/* * Copyright (C) 2015 Jared Boone, ShareBrained Technology, Inc. * Copyright (C) 2016 Furrtek * * This file is part of PortaPack. * * 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 2, 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; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 51 Franklin Street, * Boston, MA 02110-1301, USA. */ #include "file.hpp" #include #include #include Optional File::open_fatfs(const std::filesystem::path& filename, BYTE mode) { auto result = f_open(&f, reinterpret_cast(filename.c_str()), mode); if( result == FR_OK ) { if( mode & FA_OPEN_ALWAYS ) { const auto result = f_lseek(&f, f_size(&f)); if( result != FR_OK ) { f_close(&f); } } } if( result == FR_OK ) { return { }; } else { return { result }; } } Optional File::open(const std::filesystem::path& filename) { return open_fatfs(filename, FA_READ); } Optional File::append(const std::filesystem::path& filename) { return open_fatfs(filename, FA_WRITE | FA_OPEN_ALWAYS); } Optional File::create(const std::filesystem::path& filename) { return open_fatfs(filename, FA_WRITE | FA_CREATE_ALWAYS); } File::~File() { f_close(&f); } File::Result File::read(void* const data, const Size bytes_to_read) { UINT bytes_read = 0; const auto result = f_read(&f, data, bytes_to_read, &bytes_read); if( result == FR_OK ) { return { static_cast(bytes_read) }; } else { return { static_cast(result) }; } } File::Result File::write(const void* const data, const Size bytes_to_write) { UINT bytes_written = 0; const auto result = f_write(&f, data, bytes_to_write, &bytes_written); if( result == FR_OK ) { if( bytes_to_write == bytes_written ) { return { static_cast(bytes_written) }; } else { return Error { FR_DISK_FULL }; } } else { return { static_cast(result) }; } } File::Result File::seek(const Offset new_position) { /* NOTE: Returns *old* position, not new position */ const auto old_position = f_tell(&f); const auto result = f_lseek(&f, new_position); if( result != FR_OK ) { return { static_cast(result) }; } if( f_tell(&f) != new_position ) { return { static_cast(FR_BAD_SEEK) }; } return { static_cast(old_position) }; } File::Size File::size() { return { static_cast(f_size(&f)) }; } Optional File::write_line(const std::string& s) { const auto result_s = write(s.c_str(), s.size()); if( result_s.is_error() ) { return { result_s.error() }; } const auto result_crlf = write("\r\n", 2); if( result_crlf.is_error() ) { return { result_crlf.error() }; } return { }; } Optional File::sync() { const auto result = f_sync(&f); if( result == FR_OK ) { return { }; } else { return { result }; } } static std::filesystem::path find_last_file_matching_pattern(const std::filesystem::path& pattern) { std::filesystem::path last_match; for(const auto& entry : std::filesystem::directory_iterator(u"", pattern)) { if( std::filesystem::is_regular_file(entry.status()) ) { const auto& match = entry.path(); if( match > last_match ) { last_match = match; } } } return last_match; } static std::filesystem::path increment_filename_stem_ordinal(std::filesystem::path path) { auto t = path.replace_extension().native(); auto it = t.rbegin(); // Increment decimal number before the extension. for(; it != t.rend(); ++it) { const auto c = *it; if( c < '0' ) { return { }; } else if( c < '9' ) { *it += 1; break; } else if( c == '9' ) { *it = '0'; } else { return { }; } } return t; } std::filesystem::path next_filename_stem_matching_pattern(std::filesystem::path filename_pattern) { const auto next_filename = find_last_file_matching_pattern(filename_pattern.replace_extension(u".