// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/base/filename_util.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/stl_util.h" #include "base/strings/string_util.h" #include "base/strings/sys_string_conversions.h" #include "base/strings/utf_string_conversions.h" #include "base/threading/thread_restrictions.h" #include "net/base/escape.h" #include "net/base/filename_util_internal.h" #include "net/base/mime_util.h" #include "net/base/net_string_util.h" #include "net/http/http_content_disposition.h" #include "url/gurl.h" namespace net { namespace { // Examines the current extension in |file_name| and tries to return the correct // extension the file should actually be using. Used by EnsureSafeExtension. // All other code should use EnsureSafeExtension, as it includes additional // safety checks. base::FilePath::StringType GetCorrectedExtensionUnsafe( const std::string& mime_type, bool ignore_extension, const base::FilePath& file_name) { // See if the file name already contains an extension. base::FilePath::StringType extension = file_name.Extension(); if (!extension.empty()) extension.erase(extension.begin()); // Erase preceding '.'. // Nothing to do if there's no mime type. if (mime_type.empty()) return extension; // Nothing to do there's an extension, unless |ignore_extension| is true. if (!extension.empty() && !ignore_extension) return extension; // Don't do anything if there's not a preferred extension for the mime // type. base::FilePath::StringType preferred_mime_extension; if (!GetPreferredExtensionForMimeType(mime_type, &preferred_mime_extension)) return extension; // If the existing extension is in the list of valid extensions for the // given type, use it. This avoids doing things like pointlessly renaming // "foo.jpg" to "foo.jpeg". std::vector all_mime_extensions; GetExtensionsForMimeType(mime_type, &all_mime_extensions); if (ContainsValue(all_mime_extensions, extension)) return extension; // Get the "final" extension. In most cases, this is the same as the // |extension|, but in cases like "foo.tar.gz", it's "gz" while // |extension| is "tar.gz". base::FilePath::StringType final_extension = file_name.FinalExtension(); // Erase preceding '.'. if (!final_extension.empty()) final_extension.erase(final_extension.begin()); // If there's a double extension, and the second extension is in the // list of valid extensions for the given type, keep the double extension. // This avoids renaming things like "foo.tar.gz" to "foo.gz". if (ContainsValue(all_mime_extensions, final_extension)) return extension; return preferred_mime_extension; } } // namespace void SanitizeGeneratedFileName(base::FilePath::StringType* filename, bool replace_trailing) { const base::FilePath::CharType kReplace[] = FILE_PATH_LITERAL("-"); if (filename->empty()) return; if (replace_trailing) { // Handle CreateFile() stripping trailing dots and spaces on filenames // http://support.microsoft.com/kb/115827 size_t length = filename->size(); size_t pos = filename->find_last_not_of(FILE_PATH_LITERAL(" .")); filename->resize((pos == std::string::npos) ? 0 : (pos + 1)); #if defined(OS_WIN) base::TrimWhitespace(*filename, base::TRIM_TRAILING, filename); #else base::TrimWhitespaceASCII(*filename, base::TRIM_TRAILING, filename); #endif if (filename->empty()) return; size_t trimmed = length - filename->size(); if (trimmed) filename->insert(filename->end(), trimmed, kReplace[0]); } base::TrimString(*filename, FILE_PATH_LITERAL("."), filename); if (filename->empty()) return; // Replace any path information by changing path separators. base::ReplaceSubstringsAfterOffset( filename, 0, FILE_PATH_LITERAL("/"), kReplace); base::ReplaceSubstringsAfterOffset( filename, 0, FILE_PATH_LITERAL("\\"), kReplace); } // Returns the filename determined from the last component of the path portion // of the URL. Returns an empty string if the URL doesn't have a path or is // invalid. If the generated filename is not reliable, // |should_overwrite_extension| will be set to true, in which case a better // extension should be determined based on the content type. std::string GetFileNameFromURL(const GURL& url, const std::string& referrer_charset, bool* should_overwrite_extension) { // about: and data: URLs don't have file names, but esp. data: URLs may // contain parts that look like ones (i.e., contain a slash). Therefore we // don't attempt to divine a file name out of them. if (!url.is_valid() || url.SchemeIs("about") || url.SchemeIs("data")) return std::string(); const std::string unescaped_url_filename = UnescapeURLComponent( url.ExtractFileName(), UnescapeRule::SPACES | UnescapeRule::URL_SPECIAL_CHARS); // The URL's path should be escaped UTF-8, but may not be. std::string decoded_filename = unescaped_url_filename; if (!base::IsStringUTF8(decoded_filename)) { // TODO(jshin): this is probably not robust enough. To be sure, we need // encoding detection. base::string16 utf16_output; if (!referrer_charset.empty() && ConvertToUTF16(unescaped_url_filename, referrer_charset.c_str(), &utf16_output)) { decoded_filename = base::UTF16ToUTF8(utf16_output); } else { decoded_filename = base::WideToUTF8(base::SysNativeMBToWide(unescaped_url_filename)); } } // If the URL contains a (possibly empty) query, assume it is a generator, and // allow the determined extension to be overwritten. *should_overwrite_extension = !decoded_filename.empty() && url.has_query(); return decoded_filename; } // Returns whether the specified extension is automatically integrated into the // windows shell. bool IsShellIntegratedExtension(const base::FilePath::StringType& extension) { base::FilePath::StringType extension_lower = base::ToLowerASCII(extension); // http://msdn.microsoft.com/en-us/library/ms811694.aspx // Right-clicking on shortcuts can be magical. if ((extension_lower == FILE_PATH_LITERAL("local")) || (extension_lower == FILE_PATH_LITERAL("lnk"))) return true; // http://www.juniper.net/security/auto/vulnerabilities/vuln2612.html // Files become magical if they end in a CLSID, so block such extensions. if (!extension_lower.empty() && (extension_lower.front() == FILE_PATH_LITERAL('{')) && (extension_lower.back() == FILE_PATH_LITERAL('}'))) return true; return false; } // Examines the current extension in |file_name| and modifies it if necessary in // order to ensure the filename is safe. If |file_name| doesn't contain an // extension or if |ignore_extension| is true, then a new extension will be // constructed based on the |mime_type|. // // We're addressing two things here: // // 1) Usability. If there is no reliable file extension, we want to guess a // reasonable file extension based on the content type. // // 2) Shell integration. Some file extensions automatically integrate with the // shell. We block these extensions to prevent a malicious web site from // integrating with the user's shell. void EnsureSafeExtension(const std::string& mime_type, bool ignore_extension, base::FilePath* file_name) { DCHECK(file_name); base::FilePath::StringType extension = GetCorrectedExtensionUnsafe(mime_type, ignore_extension, *file_name); #if defined(OS_WIN) const base::FilePath::CharType kDefaultExtension[] = FILE_PATH_LITERAL("download"); // Rename shell-integrated extensions. // TODO(asanka): Consider stripping out the bad extension and replacing it // with the preferred extension for the MIME type if one is available. if (IsShellIntegratedExtension(extension)) extension = kDefaultExtension; #endif *file_name = file_name->ReplaceExtension(extension); } bool FilePathToString16(const base::FilePath& path, base::string16* converted) { #if defined(OS_WIN) *converted = path.value(); return true; #elif defined(OS_POSIX) std::string component8 = path.AsUTF8Unsafe(); return !component8.empty() && base::UTF8ToUTF16(component8.c_str(), component8.size(), converted); #endif } base::string16 GetSuggestedFilenameImpl( const GURL& url, const std::string& content_disposition, const std::string& referrer_charset, const std::string& suggested_name, const std::string& mime_type, const std::string& default_name, ReplaceIllegalCharactersCallback replace_illegal_characters_callback) { // TODO: this function to be updated to match the httpbis recommendations. // Talk to abarth for the latest news. // We don't translate this fallback string, "download". If localization is // needed, the caller should provide localized fallback in |default_name|. static const base::FilePath::CharType kFinalFallbackName[] = FILE_PATH_LITERAL("download"); std::string filename; // In UTF-8 bool overwrite_extension = false; bool is_name_from_content_disposition = false; // Try to extract a filename from content-disposition first. if (!content_disposition.empty()) { HttpContentDisposition header(content_disposition, referrer_charset); filename = header.filename(); if (!filename.empty()) is_name_from_content_disposition = true; } // Then try to use the suggested name. if (filename.empty() && !suggested_name.empty()) filename = suggested_name; // Now try extracting the filename from the URL. GetFileNameFromURL() only // looks at the last component of the URL and doesn't return the hostname as a // failover. if (filename.empty()) filename = GetFileNameFromURL(url, referrer_charset, &overwrite_extension); // Finally try the URL hostname, but only if there's no default specified in // |default_name|. Some schemes (e.g.: file:, about:, data:) do not have a // host name. if (filename.empty() && default_name.empty() && url.is_valid() && !url.host().empty()) { // TODO(jungshik) : Decode a 'punycoded' IDN hostname. (bug 1264451) filename = url.host(); } bool replace_trailing = false; base::FilePath::StringType result_str, default_name_str; #if defined(OS_WIN) replace_trailing = true; result_str = base::UTF8ToUTF16(filename); default_name_str = base::UTF8ToUTF16(default_name); #else result_str = filename; default_name_str = default_name; #endif SanitizeGeneratedFileName(&result_str, replace_trailing); if (result_str.find_last_not_of(FILE_PATH_LITERAL("-_")) == base::FilePath::StringType::npos) { result_str = !default_name_str.empty() ? default_name_str : base::FilePath::StringType(kFinalFallbackName); overwrite_extension = false; } replace_illegal_characters_callback.Run(&result_str, '-'); base::FilePath result(result_str); // extension should not appended to filename derived from // content-disposition, if it does not have one. // Hence mimetype and overwrite_extension values are not used. if (is_name_from_content_disposition) GenerateSafeFileName("", false, &result); else GenerateSafeFileName(mime_type, overwrite_extension, &result); base::string16 result16; if (!FilePathToString16(result, &result16)) { result = base::FilePath(default_name_str); if (!FilePathToString16(result, &result16)) { result = base::FilePath(kFinalFallbackName); FilePathToString16(result, &result16); } } return result16; } base::FilePath GenerateFileNameImpl( const GURL& url, const std::string& content_disposition, const std::string& referrer_charset, const std::string& suggested_name, const std::string& mime_type, const std::string& default_file_name, ReplaceIllegalCharactersCallback replace_illegal_characters_callback) { base::string16 file_name = GetSuggestedFilenameImpl(url, content_disposition, referrer_charset, suggested_name, mime_type, default_file_name, replace_illegal_characters_callback); #if defined(OS_WIN) base::FilePath generated_name(file_name); #else base::FilePath generated_name( base::SysWideToNativeMB(base::UTF16ToWide(file_name))); #endif DCHECK(!generated_name.empty()); return generated_name; } } // namespace net