commit e62a8c586574b07ff63f825c74730b2da3795e6b Author: Double Sine Date: Tue Feb 8 23:39:16 2022 +0800 upload codebase diff --git a/.github/workflows/build.yml b/.github/workflows/build.yml new file mode 100644 index 0000000..9e6bb1a --- /dev/null +++ b/.github/workflows/build.yml @@ -0,0 +1,61 @@ +name: navicat-keygen builds +on: [push] + +jobs: + navicat-keygen-x86: + runs-on: windows-latest + if: "startsWith(github.event.head_commit.message, '[build]')" + steps: + - name: Install dependencies + run: | + vcpkg install fmt:x86-windows-static + vcpkg install openssl:x86-windows-static + vcpkg install rapidjson:x86-windows-static + vcpkg install keystone:x86-windows-static + vcpkg install unicorn:x86-windows-static + + - name: Clone source + uses: actions/checkout@v2 + + - name: Add msbuild to PATH + uses: microsoft/setup-msbuild@v1.1 + + - name: Build project + run: | + vcpkg integrate install + msbuild navicat-keygen.sln /p:Configuration=Release /p:Platform=x86 + + - name: Upload artifacts + uses: actions/upload-artifact@v2 + with: + name: navicat-keygen-x86.zip + path: bin/x86-Release/*.exe + + navicat-keygen-x64: + runs-on: windows-latest + if: "startsWith(github.event.head_commit.message, '[build]')" + steps: + - name: Install dependencies + run: | + vcpkg install fmt:x64-windows-static + vcpkg install openssl:x64-windows-static + vcpkg install rapidjson:x64-windows-static + vcpkg install keystone:x64-windows-static + vcpkg install unicorn:x64-windows-static + + - name: Clone source + uses: actions/checkout@v2 + + - name: Add msbuild to PATH + uses: microsoft/setup-msbuild@v1.1 + + - name: Build project + run: | + vcpkg integrate install + msbuild navicat-keygen.sln /p:Configuration=Release /p:Platform=x64 + + - name: Upload artifacts + uses: actions/upload-artifact@v2 + with: + name: navicat-keygen-x64.zip + path: bin/x64-Release/*.exe diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..f6adf54 --- /dev/null +++ b/.gitignore @@ -0,0 +1,4 @@ +.vs/ +.vscode/ +bin/ +obj/ diff --git a/LICENSE b/LICENSE new file mode 100644 index 0000000..9d2bb69 --- /dev/null +++ b/LICENSE @@ -0,0 +1,674 @@ +GNU GENERAL PUBLIC LICENSE + Version 3, 29 June 2007 + + Copyright (C) 2007 Free Software Foundation, Inc. + Everyone is permitted to copy and distribute verbatim copies + of this license document, but changing it is not allowed. + + Preamble + + The GNU General Public License is a free, copyleft license for +software and other kinds of works. + + The licenses for most software and other practical works are designed +to take away your freedom to share and change the works. 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It is safest +to attach them to the start of each source file to most effectively +state the exclusion of warranty; and each file should have at least +the "copyright" line and a pointer to where the full notice is found. + + {one line to give the program's name and a brief idea of what it does.} + Copyright (C) 2017 {name of author} + + This program is free software: you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation, either version 3 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program. If not, see . + +Also add information on how to contact you by electronic and paper mail. + + If the program does terminal interaction, make it output a short +notice like this when it starts in an interactive mode: + + navicat-keygen Copyright (C) 2017 Double Helix + This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'. + This is free software, and you are welcome to redistribute it + under certain conditions; type `show c' for details. + +The hypothetical commands `show w' and `show c' should show the appropriate +parts of the General Public License. Of course, your program's commands +might be different; for a GUI interface, you would use an "about box". + + You should also get your employer (if you work as a programmer) or school, +if any, to sign a "copyright disclaimer" for the program, if necessary. +For more information on this, and how to apply and follow the GNU GPL, see +. + + The GNU General Public License does not permit incorporating your program +into proprietary programs. If your program is a subroutine library, you +may consider it more useful to permit linking proprietary applications with +the library. If this is what you want to do, use the GNU Lesser General +Public License instead of this License. But first, please read +. \ No newline at end of file diff --git a/README.md b/README.md new file mode 100644 index 0000000..8664b9a --- /dev/null +++ b/README.md @@ -0,0 +1,38 @@ +# navicat-keygen + +[中文版README](README.zh-CN.md) + +This repository will tell you how Navicat offline activation works. + +Previous code is archived in [`windows-archived`](https://github.com/DoubleLabyrinth/navicat-keygen/tree/windows-archived) branch for the reason that previous code contains 3rd binary libraries and it gets quite big :-( + + + +When you git-clone this repo, please add `--single-branch` flag so that archived branch won't be cloned to your computer, which saves your time and disk. + +```console +$ git clone -b windows --single-branch https://github.com/DoubleLabyrinth/navicat-keygen.git +``` + +## 1. How does it work? + +see [here](doc/how-does-it-work.md) + +## 2. How to build? + +see [here](doc/how-to-build.md). + +## 3. How to use? + +For Windows users, see [here](doc/how-to-use.windows.md). + +For Linux users, see [here](doc/how-to-use.linux.md). + +## 4. Contributor + +* Deltafox79 + +* dragonflylee + +* zenuo + diff --git a/README.zh-CN.md b/README.zh-CN.md new file mode 100644 index 0000000..b4498b3 --- /dev/null +++ b/README.zh-CN.md @@ -0,0 +1,34 @@ +# Navicat Keygen + +这份repo将会告诉你Navicat是怎么完成离线激活的。 + +由于历史代码包含第三方二进制库,且大小较大,故决定将该项目的历史代码归档到 [`windows-archived`](https://github.com/DoubleLabyrinth/navicat-keygen/tree/windows-archived) 分支。 + +当你clone该仓库的时候,请使用 `--single-branch` 选项,以此避免clone到 `windows-archived` 分支,并且还可以节省你的时间和磁盘空间。 + +```console +$ git clone -b windows --single-branch https://github.com/DoubleLabyrinth/navicat-keygen.git +``` + +## 1. 注册机是怎么工作的? + +见[这里](doc/how-does-it-work.zh-CN.md)。 + +## 2. 如何编译? + +见[这里](doc/how-to-build.zh-CN.md)。 + +## 3. 如何使用这个注册机? + +针对 Windows 用户,请见[这里](doc/how-to-use.windows.zh-CN.md)。 + +针对 Linux 用户,请见[这里](doc/how-to-use.linux.zh-CN.md)。 + +## 4. 贡献者 + +* Deltafox79 + +* dragonflylee + +* zenuo + diff --git a/common/common.vcxitems b/common/common.vcxitems new file mode 100644 index 0000000..f4354a3 --- /dev/null +++ b/common/common.vcxitems @@ -0,0 +1,46 @@ + + + + $(MSBuildAllProjects);$(MSBuildThisFileFullPath) + true + {6d81a756-475a-4093-919e-3e9217f662ca} + + + + %(AdditionalIncludeDirectories);$(MSBuildThisFileDirectory) + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/common/common.vcxitems.user b/common/common.vcxitems.user new file mode 100644 index 0000000..966b4ff --- /dev/null +++ b/common/common.vcxitems.user @@ -0,0 +1,6 @@ + + + + true + + \ No newline at end of file diff --git a/common/cp_converter.hpp b/common/cp_converter.hpp new file mode 100644 index 0000000..0a38f3b --- /dev/null +++ b/common/cp_converter.hpp @@ -0,0 +1,79 @@ +#pragma once +#include +#include +#include "exceptions/win32_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\common\\cp_converter.hpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + template + struct cp_converter { + static std::string convert(std::string_view from_string) { + if constexpr (from_cp == to_cp) { + return from_string; + } else { + if (from_cp == CP_ACP && GetACP() == to_cp) { + return from_string; + } else { + return cp_converter<-1, to_cp>::convert(cp_converter::convert(from_string)); + } + } + } + }; + + template + struct cp_converter { + static std::wstring convert(std::string_view from_string) { + int len; + + len = MultiByteToWideChar(from_cp, 0, from_string.data(), -1, NULL, 0); + if (len <= 0) { + throw ::nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"MultiByteToWideChar failed."); + } + + std::wstring to_string(len, 0); + + len = MultiByteToWideChar(from_cp, 0, from_string.data(), -1, to_string.data(), len); + if (len <= 0) { + throw ::nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"MultiByteToWideChar failed."); + } + + while (to_string.length() > 0 && to_string.back() == 0) { + to_string.pop_back(); + } + + return to_string; + } + }; + + template + struct cp_converter<-1, to_cp> { + static std::string convert(std::wstring_view from_string) { + int len; + + len = WideCharToMultiByte(to_cp, 0, from_string.data(), -1, NULL, 0, NULL, NULL); + if (len <= 0) { + throw ::nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"WideCharToMultiByte failed."); + } + + std::string to_string(len, 0); + + len = WideCharToMultiByte(to_cp, 0, from_string.data(), -1, to_string.data(), len, NULL, NULL); + if (len <= 0) { + throw ::nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"WideCharToMultiByte failed."); + } + + while (to_string.length() > 0 && to_string.back() == 0) { + to_string.pop_back(); + } + + return to_string; + } + }; + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/common/exception.hpp b/common/exception.hpp new file mode 100644 index 0000000..ca86d74 --- /dev/null +++ b/common/exception.hpp @@ -0,0 +1,90 @@ +#pragma once +#include +#include +#include +#include + +namespace nkg { + + class exception : public std::exception { + private: + int m_source_line; + std::string m_source_file; + std::string m_custom_message; + std::vector m_hints; + + public: + exception(std::string_view file, int line, std::string_view message) noexcept : + std::exception(), // don't pass `char*` to `std::exception`, because it is not documented in c++ standard. + m_source_line(line), + m_source_file(file), + m_custom_message(message) {} + + [[nodiscard]] + int source_line() const noexcept { + return m_source_line; + } + + [[nodiscard]] + const std::string& source_file() const noexcept { + return m_source_file; + } + + [[nodiscard]] + const std::string& custom_message() const noexcept { + return m_custom_message; + } + + exception& push_hint(std::string_view hint) noexcept { + m_hints.emplace_back(hint); + return *this; + } + + exception& pop_hint() noexcept { + m_hints.pop_back(); + return *this; + } + + const std::vector& hints() const noexcept { + return m_hints; + } + + virtual const char* what() const noexcept override { + return m_custom_message.c_str(); + } + + [[nodiscard]] + virtual bool error_code_exists() const noexcept { + return false; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept { +#if _MSC_VER + __debugbreak(); + __assume(false); +#elif defined(__GNUC__) || defined(__GNUG__) || defined(__clang__) + __builtin_trap(); + __builtin_unreachable(); +#else +#error "exception.hpp: unknown compiler is detected." +#endif + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept { +#if _MSC_VER + __debugbreak(); + __assume(false); +#elif defined(__GNUC__) || defined(__GNUG__) || defined(__clang__) + __builtin_trap(); + __builtin_unreachable(); +#else +#error "exception.hpp: unknown compiler is detected." +#endif + } + + virtual ~exception() = default; + }; + +} \ No newline at end of file diff --git a/common/exceptions/index_exception.hpp b/common/exceptions/index_exception.hpp new file mode 100644 index 0000000..f49d1c1 --- /dev/null +++ b/common/exceptions/index_exception.hpp @@ -0,0 +1,12 @@ +#pragma once +#include "../exception.hpp" + +namespace nkg::exceptions { + + class index_exception : public ::nkg::exception { + public: + index_exception(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + +} diff --git a/common/exceptions/key_exception.hpp b/common/exceptions/key_exception.hpp new file mode 100644 index 0000000..6809748 --- /dev/null +++ b/common/exceptions/key_exception.hpp @@ -0,0 +1,12 @@ +#pragma once +#include "../exception.hpp" + +namespace nkg::exceptions { + + class key_exception : public ::nkg::exception { + public: + key_exception(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + +} diff --git a/common/exceptions/not_implemented_exception.hpp b/common/exceptions/not_implemented_exception.hpp new file mode 100644 index 0000000..2e9db3e --- /dev/null +++ b/common/exceptions/not_implemented_exception.hpp @@ -0,0 +1,12 @@ +#pragma once +#include "../exception.hpp" + +namespace nkg::exceptions { + + class not_implemented_exception : public ::nkg::exception { + public: + not_implemented_exception(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + +} diff --git a/common/exceptions/openssl_exception.cpp b/common/exceptions/openssl_exception.cpp new file mode 100644 index 0000000..d2c879a --- /dev/null +++ b/common/exceptions/openssl_exception.cpp @@ -0,0 +1,20 @@ +#include "openssl_exception.hpp" +#include + +#pragma comment(lib, "libcrypto") +#pragma comment(lib, "crypt32") // required by libcrypto.lib +#pragma comment(lib, "ws2_32") // required by libcrypto.lib + +namespace nkg::exceptions { + + openssl_exception::openssl_exception(std::string_view file, int line, error_code_t openssl_error_code, std::string_view message) noexcept : + ::nkg::exception(file, line, message) + { + static std::once_flag onceflag_load_crypto_strings; + std::call_once(onceflag_load_crypto_strings, []() { ERR_load_crypto_strings(); }); + + m_error_code = openssl_error_code; + m_error_string = ERR_reason_error_string(m_error_code); + } + +} diff --git a/common/exceptions/openssl_exception.hpp b/common/exceptions/openssl_exception.hpp new file mode 100644 index 0000000..e34f158 --- /dev/null +++ b/common/exceptions/openssl_exception.hpp @@ -0,0 +1,34 @@ +#pragma once +#include "../exception.hpp" +#include + +namespace nkg::exceptions { + + class openssl_exception final : public ::nkg::exception { + public: + using error_code_t = decltype(ERR_get_error()); + + private: + error_code_t m_error_code; + std::string m_error_string; + + public: + openssl_exception(std::string_view file, int line, error_code_t openssl_error_code, std::string_view message) noexcept; + + [[nodiscard]] + virtual bool error_code_exists() const noexcept override { + return true; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept override { + return m_error_code; + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept override { + return m_error_string; + } + }; + +} diff --git a/common/exceptions/operation_canceled_exception.hpp b/common/exceptions/operation_canceled_exception.hpp new file mode 100644 index 0000000..5a1053c --- /dev/null +++ b/common/exceptions/operation_canceled_exception.hpp @@ -0,0 +1,12 @@ +#pragma once +#include "../exception.hpp" + +namespace nkg::exceptions { + + class operation_canceled_exception : public ::nkg::exception { + public: + operation_canceled_exception(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + +} diff --git a/common/exceptions/overflow_exception.hpp b/common/exceptions/overflow_exception.hpp new file mode 100644 index 0000000..5eb4fec --- /dev/null +++ b/common/exceptions/overflow_exception.hpp @@ -0,0 +1,12 @@ +#pragma once +#include "../exception.hpp" + +namespace nkg::exceptions { + + class overflow_exception : public ::nkg::exception { + public: + overflow_exception(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + +} diff --git a/common/exceptions/win32_exception.cpp b/common/exceptions/win32_exception.cpp new file mode 100644 index 0000000..76643f5 --- /dev/null +++ b/common/exceptions/win32_exception.cpp @@ -0,0 +1,30 @@ +#include "win32_exception.hpp" +#include "../resource_wrapper.hpp" +#include "../resource_traits/win32/local_alloc.hpp" +#include "../cp_converter.hpp" + +namespace nkg::exceptions { + + win32_exception::win32_exception(std::string_view file, int line, error_code_t win32_error_code, std::string_view message) noexcept : + ::nkg::exception(file, line, message) + { + m_error_code = win32_error_code; + + ::nkg::resource_wrapper error_string{ ::nkg::resource_traits::win32::local_alloc{} }; + FormatMessageW( + FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_IGNORE_INSERTS | FORMAT_MESSAGE_MAX_WIDTH_MASK, + NULL, + win32_error_code, + MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), + error_string.template unsafe_addressof(), + 0, + NULL + ); + if (error_string.is_valid()) { + m_error_string = ::nkg::cp_converter<-1, CP_UTF8>::convert(error_string.template as()); + } else { + std::terminate(); + } + } + +} diff --git a/common/exceptions/win32_exception.hpp b/common/exceptions/win32_exception.hpp new file mode 100644 index 0000000..98ec4b1 --- /dev/null +++ b/common/exceptions/win32_exception.hpp @@ -0,0 +1,35 @@ +#pragma once +#include "../exception.hpp" +#include + +namespace nkg::exceptions { + + class win32_exception final : public ::nkg::exception { + public: + using error_code_t = decltype(GetLastError()); + + private: + error_code_t m_error_code; + std::string m_error_string; + + public: + + win32_exception(std::string_view file, int line, error_code_t win32_error_code, std::string_view message) noexcept; + + [[nodiscard]] + virtual bool error_code_exists() const noexcept override { + return true; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept override { + return m_error_code; + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept override { + return m_error_string; + } + }; + +} diff --git a/common/resource_traits/cxx_dynamic_array_traits.hpp b/common/resource_traits/cxx_dynamic_array_traits.hpp new file mode 100644 index 0000000..15132ed --- /dev/null +++ b/common/resource_traits/cxx_dynamic_array_traits.hpp @@ -0,0 +1,21 @@ +#pragma once + +namespace nkg::resource_traits { + + template + struct cxx_dynamic_array_traits { + using handle_t = element_t*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + delete[] handle; + } + }; + +} diff --git a/common/resource_traits/cxx_object_traits.hpp b/common/resource_traits/cxx_object_traits.hpp new file mode 100644 index 0000000..d0ddee1 --- /dev/null +++ b/common/resource_traits/cxx_object_traits.hpp @@ -0,0 +1,21 @@ +#pragma once + +namespace nkg::resource_traits { + + template + struct cxx_object_traits { + using handle_t = object_t*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + delete handle; + } + }; + +} diff --git a/common/resource_traits/keystone/keystone_handle.hpp b/common/resource_traits/keystone/keystone_handle.hpp new file mode 100644 index 0000000..9c88276 --- /dev/null +++ b/common/resource_traits/keystone/keystone_handle.hpp @@ -0,0 +1,35 @@ +#pragma once +#include + +namespace nkg::resource_traits::keystone { + + struct keystone_handle { + using handle_t = ks_engine*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + ks_close(handle); + } + }; + + struct keystone_alloc { + using handle_t = unsigned char*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) noexcept { + ks_free(handle); + } + }; +} diff --git a/common/resource_traits/openssl/bignum.hpp b/common/resource_traits/openssl/bignum.hpp new file mode 100644 index 0000000..17584b8 --- /dev/null +++ b/common/resource_traits/openssl/bignum.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::openssl { + + struct bignum { + using handle_t = BIGNUM*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) noexcept { + BN_free(handle); + } + }; + +} diff --git a/common/resource_traits/openssl/bio.hpp b/common/resource_traits/openssl/bio.hpp new file mode 100644 index 0000000..fa4e387 --- /dev/null +++ b/common/resource_traits/openssl/bio.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::openssl { + + struct bio { + using handle_t = BIO*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) noexcept { + BIO_free(handle); + } + }; + +} diff --git a/common/resource_traits/openssl/bio_chain.hpp b/common/resource_traits/openssl/bio_chain.hpp new file mode 100644 index 0000000..cf321a5 --- /dev/null +++ b/common/resource_traits/openssl/bio_chain.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::openssl { + + struct bio_chain { + using handle_t = BIO*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) noexcept { + BIO_free_all(handle); + } + }; + +} diff --git a/common/resource_traits/openssl/rsa.hpp b/common/resource_traits/openssl/rsa.hpp new file mode 100644 index 0000000..3b9f49a --- /dev/null +++ b/common/resource_traits/openssl/rsa.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::openssl { + + struct rsa { + using handle_t = RSA*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) noexcept { + RSA_free(handle); + } + }; + +} diff --git a/common/resource_traits/unicorn/unicorn_handle.hpp b/common/resource_traits/unicorn/unicorn_handle.hpp new file mode 100644 index 0000000..67fc254 --- /dev/null +++ b/common/resource_traits/unicorn/unicorn_handle.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::unicorn { + + struct unicorn_handle { + using handle_t = uc_engine*; + + static constexpr handle_t invalid_value = nullptr; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + uc_close(handle); + } + }; + +} diff --git a/common/resource_traits/win32/file_handle.hpp b/common/resource_traits/win32/file_handle.hpp new file mode 100644 index 0000000..0f1aafc --- /dev/null +++ b/common/resource_traits/win32/file_handle.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::win32 { + + struct file_handle { + using handle_t = HANDLE; + + static inline const handle_t invalid_value = INVALID_HANDLE_VALUE; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + CloseHandle(handle); + } + }; + +} diff --git a/common/resource_traits/win32/generic_handle.hpp b/common/resource_traits/win32/generic_handle.hpp new file mode 100644 index 0000000..dc0dd85 --- /dev/null +++ b/common/resource_traits/win32/generic_handle.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::win32 { + + struct generic_handle { + using handle_t = HANDLE; + + static constexpr handle_t invalid_value = NULL; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + CloseHandle(handle); + } + }; + +} diff --git a/common/resource_traits/win32/local_alloc.hpp b/common/resource_traits/win32/local_alloc.hpp new file mode 100644 index 0000000..f593736 --- /dev/null +++ b/common/resource_traits/win32/local_alloc.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::win32 { + + struct local_alloc { + using handle_t = HLOCAL; + + static constexpr handle_t invalid_value = NULL; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t handle) { + LocalFree(handle); + } + }; + +} diff --git a/common/resource_traits/win32/map_view_ptr.hpp b/common/resource_traits/win32/map_view_ptr.hpp new file mode 100644 index 0000000..a8b848d --- /dev/null +++ b/common/resource_traits/win32/map_view_ptr.hpp @@ -0,0 +1,21 @@ +#pragma once +#include + +namespace nkg::resource_traits::win32 { + + struct map_view_ptr { + using handle_t = PVOID; + + static constexpr handle_t invalid_value = NULL; + + [[nodiscard]] + static bool is_valid(const handle_t& handle) noexcept { + return handle != invalid_value; + } + + static void release(const handle_t& handle) { + UnmapViewOfFile(handle); + } + }; + +} diff --git a/common/resource_wrapper.hpp b/common/resource_wrapper.hpp new file mode 100644 index 0000000..3a52994 --- /dev/null +++ b/common/resource_wrapper.hpp @@ -0,0 +1,245 @@ +#pragma once +#include +#include + +namespace nkg { + + template + class resource_wrapper { + public: + using handle_t = typename resource_traits_t::handle_t; + static_assert(std::is_trivial_v && std::is_standard_layout_v, "`resource_wrapper` requires a handle with POD type."); + + private: + handle_t m_handle; + releaser_t m_releaser; + + public: + template + resource_wrapper(releaser_arg_t&& releaser) noexcept : + m_handle(resource_traits_t::invalid_value), + m_releaser(std::forward(releaser)) {} + + template + resource_wrapper(const handle_t& handle, releaser_arg_t&& releaser) noexcept : + m_handle(handle), + m_releaser(std::forward(releaser)) {} + + template + resource_wrapper(resource_traits_t, releaser_arg_t&& releaser) noexcept : + m_handle(resource_traits_t::invalid_value), + m_releaser(std::forward(releaser)) {} + + template + resource_wrapper(resource_traits_t, const handle_t& handle, releaser_arg_t&& releaser) noexcept : + m_handle(handle), + m_releaser(std::forward(releaser)) {} + + // + // `resource_wrapper` does not allow copy-construct + // + resource_wrapper(const resource_wrapper& other) = delete; + + // + // `resource_wrapper` allows move-construct. + // + resource_wrapper(resource_wrapper&& other) noexcept : + m_handle(other.m_handle), + m_releaser(std::move(other.m_releaser)) + { + other.m_handle = resource_traits_t::invalid_value; + } + + // + // `resource_wrapper` does not allow to copy. + // + resource_wrapper& operator=(const resource_wrapper& other) = delete; + + // + // `resource_wrapper` allows to move. + // + resource_wrapper& operator=(resource_wrapper&& other) noexcept { + if (this != std::addressof(other)) { + m_handle = other.m_handle; + m_releaser = std::move(other.m_releaser); + other.m_handle = resource_traits_t::invalid_value; + } + return *this; + } + + template>> + [[nodiscard]] + handle_t operator->() const noexcept { + return m_handle; + } + + template>> + [[nodiscard]] + as_t as() const noexcept { + return reinterpret_cast(m_handle); + } + + [[nodiscard]] + bool is_valid() const noexcept { + return resource_traits_t::is_valid(m_handle); + } + + [[nodiscard]] + const handle_t& get() const noexcept { + return m_handle; + } + + template + [[nodiscard]] + as_t* unsafe_addressof() noexcept { + return reinterpret_cast(std::addressof(m_handle)); + } + + void set(const handle_t& handle) { + if (is_valid()) { + m_releaser(m_handle); + } + m_handle = handle; + } + + void discard() noexcept { + m_handle = resource_traits_t::invalid_value; + } + + [[nodiscard]] + handle_t transfer() noexcept { + handle_t t = m_handle; + m_handle = resource_traits_t::invalid_value; + return t; + } + + void release() { + if (is_valid()) { + m_releaser(m_handle); + m_handle = resource_traits_t::invalid_value; + } + } + + ~resource_wrapper() { + release(); + } + }; + + template + class resource_wrapper { + public: + using handle_t = typename resource_traits_t::handle_t; + static_assert(std::is_trivial_v&& std::is_standard_layout_v, "`resource_wrapper` requires a handle with POD type."); + + private: + handle_t m_handle; + + public: + resource_wrapper() noexcept : + m_handle(resource_traits_t::invalid_value) {} + + resource_wrapper(const handle_t& handle) noexcept : + m_handle(handle) {} + + resource_wrapper(resource_traits_t) noexcept : + m_handle(resource_traits_t::invalid_value) {} + + resource_wrapper(resource_traits_t, const handle_t& handle) noexcept : + m_handle(handle) {} + + resource_wrapper(const resource_wrapper& other) = delete; + + resource_wrapper(resource_wrapper&& other) noexcept : + m_handle(other.m_handle) + { + other.m_handle = resource_traits_t::invalid_value; + } + + resource_wrapper& operator=(const resource_wrapper& other) = delete; + + resource_wrapper& operator=(resource_wrapper&& other) noexcept { + if (this != std::addressof(other)) { + m_handle = other.m_handle; + other.m_handle = resource_traits_t::invalid_value; + } + return *this; + } + + template>> + [[nodiscard]] + handle_t operator->() const noexcept { + return m_handle; + } + + template>> + [[nodiscard]] + as_t as() const noexcept { + return reinterpret_cast(m_handle); + } + + [[nodiscard]] + bool is_valid() const noexcept { + return resource_traits_t::is_valid(m_handle); + } + + [[nodiscard]] + const handle_t& get() const noexcept { + return m_handle; + } + + template + [[nodiscard]] + as_t* unsafe_addressof() noexcept { + return reinterpret_cast(std::addressof(m_handle)); + } + + void set(const handle_t& handle) { + if (is_valid()) { + resource_traits_t::release(m_handle); + } + m_handle = handle; + } + + void discard() noexcept { + m_handle = resource_traits_t::invalid_value; + } + + [[nodiscard]] + handle_t transfer() noexcept { + handle_t t = m_handle; + m_handle = resource_traits_t::invalid_value; + return t; + } + + void release() { + if (is_valid()) { + resource_traits_t::release(m_handle); + m_handle = resource_traits_t::invalid_value; + } + } + + ~resource_wrapper() { + release(); + } + }; + + template + resource_wrapper(resource_traits_t) -> + resource_wrapper; + + template + resource_wrapper(resource_traits_t, arg_t&&) -> + resource_wrapper< + resource_traits_t, + std::conditional_t< + std::is_same_v>, typename resource_traits_t::handle_t> == false, + std::remove_reference_t, + void + > + >; + + template + resource_wrapper(resource_traits_t, const handle_t&, releaser_t&&) -> + resource_wrapper>; + +} diff --git a/common/rsa_cipher.cpp b/common/rsa_cipher.cpp new file mode 100644 index 0000000..4dfaf82 --- /dev/null +++ b/common/rsa_cipher.cpp @@ -0,0 +1,361 @@ +#include "rsa_cipher.hpp" + +#include +#include +#include + +#include "resource_traits/openssl/bio.hpp" +#include "resource_traits/openssl/bignum.hpp" + +#include "cp_converter.hpp" + +#include "exceptions/overflow_exception.hpp" +#include "exceptions/openssl_exception.hpp" + +#pragma comment(lib, "libcrypto") +#pragma comment(lib, "crypt32") // required by libcrypto.lib +#pragma comment(lib, "ws2_32") // required by libcrypto.lib + +#define NKG_CURRENT_SOURCE_FILE() u8".\\common\\rsa_cipher.