blob: 024f3c3da898dc716c465dd55e7b6fdde98983d7 [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/device.h"
#include <time.h>
#include <stdio.h>
#include <string>
#include <vector>
#include <base/logging.h>
#include <base/memory/ref_counted.h>
#include <base/stringprintf.h>
#include <chromeos/dbus/service_constants.h>
#include "shill/connection.h"
#include "shill/control_interface.h"
#include "shill/device_dbus_adaptor.h"
#include "shill/dhcp_config.h"
#include "shill/dhcp_provider.h"
#include "shill/error.h"
#include "shill/manager.h"
#include "shill/property_accessor.h"
#include "shill/refptr_types.h"
#include "shill/rtnl_handler.h"
#include "shill/service.h"
#include "shill/shill_event.h"
#include "shill/store_interface.h"
using base::StringPrintf;
using std::string;
using std::vector;
namespace shill {
// static
const char Device::kStoragePowered[] = "Powered";
// static
const char Device::kStorageIPConfigs[] = "IPConfigs";
Device::Device(ControlInterface *control_interface,
EventDispatcher *dispatcher,
Manager *manager,
const string &link_name,
const string &address,
int interface_index)
: powered_(true),
reconnect_(true),
hardware_address_(address),
interface_index_(interface_index),
running_(false),
link_name_(link_name),
unique_id_(link_name),
control_interface_(control_interface),
dispatcher_(dispatcher),
manager_(manager),
adaptor_(control_interface->CreateDeviceAdaptor(this)),
dhcp_provider_(DHCPProvider::GetInstance()) {
store_.RegisterConstString(flimflam::kAddressProperty, &hardware_address_);
// flimflam::kBgscanMethodProperty: Registered in WiFi
// flimflam::kBgscanShortIntervalProperty: Registered in WiFi
// flimflam::kBgscanSignalThresholdProperty: Registered in WiFi
// flimflam::kCellularAllowRoamingProperty: Registered in Cellular
// flimflam::kCarrierProperty: Registered in Cellular
// flimflam::kEsnProperty: Registered in Cellular
// flimflam::kHomeProviderProperty: Registered in Cellular
// flimflam::kImeiProperty: Registered in Cellular
// flimflam::kImsiProperty: Registered in Cellular
// flimflam::kManufacturerProperty: Registered in Cellular
// flimflam::kMdnProperty: Registered in Cellular
// flimflam::kMeidProperty: Registered in Cellular
// flimflam::kMinProperty: Registered in Cellular
// flimflam::kModelIDProperty: Registered in Cellular
// flimflam::kFirmwareRevisionProperty: Registered in Cellular
// flimflam::kHardwareRevisionProperty: Registered in Cellular
// flimflam::kPRLVersionProperty: Registered in Cellular
// flimflam::kSIMLockStatusProperty: Registered in Cellular
// flimflam::kFoundNetworksProperty: Registered in Cellular
// flimflam::kDBusConnectionProperty: Registered in Cellular
// flimflam::kDBusObjectProperty: Register in Cellular
// TODO(cmasone): Chrome doesn't use this...does anyone?
// store_.RegisterConstString(flimflam::kInterfaceProperty, &link_name_);
HelpRegisterDerivedStrings(flimflam::kIPConfigsProperty,
&Device::AvailableIPConfigs,
NULL);
store_.RegisterConstString(flimflam::kNameProperty, &link_name_);
store_.RegisterBool(flimflam::kPoweredProperty, &powered_);
// TODO(cmasone): Chrome doesn't use this...does anyone?
// store_.RegisterConstBool(flimflam::kReconnectProperty, &reconnect_);
// TODO(cmasone): Figure out what shill concept maps to flimflam's "Network".
