& resp_data,
const char* raw_data,
int raw_length,
std::string* alternative_data) {
if (!g_policy_enabled)
return false;
DCHECK(resp_data.get());
StringPiece data(raw_data, raw_length);
// Record the length of the first received network packet to see if it's
// enough for sniffing.
UMA_HISTOGRAM_COUNTS("SiteIsolation.XSD.DataLength", raw_length);
// Record the number of cross-site document responses with a specific mime
// type (text/html, text/xml, etc).
UMA_HISTOGRAM_ENUMERATION(
"SiteIsolation.XSD.MimeType",
resp_data->canonical_mime_type,
SiteIsolationResponseMetaData::MaxCanonicalMimeType);
// Store the result of cross-site document blocking analysis.
bool is_blocked = false;
bool sniffed_as_js = SniffForJS(data);
// Record the number of responses whose content is sniffed for what its mime
// type claims it to be. For example, we apply a HTML sniffer for a document
// tagged with text/html here. Whenever this check becomes true, we'll block
// the response.
if (resp_data->canonical_mime_type !=
SiteIsolationResponseMetaData::Plain) {
std::string bucket_prefix;
bool sniffed_as_target_document = false;
if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::HTML) {
bucket_prefix = "SiteIsolation.XSD.HTML";
sniffed_as_target_document = SniffForHTML(data);
} else if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::XML) {
bucket_prefix = "SiteIsolation.XSD.XML";
sniffed_as_target_document = SniffForXML(data);
} else if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::JSON) {
bucket_prefix = "SiteIsolation.XSD.JSON";
sniffed_as_target_document = SniffForJSON(data);
} else {
NOTREACHED() << "Not a blockable mime type: "
<< resp_data->canonical_mime_type;
}
if (sniffed_as_target_document) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, false);
} else {
if (resp_data->no_sniff) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, true);
} else {
HistogramCountNotBlockedResponse(bucket_prefix, sniffed_as_js);
}
}
} else {
// This block is for plain text documents. We apply our HTML, XML,
// and JSON sniffer to a text document in the order, and block it
// if any of them succeeds in sniffing.
std::string bucket_prefix;
if (SniffForHTML(data))
bucket_prefix = "SiteIsolation.XSD.Plain.HTML";
else if (SniffForXML(data))
bucket_prefix = "SiteIsolation.XSD.Plain.XML";
else if (SniffForJSON(data))
bucket_prefix = "SiteIsolation.XSD.Plain.JSON";
if (bucket_prefix.size() > 0) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, false);
} else if (resp_data->no_sniff) {
is_blocked = true;
HistogramCountBlockedResponse("SiteIsolation.XSD.Plain", resp_data, true);
} else {
HistogramCountNotBlockedResponse("SiteIsolation.XSD.Plain",
sniffed_as_js);
}
}
if (!CommandLine::ForCurrentProcess()->HasSwitch(
switches::kBlockCrossSiteDocuments))
is_blocked = false;
if (is_blocked) {
alternative_data->erase();
alternative_data->insert(0, " ");
LOG(ERROR) << resp_data->response_url
<< " is blocked as an illegal cross-site document from "
<< resp_data->frame_origin;
}
return is_blocked;
}
SiteIsolationResponseMetaData::CanonicalMimeType
SiteIsolationPolicy::GetCanonicalMimeType(const std::string& mime_type) {
if (LowerCaseEqualsASCII(mime_type, kTextHtml)) {
return SiteIsolationResponseMetaData::HTML;
}
if (LowerCaseEqualsASCII(mime_type, kTextPlain)) {
return SiteIsolationResponseMetaData::Plain;
}
if (LowerCaseEqualsASCII(mime_type, kAppJson) ||
LowerCaseEqualsASCII(mime_type, kTextJson) ||
LowerCaseEqualsASCII(mime_type, kTextXjson)) {
return SiteIsolationResponseMetaData::JSON;
}
if (LowerCaseEqualsASCII(mime_type, kTextXml) ||
LowerCaseEqualsASCII(mime_type, xAppRssXml) ||
LowerCaseEqualsASCII(mime_type, kAppXml)) {
return SiteIsolationResponseMetaData::XML;
}
return SiteIsolationResponseMetaData::Others;
}
bool SiteIsolationPolicy::IsBlockableScheme(const GURL& url) {
// We exclude ftp:// from here. FTP doesn't provide a Content-Type
// header which our policy depends on, so we cannot protect any
// document from FTP servers.