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + RSA* rsa_cipher::_read_private_key_from_bio(BIO* p_bio) { + resource_wrapper new_rsa + { resource_traits::openssl::rsa{}, PEM_read_bio_RSAPrivateKey(p_bio, nullptr, nullptr, nullptr) }; + + if (new_rsa.is_valid()) { + return new_rsa.transfer(); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_read_bio_RSAPrivateKey failed.") + .push_hint(u8"Are you sure that you DO provide a valid RSA private key file?"); + } + } + + RSA* rsa_cipher::_read_public_key_pem_from_bio(BIO* p_bio) { + resource_wrapper new_rsa + { resource_traits::openssl::rsa{}, PEM_read_bio_RSA_PUBKEY(p_bio, nullptr, nullptr, nullptr) }; + + if (new_rsa.is_valid()) { + return new_rsa.transfer(); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_read_bio_RSA_PUBKEY failed.") + .push_hint(u8"Are you sure that you DO provide a valid RSA public key file with PEM format?"); + } + } + + RSA* rsa_cipher::_read_public_key_pkcs1_from_bio(BIO* p_bio) { + resource_wrapper new_rsa + { resource_traits::openssl::rsa{}, PEM_read_bio_RSAPublicKey(p_bio, nullptr, nullptr, nullptr) }; + + if (new_rsa.is_valid()) { + return new_rsa.transfer(); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_read_bio_RSAPublicKey failed.") + .push_hint(u8"Are you sure that you DO provide a valid RSA public key file with PKCS1 format?"); + } + } + + void rsa_cipher::_write_private_key_to_bio(RSA* p_rsa, BIO* p_bio) { + auto r = PEM_write_bio_RSAPrivateKey(p_bio, p_rsa, nullptr, nullptr, 0, nullptr, nullptr); + if (r == 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_write_bio_RSAPrivateKey failed."); + }; + } + + void rsa_cipher::_write_public_key_pem_to_bio(RSA* p_rsa, BIO* p_bio) { + auto r = PEM_write_bio_RSA_PUBKEY(p_bio, p_rsa); + if (r == 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_write_bio_RSA_PUBKEY failed."); + } + } + + void rsa_cipher::_write_public_key_pkcs1_to_bio(RSA* p_rsa, BIO* p_bio) { + auto r = PEM_write_bio_RSAPublicKey(p_bio, p_rsa); + if (r == 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"PEM_write_bio_RSAPublicKey failed."); + } + } + + rsa_cipher::rsa_cipher() : m_rsa(RSA_new()) { + if (!m_rsa.is_valid()) { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_new failed."); + } + } + + [[nodiscard]] + size_t rsa_cipher::bits() const { +#if (OPENSSL_VERSION_NUMBER & 0xffff0000) == 0x10000000 // openssl 1.0.x + if (m_rsa->n == nullptr) { + throw no_key_assigned_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"RSA modulus has not been set."); + } + return BN_num_bits(m_rsa->n); +#elif (OPENSSL_VERSION_NUMBER & 0xffff0000) == 0x10100000 // openssl 1.1.x + return RSA_bits(m_rsa.get()); +#else +#error "rsa_cipher.cpp: uexpected OpenSSL version" +#endif + } + + void rsa_cipher::generate_key(int bits, unsigned int e) { + resource_wrapper bn_e{ resource_traits::openssl::bignum{}, BN_new() }; + + if (bn_e.is_valid() == false) { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"BN_new failed."); + } + + if (BN_set_word(bn_e.get(), e) == 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BN_set_word failed."); + } + + if (RSA_generate_key_ex(m_rsa.get(), bits, bn_e.get(), nullptr) == 0) { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_generate_key_ex failed."); + } + } + + void rsa_cipher::export_private_key_file(std::wstring_view file_path) const { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "w")}; + + if (bio_file.is_valid()) { + _write_private_key_to_bio(m_rsa.get(), bio_file.get()); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::export_private_key_file(const std::filesystem::path& file_path) const { + export_private_key_file(static_cast(file_path.native())); + } + + void rsa_cipher::export_public_key_file_pem(std::wstring_view file_path) const { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "w")}; + + if (bio_file.is_valid()) { + _write_public_key_pem_to_bio(m_rsa.get(), bio_file.get()); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::export_public_key_file_pem(const std::filesystem::path& file_path) const { + export_public_key_file_pem(static_cast(file_path.native())); + } + + void rsa_cipher::export_public_key_file_pkcs1(std::wstring_view file_path) const { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "w")}; + + if (bio_file.is_valid()) { + _write_public_key_pkcs1_to_bio(m_rsa.get(), bio_file.get()); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::export_public_key_file_pkcs1(const std::filesystem::path& file_path) const { + export_public_key_file_pkcs1(static_cast(file_path.native())); + } + + void rsa_cipher::import_private_key_file(std::wstring_view file_path) { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "r") }; + + if (bio_file.is_valid()) { + m_rsa.set(_read_private_key_from_bio(bio_file.get())); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::import_private_key_file(const std::filesystem::path& file_path) { + import_private_key_file(static_cast(file_path.native())); + } + + void rsa_cipher::import_public_key_file_pem(std::wstring_view file_path) { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "r") }; + + if (bio_file.is_valid()) { + m_rsa.set(_read_public_key_pem_from_bio(bio_file.get())); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::import_public_key_file_pem(const std::filesystem::path& file_path) { + import_public_key_file_pem(static_cast(file_path.native())); + } + + void rsa_cipher::import_public_key_file_pkcs1(std::wstring_view file_path) { + resource_wrapper bio_file + { resource_traits::openssl::bio{}, BIO_new_file(cp_converter<-1, CP_UTF8>::convert(file_path).c_str(), "r") }; + + if (bio_file.is_valid()) { + m_rsa.set(_read_public_key_pkcs1_from_bio(bio_file.get())); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new_file failed."); + } + } + + void rsa_cipher::import_public_key_file_pkcs1(const std::filesystem::path& file_path) { + import_public_key_file_pkcs1(static_cast(file_path.native())); + } + + [[nodiscard]] + std::string rsa_cipher::export_private_key_string() const { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid()) { + _write_private_key_to_bio(m_rsa.get(), bio_memory.get()); + + const char* pch = nullptr; + long lch = BIO_get_mem_data(bio_memory.get(), &pch); + + return std::string(pch, lch); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + } + + [[nodiscard]] + std::string rsa_cipher::export_public_key_string_pem() const { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid()) { + _write_public_key_pem_to_bio(m_rsa.get(), bio_memory.get()); + + const char* pch = nullptr; + long lch = BIO_get_mem_data(bio_memory.get(), &pch); + + return std::string(pch, lch); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + } + + [[nodiscard]] + std::string rsa_cipher::export_public_key_string_pkcs1() const { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid()) { + _write_public_key_pkcs1_to_bio(m_rsa.get(), bio_memory.get()); + + const char* pch = nullptr; + long lch = BIO_get_mem_data(bio_memory.get(), &pch); + + return std::string(pch, lch); + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + } + + void rsa_cipher::import_private_key_string(std::string_view key_string) { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + if (BIO_puts(bio_memory.get(), key_string.data()) <= 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_puts failed."); + } + + m_rsa.set(_read_private_key_from_bio(bio_memory.get())); + } + + void rsa_cipher::import_public_key_string_pem(std::string_view key_string) { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + if (BIO_puts(bio_memory.get(), key_string.data()) <= 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_puts failed."); + } + + m_rsa.set(_read_public_key_pem_from_bio(bio_memory.get())); + } + + void rsa_cipher::import_public_key_string_pkcs1(std::string_view key_string) { + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + + if (bio_memory.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + if (BIO_puts(bio_memory.get(), key_string.data()) <= 0) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_puts failed."); + } + + m_rsa.set(_read_public_key_pkcs1_from_bio(bio_memory.get())); + } + + size_t rsa_cipher::public_encrypt(const void* plaintext, size_t plaintext_size, void* ciphertext, int padding) const { + if (plaintext_size <= INT_MAX) { + int bytes_written = + RSA_public_encrypt(static_cast(plaintext_size), reinterpret_cast(plaintext), reinterpret_cast(ciphertext), m_rsa.get(), padding); + + if (bytes_written != -1) { + return bytes_written; + } else { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_public_encrypt failed."); + } + } else { + throw exceptions::overflow_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"plaintext_size > INT_MAX"); + } + } + + size_t rsa_cipher::private_encrypt(const void* plaintext, size_t plaintext_size, void* ciphertext, int padding) const { + if (plaintext_size <= INT_MAX) { + int bytes_written = + RSA_private_encrypt(static_cast(plaintext_size), reinterpret_cast(plaintext), reinterpret_cast(ciphertext), m_rsa.get(), padding); + + if (bytes_written != -1) { + return bytes_written; + } else { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_public_encrypt failed."); + } + } else { + throw exceptions::overflow_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"plaintext_size > INT_MAX"); + } + } + + size_t rsa_cipher::public_decrypt(const void* ciphertext, size_t ciphertext_size, void* plaintext, int padding) const { + if (ciphertext_size <= INT_MAX) { + int bytes_written = + RSA_public_decrypt(static_cast(ciphertext_size), reinterpret_cast(ciphertext), reinterpret_cast(plaintext), m_rsa.get(), padding); + + if (bytes_written != -1) { + return bytes_written; + } else { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_public_decrypt failed.") + .push_hint(u8"Are your sure you DO provide a correct public key?"); + } + } else { + throw exceptions::overflow_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"ciphertext_size > INT_MAX"); + } + } + + size_t rsa_cipher::private_decrypt(const void* ciphertext, size_t ciphertext_size, void* plaintext, int padding) const { + if (ciphertext_size <= INT_MAX) { + int bytes_written = + RSA_private_decrypt(static_cast(ciphertext_size), reinterpret_cast(ciphertext), reinterpret_cast(plaintext), m_rsa.get(), padding); + + if (bytes_written != -1) { + return bytes_written; + } else { + throw exceptions::openssl_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), ERR_get_error(), u8"RSA_public_decrypt failed.") + .push_hint(u8"Are your sure you DO provide a correct private key?"); + } + } else { + throw exceptions::overflow_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"ciphertext_size > INT_MAX"); + } + } +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/common/rsa_cipher.hpp b/common/rsa_cipher.hpp new file mode 100644 index 0000000..39a9bc7 --- /dev/null +++ b/common/rsa_cipher.hpp @@ -0,0 +1,108 @@ +#pragma once +#include +#include +#include + +#include "resource_wrapper.hpp" +#include "resource_traits/openssl/rsa.hpp" + +#include "exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\common\\rsa_cipher.hpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + class rsa_cipher { + public: + class no_key_assigned_error : public ::nkg::exception { + public: + no_key_assigned_error(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + + class backend_error : public ::nkg::exception { + public: + backend_error(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + + private: + resource_wrapper m_rsa; + + [[nodiscard]] + static RSA* _read_private_key_from_bio(BIO* p_bio); + + [[nodiscard]] + static RSA* _read_public_key_pem_from_bio(BIO* p_bio); + + [[nodiscard]] + static RSA* _read_public_key_pkcs1_from_bio(BIO* p_bio); + + static void _write_private_key_to_bio(RSA* p_rsa, BIO* p_bio); + + static void _write_public_key_pem_to_bio(RSA* p_rsa, BIO* p_bio); + + static void _write_public_key_pkcs1_to_bio(RSA* p_rsa, BIO* p_bio); + + public: + + rsa_cipher(); + + [[nodiscard]] + size_t bits() const; + + void generate_key(int bits, unsigned int e = RSA_F4); + + void export_private_key_file(std::wstring_view file_path) const; + + void export_private_key_file(const std::filesystem::path& file_path) const; + + void export_public_key_file_pem(std::wstring_view file_path) const; + + void export_public_key_file_pem(const std::filesystem::path& file_path) const; + + void export_public_key_file_pkcs1(std::wstring_view file_path) const; + + void export_public_key_file_pkcs1(const std::filesystem::path& file_path) const; + + void import_private_key_file(std::wstring_view file_path); + + void import_private_key_file(const std::filesystem::path& file_path); + + void import_public_key_file_pem(std::wstring_view file_path); + + void import_public_key_file_pem(const std::filesystem::path& file_path); + + void import_public_key_file_pkcs1(std::wstring_view file_path); + + void import_public_key_file_pkcs1(const std::filesystem::path& file_path); + + [[nodiscard]] + std::string export_private_key_string() const; + + [[nodiscard]] + std::string export_public_key_string_pem() const; + + [[nodiscard]] + std::string export_public_key_string_pkcs1() const; + + void import_private_key_string(std::string_view key_string); + + void import_public_key_string_pem(std::string_view key_string); + + void import_public_key_string_pkcs1(std::string_view key_string); + + size_t public_encrypt(const void* plaintext, size_t plaintext_size, void* ciphertext, int padding) const; + + size_t private_encrypt(const void* plaintext, size_t plaintext_size, void* ciphertext, int padding) const; + + size_t public_decrypt(const void* ciphertext, size_t ciphertext_size, void* plaintext, int padding) const; + + size_t private_decrypt(const void* ciphertext, size_t ciphertext_size, void* plaintext, int padding) const; + }; + +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/doc/how-does-it-work.md b/doc/how-does-it-work.md new file mode 100644 index 0000000..48f2ed2 --- /dev/null +++ b/doc/how-does-it-work.md @@ -0,0 +1,284 @@ +# Navicat Keygen - How does it work? + +[中文版](how-does-it-work.zh-CN.md) + +## 1. Keyword Explanation. + +* __Navicat Activation Public Key__ + + It is a __RSA-2048__ public key that Navicat used to encrypt or decrypt offline activation information. + + It is stored in __navicat.exe__ as a kind of resource called __RCData__. The resource name is `"ACTIVATIONPUBKEY"`. You can see it by a software called [___Resource Hacker___](http://www.angusj.com/resourcehacker/). The public key is + + ``` + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAw1dqF3SkCaAAmMzs889I + qdW9M2dIdh3jG9yPcmLnmJiGpBF4E9VHSMGe8oPAy2kJDmdNt4BcEygvssEfginv + a5t5jm352UAoDosUJkTXGQhpAWMF4fBmBpO3EedG62rOsqMBgmSdAyxCSPBRJIOF + R0QgZFbRnU0frj34fiVmgYiLuZSAmIbs8ZxiHPdp1oD4tUpvsFci4QJtYNjNnGU2 + WPH6rvChGl1IRKrxMtqLielsvajUjyrgOC6NmymYMvZNER3htFEtL1eQbCyTfDmt + YyQ1Wt4Ot12lxf0wVIR5mcGN7XCXJRHOFHSf1gzXWabRSvmt1nrl7sW6cjxljuuQ + awIDAQAB + -----END PUBLIC KEY----- + ``` + + If you have the corresponding private key, you can tell me. I would be very appreciated for your generous. + + __NOTICE:__ + + Start from __Navicat Premium 12.0.25__, Navicat do not load this public key from resource in `navicat.exe`. Instead, the public key is stored in `libcc.dll` and has been encrypted. To avoid being replaced easily, the public key is split into 5 parts: + + The following content is discovered from `libcc.dll` of __Navicat Premium x64 12.0.25 Simplified Chinese version__. The SHA256 value of `libcc.dll` is `607e0a84c75966b00f3d12fa833e91d159e4f51ac51b6ba66f98d0c3cbefdce0`. + + I __DO NOT__ guarantee that offset values are absolutely correct in other versions. But __char strings__ and __immediate values__ are highly possible to be found. + + 1. At file offset `+0x01A12090` in `libcc.dll`, stored as __char string__: + + ``` + "D75125B70767B94145B47C1CB3C0755E + 7CCB8825C5DCE0C58ACF944E08280140 + 9A02472FAFFD1CD77864BB821AE36766 + FEEDE6A24F12662954168BFA314BD950 + 32B9D82445355ED7BC0B880887D650F5" + ``` + + 2. At file offset `+0x0059D799` in `libcc.dll`, stored as __immediate value__ in a instruction: + + ``` + 0xFE 0xEA 0xBC 0x01 + ``` + + In decimal: `29158142` + + 3. At file offset `+0x01A11DA0` in `libcc.dll`, stored as __char string__: + + ``` + "E1CED09B9C2186BF71A70C0FE2F1E0AE + F3BD6B75277AAB20DFAF3D110F75912B + FB63AC50EC4C48689D1502715243A79F + 39FF2DE2BF15CE438FF885745ED54573 + 850E8A9F40EE2FF505EB7476F95ADB78 + 3B28CA374FAC4632892AB82FB3BF4715 + FCFE6E82D03731FC3762B6AAC3DF1C3B + C646FE9CD3C62663A97EE72DB932A301 + 312B4A7633100C8CC357262C39A2B3A6 + 4B224F5276D5EDBDF0804DC3AC4B8351 + 62BB1969EAEBADC43D2511D6E0239287 + 81B167A48273B953378D3D2080CC0677 + 7E8A2364F0234B81064C5C739A8DA28D + C5889072BF37685CBC94C2D31D0179AD + 86D8E3AA8090D4F0B281BE37E0143746 + E6049CCC06899401264FA471C016A96C + 79815B55BBC26B43052609D9D175FBCD + E455392F10E51EC162F51CF732E6BB39 + 1F56BBFD8D957DF3D4C55B71CEFD54B1 + 9C16D458757373E698D7E693A8FC3981 + 5A8BF03BA05EA8C8778D38F9873D62B4 + 460F41ACF997C30E7C3AF025FA171B5F + 5AD4D6B15E95C27F6B35AD61875E5505 + 449B4E" + ``` + + 4. At file offset `+0x0059D77F` in `libcc.dll`, stored as __immediate value__ in a instruction: + + ``` + 0x59 0x08 0x01 0x00 + ``` + + In decimal: `67673` + + 5. At file offset `+ 0x1A11D8C` in `libcc.dll`, stored as __char string__: + + ``` + "92933" + ``` + + Then output encrypted public key with format `"%s%d%s%d%s"`. The order is the same as it lists: + + ```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``` + + This encrypted public key can be decrypted by my another repo: [how-does-navicat-encrypt-password](https://github.com/DoubleLabyrinth/how-does-navicat-encrypt-password), while the key used is `b'23970790'`. + + Example: + + ```cmd + E:\GitHub>git clone https://github.com/DoubleLabyrinth/how-does-navicat-encrypt-password.git + ... + E:\GitHub>cd how-does-navicat-encrypt-password\python3 + E:\GitHub\how-does-navicat-encrypt-password\python3>python + Python 3.6.3 (v3.6.3:2c5fed8, Oct 3 2017, 18:11:49) [MSC v.1900 64 bit (AMD64)] on win32 + Type "help", "copyright", "credits" or "license" for more information. + >>> from NavicatCrypto import * + >>> cipher = Navicat11Crypto(b'23970790') + >>> print(cipher.DecryptString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jANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAw1dqF3SkCaAAmMzs889I + qdW9M2dIdh3jG9yPcmLnmJiGpBF4E9VHSMGe8oPAy2kJDmdNt4BcEygvssEfginv + a5t5jm352UAoDosUJkTXGQhpAWMF4fBmBpO3EedG62rOsqMBgmSdAyxCSPBRJIOF + R0QgZFbRnU0frj34fiVmgYiLuZSAmIbs8ZxiHPdp1oD4tUpvsFci4QJtYNjNnGU2 + WPH6rvChGl1IRKrxMtqLielsvajUjyrgOC6NmymYMvZNER3htFEtL1eQbCyTfDmt + YyQ1Wt4Ot12lxf0wVIR5mcGN7XCXJRHOFHSf1gzXWabRSvmt1nrl7sW6cjxljuuQ + awIDAQAB + -----END PUBLIC KEY----- + ``` + + __NOTICE:__ + + Start from __Navicat Premium 12.1.11__, Navicat do not load the public key through the method I talked before. Of course, the public key is still stored in `libcc.dll`. When Navicat starts, it encrypts the public key by an 8-bytes-long XOR key and stores the ciphertext in static area. When verifing __Activation Code__, Navicat will regenerate the 8-bytes-long XOR key and decrypts the ciphertext in static area to get the public key. + + In `libcc.dll`, x64 version, you can find some instructions that looks like: + + ```asm + xor eax, 'M' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'B' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'j' + mov byte_xxxxxx, al + ... + ... + ``` + +* __Request Code__ + + It is a Base64 string that represents 256-bytes-long data, while the 256-bytes-long data is the cipher text of __Offline Activation Request Information__ encrypted by __Navicat Activation Public Key__. + +* __Offline Activation Request Information__ + + It is just a JSON-style ASCII string which contains 3 items. They are `"K"`, `"DI"` and `"P"` respectively, which represent __snKey__, __DeviceIdentifier__ (related with your machine), __Platform__ (OS Type). + + Like + + ``` + {"K": "xxxxxxxxxxxxxxxx", "DI": "yyyyyyyyyyyyy", "P": "WIN8"} + ``` + +* __Activation Code__ + + It is a Base64 string that represents 256-bytes-long data, while the 256-bytes-long data is the cipher text of the __Offline Activation Response Information__ encrypted by __Navicat Activation Private Key__. So far, we don't know the official activation private key and we have to replace it in `navicat.exe` and `libcc.dll`. + +* __Offline Activation Response Information__ + + Just like __Offline Activation Request Information__, it is also a JSON-style ASCII string. But it contains 5 items. They are `"K"`, `"N"`, `"O"`, `"T"` and `"DI"` respectively. + + `"K"` and `"DI"` has the same meaning that is mentioned in __Offline Activation Request Information__ and must be the same with the corresponding items in __Offline Activation Request Information__. + + `"N"`, `"O"`, `"T"` represent __Name__, __Organization__, __Timestamp__ respectively. __Name__ and __Organization__ are UTF-8 strings and the type of __Timestamp__ can be string or integer. (Thanks for discoveries from @Wizr, issue #10) + + `"T"` can be omitted. + +* __snKey__ + + It is a 4-block-long string, while every block is 4-chars-long. + + __snKey__ is generated by 10-bytes-long data. In order to explain it easily, I use __uint8_t data[10]__ to represent the 10-bytes-long data. + + 1. __data[0]__ and __data[1]__ must be `0x68` and `0x2A` respectively. + + These two bytes are Naivcat signature number. + + 2. __data[2]__, __data[3]__ and __data[4]__ can be any byte. Just set them whatever you want. + + 3. __data[5]__ and __data[6]__ are product language signatures. + + | Language | data[5] | data[6] | Discoverer | + |------------|:---------:|:---------:|-----------------| + | English | 0xAC | 0x88 | | + | 简体中文 | 0xCE | 0x32 | | + | 繁體中文 | 0xAA | 0x99 | | + | 日本語 | 0xAD | 0x82 | @dragonflylee | + | Polski | 0xBB | 0x55 | @dragonflylee | + | Español | 0xAE | 0x10 | @dragonflylee | + | Français | 0xFA | 0x20 | @Deltafox79 | + | Deutsch | 0xB1 | 0x60 | @dragonflylee | + | 한국어 | 0xB5 | 0x60 | @dragonflylee | + | Русский | 0xEE | 0x16 | @dragonflylee | + | Português | 0xCD | 0x49 | @dragonflylee | + + 4. __data[7]__ is Navicat product ID. (Thanks @dragonflylee and @Deltafox79) + + |Product Name |Enterprise|Standard|Educational|Essentials| + |----------------------|:--------:|:------:|:---------:|:--------:| + |Navicat Report Viewer |0x0B | | | | + |Navicat Data Modeler 3| |0x84 |0x85 | | + |Navicat Premium |0x65 | |0x66 |0x67 | + |Navicat MySQL |0x68 |0x69 |0x6A |0x6B | + |Navicat PostgreSQL |0x6C |0x6D |0x6E |0x6F | + |Navicat Oracle |0x70 |0x71 |0x72 |0x73 | + |Navicat SQL Server |0x74 |0x75 |0x76 |0x77 | + |Navicat SQLite |0x78 |0x79 |0x7A |0x7B | + |Navicat MariaDB |0x7C |0x7D |0x7E |0x7F | + |Navicat MongoDB |0x80 |0x81 |0x82 | | + + 5. High 4 bits of __data[8]__ represents __major version number__. + + Low 4 bits is unknown, but we can use it to delay activation deadline. Possible values are `0000` or `0001`. + + __Example:__ + + For __Navicat 12 x64__: High 4 bits must be `1100`, which is the binary of number `12`. + For __Navicat 11 x64__: High 4 bits must be `1011`, which is the binary of number `11`. + + 6. __data[9]__ is unknown, but you can set it by `0xFD`, `0xFC` or `0xFB` if you want to use __not-for-resale license__. + + According to symbol information in __Navicat 12 for Mac x64__ version: + + * `0xFB` is __Not-For-Resale-30-days__ license. + * `0xFC` is __Not-For-Resale-90-days__ license. + * `0xFD` is __Not-For-Resale-365-days__ license. + * `0xFE` is __Not-For-Resale__ license. + * `0xFF` is __Site__ license. + + After `uint8_t data[10]` is ready, Navicat uses __DES__ with __ECB mode__ to encrypt the last 8 bytes of `uint8_t data[10]` which are from __data[2]__ to __data[9]__. + + The DES key is: + + ```cpp + unsigned char DESKey = { 0x64, 0xAD, 0xF3, 0x2F, 0xAE, 0xF2, 0x1A, 0x27 }; + ``` + + Then use Base32 to encode `uint8_t data[10]` whose encode table is + + ```cpp + char EncodeTable[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ234567"; + ``` + + After encoding, you will get a 16-char-long string starting with `"NAV"`. + + Finally, divide the 16-char-long string to four 4-chars-long blocks and join them with `"-"` then you will get __snKey__. + +## 2. Activation Process + +1. Check whether __snKey__ that user inputs is valid. + +2. After user clicks `Activate`, Navicat will start online activation first. If fails, user can choose offline activation. + +3. Navicat will use the __snKey__ that user inputs and some information collected from user's machine to generate __Offline Activation Request Information__. Then Navicat will encrypt it by __Navicat Activation Public Key__ and return a Base64-encoded string as __Request Code__. + +4. In legal way, the __Request Code__ should be sent to Navicat official activation server by a Internet-accessible computer. And Navicat official activation server will return a legal __Activation Code__. + + But now, we use keygen to play the official activation server's role. + + 1. According to the __Request Code__, get `"DI"` value and `"K"` value. + + 2. Fill __Offline Activation Response Information__ with `"K"` value, name, organization name, `"DI"` value and, if need, `"T"` value. + + 3. Encrypt __Offline Activation Response Information__ by __Navicat Activation Private Key__ and you will get 256-byte-long data. + + 4. Encode the 256-byte-long data by Base64. The result is __Activation Code__. + + 5. After user input __Activation Code__, offline activation is done successfully. + diff --git a/doc/how-does-it-work.zh-CN.md b/doc/how-does-it-work.zh-CN.md new file mode 100644 index 0000000..1d0a677 --- /dev/null +++ b/doc/how-does-it-work.zh-CN.md @@ -0,0 +1,282 @@ +# Navicat Keygen - 注册机是怎么工作的? + +## 1. 关键词解释. + +* __Navicat激活公钥__ + + 这是一个2048位的RSA公钥,Navicat使用这个公钥来完成相关激活信息的加密和解密。 + + 这个公钥被作为 __RCData__ 类型的资源储存在 __navicat.exe__ 当中。资源名为`"ACTIVATIONPUBKEY"`。你可以使用一个叫[Resource Hacker](http://www.angusj.com/resourcehacker/)的软件来查看它。这个公钥的具体内容为: + + ``` + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAw1dqF3SkCaAAmMzs889I + qdW9M2dIdh3jG9yPcmLnmJiGpBF4E9VHSMGe8oPAy2kJDmdNt4BcEygvssEfginv + a5t5jm352UAoDosUJkTXGQhpAWMF4fBmBpO3EedG62rOsqMBgmSdAyxCSPBRJIOF + R0QgZFbRnU0frj34fiVmgYiLuZSAmIbs8ZxiHPdp1oD4tUpvsFci4QJtYNjNnGU2 + WPH6rvChGl1IRKrxMtqLielsvajUjyrgOC6NmymYMvZNER3htFEtL1eQbCyTfDmt + YyQ1Wt4Ot12lxf0wVIR5mcGN7XCXJRHOFHSf1gzXWabRSvmt1nrl7sW6cjxljuuQ + awIDAQAB + -----END PUBLIC KEY----- + ``` + + 如果您有相应的私钥并乐意公开的话欢迎联系我,我将非常感谢您的慷慨。 + + __注意:__ + + 从 __Navicat Premium 12.0.25__ 开始,Navicat不再从`navicat.exe`的资源中加载私钥。事实上,公钥转为从`libcc.dll`中加载,并且已经被加密。与此同时,为了防止被轻松地替换,加密的公钥被分到5个地方储存: + + 以下内容是从 __Navicat Premium x64 12.0.25 简体中文版__ 的`libcc.dll`中发现的,`libcc.dll`的SHA256值为`607e0a84c75966b00f3d12fa833e91d159e4f51ac51b6ba66f98d0c3cbefdce0`。我不保证在Navicat的其他版本中相关偏移量和下述的相同,但相关的 __字符串__ 以及 __立即数__ 是很可能找得到的。 + + 1. 在`libcc.dll`中,文件偏移量`+0x01A12090`的地方,储存了加密公钥的第一部分,以 __字符串__ 的形式储存: + + ``` + "D75125B70767B94145B47C1CB3C0755E + 7CCB8825C5DCE0C58ACF944E08280140 + 9A02472FAFFD1CD77864BB821AE36766 + FEEDE6A24F12662954168BFA314BD950 + 32B9D82445355ED7BC0B880887D650F5" + ``` + + 2. 在`libcc.dll`中,文件偏移量`+0x0059D799`的地方,储存了加密公钥的第二部分,以 __立即数__ 的形式储存在一条指令中: + + ``` + 0xFE 0xEA 0xBC 0x01 + ``` + + 相应的十进制值为: `29158142` + + 3. 在`libcc.dll`中,文件偏移量`+0x01A11DA0`的地方,储存了加密公钥的第三部分,以 __字符串__ 的形式储存: + + ``` + "E1CED09B9C2186BF71A70C0FE2F1E0AE + F3BD6B75277AAB20DFAF3D110F75912B + FB63AC50EC4C48689D1502715243A79F + 39FF2DE2BF15CE438FF885745ED54573 + 850E8A9F40EE2FF505EB7476F95ADB78 + 3B28CA374FAC4632892AB82FB3BF4715 + FCFE6E82D03731FC3762B6AAC3DF1C3B + C646FE9CD3C62663A97EE72DB932A301 + 312B4A7633100C8CC357262C39A2B3A6 + 4B224F5276D5EDBDF0804DC3AC4B8351 + 62BB1969EAEBADC43D2511D6E0239287 + 81B167A48273B953378D3D2080CC0677 + 7E8A2364F0234B81064C5C739A8DA28D + C5889072BF37685CBC94C2D31D0179AD + 86D8E3AA8090D4F0B281BE37E0143746 + E6049CCC06899401264FA471C016A96C + 79815B55BBC26B43052609D9D175FBCD + E455392F10E51EC162F51CF732E6BB39 + 1F56BBFD8D957DF3D4C55B71CEFD54B1 + 9C16D458757373E698D7E693A8FC3981 + 5A8BF03BA05EA8C8778D38F9873D62B4 + 460F41ACF997C30E7C3AF025FA171B5F + 5AD4D6B15E95C27F6B35AD61875E5505 + 449B4E" + ``` + + 4. 在`libcc.dll`中,文件偏移量`+0x0059D77F`的地方,储存了加密公钥的第四部分,以 __立即数__ 的形式储存在一条指令中: + + ``` + 0x59 0x08 0x01 0x00 + ``` + + 相应的十进制值为: `67673` + + 5. 在`libcc.dll`中,文件偏移量`+0x01A11D8C`的地方,储存了加密公钥的第五部分,以 __字符串__ 的形式储存: + + ``` + "92933" + ``` + + 这五部分按照`"%s%d%s%d%s"`的形式输出则为加密的公钥,顺序和上述的顺序相同,具体的输出为: + + ```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``` + + 这个加密的公钥可以用我的另外一个repo([how-does-navicat-encrypt-password](https://github.com/DoubleLabyrinth/how-does-navicat-encrypt-password))解密,其中密钥为`b'23970790'`。 + + 例如: + + ```cmd + E:\GitHub>git clone https://github.com/DoubleLabyrinth/how-does-navicat-encrypt-password.git + ... + E:\GitHub>cd how-does-navicat-encrypt-password\python3 + E:\GitHub\how-does-navicat-encrypt-password\python3>python + Python 3.6.3 (v3.6.3:2c5fed8, Oct 3 2017, 18:11:49) [MSC v.1900 64 bit (AMD64)] on win32 + Type "help", "copyright", "credits" or "license" for more information. + >>> from NavicatCrypto import * + >>> cipher = Navicat11Crypto(b'23970790') + >>> print(cipher.DecryptString('D75125B70767B94145B47C1CB3C0755E7CCB8825C5DCE0C58ACF944E082801409A02472FAFFD1CD77864BB821AE36766FEEDE6A24F12662954168BFA314BD95032B9D82445355ED7BC0B880887D650F529158142E1CED09B9C2186BF71A70C0FE2F1E0AEF3BD6B75277AAB20DFAF3D110F75912BFB63AC50EC4C48689D1502715243A79F39FF2DE2BF15CE438FF885745ED54573850E8A9F40EE2FF505EB7476F95ADB783B28CA374FAC4632892AB82FB3BF4715FCFE6E82D03731FC3762B6AAC3DF1C3BC646FE9CD3C62663A97EE72DB932A301312B4A7633100C8CC357262C39A2B3A64B224F5276D5EDBDF0804DC3AC4B835162BB1969EAEBADC43D2511D6E023928781B167A48273B953378D3D2080CC06777E8A2364F0234B81064C5C739A8DA28DC5889072BF37685CBC94C2D31D0179AD86D8E3AA8090D4F0B281BE37E0143746E6049CCC06899401264FA471C016A96C79815B55BBC26B43052609D9D175FBCDE455392F10E51EC162F51CF732E6BB391F56BBFD8D957DF3D4C55B71CEFD54B19C16D458757373E698D7E693A8FC39815A8BF03BA05EA8C8778D38F9873D62B4460F41ACF997C30E7C3AF025FA171B5F5AD4D6B15E95C27F6B35AD61875E5505449B4E6767392933')) + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAw1dqF3SkCaAAmMzs889I + qdW9M2dIdh3jG9yPcmLnmJiGpBF4E9VHSMGe8oPAy2kJDmdNt4BcEygvssEfginv + a5t5jm352UAoDosUJkTXGQhpAWMF4fBmBpO3EedG62rOsqMBgmSdAyxCSPBRJIOF + R0QgZFbRnU0frj34fiVmgYiLuZSAmIbs8ZxiHPdp1oD4tUpvsFci4QJtYNjNnGU2 + WPH6rvChGl1IRKrxMtqLielsvajUjyrgOC6NmymYMvZNER3htFEtL1eQbCyTfDmt + YyQ1Wt4Ot12lxf0wVIR5mcGN7XCXJRHOFHSf1gzXWabRSvmt1nrl7sW6cjxljuuQ + awIDAQAB + -----END PUBLIC KEY----- + ``` + + __注意:__ + + 从 __Navicat Premium 12.1.11__ 开始,Navicat不再用上面说的方法加载密钥。当然密钥还是储存在`libcc.dll`文件中。当Navicat启动时,它会用8字节长的XOR密钥来加密公钥,并储存到一个静态数据区中。当验证 __激活码__ 时,Navicat会重新生成一样的8字节XOR密钥,并解密在静态储存区中的密文,从而获取公钥。 + + 在`libcc.dll`,x64版本中,你会看到如下的几条指令: + + ```asm + xor eax, 'M' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'B' + mov byte_xxxxxx, al + ... + xor eax, 'I' + mov byte_xxxxxx, al + ... + xor eax, 'j' + mov byte_xxxxxx, al + ... + ... + ``` + +* __请求码__ + + 这是一个Base64编码的字符串,代表的是长度为256字节的数据。这256字节的数据是 __离线激活信息__ 用 __Navicat激活公钥__ 加密的密文。 + +* __离线激活请求信息__ + + 这是一个JSON风格的字符串。它包含了3个Key:`"K"`、`"DI"`和`"P"`,分别代表 __序列号__、__设备识别码__(与你的电脑硬件信息相关)和 __平台__ (其实就是操作系统类型)。 + + 例如: + + ``` + {"K": "xxxxxxxxxxxxxxxx", "DI": "yyyyyyyyyyyyy", "P": "WIN8"} + ``` + +* __激活码__ + + 这是一个Base64编码的字符串,代表的是长度为256字节的数据。这256字节的数据是 __离线激活回复信息__ 用 __Navicat激活私钥__ 加密的密文。目前我们不知道官方的 __Navicat激活私钥__,所以我们得替换掉软件里的公钥。 + +* __离线激活回复信息__ + + 和 __离线激活请求信息__ 一样,它也是一个JSON风格的字符串。但是它包含5个Key,分别为`"K"`、`"N"`、`"O"`、`"T"` 和 `"DI"`. + + `"K"` 和 `"DI"` 的意义与 __离线激活请求信息__ 中的相同,且Value必须与 __离线激活请求信息__ 中的相同。 + + `"N"`、`"O"`、`"T"` 分别代表 __注册名__、__组织__、__授权时间__。 + + __注册名__ 和 __组织__ 的值类型为UTF-8编码的字符串。__授权时间__ 的值类型可以为字符串或整数(感谢@Wizr在issue #10中的报告)。 + + `"T"` 可以被省略。 + +* __序列号__ + + 这是一个被分为了4个部分的字符串,其中每个部分都是4个字符长。 + + __序列号__ 是通过10个字节的数据来生成的。为了表达方便,我用 __uint8_t data[10]__ 来表示这10个字节。 + + 1. __data[0]__ 和 __data[1]__ 必须分别为 `0x68` 和 `0x2A`。 + + 这两个字节为Navicat的标志数。 + + 2. __data[2]__、__data[3]__ 和 __data[4]__ 可以是任意字节,你想设成什么都行。 + + 3. __data[5]__ 和 __data[6]__ 是Navicat的语言标志,值如下: + + | 语言类型 | data[5] | data[6] | 发现者 | + |------------|:---------:|:---------:|-----------------| + | English | 0xAC | 0x88 | | + | 简体中文 | 0xCE | 0x32 | | + | 繁體中文 | 0xAA | 0x99 | | + | 日本語 | 0xAD | 0x82 | @dragonflylee | + | Polski | 0xBB | 0x55 | @dragonflylee | + | Español | 0xAE | 0x10 | @dragonflylee | + | Français | 0xFA | 0x20 | @Deltafox79 | + | Deutsch | 0xB1 | 0x60 | @dragonflylee | + | 한국어 | 0xB5 | 0x60 | @dragonflylee | + | Русский | 0xEE | 0x16 | @dragonflylee | + | Português | 0xCD | 0x49 | @dragonflylee | + + 4. __data[7]__ 是Navicat产品ID。(感谢 @dragonflylee 和 @Deltafox79提供的数据) + + |产品名 |Enterprise|Standard|Educational|Essentials| + |----------------------|:--------:|:------:|:---------:|:--------:| + |Navicat Report Viewer |0x0B | | | | + |Navicat Data Modeler 3| |0x84 |0x85 | | + |Navicat Premium |0x65 | |0x66 |0x67 | + |Navicat MySQL |0x68 |0x69 |0x6A |0x6B | + |Navicat PostgreSQL |0x6C |0x6D |0x6E |0x6F | + |Navicat Oracle |0x70 |0x71 |0x72 |0x73 | + |Navicat SQL Server |0x74 |0x75 |0x76 |0x77 | + |Navicat SQLite |0x78 |0x79 |0x7A |0x7B | + |Navicat MariaDB |0x7C |0x7D |0x7E |0x7F | + |Navicat MongoDB |0x80 |0x81 |0x82 | | + + 5. __data[8]__ 的高4位代表 __版本号__。低4位未知,但可以用来延长激活期限,可取的值有`0000`和`0001`。 + + 例如: + + 对于 __Navicat 12__: 高4位必须是`1100`,为`12`的二进制形式。 + 对于 __Navicat 11__: 高4位必须是`1011`,为`11`的二进制形式。 + + 6. __data[9]__ 目前暂未知,但如果你想要 __not-for-resale license__ 的话可以设成`0xFD`、`0xFC`或`0xFB`。 + + 根据 __Navicat 12 for Mac x64__ 版本残留的符号信息可知: + + * `0xFB`是 __Not-For-Resale-30-days__ license. + * `0xFC`是 __Not-For-Resale-90-days__ license. + * `0xFD`是 __Not-For-Resale-365-days__ license. + * `0xFE`是 __Not-For-Resale__ license. + * `0xFF`是 __Site__ license. + + 之后Navicat使用 __ECB__ 模式的 __DES__ 算法来加密 __data[10]__ 的后8字节,也就是 __data[2]__ 到 __data[9]__ 的部分。 + + 相应的DES密钥为: + + ```cpp + unsigned char DESKey = { 0x64, 0xAD, 0xF3, 0x2F, 0xAE, 0xF2, 0x1A, 0x27 }; + ``` + + 之后使用Base32编码 __data[10]__,其中编码表改为: + + ```cpp + char EncodeTable[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ234567"; + ``` + + 编码之后你应该会得到一个16字节长的字符串,并且以"NAV"打头。 + + 将16字节的字符串分成4个4字节的小块,然后用`"-"`连接就可以得到 __序列号__。 + +## 2. 激活过程 + + 1. 检查用户输入的 __序列号__ 是否合法。 + + 2. 在用户点击了`激活`按钮之后,Navicat会先尝试在线激活。如果失败,用户可以选择离线激活。 + + 3. Navicat会使用用户输入的 __序列号__ 以及从用户电脑收集来的信息生成 __离线激活请求信息__,然后用 __Navicat激活公钥__ 加密,并将密文用Base64编码,最后得到 __请求码__。 + + 4. 正常流程下,__请求码__ 应该通过可联网的电脑发送给Navicat的官方激活服务器。之后Navicat的官方激活服务器会返回一个合法的 __激活码__。 + + 但现在我们使用注册机来扮演官方激活服务器的角色,只是Navicat软件里的激活公钥得换成自己的公钥: + + 1. 根据 __请求码__, 获得`"DI"`值和`"K"`值。 + + 2. 用`"K"`值、用户名、组织名和`"DI"`值填写 __离线激活回复信息__。 + + 3. 用自己的2048位RSA私钥加密 __离线激活回复信息__,你将会得到256字节的密文。 + + 4. 用Base64编码这256字节的密文,就可以得到 __激活码__。 + + 5. 在Navicat软件中填入 __激活码__ 即可完成离线激活。 + diff --git a/doc/how-to-build.md b/doc/how-to-build.md new file mode 100644 index 0000000..c10bae3 --- /dev/null +++ b/doc/how-to-build.md @@ -0,0 +1,56 @@ +# Navicat Keygen - How to build? + +[中文版](how-to-build.zh-CN.md) + +## 1. Prerequisites + +1. Please make sure that you have __Visual Studio 2019__ or the higher. Because this is a VS2019 project. + +2. Please make sure you have installed `vcpkg` and the following libraries: + + * `capstone[x86]:x64-windows-static` + * `capstone[x86]:x86-windows-static` + * `keystone:x64-windows-static` + * `keystone:x86-windows-static` + * `openssl-windows:x64-windows-static` + * `openssl-windows:x86-windows-static` + * `rapidjson:x64-windows-static` + * `rapidjson:x86-windows-static` + + is installed. + + You can install them by: + + ```console + $ vcpkg install capstone[x86]:x64-windows-static + $ vcpkg install capstone[x86]:x86-windows-static + $ vcpkg install keystone:x64-windows-static + $ vcpkg install keystone:x86-windows-static + $ vcpkg install openssl-windows:x64-windows-static + $ vcpkg install openssl-windows:x86-windows-static + $ vcpkg install rapidjson:x64-windows-static + $ vcpkg install rapidjson:x86-windows-static + ``` + +3. Your `vcpkg` has been integrated into your __Visual Studio__, which means you have run + + ```console + $ vcpkg integrate install + ``` + + successfully. + +## 2. Build + +1. Open this project in __Visual Studio__. + +2. Select `Release` configuration. + +3. Select `Win32` to build keygen/patcher for 32-bits Navicat. + + Or select `x64` to build keygen/patcher for 64-bits Navicat. + +4. Select __Build > Build Solution__. + +You will see executable files in `bin/` directory. + diff --git a/doc/how-to-build.zh-CN.md b/doc/how-to-build.zh-CN.md new file mode 100644 index 0000000..3b0fd2d --- /dev/null +++ b/doc/how-to-build.zh-CN.md @@ -0,0 +1,50 @@ +# Navicat Keygen - 如何编译? + +## 1. 前提条件 + +1. 请确保你有 __Visual Studio 2019__ 或者更高版本。因为这是一个VS2019项目。 + +2. 请确保你安装了 `vcpkg` 以及下面几个库: + + * `capstone[x86]:x64-windows-static` + * `capstone[x86]:x86-windows-static` + * `keystone:x64-windows-static` + * `keystone:x86-windows-static` + * `openssl-windows:x64-windows-static` + * `openssl-windows:x86-windows-static` + * `rapidjson:x64-windows-static` + * `rapidjson:x86-windows-static` + + 你可以通过下面的命令来安装它们: + + ```console + $ vcpkg install capstone[x86]:x64-windows-static + $ vcpkg install capstone[x86]:x86-windows-static + $ vcpkg install keystone:x64-windows-static + $ vcpkg install keystone:x86-windows-static + $ vcpkg install openssl-windows:x64-windows-static + $ vcpkg install openssl-windows:x86-windows-static + $ vcpkg install rapidjson:x64-windows-static + $ vcpkg install rapidjson:x86-windows-static + ``` + +3. 你的 `vcpkg` 已经和你的 __Visual Studio__ 集成了,即你曾成功运行了: + + ```console + $ vcpkg integrate install + ``` + +## 2. 编译 + +1. 在 __Visual Studio__ 打开这个项目。 + +2. 选择 `Release` 配置。 + +3. 选择 `Win32` 来生成供32位Navicat使用的keygen/patcher。 + + 或者选择 `x64` 来生成供64位Navicat使用的keygen/patcher。 + +4. 选择 __生成 > 生成解决方案__。 + +生成完成后,你会在 `bin/` 文件夹下看到编译后的keygen/patcher。 + diff --git a/doc/how-to-use.linux.md b/doc/how-to-use.linux.md new file mode 100644 index 0000000..ca5c96b --- /dev/null +++ b/doc/how-to-use.linux.md @@ -0,0 +1,257 @@ +# Navicat Keygen - How to use? (Linux) + +[中文版](how-to-use.linux.zh-CN.md) + +* Maintainer(s): zenuo, DoubleLabyrinth + +--- + +> You can download [Screen recoding](image/Screen_recording.mp4) for references. + +1. Switch to the path you extracted the installation package. Run Navicat, for initialization: + + ```console + $ cd ~/navicat121_premium_en_x64 + $ ./start_navicat + ``` + + When running for the first time, you will be prompted with the following two windows, click "Cancel" to: + + ![](image/Screenshot_2019-04-30_12-31-33.png) + + ![](image/Screenshot_2019-04-30_12-31-52.png) + + Until the `Registration` window appears, select `Trial`, close Navicat after loading is complete, and execute `Step 2`: + + ![](image/Screenshot_2019-04-30_12-32-43.png) + +2. Download the latest release [from here](https://github.com/DoubleLabyrinth/navicat-keygen/releases), and extract: + + > The 64-bit executable file is downloaded here. If you use 32-bit, please download the corresponding version. + + ```console + $ curl -O -L https://github.com/DoubleLabyrinth/navicat-keygen/releases/latest/download/navicat-keygen-for-x64.zip + $ unzip navicat-keygen-for-x64.zip + ``` + +3. Download `navicat-pacther.sh` and `navicat-keygen.sh`: + + ```console + $ curl -O -L https://raw.githubusercontent.com/DoubleLabyrinth/navicat-keygen/windows/bash/navicat-patcher.sh + $ chmod +x navicat-patcher.sh + $ curl -O -L https://raw.githubusercontent.com/DoubleLabyrinth/navicat-keygen/windows/bash/navicat-keygen.sh + $ chmod +x navicat-keygen.sh + ``` + +4. Use `navicat-patcher.exe` to replace __Navicat Activation Public Key__ that is stored in `navicat.exe` or `libcc.dll`. + + > Please turn off `Navicat` when performing this step. + + ```console + $ ./navicat-patcher.sh + ``` + + It has been tested on __Navicat Premium 12.1.22 Simplified Chinese version__. The following is an example of output: + + ``` + *************************************************** + * Navicat Patcher by @DoubleLabyrinth * + * Version: 4.0 * + *************************************************** + + Press Enter to continue or Ctrl + C to abort. + + [+] Try to open Navicat.exe ... Ok! + [+] Try to open libcc.dll ... Ok! + + [+] PatchSolution0 ...... Ready to apply + [*] Patch offset = +0x029bccd8 + [+] PatchSolution1 ...... Ready to apply + [*] [0] Patch offset = +0x02206c00 + [*] [1] Patch offset = +0x0074c489 + [*] [2] Patch offset = +0x02206910 + [*] [3] Patch offset = +0x0074c46f + [*] [4] Patch offset = +0x02206904 + [-] PatchSolution2 ...... Omitted + [+] PatchSolution3 ...... Ready to apply + [*] [ 0] Instruction RVA = 0x016539c8, Patch Offset = +0x023e64d4 + [*] [ 1] Instruction RVA = 0x01653a1f, Patch Offset = +0x01652e23 + [*] [ 2] Instruction RVA = 0x01653a25, Patch Offset = +0x01652e28 + [*] [ 3] Instruction RVA = 0x01653a8c, Patch Offset = +0x01652e8e + ... + ... + ... + [*] [108] Instruction RVA = 0x016604e1, Patch Offset = +0x023e66d8 + [*] [109] Instruction RVA = 0x01660518, Patch Offset = +0x0165f91c + [*] [110] Instruction RVA = 0x0166051e, Patch Offset = +0x0165f921 + + [*] PatchSolution0 is suppressed in order to keep digital signature valid. + + [*] Generating new RSA private key, it may take a long time... + [*] Your RSA public key: + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1hV66HgU4LrKXWW6O7bK + AN6ZTr5W+Mq8ClTQ+Pc+BdhLu6rww55kVq7OXKGpvx0G4eTafYMGrrBETgDSTaMq + Bx+8bZbGBWh2LtNfqU+xUrpHHBSz0ByBc3iTEzzthJl+Fzf8suDX2lWYIc/Ym/eW + YtxdJ7xOzLb68z4N0zVmA0jFX2FOm75DRYgKqy4SGixapfucL9dVaWVLTUdbrVdj + 4LX78t4t5ykbYoThrat4yuLvj/BxLaQ6ivKD+ScfHdtCoY+NA5jmBoUfBq3Q1SXB + iNaoXctbi0/H3MiPu0cRojryAocooF89yFm5/mNnzWGAYPr6DvBI8CDTZmjaQ4oC + aQIDAQAB + -----END PUBLIC KEY----- + + ******************************************************* + * PatchSolution1 * + ******************************************************* + [*] Previous: + +0x0000000002206c00 44 37 35 31 32 35 42 37 30 37 36 37 42 39 34 31 D75125B70767B941 + +0x0000000002206c10 34 35 42 34 37 43 31 43 42 33 43 30 37 35 35 45 45B47C1CB3C0755E + +0x0000000002206c20 37 43 43 42 38 38 32 35 43 35 44 43 45 30 43 35 7CCB8825C5DCE0C5 + ... + ... + [*] After: + +0x0000000002206c00 33 43 32 39 30 39 35 38 33 34 38 41 42 43 35 39 3C290958348ABC59 + +0x0000000002206c10 36 44 39 30 43 45 45 38 31 36 42 36 39 38 34 44 6D90CEE816B6984D + +0x0000000002206c20 35 32 35 34 37 45 30 32 34 31 42 36 42 43 31 41 52547E0241B6BC1A + ... + ... + + [*] Previous: + +0x000000000074c480 fe ea bc 01 .... + [*] After: + +0x000000000074c480 08 00 00 00 .... + + [*] Previous: + +0x0000000002206910 45 31 43 45 44 30 39 42 39 43 32 31 38 36 42 46 E1CED09B9C2186BF + +0x0000000002206920 37 31 41 37 30 43 30 46 45 32 46 31 45 30 41 45 71A70C0FE2F1E0AE + +0x0000000002206930 46 33 42 44 36 42 37 35 32 37 37 41 41 42 32 30 F3BD6B75277AAB20 + ... + ... + [*] After: + +0x0000000002206910 41 33 39 42 41 36 43 34 31 36 33 32 35 30 46 45 A39BA6C4163250FE + +0x0000000002206920 42 32 41 39 31 41 34 32 46 44 42 46 30 41 32 31 B2A91A42FDBF0A21 + +0x0000000002206930 33 34 46 34 36 44 43 45 34 30 42 46 41 42 33 35 34F46DCE40BFAB35 + ... + ... + + [*] Previous: + +0x000000000074c460 59 Y + +0x000000000074c470 08 01 00 ... + [*] After: + +0x000000000074c460 06 . + +0x000000000074c470 00 00 00 ... + + [*] Previous: + +0x0000000002206900 39 32 39 33 33 92933 + [*] After: + +0x0000000002206900 42 34 34 33 38 B4438 + + ******************************************************* + * PatchSolution3 * + ******************************************************* + [*] +023e64d4: 4d 49 49 ---> 4d 49 49 + [*] +01652e23: 42 49 ---> 42 49 + [*] +01652e28: 6a ---> 6a + ... + ... + ... + [*] +023e66d8: 77 49 44 41 ---> 51 49 44 41 + [*] +0165f91c: 51 41 ---> 51 41 + [*] +0165f921: 42 ---> 42 + + [*] New RSA-2048 private key has been saved to + C:\Users\DoubleSine\github.com\navicat-keygen\bin\x64-Release\RegPrivateKey.pem + + ******************************************************* + * PATCH HAS BEEN DONE SUCCESSFULLY! * + * HAVE FUN AND ENJOY~ * + ******************************************************* + ``` + +5. Then use `navicat-keygen.exe` to generate __snKey__ and __Activation Code__ + + ```console + $ ./navicat-keygen.sh + ``` + + You will be asked to select Navicat product, language and input major version number. After that an randomly generated __snKey__ will be given. + + ``` + Select Navicat product: + 0. DataModeler + 1. Premium + 2. MySQL + 3. PostgreSQL + 4. Oracle + 5. SQLServer + 6. SQLite + 7. MariaDB + 8. MongoDB + 9. ReportViewer + + (Input index)> 1 + + Select product language: + 0. English + 1. Simplified Chinese + 2. Traditional Chinese + 3. Japanese + 4. Polish + 5. Spanish + 6. French + 7. German + 8. Korean + 9. Russian + 10. Portuguese + + (Input index)> 1 + + (Input major version number, range: 0 ~ 15, default: 12)> 12 + + Serial number: + NAVO-2ORP-IN5A-GQEE + + Your name: + ``` + + You can use this __snKey__ to activate your Navicat preliminarily. + + Then you will be asked to input `Your name` and `Your organization`. Just set them whatever you want, but not too long. + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + Input request code (in Base64), input empty line to end: + ``` + + After that, you will be asked to input the request code. Now __DO NOT CLOSE KEYGEN__. + +6. __Set up__ a invalid proxy. Find and click `Registration`. Fill `Registration Key` by __snKey__ that the keygen gave and click `Activate`. + +7. Online activation will failed and Navicat will ask you do `Manual Activation`, just choose it. + +8. Copy your request code and paste it in the keygen. Input empty line to tell the keygen that your input ends. + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + + Input request code (in Base64), input empty line to end: + t2U+0yfE2FfnbjyhCXa0lglZOHu9Ntc3qyGiPbR6xb1QoU63/9BVfdaCq0blwVycXPyT/Vqw5joIKdM5oCRR/afCPM7iRcyhQMAnvqwc+AOKCqayVV+SqKLvtR/AbREI12w++PQ6Ewfs4A8PgB8OJ9G0jKt6Q/iJRblqi2WWw9mwy+YHcYYh3UAfygTnyj/xl+MzRymbY0lkus+6LPtpDecVsFFhM7F32Ee1QPwISko7bAkHOtkt+joPfYDdn9PDGZ4HEmeLvH6UqZCXkzgaAfynB7cQZFEkId8FsW2NGkbpM7wB2Hi3fNFgOIjutTprixTdbpFKn4w6gGc28ve23A== + + Request Info: + {"K":"NAVO2ORPIN5AGQEE", "DI":"R91j6WyMhxHznAKSxxxx", "P":"WIN"} + + Response Info: + {"K":"NAVO2ORPIN5AGQEE","DI":"R91j6WyMhxHznAKSxxxx","N":"DoubleLabyrinth","O":"DoubleLabyrinth","T":1547826060} + + License: + lRF18o+ZhBphyN0U5kFLHtAAGGXuvhqOcxNuvAk4dJcGeR0ISuw74mQvAfdNjv0T + I5NZFzqIJvrzM0XeR88q+3kmZkECuxwwWHP3zzDPhPiylcTV4DoGZ1tfoViUSYQc + LgXG0Fl7koZeP61YOKQ8GfX+Xk2ZTM64bYaF7NlhonM+GQUJCCF2JThmrP921t2p + b/E5pV6fLOYMM13881ZQcQcltMNVDZn4lzgzKRFFxCQFaTl6fJMHZdYVmICQTHtI + sNaym0zduc8/cv34mgJ+7NseXmsEPCdjrZ59wgfPsLhZLXqtfxi5hGWw4NMa3Sb2 + UI8dzqFzRp/hSDEM0mEqiA== + ``` + +9. Finally, you will get __Activation Code__ which looks like a Base64 string. Just copy it and paste it in Navicat `Manual Activation` window, then click `Activate`. If nothing wrong, activation should be done successfully. Don't forget to close the proxy that we just set up. + diff --git a/doc/how-to-use.linux.zh-CN.md b/doc/how-to-use.linux.zh-CN.md new file mode 100644 index 0000000..951cdb6 --- /dev/null +++ b/doc/how-to-use.linux.zh-CN.md @@ -0,0 +1,255 @@ +# Navicat Keygen - 如何使用这个注册机? (Linux) + +* 维护者:zenuo, DoubleLabyrinth + +--- + +> 可下载[录屏文件](image/Screen_recording.mp4)参考 + +1. 切换到解压安装包的路径,本示例解压到了 `家目录`,运行Navicat,使其初始化环境: + + ```console + $ cd ~/navicat121_premium_en_x64 + $ ./start_navicat + ``` + + 首次启动时,会提示如下两个窗口,点击“Cancel”即可: + + ![](image/Screenshot_2019-04-30_12-31-33.png) + + ![](image/Screenshot_2019-04-30_12-31-52.png) + + 直至出现 `Registration` 窗口,选择 `Trial`,待加载完成后关闭Navicat,执行 `步骤2`: + + ![](image/Screenshot_2019-04-30_12-32-43.png) + +2. [从这里](https://github.com/DoubleLabyrinth/navicat-keygen/releases)下载最新的release,并且解压: + + > 此处下载的是64位的可执行文件,若您使用32位,请下载对应版本 + + ```console + $ curl -O -L https://github.com/DoubleLabyrinth/navicat-keygen/releases/latest/download/navicat-keygen-for-x64.zip + $ unzip navicat-keygen-for-x64.zip + ``` + +3. 下载 `navicat-pacther.sh` 和 `navicat-keygen.sh`: + + ```console + $ curl -O -L https://raw.githubusercontent.com/DoubleLabyrinth/navicat-keygen/windows/bash/navicat-patcher.sh + $ chmod +x navicat-patcher.sh + $ curl -O -L https://raw.githubusercontent.com/DoubleLabyrinth/navicat-keygen/windows/bash/navicat-keygen.sh + $ chmod +x navicat-keygen.sh + ``` + +4. 使用 `navicat-patcher.exe` 替换掉 `navicat.exe` 和 `libcc.dll` 里的Navicat激活公钥。 + + > 执行此步骤时,请将Navicat关闭 + + ```console + $ ./navicat-patcher.sh + ``` + + __Navicat Premium 12.1.22 简体中文版已通过测试__。下面将是一份样例输出: + + ``` + *************************************************** + * Navicat Patcher by @DoubleLabyrinth * + * Version: 4.0 * + *************************************************** + + Press Enter to continue or Ctrl + C to abort. + + [+] Try to open Navicat.exe ... Ok! + [+] Try to open libcc.dll ... Ok! + + [+] PatchSolution0 ...... Ready to apply + [*] Patch offset = +0x029bccd8 + [+] PatchSolution1 ...... Ready to apply + [*] [0] Patch offset = +0x02206c00 + [*] [1] Patch offset = +0x0074c489 + [*] [2] Patch offset = +0x02206910 + [*] [3] Patch offset = +0x0074c46f + [*] [4] Patch offset = +0x02206904 + [-] PatchSolution2 ...... Omitted + [+] PatchSolution3 ...... Ready to apply + [*] [ 0] Instruction RVA = 0x016539c8, Patch Offset = +0x023e64d4 + [*] [ 1] Instruction RVA = 0x01653a1f, Patch Offset = +0x01652e23 + [*] [ 2] Instruction RVA = 0x01653a25, Patch Offset = +0x01652e28 + [*] [ 3] Instruction RVA = 0x01653a8c, Patch Offset = +0x01652e8e + ... + ... + ... + [*] [108] Instruction RVA = 0x016604e1, Patch Offset = +0x023e66d8 + [*] [109] Instruction RVA = 0x01660518, Patch Offset = +0x0165f91c + [*] [110] Instruction RVA = 0x0166051e, Patch Offset = +0x0165f921 + + [*] PatchSolution0 is suppressed in order to keep digital signature valid. + + [*] Generating new RSA private key, it may take a long time... + [*] Your RSA public key: + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1hV66HgU4LrKXWW6O7bK + AN6ZTr5W+Mq8ClTQ+Pc+BdhLu6rww55kVq7OXKGpvx0G4eTafYMGrrBETgDSTaMq + Bx+8bZbGBWh2LtNfqU+xUrpHHBSz0ByBc3iTEzzthJl+Fzf8suDX2lWYIc/Ym/eW + YtxdJ7xOzLb68z4N0zVmA0jFX2FOm75DRYgKqy4SGixapfucL9dVaWVLTUdbrVdj + 4LX78t4t5ykbYoThrat4yuLvj/BxLaQ6ivKD+ScfHdtCoY+NA5jmBoUfBq3Q1SXB + iNaoXctbi0/H3MiPu0cRojryAocooF89yFm5/mNnzWGAYPr6DvBI8CDTZmjaQ4oC + aQIDAQAB + -----END PUBLIC KEY----- + + ******************************************************* + * PatchSolution1 * + ******************************************************* + [*] Previous: + +0x0000000002206c00 44 37 35 31 32 35 42 37 30 37 36 37 42 39 34 31 D75125B70767B941 + +0x0000000002206c10 34 35 42 34 37 43 31 43 42 33 43 30 37 35 35 45 45B47C1CB3C0755E + +0x0000000002206c20 37 43 43 42 38 38 32 35 43 35 44 43 45 30 43 35 7CCB8825C5DCE0C5 + ... + ... + [*] After: + +0x0000000002206c00 33 43 32 39 30 39 35 38 33 34 38 41 42 43 35 39 3C290958348ABC59 + +0x0000000002206c10 36 44 39 30 43 45 45 38 31 36 42 36 39 38 34 44 6D90CEE816B6984D + +0x0000000002206c20 35 32 35 34 37 45 30 32 34 31 42 36 42 43 31 41 52547E0241B6BC1A + ... + ... + + [*] Previous: + +0x000000000074c480 fe ea bc 01 .... + [*] After: + +0x000000000074c480 08 00 00 00 .... + + [*] Previous: + +0x0000000002206910 45 31 43 45 44 30 39 42 39 43 32 31 38 36 42 46 E1CED09B9C2186BF + +0x0000000002206920 37 31 41 37 30 43 30 46 45 32 46 31 45 30 41 45 71A70C0FE2F1E0AE + +0x0000000002206930 46 33 42 44 36 42 37 35 32 37 37 41 41 42 32 30 F3BD6B75277AAB20 + ... + ... + [*] After: + +0x0000000002206910 41 33 39 42 41 36 43 34 31 36 33 32 35 30 46 45 A39BA6C4163250FE + +0x0000000002206920 42 32 41 39 31 41 34 32 46 44 42 46 30 41 32 31 B2A91A42FDBF0A21 + +0x0000000002206930 33 34 46 34 36 44 43 45 34 30 42 46 41 42 33 35 34F46DCE40BFAB35 + ... + ... + + [*] Previous: + +0x000000000074c460 59 Y + +0x000000000074c470 08 01 00 ... + [*] After: + +0x000000000074c460 06 . + +0x000000000074c470 00 00 00 ... + + [*] Previous: + +0x0000000002206900 39 32 39 33 33 92933 + [*] After: + +0x0000000002206900 42 34 34 33 38 B4438 + + ******************************************************* + * PatchSolution3 * + ******************************************************* + [*] +023e64d4: 4d 49 49 ---> 4d 49 49 + [*] +01652e23: 42 49 ---> 42 49 + [*] +01652e28: 6a ---> 6a + ... + ... + ... + [*] +023e66d8: 77 49 44 41 ---> 51 49 44 41 + [*] +0165f91c: 51 41 ---> 51 41 + [*] +0165f921: 42 ---> 42 + + [*] New RSA-2048 private key has been saved to + C:\Users\DoubleSine\github.com\navicat-keygen\bin\x64-Release\RegPrivateKey.pem + + ******************************************************* + * PATCH HAS BEEN DONE SUCCESSFULLY! * + * HAVE FUN AND ENJOY~ * + ******************************************************* + ``` + +5. 接下来使用`navicat-keygen.exe`来生成序列号和激活码 + + ```console + $ ./navicat-keygen.sh + ``` + + 你会被要求选择Navicat产品类别、语言以及输入主版本号。之后会随机生成一个序列号。 + + ``` + Select Navicat product: + 0. DataModeler + 1. Premium + 2. MySQL + 3. PostgreSQL + 4. Oracle + 5. SQLServer + 6. SQLite + 7. MariaDB + 8. MongoDB + 9. ReportViewer + + (Input index)> 1 + + Select product language: + 0. English + 1. Simplified Chinese + 2. Traditional Chinese + 3. Japanese + 4. Polish + 5. Spanish + 6. French + 7. German + 8. Korean + 9. Russian + 10. Portuguese + + (Input index)> 1 + + (Input major version number, range: 0 ~ 15, default: 12)> 12 + + Serial number: + NAVO-2ORP-IN5A-GQEE + + Your name: + ``` + + 你可以使用这个序列号暂时激活Navicat。 + + 接下来你会被要求输入`用户名`和`组织名`;请随便填写,但不要太长。 + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + Input request code (in Base64), input empty line to end: + ``` + + 之后你会被要求填入请求码。注意 __不要关闭命令行__. + +6. 配置一个不存在的`代理`。找到`注册`窗口,并填入keygen给你的序列号。然后点击`激活`按钮。 + +7. 在线激活失败,这时候Navicat会询问你是否`手动激活`,直接选吧。 + +8. 在`手动激活`窗口你会得到一个请求码,复制它并把它粘贴到keygen里。最后别忘了连按至少两下回车结束输入。 + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + + Input request code (in Base64), input empty line to end: + t2U+0yfE2FfnbjyhCXa0lglZOHu9Ntc3qyGiPbR6xb1QoU63/9BVfdaCq0blwVycXPyT/Vqw5joIKdM5oCRR/afCPM7iRcyhQMAnvqwc+AOKCqayVV+SqKLvtR/AbREI12w++PQ6Ewfs4A8PgB8OJ9G0jKt6Q/iJRblqi2WWw9mwy+YHcYYh3UAfygTnyj/xl+MzRymbY0lkus+6LPtpDecVsFFhM7F32Ee1QPwISko7bAkHOtkt+joPfYDdn9PDGZ4HEmeLvH6UqZCXkzgaAfynB7cQZFEkId8FsW2NGkbpM7wB2Hi3fNFgOIjutTprixTdbpFKn4w6gGc28ve23A== + + Request Info: + {"K":"NAVO2ORPIN5AGQEE", "DI":"R91j6WyMhxHznAKSxxxx", "P":"WIN"} + + Response Info: + {"K":"NAVO2ORPIN5AGQEE","DI":"R91j6WyMhxHznAKSxxxx","N":"DoubleLabyrinth","O":"DoubleLabyrinth","T":1547826060} + + License: + lRF18o+ZhBphyN0U5kFLHtAAGGXuvhqOcxNuvAk4dJcGeR0ISuw74mQvAfdNjv0T + I5NZFzqIJvrzM0XeR88q+3kmZkECuxwwWHP3zzDPhPiylcTV4DoGZ1tfoViUSYQc + LgXG0Fl7koZeP61YOKQ8GfX+Xk2ZTM64bYaF7NlhonM+GQUJCCF2JThmrP921t2p + b/E5pV6fLOYMM13881ZQcQcltMNVDZn4lzgzKRFFxCQFaTl6fJMHZdYVmICQTHtI + sNaym0zduc8/cv34mgJ+7NseXmsEPCdjrZ59wgfPsLhZLXqtfxi5hGWw4NMa3Sb2 + UI8dzqFzRp/hSDEM0mEqiA== + ``` + +9. 如果不出意外,你会得到一个看似用Base64编码的激活码。直接复制它,并把它粘贴到Navicat的`手动激活`窗口,最后点`激活`按钮。如果没什么意外的话应该能成功激活。别忘了关闭我们刚刚设置的不存在的代理哦。 + diff --git a/doc/how-to-use.windows.md b/doc/how-to-use.windows.md new file mode 100644 index 0000000..ceb2a5f --- /dev/null +++ b/doc/how-to-use.windows.md @@ -0,0 +1,256 @@ +# Navicat Keygen - How to use? (Windows) + +[中文版](how-to-use.windows.zh-CN.md) + +1. Download the latest release [from here](https://github.com/DoubleLabyrinth/navicat-keygen/releases). + +2. Use `navicat-patcher.exe` to replace __Navicat Activation Public Key__ that is stored in `navicat.exe` or `libcc.dll`. + + ``` + navicat-patcher.exe [-dry-run] [RSA-2048 PEM File Path] + ``` + + * `[-dry-run]` Run patcher without applying any patches. + + __This parameter is optional.__ + + * ``: The full path to Navicat installation folder. + + __This parameter must be specified.__ + + * `[RSA-2048 PEM File Path]`: The full path or relative path to a RSA-2048 private key file. + + __This parameter is optional.__ If not specified, `navicat-patcher.exe` will generate a new RSA-2048 private key file `RegPrivateKey.pem` at current directory. + + __Example: (in cmd.exe)__ + + ``` + navicat-patcher.exe "C:\Program Files\PremiumSoft\Navicat Premium 12" + ``` + + It has been tested on __Navicat Premium 12.1.22 Simplified Chinese version__. The following is an example of output. + + ``` + *************************************************** + * Navicat Patcher by @DoubleLabyrinth * + * Version: 4.0 * + *************************************************** + + Press Enter to continue or Ctrl + C to abort. + + [+] Try to open Navicat.exe ... Ok! + [+] Try to open libcc.dll ... Ok! + + [+] PatchSolution0 ...... Ready to apply + [*] Patch offset = +0x029bccd8 + [+] PatchSolution1 ...... Ready to apply + [*] [0] Patch offset = +0x02206c00 + [*] [1] Patch offset = +0x0074c489 + [*] [2] Patch offset = +0x02206910 + [*] [3] Patch offset = +0x0074c46f + [*] [4] Patch offset = +0x02206904 + [-] PatchSolution2 ...... Omitted + [+] PatchSolution3 ...... Ready to apply + [*] [ 0] Instruction RVA = 0x016539c8, Patch Offset = +0x023e64d4 + [*] [ 1] Instruction RVA = 0x01653a1f, Patch Offset = +0x01652e23 + [*] [ 2] Instruction RVA = 0x01653a25, Patch Offset = +0x01652e28 + [*] [ 3] Instruction RVA = 0x01653a8c, Patch Offset = +0x01652e8e + ... + ... + ... + [*] [108] Instruction RVA = 0x016604e1, Patch Offset = +0x023e66d8 + [*] [109] Instruction RVA = 0x01660518, Patch Offset = +0x0165f91c + [*] [110] Instruction RVA = 0x0166051e, Patch Offset = +0x0165f921 + + [*] PatchSolution0 is suppressed in order to keep digital signature valid. + + [*] Generating new RSA private key, it may take a long time... + [*] Your RSA public key: + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1hV66HgU4LrKXWW6O7bK + AN6ZTr5W+Mq8ClTQ+Pc+BdhLu6rww55kVq7OXKGpvx0G4eTafYMGrrBETgDSTaMq + Bx+8bZbGBWh2LtNfqU+xUrpHHBSz0ByBc3iTEzzthJl+Fzf8suDX2lWYIc/Ym/eW + YtxdJ7xOzLb68z4N0zVmA0jFX2FOm75DRYgKqy4SGixapfucL9dVaWVLTUdbrVdj + 4LX78t4t5ykbYoThrat4yuLvj/BxLaQ6ivKD+ScfHdtCoY+NA5jmBoUfBq3Q1SXB + iNaoXctbi0/H3MiPu0cRojryAocooF89yFm5/mNnzWGAYPr6DvBI8CDTZmjaQ4oC + aQIDAQAB + -----END PUBLIC KEY----- + + ******************************************************* + * PatchSolution1 * + ******************************************************* + [*] Previous: + +0x0000000002206c00 44 37 35 31 32 35 42 37 30 37 36 37 42 39 34 31 D75125B70767B941 + +0x0000000002206c10 34 35 42 34 37 43 31 43 42 33 43 30 37 35 35 45 45B47C1CB3C0755E + +0x0000000002206c20 37 43 43 42 38 38 32 35 43 35 44 43 45 30 43 35 7CCB8825C5DCE0C5 + ... + ... + [*] After: + +0x0000000002206c00 33 43 32 39 30 39 35 38 33 34 38 41 42 43 35 39 3C290958348ABC59 + +0x0000000002206c10 36 44 39 30 43 45 45 38 31 36 42 36 39 38 34 44 6D90CEE816B6984D + +0x0000000002206c20 35 32 35 34 37 45 30 32 34 31 42 36 42 43 31 41 52547E0241B6BC1A + ... + ... + + [*] Previous: + +0x000000000074c480 fe ea bc 01 .... + [*] After: + +0x000000000074c480 08 00 00 00 .... + + [*] Previous: + +0x0000000002206910 45 31 43 45 44 30 39 42 39 43 32 31 38 36 42 46 E1CED09B9C2186BF + +0x0000000002206920 37 31 41 37 30 43 30 46 45 32 46 31 45 30 41 45 71A70C0FE2F1E0AE + +0x0000000002206930 46 33 42 44 36 42 37 35 32 37 37 41 41 42 32 30 F3BD6B75277AAB20 + ... + ... + [*] After: + +0x0000000002206910 41 33 39 42 41 36 43 34 31 36 33 32 35 30 46 45 A39BA6C4163250FE + +0x0000000002206920 42 32 41 39 31 41 34 32 46 44 42 46 30 41 32 31 B2A91A42FDBF0A21 + +0x0000000002206930 33 34 46 34 36 44 43 45 34 30 42 46 41 42 33 35 34F46DCE40BFAB35 + ... + ... + + [*] Previous: + +0x000000000074c460 59 Y + +0x000000000074c470 08 01 00 ... + [*] After: + +0x000000000074c460 06 . + +0x000000000074c470 00 00 00 ... + + [*] Previous: + +0x0000000002206900 39 32 39 33 33 92933 + [*] After: + +0x0000000002206900 42 34 34 33 38 B4438 + + ******************************************************* + * PatchSolution3 * + ******************************************************* + [*] +023e64d4: 4d 49 49 ---> 4d 49 49 + [*] +01652e23: 42 49 ---> 42 49 + [*] +01652e28: 6a ---> 6a + ... + ... + ... + [*] +023e66d8: 77 49 44 41 ---> 51 49 44 41 + [*] +0165f91c: 51 41 ---> 51 41 + [*] +0165f921: 42 ---> 42 + + [*] New RSA-2048 private key has been saved to + C:\Users\DoubleSine\github.com\navicat-keygen\bin\x64-Release\RegPrivateKey.pem + + ******************************************************* + * PATCH HAS BEEN DONE SUCCESSFULLY! * + * HAVE FUN AND ENJOY~ * + ******************************************************* + ``` + +3. Then use `navicat-keygen.exe` to generate __snKey__ and __Activation Code__ + + ``` + navicat-keygen.exe <-bin|-text> [-adv] + ``` + + * `<-bin|-text>`: Must be `-bin` or `-text`. + + If `-bin` is specified, `navicat-keygen.exe` will finally generate `license_file`. It is used for Navicat old activation method only. + + If `-text` is specified, `navicat-keygen.exe` will finally generate a Base64-style string which is __Activation Code__. It is used for Navicat new activation method. + + __This parameter must be specified.__ + + * `[-adv]`: Enable advanced mode. + + __This parameter is optional.__ If specified, `navicat-keygen.exe` will ask you input Navicat product ID number, language signature numbers. It is for future use generally. + + * ``: The full path or relative path to a RSA-2048 private key file. + + __This parameter must be specified.__ + + __Example: (in cmd.exe)__ + + ```console + navicat-keygen.exe -text .