chromeos/printing/uri_impl.cc - chromium/src - Git at Google

 // Copyright 2020 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "chromeos/printing/uri_impl.h"

 #include <algorithm>
 #include <array>
 #include <set>

 #include "base/check_op.h"
 #include "base/i18n/streaming_utf8_validator.h"
 #include "base/strings/string_util.h"
 #include "base/strings/utf_string_conversion_utils.h"
 #include "chromeos/printing/uri.h"

 namespace chromeos {

 namespace {

 constexpr int kPortInvalid = -2;
 constexpr int kPortUnspecified = -1;
 constexpr int kPortMaxNumber = 65535;

 // Parses a single character from *|current| and interprets it as a hex
 // digit ('0'-'9' or 'A'-'F' or 'a'-'f'). If the character is incorrect or
 // *|current| is not less than |end|, the function returns false.
 // Otherwise, the value in *|out| is shifted left by 4 bits and the parsed
 // value is saved on its rightmost 4 bits. The iterator *|current| is
 // increased by one, and the function returns true.
 // |current| and |out| must be not nullptr.
 bool ParseHexDigit(const Iter& end, Iter* current, unsigned char* out) {
   Iter& it = *current;
   if (it >= end)
     return false;
   *out <<= 4;
   if (base::IsAsciiDigit(*it)) {
     *out += (*it - '0');
   } else if (*it >= 'A' && *it <= 'F') {
     *out += (*it - 'A' + 10);
   } else if (*it >= 'a' && *it <= 'f') {
     *out += (*it - 'a' + 10);
   } else {
     return false;
   }
   ++it;
   return true;
 }

 // The function parses from *|current|-|end| the first character and saves it
 // to |out|. If |encoded| equals true, the % sign is treated as the beginning
 // of %-escaped character - in this case the whole escaped character is read
 // and decoded. The function fails and returns false when unexpected end of
 // string is reached or invalid %-escaped character is spotted. The iterator
 // *|current| is shifted accordingly.
 // |current| and |out| must be not nullptr and *|current| must be less than
 // |end|.
 template <bool encoded>
 bool ParseCharacter(const Iter& end, Iter* current, char* out) {
   Iter& it = *current;
   DCHECK(it < end);
   *out = *it;
   ++it;
   if (encoded && *out == '%') {
     unsigned char c = 0;
     if (!ParseHexDigit(end, &it, &c))
       return false;
     if (!ParseHexDigit(end, &it, &c))
       return false;
     *out = static_cast<char>(c);
   }
   return true;
 }

 // Returns iterator to the first occurrence of any character from |chars|
 // in |begin|-|end|. Returns |end| if none of the characters were found.
 Iter FindFirstOf(Iter begin, Iter end, const std::string& chars) {
   return std::find_first_of(begin, end, chars.begin(), chars.end());
 }

 }  // namespace

 template <bool encoded, bool case_insensitive>
 bool Uri::Pim::ParseString(const Iter& begin,
                            const Iter& end,
                            std::string* out,
                            bool plus_to_space) {
   parser_error_.parsed_chars = 0;
   out->reserve(end - begin);
   for (Iter it = begin; it < end;) {
     char c;
     // Read and decode a single character or a %-escaped character.
     if (plus_to_space && *it == '+') {
       c = ' ';
       ++it;
     } else if (!ParseCharacter<encoded>(end, &it, &c)) {
       parser_error_.status = ParserStatus::kInvalidPercentEncoding;
       return false;
     }
     // Analyze the character.
     if (base::IsAsciiPrintable(c)) {  // c >= 0x20(' ') && c <= 0x7E('~')
       // Copy the character with normalization.
       out->push_back(case_insensitive ? base::ToLowerASCII(c) : c);
       parser_error_.parsed_chars = it - begin;
     } else {
       // Try to parse UTF-8 character.
       base::StreamingUtf8Validator utf_parser;
       base::StreamingUtf8Validator::State state = utf_parser.AddBytes(&c, 1);
       if (state != base::StreamingUtf8Validator::State::VALID_MIDPOINT) {
         parser_error_.status = ParserStatus::kDisallowedASCIICharacter;
         return false;
       }
       std::string utf8_character(1, c);
       parser_error_.parsed_chars = it - begin;
       do {
         if (it == end) {
           parser_error_.status = ParserStatus::kInvalidUTF8Character;
           return false;
         }
         if (!ParseCharacter<encoded>(end, &it, &c)) {
           parser_error_.status = ParserStatus::kInvalidPercentEncoding;
           return false;
         }
         state = utf_parser.AddBytes(&c, 1);
         if (state == base::StreamingUtf8Validator::State::INVALID) {
           parser_error_.status = ParserStatus::kInvalidUTF8Character;
           return false;
         }
         utf8_character.push_back(c);
         parser_error_.parsed_chars = it - begin;
       } while (state != base::StreamingUtf8Validator::State::VALID_ENDPOINT);
       // Saves the UTF-8 character to the output.
       out->append(std::move(utf8_character));
     }
   }
   ++(parser_error_.parsed_strings);
   return true;
 }