return url.SchemeIs("http") || url.SchemeIs("https");
}
bool SiteIsolationPolicy::IsSameSite(const GURL& frame_origin,
const GURL& response_url) {
if (!frame_origin.is_valid() || !response_url.is_valid())
return false;
if (frame_origin.scheme() != response_url.scheme())
return false;
// SameDomainOrHost() extracts the effective domains (public suffix plus one)
// from the two URLs and compare them.
return net::registry_controlled_domains::SameDomainOrHost(
frame_origin,
response_url,
net::registry_controlled_domains::INCLUDE_PRIVATE_REGISTRIES);
}
// We don't use Webkit's existing CORS policy implementation since
// their policy works in terms of origins, not sites. For example,
// when frame is sub.a.com and it is not allowed to access a document
// with sub1.a.com. But under Site Isolation, it's allowed.
bool SiteIsolationPolicy::IsValidCorsHeaderSet(
const GURL& frame_origin,
const GURL& website_origin,
const std::string& access_control_origin) {
// Many websites are sending back "\"*\"" instead of "*". This is
// non-standard practice, and not supported by Chrome. Refer to
// CrossOriginAccessControl::passesAccessControlCheck().
// TODO(dsjang): * is not allowed for the response from a request
// with cookies. This allows for more than what the renderer will
// eventually be able to receive, so we won't see illegal cross-site
// documents allowed by this. We have to find a way to see if this
// response is from a cookie-tagged request or not in the future.
if (access_control_origin == "*")
return true;
// TODO(dsjang): The CORS spec only treats a fully specified URL, except for
// "*", but many websites are using just a domain for access_control_origin,
// and this is blocked by Webkit's CORS logic here :
// CrossOriginAccessControl::passesAccessControlCheck(). GURL is set
// is_valid() to false when it is created from a URL containing * in the
// domain part.
GURL cors_origin(access_control_origin);
return IsSameSite(frame_origin, cors_origin);
}
// This function is a slight modification of |net::SniffForHTML|.
bool SiteIsolationPolicy::SniffForHTML(StringPiece data) {
// The content sniffer used by Chrome and Firefox are using " and do SniffForHTML after that. If we can find the
// comment's end, we start HTML sniffing from there again.
static const char kEndComment[] = "-->";
size_t offset = data.find(kEndComment);
if (offset == base::StringPiece::npos)
break;
// Proceed to the index next to the ending comment (-->).
data.remove_prefix(offset + strlen(kEndComment));
}
return false;
}
bool SiteIsolationPolicy::SniffForXML(base::StringPiece data) {
// TODO(dsjang): Chrome's mime_sniffer is using strncasecmp() for
// this signature. However, XML is case-sensitive. Don't we have to
// be more lenient only to block documents starting with the exact
// string
// 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.
#include "content/child/site_isolation_policy.h"
#include "base/basictypes.h"
#include "base/command_line.h"
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/metrics/histogram.h"
#include "base/strings/string_util.h"
#include "content/public/common/content_switches.h"
#include "content/public/common/resource_response_info.h"
#include "net/base/registry_controlled_domains/registry_controlled_domain.h"
#include "net/http/http_response_headers.h"
using base::StringPiece;
namespace content {
namespace {
// The cross-site document blocking/UMA data collection is deactivated by
// default, and only activated in renderer processes.
static bool g_policy_enabled = false;
// MIME types
const char kTextHtml[] = "text/html";
const char kTextXml[] = "text/xml";
const char xAppRssXml[] = "application/rss+xml";
const char kAppXml[] = "application/xml";
const char kAppJson[] = "application/json";
const char kTextJson[] = "text/json";
const char kTextXjson[] = "text/x-json";
const char kTextPlain[] = "text/plain";
// TODO(dsjang): this is only needed for collecting UMA stat. Will be deleted
// when this class is used for actual blocking.
bool IsRenderableStatusCode(int status_code) {
// Chrome only uses the content of a response with one of these status codes
// for CSS/JavaScript. For images, Chrome just ignores status code.
