mirror of
https://github.com/klzgrad/naiveproxy.git
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361 lines
16 KiB
C++
361 lines
16 KiB
C++
// Copyright 2013 The Chromium Authors
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include <limits.h>
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#include <optional>
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#include "base/check.h"
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#include "base/check_op.h"
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#include "url/url_canon.h"
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#include "url/url_canon_internal.h"
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#include "url/url_features.h"
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#include "url/url_parse_internal.h"
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namespace url {
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namespace {
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enum CharacterFlags {
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// Pass through unchanged, whether escaped or not. This doesn't
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// actually set anything so you can't OR it to check, it's just to make the
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// table below more clear when any other flag is not set.
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PASS = 0,
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// This character requires special handling in DoPartialPathInternal. Doing
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// this test
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// first allows us to filter out the common cases of regular characters that
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// can be directly copied.
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SPECIAL = 1,
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// This character must be escaped in the canonical output. Note that all
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// escaped chars also have the "special" bit set so that the code that looks
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// for this is triggered. Not valid with PASS or ESCAPE
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ESCAPE_BIT = 2,
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ESCAPE = ESCAPE_BIT | SPECIAL,
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};
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// This table contains one of the above flag values. Note some flags are more
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// than one bits because they also turn on the "special" flag. Special is the
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// only flag that may be combined with others.
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//
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// This table was used to be designed to match exactly what IE did with the
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// characters, however, which doesn't comply with the URL Standard as of Jun
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// 2023. See http://crbug.com/1400251 and http://crbug.com/1252531 for efforts
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// to comply with the URL Standard.
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//
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// Dot is even more special, and the escaped version is handled specially by
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// IsDot. Therefore, we don't need the "escape" flag. We just need the "special"
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// bit.
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//
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// clang-format off
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const unsigned char kPathCharLookup[0x100] = {
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// NULL control chars...
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ESCAPE , ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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// control chars...
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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// ' ' ! " # $ % & ' ( ) * + , - . /
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ESCAPE, PASS, ESCAPE, ESCAPE, PASS, ESCAPE, PASS, PASS, PASS, PASS, PASS, PASS, PASS, PASS ,SPECIAL, PASS,
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// 0 1 2 3 4 5 6 7 8 9 : ; < = > ?
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PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS, PASS, ESCAPE, PASS, ESCAPE, ESCAPE,
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// @ A B C D E F G H I J K L M N O
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PASS, PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,
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// P Q R S T U V W X Y Z [ \ ] ^ _
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PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS, ESCAPE, PASS, ESCAPE, PASS ,
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// ` a b c d e f g h i j k l m n o
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ESCAPE, PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,
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// p q r s t u v w x y z { | } ~ <NBSP>
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PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,PASS ,ESCAPE, ESCAPE, ESCAPE, PASS ,ESCAPE,
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// ...all the high-bit characters are escaped
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE,
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ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE, ESCAPE};
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// clang-format on
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enum DotDisposition {
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// The given dot is just part of a filename and is not special.
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NOT_A_DIRECTORY,
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// The given dot is the current directory.
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DIRECTORY_CUR,
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// The given dot is the first of a double dot that should take us up one.
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DIRECTORY_UP
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};
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// When the path resolver finds a dot, this function is called with the
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// character following that dot to see what it is. The return value
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// indicates what type this dot is (see above). This code handles the case
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// where the dot is at the end of the input.
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//
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// |*consumed_len| will contain the number of characters in the input that
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// express what we found.
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//
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// If the input is "../foo", |after_dot| = 1, |end| = 6, and
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// at the end, |*consumed_len| = 2 for the "./" this function consumed. The
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// original dot length should be handled by the caller.
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template <typename CHAR>
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DotDisposition ClassifyAfterDot(const CHAR* spec,
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size_t after_dot,
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size_t end,
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size_t* consumed_len) {
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if (after_dot == end) {
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// Single dot at the end.
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*consumed_len = 0;
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return DIRECTORY_CUR;
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}
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if (IsSlashOrBackslash(spec[after_dot])) {
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// Single dot followed by a slash.
