// Copyright 2013 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. #ifndef URL_URL_UTIL_H_ #define URL_URL_UTIL_H_ #include <string> #include "base/strings/string16.h" #include "url/url_canon.h" #include "url/url_export.h" #include "url/url_parse.h" namespace url_util { // Init ------------------------------------------------------------------------ // Initialization is NOT required, it will be implicitly initialized when first // used. However, this implicit initialization is NOT threadsafe. If you are // using this library in a threaded environment and don't have a consistent // "first call" (an example might be calling "AddStandardScheme" with your // special application-specific schemes) then you will want to call initialize // before spawning any threads. // // It is OK to call this function more than once, subsequent calls will simply // "noop", unless Shutdown() was called in the mean time. This will also be a // "noop" if other calls to the library have forced an initialization // beforehand. URL_EXPORT void Initialize(); // Cleanup is not required, except some strings may leak. For most user // applications, this is fine. If you're using it in a library that may get // loaded and unloaded, you'll want to unload to properly clean up your // library. URL_EXPORT void Shutdown(); // Schemes -------------------------------------------------------------------- // Adds an application-defined scheme to the internal list of "standard" URL // schemes. This function is not threadsafe and can not be called concurrently // with any other url_util function. It will assert if the list of standard // schemes has been locked (see LockStandardSchemes). URL_EXPORT void AddStandardScheme(const char* new_scheme); // Sets a flag to prevent future calls to AddStandardScheme from succeeding. // // This is designed to help prevent errors for multithreaded applications. // Normal usage would be to call AddStandardScheme for your custom schemes at // the beginning of program initialization, and then LockStandardSchemes. This // prevents future callers from mistakenly calling AddStandardScheme when the // program is running with multiple threads, where such usage would be // dangerous. // // We could have had AddStandardScheme use a lock instead, but that would add // some platform-specific dependencies we don't otherwise have now, and is // overkill considering the normal usage is so simple. URL_EXPORT void LockStandardSchemes(); // Locates the scheme in the given string and places it into |found_scheme|, // which may be NULL to indicate the caller does not care about the range. // // Returns whether the given |compare| scheme matches the scheme found in the // input (if any). The |compare| scheme must be a valid canonical scheme or // the result of the comparison is undefined. URL_EXPORT bool FindAndCompareScheme(const char* str, int str_len, const char* compare, url_parse::Component* found_scheme); URL_EXPORT bool FindAndCompareScheme(const base::char16* str, int str_len, const char* compare, url_parse::Component* found_scheme); inline bool FindAndCompareScheme(const std::string& str, const char* compare, url_parse::Component* found_scheme) { return FindAndCompareScheme(str.data(), static_cast<int>(str.size()), compare, found_scheme); } inline bool FindAndCompareScheme(const base::string16& str, const char* compare, url_parse::Component* found_scheme) { return FindAndCompareScheme(str.data(), static_cast<int>(str.size()), compare, found_scheme); } // Returns true if the given string represents a standard URL. This means that // either the scheme is in the list of known standard schemes. URL_EXPORT bool IsStandard(const char* spec, const url_parse::Component& scheme); URL_EXPORT bool IsStandard(const base::char16* spec, const url_parse::Component& scheme); // TODO(brettw) remove this. This is a temporary compatibility hack to avoid // breaking the WebKit build when this version is synced via Chrome. inline bool IsStandard(const char* spec, int spec_len, const url_parse::Component& scheme) { return IsStandard(spec, scheme); } // URL library wrappers ------------------------------------------------------- // Parses the given spec according to the extracted scheme type. Normal users // should use the URL object, although this may be useful if performance is // critical and you don't want to do the heap allocation for the std::string. // // As with the url_canon::Canonicalize* functions, the charset converter can // be NULL to use UTF-8 (it will be faster in this case). // // Returns true if a valid URL was produced, false if not. On failure, the // output and parsed structures will still be filled and will be consistent, // but they will not represent a loadable URL. URL_EXPORT bool Canonicalize(const char* spec, int spec_len, bool trim_path_end, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* output_parsed); URL_EXPORT bool Canonicalize(const base::char16* spec, int spec_len, bool trim_path_end, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* output_parsed); // Resolves a potentially relative URL relative to the given parsed base URL. // The base MUST be valid. The resulting canonical URL and parsed information // will be placed in to the given out variables. // // The relative need not be relative. If we discover that it's absolute, this // will produce a canonical version of that URL. See Canonicalize() for more // about the charset_converter. // // Returns true if the output is valid, false if the input could not produce // a valid URL. URL_EXPORT bool ResolveRelative(const char* base_spec, int base_spec_len, const url_parse::Parsed& base_parsed, const char* relative, int relative_length, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* output_parsed); URL_EXPORT bool ResolveRelative(const char* base_spec, int base_spec_len, const url_parse::Parsed& base_parsed, const base::char16* relative, int relative_length, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* output_parsed); // Replaces components in the given VALID input url. The new canonical URL info // is written to output and out_parsed. // // Returns true if the resulting URL is valid. URL_EXPORT bool ReplaceComponents( const char* spec, int spec_len, const url_parse::Parsed& parsed, const url_canon::Replacements<char>& replacements, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* out_parsed); URL_EXPORT bool ReplaceComponents( const char* spec, int spec_len, const url_parse::Parsed& parsed, const url_canon::Replacements<base::char16>& replacements, url_canon::CharsetConverter* charset_converter, url_canon::CanonOutput* output, url_parse::Parsed* out_parsed); // String helper functions ---------------------------------------------------- // Compare the lower-case form of the given string against the given ASCII // string. This is useful for doing checking if an input string matches some // token, and it is optimized to avoid intermediate string copies. // // The versions of this function that don't take a b_end assume that the b // string is NULL terminated. URL_EXPORT bool LowerCaseEqualsASCII(const char* a_begin, const char* a_end, const char* b); URL_EXPORT bool LowerCaseEqualsASCII(const char* a_begin, const char* a_end, const char* b_begin, const char* b_end); URL_EXPORT bool LowerCaseEqualsASCII(const base::char16* a_begin, const base::char16* a_end, const char* b); // Unescapes the given string using URL escaping rules. URL_EXPORT void DecodeURLEscapeSequences(const char* input, int length, url_canon::CanonOutputW* output); // Escapes the given string as defined by the JS method encodeURIComponent. See // https://developer.mozilla.org/en/JavaScript/Reference/Global_Objects/encodeURIComponent URL_EXPORT void EncodeURIComponent(const char* input, int length, url_canon::CanonOutput* output); } // namespace url_util #endif // URL_URL_UTIL_H_