/* Copyright <2018-2024> Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ #include "utils/native_file.hpp" #include "types/repertory.hpp" #include "utils/string_utils.hpp" #include "utils/unix/unix_utils.hpp" #include "utils/utils.hpp" namespace repertory { auto native_file::get_handle() -> native_handle { return handle_; } native_file::~native_file() { if (auto_close) { close(); } } auto native_file::clone(const native_file_ptr &nf) -> native_file_ptr { std::string source_path; #ifdef _WIN32 source_path.resize(MAX_PATH + 1); ::GetFinalPathNameByHandleA(nf->get_handle(), &source_path[0u], MAX_PATH + 1, FILE_NAME_NORMALIZED | VOLUME_NAME_DOS); #else source_path.resize(PATH_MAX + 1); #ifdef __APPLE__ fcntl(nf->get_handle(), F_GETPATH, &source_path[0u]); #else readlink(("/proc/self/fd/" + std::to_string(nf->get_handle())).c_str(), &source_path[0u], source_path.size()); #endif #endif source_path = source_path.c_str(); native_file_ptr clone; auto res = native_file::open(source_path, clone); if (res != api_error::success) { throw std::runtime_error("unable to open file|sp|" + source_path + "|err|" + api_error_to_string(res)); } return clone; } auto native_file::create_or_open(const std::string &source_path, [[maybe_unused]] bool should_chmod, native_file_ptr &nf) -> api_error { #ifdef _WIN32 auto handle = ::CreateFileA(source_path.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, nullptr, OPEN_ALWAYS, FILE_FLAG_RANDOM_ACCESS, nullptr); #else auto handle = should_chmod ? ::open(source_path.c_str(), O_CREAT | O_RDWR | O_CLOEXEC, 0600u) : ::open(source_path.c_str(), O_RDWR | O_CLOEXEC); if (should_chmod) { chmod(source_path.c_str(), 0600u); } #endif nf = native_file::attach(handle); return ((handle == REPERTORY_INVALID_HANDLE) ? api_error::os_error : api_error::success); } auto native_file::create_or_open(const std::string &source_path, native_file_ptr &nf) -> api_error { return create_or_open(source_path, true, nf); } auto native_file::open(const std::string &source_path, native_file_ptr &nf) -> api_error { return open(source_path, true, nf); } auto native_file::open(const std::string &source_path, [[maybe_unused]] bool should_chmod, native_file_ptr &nf) -> api_error { #ifdef _WIN32 auto handle = ::CreateFileA(source_path.c_str(), GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE, nullptr, OPEN_EXISTING, FILE_FLAG_RANDOM_ACCESS, nullptr); #else auto handle = should_chmod ? ::open(source_path.c_str(), O_RDWR | O_CLOEXEC, 0600u) : ::open(source_path.c_str(), O_RDONLY | O_CLOEXEC); if (should_chmod) { chmod(source_path.c_str(), 0600u); } #endif nf = native_file::attach(handle); return ((handle == REPERTORY_INVALID_HANDLE) ? api_error::os_error : api_error::success); } auto native_file::allocate(std::uint64_t file_size) -> bool { #ifdef _WIN32 LARGE_INTEGER li{}; li.QuadPart = file_size; return (::SetFilePointerEx(handle_, li, nullptr, FILE_BEGIN) && ::SetEndOfFile(handle_)); #endif #ifdef __linux__ return (fallocate(handle_, 0, 0, static_cast(file_size)) >= 0); #endif #ifdef __APPLE__ return (ftruncate(handle_, file_size) >= 0); #endif } void native_file::close() { if (handle_ != REPERTORY_INVALID_HANDLE) { #ifdef WIN32 ::CloseHandle(handle_); #else ::close(handle_); #endif handle_ = REPERTORY_INVALID_HANDLE; } } auto native_file::copy_from(const native_file_ptr &nf) -> bool { auto ret = false; std::uint64_t file_size = 0u; if ((ret = nf->get_file_size(file_size))) { data_buffer buffer; buffer.resize(65536u * 2u); std::uint64_t offset = 0u; while (ret && (file_size > 0u)) { std::size_t bytes_read{}; if ((ret = nf->read_bytes(&buffer[0u], buffer.size(), offset, bytes_read))) { std::size_t bytes_written = 0u; ret = write_bytes(&buffer[0u], bytes_read, offset, bytes_written); file_size -= bytes_read; offset += bytes_read; } } flush(); } return ret; } auto native_file::copy_from(const std::string &path) -> bool { auto ret = false; native_file_ptr nf; if (native_file::create_or_open(path, nf) == api_error ::success) { ret = copy_from(nf); nf->close(); } return ret; } void native_file::flush() { #ifdef _WIN32 recur_mutex_lock l(read_write_mutex_); ::FlushFileBuffers(handle_); #else fsync(handle_); #endif } auto native_file::get_file_size(std::uint64_t &file_size) -> bool { auto ret = false; #ifdef _WIN32 LARGE_INTEGER li{}; if ((ret = ::GetFileSizeEx(handle_, &li) && (li.QuadPart >= 0))) { file_size = static_cast(li.QuadPart); } #else #if __APPLE__ struct stat st {}; if (fstat(handle_, &st) >= 0) { #else struct stat64 st {}; if (fstat64(handle_, &st) >= 0) { #endif if ((ret = (st.st_size >= 0))) { file_size = static_cast(st.st_size); } } #endif return ret; } #ifdef _WIN32 auto native_file::read_bytes(char *buffer, std::size_t read_size, std::uint64_t read_offset, std::size_t &bytes_read) -> bool { recur_mutex_lock l(read_write_mutex_); auto ret = false; bytes_read = 0u; LARGE_INTEGER li{}; li.QuadPart = read_offset; if ((ret = !!::SetFilePointerEx(handle_, li, nullptr, FILE_BEGIN))) { DWORD current_read = 0u; do { current_read = 0u; ret = !!::ReadFile(handle_, &buffer[bytes_read], static_cast(read_size - bytes_read), ¤t_read, nullptr); bytes_read += current_read; } while (ret && (bytes_read < read_size) && (current_read != 0)); } if (ret && (read_size != bytes_read)) { ::SetLastError(ERROR_HANDLE_EOF); } return ret; } #else auto native_file::read_bytes(char *buffer, std::size_t read_size, std::uint64_t read_offset, std::size_t &bytes_read) -> bool { bytes_read = 0U; ssize_t result = 0; do { result = pread64(handle_, &buffer[bytes_read], read_size - bytes_read, static_cast(read_offset + bytes_read)); if (result > 0) { bytes_read += static_cast(result); } } while ((result > 0) && (bytes_read < read_size)); return (result >= 0); } #endif auto native_file::truncate(std::uint64_t file_size) -> bool { #ifdef _WIN32 recur_mutex_lock l(read_write_mutex_); LARGE_INTEGER li{}; li.QuadPart = file_size; return (::SetFilePointerEx(handle_, li, nullptr, FILE_BEGIN) && ::SetEndOfFile(handle_)); #else return (ftruncate(handle_, static_cast(file_size)) >= 0); #endif } #ifdef _WIN32 auto native_file::write_bytes(const char *buffer, std::size_t write_size, std::uint64_t write_offset, std::size_t &bytes_written) -> bool { recur_mutex_lock l(read_write_mutex_); bytes_written = 0u; auto ret = true; LARGE_INTEGER li{}; li.QuadPart = write_offset; if ((ret = !!::SetFilePointerEx(handle_, li, nullptr, FILE_BEGIN))) { do { DWORD current_write = 0u; ret = !!::WriteFile(handle_, &buffer[bytes_written], static_cast(write_size - bytes_written), ¤t_write, nullptr); bytes_written += current_write; } while (ret && (bytes_written < write_size)); } return ret; } #else auto native_file::write_bytes(const char *buffer, std::size_t write_size, std::uint64_t write_offset, std::size_t &bytes_written) -> bool { bytes_written = 0U; ssize_t result = 0U; do { result = pwrite64(handle_, &buffer[bytes_written], write_size - bytes_written, static_cast(write_offset + bytes_written)); if (result > 0) { bytes_written += static_cast(result); } } while ((result >= 0) && (bytes_written < write_size)); return (bytes_written == write_size); } #endif } // namespace repertory