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// 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.
#ifdef WIN32
#include <windows.h>
#else
#include <pthread.h>
#endif
#include <algorithm>
#include <ostream>
#include "url/gurl.h"
#include "base/logging.h"
#include "base/strings/string_util.h"
#include "url/url_canon_stdstring.h"
#include "url/url_util.h"
namespace {
static std::string* empty_string = NULL;
static GURL* empty_gurl = NULL;
#ifdef WIN32
// Returns a static reference to an empty string for returning a reference
// when there is no underlying string.
const std::string& EmptyStringForGURL() {
// Avoid static object construction/destruction on startup/shutdown.
if (!empty_string) {
// Create the string. Be careful that we don't break in the case that this
// is being called from multiple threads. Statics are not threadsafe.
std::string* new_empty_string = new std::string;
if (InterlockedCompareExchangePointer(
reinterpret_cast<PVOID*>(&empty_string), new_empty_string, NULL)) {
// The old value was non-NULL, so no replacement was done. Another
// thread did the initialization out from under us.
delete new_empty_string;
}
}
return *empty_string;
}
#else
static pthread_once_t empty_string_once = PTHREAD_ONCE_INIT;
static pthread_once_t empty_gurl_once = PTHREAD_ONCE_INIT;
void EmptyStringForGURLOnce(void) {
empty_string = new std::string;
}
const std::string& EmptyStringForGURL() {
// Avoid static object construction/destruction on startup/shutdown.
pthread_once(&empty_string_once, EmptyStringForGURLOnce);
return *empty_string;
}
#endif // WIN32
} // namespace
GURL::GURL() : is_valid_(false) {
}
GURL::GURL(const GURL& other)
: spec_(other.spec_),
is_valid_(other.is_valid_),
parsed_(other.parsed_) {
if (other.inner_url_)
inner_url_.reset(new GURL(*other.inner_url_));
// Valid filesystem urls should always have an inner_url_.
DCHECK(!is_valid_ || !SchemeIsFileSystem() || inner_url_);
}
GURL::GURL(const std::string& url_string) {
InitCanonical(url_string, true);
}
GURL::GURL(const base::string16& url_string) {
InitCanonical(url_string, true);
}
GURL::GURL(const std::string& url_string, RetainWhiteSpaceSelector) {
InitCanonical(url_string, false);
}
GURL::GURL(const char* canonical_spec,
size_t canonical_spec_len,
const url::Parsed& parsed,
bool is_valid)
: spec_(canonical_spec, canonical_spec_len),
is_valid_(is_valid),
parsed_(parsed) {
InitializeFromCanonicalSpec();
}
GURL::GURL(std::string canonical_spec, const url::Parsed& parsed, bool is_valid)
: is_valid_(is_valid),
parsed_(parsed) {
spec_.swap(canonical_spec);
InitializeFromCanonicalSpec();
}
template<typename STR>
void GURL::InitCanonical(const STR& input_spec, bool trim_path_end) {
// Reserve enough room in the output for the input, plus some extra so that
// we have room if we have to escape a few things without reallocating.
spec_.reserve(input_spec.size() + 32);
url::StdStringCanonOutput output(&spec_);
is_valid_ = url::Canonicalize(
input_spec.data(), static_cast<int>(input_spec.length()), trim_path_end,
NULL, &output, &parsed_);
output.Complete(); // Must be done before using string.
if (is_valid_ && SchemeIsFileSystem()) {
inner_url_.reset(new GURL(spec_.data(), parsed_.Length(),
*parsed_.inner_parsed(), true));
}
}
void GURL::InitializeFromCanonicalSpec() {
if (is_valid_ && SchemeIsFileSystem()) {
inner_url_.reset(
new GURL(spec_.data(), parsed_.Length(),
*parsed_.inner_parsed(), true));
}
#ifndef NDEBUG
// For testing purposes, check that the parsed canonical URL is identical to
// what we would have produced. Skip checking for invalid URLs have no meaning
// and we can't always canonicalize then reproducabely.
if (is_valid_) {
url::Component scheme;
// We can't do this check on the inner_url of a filesystem URL, as
// canonical_spec actually points to the start of the outer URL, so we'd
// end up with infinite recursion in this constructor.
if (!url::FindAndCompareScheme(spec_.data(), spec_.length(),
url::kFileSystemScheme, &scheme) ||
scheme.begin == parsed_.scheme.begin) {
// We need to retain trailing whitespace on path URLs, as the |parsed_|
// spec we originally received may legitimately contain trailing white-
// space on the path or components e.g. if the #ref has been
// removed from a "foo:hello #ref" URL (see http://crbug.com/291747).