\RegPrivateKey.pem + ``` + + You will be asked to select Navicat product, language and input major version number. After that an randomly generated __snKey__ will be given. + + ``` + Select Navicat product: + 0. DataModeler + 1. Premium + 2. MySQL + 3. PostgreSQL + 4. Oracle + 5. SQLServer + 6. SQLite + 7. MariaDB + 8. MongoDB + 9. ReportViewer + + (Input index)> 1 + + Select product language: + 0. English + 1. Simplified Chinese + 2. Traditional Chinese + 3. Japanese + 4. Polish + 5. Spanish + 6. French + 7. German + 8. Korean + 9. Russian + 10. Portuguese + + (Input index)> 1 + + (Input major version number, range: 0 ~ 15, default: 12)> 12 + + Serial number: + NAVO-2ORP-IN5A-GQEE + + Your name: + ``` + + You can use this __snKey__ to activate your Navicat preliminarily. + + Then you will be asked to input `Your name` and `Your organization`. Just set them whatever you want, but not too long. + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + Input request code (in Base64), input empty line to end: + ``` + + After that, you will be asked to input the request code. Now __DO NOT CLOSE KEYGEN__. + +4. __Disconnect your network__ and open Navicat. Find and click `Registration`. Fill `Registration Key` by __snKey__ that the keygen gave and click `Activate`. + +5. Generally online activation will failed and Navicat will ask you do `Manual Activation`, just choose it. + +6. Copy your request code and paste it in the keygen. Input empty line to tell the keygen that your input ends. + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + + Input request code (in Base64), input empty line to end: + t2U+0yfE2FfnbjyhCXa0lglZOHu9Ntc3qyGiPbR6xb1QoU63/9BVfdaCq0blwVycXPyT/Vqw5joIKdM5oCRR/afCPM7iRcyhQMAnvqwc+AOKCqayVV+SqKLvtR/AbREI12w++PQ6Ewfs4A8PgB8OJ9G0jKt6Q/iJRblqi2WWw9mwy+YHcYYh3UAfygTnyj/xl+MzRymbY0lkus+6LPtpDecVsFFhM7F32Ee1QPwISko7bAkHOtkt+joPfYDdn9PDGZ4HEmeLvH6UqZCXkzgaAfynB7cQZFEkId8FsW2NGkbpM7wB2Hi3fNFgOIjutTprixTdbpFKn4w6gGc28ve23A== + + Request Info: + {"K":"NAVO2ORPIN5AGQEE", "DI":"R91j6WyMhxHznAKSxxxx", "P":"WIN"} + + Response Info: + {"K":"NAVO2ORPIN5AGQEE","DI":"R91j6WyMhxHznAKSxxxx","N":"DoubleLabyrinth","O":"DoubleLabyrinth","T":1547826060} + + License: + lRF18o+ZhBphyN0U5kFLHtAAGGXuvhqOcxNuvAk4dJcGeR0ISuw74mQvAfdNjv0T + I5NZFzqIJvrzM0XeR88q+3kmZkECuxwwWHP3zzDPhPiylcTV4DoGZ1tfoViUSYQc + LgXG0Fl7koZeP61YOKQ8GfX+Xk2ZTM64bYaF7NlhonM+GQUJCCF2JThmrP921t2p + b/E5pV6fLOYMM13881ZQcQcltMNVDZn4lzgzKRFFxCQFaTl6fJMHZdYVmICQTHtI + sNaym0zduc8/cv34mgJ+7NseXmsEPCdjrZ59wgfPsLhZLXqtfxi5hGWw4NMa3Sb2 + UI8dzqFzRp/hSDEM0mEqiA== + ``` + +7. Finally, you will get __Activation Code__ which looks like a Base64 string. Just copy it and paste it in Navicat `Manual Activation` window, then click `Activate`. If nothing wrong, activation should be done successfully. + diff --git a/doc/how-to-use.windows.zh-CN.md b/doc/how-to-use.windows.zh-CN.md new file mode 100644 index 0000000..b486498 --- /dev/null +++ b/doc/how-to-use.windows.zh-CN.md @@ -0,0 +1,254 @@ +# Navicat Keygen - 如何使用这个注册机? (Windows) + +1. [从这里](https://github.com/DoubleLabyrinth/navicat-keygen/releases)下载最新的release。 + +2. 使用`navicat-patcher.exe`替换掉`navicat.exe`和`libcc.dll`里的Navicat激活公钥。 + + ``` + navicat-patcher.exe [-dry-run] [RSA-2048 PEM File Path] + ``` + + * `[-dry-run]`: 运行patcher但不对Navicat程序做任何修改。 + + __这个参数是可选的。__ + + * ``: Navicat的完整安装路径。 + + __这个参数必须指定。__ + + * `[RSA-2048 PEM File Path]`: RSA-2048私钥文件的完整路径或相对路径。 + + __这个参数是可选的。__ 如果未指定,`navicat-patcher.exe`将会在当前目录生成一个新的RSA-2048私钥文件。 + + __例如:(在cmd.exe中)__ + + ``` + navicat-patcher.exe "C:\Program Files\PremiumSoft\Navicat Premium 12" + ``` + + __Navicat Premium 12.1.22 简体中文版已通过测试__。下面将是一份样例输出: + + ``` + *************************************************** + * Navicat Patcher by @DoubleLabyrinth * + * Version: 4.0 * + *************************************************** + + Press Enter to continue or Ctrl + C to abort. + + [+] Try to open Navicat.exe ... Ok! + [+] Try to open libcc.dll ... Ok! + + [+] PatchSolution0 ...... Ready to apply + [*] Patch offset = +0x029bccd8 + [+] PatchSolution1 ...... Ready to apply + [*] [0] Patch offset = +0x02206c00 + [*] [1] Patch offset = +0x0074c489 + [*] [2] Patch offset = +0x02206910 + [*] [3] Patch offset = +0x0074c46f + [*] [4] Patch offset = +0x02206904 + [-] PatchSolution2 ...... Omitted + [+] PatchSolution3 ...... Ready to apply + [*] [ 0] Instruction RVA = 0x016539c8, Patch Offset = +0x023e64d4 + [*] [ 1] Instruction RVA = 0x01653a1f, Patch Offset = +0x01652e23 + [*] [ 2] Instruction RVA = 0x01653a25, Patch Offset = +0x01652e28 + [*] [ 3] Instruction RVA = 0x01653a8c, Patch Offset = +0x01652e8e + ... + ... + ... + [*] [108] Instruction RVA = 0x016604e1, Patch Offset = +0x023e66d8 + [*] [109] Instruction RVA = 0x01660518, Patch Offset = +0x0165f91c + [*] [110] Instruction RVA = 0x0166051e, Patch Offset = +0x0165f921 + + [*] PatchSolution0 is suppressed in order to keep digital signature valid. + + [*] Generating new RSA private key, it may take a long time... + [*] Your RSA public key: + -----BEGIN PUBLIC KEY----- + MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEA1hV66HgU4LrKXWW6O7bK + AN6ZTr5W+Mq8ClTQ+Pc+BdhLu6rww55kVq7OXKGpvx0G4eTafYMGrrBETgDSTaMq + Bx+8bZbGBWh2LtNfqU+xUrpHHBSz0ByBc3iTEzzthJl+Fzf8suDX2lWYIc/Ym/eW + YtxdJ7xOzLb68z4N0zVmA0jFX2FOm75DRYgKqy4SGixapfucL9dVaWVLTUdbrVdj + 4LX78t4t5ykbYoThrat4yuLvj/BxLaQ6ivKD+ScfHdtCoY+NA5jmBoUfBq3Q1SXB + iNaoXctbi0/H3MiPu0cRojryAocooF89yFm5/mNnzWGAYPr6DvBI8CDTZmjaQ4oC + aQIDAQAB + -----END PUBLIC KEY----- + + ******************************************************* + * PatchSolution1 * + ******************************************************* + [*] Previous: + +0x0000000002206c00 44 37 35 31 32 35 42 37 30 37 36 37 42 39 34 31 D75125B70767B941 + +0x0000000002206c10 34 35 42 34 37 43 31 43 42 33 43 30 37 35 35 45 45B47C1CB3C0755E + +0x0000000002206c20 37 43 43 42 38 38 32 35 43 35 44 43 45 30 43 35 7CCB8825C5DCE0C5 + ... + ... + [*] After: + +0x0000000002206c00 33 43 32 39 30 39 35 38 33 34 38 41 42 43 35 39 3C290958348ABC59 + +0x0000000002206c10 36 44 39 30 43 45 45 38 31 36 42 36 39 38 34 44 6D90CEE816B6984D + +0x0000000002206c20 35 32 35 34 37 45 30 32 34 31 42 36 42 43 31 41 52547E0241B6BC1A + ... + ... + + [*] Previous: + +0x000000000074c480 fe ea bc 01 .... + [*] After: + +0x000000000074c480 08 00 00 00 .... + + [*] Previous: + +0x0000000002206910 45 31 43 45 44 30 39 42 39 43 32 31 38 36 42 46 E1CED09B9C2186BF + +0x0000000002206920 37 31 41 37 30 43 30 46 45 32 46 31 45 30 41 45 71A70C0FE2F1E0AE + +0x0000000002206930 46 33 42 44 36 42 37 35 32 37 37 41 41 42 32 30 F3BD6B75277AAB20 + ... + ... + [*] After: + +0x0000000002206910 41 33 39 42 41 36 43 34 31 36 33 32 35 30 46 45 A39BA6C4163250FE + +0x0000000002206920 42 32 41 39 31 41 34 32 46 44 42 46 30 41 32 31 B2A91A42FDBF0A21 + +0x0000000002206930 33 34 46 34 36 44 43 45 34 30 42 46 41 42 33 35 34F46DCE40BFAB35 + ... + ... + + [*] Previous: + +0x000000000074c460 59 Y + +0x000000000074c470 08 01 00 ... + [*] After: + +0x000000000074c460 06 . + +0x000000000074c470 00 00 00 ... + + [*] Previous: + +0x0000000002206900 39 32 39 33 33 92933 + [*] After: + +0x0000000002206900 42 34 34 33 38 B4438 + + ******************************************************* + * PatchSolution3 * + ******************************************************* + [*] +023e64d4: 4d 49 49 ---> 4d 49 49 + [*] +01652e23: 42 49 ---> 42 49 + [*] +01652e28: 6a ---> 6a + ... + ... + ... + [*] +023e66d8: 77 49 44 41 ---> 51 49 44 41 + [*] +0165f91c: 51 41 ---> 51 41 + [*] +0165f921: 42 ---> 42 + + [*] New RSA-2048 private key has been saved to + C:\Users\DoubleSine\github.com\navicat-keygen\bin\x64-Release\RegPrivateKey.pem + + ******************************************************* + * PATCH HAS BEEN DONE SUCCESSFULLY! * + * HAVE FUN AND ENJOY~ * + ******************************************************* + ``` + +3. 接下来使用`navicat-keygen.exe`来生成序列号和激活码 + + ``` + navicat-keygen.exe <-bin|-text> [-adv] + ``` + + * `<-bin|-text>`: 必须是`-bin`或`-text`。 + + 如果指定了`-bin`,`navicat-keygen.exe`最终将生成`license_file`文件。这个选项是给Navicat旧激活方式使用的。 + + 如果指定了`-text`,`navicat-keygen.exe`最终将生成Base64样式的激活码。这个选项是给Navicat新激活方式使用的。 + + __这个参数必须指定。__ + + * `[-adv]`: 开启高级模式。 + + __这个参数是可选的。__ 如果指定了这个参数,`navicat-keygen.exe`将会要求你手工填写产品ID号、语言标识号。这个选项一般是给以后用的。 + + * ``: RSA-2048私钥文件的完整路径或相对路径。 + + __这个参数必须指定。__ + + __例如:(在cmd.exe中)__ + + ```console + navicat-keygen.exe -text .\RegPrivateKey.pem + ``` + + 你会被要求选择Navicat产品类别、语言以及输入主版本号。之后会随机生成一个序列号。 + + ``` + Select Navicat product: + 0. DataModeler + 1. Premium + 2. MySQL + 3. PostgreSQL + 4. Oracle + 5. SQLServer + 6. SQLite + 7. MariaDB + 8. MongoDB + 9. ReportViewer + + (Input index)> 1 + + Select product language: + 0. English + 1. Simplified Chinese + 2. Traditional Chinese + 3. Japanese + 4. Polish + 5. Spanish + 6. French + 7. German + 8. Korean + 9. Russian + 10. Portuguese + + (Input index)> 1 + + (Input major version number, range: 0 ~ 15, default: 12)> 12 + + Serial number: + NAVO-2ORP-IN5A-GQEE + + Your name: + ``` + + 你可以使用这个序列号暂时激活Navicat。 + + 接下来你会被要求输入`用户名`和`组织名`;请随便填写,但不要太长。 + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + Input request code (in Base64), input empty line to end: + ``` + + 之后你会被要求填入请求码。注意 __不要关闭命令行__. + +4. __断开网络__ 并打开Navicat。找到`注册`窗口,并填入keygen给你的序列号。然后点击`激活`按钮。 + +5. 一般来说在线激活肯定会失败,这时候Navicat会询问你是否`手动激活`,直接选吧。 + +6. 在`手动激活`窗口你会得到一个请求码,复制它并把它粘贴到keygen里。最后别忘了连按至少两下回车结束输入。 + + ``` + Your name: DoubleLabyrinth + Your organization: DoubleLabyrinth + + Input request code (in Base64), input empty line to end: + t2U+0yfE2FfnbjyhCXa0lglZOHu9Ntc3qyGiPbR6xb1QoU63/9BVfdaCq0blwVycXPyT/Vqw5joIKdM5oCRR/afCPM7iRcyhQMAnvqwc+AOKCqayVV+SqKLvtR/AbREI12w++PQ6Ewfs4A8PgB8OJ9G0jKt6Q/iJRblqi2WWw9mwy+YHcYYh3UAfygTnyj/xl+MzRymbY0lkus+6LPtpDecVsFFhM7F32Ee1QPwISko7bAkHOtkt+joPfYDdn9PDGZ4HEmeLvH6UqZCXkzgaAfynB7cQZFEkId8FsW2NGkbpM7wB2Hi3fNFgOIjutTprixTdbpFKn4w6gGc28ve23A== + + Request Info: + {"K":"NAVO2ORPIN5AGQEE", "DI":"R91j6WyMhxHznAKSxxxx", "P":"WIN"} + + Response Info: + {"K":"NAVO2ORPIN5AGQEE","DI":"R91j6WyMhxHznAKSxxxx","N":"DoubleLabyrinth","O":"DoubleLabyrinth","T":1547826060} + + License: + lRF18o+ZhBphyN0U5kFLHtAAGGXuvhqOcxNuvAk4dJcGeR0ISuw74mQvAfdNjv0T + I5NZFzqIJvrzM0XeR88q+3kmZkECuxwwWHP3zzDPhPiylcTV4DoGZ1tfoViUSYQc + LgXG0Fl7koZeP61YOKQ8GfX+Xk2ZTM64bYaF7NlhonM+GQUJCCF2JThmrP921t2p + b/E5pV6fLOYMM13881ZQcQcltMNVDZn4lzgzKRFFxCQFaTl6fJMHZdYVmICQTHtI + sNaym0zduc8/cv34mgJ+7NseXmsEPCdjrZ59wgfPsLhZLXqtfxi5hGWw4NMa3Sb2 + UI8dzqFzRp/hSDEM0mEqiA== + ``` + + 4. 如果不出意外,你会得到一个看似用Base64编码的激活码。直接复制它,并把它粘贴到Navicat的`手动激活`窗口,最后点`激活`按钮。如果没什么意外的话应该能成功激活。 + diff --git a/doc/image/Screen_recording.mp4 b/doc/image/Screen_recording.mp4 new file mode 100644 index 0000000..0ba72c4 Binary files /dev/null and b/doc/image/Screen_recording.mp4 differ diff --git a/doc/image/Screenshot_2019-04-30_12-31-33.png b/doc/image/Screenshot_2019-04-30_12-31-33.png new file mode 100644 index 0000000..483c947 Binary files /dev/null and b/doc/image/Screenshot_2019-04-30_12-31-33.png differ diff --git a/doc/image/Screenshot_2019-04-30_12-31-52.png b/doc/image/Screenshot_2019-04-30_12-31-52.png new file mode 100644 index 0000000..fa7b822 Binary files /dev/null and b/doc/image/Screenshot_2019-04-30_12-31-52.png differ diff --git a/doc/image/Screenshot_2019-04-30_12-32-43.png b/doc/image/Screenshot_2019-04-30_12-32-43.png new file mode 100644 index 0000000..fc3a9be Binary files /dev/null and b/doc/image/Screenshot_2019-04-30_12-32-43.png differ diff --git a/navicat-keygen.sln b/navicat-keygen.sln new file mode 100644 index 0000000..28a3e60 --- /dev/null +++ b/navicat-keygen.sln @@ -0,0 +1,48 @@ + +Microsoft Visual Studio Solution File, Format Version 12.00 +# Visual Studio Version 17 +VisualStudioVersion = 17.0.32112.339 +MinimumVisualStudioVersion = 10.0.40219.1 +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "navicat-keygen", "navicat-keygen\navicat-keygen.vcxproj", "{6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}" +EndProject +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "navicat-patcher", "navicat-patcher\navicat-patcher.vcxproj", "{1B6920EB-E6ED-465F-9600-B5F816752375}" +EndProject +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "common", "common\common.vcxitems", "{6D81A756-475A-4093-919E-3E9217F662CA}" +EndProject +Global + GlobalSection(SharedMSBuildProjectFiles) = preSolution + common\common.vcxitems*{1b6920eb-e6ed-465f-9600-b5f816752375}*SharedItemsImports = 4 + common\common.vcxitems*{6d262af4-5dac-4f0c-b3d6-23c9cbea9756}*SharedItemsImports = 4 + common\common.vcxitems*{6d81a756-475a-4093-919e-3e9217f662ca}*SharedItemsImports = 9 + EndGlobalSection + GlobalSection(SolutionConfigurationPlatforms) = preSolution + Debug|x64 = Debug|x64 + Debug|x86 = Debug|x86 + Release|x64 = Release|x64 + Release|x86 = Release|x86 + EndGlobalSection + GlobalSection(ProjectConfigurationPlatforms) = postSolution + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Debug|x64.ActiveCfg = Debug|x64 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Debug|x64.Build.0 = Debug|x64 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Debug|x86.ActiveCfg = Debug|Win32 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Debug|x86.Build.0 = Debug|Win32 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Release|x64.ActiveCfg = Release|x64 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Release|x64.Build.0 = Release|x64 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Release|x86.ActiveCfg = Release|Win32 + {6D262AF4-5DAC-4F0C-B3D6-23C9CBEA9756}.Release|x86.Build.0 = Release|Win32 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Debug|x64.ActiveCfg = Debug|x64 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Debug|x64.Build.0 = Debug|x64 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Debug|x86.ActiveCfg = Debug|Win32 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Debug|x86.Build.0 = Debug|Win32 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Release|x64.ActiveCfg = Release|x64 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Release|x64.Build.0 = Release|x64 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Release|x86.ActiveCfg = Release|Win32 + {1B6920EB-E6ED-465F-9600-B5F816752375}.Release|x86.Build.0 = Release|Win32 + EndGlobalSection + GlobalSection(SolutionProperties) = preSolution + HideSolutionNode = FALSE + EndGlobalSection + GlobalSection(ExtensibilityGlobals) = postSolution + SolutionGuid = {9382E280-F6E3-48E2-B3EF-1DB5BFF83DAE} + EndGlobalSection +EndGlobal diff --git a/navicat-keygen/CollectInformation.cpp b/navicat-keygen/CollectInformation.cpp new file mode 100644 index 0000000..2e836dc --- /dev/null +++ b/navicat-keygen/CollectInformation.cpp @@ -0,0 +1,131 @@ +#include "navicat_serial_generator.hpp" +#include +#include "exceptions/operation_canceled_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\CollectInformation.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + [[nodiscard]] + static int read_int(int min_val, int max_val, std::wstring_view prompt, std::wstring_view error_msg) { + int val; + + for (std::wstring s;;) { + std::wcout << prompt; + if (!std::getline(std::wcin, s)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } + + if (s.empty()) + continue; + + try { + val = std::stoi(s, nullptr, 0); + if (min_val <= val && val <= max_val) { + return val; + } else { + throw std::invalid_argument(u8""); + } + } catch (std::invalid_argument&) { + std::wcout << error_msg << std::endl; + } + } + } + + [[nodiscard]] + static int read_int(int min_val, int max_val, int default_val, std::wstring_view prompt, std::wstring_view error_msg) { + int val; + + for (std::wstring s;;) { + std::wcout << prompt; + if (!std::getline(std::wcin, s)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } + + if (s.empty()) { + return default_val; + } + + try { + val = std::stoi(s, nullptr, 0); + if (min_val <= val && val <= max_val) { + return val; + } else { + throw std::invalid_argument(u8""); + } + } catch (std::invalid_argument&) { + std::wcout << error_msg << std::endl; + } + } + } + + [[nodiscard]] + navicat_serial_generator CollectInformationNormal() { + navicat_serial_generator sn_generator; + + std::wcout << L"[*] Select Navicat product:" << std::endl; + std::wcout << L" 0. DataModeler" << std::endl; + std::wcout << L" 1. Premium" << std::endl; + std::wcout << L" 2. MySQL" << std::endl; + std::wcout << L" 3. PostgreSQL" << std::endl; + std::wcout << L" 4. Oracle" << std::endl; + std::wcout << L" 5. SQLServer" << std::endl; + std::wcout << L" 6. SQLite" << std::endl; + std::wcout << L" 7. MariaDB" << std::endl; + std::wcout << L" 8. MongoDB" << std::endl; + std::wcout << L" 9. ReportViewer" << std::endl; + std::wcout << std::endl; + sn_generator.set_software_type(static_cast(read_int(0, 9, L"(Input index)> ", L"Invalid index."))); + std::wcout << std::endl; + + std::wcout << L"[*] Select product language:" << std::endl; + std::wcout << L" 0. English" << std::endl; + std::wcout << L" 1. Simplified Chinese" << std::endl; + std::wcout << L" 2. Traditional Chinese" << std::endl; + std::wcout << L" 3. Japanese" << std::endl; + std::wcout << L" 4. Polish" << std::endl; + std::wcout << L" 5. Spanish" << std::endl; + std::wcout << L" 6. French" << std::endl; + std::wcout << L" 7. German" << std::endl; + std::wcout << L" 8. Korean" << std::endl; + std::wcout << L" 9. Russian" << std::endl; + std::wcout << L" 10. Portuguese" << std::endl; + std::wcout << std::endl; + sn_generator.set_software_language(static_cast(read_int(0, 10, L"(Input index)> ", L"Invalid index."))); + std::wcout << std::endl; + + std::wcout << L"[*] Input major version number:" << std::endl; + sn_generator.set_software_version(read_int(11, 16, 16, L"(range: 11 ~ 16, default: 16)> ", L"Invalid number.")); + std::wcout << std::endl; + + return sn_generator; + } + + [[nodiscard]] + navicat_serial_generator CollectInformationAdvanced() { + navicat_serial_generator sn_generator; + + std::wcout << L"[*] Navicat Product Signature:" << std::endl; + sn_generator.set_software_type(static_cast(read_int(0x00, 0xff, L"(range: 0x00 ~ 0xFF)> ", L"Invalid number."))); + std::wcout << std::endl; + + std::wcout << L"[*] Navicat Language Signature 0:" << std::endl; + auto s1 = static_cast(read_int(0x00, 0xff, L"(range: 0x00 ~ 0xFF)> ", L"Invalid number.")); + std::wcout << std::endl; + + std::wcout << L"[*] Navicat Language Signature 1:" << std::endl; + auto s2 = static_cast(read_int(0x00, 0xff, L"(range: 0x00 ~ 0xFF)> ", L"Invalid number.")); + sn_generator.set_software_language(s1, s2); + std::wcout << std::endl; + + std::wcout << L"[*] Input major version number:" << std::endl; + sn_generator.set_software_version(read_int(11, 16, 16, L"(range: 11 ~ 16, default: 16)> ", L"Invalid number.")); + std::wcout << std::endl; + + return sn_generator; + } +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/navicat-keygen/GenerateLicense.cpp b/navicat-keygen/GenerateLicense.cpp new file mode 100644 index 0000000..89b5aa6 --- /dev/null +++ b/navicat-keygen/GenerateLicense.cpp @@ -0,0 +1,236 @@ +#include "exception.hpp" +#include "exceptions/operation_canceled_exception.hpp" +#include "exceptions/win32_exception.hpp" + +#include "resource_wrapper.hpp" +#include "resource_traits/win32/file_handle.hpp" + +#include "cp_converter.hpp" +#include "base64_rfc4648.hpp" +#include "navicat_serial_generator.hpp" +#include "rsa_cipher.hpp" + +#include +#include + +#include +#include +#include + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\GenerateLicense.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + void GenerateLicenseText(const rsa_cipher& cipher, const navicat_serial_generator& sn_generator) { + std::wstring username; + std::wstring organization; + std::string u8_username; + std::string u8_organization; + + std::wstring b64_request_code; + std::vector request_code; + std::string u8_request_info; + std::string u8_response_info; + std::vector response_code; + std::wstring b64_response_code; + + std::wcout << L"[*] Your name: "; + if (!std::getline(std::wcin, username)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } else { + u8_username = cp_converter<-1, CP_UTF8>::convert(username); + } + + std::wcout << L"[*] Your organization: "; + if (!std::getline(std::wcin, organization)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } else { + u8_organization = cp_converter<-1, CP_UTF8>::convert(organization); + } + + std::wcout << L"[*] Input request code in Base64: (Input empty line to end)" << std::endl; + while (true) { + std::wstring s; + if (!std::getline(std::wcin, s)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } + + if (s.empty()) { + break; + } + + b64_request_code.append(s); + } + + if (b64_request_code.empty()) { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Nothing inputs, abort!"); + } + + request_code = base64_rfc4648::decode(cp_converter<-1, CP_UTF8>::convert(b64_request_code)); + + u8_request_info.resize((cipher.bits() + 7) / 8); + u8_request_info.resize(cipher.private_decrypt(request_code.data(), request_code.size(), u8_request_info.data(), RSA_PKCS1_PADDING)); + while (u8_request_info.back() == '\x00') { + u8_request_info.pop_back(); + } + + std::wcout << L"[*] Request Info:" << std::endl; + std::wcout << cp_converter::convert(u8_request_info) << std::endl; + std::wcout << std::endl; + + rapidjson::Document json; + rapidjson::Value N_Key; + rapidjson::Value N_Value; + rapidjson::Value O_Key; + rapidjson::Value O_Value; + rapidjson::Value T_Key; + rapidjson::Value T_Value; + rapidjson::StringBuffer buffer; + rapidjson::Writer writer(buffer); + + // + // begin to parse + // + json.Parse(u8_request_info.c_str()); + + // + // remove "Platform" info + // + json.RemoveMember(u8"P"); + + // + // set "Name" info + // + N_Key.SetString(u8"N", 1); + N_Value.SetString(u8_username.c_str(), static_cast(u8_username.length())); + + // + // set "Organization" info + // + O_Key.SetString(u8"O", 1); + O_Value.SetString(u8_organization.c_str(), static_cast(u8_organization.length())); + + // + // set "Time" info + // + T_Key.SetString(u8"T", 1); + T_Value.SetUint(static_cast(std::time(nullptr))); + + // + // add "Name", "Organization" and "Time" + // + json.AddMember(N_Key, N_Value, json.GetAllocator()); + json.AddMember(O_Key, O_Value, json.GetAllocator()); + json.AddMember(T_Key, T_Value, json.GetAllocator()); + + // + // flush + // + json.Accept(writer); + + if (buffer.GetSize() > 240) { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Response Info is too long."); + } + + u8_response_info.assign(buffer.GetString(), buffer.GetSize()); + + std::wcout << L"[*] Response Info:" << std::endl; + std::wcout << cp_converter::convert(u8_response_info) << std::endl; + std::wcout << std::endl; + + response_code.resize((cipher.bits() + 7) / 8); + response_code.resize(cipher.private_encrypt(u8_response_info.data(), u8_response_info.size(), response_code.data(), RSA_PKCS1_PADDING)); + b64_response_code = cp_converter::convert(base64_rfc4648::encode(response_code)); + + std::wcout << L"[*] Activation Code:" << std::endl; + std::wcout << b64_response_code << std::endl; + std::wcout << std::endl; + } + + void GenerateLicenseBinary(const rsa_cipher& cipher, const navicat_serial_generator& sn_generator) { + std::string utf8SerialNumber = sn_generator.serial_number(); + + std::wstring username; + std::wstring organization; + std::string u8_username; + std::string u8_organization; + + std::string u8_response_info; + std::vector response_code; + + std::wcout << L"[*] Your name: "; + if (!std::getline(std::wcin, username)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } else { + u8_username = cp_converter<-1, CP_UTF8>::convert(username); + } + + std::wcout << L"[*] Your organization: "; + if (!std::getline(std::wcin, organization)) { + throw exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Operation is canceled by user."); + } else { + u8_organization = cp_converter<-1, CP_UTF8>::convert(organization); + } + + rapidjson::Document json; + rapidjson::Value N_Key; + rapidjson::Value N_Value; + rapidjson::Value O_Key; + rapidjson::Value O_Value; + rapidjson::Value T_Key; + rapidjson::Value T_Value; + rapidjson::Value K_Key; + rapidjson::Value K_Value; + rapidjson::StringBuffer buffer; + rapidjson::Writer writer(buffer); + + json.Parse("{}"); + K_Key.SetString("K", 1); + K_Value.SetString(utf8SerialNumber.c_str(), static_cast(utf8SerialNumber.length())); + N_Key.SetString("N", 1); + N_Value.SetString(u8_username.c_str(), static_cast(u8_username.length())); + O_Key.SetString("O", 1); + O_Value.SetString(u8_organization.c_str(), static_cast(u8_organization.length())); + T_Key.SetString("T", 1); + T_Value.SetUint(static_cast(std::time(nullptr))); + + json.AddMember(K_Key, K_Value, json.GetAllocator()); + json.AddMember(N_Key, N_Value, json.GetAllocator()); + json.AddMember(O_Key, O_Value, json.GetAllocator()); + json.AddMember(T_Key, T_Value, json.GetAllocator()); + + // + // flush + // + json.Accept(writer); + + if (buffer.GetSize() > 240) { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Response Info is too long."); + } + + u8_response_info.assign(buffer.GetString(), buffer.GetSize()); + + std::wcout << L"[*] Response Info:" << std::endl; + std::wcout << cp_converter::convert(u8_response_info) << std::endl; + std::wcout << std::endl; + + response_code.resize((cipher.bits() + 7) / 8); + response_code.resize(cipher.private_encrypt(u8_response_info.data(), u8_response_info.size(), response_code.data(), RSA_PKCS1_PADDING)); + + resource_wrapper license_file{ resource_traits::win32::file_handle{}, CreateFileW(L"license_file", GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL) }; + if (license_file.is_valid() == false) { + throw exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"CreateFileW failed."); + } + + if (DWORD _; WriteFile(license_file.get(), response_code.data(), static_cast(response_code.size()), &_, NULL) == FALSE) { + throw exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"WriteFile failed."); + } + + std::wcout << L"[+] license_file has been generated." << std::endl; + } + +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/navicat-keygen/base32_rfc4648.cpp b/navicat-keygen/base32_rfc4648.cpp new file mode 100644 index 0000000..97f7c35 --- /dev/null +++ b/navicat-keygen/base32_rfc4648.cpp @@ -0,0 +1,120 @@ +#include "base32_rfc4648.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\base32_rfc4648.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + char base32_rfc4648::symbol(alphabet_index_t idx) { + return alphabet[idx]; + } + + base32_rfc4648::alphabet_index_t base32_rfc4648::reverse_symbol(char c) { + if ('A' <= c && c <= 'Z') { + return c - 'A'; + } else if ('2' <= c && c <= '7') { + return c - '2' + 26; + } else { + throw decoding_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Non-base32 digit is found"); + } + } + + std::string base32_rfc4648::encode(const std::vector& data) { + return encode(data.data(), data.size()); + } + + std::string base32_rfc4648::encode(const void* data_ptr, size_t data_size) { + std::string retval; + + if (data_size) { + retval.reserve((data_size * 8 + 4) / 5); + + auto p = reinterpret_cast(data_ptr); + alphabet_index_t left_bits = 0; + alphabet_index_t bit_buffer = 0; + for (size_t i = 0; i < data_size; ++i) { + bit_buffer = (bit_buffer << 8) | p[i]; + left_bits += 8; + + while (left_bits >= 5) { + alphabet_index_t idx = (bit_buffer >> (left_bits - 5)) & 0x1f; + retval.push_back(symbol(idx)); + left_bits -= 5; + } + } + + if (left_bits > 0) { + alphabet_index_t idx = (bit_buffer << (5 - left_bits)) & 0x1f; + retval.push_back(symbol(idx)); + } + + switch (data_size % 5) { + case 0: + break; + case 1: + retval.append(6, padding_character); + break; + case 2: + retval.append(4, padding_character); + break; + case 3: + retval.append(3, padding_character); + break; + case 4: + retval.append(1, padding_character); + break; + default: + __assume(false); + } + } + + return retval; + } + + std::vector base32_rfc4648::decode(std::string_view b32_string) { + if (b32_string.length() % 8 == 0) { + std::vector retval; + + size_t count_of_padding = std::distance(b32_string.crbegin(), std::find_if_not(b32_string.crbegin(), b32_string.crend(), [](char c) -> bool { return c == padding_character; })); + switch (count_of_padding) { + case 1: + retval.reserve(b32_string.length() / 8 * 5 - (5 - 4)); + break; + case 3: + retval.reserve(b32_string.length() / 8 * 5 - (5 - 3)); + break; + case 4: + retval.reserve(b32_string.length() / 8 * 5 - (5 - 2)); + break; + case 6: + retval.reserve(b32_string.length() / 8 * 5 - (5 - 1)); + break; + default: + throw decoding_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Incorrect padding"); + } + + size_t count_of_encoded = b32_string.length() - count_of_padding; + + alphabet_index_t left_bits = 0; + alphabet_index_t bit_buffer = 0; + for (size_t i = 0; i < count_of_encoded; ++i) { + bit_buffer = (bit_buffer << 5) | reverse_symbol(b32_string[i]); + left_bits += 5; + + while (left_bits >= 8) { + auto val = static_cast((bit_buffer >> (left_bits - 8)) & 0xff); + retval.push_back(val); + left_bits -= 8; + } + } + + return retval; + } else { + throw decoding_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Incorrect padding"); + } + } + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-keygen/base32_rfc4648.hpp b/navicat-keygen/base32_rfc4648.hpp new file mode 100644 index 0000000..1e36fee --- /dev/null +++ b/navicat-keygen/base32_rfc4648.hpp @@ -0,0 +1,39 @@ +#pragma once +#include +#include +#include +#include +#include "exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\base32_rfc4648.hpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + struct base32_rfc4648 { + using alphabet_index_t = size_t; + + static constexpr const char alphabet[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ234567"; + static constexpr const char padding_character = '='; + + class decoding_error : public ::nkg::exception { + public: + decoding_error(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + + static char symbol(alphabet_index_t idx); + + static alphabet_index_t reverse_symbol(char c); + + static std::string encode(const std::vector& data); + + static std::string encode(const void* data_ptr, size_t data_size); + + static std::vector decode(std::string_view b32_string); + }; + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-keygen/base64_rfc4648.cpp b/navicat-keygen/base64_rfc4648.cpp new file mode 100644 index 0000000..9884cf7 --- /dev/null +++ b/navicat-keygen/base64_rfc4648.cpp @@ -0,0 +1,103 @@ +#include "base64_rfc4648.hpp" + +#include +#include + +#include "resource_wrapper.hpp" +#include "resource_traits/openssl/bio.hpp" +#include "resource_traits/openssl/bio_chain.hpp" + +#pragma comment(lib, "libcrypto") +#pragma comment(lib, "crypt32") // required by libcrypto.lib +#pragma comment(lib, "ws2_32") // required by libcrypto.lib + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\base64_rfc4648.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + std::string base64_rfc4648::encode(const std::vector& data) { + resource_wrapper bio_b64{ resource_traits::openssl::bio_chain{}, BIO_new(BIO_f_base64()) }; + if (bio_b64.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + BIO_set_flags(bio_b64.get(), BIO_FLAGS_BASE64_NO_NL); + + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + if (bio_memory.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + BIO_push(bio_b64.get(), bio_memory.get()); + + for (size_t written_size = 0, left_size = data.size(); left_size != 0;) { + int size_to_write = static_cast(std::min(left_size, static_cast(INT_MAX))); + + int r = BIO_write(bio_b64.get(), data.data() + written_size, size_to_write); + if (r > 0) { + written_size += r; + left_size -= r; + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_write failed."); + } + } + + BIO_flush(bio_b64.get()); + + const char* pch = nullptr; + long lch = BIO_get_mem_data(bio_memory.get(), &pch); + + bio_memory.discard(); // the bio_chain `bio_b64` will free it + + return std::string(pch, lch); + } + + std::vector base64_rfc4648::decode(std::string_view b64_string) { + resource_wrapper bio_b64{ resource_traits::openssl::bio_chain{}, BIO_new(BIO_f_base64()) }; + if (bio_b64.