*")); if( next_filename.empty() ) { auto pattern_s = filename_pattern.replace_extension().native(); std::replace(std::begin(pattern_s), std::end(pattern_s), '?', '0'); return pattern_s; } else { return increment_filename_stem_ordinal(next_filename); } } std::vector scan_root_files(const std::filesystem::path& directory, const std::filesystem::path& extension) { std::vector file_list { }; for(const auto& entry : std::filesystem::directory_iterator(directory, extension)) { if( std::filesystem::is_regular_file(entry.status()) ) { file_list.push_back(entry.path()); } } return file_list; } std::vector scan_root_directories(const std::filesystem::path& directory) { std::vector directory_list { }; for(const auto& entry : std::filesystem::directory_iterator(directory, "*")) { if( std::filesystem::is_directory(entry.status()) ) { directory_list.push_back(entry.path()); } } return directory_list; } void delete_file(const std::filesystem::path& file_path) { f_unlink(reinterpret_cast(file_path.c_str())); } void rename_file(const std::filesystem::path& file_path, const std::filesystem::path& new_name) { f_rename(reinterpret_cast(file_path.c_str()), reinterpret_cast(new_name.c_str())); } uint32_t make_new_directory(const std::filesystem::path& dir_path) { return f_mkdir(reinterpret_cast(dir_path.c_str())); } namespace std { namespace filesystem { std::string filesystem_error::what() const { switch(err) { case FR_OK: return "ok"; case FR_DISK_ERR: return "disk error"; case FR_INT_ERR: return "insanity detected"; case FR_NOT_READY: return "SD card not ready"; case FR_NO_FILE: return "no file"; case FR_NO_PATH: return "no path"; case FR_INVALID_NAME: return "invalid name"; case FR_DENIED: return "denied"; case FR_EXIST: return "exists"; case FR_INVALID_OBJECT: return "invalid object"; case FR_WRITE_PROTECTED: return "write protected"; case FR_INVALID_DRIVE: return "invalid drive"; case FR_NOT_ENABLED: return "not enabled"; case FR_NO_FILESYSTEM: return "no filesystem"; case FR_MKFS_ABORTED: return "mkfs aborted"; case FR_TIMEOUT: return "timeout"; case FR_LOCKED: return "locked"; case FR_NOT_ENOUGH_CORE: return "not enough core"; case FR_TOO_MANY_OPEN_FILES: return "too many open files"; case FR_INVALID_PARAMETER: return "invalid parameter"; case FR_EOF: return "end of file"; case FR_DISK_FULL: return "disk full"; case FR_BAD_SEEK: return "bad seek"; case FR_UNEXPECTED: return "unexpected"; default: return "unknown"; } } path path::extension() const { const auto t = filename().native(); const auto index = t.find_last_of(u'.'); if( index == t.npos ) { return { }; } else { return t.substr(index); } } path path::filename() const { const auto index = _s.find_last_of(preferred_separator); if( index == _s.npos ) { return _s; } else { return _s.substr(index + 1); } } path path::stem() const { const auto t = filename().native(); const auto index = t.find_last_of(u'.'); if( index == t.npos ) { return t; } else { return t.substr(0, index); } } std::string path::string() const { std::wstring_convert, path::value_type> conv; return conv.to_bytes(native()); } path& path::replace_extension(const path& replacement) { const auto t = extension().native(); _s.erase(_s.size() - t.size()); if( !replacement._s.empty() ) { if( replacement._s.front() != u'.' ) { _s += u'.'; } _s += replacement._s; } return *this; } bool operator<(const path& lhs, const path& rhs) { return lhs.native() < rhs.native(); } bool operator>(const path& lhs, const path& rhs) { return lhs.native() > rhs.native(); } directory_iterator::directory_iterator( std::filesystem::path path, std::filesystem::path wild ) : pattern { wild } { impl = std::make_shared(); const auto result = f_findfirst(&impl->dir, &impl->filinfo, reinterpret_cast(path.c_str()), reinterpret_cast(pattern.c_str())); if( result != FR_OK ) { impl.reset(); // TODO: Throw exception if/when I enable exceptions... } } directory_iterator& directory_iterator::operator++() { const auto result = f_findnext(&impl->dir, &impl->filinfo); if( (result != FR_OK) || (impl->filinfo.fname[0] == 0) ) { impl.reset(); } return *this; } bool is_directory(const file_status s) { return (s & AM_DIR); } bool is_regular_file(const file_status s) { return !(s & AM_DIR); } space_info space(const path& p) { DWORD free_clusters { 0 }; FATFS* fs; if( f_getfree(reinterpret_cast(p.c_str()), &free_clusters, &fs) == FR_OK ) { #if _MAX_SS != _MIN_SS static_assert(false, "FatFs not configured for fixed sector size"); #else const std::uintmax_t cluster_bytes = fs->csize * _MIN_SS; return { (fs->n_fatent - 2) * cluster_bytes, free_clusters * cluster_bytes, free_clusters * cluster_bytes, }; #endif } else { return { 0, 0, 0 }; } } } /* namespace filesystem */ } /* namespace std */