 template <bool encoded>
 bool Uri::Pim::SaveUserinfo(const std::string& val) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   std::string out;
   if (!ParseString<encoded>(val.begin(), val.end(), &out))
     return false;
   userinfo_ = std::move(out);
   return true;
 }

 template <bool encoded>
 bool Uri::Pim::SaveHost(const std::string& val) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   std::string out;
   if (!ParseString<encoded, true>(val.begin(), val.end(), &out))
     return false;
   host_ = std::move(out);
   return true;
 }

 bool Uri::Pim::SavePort(int value) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   parser_error_.parsed_chars = 0;
   if (value < -1 || value > 65535) {
     parser_error_.status = ParserStatus::kInvalidPortNumber;
     return false;
   }
   if (value == kPortUnspecified)
     value = Uri::GetDefaultPort(scheme_);
   port_ = value;
   return true;
 }

 template <bool encoded>
 bool Uri::Pim::SavePath(const std::vector<std::string>& val) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   parser_error_.parsed_chars = 0;
   std::vector<std::string> out;
   out.reserve(val.size());
   for (size_t i = 0; i < val.size(); ++i) {
     std::string segment;
     auto it1 = val[i].begin();
     auto it2 = val[i].end();
     if (!ParseString<encoded>(it1, it2, &segment))
       return false;
     if (segment == ".") {
       // do nothing
     } else if (segment == ".." && !out.empty() && out.back() != "..") {
       out.pop_back();
     } else if (segment.empty()) {
       --parser_error_.parsed_strings;  // it was already counted
       parser_error_.parsed_chars = 0;
       parser_error_.status = ParserStatus::kEmptySegmentInPath;
       return false;
     } else {
       out.push_back(std::move(segment));
     }
   }
   path_ = std::move(out);
   return true;
 }

 template <bool encoded>
 bool Uri::Pim::SaveQuery(
     const std::vector<std::pair<std::string, std::string>>& val) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   parser_error_.parsed_chars = 0;
   std::vector<std::pair<std::string, std::string>> out(val.size());
   for (size_t i = 0; i < out.size(); ++i) {
     // Process parameter name.
     auto it1 = val[i].first.begin();
     auto it2 = val[i].first.end();
     if (!ParseString<encoded>(it1, it2, &out[i].first, encoded))
       return false;
     if (out[i].first.empty()) {
       --parser_error_.parsed_strings;  // it was already counted
       parser_error_.parsed_chars = 0;
       parser_error_.status = ParserStatus::kEmptyParameterNameInQuery;
       return false;
     }
     // Process parameter value.
     it1 = val[i].second.begin();
     it2 = val[i].second.end();
     if (!ParseString<encoded>(it1, it2, &out[i].second, encoded))
       return false;
   }
   query_ = std::move(out);
   return true;
 }

 template <bool encoded>
 bool Uri::Pim::SaveFragment(const std::string& val) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   std::string out;
   if (!ParseString<encoded>(val.begin(), val.end(), &out))
     return false;
   fragment_ = std::move(out);
   return true;
 }

 bool Uri::Pim::ParseScheme(const Iter& begin, const Iter& end) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   parser_error_.parsed_chars = 0;
   // Special case for an empty string on the input.
   if (begin == end) {
     scheme_.clear();
     return true;
   }
   // Temporary output string.
   std::string out;
   out.reserve(end - begin);
   // Checks the first character - must be an ASCII letter.
   auto it = begin;
   if (base::IsAsciiAlpha(*it)) {
     out.push_back(base::ToLowerASCII(*it));
   } else {
     parser_error_.status = ParserStatus::kInvalidScheme;
     return false;
   }
   // Checks the rest of characters.
   for (++it; it < end; ++it) {
     if (base::IsAsciiAlpha(*it) || base::IsAsciiDigit(*it) || *it == '+' ||
         *it == '-' || *it == '.') {
       out.push_back(base::ToLowerASCII(*it));
     } else {
       parser_error_.status = ParserStatus::kInvalidScheme;
       parser_error_.parsed_chars = it - begin;
       return false;
     }
   }
   // Success - save the Scheme.
   scheme_ = std::move(out);
   // If the current Port is unspecified and the new Scheme has default port
   // number, set the default port number.
   if (port_ == kPortUnspecified)
     port_ = Uri::GetDefaultPort(scheme_);
   return true;
 }