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + BIO_set_flags(bio_b64.get(), BIO_FLAGS_BASE64_NO_NL); + + resource_wrapper bio_memory{ resource_traits::openssl::bio{}, BIO_new(BIO_s_mem()) }; + if (bio_memory.is_valid() == false) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_new failed."); + } + + BIO_push(bio_b64.get(), bio_memory.get()); + + for (size_t written_length = 0, left_length = b64_string.length(); left_length != 0;) { + int length_to_write = static_cast(std::min(left_length, static_cast(INT_MAX))); + + int r = BIO_write(bio_memory.get(), b64_string.data() + written_length, length_to_write); + if (r > 0) { + written_length += r; + left_length -= r; + } else { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"BIO_write failed."); + } + } + + std::vector retval; + retval.reserve(b64_string.length() * 3 / 4 + 1); + + for (uint8_t buf[256];;) { + auto len = BIO_read(bio_b64.get(), buf, sizeof(buf)); + if (len > 0) { + retval.insert(retval.end(), buf, buf + len); + } else { + break; + } + } + + bio_memory.discard(); // the bio_chain `bio_b64` will free it + + return retval; + } + +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/navicat-keygen/base64_rfc4648.hpp b/navicat-keygen/base64_rfc4648.hpp new file mode 100644 index 0000000..04c0aed --- /dev/null +++ b/navicat-keygen/base64_rfc4648.hpp @@ -0,0 +1,20 @@ +#pragma once +#include +#include +#include "exception.hpp" + +namespace nkg { + + struct base64_rfc4648 { + + class backend_error : public ::nkg::exception { + public: + backend_error(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + + static std::string encode(const std::vector& data); + static std::vector decode(std::string_view str_b64); + }; + +} diff --git a/navicat-keygen/navicat-keygen.vcxproj b/navicat-keygen/navicat-keygen.vcxproj new file mode 100644 index 0000000..2878007 --- /dev/null +++ b/navicat-keygen/navicat-keygen.vcxproj @@ -0,0 +1,187 @@ + + + + + Debug + Win32 + + + Release + Win32 + + + Debug + x64 + + + Release + x64 + + + + 16.0 + Win32Proj + {6d262af4-5dac-4f0c-b3d6-23c9cbea9756} + navicatkeygen + 10.0 + + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + + + + + + + + + + + + + + + + + + + + true + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + false + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + true + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + false + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + + true + + + true + + + true + + + true + + + + Level3 + true + WIN32;_DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreadedDebug + + + Console + true + + + + + Level3 + true + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreaded + + + Console + true + true + true + + + + + Level3 + true + _DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreadedDebug + + + Console + true + + + + + Level3 + true + true + true + NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreaded + + + Console + true + true + true + + + + + + + + + + + + + + + + + + + \ No newline at end of file diff --git a/navicat-keygen/navicat-keygen.vcxproj.filters b/navicat-keygen/navicat-keygen.vcxproj.filters new file mode 100644 index 0000000..aa885aa --- /dev/null +++ b/navicat-keygen/navicat-keygen.vcxproj.filters @@ -0,0 +1,48 @@ + + + + + {4FC737F1-C7A5-4376-A066-2A32D752A2FF} + cpp;c;cc;cxx;c++;cppm;ixx;def;odl;idl;hpj;bat;asm;asmx + + + {93995380-89BD-4b04-88EB-625FBE52EBFB} + h;hh;hpp;hxx;h++;hm;inl;inc;ipp;xsd + + + {67DA6AB6-F800-4c08-8B7A-83BB121AAD01} + rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav;mfcribbon-ms + + + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + + + 头文件 + + + 头文件 + + + 头文件 + + + \ No newline at end of file diff --git a/navicat-keygen/navicat-keygen.vcxproj.user b/navicat-keygen/navicat-keygen.vcxproj.user new file mode 100644 index 0000000..966b4ff --- /dev/null +++ b/navicat-keygen/navicat-keygen.vcxproj.user @@ -0,0 +1,6 @@ + + + + true + + \ No newline at end of file diff --git a/navicat-keygen/navicat_serial_generator.cpp b/navicat-keygen/navicat_serial_generator.cpp new file mode 100644 index 0000000..cb60764 --- /dev/null +++ b/navicat-keygen/navicat_serial_generator.cpp @@ -0,0 +1,162 @@ +#include "navicat_serial_generator.hpp" +#include "exception.hpp" +#include "base32_rfc4648.hpp" +#include +#include +#include + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\navicat_serial_generator.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + navicat_serial_generator::navicat_serial_generator() noexcept : + m_data{ 0x68 , 0x2A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x32 }, m_des_key{} {} + + void navicat_serial_generator::set_software_language(navicat_software_language lang) noexcept { + switch (lang) { + case navicat_software_language::English: + m_data[5] = 0xAC; // Must be 0xAC for English version. + m_data[6] = 0x88; // Must be 0x88 for English version. + break; + case navicat_software_language::SimplifiedChinese: + m_data[5] = 0xCE; // Must be 0xCE for Simplified Chinese version. + m_data[6] = 0x32; // Must be 0x32 for Simplified Chinese version. + break; + case navicat_software_language::TraditionalChinese: + m_data[5] = 0xAA; // Must be 0xAA for Traditional Chinese version. + m_data[6] = 0x99; // Must be 0x99 for Traditional Chinese version. + break; + case navicat_software_language::Japanese: + m_data[5] = 0xAD; // Must be 0xAD for Japanese version. Discoverer: @dragonflylee + m_data[6] = 0x82; // Must be 0x82 for Japanese version. Discoverer: @dragonflylee + break; + case navicat_software_language::Polish: + m_data[5] = 0xBB; // Must be 0xBB for Polish version. Discoverer: @dragonflylee + m_data[6] = 0x55; // Must be 0x55 for Polish version. Discoverer: @dragonflylee + break; + case navicat_software_language::Spanish: + m_data[5] = 0xAE; // Must be 0xAE for Spanish version. Discoverer: @dragonflylee + m_data[6] = 0x10; // Must be 0x10 for Spanish version. Discoverer: @dragonflylee + break; + case navicat_software_language::French: + m_data[5] = 0xFA; // Must be 0xFA for French version. Discoverer: @Deltafox79 + m_data[6] = 0x20; // Must be 0x20 for French version. Discoverer: @Deltafox79 + break; + case navicat_software_language::German: + m_data[5] = 0xB1; // Must be 0xB1 for German version. Discoverer: @dragonflylee + m_data[6] = 0x60; // Must be 0x60 for German version. Discoverer: @dragonflylee + break; + case navicat_software_language::Korean: + m_data[5] = 0xB5; // Must be 0xB5 for Korean version. Discoverer: @dragonflylee + m_data[6] = 0x60; // Must be 0x60 for Korean version. Discoverer: @dragonflylee + break; + case navicat_software_language::Russian: + m_data[5] = 0xEE; // Must be 0xB5 for Russian version. Discoverer: @dragonflylee + m_data[6] = 0x16; // Must be 0x60 for Russian version. Discoverer: @dragonflylee + break; + case navicat_software_language::Portuguese: + m_data[5] = 0xCD; // Must be 0xCD for Portuguese version. Discoverer: @dragonflylee + m_data[6] = 0x49; // Must be 0x49 for Portuguese version. Discoverer: @dragonflylee + break; + default: + break; + } + } + + void navicat_serial_generator::set_software_language(uint8_t lang_sig0, uint8_t lang_sig1) noexcept { + m_data[5] = lang_sig0; + m_data[6] = lang_sig1; + } + + void navicat_serial_generator::set_software_type(navicat_software_type software_type) noexcept { + switch (software_type) { + case navicat_software_type::DataModeler: + m_data[7] = 0x84; + break; + case navicat_software_type::Premium: + m_data[7] = 0x65; + break; + case navicat_software_type::MySQL: + m_data[7] = 0x68; + break; + case navicat_software_type::PostgreSQL: + m_data[7] = 0x6C; + break; + case navicat_software_type::Oracle: + m_data[7] = 0x70; + break; + case navicat_software_type::SQLServer: + m_data[7] = 0x74; + break; + case navicat_software_type::SQLite: + m_data[7] = 0x78; + break; + case navicat_software_type::MariaDB: + m_data[7] = 0x7C; + break; + case navicat_software_type::MongoDB: + m_data[7] = 0x80; + break; + case navicat_software_type::ReportViewer: + m_data[7] = 0xb; + break; + default: + break; + } + } + + void navicat_serial_generator::set_software_type(uint8_t software_type_sig) noexcept { + m_data[7] = software_type_sig; + } + + void navicat_serial_generator::set_software_version(int ver) { + if (11 <= ver && ver < 16) { + m_data[8] = static_cast((ver << 4) | (m_data[8] & 0x0f)); + memcpy(m_des_key, s_des_key0, sizeof(s_des_key0)); + } else if (16 <= ver && ver < 32) { + m_data[8] = static_cast(((ver - 16) << 4) | (m_data[8] & 0x0f)); + memcpy(m_des_key, s_des_key1, sizeof(s_des_key1)); + } else { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid navicat version."); + } + } + + void navicat_serial_generator::generate() { + RAND_bytes(m_data + 2, 3); + + DES_key_schedule schedule; + DES_set_key_unchecked(&m_des_key, &schedule); + DES_ecb_encrypt(reinterpret_cast(m_data + 2), reinterpret_cast(m_data + 2), &schedule, DES_ENCRYPT); + + m_serial_number = base32_rfc4648::encode(m_data, sizeof(m_data)); + std::transform( + m_serial_number.begin(), m_serial_number.end(), m_serial_number.begin(), + [](char c) -> char { + if (c == 'I') { + return '8'; + } else if (c == 'O') { + return '9'; + } else { + return c; + } + } + ); + + std::string_view sn = m_serial_number; + m_serial_number_formatted = fmt::format("{}-{}-{}-{}", sn.substr(0, 4), sn.substr(4, 4), sn.substr(8, 4), sn.substr(12, 4)); + } + + [[nodiscard]] + const std::string& navicat_serial_generator::serial_number() const noexcept { + return m_serial_number; + } + + [[nodiscard]] + const std::string& navicat_serial_generator::serial_number_formatted() const noexcept { + return m_serial_number_formatted; + } +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-keygen/navicat_serial_generator.hpp b/navicat-keygen/navicat_serial_generator.hpp new file mode 100644 index 0000000..6a220ef --- /dev/null +++ b/navicat-keygen/navicat_serial_generator.hpp @@ -0,0 +1,66 @@ +#pragma once +#include +#include +#include + +namespace nkg { + + enum class navicat_software_language { + English, + SimplifiedChinese, + TraditionalChinese, + Japanese, + Polish, + Spanish, + French, + German, + Korean, + Russian, + Portuguese + }; + + enum class navicat_software_type { + DataModeler, + Premium, + MySQL, + PostgreSQL, + Oracle, + SQLServer, + SQLite, + MariaDB, + MongoDB, + ReportViewer + }; + + class navicat_serial_generator { + private: + static inline const DES_cblock s_des_key0 = { 0x64, 0xAD, 0xF3, 0x2F, 0xAE, 0xF2, 0x1A, 0x27 }; + static inline const DES_cblock s_des_key1 = { 0xE9, 0x7F, 0xB0, 0x60, 0x77, 0x45, 0x90, 0xAE }; + + uint8_t m_data[10]; + DES_cblock m_des_key; + std::string m_serial_number; + std::string m_serial_number_formatted; + + public: + navicat_serial_generator() noexcept; + + void set_software_language(navicat_software_language lang) noexcept; + void set_software_language(uint8_t lang_sig0, uint8_t lang_sig1) noexcept; + + void set_software_type(navicat_software_type software_type) noexcept; + void set_software_type(uint8_t software_type_sig) noexcept; + + void set_software_version(int Version); + + void generate(); + + [[nodiscard]] + const std::string& serial_number() const noexcept; + + [[nodiscard]] + const std::string& serial_number_formatted() const noexcept; + }; + +} + diff --git a/navicat-keygen/wmain.cpp b/navicat-keygen/wmain.cpp new file mode 100644 index 0000000..ba14e3c --- /dev/null +++ b/navicat-keygen/wmain.cpp @@ -0,0 +1,124 @@ +#include +#include + +#include "exception.hpp" +#include "exceptions/operation_canceled_exception.hpp" + +#include "cp_converter.hpp" +#include "base64_rfc4648.hpp" +#include "navicat_serial_generator.hpp" +#include "rsa_cipher.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-keygen\\wmain.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + using fnCollectInformation = std::function; + using fnGenerateLicense = std::function; + + navicat_serial_generator CollectInformationNormal(); + navicat_serial_generator CollectInformationAdvanced(); + void GenerateLicenseText(const rsa_cipher& cipher, const navicat_serial_generator& sn_generator); + void GenerateLicenseBinary(const rsa_cipher& cipher, const navicat_serial_generator& sn_generator); +} + +static void welcome() { + _putws(L"***************************************************"); + _putws(L"* navicat-keygen by @DoubleLabyrinth *"); + _putws(L"* version: 16.0.7.0 *"); + _putws(L"***************************************************"); + _putws(L""); +} + +static void help() { + _putws(L"Usage:"); + _putws(L" navicat-keygen.exe <-bin|-text> [-adv] "); + _putws(L""); + _putws(L" <-bin|-text> Specify \"-bin\" to generate \"license_file\" used by Navicat 11."); + _putws(L" Specify \"-text\" to generate base64-encoded activation code."); + _putws(L" This parameter must be specified."); + _putws(L""); + _putws(L" [-adv] Enable advance mode."); + _putws(L" This parameter is optional."); + _putws(L""); + _putws(L" A path to an RSA-2048 private key file."); + _putws(L" This parameter must be specified."); + _putws(L""); + _putws(L"Example:"); + _putws(L" navicat-keygen.exe -text .\\RegPrivateKey.pem"); +} + +int wmain(int argc, wchar_t* argv[]) { + welcome(); + + if (argc == 3 || argc == 4) { + nkg::fnCollectInformation lpfnCollectInformation; + nkg::fnGenerateLicense lpfnGenerateLicense; + + if (_wcsicmp(argv[1], L"-bin") == 0) { + lpfnGenerateLicense = nkg::GenerateLicenseBinary; + } else if (_wcsicmp(argv[1], L"-text") == 0) { + lpfnGenerateLicense = nkg::GenerateLicenseText; + } else { + help(); + return -1; + } + + if (argc == 4) { + if (_wcsicmp(argv[2], L"-adv") == 0) { + lpfnCollectInformation = nkg::CollectInformationAdvanced; + } else { + help(); + return -1; + } + } else { + lpfnCollectInformation = nkg::CollectInformationNormal; + } + + try { + nkg::rsa_cipher cipher; + + cipher.import_private_key_file(nkg::cp_converter<-1, CP_UTF8>::convert(argv[argc - 1])); + if (cipher.bits() != 2048) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"RSA key length mismatches.") + .push_hint(u8"You must provide an RSA key whose modulus length is 2048 bits."); + } + + auto sn_generator = lpfnCollectInformation(); + + sn_generator.generate(); + + _putws(L"[*] Serial number:"); + _putws(nkg::cp_converter::convert(sn_generator.serial_number_formatted()).c_str()); + _putws(L""); + + lpfnGenerateLicense(cipher, sn_generator); + + return 0; + } catch (nkg::exceptions::operation_canceled_exception&) { + return -1; + } catch (nkg::exception& e) { + wprintf_s(L"[-] %s:%d ->\n", nkg::cp_converter::convert(e.source_file()).c_str(), e.source_line()); + wprintf_s(L" %s\n", nkg::cp_converter::convert(e.custom_message()).c_str()); + + if (e.error_code_exists()) { + wprintf_s(L" %s (0x%zx)\n", nkg::cp_converter::convert(e.error_string()).c_str(), e.error_code()); + } + + for (auto& hint : e.hints()) { + wprintf_s(L" Hints: %s\n", nkg::cp_converter::convert(hint).c_str()); + } + + return -1; + } catch (std::exception& e) { + wprintf_s(L"[-] %s\n", nkg::cp_converter::convert(e.what()).c_str()); + return -1; + } + } else { + help(); + return -1; + } +} + +#undef NKG_CURRENT_SOURCE_FILE +#undef NKG_CURRENT_SOURCE_LINE diff --git a/navicat-patcher/amd64_emulator.cpp b/navicat-patcher/amd64_emulator.cpp new file mode 100644 index 0000000..49fb0f0 --- /dev/null +++ b/navicat-patcher/amd64_emulator.cpp @@ -0,0 +1,200 @@ +#define _CRT_SECURE_NO_WARNINGS +#include "amd64_emulator.hpp" +#include "exceptions/key_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\amd64_emulator.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + void amd64_emulator::_unicorn_hookcode_cb_stub(uc_engine* uc, uint64_t address, uint32_t size, void* user_data) { + auto hook_stub_ctx = reinterpret_cast(user_data); + hook_stub_ctx->self->m_unicorn_hook_cbs_hookcode[hook_stub_ctx->unicorn_hook_handle](address, size); + } + + void amd64_emulator::_unicorn_hookmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data) { + auto hook_stub_ctx = reinterpret_cast(user_data); + hook_stub_ctx->self->m_unicorn_hook_cbs_hookmem[hook_stub_ctx->unicorn_hook_handle](type, address, static_cast(size), value); + } + + bool amd64_emulator::_unicorn_eventmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data) { + auto hook_stub_ctx = reinterpret_cast(user_data); + return hook_stub_ctx->self->m_unicorn_hook_cbs_eventmem[hook_stub_ctx->unicorn_hook_handle](type, address, static_cast(size), value); + } + + amd64_emulator::amd64_emulator() { + auto err = uc_open(UC_ARCH_X86, UC_MODE_64, m_unicorn_engine.unsafe_addressof()); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_open failed."); + } + } + + void amd64_emulator::reg_read(int regid, void* value) { + auto err = uc_reg_read(m_unicorn_engine.get(), regid, value); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_read failed."); + } + } + + void amd64_emulator::reg_write(int regid, const void* value) { + auto err = uc_reg_write(m_unicorn_engine.get(), regid, value); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_write failed."); + } + } + + uint64_t amd64_emulator::msr_read(uint32_t rid) { + uc_x86_msr msr; + msr.rid = rid; + + auto err = uc_reg_read(m_unicorn_engine.get(), UC_X86_REG_MSR, &msr); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_write failed."); + } + + return msr.value; + } + + void amd64_emulator::msr_write(uint32_t rid, uint64_t value) { + uc_x86_msr msr; + msr.rid = rid; + msr.value = value; + + auto err = uc_reg_write(m_unicorn_engine.get(), UC_X86_REG_MSR, &msr); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_write failed."); + } + } + + void amd64_emulator::mem_map(uint64_t address, size_t size, uint32_t perms) { + auto err = uc_mem_map(m_unicorn_engine.get(), address, size, perms); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_map failed."); + } + } + + void amd64_emulator::mem_unmap(uint64_t address, size_t size) { + auto err = uc_mem_unmap(m_unicorn_engine.get(), address, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_unmap failed."); + } + } + + void amd64_emulator::mem_read(uint64_t address, void* buf, size_t size) { + auto err = uc_mem_read(m_unicorn_engine.get(), address, buf, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_read failed."); + } + } + + std::vector amd64_emulator::mem_read(uint64_t address, size_t size) { + std::vector ret_buf(size); + + auto err = uc_mem_read(m_unicorn_engine.get(), address, ret_buf.data(), ret_buf.size()); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_read failed."); + } + + return ret_buf; + } + + void amd64_emulator::mem_write(uint64_t address, const void* buf, size_t size) { + auto err = uc_mem_write(m_unicorn_engine.get(), address, buf, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_write failed."); + } + } + + void amd64_emulator::mem_write(uint64_t address, const std::vector& buf) { + mem_write(address, buf.data(), buf.size()); + } + + void amd64_emulator::hook_del(uc_hook hook_handle) { + auto iter_of_hook_stub_ctxs = m_unicorn_hook_stub_ctxs.find(hook_handle); + if (iter_of_hook_stub_ctxs == m_unicorn_hook_stub_ctxs.end()) { + throw exceptions::key_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Target hook is not found."); + } + + auto iter_of_hook_cbs_hookcode = m_unicorn_hook_cbs_hookcode.find(hook_handle); + if (iter_of_hook_cbs_hookcode != m_unicorn_hook_cbs_hookcode.end()) { + auto err = uc_hook_del(m_unicorn_engine.get(), hook_handle); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"hook_del failed."); + } + + m_unicorn_hook_cbs_hookcode.erase(iter_of_hook_cbs_hookcode); + m_unicorn_hook_stub_ctxs.erase(iter_of_hook_stub_ctxs); + return; + } + + auto iter_of_hook_cbs_hookmem = m_unicorn_hook_cbs_hookmem.find(hook_handle); + if (iter_of_hook_cbs_hookmem != m_unicorn_hook_cbs_hookmem.end()) { + auto err = uc_hook_del(m_unicorn_engine.get(), hook_handle); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"hook_del failed."); + } + + m_unicorn_hook_cbs_hookmem.erase(iter_of_hook_cbs_hookmem); + m_unicorn_hook_stub_ctxs.erase(iter_of_hook_stub_ctxs); + return; + } + + auto iter_of_hook_cbs_eventmem = m_unicorn_hook_cbs_eventmem.find(hook_handle); + if (iter_of_hook_cbs_eventmem != m_unicorn_hook_cbs_eventmem.end()) { + auto err = uc_hook_del(m_unicorn_engine.get(), hook_handle); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"hook_del failed."); + } + + m_unicorn_hook_cbs_eventmem.erase(iter_of_hook_cbs_eventmem); + m_unicorn_hook_stub_ctxs.erase(iter_of_hook_stub_ctxs); + return; + } + + __assume(false); + } + + void amd64_emulator::emu_start(uint64_t begin_address, uint64_t end_address, uint64_t timeout, size_t count) { + auto err = uc_emu_start(m_unicorn_engine.get(), begin_address, end_address, timeout, count); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"emu_start failed."); + } + } + + void amd64_emulator::emu_stop() { + auto err = uc_emu_stop(m_unicorn_engine.get()); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_emu_stop failed."); + } + } + + //void amd64_emulator::create_gdt_entry(uint64_t gdt_entry_address, uint32_t base, uint32_t limit, uint8_t access_byte, uint8_t flags) { + // struct { + // uint16_t limit0; + // uint16_t base0; + // uint8_t base1; + // uint8_t access_byte; + // uint8_t limit1 : 4; + // uint8_t flags : 4; + // uint8_t base2; + // } segment_descriptor; + + // static_assert(sizeof(segment_descriptor) == 8); + + // segment_descriptor.limit0 = limit & 0xffff; + // segment_descriptor.base0 = base & 0xffff; + // segment_descriptor.base1 = (base >> 16) & 0xff; + // segment_descriptor.access_byte = access_byte; + // segment_descriptor.limit1 = (limit >> 16) & 0xf; + // segment_descriptor.flags = flags & 0xf; + // segment_descriptor.base2 = (base >> 24) & 0xff; + + // auto err = uc_mem_write(m_unicorn_engine.get(), gdt_entry_address, &segment_descriptor, sizeof(segment_descriptor)); + // if (err != UC_ERR_OK) { + // throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_write failed."); + // } + //} +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/amd64_emulator.hpp b/navicat-patcher/amd64_emulator.hpp new file mode 100644 index 0000000..b4bfa82 --- /dev/null +++ b/navicat-patcher/amd64_emulator.hpp @@ -0,0 +1,159 @@ +#pragma once +#include +#include +#include + +#include +#include +#include +#include +#include + +#include "resource_wrapper.hpp" +#include "resource_traits/unicorn/unicorn_handle.hpp" + +#include "exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\amd64_emulator.hpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + class amd64_emulator { + public: + class backend_error : public ::nkg::exception { + public: + using error_code_t = uc_err; + + private: + error_code_t m_error_code; + std::string m_error_string; + + public: + backend_error(std::string_view file, int line, error_code_t unicorn_err, std::string_view message) noexcept : + ::nkg::exception(file, line, message), m_error_code(unicorn_err), m_error_string(uc_strerror(unicorn_err)) {} + + [[nodiscard]] + virtual bool error_code_exists() const noexcept override { + return true; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept override { + return m_error_code; + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept override { + return m_error_string; + } + }; + + using hookcode_cb_t = void(uint64_t address, size_t size); + using hookmem_cb_t = void(uc_mem_type type, uint64_t address, size_t size, int64_t value); + using eventmem_cb_t = bool(uc_mem_type type, uint64_t address, size_t size, int64_t value); + + private: + struct hook_stub_context_t { + amd64_emulator* self; + uc_hook unicorn_hook_handle; + }; + + resource_wrapper m_unicorn_engine; + std::unordered_map m_unicorn_user_ctx; + + std::unordered_map> m_unicorn_hook_stub_ctxs; + + std::unordered_map> m_unicorn_hook_cbs_hookcode; + std::unordered_map> m_unicorn_hook_cbs_hookmem; + std::unordered_map> m_unicorn_hook_cbs_eventmem; + + static void _unicorn_hookcode_cb_stub(uc_engine* uc, uint64_t address, uint32_t size, void* user_data); + static void _unicorn_hookmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data); + static bool _unicorn_eventmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data); + + public: + amd64_emulator(); + + void reg_read(int regid, void* buf); + + void reg_write(int regid, const void* buf); + + uint64_t msr_read(uint32_t rid); + + void msr_write(uint32_t rid, uint64_t value); + + void mem_map(uint64_t address, size_t size, uint32_t perms); + + void mem_unmap(uint64_t address, size_t size); + + void mem_read(uint64_t address, void* buf, size_t size); + + std::vector mem_read(uint64_t address, size_t size); + + void mem_write(uint64_t address, const void* buf, size_t size); + + void mem_write(uint64_t address, const std::vector& buf); + + template + uc_hook hook_add(callable_t&& hook_callback, uint64_t begin_address = 1, uint64_t end_address = 0) { + uc_err err; + + auto hook_stub_ctx = std::make_unique(); + hook_stub_ctx->self = this; + hook_stub_ctx->unicorn_hook_handle = 0; + + if constexpr (hook_type == UC_HOOK_CODE) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_hookcode_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_cbs_hookcode.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::forward(hook_callback))); + } else if constexpr ((hook_type & ~UC_HOOK_MEM_VALID) == 0) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_hookmem_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_cbs_hookmem.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::forward(hook_callback))); + } else if constexpr ((hook_type & ~UC_HOOK_MEM_UNMAPPED) == 0) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_eventmem_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_cbs_eventmem.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::forward(hook_callback))); + } else { + static_assert( + hook_type == UC_HOOK_CODE || + (hook_type & ~UC_HOOK_MEM_VALID) == 0 || + (hook_type & ~UC_HOOK_MEM_UNMAPPED) == 0, "Unsupported hook type."); + } + + return m_unicorn_hook_stub_ctxs.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::move(hook_stub_ctx))).first->first; + } + + void hook_del(uc_hook hook_handle); + + void emu_start(uint64_t begin_address, uint64_t end_address = 0, uint64_t timeout = 0, size_t count = 0); + + void emu_stop(); + + // void create_gdt_entry(uint64_t gdt_entry_address, uint32_t base, uint32_t limit, uint8_t access_byte, uint8_t flags); + + template + void context_set(const std::string& name, val_t&& value) { + m_unicorn_user_ctx[name] = std::forward(value); + } + + template + val_t context_get(const std::string& name) { + return std::any_cast(m_unicorn_user_ctx[name]); + } + }; + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/i386_emulator.cpp b/navicat-patcher/i386_emulator.cpp new file mode 100644 index 0000000..d1182f4 --- /dev/null +++ b/navicat-patcher/i386_emulator.cpp @@ -0,0 +1,160 @@ +#define _CRT_SECURE_NO_WARNINGS +#include "i386_emulator.hpp" +#include "exceptions/key_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\i386_emulator.