const int renderable_status_code[] = {200, 201, 202, 203, 206, 300,
301, 302, 303, 305, 306, 307};
for (size_t i = 0; i < arraysize(renderable_status_code); ++i) {
if (renderable_status_code[i] == status_code)
return true;
}
return false;
}
bool MatchesSignature(StringPiece data,
const StringPiece signatures[],
size_t arr_size) {
size_t offset = data.find_first_not_of(" \t\r\n");
// There is no not-whitespace character in this document.
if (offset == base::StringPiece::npos)
return false;
data.remove_prefix(offset);
size_t length = data.length();
for (size_t sig_index = 0; sig_index < arr_size; ++sig_index) {
const StringPiece& signature = signatures[sig_index];
size_t signature_length = signature.length();
if (length < signature_length)
continue;
if (LowerCaseEqualsASCII(
data.begin(), data.begin() + signature_length, signature.data()))
return true;
}
return false;
}
void IncrementHistogramCount(const std::string& name) {
// The default value of min, max, bucket_count are copied from histogram.h.
base::HistogramBase* histogram_pointer = base::Histogram::FactoryGet(
name, 1, 100000, 50, base::HistogramBase::kUmaTargetedHistogramFlag);
histogram_pointer->Add(1);
}
void IncrementHistogramEnum(const std::string& name,
uint32 sample,
uint32 boundary_value) {
// The default value of min, max, bucket_count are copied from histogram.h.
base::HistogramBase* histogram_pointer = base::LinearHistogram::FactoryGet(
name,
1,
boundary_value,
boundary_value + 1,
base::HistogramBase::kUmaTargetedHistogramFlag);
histogram_pointer->Add(sample);
}
void HistogramCountBlockedResponse(
const std::string& bucket_prefix,
linked_ptr<SiteIsolationResponseMetaData>& resp_data,
bool nosniff_block) {
std::string block_label(nosniff_block ? ".NoSniffBlocked" : ".Blocked");
IncrementHistogramCount(bucket_prefix + block_label);
// The content is blocked if it is sniffed as HTML/JSON/XML. When
// the blocked response is with an error status code, it is not
// disruptive for the following reasons : 1) the blocked content is
// not a binary object (such as an image) since it is sniffed as
// text; 2) then, this blocking only breaks the renderer behavior
// only if it is either JavaScript or CSS. However, the renderer
// doesn't use the contents of JS/CSS with unaffected status code
// (e.g, 404). 3) the renderer is expected not to use the cross-site
// document content for purposes other than JS/CSS (e.g, XHR).
bool renderable_status_code =
IsRenderableStatusCode(resp_data->http_status_code);
if (renderable_status_code) {
IncrementHistogramEnum(
bucket_prefix + block_label + ".RenderableStatusCode",
resp_data->resource_type,
ResourceType::LAST_TYPE);
} else {
IncrementHistogramCount(bucket_prefix + block_label +
".NonRenderableStatusCode");
}
}
void HistogramCountNotBlockedResponse(const std::string& bucket_prefix,
bool sniffed_as_js) {
IncrementHistogramCount(bucket_prefix + ".NotBlocked");
if (sniffed_as_js)
IncrementHistogramCount(bucket_prefix + ".NotBlocked.MaybeJS");
}
} // namespace
SiteIsolationResponseMetaData::SiteIsolationResponseMetaData() {}
void SiteIsolationPolicy::SetPolicyEnabled(bool enabled) {
g_policy_enabled = enabled;
}
linked_ptr<SiteIsolationResponseMetaData>
SiteIsolationPolicy::OnReceivedResponse(const GURL& frame_origin,
const GURL& response_url,
ResourceType::Type resource_type,
int origin_pid,
const ResourceResponseInfo& info) {
if (!g_policy_enabled)
return linked_ptr<SiteIsolationResponseMetaData>();
// if |origin_pid| is non-zero, it means that this response is for a plugin
// spawned from this renderer process. We exclude responses for plugins for
// now, but eventually, we're going to make plugin processes directly talk to
// the browser process so that we don't apply cross-site document blocking to
// them.
if (origin_pid)
return linked_ptr<SiteIsolationResponseMetaData>();
UMA_HISTOGRAM_COUNTS("SiteIsolation.AllResponses", 1);
// See if this is for navigation. If it is, don't block it, under the
// assumption that we will put it in an appropriate process.