GURL test_url(spec_, RETAIN_TRAILING_PATH_WHITEPACE);
DCHECK(test_url.is_valid_ == is_valid_);
DCHECK(test_url.spec_ == spec_);
DCHECK(test_url.parsed_.scheme == parsed_.scheme);
DCHECK(test_url.parsed_.username == parsed_.username);
DCHECK(test_url.parsed_.password == parsed_.password);
DCHECK(test_url.parsed_.host == parsed_.host);
DCHECK(test_url.parsed_.port == parsed_.port);
DCHECK(test_url.parsed_.path == parsed_.path);
DCHECK(test_url.parsed_.query == parsed_.query);
DCHECK(test_url.parsed_.ref == parsed_.ref);
}
}
#endif
}
GURL::~GURL() {
}
GURL& GURL::operator=(GURL other) {
Swap(&other);
return *this;
}
const std::string& GURL::spec() const {
if (is_valid_ || spec_.empty())
return spec_;
DCHECK(false) << "Trying to get the spec of an invalid URL!";
return EmptyStringForGURL();
}
bool GURL::operator==(const GURL& other) const {
return spec_ == other.spec_;
}
bool GURL::operator!=(const GURL& other) const {
return spec_ != other.spec_;
}
bool GURL::operator<(const GURL& other) const {
return spec_ < other.spec_;
}
bool GURL::operator>(const GURL& other) const {
return spec_ > other.spec_;
}
GURL GURL::Resolve(const std::string& relative) const {
return ResolveWithCharsetConverter(relative, NULL);
}
GURL GURL::Resolve(const base::string16& relative) const {
return ResolveWithCharsetConverter(relative, NULL);
}
// Note: code duplicated below (it's inconvenient to use a template here).
GURL GURL::ResolveWithCharsetConverter(
const std::string& relative,
url::CharsetConverter* charset_converter) const {
// Not allowed for invalid URLs.
if (!is_valid_)
return GURL();
GURL result;
// Reserve enough room in the output for the input, plus some extra so that
// we have room if we have to escape a few things without reallocating.
result.spec_.reserve(spec_.size() + 32);
url::StdStringCanonOutput output(&result.spec_);
if (!url::ResolveRelative(spec_.data(), static_cast<int>(spec_.length()),
parsed_, relative.data(),
static_cast<int>(relative.length()),
charset_converter, &output, &result.parsed_)) {
// Error resolving, return an empty URL.
return GURL();
}
output.Complete();
result.is_valid_ = true;
if (result.SchemeIsFileSystem()) {
result.inner_url_.reset(
new GURL(result.spec_.data(), result.parsed_.Length(),
*result.parsed_.inner_parsed(), true));
}
return result;
}
// Note: code duplicated above (it's inconvenient to use a template here).
GURL GURL::ResolveWithCharsetConverter(
const base::string16& relative,
url::CharsetConverter* charset_converter) const {
// Not allowed for invalid URLs.
if (!is_valid_)
return GURL();
GURL result;
// Reserve enough room in the output for the input, plus some extra so that
// we have room if we have to escape a few things without reallocating.
result.spec_.reserve(spec_.size() + 32);
url::StdStringCanonOutput output(&result.spec_);
if (!url::ResolveRelative(spec_.data(), static_cast<int>(spec_.length()),
parsed_, relative.data(),
static_cast<int>(relative.length()),
charset_converter, &output, &result.parsed_)) {
// Error resolving, return an empty URL.
return GURL();
}
output.Complete();
result.is_valid_ = true;
if (result.SchemeIsFileSystem()) {
result.inner_url_.reset(
new GURL(result.spec_.data(), result.parsed_.Length(),
*result.parsed_.inner_parsed(), true));
}
return result;
}
// Note: code duplicated below (it's inconvenient to use a template here).
