// 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. // ICU integration functions. #include #include #include "base/logging.h" #include "third_party/icu/source/common/unicode/ucnv.h" #include "third_party/icu/source/common/unicode/ucnv_cb.h" #include "third_party/icu/source/common/unicode/uidna.h" #include "url/url_canon_icu.h" #include "url/url_canon_internal.h" // for _itoa_s namespace url_canon { namespace { // Called when converting a character that can not be represented, this will // append an escaped version of the numerical character reference for that code // point. It is of the form "Ӓ" and we will escape the non-digits to // "%26%231234%3B". Why? This is what Netscape did back in the olden days. void appendURLEscapedChar(const void* context, UConverterFromUnicodeArgs* from_args, const UChar* code_units, int32_t length, UChar32 code_point, UConverterCallbackReason reason, UErrorCode* err) { if (reason == UCNV_UNASSIGNED) { *err = U_ZERO_ERROR; const static int prefix_len = 6; const static char prefix[prefix_len + 1] = "%26%23"; // "&#" percent-escaped ucnv_cbFromUWriteBytes(from_args, prefix, prefix_len, 0, err); DCHECK(code_point < 0x110000); char number[8]; // Max Unicode code point is 7 digits. _itoa_s(code_point, number, 10); int number_len = static_cast(strlen(number)); ucnv_cbFromUWriteBytes(from_args, number, number_len, 0, err); const static int postfix_len = 3; const static char postfix[postfix_len + 1] = "%3B"; // ";" percent-escaped ucnv_cbFromUWriteBytes(from_args, postfix, postfix_len, 0, err); } } // A class for scoping the installation of the invalid character callback. class AppendHandlerInstaller { public: // The owner of this object must ensure that the converter is alive for the // duration of this object's lifetime. AppendHandlerInstaller(UConverter* converter) : converter_(converter) { UErrorCode err = U_ZERO_ERROR; ucnv_setFromUCallBack(converter_, appendURLEscapedChar, 0, &old_callback_, &old_context_, &err); } ~AppendHandlerInstaller() { UErrorCode err = U_ZERO_ERROR; ucnv_setFromUCallBack(converter_, old_callback_, old_context_, 0, 0, &err); } private: UConverter* converter_; UConverterFromUCallback old_callback_; const void* old_context_; }; } // namespace ICUCharsetConverter::ICUCharsetConverter(UConverter* converter) : converter_(converter) { } ICUCharsetConverter::~ICUCharsetConverter() { } void ICUCharsetConverter::ConvertFromUTF16(const base::char16* input, int input_len, CanonOutput* output) { // Install our error handler. It will be called for character that can not // be represented in the destination character set. AppendHandlerInstaller handler(converter_); int begin_offset = output->length(); int dest_capacity = output->capacity() - begin_offset; output->set_length(output->length()); do { UErrorCode err = U_ZERO_ERROR; char* dest = &output->data()[begin_offset]; int required_capacity = ucnv_fromUChars(converter_, dest, dest_capacity, input, input_len, &err); if (err != U_BUFFER_OVERFLOW_ERROR) { output->set_length(begin_offset + required_capacity); return; } // Output didn't fit, expand dest_capacity = required_capacity; output->Resize(begin_offset + dest_capacity); } while (true); } // Converts the Unicode input representing a hostname to ASCII using IDN rules. // The output must be ASCII, but is represented as wide characters. // // On success, the output will be filled with the ASCII host name and it will // return true. Unlike most other canonicalization functions, this assumes that // the output is empty. The beginning of the host will be at offset 0, and // the length of the output will be set to the length of the new host name. // // On error, this will return false. The output in this case is undefined. bool IDNToASCII(const base::char16* src, int src_len, CanonOutputW* output) { DCHECK(output->length() == 0); // Output buffer is assumed empty. while (true) { // Use ALLOW_UNASSIGNED to be more tolerant of hostnames that violate // the spec (which do exist). This does not present any risk and is a // little more future proof. UErrorCode err = U_ZERO_ERROR; int num_converted = uidna_IDNToASCII(src, src_len, output->data(), output->capacity(), UIDNA_ALLOW_UNASSIGNED, NULL, &err); if (err == U_ZERO_ERROR) { output->set_length(num_converted); return true; } if (err != U_BUFFER_OVERFLOW_ERROR) return false; // Unknown error, give up. // Not enough room in our buffer, expand. output->Resize(output->capacity() * 2); } } bool ReadUTFChar(const char* str, int* begin, int length, unsigned* code_point_out) { int code_point; // Avoids warning when U8_NEXT writes -1 to it. U8_NEXT(str, *begin, length, code_point); *code_point_out = static_cast(code_point); // The ICU macro above moves to the next char, we want to point to the last // char consumed. (*begin)--; // Validate the decoded value. if (U_IS_UNICODE_CHAR(code_point)) return true; *code_point_out = kUnicodeReplacementCharacter; return false; } bool ReadUTFChar(const base::char16* str, int* begin, int length, unsigned* code_point) { if (U16_IS_SURROGATE(str[*begin])) { if (!U16_IS_SURROGATE_LEAD(str[*begin]) || *begin + 1 >= length || !U16_IS_TRAIL(str[*begin + 1])) { // Invalid surrogate pair. *code_point = kUnicodeReplacementCharacter; return false; } else { // Valid surrogate pair. *code_point = U16_GET_SUPPLEMENTARY(str[*begin], str[*begin + 1]); (*begin)++; } } else { // Not a surrogate, just one 16-bit word. *code_point = str[*begin]; } if (U_IS_UNICODE_CHAR(*code_point)) return true; // Invalid code point. *code_point = kUnicodeReplacementCharacter; return false; } } // namespace url_canon