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*consumed_len = 1; // Consume the slash
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return DIRECTORY_CUR;
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}
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size_t second_dot_len = IsDot(spec, after_dot, end);
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if (second_dot_len) {
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size_t after_second_dot = after_dot + second_dot_len;
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if (after_second_dot == end) {
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// Double dot at the end.
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*consumed_len = second_dot_len;
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return DIRECTORY_UP;
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}
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if (IsSlashOrBackslash(spec[after_second_dot])) {
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// Double dot followed by a slash.
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*consumed_len = second_dot_len + 1;
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return DIRECTORY_UP;
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}
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}
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// The dots are followed by something else, not a directory.
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*consumed_len = 0;
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return NOT_A_DIRECTORY;
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}
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// Rewinds the output to the previous slash. It is assumed that the output
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// ends with a slash and this doesn't count (we call this when we are
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// appending directory paths, so the previous path component has and ending
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// slash).
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//
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// This will stop at the first slash (assumed to be at position
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// |path_begin_in_output| and not go any higher than that. Some web pages
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// do ".." too many times, so we need to handle that brokenness.
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//
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// It searches for a literal slash rather than including a backslash as well
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// because it is run only on the canonical output.
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//
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// The output is guaranteed to end in a slash when this function completes.
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void BackUpToPreviousSlash(size_t path_begin_in_output, CanonOutput* output) {
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CHECK(output->length() > 0);
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CHECK(path_begin_in_output < output->length());
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size_t i = output->length() - 1;
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DCHECK(output->at(i) == '/');
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if (i == path_begin_in_output)
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return; // We're at the first slash, nothing to do.
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// Now back up (skipping the trailing slash) until we find another slash.
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do {
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--i;
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} while (output->at(i) != '/' && i > path_begin_in_output);
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// Now shrink the output to just include that last slash we found.
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output->set_length(i + 1);
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}
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// Canonicalizes and appends the given path to the output. It assumes that if
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// the input path starts with a slash, it should be copied to the output.
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//
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// If there are already path components (this mode is used when appending
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// relative paths for resolving), it assumes that the output already has
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// a trailing slash and that if the input begins with a slash, it should be
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// copied to the output.
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//
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// We do not collapse multiple slashes in a row to a single slash. It seems
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// no web browsers do this, and we don't want incompatibilities, even though
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// it would be correct for most systems.
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template <typename CHAR, typename UCHAR>
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bool DoPartialPathInternal(const CHAR* spec,
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const Component& path,
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size_t path_begin_in_output,
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CanonOutput* output) {
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if (path.is_empty())
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return true;
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size_t end = static_cast<size_t>(path.end());
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bool success = true;
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for (size_t i = static_cast<size_t>(path.begin); i < end; i++) {
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UCHAR uch = static_cast<UCHAR>(spec[i]);
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if (sizeof(CHAR) > 1 && uch >= 0x80) {
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// We only need to test wide input for having non-ASCII characters. For
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// narrow input, we'll always just use the lookup table. We don't try to
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// do anything tricky with decoding/validating UTF-8. This function will
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// read one or two UTF-16 characters and append the output as UTF-8. This
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// call will be removed in 8-bit mode.
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success &= AppendUTF8EscapedChar(spec, &i, end, output);
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} else {
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// Normal ASCII character or 8-bit input, use the lookup table.
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unsigned char out_ch = static_cast<unsigned char>(uch);
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unsigned char flags = kPathCharLookup[out_ch];
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if (flags & SPECIAL) {
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// Needs special handling of some sort.
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size_t dotlen;
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if ((dotlen = IsDot(spec, i, end)) > 0) {
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// See if this dot was preceded by a slash in the output.
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//
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// Note that we check this in the case of dots so we don't have to
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// special case slashes. Since slashes are much more common than
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// dots, this actually increases performance measurably (though
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// slightly).
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if (output->length() > path_begin_in_output &&
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output->at(output->length() - 1) == '/') {
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// Slash followed by a dot, check to see if this is means relative
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size_t consumed_len;
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switch (ClassifyAfterDot<CHAR>(spec, i + dotlen, end,
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&consumed_len)) {
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case NOT_A_DIRECTORY:
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// Copy the dot to the output, it means nothing special.
