// Copyright 2014 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 "extensions/browser/updater/manifest_fetch_data.h"
#include <vector>
#include "base/logging.h"
#include "base/metrics/histogram.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "net/base/escape.h"
namespace {
// Maximum length of an extension manifest update check url, since it is a GET
// request. We want to stay under 2K because of proxies, etc.
const int kExtensionsManifestMaxURLSize = 2000;
} // namespace
namespace extensions {
ManifestFetchData::ManifestFetchData(const GURL& update_url,
int request_id,
const std::string& brand_code,
const std::string& base_query_params,
PingMode ping_mode)
: base_url_(update_url),
full_url_(update_url),
brand_code_(brand_code),
ping_mode_(ping_mode) {
std::string query =
full_url_.has_query() ? full_url_.query() + "&" : std::string();
query += base_query_params;
GURL::Replacements replacements;
replacements.SetQueryStr(query);
full_url_ = full_url_.ReplaceComponents(replacements);
request_ids_.insert(request_id);
}
ManifestFetchData::~ManifestFetchData() {
}
// The format for request parameters in update checks is:
//
// ?x=EXT1_INFO&x=EXT2_INFO
//
// where EXT1_INFO and EXT2_INFO are url-encoded strings of the form:
//
// id=EXTENSION_ID&v=VERSION&uc
//
// Provide ping data with the parameter ping=PING_DATA where PING_DATA
// looks like r=DAYS or a=DAYS for extensions in the Chrome extensions gallery.
// ('r' refers to 'roll call' ie installation, and 'a' refers to 'active').
// These values will each be present at most once every 24 hours, and indicate
// the number of days since the last time it was present in an update check.
//
// So for two extensions like:
// Extension 1- id:aaaa version:1.1
// Extension 2- id:bbbb version:2.0
//
// the full update url would be:
// http://somehost/path?x=id%3Daaaa%26v%3D1.1%26uc&x=id%3Dbbbb%26v%3D2.0%26uc
//
// (Note that '=' is %3D and '&' is %26 when urlencoded.)
bool ManifestFetchData::AddExtension(const std::string& id,
const std::string& version,
const PingData* ping_data,
const std::string& update_url_data,
const std::string& install_source,
bool force_update) {
if (extension_ids_.find(id) != extension_ids_.end()) {
NOTREACHED() << "Duplicate extension id " << id;
return false;
}
if (force_update)
forced_updates_.insert(id);
// If we want to force an update, we send 0.0.0.0 as the installed version
// number.
const std::string installed_version = force_update ? "0.0.0.0" : version;
// Compute the string we'd append onto the full_url_, and see if it fits.
std::vector<std::string> parts;
parts.push_back("id=" + id);
parts.push_back("v=" + installed_version);
if (!install_source.empty())
parts.push_back("installsource=" + install_source);
parts.push_back("uc");
if (!update_url_data.empty()) {
// Make sure the update_url_data string is escaped before using it so that
// there is no chance of overriding the id or v other parameter value
// we place into the x= value.
parts.push_back("ap=" + net::EscapeQueryParamValue(update_url_data, true));
}
// Append brand code, rollcall and active ping parameters.
if (ping_mode_ != NO_PING) {
if (!brand_code_.empty())
parts.push_back(base::StringPrintf("brand=%s", brand_code_.c_str()));
std::string ping_value;
pings_[id] = PingData(0, 0, false);
if (ping_data) {
if (ping_data->rollcall_days == kNeverPinged ||
ping_data->rollcall_days > 0) {
ping_value += "r=" + base::IntToString(ping_data->rollcall_days);
if (ping_mode_ == PING_WITH_METRICS) {
ping_value += "&e=" + std::string(ping_data->is_enabled ? "1" : "0");
}
pings_[id].rollcall_days = ping_data->rollcall_days;
pings_[id].is_enabled = ping_data->is_enabled;
}
if (ping_data->active_days == kNeverPinged ||
ping_data->active_days > 0) {
if (!ping_value.empty())
ping_value += "&";
ping_value += "a=" + base::IntToString(ping_data->active_days);
pings_[id].active_days = ping_data->active_days;
}
}
if (!ping_value.empty())
parts.push_back("ping=" + net::EscapeQueryParamValue(ping_value, true));
}
std::string extra = full_url_.has_query() ? "&" : "?";
extra += "x=" + net::EscapeQueryParamValue(JoinString(parts, '&'), true);
// Check against our max url size, exempting the first extension added.
int new_size = full_url_.possibly_invalid_spec().size() + extra.size();
if (!extension_ids_.empty() && new_size > kExtensionsManifestMaxURLSize) {
UMA_HISTOGRAM_PERCENTAGE("Extensions.UpdateCheckHitUrlSizeLimit", 1);
return false;
}
UMA_HISTOGRAM_PERCENTAGE("Extensions.UpdateCheckHitUrlSizeLimit", 0);
// We have room so go ahead and add the extension.
extension_ids_.insert(id);
full_url_ = GURL(full_url_.possibly_invalid_spec() + extra);
return true;
}
bool ManifestFetchData::Includes(const std::string& extension_id) const {
return extension_ids_.find(extension_id) != extension_ids_.end();
}
bool ManifestFetchData::DidPing(const std::string& extension_id,
PingType type) const {
std::map<std::string, PingData>::const_iterator i = pings_.find(extension_id);
if (i == pings_.end())
return false;
int value = 0;
if (type == ROLLCALL)
value = i->second.rollcall_days;
else if (type == ACTIVE)
value = i->second.active_days;
else
NOTREACHED();
return value == kNeverPinged || value > 0;
}
void ManifestFetchData::Merge(const ManifestFetchData& other) {
DCHECK(full_url() == other.full_url());
request_ids_.insert(other.request_ids_.begin(), other.request_ids_.end());
}
bool ManifestFetchData::DidForceUpdate(const std::string& extension_id) const {
return forced_updates_.find(extension_id) != forced_updates_.end();
}
} // namespace extensions