GURL GURL::ReplaceComponents(
const url::Replacements<char>& replacements) const {
GURL result;
// Not allowed for invalid URLs.
if (!is_valid_)
return GURL();
// Reserve enough room in the output for the input, plus some extra so that
// we have room if we have to escape a few things without reallocating.
result.spec_.reserve(spec_.size() + 32);
url::StdStringCanonOutput output(&result.spec_);
result.is_valid_ = url::ReplaceComponents(
spec_.data(), static_cast<int>(spec_.length()), parsed_, replacements,
NULL, &output, &result.parsed_);
output.Complete();
if (result.is_valid_ && result.SchemeIsFileSystem()) {
result.inner_url_.reset(new GURL(spec_.data(), result.parsed_.Length(),
*result.parsed_.inner_parsed(), true));
}
return result;
}
// Note: code duplicated above (it's inconvenient to use a template here).
GURL GURL::ReplaceComponents(
const url::Replacements<base::char16>& replacements) const {
GURL result;
// Not allowed for invalid URLs.
if (!is_valid_)
return GURL();
// Reserve enough room in the output for the input, plus some extra so that
// we have room if we have to escape a few things without reallocating.
result.spec_.reserve(spec_.size() + 32);
url::StdStringCanonOutput output(&result.spec_);
result.is_valid_ = url::ReplaceComponents(
spec_.data(), static_cast<int>(spec_.length()), parsed_, replacements,
NULL, &output, &result.parsed_);
output.Complete();
if (result.is_valid_ && result.SchemeIsFileSystem()) {
result.inner_url_.reset(new GURL(spec_.data(), result.parsed_.Length(),
*result.parsed_.inner_parsed(), true));
}
return result;
}
GURL GURL::GetOrigin() const {
// This doesn't make sense for invalid or nonstandard URLs, so return
// the empty URL
if (!is_valid_ || !IsStandard())
return GURL();
if (SchemeIsFileSystem())
return inner_url_->GetOrigin();
url::Replacements<char> replacements;
replacements.ClearUsername();
replacements.ClearPassword();
replacements.ClearPath();
replacements.ClearQuery();
replacements.ClearRef();
return ReplaceComponents(replacements);
}
GURL GURL::GetAsReferrer() const {
if (!is_valid_ || !SchemeIsHTTPOrHTTPS())
return GURL();
if (!has_ref() && !has_username() && !has_password())
return GURL(*this);
url::Replacements<char> replacements;
replacements.ClearRef();
replacements.ClearUsername();
replacements.ClearPassword();
return ReplaceComponents(replacements);
}
GURL GURL::GetWithEmptyPath() const {
// This doesn't make sense for invalid or nonstandard URLs, so return
// the empty URL.
if (!is_valid_ || !IsStandard())
return GURL();
// We could optimize this since we know that the URL is canonical, and we are
// appending a canonical path, so avoiding re-parsing.
GURL other(*this);
if (parsed_.path.len == 0)
return other;
// Clear everything after the path.
other.parsed_.query.reset();
other.parsed_.ref.reset();
// Set the path, since the path is longer than one, we can just set the
// first character and resize.
other.spec_[other.parsed_.path.begin] = '/';
other.parsed_.path.len = 1;
other.spec_.resize(other.parsed_.path.begin + 1);
return other;
}
bool GURL::IsStandard() const {
return url::IsStandard(spec_.data(), parsed_.scheme);
}
bool GURL::SchemeIs(const char* lower_ascii_scheme) const {
if (parsed_.scheme.len <= 0)
return lower_ascii_scheme == NULL;
return base::LowerCaseEqualsASCII(spec_.data() + parsed_.scheme.begin,
spec_.data() + parsed_.scheme.end(),
lower_ascii_scheme);
}
bool GURL::SchemeIsHTTPOrHTTPS() const {
return SchemeIs(url::kHttpScheme) || SchemeIs(url::kHttpsScheme);
}
bool GURL::SchemeIsWSOrWSS() const {
return SchemeIs(url::kWsScheme) || SchemeIs(url::kWssScheme);
}
int GURL::IntPort() const {
if (parsed_.port.is_nonempty())
return url::ParsePort(spec_.data(), parsed_.port);
return url::PORT_UNSPECIFIED;
}
int GURL::EffectiveIntPort() const {
int int_port = IntPort();
if (int_port == url::PORT_UNSPECIFIED && IsStandard())
return url::DefaultPortForScheme(spec_.data() + parsed_.scheme.begin,
parsed_.scheme.len);
return int_port;
}
std::string GURL::ExtractFileName() const {
url::Component file_component;
url::ExtractFileName(spec_.data(), parsed_.path, &file_component);
return ComponentString(file_component);
}
std::string GURL::PathForRequest() const {
DCHECK(parsed_.path.len > 0) << "Canonical path for requests should be non-empty";
if (parsed_.ref.len >= 0) {
// Clip off the reference when it exists. The reference starts after the #
// sign, so we have to subtract one to also remove it.