if (ResourceType::IsFrame(resource_type))
return linked_ptr<SiteIsolationResponseMetaData>();
if (!IsBlockableScheme(response_url))
return linked_ptr<SiteIsolationResponseMetaData>();
if (IsSameSite(frame_origin, response_url))
return linked_ptr<SiteIsolationResponseMetaData>();
SiteIsolationResponseMetaData::CanonicalMimeType canonical_mime_type =
GetCanonicalMimeType(info.mime_type);
if (canonical_mime_type == SiteIsolationResponseMetaData::Others)
return linked_ptr<SiteIsolationResponseMetaData>();
// Every CORS request should have the Access-Control-Allow-Origin header even
// if it is preceded by a pre-flight request. Therefore, if this is a CORS
// request, it has this header. response.httpHeaderField() internally uses
// case-insensitive matching for the header name.
std::string access_control_origin;
// We can use a case-insensitive header name for EnumerateHeader().
info.headers->EnumerateHeader(
NULL, "access-control-allow-origin", &access_control_origin);
if (IsValidCorsHeaderSet(frame_origin, response_url, access_control_origin))
return linked_ptr<SiteIsolationResponseMetaData>();
// Real XSD data collection starts from here.
std::string no_sniff;
info.headers->EnumerateHeader(NULL, "x-content-type-options", &no_sniff);
linked_ptr<SiteIsolationResponseMetaData> resp_data(
new SiteIsolationResponseMetaData);
resp_data->frame_origin = frame_origin.spec();
resp_data->response_url = response_url;
resp_data->resource_type = resource_type;
resp_data->canonical_mime_type = canonical_mime_type;
resp_data->http_status_code = info.headers->response_code();
resp_data->no_sniff = LowerCaseEqualsASCII(no_sniff, "nosniff");
return resp_data;
}
bool SiteIsolationPolicy::ShouldBlockResponse(
linked_ptr<SiteIsolationResponseMetaData>& resp_data,
const char* raw_data,
int raw_length,
std::string* alternative_data) {
if (!g_policy_enabled)
return false;
DCHECK(resp_data.get());
StringPiece data(raw_data, raw_length);
// Record the length of the first received network packet to see if it's
// enough for sniffing.
UMA_HISTOGRAM_COUNTS("SiteIsolation.XSD.DataLength", raw_length);
// Record the number of cross-site document responses with a specific mime
// type (text/html, text/xml, etc).
UMA_HISTOGRAM_ENUMERATION(
"SiteIsolation.XSD.MimeType",
resp_data->canonical_mime_type,
SiteIsolationResponseMetaData::MaxCanonicalMimeType);
// Store the result of cross-site document blocking analysis.
bool is_blocked = false;
bool sniffed_as_js = SniffForJS(data);
// Record the number of responses whose content is sniffed for what its mime
// type claims it to be. For example, we apply a HTML sniffer for a document
// tagged with text/html here. Whenever this check becomes true, we'll block
// the response.
if (resp_data->canonical_mime_type !=
SiteIsolationResponseMetaData::Plain) {
std::string bucket_prefix;
bool sniffed_as_target_document = false;
if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::HTML) {
bucket_prefix = "SiteIsolation.XSD.HTML";
sniffed_as_target_document = SniffForHTML(data);
} else if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::XML) {
bucket_prefix = "SiteIsolation.XSD.XML";
sniffed_as_target_document = SniffForXML(data);
} else if (resp_data->canonical_mime_type ==
SiteIsolationResponseMetaData::JSON) {
bucket_prefix = "SiteIsolation.XSD.JSON";
sniffed_as_target_document = SniffForJSON(data);
} else {
NOTREACHED() << "Not a blockable mime type: "
<< resp_data->canonical_mime_type;
}
if (sniffed_as_target_document) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, false);
} else {
if (resp_data->no_sniff) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, true);
} else {
HistogramCountNotBlockedResponse(bucket_prefix, sniffed_as_js);
}
}
} else {
// This block is for plain text documents. We apply our HTML, XML,
// and JSON sniffer to a text document in the order, and block it
// if any of them succeeds in sniffing.