 bool Uri::Pim::ParseAuthority(const Iter& begin, const Iter& end) {
   // Parse and save Userinfo.
   Iter it = std::find(begin, end, '@');
   if (it != end) {
     if (!SaveUserinfo<true>(std::string(begin, it))) {
       parser_error_.parsed_chars += it - begin;
       return false;
     }
     ++it;  // to omit '@' character
   } else {
     it = begin;
   }
   // Parse and save Host.
   Iter it2 = std::find(it, end, ':');
   if (!SaveHost<true>(std::string(it, it2))) {
     parser_error_.parsed_chars += it - begin;
     return false;
   }
   // Parse and save Port.
   if (it2 != end) {
     ++it2;  // omit the ':' character
     if (!ParsePort(it2, end)) {
       parser_error_.parsed_chars += it2 - begin;
       return false;
     }
   }
   return true;
 }

 bool Uri::Pim::ParsePort(const Iter& begin, const Iter& end) {
   if (begin == end)
     return SavePort(kPortUnspecified);
   int number = 0;
   for (Iter it = begin; it < end; ++it) {
     if (!base::IsAsciiDigit(*it))
       return SavePort(kPortInvalid);
     number *= 10;
     number += *it - '0';
     if (number > kPortMaxNumber)
       return SavePort(kPortInvalid);
   }
   return SavePort(number);
 }

 bool Uri::Pim::ParsePath(const Iter& begin, const Iter& end) {
   // Path must be empty or start with '/'.
   if (begin < end && *begin != '/') {
     parser_error_.status = ParserStatus::kRelativePathsNotAllowed;
     parser_error_.parsed_chars = 0;
     parser_error_.parsed_strings = 0;
     return false;
   }
   // This holds Path's segments.
   std::vector<std::string> path;
   // This stores offset from begin of every segment.
   std::vector<size_t> strings_positions;
   // Parsing...
   for (Iter it1 = begin; it1 < end;) {
     if (++it1 == end)  // omit '/' character
       break;
     Iter it2 = std::find(it1, end, '/');
     path.push_back(std::string(it1, it2));
     strings_positions.push_back(it1 - begin);
     it1 = it2;
   }
   // Try to set the new Path and return true if succeed.
   if (SavePath<true>(path))
     return true;
   // An error occurred, adjust parser error fields set by SetPath(...).
   parser_error_.parsed_chars += strings_positions[parser_error_.parsed_strings];
   parser_error_.parsed_strings = 0;
   return false;
 }

 bool Uri::Pim::ParseQuery(const Iter& begin, const Iter& end) {
   // This holds pairs name=value.
   std::vector<std::pair<std::string, std::string>> query;
   // This stores offset from begin of every name and value.
   std::vector<size_t> strings_positions;
   // Parsing...
   for (Iter it = begin; it < end;) {
     Iter it_am = std::find(it, end, '&');
     Iter it_eq = std::find(it, it_am, '=');
     // Extract name.
     std::string name(it, it_eq);
     // Extract value.
     if (it_eq < it_am)  // to omit '=' character
       ++it_eq;
     std::string value(it_eq, it_am);
     // Save the pair (name,value).
     query.push_back(std::make_pair(std::move(name), std::move(value)));
     // Store the offset of the name.
     strings_positions.push_back(it - begin);
     // Store the offset of the value.
     strings_positions.push_back(it_eq - begin);
     // Move |it| to the beginning of the next pair.
     if (it_am < end)
       ++it_am;  // to omit '&' character
     it = it_am;
   }
   // Try to set the new Query and return true if succeed.
   if (SaveQuery<true>(query))
     return true;
   // An error occurred, adjust the |parser_error| set by SetQuery(...).
   parser_error_.parsed_chars += strings_positions[parser_error_.parsed_strings];
   parser_error_.parsed_strings = 0;
   return false;
 }

