// Copyright 2013 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifdef UNSAFE_BUFFERS_BUILD // TODO(crbug.com/350788890): Remove this and spanify to fix the errors. #pragma allow_unsafe_buffers #endif #include "url/url_canon.h" #include "url/url_canon_internal.h" // Query canonicalization in IE // ---------------------------- // IE is very permissive for query parameters specified in links on the page // (in contrast to links that it constructs itself based on form data). It does // not unescape any character. It does not reject any escape sequence (be they // invalid like "%2y" or freaky like %00). // // IE only escapes spaces and nothing else. Embedded NULLs, tabs (0x09), // LF (0x0a), and CR (0x0d) are removed (this probably happens at an earlier // layer since they are removed from all portions of the URL). All other // characters are passed unmodified. Invalid UTF-16 sequences are preserved as // well, with each character in the input being converted to UTF-8. It is the // server's job to make sense of this invalid query. // // Invalid multibyte sequences (for example, invalid UTF-8 on a UTF-8 page) // are converted to the invalid character and sent as unescaped UTF-8 (0xef, // 0xbf, 0xbd). This may not be canonicalization, the parser may generate these // strings before the URL handler ever sees them. // // Our query canonicalization // -------------------------- // We escape all non-ASCII characters and control characters, like Firefox. // This is more conformant to the URL spec, and there do not seem to be many // problems relating to Firefox's behavior. // // Like IE, we will never unescape (although the application may want to try // unescaping to present the user with a more understandable URL). We will // replace all invalid sequences (including invalid UTF-16 sequences, which IE // doesn't) with the "invalid character," and we will escape it. namespace url { namespace { // Appends the given string to the output, escaping characters that do not // match the given |type| in SharedCharTypes. This version will accept 8 or 16 // bit characters, but assumes that they have only 7-bit values. It also assumes // that all UTF-8 values are correct, so doesn't bother checking template void AppendRaw8BitQueryString(const CHAR* source, int length, CanonOutput* output) { for (int i = 0; i < length; i++) { if (!IsQueryChar(static_cast(source[i]))) AppendEscapedChar(static_cast(source[i]), output); else // Doesn't need escaping. output->push_back(static_cast(source[i])); } } // Runs the converter on the given UTF-8 input. Since the converter expects // UTF-16, we have to convert first. The converter must be non-NULL. void RunConverter(const char* spec, const Component& query, CharsetConverter* converter, CanonOutput* output) { DCHECK(query.is_valid()); // This function will replace any misencoded values with the invalid // character. This is what we want so we don't have to check for error. RawCanonOutputW<1024> utf16; ConvertUTF8ToUTF16(&spec[query.begin], static_cast(query.len), &utf16); converter->ConvertFromUTF16(utf16.data(), utf16.length(), output); } // Runs the converter with the given UTF-16 input. We don't have to do // anything, but this overridden function allows us to use the same code // for both UTF-8 and UTF-16 input. void RunConverter(const char16_t* spec, const Component& query, CharsetConverter* converter, CanonOutput* output) { DCHECK(query.is_valid()); converter->ConvertFromUTF16(&spec[query.begin], static_cast(query.len), output); } template void DoConvertToQueryEncoding(const CHAR* spec, const Component& query, CharsetConverter* converter, CanonOutput* output) { if (converter) { // Run the converter to get an 8-bit string, then append it, escaping // necessary values. RawCanonOutput<1024> eight_bit; RunConverter(spec, query, converter, &eight_bit); AppendRaw8BitQueryString(eight_bit.data(), eight_bit.length(), output); } else { // No converter, do our own UTF-8 conversion. AppendStringOfType(&spec[query.begin], static_cast(query.len), CHAR_QUERY, output); } } template void DoCanonicalizeQuery(const CHAR* spec, const Component& query, CharsetConverter* converter, CanonOutput* output, Component* out_query) { if (!query.is_valid()) { *out_query = Component(); return; } output->push_back('?'); out_query->begin = output->length(); DoConvertToQueryEncoding(spec, query, converter, output); out_query->len = output->length() - out_query->begin; } } // namespace void CanonicalizeQuery(const char* spec, const Component& query, CharsetConverter* converter, CanonOutput* output, Component* out_query) { DoCanonicalizeQuery(spec, query, converter, output, out_query); } void CanonicalizeQuery(const char16_t* spec, const Component& query, CharsetConverter* converter, CanonOutput* output, Component* out_query) { DoCanonicalizeQuery(spec, query, converter, output, out_query); } void ConvertUTF16ToQueryEncoding(const char16_t* input, const Component& query, CharsetConverter* converter, CanonOutput* output) { DoConvertToQueryEncoding(input, query, converter, output); } } // namespace url