std::string bucket_prefix;
if (SniffForHTML(data))
bucket_prefix = "SiteIsolation.XSD.Plain.HTML";
else if (SniffForXML(data))
bucket_prefix = "SiteIsolation.XSD.Plain.XML";
else if (SniffForJSON(data))
bucket_prefix = "SiteIsolation.XSD.Plain.JSON";
if (bucket_prefix.size() > 0) {
is_blocked = true;
HistogramCountBlockedResponse(bucket_prefix, resp_data, false);
} else if (resp_data->no_sniff) {
is_blocked = true;
HistogramCountBlockedResponse("SiteIsolation.XSD.Plain", resp_data, true);
} else {
HistogramCountNotBlockedResponse("SiteIsolation.XSD.Plain",
sniffed_as_js);
}
}
if (!CommandLine::ForCurrentProcess()->HasSwitch(
switches::kBlockCrossSiteDocuments))
is_blocked = false;
if (is_blocked) {
alternative_data->erase();
alternative_data->insert(0, " ");
LOG(ERROR) << resp_data->response_url
<< " is blocked as an illegal cross-site document from "
<< resp_data->frame_origin;
}
return is_blocked;
}
SiteIsolationResponseMetaData::CanonicalMimeType
SiteIsolationPolicy::GetCanonicalMimeType(const std::string& mime_type) {
if (LowerCaseEqualsASCII(mime_type, kTextHtml)) {
return SiteIsolationResponseMetaData::HTML;
}
if (LowerCaseEqualsASCII(mime_type, kTextPlain)) {
return SiteIsolationResponseMetaData::Plain;
}
if (LowerCaseEqualsASCII(mime_type, kAppJson) ||
LowerCaseEqualsASCII(mime_type, kTextJson) ||
LowerCaseEqualsASCII(mime_type, kTextXjson)) {
return SiteIsolationResponseMetaData::JSON;
}
if (LowerCaseEqualsASCII(mime_type, kTextXml) ||
LowerCaseEqualsASCII(mime_type, xAppRssXml) ||
LowerCaseEqualsASCII(mime_type, kAppXml)) {
return SiteIsolationResponseMetaData::XML;
}
return SiteIsolationResponseMetaData::Others;
}
bool SiteIsolationPolicy::IsBlockableScheme(const GURL& url) {
// We exclude ftp:// from here. FTP doesn't provide a Content-Type
// header which our policy depends on, so we cannot protect any
// document from FTP servers.
return url.SchemeIs("http") || url.SchemeIs("https");
}
bool SiteIsolationPolicy::IsSameSite(const GURL& frame_origin,
const GURL& response_url) {
if (!frame_origin.is_valid() || !response_url.is_valid())
return false;
if (frame_origin.scheme() != response_url.scheme())
return false;
// SameDomainOrHost() extracts the effective domains (public suffix plus one)
// from the two URLs and compare them.
return net::registry_controlled_domains::SameDomainOrHost(
frame_origin,
response_url,
net::registry_controlled_domains::INCLUDE_PRIVATE_REGISTRIES);
}
// We don't use Webkit's existing CORS policy implementation since
// their policy works in terms of origins, not sites. For example,
// when frame is sub.a.com and it is not allowed to access a document
// with sub1.a.com. But under Site Isolation, it's allowed.
bool SiteIsolationPolicy::IsValidCorsHeaderSet(
const GURL& frame_origin,
const GURL& website_origin,
const std::string& access_control_origin) {
// Many websites are sending back "\"*\"" instead of "*". This is
// non-standard practice, and not supported by Chrome. Refer to
// CrossOriginAccessControl::passesAccessControlCheck().
// TODO(dsjang): * is not allowed for the response from a request
// with cookies. This allows for more than what the renderer will
// eventually be able to receive, so we won't see illegal cross-site
// documents allowed by this. We have to find a way to see if this
// response is from a cookie-tagged request or not in the future.
if (access_control_origin == "*")
return true;
// TODO(dsjang): The CORS spec only treats a fully specified URL, except for
// "*", but many websites are using just a domain for access_control_origin,
// and this is blocked by Webkit's CORS logic here :
// CrossOriginAccessControl::passesAccessControlCheck(). GURL is set
// is_valid() to false when it is created from a URL containing * in the
// domain part.
GURL cors_origin(access_control_origin);
return IsSameSite(frame_origin, cors_origin);
}
// This function is a slight modification of |net::SniffForHTML|.
bool SiteIsolationPolicy::SniffForHTML(StringPiece data) {
// The content sniffer used by Chrome and Firefox are using "<!--"
// as one of the HTML signatures, but it also appears in valid
// JavaScript, considered as well-formed JS by the browser. Since
// we do not want to block any JS, we exclude it from our HTML
// signatures. This can weaken our document block policy, but we can
// break less websites.