 bool Uri::Pim::ParseFragment(const Iter& begin, const Iter& end) {
   parser_error_.parsed_strings = 0;
   std::string out;
   if (!ParseString<true>(begin, end, &out))
     return false;
   fragment_ = std::move(out);
   return true;
 }

 bool Uri::Pim::ParseUri(const Iter& begin, const Iter end) {
   parser_error_.status = ParserStatus::kNoErrors;
   parser_error_.parsed_strings = 0;
   parser_error_.parsed_chars = 0;
   Iter it1 = begin;
   // The Scheme component starts from character different than slash ("/"),
   // question mark ("?"), and number sign ("#"). Non-empty Scheme must be
   // followed by the colon (":") character.
   if (it1 < end && *it1 != '/' && *it1 != '?' && *it1 != '#') {
     auto it2 = std::find(it1, end, ':');
     if (it2 == end) {
       parser_error_.status = ParserStatus::kInvalidScheme;
       return false;
     }
     if (!ParseScheme(it1, it2))
       return false;
     it1 = ++it2;
   }
   // The authority component is preceded by a double slash ("//") and is
   // terminated by the next slash ("/"), question mark ("?"), or number
   // sign ("#") character, or by the end of the URI.
   if (it1 < end && *it1 == '/') {
     ++it1;
     if (it1 < end && *it1 == '/') {
       ++it1;
       auto it_auth_end = FindFirstOf(it1, end, "/?#");
       if (!ParseAuthority(it1, it_auth_end)) {
         parser_error_.parsed_chars += it1 - begin;
         return false;
       }
       it1 = it_auth_end;
     } else {
       --it1;
     }
   }
   // The Path is terminated by the first question mark ("?") or number
   // sign ("#") character, or by the end of the URI.
   if (it1 < end) {
     auto it2 = FindFirstOf(it1, end, "?#");
     if (!ParsePath(it1, it2)) {
       parser_error_.parsed_chars += it1 - begin;
       return false;
     }
     it1 = it2;
   }
   // The Query component is indicated by the first question mark ("?")
   // character and terminated by a number sign ("#") character or by the end
   // of the URI.
   if (it1 < end && *it1 == '?') {
     ++it1;
     auto it2 = std::find(it1, end, '#');
     if (!ParseQuery(it1, it2)) {
       parser_error_.parsed_chars += it1 - begin;
       return false;
     }
     it1 = it2;
   }
   // A Fragment component is indicated by the presence of a number
   // sign ("#") character and terminated by the end of the URI.
   if (it1 < end) {
     DCHECK_EQ(*it1, '#');
     ++it1;  // to omit '#' character
     if (!ParseFragment(it1, end)) {
       parser_error_.parsed_chars += it1 - begin;
       return false;
     }
   }
   // Success!
   return true;
 }

 template bool Uri::Pim::ParseString<false, false>(const Iter& begin,
                                                   const Iter& end,
                                                   std::string* out,
                                                   bool plus_to_space);
 template bool Uri::Pim::ParseString<false, true>(const Iter& begin,
                                                  const Iter& end,
                                                  std::string* out,
                                                  bool plus_to_space);
 template bool Uri::Pim::ParseString<true, false>(const Iter& begin,
                                                  const Iter& end,
                                                  std::string* out,
                                                  bool plus_to_space);
 template bool Uri::Pim::ParseString<true, true>(const Iter& begin,
                                                 const Iter& end,
                                                 std::string* out,
                                                 bool plus_to_space);

 template bool Uri::Pim::SaveUserinfo<false>(const std::string& val);
 template bool Uri::Pim::SaveUserinfo<true>(const std::string& val);

 template bool Uri::Pim::SaveHost<false>(const std::string& val);
 template bool Uri::Pim::SaveHost<true>(const std::string& val);

 template bool Uri::Pim::SavePath<false>(const std::vector<std::string>& val);
 template bool Uri::Pim::SavePath<true>(const std::vector<std::string>& val);

 template bool Uri::Pim::SaveQuery<false>(
     const std::vector<std::pair<std::string, std::string>>& val);
 template bool Uri::Pim::SaveQuery<true>(
     const std::vector<std::pair<std::string, std::string>>& val);

 template bool Uri::Pim::SaveFragment<false>(const std::string& val);
 template bool Uri::Pim::SaveFragment<true>(const std::string& val);

