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gerrit-public.fairphone.software / platform / system / connectivity / shill / f2fd745d303a73a5820caad7f98d739fef12bb49 / . / wifi_service.cc
blob: daeb80f83690e7551e51351e1d51a7e75c3c22b6 [file] [log] [blame]
// Copyright (c) 2011 The Chromium OS 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 "shill/wifi_service.h"
#include <string>
#include <base/logging.h>
#include <base/stringprintf.h>
#include <base/string_number_conversions.h>
#include <base/string_util.h>
#include <chromeos/dbus/service_constants.h>
#include <dbus/dbus.h>
#include "shill/control_interface.h"
#include "shill/device.h"
#include "shill/shill_event.h"
#include "shill/wifi.h"
#include "shill/wifi_endpoint.h"
#include "shill/wpa_supplicant.h"
using std::string;
namespace shill {
WiFiService::WiFiService(ControlInterface *control_interface,
EventDispatcher *dispatcher,
Manager *manager,
const WiFiRefPtr &device,
const std::vector<uint8_t> ssid,
const std::string &mode,
const std::string &security)
: Service(control_interface, dispatcher, manager, flimflam::kTypeWifi),
security_(security),
mode_(mode),
task_factory_(this),
wifi_(device),
ssid_(ssid) {
PropertyStore *store = this->mutable_store();
store->RegisterConstString(flimflam::kModeProperty, &mode_);
store->RegisterString(flimflam::kPassphraseProperty, &passphrase_);
store->RegisterBool(flimflam::kPassphraseRequiredProperty, &need_passphrase_);
store->RegisterConstString(flimflam::kSecurityProperty, &security_);
store->RegisterConstUint8(flimflam::kSignalStrengthProperty, &strength_);
store->RegisterConstString(flimflam::kWifiAuthMode, &auth_mode_);
store->RegisterConstBool(flimflam::kWifiHiddenSsid, &hidden_ssid_);
store->RegisterConstUint16(flimflam::kWifiFrequency, &frequency_);
store->RegisterConstUint16(flimflam::kWifiPhyMode, &physical_mode_);
store->RegisterConstString(flimflam::kWifiHexSsid, &hex_ssid_);
hex_ssid_ = base::HexEncode(&(*ssid_.begin()), ssid_.size());
set_name(name() +
"_" +
string(reinterpret_cast<const char*>(ssid_.data()), ssid_.size()));
// TODO(quiche): determine if it is okay to set EAP.KeyManagement for
// a service that is not 802.1x.
if (security_ == flimflam::kSecurity8021x) {
NOTIMPLEMENTED();
// XXX needs_passpharse_ = false ?
} else if (security_ == flimflam::kSecurityPsk) {
SetEAPKeyManagement("WPA-PSK");
need_passphrase_ = true;
} else if (security_ == flimflam::kSecurityRsn) {
SetEAPKeyManagement("WPA-PSK");
need_passphrase_ = true;
} else if (security_ == flimflam::kSecurityWpa) {
SetEAPKeyManagement("WPA-PSK");
need_passphrase_ = true;
} else if (security_ == flimflam::kSecurityWep) {
SetEAPKeyManagement("NONE");
need_passphrase_ = true;
} else if (security_ == flimflam::kSecurityNone) {
SetEAPKeyManagement("NONE");
need_passphrase_ = false;
} else {
LOG(ERROR) << "unsupported security method " << security_;
}
// TODO(quiche): figure out when to set true
hidden_ssid_ = false;
}
WiFiService::~WiFiService() {
LOG(INFO) << __func__;
}
void WiFiService::Connect(Error */*error*/) {
LOG(INFO) << __func__;
// NB(quiche) defer handling, since dbus-c++ does not permit us to
// send an outbound request while processing an inbound one.
dispatcher()->PostTask(
task_factory_.NewRunnableMethod(&WiFiService::ConnectTask));
}
void WiFiService::Disconnect() {
// TODO(quiche) RemoveNetwork from supplicant
// XXX remove from favorite networks list?
}
bool WiFiService::TechnologyIs(const Technology::Identifier type) const {
return wifi_->TechnologyIs(type);
}
string WiFiService::GetStorageIdentifier() {
return StringToLowerASCII(base::StringPrintf("%s_%s_%s_%s_%s",
flimflam::kTypeWifi,
wifi_->address().c_str(),
hex_ssid_.c_str(),
mode_.c_str(),
security_.c_str()));
}
const string &WiFiService::mode() const {
return mode_;
}
const string &WiFiService::key_management() const {
return GetEAPKeyManagement();
}
const std::vector<uint8_t> &WiFiService::ssid() const {
return ssid_;
}
// private methods
void WiFiService::ConnectTask() {
std::map<string, DBus::Variant> params;
DBus::MessageIter writer;
params[wpa_supplicant::kNetworkPropertyMode].writer().
append_uint32(WiFiEndpoint::ModeStringToUint(mode_));
if (security_ == flimflam::kSecurity8021x) {
NOTIMPLEMENTED();
} else if (security_ == flimflam::kSecurityPsk) {
NOTIMPLEMENTED();
} else if (security_ == flimflam::kSecurityRsn) {
params[wpa_supplicant::kPropertySecurityProtocol].writer().
append_string(wpa_supplicant::kSecurityModeRSN);
params[wpa_supplicant::kPropertyPreSharedKey].writer().
append_string(passphrase_.c_str());
} else if (security_ == flimflam::kSecurityWpa) {
params[wpa_supplicant::kPropertySecurityProtocol].writer().
append_string(wpa_supplicant::kSecurityModeWPA);
params[wpa_supplicant::kPropertyPreSharedKey].writer().
append_string(passphrase_.c_str());
} else if (security_ == flimflam::kSecurityWep) {
NOTIMPLEMENTED();
} else if (security_ == flimflam::kSecurityNone) {
// nothing special to do here
} else {
LOG(ERROR) << "can't connect. unsupported security method " << security_;
}
params[wpa_supplicant::kPropertyKeyManagement].writer().
append_string(key_management().c_str());
// TODO(quiche): figure out why we can't use operator<< without the
// temporary variable.
writer = params[wpa_supplicant::kNetworkPropertySSID].writer();
writer << ssid_;
wifi_->ConnectTo(this, params);
}
string WiFiService::GetDeviceRpcId() {
return wifi_->GetRpcIdentifier();
}
} // namespace shill