// TODO(dsjang): parameterize |net::SniffForHTML| with an option
// that decides whether to include <!-- or not, so that we can
// remove this function.
// TODO(dsjang): Once SiteIsolationPolicy is moved into the browser
// process, we should do single-thread checking here for the static
// initializer.
static const StringPiece kHtmlSignatures[] = {
StringPiece("<!DOCTYPE html"), // HTML5 spec
StringPiece("<script"), // HTML5 spec, Mozilla
StringPiece("<html"), // HTML5 spec, Mozilla
StringPiece("<head"), // HTML5 spec, Mozilla
StringPiece("<iframe"), // Mozilla
StringPiece("<h1"), // Mozilla
StringPiece("<div"), // Mozilla
StringPiece("<font"), // Mozilla
StringPiece("<table"), // Mozilla
StringPiece("<a"), // Mozilla
StringPiece("<style"), // Mozilla
StringPiece("<title"), // Mozilla
StringPiece("<b"), // Mozilla
StringPiece("<body"), // Mozilla
StringPiece("<br"), // Mozilla
StringPiece("<p"), // Mozilla
StringPiece("<?xml") // Mozilla
};
while (data.length() > 0) {
if (MatchesSignature(
data, kHtmlSignatures, arraysize(kHtmlSignatures)))
return true;
// If we cannot find "<!--", we fail sniffing this as HTML.
static const StringPiece kCommentBegins[] = { StringPiece("<!--") };
if (!MatchesSignature(data, kCommentBegins, arraysize(kCommentBegins)))
break;
// Search for --> and do SniffForHTML after that. If we can find the
// comment's end, we start HTML sniffing from there again.
static const char kEndComment[] = "-->";
size_t offset = data.find(kEndComment);
if (offset == base::StringPiece::npos)
break;
// Proceed to the index next to the ending comment (-->).
data.remove_prefix(offset + strlen(kEndComment));
}
return false;
}
bool SiteIsolationPolicy::SniffForXML(base::StringPiece data) {
// TODO(dsjang): Chrome's mime_sniffer is using strncasecmp() for
// this signature. However, XML is case-sensitive. Don't we have to
// be more lenient only to block documents starting with the exact
// string <?xml rather than <?XML ?
// TODO(dsjang): Once SiteIsolationPolicy is moved into the browser
// process, we should do single-thread checking here for the static
// initializer.
static const StringPiece kXmlSignatures[] = { StringPiece("<?xml") };
return MatchesSignature(data, kXmlSignatures, arraysize(kXmlSignatures));
}
bool SiteIsolationPolicy::SniffForJSON(base::StringPiece data) {
// TODO(dsjang): We have to come up with a better way to sniff
// JSON. However, even RE cannot help us that much due to the fact
// that we don't do full parsing. This DFA starts with state 0, and
// finds {, "/' and : in that order. We're avoiding adding a
// dependency on a regular expression library.
enum {
kStartState,
kLeftBraceState,
kLeftQuoteState,
kColonState,
kTerminalState,
} state = kStartState;
size_t length = data.length();
for (size_t i = 0; i < length && state < kColonState; ++i) {
const char c = data[i];
if (c == ' ' || c == '\t' || c == '\r' || c == '\n')
continue;
switch (state) {
case kStartState:
if (c == '{')
state = kLeftBraceState;
else
state = kTerminalState;
break;
case kLeftBraceState:
if (c == '\"' || c == '\'')
state = kLeftQuoteState;
else
state = kTerminalState;
break;
case kLeftQuoteState:
if (c == ':')
state = kColonState;
break;
case kColonState:
case kTerminalState:
NOTREACHED();
break;
}
}
return state == kColonState;
}
bool SiteIsolationPolicy::SniffForJS(StringPiece data) {
// TODO(dsjang): This is a real hack. The only purpose of this function is to
// try to see if there's any possibility that this data can be JavaScript
// (superset of JS). This function will be removed once UMA stats are
// gathered.
// Search for "var " for JS detection.
return data.find("var ") != base::StringPiece::npos;
}
} // namespace content