 }  // namespace chromeos
	// Copyright 2020 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "chromeos/printing/uri_impl.h"

	#include <algorithm>
	#include <array>
	#include <set>

	#include "base/check_op.h"
	#include "base/i18n/streaming_utf8_validator.h"
	#include "base/strings/string_util.h"
	#include "base/strings/utf_string_conversion_utils.h"
	#include "chromeos/printing/uri.h"

	namespace chromeos {

	namespace {

	constexpr int kPortInvalid = -2;
	constexpr int kPortUnspecified = -1;
	constexpr int kPortMaxNumber = 65535;

	// Parses a single character from *\|current\| and interprets it as a hex
	// digit ('0'-'9' or 'A'-'F' or 'a'-'f'). If the character is incorrect or
	// *\|current\| is not less than \|end\|, the function returns false.
	// Otherwise, the value in *\|out\| is shifted left by 4 bits and the parsed
	// value is saved on its rightmost 4 bits. The iterator *\|current\| is
	// increased by one, and the function returns true.
	// \|current\| and \|out\| must be not nullptr.
	bool ParseHexDigit(const Iter& end, Iter* current, unsigned char* out) {
	Iter& it = *current;
	if (it >= end)
	return false;
	*out <<= 4;
	if (base::IsAsciiDigit(*it)) {
	out += (it - '0');
	} else if (it >= 'A' && it <= 'F') {
	out += (it - 'A' + 10);
	} else if (it >= 'a' && it <= 'f') {
	out += (it - 'a' + 10);
	} else {
	return false;
	}
	++it;
	return true;
	}

	// The function parses from *\|current\|-\|end\| the first character and saves it
	// to \|out\|. If \|encoded\| equals true, the % sign is treated as the beginning
	// of %-escaped character - in this case the whole escaped character is read
	// and decoded. The function fails and returns false when unexpected end of
	// string is reached or invalid %-escaped character is spotted. The iterator
	// *\|current\| is shifted accordingly.
	// \|current\| and \|out\| must be not nullptr and *\|current\| must be less than
	// \|end\|.
	template <bool encoded>
	bool ParseCharacter(const Iter& end, Iter* current, char* out) {
	Iter& it = *current;
	DCHECK(it < end);
	out = it;
	++it;
	if (encoded && *out == '%') {
	unsigned char c = 0;
	if (!ParseHexDigit(end, &it, &c))
	return false;
	if (!ParseHexDigit(end, &it, &c))
	return false;
	*out = static_cast<char>(c);
	}
	return true;
	}

	// Returns iterator to the first occurrence of any character from \|chars\|
	// in \|begin\|-\|end\|. Returns \|end\| if none of the characters were found.
	Iter FindFirstOf(Iter begin, Iter end, const std::string& chars) {
	return std::find_first_of(begin, end, chars.begin(), chars.end());
	}

	} // namespace

	template <bool encoded, bool case_insensitive>
	bool Uri::Pim::ParseString(const Iter& begin,
	const Iter& end,
	std::string* out,
	bool plus_to_space) {
	parser_error_.parsed_chars = 0;
	out->reserve(end - begin);
	for (Iter it = begin; it < end;) {
	char c;
	// Read and decode a single character or a %-escaped character.
	if (plus_to_space && *it == '+') {
	c = ' ';
	++it;
	} else if (!ParseCharacter<encoded>(end, &it, &c)) {
	parser_error_.status = ParserStatus::kInvalidPercentEncoding;
	return false;
	}
	// Analyze the character.
	if (base::IsAsciiPrintable(c)) { // c >= 0x20(' ') && c <= 0x7E('~')
	// Copy the character with normalization.
	out->push_back(case_insensitive ? base::ToLowerASCII(c) : c);
	parser_error_.parsed_chars = it - begin;
	} else {
	// Try to parse UTF-8 character.
	base::StreamingUtf8Validator utf_parser;
	base::StreamingUtf8Validator::State state = utf_parser.AddBytes(&c, 1);
	if (state != base::StreamingUtf8Validator::State::VALID_MIDPOINT) {
	parser_error_.status = ParserStatus::kDisallowedASCIICharacter;
	return false;
	}
	std::string utf8_character(1, c);
	parser_error_.parsed_chars = it - begin;
	do {
	if (it == end) {
	parser_error_.status = ParserStatus::kInvalidUTF8Character;
	return false;
	}
	if (!ParseCharacter<encoded>(end, &it, &c)) {
	parser_error_.status = ParserStatus::kInvalidPercentEncoding;
	return false;
	}
	state = utf_parser.AddBytes(&c, 1);
	if (state == base::StreamingUtf8Validator::State::INVALID) {
	parser_error_.status = ParserStatus::kInvalidUTF8Character;
	return false;
	}
	utf8_character.push_back(c);
	parser_error_.parsed_chars = it - begin;
	} while (state != base::StreamingUtf8Validator::State::VALID_ENDPOINT);
	// Saves the UTF-8 character to the output.
	out->append(std::move(utf8_character));
	}
	}
	++(parser_error_.parsed_strings);
	return true;
	}