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + void i386_emulator::_unicorn_hookcode_cb_stub(uc_engine* uc, uint64_t address, uint32_t size, void* user_data) { + auto hook_stub_ctx = + reinterpret_cast(user_data); + + auto& hook_callback = + std::any_cast&>(hook_stub_ctx->self->m_unicorn_hook_callbacks[hook_stub_ctx->unicorn_hook_handle]); + + hook_callback(static_cast(address), size); + } + + void i386_emulator::_unicorn_hookmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data) { + auto hook_stub_ctx = + reinterpret_cast(user_data); + + auto& hook_callback = + std::any_cast&>(hook_stub_ctx->self->m_unicorn_hook_callbacks[hook_stub_ctx->unicorn_hook_handle]); + + hook_callback(type, static_cast(address), static_cast(size), static_cast(value)); + } + + bool i386_emulator::_unicorn_eventmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data) { + auto hook_stub_ctx = + reinterpret_cast(user_data); + + auto& hook_callback = + std::any_cast&>(hook_stub_ctx->self->m_unicorn_hook_callbacks[hook_stub_ctx->unicorn_hook_handle]); + + return hook_callback(type, static_cast(address), static_cast(size), static_cast(value)); + } + + i386_emulator::i386_emulator() { + auto err = uc_open(UC_ARCH_X86, UC_MODE_32, m_unicorn_engine.unsafe_addressof()); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_open failed."); + } + } + + void i386_emulator::reg_read(int regid, void* value) { + auto err = uc_reg_read(m_unicorn_engine.get(), regid, value); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_read failed."); + } + } + + void i386_emulator::reg_write(int regid, const void* value) { + auto err = uc_reg_write(m_unicorn_engine.get(), regid, value); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_reg_write failed."); + } + } + + void i386_emulator::mem_map(uint32_t address, size_t size, uint32_t perms) { + auto err = uc_mem_map(m_unicorn_engine.get(), address, size, perms); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_map failed."); + } + } + + void i386_emulator::mem_unmap(uint32_t address, size_t size) { + auto err = uc_mem_unmap(m_unicorn_engine.get(), address, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_unmap failed."); + } + } + + void i386_emulator::mem_read(uint32_t address, void* buf, size_t size) { + auto err = uc_mem_read(m_unicorn_engine.get(), address, buf, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_read failed."); + } + } + + std::vector i386_emulator::mem_read(uint32_t address, size_t size) { + std::vector ret_buf(size); + + auto err = uc_mem_read(m_unicorn_engine.get(), address, ret_buf.data(), ret_buf.size()); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_read failed."); + } + + return ret_buf; + } + + void i386_emulator::mem_write(uint32_t address, const void* buf, size_t size) { + auto err = uc_mem_write(m_unicorn_engine.get(), address, buf, size); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_mem_write failed."); + } + } + + void i386_emulator::mem_write(uint32_t address, const std::vector& buf) { + mem_write(address, buf.data(), buf.size()); + } + + void i386_emulator::hook_del(uc_hook hook_handle) { + auto iter_of_hook_stub_ctxs = m_unicorn_hook_stub_ctxs.find(hook_handle); + if (iter_of_hook_stub_ctxs == m_unicorn_hook_stub_ctxs.end()) { + throw exceptions::key_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Target hook is not found."); + } + + auto iter_of_hook_callbacks = m_unicorn_hook_callbacks.find(hook_handle); + if (iter_of_hook_callbacks != m_unicorn_hook_callbacks.end()) { + auto err = uc_hook_del(m_unicorn_engine.get(), hook_handle); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"hook_del failed."); + } + + m_unicorn_hook_callbacks.erase(iter_of_hook_callbacks); + m_unicorn_hook_stub_ctxs.erase(iter_of_hook_stub_ctxs); + return; + } + + __assume(false); + } + + void i386_emulator::create_gdt_entry(uint32_t gdt_entry_address, uint32_t base, uint32_t limit, uint8_t access_byte, uint8_t flags) { + struct { + uint64_t limit0 : 16; + uint64_t base0 : 24; + uint64_t access_byte : 8; + uint64_t limit1 : 4; + uint64_t flags : 4; + uint64_t base1 : 8; + } gdt_entry; + + gdt_entry.limit0 = limit & 0xffff; + gdt_entry.base0 = base & 0xffffff; + gdt_entry.access_byte = access_byte; + gdt_entry.flags = flags & 0xf; + gdt_entry.base1 = (base & 0xff000000) >> 24; + + mem_write(gdt_entry_address, &gdt_entry, sizeof(gdt_entry)); + } + + void i386_emulator::emu_start(uint32_t begin_address, uint32_t end_address, uint64_t timeout, size_t count) { + auto err = uc_emu_start(m_unicorn_engine.get(), begin_address, end_address, timeout, count); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"emu_start failed."); + } + } + + void i386_emulator::emu_stop() { + auto err = uc_emu_stop(m_unicorn_engine.get()); + if (err) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_emu_stop failed."); + } + } +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/i386_emulator.hpp b/navicat-patcher/i386_emulator.hpp new file mode 100644 index 0000000..acfe2e3 --- /dev/null +++ b/navicat-patcher/i386_emulator.hpp @@ -0,0 +1,152 @@ +#pragma once +#include +#include +#include + +#include +#include +#include +#include +#include + +#include "resource_wrapper.hpp" +#include "resource_traits/unicorn/unicorn_handle.hpp" + +#include "exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\i386_emulator.hpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + class i386_emulator { + public: + class backend_error : public ::nkg::exception { + public: + using error_code_t = uc_err; + + private: + error_code_t m_error_code; + std::string m_error_string; + + public: + backend_error(std::string_view file, int line, error_code_t unicorn_err, std::string_view message) noexcept : + ::nkg::exception(file, line, message), m_error_code(unicorn_err), m_error_string(uc_strerror(unicorn_err)) {} + + [[nodiscard]] + virtual bool error_code_exists() const noexcept override { + return true; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept override { + return m_error_code; + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept override { + return m_error_string; + } + }; + + using hookcode_cb_t = void(uint32_t address, size_t size); + using hookmem_cb_t = void(uc_mem_type type, uint32_t address, size_t size, int32_t value); + using eventmem_cb_t = bool(uc_mem_type type, uint32_t address, size_t size, int32_t value); + + private: + struct hook_stub_context_t { + i386_emulator* self; + uc_hook unicorn_hook_handle; + }; + + resource_wrapper m_unicorn_engine; + std::unordered_map m_unicorn_user_ctx; + + std::unordered_map> m_unicorn_hook_stub_ctxs; + std::unordered_map m_unicorn_hook_callbacks; + + static void _unicorn_hookcode_cb_stub(uc_engine* uc, uint64_t address, uint32_t size, void* user_data); + static void _unicorn_hookmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data); + static bool _unicorn_eventmem_cb_stub(uc_engine* uc, uc_mem_type type, uint64_t address, int size, int64_t value, void* user_data); + + public: + i386_emulator(); + + void reg_read(int regid, void* value); + + void reg_write(int regid, const void* value); + + void mem_map(uint32_t address, size_t size, uint32_t perms); + + void mem_unmap(uint32_t address, size_t size); + + void mem_read(uint32_t address, void* buf, size_t size); + + std::vector mem_read(uint32_t address, size_t size); + + void mem_write(uint32_t address, const void* buf, size_t size); + + void mem_write(uint32_t address, const std::vector& buf); + + template + uc_hook hook_add(callable_t&& hook_callback, uint32_t begin_address = 1, uint32_t end_address = 0) { + uc_err err; + + auto hook_stub_ctx = std::make_unique(); + hook_stub_ctx->self = this; + hook_stub_ctx->unicorn_hook_handle = 0; + + if constexpr (hook_type == UC_HOOK_CODE) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_hookcode_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_callbacks.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::function{ std::forward(hook_callback) })); + } else if constexpr ((hook_type & ~UC_HOOK_MEM_VALID) == 0) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_hookmem_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_callbacks.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::function{ std::forward(hook_callback) })); + } else if constexpr ((hook_type & ~UC_HOOK_MEM_UNMAPPED) == 0) { + err = uc_hook_add(m_unicorn_engine.get(), &hook_stub_ctx->unicorn_hook_handle, hook_type, _unicorn_eventmem_cb_stub, hook_stub_ctx.get(), begin_address, end_address); + if (err != UC_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"uc_hook_add failed."); + } + + m_unicorn_hook_callbacks.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::function{ std::forward(hook_callback) })); + } else { + static_assert( + hook_type == UC_HOOK_CODE || + (hook_type & ~UC_HOOK_MEM_VALID) == 0 || + (hook_type & ~UC_HOOK_MEM_UNMAPPED) == 0, "Unsupported hook type."); + } + + return m_unicorn_hook_stub_ctxs.emplace(std::make_pair(hook_stub_ctx->unicorn_hook_handle, std::move(hook_stub_ctx))).first->first; + } + + void hook_del(uc_hook hook_handle); + + void create_gdt_entry(uint32_t gdt_entry_address, uint32_t base, uint32_t limit, uint8_t access_byte, uint8_t flags); + + void emu_start(uint32_t begin_address, uint32_t end_address = 0, uint64_t timeout = 0, size_t count = 0); + + void emu_stop(); + + template + void context_set(const std::string& name, val_t&& value) { + m_unicorn_user_ctx[name] = std::forward(value); + } + + template + val_t context_get(const std::string& name) { + return std::any_cast(m_unicorn_user_ctx[name]); + } + }; + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/image_interpreter.cpp b/navicat-patcher/image_interpreter.cpp new file mode 100644 index 0000000..576ccf9 --- /dev/null +++ b/navicat-patcher/image_interpreter.cpp @@ -0,0 +1,302 @@ +#include "image_interpreter.hpp" +#include +#include "exceptions/index_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\image_interpreter.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + image_interpreter::image_interpreter() : + m_dos_header(nullptr), + m_nt_headers(nullptr), + m_section_header_table(nullptr), + m_vs_fixed_file_info(nullptr) {} + + [[nodiscard]] + image_interpreter image_interpreter::parse(void* image_base, bool parse_relocation) { + image_interpreter new_image; + + new_image.m_dos_header = reinterpret_cast(image_base); + if (new_image.m_dos_header->e_magic != IMAGE_DOS_SIGNATURE) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid image: DOS signature check failure") + .push_hint(u8"Are you sure you DO provide a valid WinPE file?"); + } + + new_image.m_nt_headers = reinterpret_cast(reinterpret_cast(image_base) + new_image.m_dos_header->e_lfanew); + if (new_image.m_nt_headers->Signature != IMAGE_NT_SIGNATURE) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid image: NT signature check failure") + .push_hint(u8"Are you sure you DO provide a valid WinPE file?"); + } + +#if defined(_M_AMD64) + if (new_image.m_nt_headers->OptionalHeader.Magic != IMAGE_NT_OPTIONAL_HDR64_MAGIC) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid image: optional header magic check failure") + .push_hint(u8"Are you sure you DO provide a valid 64-bits WinPE file?"); + } + if (new_image.m_nt_headers->FileHeader.Machine != IMAGE_FILE_MACHINE_AMD64) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid image: machine check failure") + .push_hint(u8"Are you sure you DO provide a valid 64-bits WinPE file?"); + } +#elif defined(_M_IX86) + if (new_image.m_nt_headers->OptionalHeader.Magic != IMAGE_NT_OPTIONAL_HDR32_MAGIC) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid Image. (Optional header magic check failure)") + .push_hint(u8"Are you sure you DO provide a valid 32-bits WinPE file?"); + } + if (new_image.m_nt_headers->FileHeader.Machine != IMAGE_FILE_MACHINE_I386) { + throw parse_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Invalid Image. (Machine check failure)") + .push_hint(u8"Are you sure you DO provide a valid 32-bits WinPE file?"); + } +#else +#error "image_interpreter.cpp: unsupported architecture." +#endif + + new_image.m_section_header_table = + reinterpret_cast(reinterpret_cast(&new_image.m_nt_headers->OptionalHeader) + new_image.m_nt_headers->FileHeader.SizeOfOptionalHeader); + + for (WORD i = 0; i < new_image.m_nt_headers->FileHeader.NumberOfSections; ++i) { + auto section_name = make_section_name(new_image.m_section_header_table[i].Name); + + if (new_image.m_section_header_name_lookup_table.find(section_name) == new_image.m_section_header_name_lookup_table.end()) { + new_image.m_section_header_name_lookup_table[section_name] = &new_image.m_section_header_table[i]; + } + + new_image.m_section_header_rva_lookup_table[new_image.m_section_header_table[i].VirtualAddress] = &new_image.m_section_header_table[i]; + new_image.m_section_header_fo_lookup_table[new_image.m_section_header_table[i].PointerToRawData] = &new_image.m_section_header_table[i]; + } + + if (parse_relocation && new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BASERELOC].VirtualAddress != 0) { + auto relocation_table = + new_image.convert_rva_to_ptr(new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_BASERELOC].VirtualAddress); + + while (relocation_table->VirtualAddress != 0) { + rva_t rva = relocation_table->VirtualAddress; + auto reloc_items = reinterpret_cast(relocation_table + 1); + auto reloc_items_count = (relocation_table->SizeOfBlock - sizeof(IMAGE_BASE_RELOCATION)) / sizeof(WORD); + + for (DWORD i = 0; i < reloc_items_count; ++i) { + auto reloc_type = reloc_items[i] >> 12; + + switch (reloc_type) { + case IMAGE_REL_BASED_ABSOLUTE: + break; + case IMAGE_REL_BASED_HIGH: + case IMAGE_REL_BASED_LOW: + case IMAGE_REL_BASED_HIGHADJ: + new_image.m_relocation_rva_lookup_table[rva + (reloc_items[i] & 0x0fff)] = 2; + break; + case IMAGE_REL_BASED_HIGHLOW: + new_image.m_relocation_rva_lookup_table[rva + (reloc_items[i] & 0x0fff)] = 4; + break; +#if defined(IMAGE_REL_BASED_DIR64) + case IMAGE_REL_BASED_DIR64: + new_image.m_relocation_rva_lookup_table[rva + (reloc_items[i] & 0x0fff)] = 8; + break; +#endif + default: + break; + } + } + + relocation_table = reinterpret_cast(&reloc_items[reloc_items_count]); + } + } + + if (new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].VirtualAddress) { + rva_t import_rva = new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT].VirtualAddress; + + auto import_descriptors = new_image.convert_rva_to_ptr(import_rva); + for (size_t i = 0; import_descriptors[i].OriginalFirstThunk != 0; ++i) { + auto import_lookup_table = new_image.convert_rva_to_ptr(import_descriptors[i].OriginalFirstThunk); + rva_t import_address_table_rva = import_descriptors[i].FirstThunk; + + for (size_t j = 0; import_lookup_table[j].u1.Ordinal != 0; ++j) { + new_image.m_iat_rva_lookup_table[import_address_table_rva + j * sizeof(IMAGE_THUNK_DATA)] = std::make_pair(&import_descriptors[i], &import_lookup_table[j]); + } + } + } + + if (new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE].VirtualAddress) { + rva_t resource_rva = new_image.m_nt_headers->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE].VirtualAddress; + + auto res_type_directory = new_image.convert_rva_to_ptr(resource_rva); + auto res_type_name_entries = reinterpret_cast(res_type_directory + 1); + auto res_type_id_entries = res_type_name_entries + res_type_directory->NumberOfNamedEntries; + + for (WORD i = 0; i < res_type_directory->NumberOfIdEntries && new_image.m_vs_fixed_file_info == nullptr; ++i) { + if (res_type_id_entries[i].Id == reinterpret_cast(RT_VERSION) && res_type_id_entries[i].DataIsDirectory) { + auto res_name_directory = new_image.convert_rva_to_ptr(resource_rva + res_type_id_entries[i].OffsetToDirectory); + auto res_name_name_entries = reinterpret_cast(res_name_directory + 1); + auto res_name_id_entries = res_name_name_entries + res_name_directory->NumberOfNamedEntries; + + for (WORD j = 0; j < res_name_directory->NumberOfIdEntries && new_image.m_vs_fixed_file_info == nullptr; ++j) { + if (res_name_id_entries[j].Id == VS_VERSION_INFO && res_name_id_entries[j].DataIsDirectory) { + auto res_lang_directory = new_image.convert_rva_to_ptr(resource_rva + res_name_id_entries[j].OffsetToDirectory); + auto res_lang_name_entries = reinterpret_cast(res_lang_directory + 1); + auto res_lang_id_entries = res_lang_name_entries + res_lang_directory->NumberOfNamedEntries; + + for (WORD k = 0; k < res_lang_directory->NumberOfIdEntries && new_image.m_vs_fixed_file_info == nullptr; ++k) { + constexpr WORD neutral_lang_id = MAKELANGID(LANG_NEUTRAL, SUBLANG_NEUTRAL); + constexpr WORD english_lang_id = MAKELANGID(LANG_ENGLISH, SUBLANG_ENGLISH_US); + + if ((res_lang_id_entries[k].Id == neutral_lang_id || res_lang_id_entries[k].Id == english_lang_id) && !res_lang_id_entries[k].DataIsDirectory) { + auto res_data_entry = new_image.convert_rva_to_ptr(resource_rva + res_lang_id_entries[k].OffsetToData); + + auto vs_version_info = new_image.convert_rva_to_ptr(res_data_entry->OffsetToData); + auto vs_version_info_key = reinterpret_cast(vs_version_info + 6); // vs_version_info->szKey + if (_wcsicmp(vs_version_info_key, L"VS_VERSION_INFO") == 0) { + auto p = reinterpret_cast(vs_version_info_key + _countof(L"VS_VERSION_INFO")); + while (new_image.convert_ptr_to_rva(p) % sizeof(DWORD)) { + ++p; + } + + auto vs_fixed_file_info = reinterpret_cast(p); + + if (vs_fixed_file_info->dwSignature == VS_FFI_SIGNATURE) { + new_image.m_vs_fixed_file_info = vs_fixed_file_info; + } + } + } + } + } + } + } + } + } + + return new_image; + } + + [[nodiscard]] + PIMAGE_DOS_HEADER image_interpreter::image_dos_header() const noexcept { + return m_dos_header; + } + + [[nodiscard]] + PIMAGE_NT_HEADERS image_interpreter::image_nt_headers() const noexcept { + return m_nt_headers; + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header_table() const noexcept { + return m_section_header_table; + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header(size_t n) const { + if (n < m_nt_headers->FileHeader.NumberOfSections) { + return m_section_header_table + n; + } else { + throw exceptions::index_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Section index is out of range."); + } + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header(std::string_view section_name) const { + if (section_name.length() <= 8) { + std::array name{}; + + std::copy(section_name.begin(), section_name.end(), name.begin()); + + auto it = m_section_header_name_lookup_table.find(name); + if (it != m_section_header_name_lookup_table.end()) { + return it->second; + } else { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), fmt::format(u8"Target section header is not found: section_name = {}", section_name)); + } + } else { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Target section header is not found: section_name is too long."); + } + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header_from_rva(rva_t rva) const { + auto it = m_section_header_rva_lookup_table.upper_bound(rva); + if (it != m_section_header_rva_lookup_table.begin()) { + --it; + } + + rva_t section_rva_begin = it->second->VirtualAddress; + rva_t section_rva_end = section_rva_begin + it->second->Misc.VirtualSize; + + if (section_rva_begin <= rva && rva < section_rva_end) { + return it->second; + } else { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Target section header is not found.") + .push_hint(fmt::format("rva = 0x{:x}", rva)); + } + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header_from_va(va_t va) const { + return image_section_header_from_rva(static_cast(va - m_nt_headers->OptionalHeader.ImageBase)); + } + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_interpreter::image_section_header_from_fo(fo_t file_offset) const { + auto it = m_section_header_fo_lookup_table.upper_bound(file_offset); + if (it != m_section_header_fo_lookup_table.begin()) { + --it; + } + + uintptr_t section_fo_begin = it->second->PointerToRawData; + uintptr_t section_fo_end = section_fo_begin + it->second->SizeOfRawData; + + if (section_fo_begin <= file_offset && file_offset < section_fo_end) { + return it->second; + } else { + throw exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Target section header is not found.") + .push_hint(fmt::format(u8"file_offset = 0x{:x}", file_offset)); + } + } + + [[nodiscard]] + image_interpreter::va_t image_interpreter::convert_rva_to_va(rva_t rva) const noexcept { + return rva + m_nt_headers->OptionalHeader.ImageBase; + } + + [[nodiscard]] + image_interpreter::fo_t image_interpreter::convert_rva_to_fo(rva_t rva) const { + auto section_header = image_section_header_from_rva(rva); + return section_header->PointerToRawData + (rva - static_cast(section_header->VirtualAddress)); + } + + [[nodiscard]] + image_interpreter::rva_t image_interpreter::convert_fo_to_rva(fo_t file_offset) const { + auto section_header = image_section_header_from_fo(file_offset); + return section_header->VirtualAddress + (file_offset - section_header->PointerToRawData); + } + + [[nodiscard]] + image_interpreter::va_t image_interpreter::convert_fo_to_va(fo_t file_offset) const { + return convert_fo_to_rva(file_offset) + m_nt_headers->OptionalHeader.ImageBase; + } + + [[nodiscard]] + image_interpreter::rva_t image_interpreter::convert_va_to_rva(va_t va) const noexcept { + return va - m_nt_headers->OptionalHeader.ImageBase; + } + + [[nodiscard]] + image_interpreter::fo_t image_interpreter::convert_va_to_fo(va_t va) const { + return image_section_header_from_va(va)->PointerToRawData; + } + + [[nodiscard]] + size_t image_interpreter::number_of_sections() const noexcept { + return m_nt_headers->FileHeader.NumberOfSections; + } + + PIMAGE_IMPORT_DESCRIPTOR image_interpreter::import_descriptor_from_rva(rva_t rva) { + auto it = m_iat_rva_lookup_table.find(rva); + return it != m_iat_rva_lookup_table.end() ? it->second.first : nullptr; + } + + PIMAGE_THUNK_DATA image_interpreter::import_lookup_entry_from_rva(rva_t rva) { + auto it = m_iat_rva_lookup_table.find(rva); + return it != m_iat_rva_lookup_table.end() ? it->second.second : nullptr; + } +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/image_interpreter.hpp b/navicat-patcher/image_interpreter.hpp new file mode 100644 index 0000000..7d437ae --- /dev/null +++ b/navicat-patcher/image_interpreter.hpp @@ -0,0 +1,202 @@ +#pragma once +#include +#include +#include +#include + +#include "exception.hpp" + +namespace nkg { + + class image_interpreter { + public: + using va_t = uintptr_t; + using rva_t = uintptr_t; + using fo_t = uintptr_t; + + private: + PIMAGE_DOS_HEADER m_dos_header; + PIMAGE_NT_HEADERS m_nt_headers; + PIMAGE_SECTION_HEADER m_section_header_table; + + std::map, PIMAGE_SECTION_HEADER> m_section_header_name_lookup_table; + std::map m_section_header_rva_lookup_table; + std::map m_section_header_fo_lookup_table; + + std::map m_relocation_rva_lookup_table; + + std::map> m_iat_rva_lookup_table; + + VS_FIXEDFILEINFO* m_vs_fixed_file_info; + + image_interpreter(); + + static std::array make_section_name(const BYTE (&name)[8]) { + std::array retval; + std::copy(std::begin(name), std::end(name), retval.begin()); + return retval; + } + + public: + class parse_error : public ::nkg::exception { + public: + parse_error(std::string_view file, int line, std::string_view message) noexcept : + ::nkg::exception(file, line, message) {} + }; + + [[nodiscard]] + static image_interpreter parse(void* image_base, bool parse_relocation); + + template + [[nodiscard]] + ptr_t image_base() const noexcept { + static_assert(std::is_pointer_v); + return reinterpret_cast(m_dos_header); + } + + [[nodiscard]] + PIMAGE_DOS_HEADER image_dos_header() const noexcept; + + [[nodiscard]] + PIMAGE_NT_HEADERS image_nt_headers() const noexcept; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header_table() const noexcept; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header(size_t n) const; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header(std::string_view name) const; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header_from_rva(rva_t rva) const; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header_from_va(va_t va) const; + + [[nodiscard]] + PIMAGE_SECTION_HEADER image_section_header_from_fo(fo_t file_offset) const; + + [[nodiscard]] + va_t convert_rva_to_va(rva_t rva) const noexcept; + + [[nodiscard]] + fo_t convert_rva_to_fo(rva_t rva) const; + + template + [[nodiscard]] + ptr_t convert_rva_to_ptr(rva_t rva) const { + static_assert(std::is_pointer_v); + return convert_fo_to_ptr(convert_rva_to_fo(rva)); + } + + [[nodiscard]] + rva_t convert_fo_to_rva(fo_t file_offset) const; + + [[nodiscard]] + va_t convert_fo_to_va(fo_t file_offset) const; + + template + [[nodiscard]] + ptr_t convert_fo_to_ptr(fo_t file_offset) const noexcept { + static_assert(std::is_pointer_v); + return reinterpret_cast(image_base() + file_offset); + } + + [[nodiscard]] + rva_t convert_va_to_rva(va_t va) const noexcept; + + [[nodiscard]] + fo_t convert_va_to_fo(va_t va) const; + + template + [[nodiscard]] + ptr_t convert_va_to_ptr(va_t va) const noexcept { + return convert_rva_to_ptr(convert_va_to_rva(va)); + } + + template + [[nodiscard]] + fo_t convert_ptr_to_fo(ptr_t ptr) const noexcept { + static_assert(std::is_pointer_v); + return reinterpret_cast(ptr) - image_base(); + } + + template + [[nodiscard]] + rva_t convert_ptr_to_rva(ptr_t ptr) const { + return convert_fo_to_rva(convert_ptr_to_fo(ptr)); + } + + template + [[nodiscard]] + va_t convert_ptr_to_va(ptr_t ptr) const { + return convert_fo_to_va(convert_ptr_to_fo(ptr)); + } + + [[nodiscard]] + size_t number_of_sections() const noexcept; + + template + [[nodiscard]] + ptr_t image_section_view(size_t n, size_t offset = 0) const { + static_assert(std::is_pointer_v); + return reinterpret_cast(image_base() + image_section_header(n)->PointerToRawData + offset); + } + + template + [[nodiscard]] + ptr_t image_section_view(std::string_view section_name, size_t offset = 0) const { + static_assert(std::is_pointer_v); + return reinterpret_cast(image_base() + image_section_header(section_name)->PointerToRawData + offset); + } + + template + [[nodiscard]] + ptr_t search_section(size_t n, pred_func_t&& pred_func) const { + static_assert(std::is_pointer_v); + + auto section_header = image_section_header(n); + + auto begin = image_base() + section_header->PointerToRawData; + auto end = begin + section_header->Misc.VirtualSize; + + for (; begin < end; ++begin) { + if (pred_func(begin, end - begin)) { + return reinterpret_cast(const_cast(begin)); + } + } + + return nullptr; + } + + template + [[nodiscard]] + ptr_t search_section(std::string_view section_name, pred_func_t&& pred_func) const { + static_assert(std::is_pointer_v); + + auto section_header = image_section_header(section_name); + + auto begin = image_base() + section_header->PointerToRawData; + auto end = begin + section_header->Misc.VirtualSize; + + for (; begin < end; ++begin) { + if (pred_func(begin, end - begin)) { + return reinterpret_cast(const_cast(begin)); + } + } + + return nullptr; + } + + PIMAGE_IMPORT_DESCRIPTOR import_descriptor_from_rva(rva_t rva); + + PIMAGE_THUNK_DATA import_lookup_entry_from_rva(rva_t rva); + + auto& relocation_distribute() { + return m_relocation_rva_lookup_table; + } + }; + +} diff --git a/navicat-patcher/keystone_assembler.cpp b/navicat-patcher/keystone_assembler.cpp new file mode 100644 index 0000000..0b16c68 --- /dev/null +++ b/navicat-patcher/keystone_assembler.cpp @@ -0,0 +1,38 @@ +#include "keystone_assembler.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\keystone_assembler.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +namespace nkg { + + keystone_assembler::keystone_assembler(ks_arch architecture, ks_mode mode) { + auto err = ks_open(architecture, mode, m_keystone_engine.unsafe_addressof()); + if (err != KS_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"ks_open failed."); + } + } + + void keystone_assembler::option(ks_opt_type option_type, size_t option_value) { + auto err = ks_option(m_keystone_engine.get(), option_type, option_value); + if (err != KS_ERR_OK) { + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"ks_option failed."); + } + } + + std::vector keystone_assembler::assemble(std::string_view asm_string, uint64_t asm_address) const { + resource_wrapper machine_code{ resource_traits::keystone::keystone_alloc{} }; + size_t machine_code_size = 0; + size_t stat_count = 0; + + if (ks_asm(m_keystone_engine.get(), asm_string.data(), asm_address, machine_code.unsafe_addressof(), &machine_code_size, &stat_count) < 0) { + auto err = ks_errno(m_keystone_engine.get()); + throw backend_error(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), err, u8"ks_option failed."); + } + + return std::vector(machine_code.get(), machine_code.get() + machine_code_size); + } + +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE diff --git a/navicat-patcher/keystone_assembler.hpp b/navicat-patcher/keystone_assembler.hpp new file mode 100644 index 0000000..4015ef6 --- /dev/null +++ b/navicat-patcher/keystone_assembler.hpp @@ -0,0 +1,54 @@ +#pragma once +#include +#include +#include + +#include "resource_wrapper.hpp" +#include "resource_traits/keystone/keystone_handle.hpp" + +#include "exception.hpp" + +namespace nkg { + + class keystone_assembler { + public: + class backend_error : public ::nkg::exception { + public: + using error_code_t = ks_err; + + private: + error_code_t m_error_code; + std::string m_error_string; + + public: + backend_error(std::string_view file, int line, error_code_t keystone_err, std::string_view message) noexcept : + ::nkg::exception(file, line, message), m_error_code(keystone_err), m_error_string(ks_strerror(keystone_err)) {} + + [[nodiscard]] + virtual bool error_code_exists() const noexcept override { + return true; + } + + [[nodiscard]] + virtual intptr_t error_code() const noexcept override { + return m_error_code; + } + + [[nodiscard]] + virtual const std::string& error_string() const noexcept override { + return m_error_string; + } + }; + + private: + resource_wrapper m_keystone_engine; + + public: + keystone_assembler(ks_arch architecture, ks_mode mode); + + void option(ks_opt_type option_type, size_t option_value); + + std::vector assemble(std::string_view asm_string, uint64_t asm_address = 0) const; + }; + +} diff --git a/navicat-patcher/navicat-patcher.vcxproj b/navicat-patcher/navicat-patcher.vcxproj new file mode 100644 index 0000000..07115dd --- /dev/null +++ b/navicat-patcher/navicat-patcher.vcxproj @@ -0,0 +1,210 @@ + + + + + Debug + Win32 + + + Release + Win32 + + + Debug + x64 + + + Release + x64 + + + + 16.0 + Win32Proj + {1b6920eb-e6ed-465f-9600-b5f816752375} + navicatpatcher + 10.0 + + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + Application + true + v143 + Unicode + + + Application + false + v143 + true + Unicode + + + + + + + + + + + + + + + + + + + + + + true + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + false + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + true + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + false + $(SolutionDir)\bin\$(PlatformTarget)-$(Configuration)\ + $(SolutionDir)\obj\$(PlatformTarget)-$(Configuration)\$(ProjectName)\ + + + true + + + true + + + true + + + true + + + + Level3 + true + WIN32;_DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreadedDebug + + + Console + true + + + + + Level3 + true + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreaded + + + Console + true + true + true + + + + + Level3 + true + _DEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreadedDebug + + + Console + true + + + + + Level3 + true + true + true + NDEBUG;_CONSOLE;%(PreprocessorDefinitions) + true + stdcpp17 + MultiThreaded + + + Console + true + true + true + + + + + true + true + + + + + true + true + + + true + true + + + + true + true + + + + + + true + true + + + + + + + + true + true + + + + + + \ No newline at end of file diff --git a/navicat-patcher/navicat-patcher.vcxproj.filters b/navicat-patcher/navicat-patcher.vcxproj.filters new file mode 100644 index 0000000..c20ed40 --- /dev/null +++ b/navicat-patcher/navicat-patcher.vcxproj.filters @@ -0,0 +1,66 @@ + + + + + {4FC737F1-C7A5-4376-A066-2A32D752A2FF} + cpp;c;cc;cxx;c++;cppm;ixx;def;odl;idl;hpj;bat;asm;asmx + + + {93995380-89BD-4b04-88EB-625FBE52EBFB} + h;hh;hpp;hxx;h++;hm;inl;inc;ipp;xsd + + + {67DA6AB6-F800-4c08-8B7A-83BB121AAD01} + rc;ico;cur;bmp;dlg;rc2;rct;bin;rgs;gif;jpg;jpeg;jpe;resx;tiff;tif;png;wav;mfcribbon-ms + + + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + 源文件 + + + + + 头文件 + + + 头文件 + + + 头文件 + + + 头文件 + + + 头文件 + + + 头文件 + + + 头文件 + + + \ No newline at end of file diff --git a/navicat-patcher/navicat-patcher.vcxproj.user b/navicat-patcher/navicat-patcher.vcxproj.user new file mode 100644 index 0000000..966b4ff --- /dev/null +++ b/navicat-patcher/navicat-patcher.vcxproj.user @@ -0,0 +1,6 @@ + + + + true + + \ No newline at end of file diff --git a/navicat-patcher/patch_solution.hpp b/navicat-patcher/patch_solution.hpp new file mode 100644 index 0000000..24fded6 --- /dev/null +++ b/navicat-patcher/patch_solution.hpp @@ -0,0 +1,19 @@ +#pragma once +#include "rsa_cipher.hpp" + +namespace nkg { + + class patch_solution { + public: + [[nodiscard]] + virtual bool find_patch() = 0; + + [[nodiscard]] + virtual bool check_rsa_privkey(const rsa_cipher& cipher) = 0; + + virtual void make_patch(const rsa_cipher& cipher) = 0; + + virtual ~patch_solution() = default; + }; + +} diff --git a/navicat-patcher/patch_solution_since.hpp b/navicat-patcher/patch_solution_since.hpp new file mode 100644 index 0000000..1e17cee --- /dev/null +++ b/navicat-patcher/patch_solution_since.hpp @@ -0,0 +1,9 @@ +#pragma once +#include "patch_solution.hpp" + +namespace nkg { + + template + class patch_solution_since; + +} diff --git a/navicat-patcher/patch_solution_since_16.0.7.0.amd64.cpp b/navicat-patcher/patch_solution_since_16.0.7.0.amd64.cpp new file mode 100644 index 0000000..745bf24 --- /dev/null +++ b/navicat-patcher/patch_solution_since_16.0.7.0.amd64.cpp @@ -0,0 +1,591 @@ +#define _CRT_SECURE_NO_WARNINGS +#include "amd64_emulator.hpp" +#include "keystone_assembler.hpp" +#include "patch_solution_since_16.0.7.0.hpp" +#include +#include + +namespace nkg { + + patch_solution_since<16, 0, 7, 0>::patch_solution_since(image_interpreter& libcc_interpreter) : + m_libcc_interpreter(libcc_interpreter), + m_va_CSRegistrationInfoFetcher_WIN_vtable(0), + m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey(0), + m_va_iat_entry_malloc(0) {} + + bool patch_solution_since<16, 0, 7, 0>::find_patch() { + auto CSRegistrationInfoFetcher_WIN_type_descriptor_name = + m_libcc_interpreter.search_section( + ".data", + [](const uint8_t* p, size_t s) { + if (s < sizeof(".?AVCSRegistrationInfoFetcher_WIN@@")) { + return false; + } + + return strcmp(reinterpret_cast(p), ".?AVCSRegistrationInfoFetcher_WIN@@") == 0; + } + ); + + if (CSRegistrationInfoFetcher_WIN_type_descriptor_name == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: RTTI info for CSRegistrationInfoFetcher_WIN is not found. (failure label 0)\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_rtti_type_descriptor = CSRegistrationInfoFetcher_WIN_type_descriptor_name - 0x10; + + auto CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_rva = m_libcc_interpreter.convert_ptr_to_rva(CSRegistrationInfoFetcher_WIN_rtti_type_descriptor); + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor = + m_libcc_interpreter.search_section( + ".rdata", + [this, CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_rva](const uint8_t* p, size_t s) { + if (reinterpret_cast(p) % sizeof(uint32_t) != 0) { + return false; + } + + if (s < sizeof(uint32_t)) { + return false; + } + + if (*reinterpret_cast(p) != CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_rva) { + return false; + } + + if (s < sizeof(uint32_t) * 2) { + return false; + } + + auto maybe_CSRegistrationInfoFetcher_WIN_rtti_class_hierarchy_descriptor_rva = reinterpret_cast(p)[1]; + + try { + return memcmp(m_libcc_interpreter.image_section_header_from_rva(maybe_CSRegistrationInfoFetcher_WIN_rtti_class_hierarchy_descriptor_rva)->Name, ".rdata\x00\x00", 8) == 0; + } catch (nkg::exception&) { + return false; + } + } + ); + + if (CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: RTTI info for CSRegistrationInfoFetcher_WIN is not found. (failure label 1)\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator = CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor - 0xC; + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va = m_libcc_interpreter.convert_ptr_to_va(CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator); + + auto CSRegistrationInfoFetcher_WIN_vtable_before = + m_libcc_interpreter.search_section( + ".rdata", + [CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va](const uint8_t* p, size_t s) { + if (reinterpret_cast(p) % sizeof(uint64_t) != 0) { + return false; + } + + if (s < sizeof(uint64_t)) { + return false; + } + + return *reinterpret_cast(p) == CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va; + } + ); + + if (CSRegistrationInfoFetcher_WIN_vtable_before == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Vftable for CSRegistrationInfoFetcher_WIN is not found.