is_any_patch_applied_ = false;
  patch_db_ = new PatchDB(patches_root);
 }
 void Patcher::ApplyPatchesForTitle(Memory* memory, const uint32_t title_id,
                                   const std::optional<uint64_t> hash) {
  const auto title_patches = patch_db_->GetTitlePatches(title_id, hash);
  for (const PatchFileEntry& patchFile : title_patches) {
    for (const PatchInfoEntry& patchEntry : patchFile.patch_info) {
      if (!patchEntry.is_enabled) {
        continue;
      }
      XELOGE("Patcher: Applying patch for: {}({:08X}) - {}",
             patchFile.title_name, patchFile.title_id, patchEntry.patch_name);
      ApplyPatch(memory, &patchEntry);
    }
  }
 }
 void Patcher::ApplyPatch(Memory* memory, const PatchInfoEntry* patch) {
  for (const PatchDataEntry& patch_data_entry : patch->patch_data) {
    uint32_t old_address_protect = 0;
    uint8_t* address = memory->TranslateVirtual(patch_data_entry.address);
    xe::BaseHeap* heap = memory->LookupHeap(patch_data_entry.address);
    if (!heap) {
      continue;
    }
    heap->QueryProtect(patch_data_entry.address, &old_address_protect);
    heap->Protect(patch_data_entry.address,
                  (uint32_t)patch_data_entry.data.alloc_size,
                  kMemoryProtectRead | kMemoryProtectWrite);
    std::memcpy(address, patch_data_entry.data.patch_data.data(),
                patch_data_entry.data.alloc_size);
    // Restore previous protection
    heap->Protect(patch_data_entry.address,
                  (uint32_t)patch_data_entry.data.alloc_size,
                  old_address_protect);
    is_any_patch_applied_ = true;
  }
 }
 }  // namespace patcher
 }  // namespace xe
--- a/src/xenia/patcher/patcher.h
+++ b/src/xenia/patcher/patcher.h
@ -0,0 +1,36 @@
 /**
 ******************************************************************************
 * Xenia : Xbox 360 Emulator Research Project                                 *
 ******************************************************************************
 * Copyright 2022 Ben Vanik. All rights reserved.                             *
 * Released under the BSD license - see LICENSE in the root for more details. *
 ******************************************************************************
 */
 #ifndef XENIA_PATCHER_H_
 #define XENIA_PATCHER_H_
 #include "xenia/memory.h"
 #include "xenia/patcher/patch_db.h"
 namespace xe {
 namespace patcher {
 class Patcher {
 public:
  Patcher(const std::filesystem::path patches_root);
  void ApplyPatch(Memory* memory, const PatchInfoEntry* patch);
  void ApplyPatchesForTitle(Memory* memory, const uint32_t title_id,
                            const std::optional<uint64_t> hash);
  bool IsAnyPatchApplied() { return is_any_patch_applied_; }
 private:
  PatchDB* patch_db_;
  bool is_any_patch_applied_;
 };
 }  // namespace patcher
 }  // namespace xe
 #endif