	template <bool encoded>
	bool Uri::Pim::SaveUserinfo(const std::string& val) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	std::string out;
	if (!ParseString<encoded>(val.begin(), val.end(), &out))
	return false;
	userinfo_ = std::move(out);
	return true;
	}

	template <bool encoded>
	bool Uri::Pim::SaveHost(const std::string& val) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	std::string out;
	if (!ParseString<encoded, true>(val.begin(), val.end(), &out))
	return false;
	host_ = std::move(out);
	return true;
	}

	bool Uri::Pim::SavePort(int value) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	parser_error_.parsed_chars = 0;
	if (value < -1 \|\| value > 65535) {
	parser_error_.status = ParserStatus::kInvalidPortNumber;
	return false;
	}
	if (value == kPortUnspecified)
	value = Uri::GetDefaultPort(scheme_);
	port_ = value;
	return true;
	}

	template <bool encoded>
	bool Uri::Pim::SavePath(const std::vector<std::string>& val) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	parser_error_.parsed_chars = 0;
	std::vector<std::string> out;
	out.reserve(val.size());
	for (size_t i = 0; i < val.size(); ++i) {
	std::string segment;
	auto it1 = val[i].begin();
	auto it2 = val[i].end();
	if (!ParseString<encoded>(it1, it2, &segment))
	return false;
	if (segment == ".") {
	// do nothing
	} else if (segment == ".." && !out.empty() && out.back() != "..") {
	out.pop_back();
	} else if (segment.empty()) {
	--parser_error_.parsed_strings; // it was already counted
	parser_error_.parsed_chars = 0;
	parser_error_.status = ParserStatus::kEmptySegmentInPath;
	return false;
	} else {
	out.push_back(std::move(segment));
	}
	}
	path_ = std::move(out);
	return true;
	}

	template <bool encoded>
	bool Uri::Pim::SaveQuery(
	const std::vector<std::pair<std::string, std::string>>& val) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	parser_error_.parsed_chars = 0;
	std::vector<std::pair<std::string, std::string>> out(val.size());
	for (size_t i = 0; i < out.size(); ++i) {
	// Process parameter name.
	auto it1 = val[i].first.begin();
	auto it2 = val[i].first.end();
	if (!ParseString<encoded>(it1, it2, &out[i].first, encoded))
	return false;
	if (out[i].first.empty()) {
	--parser_error_.parsed_strings; // it was already counted
	parser_error_.parsed_chars = 0;
	parser_error_.status = ParserStatus::kEmptyParameterNameInQuery;
	return false;
	}
	// Process parameter value.
	it1 = val[i].second.begin();
	it2 = val[i].second.end();
	if (!ParseString<encoded>(it1, it2, &out[i].second, encoded))
	return false;
	}
	query_ = std::move(out);
	return true;
	}

	template <bool encoded>
	bool Uri::Pim::SaveFragment(const std::string& val) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	std::string out;
	if (!ParseString<encoded>(val.begin(), val.end(), &out))
	return false;
	fragment_ = std::move(out);
	return true;
	}