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_vtable = + reinterpret_cast(CSRegistrationInfoFetcher_WIN_vtable_before + sizeof(image_interpreter::va_t)); + + m_va_CSRegistrationInfoFetcher_WIN_vtable = m_libcc_interpreter.convert_ptr_to_va(CSRegistrationInfoFetcher_WIN_vtable); + m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = CSRegistrationInfoFetcher_WIN_vtable[6]; + wprintf(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_CSRegistrationInfoFetcher_WIN_vtable = 0x%016llx\n", m_va_CSRegistrationInfoFetcher_WIN_vtable); + wprintf(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = 0x%016llx\n", m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey); + + amd64_emulator x64_emulator; + + x64_emulator.context_set("heap_base", uint64_t{ 0x00007fff00000000 }); + x64_emulator.context_set("heap_size", size_t{ 0x1000 * 32 }); + x64_emulator.context_set("heap_records", std::map{}); + + x64_emulator.context_set("stack_base", uint64_t{ 0x00007fffffff0000 }); + x64_emulator.context_set("stack_size", size_t{ 0x1000 * 32 }); + x64_emulator.context_set("stack_top", uint64_t{ x64_emulator.context_get("stack_base") - x64_emulator.context_get("stack_size") }); + + x64_emulator.context_set("dead_area_base", uint64_t{ 0xfffffffffffff000 }); + x64_emulator.context_set("dead_area_size", size_t{ 0x1000 }); + + x64_emulator.context_set("iat_base", uint64_t{ m_libcc_interpreter.convert_rva_to_va(m_libcc_interpreter.image_nt_headers()->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].VirtualAddress) }); + x64_emulator.context_set("iat_size", size_t{ m_libcc_interpreter.image_nt_headers()->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].Size }); + + x64_emulator.context_set("external_api_stub_area_base", uint64_t{ 0xffff800000000000 }); + x64_emulator.context_set("external_api_stub_area_size", size_t{ (x64_emulator.context_get("iat_size") / 8 + 0xfff) / 0x1000 * 0x1000 }); + + x64_emulator.context_set("external_api_impl", std::map{}); + x64_emulator.context_set("external_api_impl_area_base", uint64_t{ 0xffff900000000000 }); + x64_emulator.context_set("external_api_impl_area_size", size_t{ 0 }); + + x64_emulator.context_set("gs_base", uint64_t{ 0xffffa00000000000 }); + x64_emulator.context_set("gs_size", size_t{ 0x1000 }); + + x64_emulator.context_set("start_address", static_cast(m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey)); + x64_emulator.context_set("dead_address", x64_emulator.context_get("dead_area_base")); + + // allocate heap + x64_emulator.mem_map(x64_emulator.context_get("heap_base"), x64_emulator.context_get("heap_size"), UC_PROT_READ | UC_PROT_WRITE); + + // allocate stack + x64_emulator.mem_map(x64_emulator.context_get("stack_top"), x64_emulator.context_get("stack_size"), UC_PROT_READ | UC_PROT_WRITE); + + // allocate dead area + x64_emulator.mem_map(x64_emulator.context_get("dead_area_base"), x64_emulator.context_get("dead_area_size"), UC_PROT_READ | UC_PROT_EXEC); + + // allocate and hook read access to IAT + { + auto iat_base = x64_emulator.context_get("iat_base"); + auto iat_size = x64_emulator.context_get("iat_size"); + auto external_api_stub_area_base = x64_emulator.context_get("external_api_stub_area_base"); + + auto iat_page_base = iat_base / 0x1000 * 0x1000; + auto iat_page_count = (iat_base - iat_page_base + iat_size + 0xfff) / 0x1000; + + x64_emulator.mem_map(iat_page_base, iat_page_count * 0x1000, UC_PROT_READ); + + x64_emulator.hook_add( + [this, &x64_emulator, iat_base, external_api_stub_area_base](uc_mem_type type, uint64_t address, size_t size, int64_t value) { + auto rva = m_libcc_interpreter.convert_va_to_rva(address); + auto import_lookup_entry = m_libcc_interpreter.import_lookup_entry_from_rva(rva); + + if (import_lookup_entry && !IMAGE_SNAP_BY_ORDINAL(import_lookup_entry->u1.Ordinal)) { + auto import_by_name_entry = m_libcc_interpreter.convert_rva_to_ptr(import_lookup_entry->u1.AddressOfData); + if (strcmp(import_by_name_entry->Name, "memcpy") == 0) { + uint64_t impl_address = x64_emulator.context_get&>("external_api_impl")["memcpy"]; + x64_emulator.mem_write(address, &impl_address, sizeof(impl_address)); + } else if (strcmp(import_by_name_entry->Name, "memcmp") == 0) { + uint64_t impl_address = x64_emulator.context_get&>("external_api_impl")["memcmp"]; + x64_emulator.mem_write(address, &impl_address, sizeof(impl_address)); + } else { + uint64_t stub_address = external_api_stub_area_base + (address - iat_base) / sizeof(IMAGE_THUNK_DATA); + x64_emulator.mem_write(address, &stub_address, sizeof(stub_address)); + } + } else { + x64_emulator.emu_stop(); + } + }, + iat_base, + iat_base + iat_size - 1 + ); + } + + // allocate and setup external api stub area + { + auto external_api_stub_area_base = x64_emulator.context_get("external_api_stub_area_base"); + auto external_api_stub_area_size = x64_emulator.context_get("external_api_stub_area_size"); + + x64_emulator.mem_map(external_api_stub_area_base, external_api_stub_area_size, UC_PROT_READ | UC_PROT_EXEC); + x64_emulator.mem_write(external_api_stub_area_base, std::vector(external_api_stub_area_size, 0xc3)); // c3 -> ret + + x64_emulator.hook_add( + [this, &x64_emulator, external_api_stub_area_base](uint64_t address, size_t size) { + auto iat_base = x64_emulator.context_get("iat_base"); + auto from_va = iat_base + (address - external_api_stub_area_base) * sizeof(IMAGE_THUNK_DATA); + auto from_rva = m_libcc_interpreter.convert_va_to_rva(from_va); + + auto import_lookup_entry = m_libcc_interpreter.import_lookup_entry_from_rva(from_rva); + if (import_lookup_entry && !IMAGE_SNAP_BY_ORDINAL(import_lookup_entry->u1.Ordinal)) { + auto import_by_name_entry = m_libcc_interpreter.convert_rva_to_ptr(import_lookup_entry->u1.AddressOfData); + if (strcmp(import_by_name_entry->Name, "malloc") == 0) { + m_va_iat_entry_malloc = from_va; + + uint64_t alloc_size; + x64_emulator.reg_read(UC_X86_REG_RCX, &alloc_size); + + auto& heap_records = x64_emulator.context_get&>("heap_records"); + + auto predecessor_chunk = + std::adjacent_find( + heap_records.begin(), + heap_records.end(), + [alloc_size](const auto& chunk0, const auto& chunk1) { return chunk1.first - (chunk0.first + chunk0.second) >= alloc_size; } + ); + + uint64_t alloc_p; + if (predecessor_chunk != heap_records.end()) { + alloc_p = predecessor_chunk->first + predecessor_chunk->second; + } else { + auto heap_base = x64_emulator.context_get("heap_base"); + auto heap_size = x64_emulator.context_get("heap_size"); + + auto free_space_base = heap_records.size() > 0 ? heap_records.rbegin()->first + heap_records.rbegin()->second : heap_base; + auto free_space_size = heap_base + heap_size - free_space_base; + + if (free_space_size < alloc_size) { + auto heap_expand_base = heap_base + heap_size; + auto heap_expand_size = (alloc_size - free_space_size + 0xfff) / 0x1000 * 0x1000; + x64_emulator.mem_map(heap_expand_base, heap_expand_size, UC_PROT_READ | UC_PROT_WRITE); + } + + alloc_p = free_space_base; + } + + heap_records[alloc_p] = alloc_size; + + x64_emulator.reg_write(UC_X86_REG_RAX, &alloc_p); + } else if (strcmp(import_by_name_entry->Name, "free") == 0) { + uint64_t alloc_p; + x64_emulator.reg_read(UC_X86_REG_RCX, &alloc_p); + + auto& heap_records = x64_emulator.context_get&>("heap_records"); + + auto chunk = heap_records.find(alloc_p); + if (chunk != heap_records.end()) { + heap_records.erase(chunk); + } else { + x64_emulator.emu_stop(); + } + } else { + x64_emulator.emu_stop(); + } + } else { + x64_emulator.emu_stop(); + } + }, + external_api_stub_area_base, + external_api_stub_area_base + external_api_stub_area_size - 1 + ); + } + + // allocate and setup external api impl area + { + keystone_assembler x64_assembler{ KS_ARCH_X86, KS_MODE_64 }; + + std::map> machine_code_list = + { + std::make_pair( + "memcpy", + x64_assembler.assemble( + "push rdi;" + "push rsi;" + "mov rdi, rcx;" + "mov rsi, rdx;" + "mov rcx, r8;" + "rep movs byte ptr [rdi], byte ptr [rsi];" + "pop rsi;" + "pop rdi;" + "ret;" + ) + ), + std::make_pair( + "memcmp", + x64_assembler.assemble( + " push rdi;" + " push rsi;" + " mov rsi, rcx;" + " mov rdi, rdx;" + " mov rcx, r8;" + " cmp rcx, rcx;" + " repe cmps byte ptr [rsi], byte ptr [rdi];" + " jz cmp_eq;" + "cmp_not_eq:" + " movsx eax, byte ptr [rsi - 1];" + " movsx ecx, byte ptr [rdi - 1];" + " sub eax, ecx;" + " jmp final;" + "cmp_eq:" + " xor eax, eax;" + "final:" + " pop rsi;" + " pop rdi;" + " ret;" + ) + ), + std::make_pair( + "memmove", + x64_assembler.assemble( + " push rdi;" + " push rsi;" + " cmp rdx, rcx;" + " jb reverse_copy;" + "copy:" + " mov rdi, rcx;" + " mov rsi, rdx;" + " mov rcx, r8;" + " rep movsb byte ptr[rdi], byte ptr[rsi];" + " jmp final;" + "reverse_copy:" + " std;" + " lea rdi, qword ptr[rcx + r8 - 1];" + " lea rsi, qword ptr[rdx + r8 - 1];" + " mov rcx, r8;" + " rep movsb byte ptr[rdi], byte ptr[rsi];" + " cld;" + "final:" + " pop rsi;" + " pop rdi;" + " ret;" + ) + ) + }; + + auto& external_api_impl = x64_emulator.context_get&>("external_api_impl"); + auto& external_api_impl_area_base = x64_emulator.context_get("external_api_impl_area_base"); + auto& external_api_impl_area_size = x64_emulator.context_get("external_api_impl_area_size"); + + auto p = external_api_impl_area_base; + for (const auto& name_code_pair : machine_code_list) { + external_api_impl[name_code_pair.first] = p; + p = (p + name_code_pair.second.size() + 0xf) / 0x10 * 0x10; + } + + external_api_impl_area_size = (p + 0xfff) / 0x1000 * 0x1000 - external_api_impl_area_base; + + x64_emulator.mem_map(external_api_impl_area_base, external_api_impl_area_size, UC_PROT_READ | UC_PROT_EXEC); + for (const auto& name_code_pair : machine_code_list) { + x64_emulator.mem_write(external_api_impl[name_code_pair.first], name_code_pair.second); + } + } + + // allocate and hook access to gs area + x64_emulator.mem_map(x64_emulator.context_get("gs_base"), x64_emulator.context_get("gs_size"), UC_PROT_READ | UC_PROT_WRITE); + x64_emulator.msr_write(0xC0000101, x64_emulator.context_get("gs_base")); // set gs base address + + x64_emulator.hook_add( + [this, &x64_emulator](uc_mem_type access, uint64_t address, size_t size, int64_t value) { + auto gs_base = x64_emulator.context_get("gs_base"); + switch (address - gs_base) { + case 0x10: // qword ptr gs:[0x10] -> Stack Limit / Ceiling of stack (low address) + { + uint64_t val = x64_emulator.context_get("stack_top"); + x64_emulator.mem_write(address, &val, size); + } + break; + default: + x64_emulator.emu_stop(); + break; + } + }, + x64_emulator.context_get("gs_base"), + x64_emulator.context_get("gs_base") + x64_emulator.context_get("gs_size") - 1 + ); + + // x64_emulator.hook_add([](uint64_t address, size_t size) { wprintf_s(L"code_trace, address = 0x%016zx\n", address); }); + + x64_emulator.hook_add( + [this, &x64_emulator](uc_mem_type access, uint64_t address, size_t size, int64_t value) -> bool { + try { + auto fault_section = m_libcc_interpreter.image_section_header_from_va(address); + + auto page_base = address / 0x1000 * 0x1000; + auto page_size = 0x1000; + uint32_t page_perms = UC_PROT_NONE; + + if (fault_section->Characteristics & IMAGE_SCN_MEM_READ) { + page_perms |= UC_PROT_READ; + } + if (fault_section->Characteristics & IMAGE_SCN_MEM_WRITE) { + page_perms |= UC_PROT_WRITE; + } + if (fault_section->Characteristics & IMAGE_SCN_MEM_EXECUTE) { + page_perms |= UC_PROT_EXEC; + } + + x64_emulator.mem_map(page_base, page_size, page_perms); + x64_emulator.mem_write(page_base, m_libcc_interpreter.convert_va_to_ptr(page_base), page_size); + + return true; + } catch (::nkg::exception&) { + return false; + } + } + ); + + // set rbp, rsp + uint64_t init_rbp = x64_emulator.context_get("stack_base") - x64_emulator.context_get("stack_size") / 4; + uint64_t init_rsp = x64_emulator.context_get("stack_base") - x64_emulator.context_get("stack_size") / 2; + + x64_emulator.reg_write(UC_X86_REG_RBP, &init_rbp); + x64_emulator.reg_write(UC_X86_REG_RSP, &init_rsp); + + // set return address + auto retaddr = x64_emulator.context_get("dead_address"); + x64_emulator.mem_write(init_rsp, &retaddr, sizeof(retaddr)); + + // set argument registers + uint64_t init_rcx = 0; // `this` pointer of CSRegistrationInfoFetcher_WIN, but we don't need it for now. + uint64_t init_rdx = init_rsp + 0x40; // a pointer to stack memory which stores return value + x64_emulator.reg_write(UC_X86_REG_RCX, &init_rcx); + x64_emulator.reg_write(UC_X86_REG_RDX, &init_rdx); + + // + // start emulate + // + try { + x64_emulator.emu_start(x64_emulator.context_get("start_address"), x64_emulator.context_get("dead_address")); + } catch (nkg::exception&) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Code emulation failed.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + wprintf_s(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_iat_entry_malloc = 0x%016llx\n", m_va_iat_entry_malloc); + + // + // get result + // + // on AMD64 platform, `std::string` has follow memory layout: + // ------------------------------ + // | offset | size | + // ------------------------------ + // | +0 | 0x10 | `char[16]: a small string buffer` OR `char*: a large string buffer pointer` + // ------------------------------ + // | +0x10 | 0x8 | size_t: string length + // ------------------------------ + // | +0x18 | 0x8 | size_t: capacity + // ------------------------------ + // + uint64_t encoded_key_length; + x64_emulator.mem_read(init_rdx + 0x10, &encoded_key_length, sizeof(encoded_key_length)); + if (encoded_key_length != official_encoded_key.length()) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: unexpected encoded key length(%llu).\n", encoded_key_length); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + uint64_t encoded_key_ptr; + x64_emulator.mem_read(init_rdx, &encoded_key_ptr, sizeof(encoded_key_ptr)); + + auto encoded_key = x64_emulator.mem_read(encoded_key_ptr, encoded_key_length); + if (memcmp(encoded_key.data(), official_encoded_key.data(), encoded_key.size()) == 0) { + wprintf_s(L"[+] patch_solution_since<16, 0, 7, 0>: official encoded key is found.\n"); + return true; + } else { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: official encoded key is not found.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + } + + bool patch_solution_since<16, 0, 7, 0>::check_rsa_privkey(const rsa_cipher& cipher) { + return true; // no requirements + } + + void patch_solution_since<16, 0, 7, 0>::make_patch(const rsa_cipher& cipher) { + auto encoded_key = _build_encoded_key(cipher); + + auto CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = + m_libcc_interpreter.convert_va_to_ptr(m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey); + + std::vector patch_code_chunks; + patch_code_chunks.emplace_back("push rdi;"); + patch_code_chunks.emplace_back("push rsi;"); + patch_code_chunks.emplace_back("push rbx;"); + patch_code_chunks.emplace_back("push rbp;"); + patch_code_chunks.emplace_back("mov rbp, rsp;"); + patch_code_chunks.emplace_back("mov rbx, rdx;"); + patch_code_chunks.emplace_back("sub rsp, 0x20;"); + patch_code_chunks.emplace_back(fmt::format("mov rcx, {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back(fmt::format("call qword ptr [{:#016x}];", m_va_iat_entry_malloc)); + patch_code_chunks.emplace_back("add rsp, 0x20;"); + { + std::vector push_values((encoded_key.length() + 1 + 7) / 8, 0); + memcpy(push_values.data(), encoded_key.data(), encoded_key.length()); + + std::for_each( + push_values.crbegin(), + push_values.crend(), + [&patch_code_chunks](uint64_t x) { + patch_code_chunks.emplace_back(fmt::format("mov rdx, {:#016x};", x)); + patch_code_chunks.emplace_back("push rdx;"); + } + ); + } + patch_code_chunks.emplace_back("mov rdi, rax;"); + patch_code_chunks.emplace_back("mov rsi, rsp;"); + patch_code_chunks.emplace_back(fmt::format("mov rcx, {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back("rep movs byte ptr [rdi], byte ptr [rsi];"); + patch_code_chunks.emplace_back("mov qword ptr [rbx], rax;"); + patch_code_chunks.emplace_back(fmt::format("mov qword ptr [rbx + 0x10], {:#x};", encoded_key.length())); + patch_code_chunks.emplace_back(fmt::format("mov qword ptr [rbx + 0x18], {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back("mov rax, rbx;"); + patch_code_chunks.emplace_back("leave;"); + patch_code_chunks.emplace_back("pop rbx;"); + patch_code_chunks.emplace_back("pop rsi;"); + patch_code_chunks.emplace_back("pop rdi;"); + patch_code_chunks.emplace_back("ret;"); + + //auto patch_code = keystone_assembler{ KS_ARCH_X86, KS_MODE_64 } + // .assemble( + // fmt::format( + // " push rdi;" + // " push rsi;" + // " push rbx;" + // " mov rbx, rdx;" + // "allocate_string_buf:" + // " mov rcx, {encoded_key_length:#x} + 1;" + // " sub rsp, 0x20;" + // " call qword ptr [{m_va_iat_entry_malloc:#x}];" + // " add rsp, 0x20;" + // "write_our_own_key_to_string_buf:" + // " mov rdi, rax;" + // " lea rsi, qword ptr [end_of_code + rip];" + // " mov rcx, 0x188;" + // " rep movs byte ptr [rdi], byte ptr [rsi];" + // " mov byte ptr [rdi], 0;" + // "craft_std_string:" + // " mov qword ptr [rbx], rax;" + // " mov qword ptr [rbx + 0x10], {encoded_key_length:#x};" + // " mov qword ptr [rbx + 0x18], {encoded_key_length:#x} + 1;" + // "final:" + // " mov rax, rbx;" + // " pop rbx;" + // " pop rsi;" + // " pop rdi;" + // " ret;" + // "end_of_code:", + // fmt::arg("encoded_key_length", encoded_key.length()), + // fmt::arg("m_va_iat_entry_malloc", m_va_iat_entry_malloc) + // ), + // m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey + // ); + + std::vector assembled_patch_code; + { + keystone_assembler x86_assembler{ KS_ARCH_X86, KS_MODE_64 }; + + auto current_va = m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey; + auto next_reloc = m_libcc_interpreter.relocation_distribute().lower_bound(m_libcc_interpreter.convert_va_to_rva(current_va)); + for (const auto& patch_code_chunk : patch_code_chunks) { + auto assembled_patch_code_chunk = x86_assembler.assemble(patch_code_chunk, current_va); + + while (true) { + auto next_reloc_va = m_libcc_interpreter.convert_rva_to_va(next_reloc->first); + auto next_reloc_size = next_reloc->second; + + if (current_va + assembled_patch_code_chunk.size() + 2 <= next_reloc_va) { // 2 -> size of machine code "jmp rel8" + assembled_patch_code.insert(assembled_patch_code.end(), assembled_patch_code_chunk.begin(), assembled_patch_code_chunk.end()); + current_va += assembled_patch_code_chunk.size(); + break; + } else if (current_va + 2 <= next_reloc_va) { + auto next_va = next_reloc_va + next_reloc_size; + auto assembled_jmp = x86_assembler.assemble(fmt::format("jmp {:#016x};", next_va), current_va); + auto assembled_padding = std::vector(next_va - (current_va + assembled_jmp.size()), 0xcc); // 0xcc -> int3 + assembled_patch_code.insert(assembled_patch_code.end(), assembled_jmp.begin(), assembled_jmp.end()); + assembled_patch_code.insert(assembled_patch_code.end(), assembled_padding.begin(), assembled_padding.end()); + current_va = next_va; + ++next_reloc; + } else { + __assume(false); // impossible to reach here + } + } + } + } + + memcpy(CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey, assembled_patch_code.data(), assembled_patch_code.size()); + wprintf_s(L"[*] patch_solution_since<16, 0, 7, 0>: Patch has been done.\n"); + } + +} diff --git a/navicat-patcher/patch_solution_since_16.0.7.0.generic.cpp b/navicat-patcher/patch_solution_since_16.0.7.0.generic.cpp new file mode 100644 index 0000000..878c014 --- /dev/null +++ b/navicat-patcher/patch_solution_since_16.0.7.0.generic.cpp @@ -0,0 +1,16 @@ +#include "patch_solution_since_16.0.7.0.hpp" +#include + +namespace nkg { + + std::string patch_solution_since<16, 0, 7, 0>::_build_encoded_key(const rsa_cipher& cipher) { + auto encoded_key = cipher.export_public_key_string_pem(); + + encoded_key = std::regex_replace(encoded_key, std::regex("-----BEGIN PUBLIC KEY-----"), ""); + encoded_key = std::regex_replace(encoded_key, std::regex("-----END PUBLIC KEY-----"), ""); + encoded_key = std::regex_replace(encoded_key, std::regex("\n"), ""); + + return encoded_key; + } + +} diff --git a/navicat-patcher/patch_solution_since_16.0.7.0.hpp b/navicat-patcher/patch_solution_since_16.0.7.0.hpp new file mode 100644 index 0000000..7447d66 --- /dev/null +++ b/navicat-patcher/patch_solution_since_16.0.7.0.hpp @@ -0,0 +1,35 @@ +#pragma once +#include "patch_solution_since.hpp" +#include "image_interpreter.hpp" +#include +#include +#include + +namespace nkg { + + template<> + class patch_solution_since<16, 0, 7, 0> final : public patch_solution { + private: + static inline std::string_view official_encoded_key = "MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAw1dqF3SkCaAAmMzs889IqdW9M2dIdh3jG9yPcmLnmJiGpBF4E9VHSMGe8oPAy2kJDmdNt4BcEygvssEfginva5t5jm352UAoDosUJkTXGQhpAWMF4fBmBpO3EedG62rOsqMBgmSdAyxCSPBRJIOFR0QgZFbRnU0frj34fiVmgYiLuZSAmIbs8ZxiHPdp1oD4tUpvsFci4QJtYNjNnGU2WPH6rvChGl1IRKrxMtqLielsvajUjyrgOC6NmymYMvZNER3htFEtL1eQbCyTfDmtYyQ1Wt4Ot12lxf0wVIR5mcGN7XCXJRHOFHSf1gzXWabRSvmt1nrl7sW6cjxljuuQawIDAQAB"; + + image_interpreter& m_libcc_interpreter; + image_interpreter::va_t m_va_CSRegistrationInfoFetcher_WIN_vtable; + image_interpreter::va_t m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey; + image_interpreter::va_t m_va_iat_entry_malloc; + + std::string _build_encoded_key(const rsa_cipher& cipher); + + public: + patch_solution_since(image_interpreter& libcc_interpreter); + + [[nodiscard]] + virtual bool find_patch() override; + + [[nodiscard]] + virtual bool check_rsa_privkey(const rsa_cipher& cipher) override; + + virtual void make_patch(const rsa_cipher& cipher) override; + + }; + +} diff --git a/navicat-patcher/patch_solution_since_16.0.7.0.i386.cpp b/navicat-patcher/patch_solution_since_16.0.7.0.i386.cpp new file mode 100644 index 0000000..7a2eea8 --- /dev/null +++ b/navicat-patcher/patch_solution_since_16.0.7.0.i386.cpp @@ -0,0 +1,629 @@ +#define _CRT_SECURE_NO_WARNINGS +#include "i386_emulator.hpp" +#include "keystone_assembler.hpp" +#include "patch_solution_since_16.0.7.0.hpp" +#include +#include + +namespace nkg { + + patch_solution_since<16, 0, 7, 0>::patch_solution_since(image_interpreter& libcc_interpreter) : + m_libcc_interpreter(libcc_interpreter), + m_va_CSRegistrationInfoFetcher_WIN_vtable(0), + m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey(0), + m_va_iat_entry_malloc(0) {} + + bool patch_solution_since<16, 0, 7, 0>::find_patch() { + auto CSRegistrationInfoFetcher_WIN_type_descriptor_name = + m_libcc_interpreter.search_section( + ".data", + [](const uint8_t* p, size_t s) { + if (s < sizeof(".?AVCSRegistrationInfoFetcher_WIN@@")) { + return false; + } + + return strcmp(reinterpret_cast(p), ".?AVCSRegistrationInfoFetcher_WIN@@") == 0; + } + ); + + if (CSRegistrationInfoFetcher_WIN_type_descriptor_name == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: RTTI info for CSRegistrationInfoFetcher_WIN is not found. (failure label 0)\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_rtti_type_descriptor = CSRegistrationInfoFetcher_WIN_type_descriptor_name - 0x8; + + auto CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_va = m_libcc_interpreter.convert_ptr_to_va(CSRegistrationInfoFetcher_WIN_rtti_type_descriptor); + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor = + m_libcc_interpreter.search_section( + ".rdata", + [this, CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_va](const uint8_t* p, size_t s) { + if (reinterpret_cast(p) % sizeof(uint32_t) != 0) { + return false; + } + + if (s < sizeof(uint32_t)) { + return false; + } + + if (*reinterpret_cast(p) != CSRegistrationInfoFetcher_WIN_rtti_type_descriptor_va) { + return false; + } + + if (s < sizeof(uint32_t) * 2) { + return false; + } + + auto maybe_CSRegistrationInfoFetcher_WIN_rtti_class_hierarchy_descriptor_va = reinterpret_cast(p)[1]; + + try { + return memcmp(m_libcc_interpreter.image_section_header_from_va(maybe_CSRegistrationInfoFetcher_WIN_rtti_class_hierarchy_descriptor_va)->Name, ".rdata\x00\x00", 8) == 0; + } catch (nkg::exception&) { + return false; + } + } + ); + + if (CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: RTTI info for CSRegistrationInfoFetcher_WIN is not found. (failure label 1)\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator = CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_pTypeDescriptor - 0xC; + + auto CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va = m_libcc_interpreter.convert_ptr_to_va(CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator); + + auto CSRegistrationInfoFetcher_WIN_vtable_before = + m_libcc_interpreter.search_section( + ".rdata", + [CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va](const uint8_t* p, size_t s) { + if (reinterpret_cast(p) % sizeof(uint32_t) != 0) { + return false; + } + + if (s < sizeof(uint32_t)) { + return false; + } + + return *reinterpret_cast(p) == CSRegistrationInfoFetcher_WIN_rtti_complete_object_locator_va; + } + ); + + if (CSRegistrationInfoFetcher_WIN_vtable_before == nullptr) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Vftable for CSRegistrationInfoFetcher_WIN is not found.