return std::string(spec_, parsed_.path.begin,
parsed_.ref.begin - parsed_.path.begin - 1);
}
// Compute the actual path length, rather than depending on the spec's
// terminator. If we're an inner_url, our spec continues on into our outer
// url's path/query/ref.
int path_len = parsed_.path.len;
if (parsed_.query.is_valid())
path_len = parsed_.query.end() - parsed_.path.begin;
return std::string(spec_, parsed_.path.begin, path_len);
}
std::string GURL::HostNoBrackets() const {
// If host looks like an IPv6 literal, strip the square brackets.
url::Component h(parsed_.host);
if (h.len >= 2 && spec_[h.begin] == '[' && spec_[h.end() - 1] == ']') {
h.begin++;
h.len -= 2;
}
return ComponentString(h);
}
std::string GURL::GetContent() const {
return is_valid_ ? ComponentString(parsed_.GetContent()) : std::string();
}
bool GURL::HostIsIPAddress() const {
if (!is_valid_ || spec_.empty())
return false;
url::RawCanonOutputT<char, 128> ignored_output;
url::CanonHostInfo host_info;
url::CanonicalizeIPAddress(spec_.c_str(), parsed_.host, &ignored_output,
&host_info);
return host_info.IsIPAddress();
}
#ifdef WIN32
const GURL& GURL::EmptyGURL() {
// Avoid static object construction/destruction on startup/shutdown.
if (!empty_gurl) {
// Create the string. Be careful that we don't break in the case that this
// is being called from multiple threads.
GURL* new_empty_gurl = new GURL;
if (InterlockedCompareExchangePointer(
reinterpret_cast<PVOID*>(&empty_gurl), new_empty_gurl, NULL)) {
// The old value was non-NULL, so no replacement was done. Another
// thread did the initialization out from under us.
delete new_empty_gurl;
}
}
return *empty_gurl;
}
#else
void EmptyGURLOnce(void) {
empty_gurl = new GURL;
}
const GURL& GURL::EmptyGURL() {
// Avoid static object construction/destruction on startup/shutdown.
pthread_once(&empty_gurl_once, EmptyGURLOnce);
return *empty_gurl;
}
#endif // WIN32
bool GURL::DomainIs(const char* lower_ascii_domain,
int domain_len) const {
// Return false if this URL is not valid or domain is empty.
if (!is_valid_ || !domain_len)
return false;
// FileSystem URLs have empty parsed_.host, so check this first.
if (SchemeIsFileSystem() && inner_url_)
return inner_url_->DomainIs(lower_ascii_domain, domain_len);
if (!parsed_.host.is_nonempty())
return false;
// Check whether the host name is end with a dot. If yes, treat it
// the same as no-dot unless the input comparison domain is end
// with dot.
const char* last_pos = spec_.data() + parsed_.host.end() - 1;
int host_len = parsed_.host.len;
if ('.' == *last_pos && '.' != lower_ascii_domain[domain_len - 1]) {
last_pos--;
host_len--;
}
// Return false if host's length is less than domain's length.
if (host_len < domain_len)
return false;
// Compare this url whether belong specific domain.
const char* start_pos = spec_.data() + parsed_.host.begin +
host_len - domain_len;
if (!base::LowerCaseEqualsASCII(start_pos,
last_pos + 1,
lower_ascii_domain,
lower_ascii_domain + domain_len))
return false;
// Check whether host has right domain start with dot, make sure we got
// right domain range. For example www.google.com has domain
// "google.com" but www.iamnotgoogle.com does not.
if ('.' != lower_ascii_domain[0] && host_len > domain_len &&
'.' != *(start_pos - 1))
return false;
return true;
}
void GURL::Swap(GURL* other) {
spec_.swap(other->spec_);
std::swap(is_valid_, other->is_valid_);
std::swap(parsed_, other->parsed_);
inner_url_.swap(other->inner_url_);
}
std::ostream& operator<<(std::ostream& out, const GURL& url) {
return out << url.possibly_invalid_spec();
}