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output->push_back('.');
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i += dotlen - 1;
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break;
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case DIRECTORY_CUR: // Current directory, just skip the input.
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i += dotlen + consumed_len - 1;
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break;
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case DIRECTORY_UP:
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BackUpToPreviousSlash(path_begin_in_output, output);
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i += dotlen + consumed_len - 1;
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break;
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}
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} else {
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// This dot is not preceded by a slash, it is just part of some
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// file name.
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output->push_back('.');
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i += dotlen - 1;
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}
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} else if (out_ch == '\\') {
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// Convert backslashes to forward slashes
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output->push_back('/');
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} else if (out_ch == '%') {
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// Handle escape sequences.
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unsigned char unused_unescaped_value;
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if (DecodeEscaped(spec, &i, end, &unused_unescaped_value)) {
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// Valid escape sequence. We should just copy it exactly.
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output->push_back('%');
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output->push_back(static_cast<char>(spec[i - 1]));
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output->push_back(static_cast<char>(spec[i]));
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} else {
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// Invalid escape sequence. IE7+ rejects any URLs with such
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// sequences, while other browsers pass them through unchanged. We
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// use the permissive behavior.
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// TODO(brettw): Consider testing IE's strict behavior, which would
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// allow removing the code to handle nested escapes above.
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output->push_back('%');
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}
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} else if (flags & ESCAPE_BIT) {
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// This character should be escaped.
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AppendEscapedChar(out_ch, output);
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}
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} else {
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// Nothing special about this character, just append it.
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output->push_back(out_ch);
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}
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}
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}
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return success;
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}
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// Perform the same logic as in DoPartialPathInternal(), but updates the
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// publicly exposed CanonOutput structure similar to DoPath(). Returns
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// true if successful.
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template <typename CHAR, typename UCHAR>
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bool DoPartialPath(const CHAR* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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out_path->begin = output->length();
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bool success =
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DoPartialPathInternal<CHAR, UCHAR>(spec, path, out_path->begin, output);
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out_path->len = output->length() - out_path->begin;
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return success;
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}
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template<typename CHAR, typename UCHAR>
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bool DoPath(const CHAR* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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bool success = true;
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out_path->begin = output->length();
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if (path.is_nonempty()) {
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// Write out an initial slash if the input has none. If we just parse a URL
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// and then canonicalize it, it will of course have a slash already. This
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// check is for the replacement and relative URL resolving cases of file
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// URLs.
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if (!IsSlashOrBackslash(spec[path.begin])) {
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output->push_back('/');
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}
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success =
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DoPartialPathInternal<CHAR, UCHAR>(spec, path, out_path->begin, output);
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} else {
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// No input, canonical path is a slash.
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output->push_back('/');
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}
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out_path->len = output->length() - out_path->begin;
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return success;
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}
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} // namespace
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bool CanonicalizePath(const char* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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return DoPath<char, unsigned char>(spec, path, output, out_path);
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}
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bool CanonicalizePath(const char16_t* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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return DoPath<char16_t, char16_t>(spec, path, output, out_path);
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}
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bool CanonicalizePartialPath(const char* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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return DoPartialPath<char, unsigned char>(spec, path, output, out_path);
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}
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bool CanonicalizePartialPath(const char16_t* spec,
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const Component& path,
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CanonOutput* output,
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Component* out_path) {
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return DoPartialPath<char16_t, char16_t>(spec, path, output, out_path);
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}
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bool CanonicalizePartialPathInternal(const char* spec,
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const Component& path,
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size_t path_begin_in_output,
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CanonOutput* output) {
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return DoPartialPathInternal<char, unsigned char>(
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spec, path, path_begin_in_output, output);
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}
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bool CanonicalizePartialPathInternal(const char16_t* spec,
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const Component& path,
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size_t path_begin_in_output,
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CanonOutput* output) {
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return DoPartialPathInternal<char16_t, char16_t>(
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spec, path, path_begin_in_output, output);
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}
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} // namespace url
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