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + auto CSRegistrationInfoFetcher_WIN_vtable = + reinterpret_cast(CSRegistrationInfoFetcher_WIN_vtable_before + sizeof(uint32_t)); + + m_va_CSRegistrationInfoFetcher_WIN_vtable = m_libcc_interpreter.convert_ptr_to_va(CSRegistrationInfoFetcher_WIN_vtable); + m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = CSRegistrationInfoFetcher_WIN_vtable[6]; + wprintf(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_CSRegistrationInfoFetcher_WIN_vtable = 0x%08x\n", m_va_CSRegistrationInfoFetcher_WIN_vtable); + wprintf(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = 0x%08x\n", m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey); + + + i386_emulator x86_emulator; + + x86_emulator.context_set("heap_base", uint32_t{ 0x7f000000 }); + x86_emulator.context_set("heap_size", size_t{ 0x1000 * 32 }); + x86_emulator.context_set("heap_records", std::map{}); + + x86_emulator.context_set("stack_base", uint32_t{ 0x7fff0000 }); + x86_emulator.context_set("stack_size", size_t{ 0x1000 * 32 }); + x86_emulator.context_set("stack_top", uint32_t{ x86_emulator.context_get("stack_base") - x86_emulator.context_get("stack_size") }); + + x86_emulator.context_set("r0_to_r3_stub_area_base", uint32_t{ 0xffffe000 }); + x86_emulator.context_set("r0_to_r3_stub_area_size", size_t{ 0x1000 }); + + x86_emulator.context_set("dead_area_base", uint32_t{ 0xfffff000 }); + x86_emulator.context_set("dead_area_size", size_t{ 0x1000 }); + + x86_emulator.context_set("iat_base", uint32_t{ m_libcc_interpreter.convert_rva_to_va(m_libcc_interpreter.image_nt_headers()->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].VirtualAddress) }); + x86_emulator.context_set("iat_size", size_t{ m_libcc_interpreter.image_nt_headers()->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IAT].Size }); + + x86_emulator.context_set("external_api_stub_area_base", uint32_t{ 0x80000000 }); + x86_emulator.context_set("external_api_stub_area_size", size_t{ (x86_emulator.context_get("iat_size") / 8 + 0xfff) / 0x1000 * 0x1000 }); + + x86_emulator.context_set("external_api_impl", std::map{}); + x86_emulator.context_set("external_api_impl_area_base", uint32_t{ 0x90000000 }); + x86_emulator.context_set("external_api_impl_area_size", size_t{ 0 }); + + x86_emulator.context_set("gdt_base", uint32_t{ 0xffff0000 }); + x86_emulator.context_set("gdt_size", size_t{ 0x1000 }); + + x86_emulator.context_set("fs_base", uint32_t{ 0xa0000000 }); + x86_emulator.context_set("fs_size", size_t{ 0x1000 }); + + x86_emulator.context_set("start_address", static_cast(m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey)); + x86_emulator.context_set("dead_address", x86_emulator.context_get("dead_area_base")); + + // allocate heap + x86_emulator.mem_map(x86_emulator.context_get("heap_base"), x86_emulator.context_get("heap_size"), UC_PROT_READ | UC_PROT_WRITE); + + // allocate stack + x86_emulator.mem_map(x86_emulator.context_get("stack_top"), x86_emulator.context_get("stack_size"), UC_PROT_READ | UC_PROT_WRITE); + + // allocate r0_to_r3_stub area + x86_emulator.mem_map(x86_emulator.context_get("r0_to_r3_stub_area_base"), x86_emulator.context_get("r0_to_r3_stub_area_size"), UC_PROT_READ | UC_PROT_EXEC); + x86_emulator.mem_write(x86_emulator.context_get("r0_to_r3_stub_area_base"), keystone_assembler{ KS_ARCH_X86, KS_MODE_32 }.assemble("iretd;")); + + // allocate dead area + x86_emulator.mem_map(x86_emulator.context_get("dead_area_base"), x86_emulator.context_get("dead_area_size"), UC_PROT_READ | UC_PROT_EXEC); + + // allocate and hook read access to IAT + { + auto iat_base = x86_emulator.context_get("iat_base"); + auto iat_size = x86_emulator.context_get("iat_size"); + auto external_api_stub_area_base = x86_emulator.context_get("external_api_stub_area_base"); + + auto iat_page_base = iat_base / 0x1000 * 0x1000; + auto iat_page_count = (iat_base - iat_page_base + iat_size + 0xfff) / 0x1000; + + x86_emulator.mem_map(iat_page_base, iat_page_count * 0x1000, UC_PROT_READ); + + x86_emulator.hook_add( + [this, &x86_emulator, iat_base, external_api_stub_area_base](uc_mem_type type, uint32_t address, size_t size, int32_t value) { + auto rva = m_libcc_interpreter.convert_va_to_rva(address); + auto import_lookup_entry = m_libcc_interpreter.import_lookup_entry_from_rva(rva); + + if (import_lookup_entry && !IMAGE_SNAP_BY_ORDINAL(import_lookup_entry->u1.Ordinal)) { + auto import_by_name_entry = m_libcc_interpreter.convert_rva_to_ptr(import_lookup_entry->u1.AddressOfData); + if (strcmp(import_by_name_entry->Name, "memcpy") == 0) { + uint32_t impl_address = x86_emulator.context_get&>("external_api_impl")["memcpy"]; + x86_emulator.mem_write(address, &impl_address, sizeof(impl_address)); + } else { + uint32_t stub_address = external_api_stub_area_base + (address - iat_base) / sizeof(IMAGE_THUNK_DATA); + x86_emulator.mem_write(address, &stub_address, sizeof(stub_address)); + } + } else { + x86_emulator.emu_stop(); + } + }, + iat_base, + iat_base + iat_size - 1 + ); + } + + // allocate and setup external api stub area + { + auto external_api_stub_area_base = x86_emulator.context_get("external_api_stub_area_base"); + auto external_api_stub_area_size = x86_emulator.context_get("external_api_stub_area_size"); + + x86_emulator.mem_map(external_api_stub_area_base, external_api_stub_area_size, UC_PROT_READ | UC_PROT_EXEC); + x86_emulator.mem_write(external_api_stub_area_base, std::vector(external_api_stub_area_size, 0xc3)); // c3 -> ret + + x86_emulator.hook_add( + [this, &x86_emulator, external_api_stub_area_base](uint32_t address, size_t size) { + auto iat_base = x86_emulator.context_get("iat_base"); + auto from_va = iat_base + (address - external_api_stub_area_base) * sizeof(IMAGE_THUNK_DATA); + auto from_rva = m_libcc_interpreter.convert_va_to_rva(from_va); + + auto import_lookup_entry = m_libcc_interpreter.import_lookup_entry_from_rva(from_rva); + if (import_lookup_entry && !IMAGE_SNAP_BY_ORDINAL(import_lookup_entry->u1.Ordinal)) { + auto import_by_name_entry = m_libcc_interpreter.convert_rva_to_ptr(import_lookup_entry->u1.AddressOfData); + if (strcmp(import_by_name_entry->Name, "malloc") == 0) { + m_va_iat_entry_malloc = from_va; + + uint32_t esp; + x86_emulator.reg_read(UC_X86_REG_ESP, &esp); + + uint32_t alloc_size; + x86_emulator.mem_read(esp + 4, &alloc_size, sizeof(alloc_size)); + + auto& heap_records = x86_emulator.context_get&>("heap_records"); + + auto predecessor_chunk = + std::adjacent_find( + heap_records.begin(), + heap_records.end(), + [alloc_size](const auto& chunk0, const auto& chunk1) { return chunk1.first - (chunk0.first + chunk0.second) >= alloc_size; } + ); + + uint32_t alloc_p; + if (predecessor_chunk != heap_records.end()) { + alloc_p = predecessor_chunk->first + predecessor_chunk->second; + } else { + auto heap_base = x86_emulator.context_get("heap_base"); + auto heap_size = x86_emulator.context_get("heap_size"); + + auto free_space_base = heap_records.size() > 0 ? heap_records.rbegin()->first + heap_records.rbegin()->second : heap_base; + auto free_space_size = heap_base + heap_size - free_space_base; + + if (free_space_size < alloc_size) { + auto heap_expand_base = heap_base + heap_size; + auto heap_expand_size = (alloc_size - free_space_size + 0xfff) / 0x1000 * 0x1000; + x86_emulator.mem_map(heap_expand_base, heap_expand_size, UC_PROT_READ | UC_PROT_WRITE); + } + + alloc_p = free_space_base; + } + + heap_records[alloc_p] = alloc_size; + + x86_emulator.reg_write(UC_X86_REG_EAX, &alloc_p); + } else if (strcmp(import_by_name_entry->Name, "free") == 0) { + uint32_t esp; + x86_emulator.reg_read(UC_X86_REG_ESP, &esp); + + uint32_t alloc_p; + x86_emulator.mem_read(esp + 4, &alloc_p, sizeof(alloc_p)); + + auto& heap_records = x86_emulator.context_get&>("heap_records"); + + auto chunk = heap_records.find(alloc_p); + if (chunk != heap_records.end()) { + heap_records.erase(chunk); + } else { + x86_emulator.emu_stop(); + } + } else { + x86_emulator.emu_stop(); + } + } else { + x86_emulator.emu_stop(); + } + }, + external_api_stub_area_base, + external_api_stub_area_base + external_api_stub_area_size - 1 + ); + } + + // allocate and setup external api impl area + { + keystone_assembler x86_assembler{ KS_ARCH_X86, KS_MODE_32 }; + + std::map> machine_code_list = + { + std::make_pair( + "memcpy", + x86_assembler.assemble( + "push edi;" + "push esi;" + "mov eax, dword ptr [esp + 0x8 + 0x4];" + "mov edi, eax;" + "mov esi, dword ptr [esp + 0x8 + 0x8];" + "mov ecx, dword ptr [esp + 0x8 + 0xc];" + "rep movs byte ptr [edi], byte ptr [esi];" + "pop esi;" + "pop edi;" + "ret;" + ) + ) + }; + + auto& external_api_impl = x86_emulator.context_get&>("external_api_impl"); + auto& external_api_impl_area_base = x86_emulator.context_get("external_api_impl_area_base"); + auto& external_api_impl_area_size = x86_emulator.context_get("external_api_impl_area_size"); + + auto p = external_api_impl_area_base; + for (const auto& name_code_pair : machine_code_list) { + external_api_impl[name_code_pair.first] = p; + p = (p + name_code_pair.second.size() + 0xf) / 0x10 * 0x10; + } + + external_api_impl_area_size = (p + 0xfff) / 0x1000 * 0x1000 - external_api_impl_area_base; + + x86_emulator.mem_map(external_api_impl_area_base, external_api_impl_area_size, UC_PROT_READ | UC_PROT_EXEC); + for (const auto& name_code_pair : machine_code_list) { + x86_emulator.mem_write(external_api_impl[name_code_pair.first], name_code_pair.second); + } + } + + // allocate and setup GDT, segment registers + { + auto gdt_base = x86_emulator.context_get("gdt_base"); + auto gdt_size = x86_emulator.context_get("gdt_size"); + x86_emulator.mem_map(gdt_base, gdt_size, UC_PROT_READ | UC_PROT_WRITE); + + x86_emulator.create_gdt_entry(gdt_base, 0, 0, 0, 0); // null segment descriptor + // -------------------------------------------------------- access_byte + // 0x80 -> present bit + // (0 << 5) -> DPL is set to 0 + // 0x10 -> code/data segment + // 0x08 -> executable segment + // !(0x4) -> not conforming code segment + // 0x02 -> code segment is readable + // !(0x01) -> accessed bit, this bit is managed by CPU + // -------------------------------------------------------- flags + // 0x08 -> 4k granularity + // 0x04 -> 32-bit protected mode segment + // !(0x01) -> AVL bit is not used + x86_emulator.create_gdt_entry(gdt_base + 1 * 0x8, 0x00000000, 0xfffff, 0x80 | (0 << 5) | 0x10 | 0x08 | !(0x04) | 0x02 | !(0x01), 0x08 | 0x04 | !(0x01)); // kernel code segment + // -------------------------------------------------------- access_byte + // 0x80 -> present bit + // (0 << 5) -> DPL is set to 0 + // 0x10 -> code/data segment + // !(0x08) -> data segment + // !(0x4) -> segment grows up + // 0x02 -> data segment is writable + // !(0x01) -> accessed bit, this bit is managed by CPU + // -------------------------------------------------------- flags + // 0x08 -> 4k granularity + // 0x04 -> 32-bit protected mode segment + // !(0x01) -> AVL bit is not used + x86_emulator.create_gdt_entry(gdt_base + 2 * 0x8, 0x00000000, 0xfffff, 0x80 | (0 << 5) | 0x10 | !(0x08) | !(0x04) | 0x02 | !(0x01), 0x08 | 0x04 | !(0x01)); // kernel data segment + // -------------------------------------------------------- access_byte + // 0x80 -> present bit + // (3 << 5) -> DPL is set to 3 + // 0x10 -> code/data segment + // 0x08 -> executable segment + // !(0x4) -> not conforming code segment + // 0x02 -> code segment is readable + // !(0x01) -> accessed bit, this bit is managed by CPU + // -------------------------------------------------------- flags + // 0x08 -> 4k granularity + // 0x04 -> 32-bit protected mode segment + // !(0x01) -> AVL bit is not used + x86_emulator.create_gdt_entry(gdt_base + 3 * 0x8, 0x00000000, 0xfffff, 0x80 | (3 << 5) | 0x10 | 0x08 | !(0x04) | 0x02 | !(0x01), 0x08 | 0x04 | !(0x01)); // user code segment + // -------------------------------------------------------- access_byte + // 0x80 -> present bit + // (3 << 5) -> DPL is set to 3 + // 0x10 -> code/data segment + // !(0x08) -> data segment + // !(0x4) -> segment grows up + // 0x02 -> data segment is writable + // !(0x01) -> accessed bit, this bit is managed by CPU + // -------------------------------------------------------- flags + // 0x08 -> 4k granularity + // 0x04 -> 32-bit protected mode segment + // !(0x01) -> AVL bit is not used + x86_emulator.create_gdt_entry(gdt_base + 4 * 0x8, 0x00000000, 0xfffff, 0x80 | (3 << 5) | 0x10 | !(0x08) | !(0x04) | 0x02 | !(0x01), 0x08 | 0x04 | !(0x01)); // user data segment + // -------------------------------------------------------- access_byte + // 0x80 -> present bit + // (3 << 5) -> DPL is set to 3 + // 0x10 -> code/data segment + // !(0x08) -> data segment + // !(0x4) -> segment grows up + // 0x02 -> data segment is writable + // !(0x01) -> accessed bit, this bit is managed by CPU + // -------------------------------------------------------- flags + // !(0x08) -> 1-byte granularity + // 0x04 -> 32-bit protected mode segment + // !(0x01) -> AVL bit is not used + auto fs_base = x86_emulator.context_get("fs_base"); + auto fs_size = x86_emulator.context_get("fs_size"); + x86_emulator.create_gdt_entry(gdt_base + 7 * 0x8, fs_base, fs_size - 1, 0x80 | (3 << 5) | 0x10 | !(0x08) | !(0x04) | 0x02 | !(0x01), !(0x08) | 0x04 | !(0x01)); // user fs segment + + uc_x86_mmr gdtr = {}; + gdtr.base = gdt_base; + gdtr.limit = gdt_base + gdt_size - 1; + x86_emulator.reg_write(UC_X86_REG_GDTR, &gdtr); + + uint16_t cs, ds, es, fs, gs, ss; + cs = (1 << 3) | (0 << 2) | (0); // use kernel code segmet + ss = (2 << 3) | (0 << 2) | (0); // use kernel data segmet + ds = es = (4 << 3) | (0 << 2) | (3); // use user data segment + fs = (7 << 3) | (0 << 2) | (3); // use user fs segment + gs = 0; // not used + + uint32_t eflags; + x86_emulator.reg_read(UC_X86_REG_EFLAGS, &eflags); + x86_emulator.reg_write(UC_X86_REG_CS, &cs); + x86_emulator.reg_write(UC_X86_REG_SS, &ss); + x86_emulator.reg_write(UC_X86_REG_DS, &ds); + x86_emulator.reg_write(UC_X86_REG_ES, &es); + x86_emulator.reg_write(UC_X86_REG_FS, &fs); + x86_emulator.reg_write(UC_X86_REG_GS, &gs); + + } + + // allocate and hook access to fs area + { + auto fs_base = x86_emulator.context_get("fs_base"); + auto fs_size = x86_emulator.context_get("fs_size"); + x86_emulator.mem_map(fs_base, fs_size, UC_PROT_READ | UC_PROT_WRITE); + + x86_emulator.hook_add( + [this, &x86_emulator, fs_base](uc_mem_type access, uint32_t address, size_t size, int64_t value) { + switch (address - fs_base) { + case 0: + if (size == 4) { + // Current Structured Exception Handling (SEH) frame, leave it NULL + } else { + x86_emulator.emu_stop(); + } + break; + default: + x86_emulator.emu_stop(); + break; + } + }, + fs_base, + fs_base + fs_size - 1 + ); + } + + // x86_emulator.hook_add([](uint32_t address, uint32_t size) { wprintf_s(L"code_trace, address = 0x%08x\n", address); }); + + x86_emulator.hook_add( + [this, &x86_emulator](uc_mem_type access, uint32_t address, size_t size, int64_t value) -> bool { + try { + auto fault_section = m_libcc_interpreter.image_section_header_from_va(address); + + auto page_base = address / 0x1000 * 0x1000; + auto page_size = 0x1000; + uint32_t page_perms = UC_PROT_NONE; + + if (fault_section->Characteristics & IMAGE_SCN_MEM_READ) { + page_perms |= UC_PROT_READ; + } + if (fault_section->Characteristics & IMAGE_SCN_MEM_WRITE) { + page_perms |= UC_PROT_WRITE; + } + if (fault_section->Characteristics & IMAGE_SCN_MEM_EXECUTE) { + page_perms |= UC_PROT_EXEC; + } + + x86_emulator.mem_map(page_base, page_size, page_perms); + x86_emulator.mem_write(page_base, m_libcc_interpreter.convert_va_to_ptr(page_base), page_size); + + return true; + } catch (::nkg::exception&) { + return false; + } + } + ); + + // set ebp, esp + uint32_t init_ebp = x86_emulator.context_get("stack_base") - x86_emulator.context_get("stack_size") / 4; + uint32_t init_esp = x86_emulator.context_get("stack_base") - x86_emulator.context_get("stack_size") / 2; + + x86_emulator.reg_write(UC_X86_REG_EBP, &init_ebp); + x86_emulator.reg_write(UC_X86_REG_ESP, &init_esp); + + // setup iretd context + uint32_t ring3_eip = x86_emulator.context_get("start_address"); + uint32_t ring3_cs = (3 << 3) | (0 << 2) | (3); // use user code segment + uint32_t ring3_eflags; x86_emulator.reg_read(UC_X86_REG_EFLAGS, &ring3_eflags); + uint32_t ring3_esp = init_esp + 5 * 4; + uint32_t ring3_ss = (4 << 3) | (0 << 2) | (3); // use user data segment + x86_emulator.mem_write(init_esp, &ring3_eip, sizeof(ring3_eip)); + x86_emulator.mem_write(init_esp + 0x4, &ring3_cs, sizeof(ring3_cs)); + x86_emulator.mem_write(init_esp + 0x8, &ring3_eflags, sizeof(ring3_eflags)); + x86_emulator.mem_write(init_esp + 0xc, &ring3_esp, sizeof(ring3_esp)); + x86_emulator.mem_write(init_esp + 0x10, &ring3_ss, sizeof(ring3_ss)); + + // set ring3 retaddr + uint32_t ring3_retaddr = x86_emulator.context_get("dead_address"); + x86_emulator.mem_write(ring3_esp, &ring3_retaddr, sizeof(ring3_retaddr)); + + // set argument registers + uint32_t init_ecx = 0; // `this` pointer of CSRegistrationInfoFetcher_WIN, but we don't need it for now. + uint32_t retval_addr = ring3_esp + 0x40; // a pointer to stack memory which stores return value + x86_emulator.reg_write(UC_X86_REG_ECX, &init_ecx); + x86_emulator.mem_write(ring3_esp + 4, &retval_addr, sizeof(retval_addr)); // write to dword ptr [ring3_esp + 4] + + // + // start emulate + // + try { + x86_emulator.emu_start(x86_emulator.context_get("r0_to_r3_stub_area_base"), x86_emulator.context_get("dead_address")); + } catch (nkg::exception&) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Code emulation failed.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + wprintf_s(L"[*] patch_solution_since<16, 0, 7, 0>: m_va_iat_entry_malloc = 0x%08x\n", m_va_iat_entry_malloc); + + // + // get result + // + // on I386 platform, `std::string` has follow memory layout: + // ------------------------------ + // | offset | size | + // ------------------------------ + // | +0 | 0x10 | `char[16]: a small string buffer` OR `char*: a large string buffer pointer` + // ------------------------------ + // | +0x10 | 0x4 | size_t: string length + // ------------------------------ + // | +0x14 | 0x4 | size_t: capacity + // ------------------------------ + // + uint32_t encoded_key_length; + x86_emulator.mem_read(retval_addr + 0x10, &encoded_key_length, sizeof(encoded_key_length)); + if (encoded_key_length != official_encoded_key.length()) { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Unexpected encoded key length(%u).\n", encoded_key_length); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + + uint32_t encoded_key_ptr; + x86_emulator.mem_read(retval_addr, &encoded_key_ptr, sizeof(encoded_key_ptr)); + + auto encoded_key = x86_emulator.mem_read(encoded_key_ptr, encoded_key_length); + if (memcmp(encoded_key.data(), official_encoded_key.data(), encoded_key.size()) == 0) { + wprintf_s(L"[+] patch_solution_since<16, 0, 7, 0>: Official encoded key is found.\n"); + return true; + } else { + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: Official encoded key is not found.\n"); + wprintf_s(L"[-] patch_solution_since<16, 0, 7, 0>: This patch solution will be suppressed.\n"); + return false; + } + } + + bool patch_solution_since<16, 0, 7, 0>::check_rsa_privkey(const rsa_cipher& cipher) { + return true; // no requirements + } + + void patch_solution_since<16, 0, 7, 0>::make_patch(const rsa_cipher& cipher) { + auto encoded_key = _build_encoded_key(cipher); + + auto CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey = + m_libcc_interpreter.convert_va_to_ptr(m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey); + + std::vector patch_code_chunks; + patch_code_chunks.emplace_back("push edi;"); + patch_code_chunks.emplace_back("push esi;"); + patch_code_chunks.emplace_back("push ebx;"); + patch_code_chunks.emplace_back("push ebp;"); + patch_code_chunks.emplace_back("mov ebp, esp;"); + patch_code_chunks.emplace_back("call label; label: pop ebx; sub ebx, label;"); // ebx <- relocation shift value + patch_code_chunks.emplace_back(fmt::format("mov eax, {:#08x};", m_va_iat_entry_malloc)); + patch_code_chunks.emplace_back("add eax, ebx;"); + patch_code_chunks.emplace_back("mov eax, dword ptr [eax];"); // eax <- address of `malloc` + patch_code_chunks.emplace_back(fmt::format("push {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back("call eax;"); + patch_code_chunks.emplace_back("add esp, 0x4;"); + { + std::vector push_values((encoded_key.length() + 1 + 3) / 4, 0); + memcpy(push_values.data(), encoded_key.data(), encoded_key.length()); + std::for_each(push_values.crbegin(), push_values.crend(), [&patch_code_chunks](uint32_t x) { patch_code_chunks.emplace_back(fmt::format("push {:#08x};", x)); }); + } + patch_code_chunks.emplace_back("mov edi, eax;"); + patch_code_chunks.emplace_back("mov esi, esp;"); + patch_code_chunks.emplace_back(fmt::format("mov ecx, {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back("rep movs byte ptr [edi], byte ptr [esi];"); + patch_code_chunks.emplace_back("mov edx, dword ptr [ebp + 0x14];"); + patch_code_chunks.emplace_back("mov dword ptr [edx], eax;"); + patch_code_chunks.emplace_back(fmt::format("mov dword ptr [edx + 0x10], {:#x};", encoded_key.length())); + patch_code_chunks.emplace_back(fmt::format("mov dword ptr [edx + 0x14], {:#x};", encoded_key.length() + 1)); + patch_code_chunks.emplace_back("mov eax, edx;"); + patch_code_chunks.emplace_back("leave;"); + patch_code_chunks.emplace_back("pop ebx;"); + patch_code_chunks.emplace_back("pop esi;"); + patch_code_chunks.emplace_back("pop edi;"); + patch_code_chunks.emplace_back("ret 4;"); + + std::vector assembled_patch_code; + { + keystone_assembler x86_assembler{ KS_ARCH_X86, KS_MODE_32 }; + + auto current_va = m_va_CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey; + auto next_reloc = m_libcc_interpreter.relocation_distribute().lower_bound(m_libcc_interpreter.convert_va_to_rva(current_va)); + for (const auto& patch_code_chunk : patch_code_chunks) { + auto assembled_patch_code_chunk = x86_assembler.assemble(patch_code_chunk, current_va); + + while (true) { + auto next_reloc_va = m_libcc_interpreter.convert_rva_to_va(next_reloc->first); + auto next_reloc_size = next_reloc->second; + + if (current_va + assembled_patch_code_chunk.size() + 2 <= next_reloc_va) { // 2 -> size of machine code "jmp rel8" + assembled_patch_code.insert(assembled_patch_code.end(), assembled_patch_code_chunk.begin(), assembled_patch_code_chunk.end()); + current_va += assembled_patch_code_chunk.size(); + break; + } else if (current_va + 2 <= next_reloc_va) { + auto next_va = next_reloc_va + next_reloc_size; + auto assembled_jmp = x86_assembler.assemble(fmt::format("jmp {:#08x};", next_va), current_va); + auto assembled_padding = std::vector(next_va - (current_va + assembled_jmp.size()), 0xcc); // 0xcc -> int3 + assembled_patch_code.insert(assembled_patch_code.end(), assembled_jmp.begin(), assembled_jmp.end()); + assembled_patch_code.insert(assembled_patch_code.end(), assembled_padding.begin(), assembled_padding.end()); + current_va = next_va; + ++next_reloc; + } else { + __assume(false); // impossible to reach here + } + } + } + } + + memcpy(CSRegistrationInfoFetcher_WIN_GenerateRegistrationKey, assembled_patch_code.data(), assembled_patch_code.size()); + wprintf_s(L"[*] patch_solution_since<16, 0, 7, 0>: Patch has been done.\n"); + } + +} diff --git a/navicat-patcher/wmain.cpp b/navicat-patcher/wmain.cpp new file mode 100644 index 0000000..345460a --- /dev/null +++ b/navicat-patcher/wmain.cpp @@ -0,0 +1,305 @@ +#include +#include +#include +#include +#include + +#include "cp_converter.hpp" + +#include "resource_wrapper.hpp" +#include "resource_traits/cxx_object_traits.hpp" +#include "resource_traits/win32/file_handle.hpp" +#include "resource_traits/win32/generic_handle.hpp" +#include "resource_traits/win32/map_view_ptr.hpp" + +#include "rsa_cipher.hpp" +#include "image_interpreter.hpp" +#include "patch_solution.hpp" +#include "patch_solution_since_16.0.7.0.hpp" + +#include "exception.hpp" +#include "exceptions/operation_canceled_exception.hpp" +#include "exceptions/win32_exception.hpp" + +#define NKG_CURRENT_SOURCE_FILE() u8".\\navicat-patcher\\wmain.cpp" +#define NKG_CURRENT_SOURCE_LINE() __LINE__ + +void welcome() { + _putws(L"***************************************************"); + _putws(L"* navicat-patcher by @DoubleLabyrinth *"); + _putws(L"* version: 16.0.7.0 *"); + _putws(L"***************************************************"); + _putws(L""); +} + + +void help() { + _putws(L"usage:"); + _putws(L" navicat-patcher.exe [-dry-run] [RSA-2048 PEM File Path]"); + _putws(L""); + _putws(L" [-dry-run] Run patcher without applying any patches."); + _putws(L" This parameter is optional."); + _putws(L""); + _putws(L" The folder path where Navicat is installed."); + _putws(L" This parameter must be specified."); + _putws(L""); + _putws(L" [RSA-2048 PEM File Path] The path to an RSA-2048 private key file."); + _putws(L" This parameter is optional."); + _putws(L" If not specified, an RSA-2048 private key file"); + _putws(L" named \"RegPrivateKey.pem\" will be generated."); + _putws(L""); + _putws(L"example:"); + _putws(L" navicat-patcher.exe \"C:\\Program Files\\PremiumSoft\\Navicat Premium 12\""); + _putws(L""); +} + +bool parse_cmdline(int argc, wchar_t* argv[], bool& dry_run, std::filesystem::path& navicat_install_path, std::filesystem::path& rsa_privkey_filepath) { + if (argc == 2) { + dry_run = false; + navicat_install_path = argv[1]; + rsa_privkey_filepath.clear(); + return true; + } else if (argc == 3) { + if (_wcsicmp(argv[1], L"-dry-run") == 0) { + dry_run = true; + navicat_install_path = argv[2]; + rsa_privkey_filepath.clear(); + return true; + } else { + dry_run = false; + navicat_install_path = argv[1]; + rsa_privkey_filepath = argv[2]; + return true; + } + } else if (argc == 4) { + if (_wcsicmp(argv[1], L"-dry-run") == 0) { + dry_run = true; + navicat_install_path = argv[2]; + rsa_privkey_filepath = argv[3]; + return true; + } else { + return false; + } + } else { + return false; + } +} + +void select_patch_solutions + (nkg::resource_wrapper>& solution0) +{ + return; +} + +void load_rsa_privkey(nkg::rsa_cipher& cipher, std::filesystem::path& rsa_privkey_filepath, nkg::patch_solution* solution0) { + if (!rsa_privkey_filepath.empty()) { + wprintf_s(L"[*] Import RSA-2048 private key from\n"); + wprintf_s(L" %s\n", rsa_privkey_filepath.native().c_str()); + + cipher.import_private_key_file(rsa_privkey_filepath); + + if (solution0 && !solution0->check_rsa_privkey(cipher)) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"The RSA private key you provide cannot be used."); + } + } else { + wprintf_s(L"[*] Generating new RSA private key, it may take a long time...\n"); + + do { + cipher.generate_key(2048); + } while (solution0 && !solution0->check_rsa_privkey(cipher)); // re-generate RSA key if one of `check_rsa_privkey` returns false + } + + wprintf_s(L"[*] Your RSA private key:\n%s", nkg::cp_converter::convert(cipher.export_private_key_string()).c_str()); +} + +void detect_backup(const std::filesystem::path& file_path) { + std::filesystem::path backup_path = file_path.native() + L".bak"; + if (std::filesystem::is_regular_file(backup_path)) { + while (true) { + wprintf_s(L"[*] Previous backup %s is detected. Delete? (y/n)", backup_path.native().c_str()); + + auto select = getwchar(); + while (select != L'\n' && getwchar() != L'\n') {} + + if (select == L'Y' || select == L'y') { + std::filesystem::remove(backup_path); + break; + } else if (select == TEXT('N') || select == TEXT('n')) { + throw nkg::exceptions::operation_canceled_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Backup file still exists. Patch abort!"); + } else { + continue; + } + } + } +} + +void make_backup(const std::filesystem::path& file_path) { + std::filesystem::path backup_path = file_path.native() + L".bak"; + if (std::filesystem::exists(backup_path)) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Previous backup is detected.") + .push_hint(fmt::format(u8"Please delete {} and try again.", nkg::cp_converter<-1, CP_UTF8>::convert(backup_path.native()))); + } else { + std::filesystem::copy_file(file_path, backup_path); + } +} + +int wmain(int argc, wchar_t* argv[]) { + welcome(); + + bool dry_run = false; + std::filesystem::path navicat_install_path; + std::filesystem::path rsa_privkey_filepath; + + if (parse_cmdline(argc, argv, dry_run, navicat_install_path, rsa_privkey_filepath)) { + try { + if (!std::filesystem::is_directory(navicat_install_path)) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"Navicat install path doesn't point to a directory.") + .push_hint(u8"Are you sure the path you specified is correct?") + .push_hint(fmt::format(u8"The path you specified: {}", nkg::cp_converter<-1, CP_UTF8>::convert(navicat_install_path.native()))); + } + + if (!rsa_privkey_filepath.empty() && !std::filesystem::is_regular_file(rsa_privkey_filepath)) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"RSA key file path doesn't point to a file.") + .push_hint(u8"Are you sure the path you specified is correct?") + .push_hint(fmt::format(u8"The path you specified: {}", nkg::cp_converter<-1, CP_UTF8>::convert(rsa_privkey_filepath.native()))); + } + + nkg::rsa_cipher cipher; + + std::filesystem::path libcc_filepath = navicat_install_path / "libcc.dll"; + nkg::resource_wrapper libcc_handle{ nkg::resource_traits::win32::file_handle{} }; + nkg::resource_wrapper libcc_map_handle{ nkg::resource_traits::win32::generic_handle{} }; + nkg::resource_wrapper libcc_map_view{ nkg::resource_traits::win32::map_view_ptr{} }; + std::optional libcc_interpreter; + + nkg::resource_wrapper solution0{ nkg::resource_traits::cxx_object_traits{} }; + + // + // Open libcc.dll + // + libcc_handle.set(CreateFileW(libcc_filepath.native().c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL)); + if (libcc_handle.is_valid()) { + wprintf_s(L"[+] Try to open libcc.dll ... OK!\n"); + } else { + if (GetLastError() == ERROR_FILE_NOT_FOUND) { + wprintf_s(L"[-] Try to open libcc.dll ... NOT FOUND!\n"); + } else { + throw nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"Failed to open libcc.dll"); + } + } + + if (libcc_handle.is_valid()) { + libcc_map_handle.set(CreateFileMapping(libcc_handle.get(), NULL, PAGE_READWRITE, 0, 0, NULL)); + if (!libcc_map_handle.is_valid()) { + throw nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"CreateFileMapping failed."); + } + + libcc_map_view.set(MapViewOfFile(libcc_map_handle.get(), FILE_MAP_ALL_ACCESS, 0, 0, 0)); + if (!libcc_map_view.is_valid()) { + throw nkg::exceptions::win32_exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), GetLastError(), u8"MapViewOfFile failed."); + } + + libcc_interpreter = nkg::image_interpreter::parse(libcc_map_view.get(), true); + + solution0.set(new nkg::patch_solution_since<16, 0, 7, 0>(libcc_interpreter.value())); + } + + _putws(L""); + + // + // find patch + // + if (!solution0->find_patch()) { + solution0.release(); + } + + _putws(L""); + + // + // decide which solutions will be applied + // + select_patch_solutions(solution0); + + if (!solution0.is_valid()) { + throw nkg::exception(NKG_CURRENT_SOURCE_FILE(), NKG_CURRENT_SOURCE_LINE(), u8"No patch solution is ready. Patch abort!") + .push_hint(u8"Are you sure your navicat has not been patched/modified before?"); + } + + // + // load key + // + load_rsa_privkey(cipher, rsa_privkey_filepath, solution0.get()); + + _putws(L""); + + if (dry_run) { + _putws(L"*******************************************************"); + _putws(L"* DRY-RUN MODE ENABLE! *"); + _putws(L"* NO PATCH WILL BE APPLIED! *"); + _putws(L"*******************************************************"); + } else { + // + // save private key if not given + // + if (rsa_privkey_filepath.empty()) { + cipher.export_private_key_file(u8"RegPrivateKey.pem"); + } + + // + // detecting backups + // + if (solution0.is_valid()) { + detect_backup(libcc_filepath); + } + + // + // make backup + // + if (solution0.is_valid()) { + make_backup(libcc_filepath); + } + + // + // make patch + // no way to go back from here :-) + // + if (solution0.is_valid()) { + solution0->make_patch(cipher); + } + + if (rsa_privkey_filepath.empty()) { + wprintf_s(L"[*] New RSA-2048 private key has been saved to\n"); + wprintf_s(L" %s\n", (std::filesystem::current_path() / L"RegPrivateKey.pem").c_str()); + wprintf_s(L"\n"); + } + + _putws(L""); + + _putws(L"*******************************************************"); + _putws(L"* PATCH HAS BEEN DONE SUCCESSFULLY! *"); + _putws(L"* HAVE FUN AND ENJOY~ *"); + _putws(L"*******************************************************"); + } + + return 0; + } catch (nkg::exception& e) { + wprintf_s(L"[-] %s:%d ->\n", nkg::cp_converter::convert(e.source_file()).c_str(), e.source_line()); + wprintf_s(L" %s\n", nkg::cp_converter::convert(e.custom_message()).c_str()); + if (e.error_code_exists()) { + wprintf_s(L" %s (0x%zx)\n", nkg::cp_converter::convert(e.error_string()).c_str(), e.error_code()); + } + + for (auto& hint : e.hints()) { + wprintf_s(L" HINT: %s\n", nkg::cp_converter::convert(hint).c_str()); + } + + return -1; + } + } else { + help(); + return -1; + } +} + +#undef NKG_CURRENT_SOURCE_LINE +#undef NKG_CURRENT_SOURCE_FILE