	bool Uri::Pim::ParseScheme(const Iter& begin, const Iter& end) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	parser_error_.parsed_chars = 0;
	// Special case for an empty string on the input.
	if (begin == end) {
	scheme_.clear();
	return true;
	}
	// Temporary output string.
	std::string out;
	out.reserve(end - begin);
	// Checks the first character - must be an ASCII letter.
	auto it = begin;
	if (base::IsAsciiAlpha(*it)) {
	out.push_back(base::ToLowerASCII(*it));
	} else {
	parser_error_.status = ParserStatus::kInvalidScheme;
	return false;
	}
	// Checks the rest of characters.
	for (++it; it < end; ++it) {
	if (base::IsAsciiAlpha(it) \|\| base::IsAsciiDigit(it) \|\| *it == '+' \|\|
	it == '-' \|\| it == '.') {
	out.push_back(base::ToLowerASCII(*it));
	} else {
	parser_error_.status = ParserStatus::kInvalidScheme;
	parser_error_.parsed_chars = it - begin;
	return false;
	}
	}
	// Success - save the Scheme.
	scheme_ = std::move(out);
	// If the current Port is unspecified and the new Scheme has default port
	// number, set the default port number.
	if (port_ == kPortUnspecified)
	port_ = Uri::GetDefaultPort(scheme_);
	return true;
	}

	bool Uri::Pim::ParseAuthority(const Iter& begin, const Iter& end) {
	// Parse and save Userinfo.
	Iter it = std::find(begin, end, '@');
	if (it != end) {
	if (!SaveUserinfo<true>(std::string(begin, it))) {
	parser_error_.parsed_chars += it - begin;
	return false;
	}
	++it; // to omit '@' character
	} else {
	it = begin;
	}
	// Parse and save Host.
	Iter it2 = std::find(it, end, ':');
	if (!SaveHost<true>(std::string(it, it2))) {
	parser_error_.parsed_chars += it - begin;
	return false;
	}
	// Parse and save Port.
	if (it2 != end) {
	++it2; // omit the ':' character
	if (!ParsePort(it2, end)) {
	parser_error_.parsed_chars += it2 - begin;
	return false;
	}
	}
	return true;
	}

	bool Uri::Pim::ParsePort(const Iter& begin, const Iter& end) {
	if (begin == end)
	return SavePort(kPortUnspecified);
	int number = 0;
	for (Iter it = begin; it < end; ++it) {
	if (!base::IsAsciiDigit(*it))
	return SavePort(kPortInvalid);
	number *= 10;
	number += *it - '0';
	if (number > kPortMaxNumber)
	return SavePort(kPortInvalid);
	}
	return SavePort(number);
	}

	bool Uri::Pim::ParsePath(const Iter& begin, const Iter& end) {
	// Path must be empty or start with '/'.
	if (begin < end && *begin != '/') {
	parser_error_.status = ParserStatus::kRelativePathsNotAllowed;
	parser_error_.parsed_chars = 0;
	parser_error_.parsed_strings = 0;
	return false;
	}
	// This holds Path's segments.
	std::vector<std::string> path;
	// This stores offset from begin of every segment.
	std::vector<size_t> strings_positions;
	// Parsing...
	for (Iter it1 = begin; it1 < end;) {
	if (++it1 == end) // omit '/' character
	break;
	Iter it2 = std::find(it1, end, '/');
	path.push_back(std::string(it1, it2));
	strings_positions.push_back(it1 - begin);
	it1 = it2;
	}
	// Try to set the new Path and return true if succeed.
	if (SavePath<true>(path))
	return true;
	// An error occurred, adjust parser error fields set by SetPath(...).
	parser_error_.parsed_chars += strings_positions[parser_error_.parsed_strings];
	parser_error_.parsed_strings = 0;
	return false;
	}

	bool Uri::Pim::ParseQuery(const Iter& begin, const Iter& end) {
	// This holds pairs name=value.
	std::vector<std::pair<std::string, std::string>> query;
	// This stores offset from begin of every name and value.
	std::vector<size_t> strings_positions;
	// Parsing...
	for (Iter it = begin; it < end;) {
	Iter it_am = std::find(it, end, '&');
	Iter it_eq = std::find(it, it_am, '=');
	// Extract name.
	std::string name(it, it_eq);
	// Extract value.
	if (it_eq < it_am) // to omit '=' character
	++it_eq;
	std::string value(it_eq, it_am);
	// Save the pair (name,value).
	query.push_back(std::make_pair(std::move(name), std::move(value)));
	// Store the offset of the name.
	strings_positions.push_back(it - begin);
	// Store the offset of the value.
	strings_positions.push_back(it_eq - begin);
	// Move \|it\| to the beginning of the next pair.
	if (it_am < end)
	++it_am; // to omit '&' character
	it = it_am;
	}
	// Try to set the new Query and return true if succeed.
	if (SaveQuery<true>(query))
	return true;
	// An error occurred, adjust the \|parser_error\| set by SetQuery(...).
	parser_error_.parsed_chars += strings_positions[parser_error_.parsed_strings];
	parser_error_.parsed_strings = 0;
	return false;
	}

	bool Uri::Pim::ParseFragment(const Iter& begin, const Iter& end) {
	parser_error_.parsed_strings = 0;
	std::string out;
	if (!ParseString<true>(begin, end, &out))
	return false;
	fragment_ = std::move(out);
	return true;
	}

	bool Uri::Pim::ParseUri(const Iter& begin, const Iter end) {
	parser_error_.status = ParserStatus::kNoErrors;
	parser_error_.parsed_strings = 0;
	parser_error_.parsed_chars = 0;
	Iter it1 = begin;
	// The Scheme component starts from character different than slash ("/"),
	// question mark ("?"), and number sign ("#"). Non-empty Scheme must be
	// followed by the colon (":") character.
	if (it1 < end && it1 != '/' && it1 != '?' && *it1 != '#') {
	auto it2 = std::find(it1, end, ':');
	if (it2 == end) {
	parser_error_.status = ParserStatus::kInvalidScheme;
	return false;
	}
	if (!ParseScheme(it1, it2))
	return false;
	it1 = ++it2;
	}
	// The authority component is preceded by a double slash ("//") and is
	// terminated by the next slash ("/"), question mark ("?"), or number
	// sign ("#") character, or by the end of the URI.
	if (it1 < end && *it1 == '/') {
	++it1;
	if (it1 < end && *it1 == '/') {
	++it1;
	auto it_auth_end = FindFirstOf(it1, end, "/?#");
	if (!ParseAuthority(it1, it_auth_end)) {
	parser_error_.parsed_chars += it1 - begin;
	return false;
	}
	it1 = it_auth_end;
	} else {
	--it1;
	}
	}
	// The Path is terminated by the first question mark ("?") or number
	// sign ("#") character, or by the end of the URI.
	if (it1 < end) {
	auto it2 = FindFirstOf(it1, end, "?#");
	if (!ParsePath(it1, it2)) {
	parser_error_.parsed_chars += it1 - begin;
	return false;
	}
	it1 = it2;
	}
	// The Query component is indicated by the first question mark ("?")
	// character and terminated by a number sign ("#") character or by the end
	// of the URI.
	if (it1 < end && *it1 == '?') {
	++it1;
	auto it2 = std::find(it1, end, '#');
	if (!ParseQuery(it1, it2)) {
	parser_error_.parsed_chars += it1 - begin;
	return false;
	}
	it1 = it2;
	}
	// A Fragment component is indicated by the presence of a number
	// sign ("#") character and terminated by the end of the URI.
	if (it1 < end) {
	DCHECK_EQ(*it1, '#');
	++it1; // to omit '#' character
	if (!ParseFragment(it1, end)) {
	parser_error_.parsed_chars += it1 - begin;
	return false;
	}
	}
	// Success!
	return true;
	}

	template bool Uri::Pim::ParseString<false, false>(const Iter& begin,
	const Iter& end,
	std::string* out,
	bool plus_to_space);
	template bool Uri::Pim::ParseString<false, true>(const Iter& begin,
	const Iter& end,
	std::string* out,
	bool plus_to_space);
	template bool Uri::Pim::ParseString<true, false>(const Iter& begin,
	const Iter& end,
	std::string* out,
	bool plus_to_space);
	template bool Uri::Pim::ParseString<true, true>(const Iter& begin,
	const Iter& end,
	std::string* out,
	bool plus_to_space);

	template bool Uri::Pim::SaveUserinfo<false>(const std::string& val);
	template bool Uri::Pim::SaveUserinfo<true>(const std::string& val);

	template bool Uri::Pim::SaveHost<false>(const std::string& val);
	template bool Uri::Pim::SaveHost<true>(const std::string& val);

	template bool Uri::Pim::SavePath<false>(const std::vector<std::string>& val);
	template bool Uri::Pim::SavePath<true>(const std::vector<std::string>& val);

	template bool Uri::Pim::SaveQuery<false>(
	const std::vector<std::pair<std::string, std::string>>& val);
	template bool Uri::Pim::SaveQuery<true>(
	const std::vector<std::pair<std::string, std::string>>& val);

	template bool Uri::Pim::SaveFragment<false>(const std::string& val);
	template bool Uri::Pim::SaveFragment<true>(const std::string& val);

	} // namespace chromeos