// known_properties_.push_back(flimflam::kNetworksProperty);
// flimflam::kScanningProperty: Registered in WiFi, Cellular
// flimflam::kScanIntervalProperty: Registered in WiFi, Cellular
// TODO(pstew): Initialize Interface monitor, so we can detect new interfaces
VLOG(2) << "Device " << link_name_ << " index " << interface_index;
}
Device::~Device() {
VLOG(2) << "Device " << link_name_ << " destroyed.";
}
void Device::Start() {
running_ = true;
VLOG(2) << "Device " << link_name_ << " starting.";
adaptor_->UpdateEnabled();
}
void Device::Stop() {
running_ = false;
adaptor_->UpdateEnabled();
}
bool Device::TechnologyIs(const Technology type) const {
return false;
}
void Device::LinkEvent(unsigned flags, unsigned change) {
VLOG(2) << "Device " << link_name_
<< std::showbase << std::hex
<< " flags " << flags << " changed " << change
<< std::dec << std::noshowbase;
}
void Device::Scan() {
VLOG(2) << "Device " << link_name_ << " scan requested.";
}
void Device::RegisterOnNetwork(const std::string &network_id, Error *error) {
const string kMessage = "Device doesn't support network registration.";
LOG(ERROR) << kMessage;
CHECK(error);
error->Populate(Error::kNotSupported, kMessage);
}
void Device::RequirePIN(const string &pin, bool require, Error *error) {
const string kMessage = "Device doesn't support RequirePIN.";
LOG(ERROR) << kMessage;
CHECK(error);
error->Populate(Error::kNotSupported, kMessage);
}
void Device::EnterPIN(const string &pin, Error *error) {
const string kMessage = "Device doesn't support EnterPIN.";
LOG(ERROR) << kMessage;
CHECK(error);
error->Populate(Error::kNotSupported, kMessage);
}
void Device::UnblockPIN(const string &unblock_code,
const string &pin,
Error *error) {
const string kMessage = "Device doesn't support UnblockPIN.";
LOG(ERROR) << kMessage;
CHECK(error);
error->Populate(Error::kNotSupported, kMessage);
}
void Device::ChangePIN(const string &old_pin,
const string &new_pin,
Error *error) {
const string kMessage = "Device doesn't support ChangePIN.";
LOG(ERROR) << kMessage;
CHECK(error);
error->Populate(Error::kNotSupported, kMessage);
}
string Device::GetRpcIdentifier() {
return adaptor_->GetRpcIdentifier();
}
string Device::GetStorageIdentifier() {
string id = GetRpcIdentifier();
ControlInterface::RpcIdToStorageId(&id);
size_t needle = id.find('_');
DLOG_IF(ERROR, needle == string::npos) << "No _ in storage id?!?!";
id.replace(id.begin() + needle + 1, id.end(), hardware_address_);
return id;
}
const string& Device::FriendlyName() const {
return link_name_;
}
const string& Device::UniqueName() const {
return unique_id_;
}
bool Device::Load(StoreInterface *storage) {
const string id = GetStorageIdentifier();
if (!storage->ContainsGroup(id)) {
LOG(WARNING) << "Device is not available in the persistent store: " << id;
return false;
}
storage->GetBool(id, kStoragePowered, &powered_);
// TODO(cmasone): What does it mean to load an IPConfig identifier??
return true;
}
bool Device::Save(StoreInterface *storage) {
const string id = GetStorageIdentifier();
storage->SetBool(id, kStoragePowered, powered_);
if (ipconfig_.get()) {
// The _0 is an index into the list of IPConfigs that this device might
// have. We only have one IPConfig right now, and I hope to never have
// to support more, as sleffler indicates that associating IPConfigs
// with devices is wrong and due to be changed in flimflam anyhow.
string suffix = hardware_address_ + "_0";
ipconfig_->Save(storage, suffix);
storage->SetString(id, kStorageIPConfigs, SerializeIPConfigs(suffix));
}
return true;
}
void Device::DestroyIPConfig() {
if (ipconfig_.get()) {
ipconfig_->ReleaseIP();
ipconfig_ = NULL;
}
DestroyConnection();
}
bool Device::AcquireDHCPConfig() {
DestroyIPConfig();
ipconfig_ = dhcp_provider_->CreateConfig(link_name_);
ipconfig_->RegisterUpdateCallback(
NewCallback(this, &Device::IPConfigUpdatedCallback));
return ipconfig_->RequestIP();
}
void Device::HelpRegisterDerivedStrings(const string &name,
Strings(Device::*get)(void),
bool(Device::*set)(const Strings&)) {
store_.RegisterDerivedStrings(
name,
StringsAccessor(new CustomAccessor<Device, Strings>(this, get, set)));
}
void Device::IPConfigUpdatedCallback(const IPConfigRefPtr &ipconfig,
bool success) {
VLOG(2) << __func__ << " " << " success: " << success;
if (success) {
CreateConnection();
connection_->UpdateFromIPConfig(ipconfig);
SetServiceState(Service::kStateConnected);
} else {
// TODO(pstew): This logic gets more complex when multiple IPConfig types
// are run in parallel (e.g. DHCP and DHCP6)
SetServiceState(Service::kStateDisconnected);
DestroyConnection();
}
}
void Device::CreateConnection() {
VLOG(2) << __func__;
if (!connection_.get()) {
connection_ = new Connection(interface_index_,
link_name_,
manager_->device_info());
}
}
void Device::DestroyConnection() {
VLOG(2) << __func__;
connection_ = NULL;
}
void Device::SelectService(const ServiceRefPtr &service) {
VLOG(2) << __func__ << ": "
<< (service.get() ? service->UniqueName() : "*reset*");
if (selected_service_.get() &&
selected_service_->state() != Service::kStateFailure) {
selected_service_->SetState(Service::kStateIdle);
}
selected_service_ = service;
}
void Device::SetServiceState(Service::ConnectState state) {
if (selected_service_.get()) {
selected_service_->SetState(state);
}
}
void Device::SetServiceFailure(Service::ConnectFailure failure_state) {
if (selected_service_.get()) {
selected_service_->SetFailure(failure_state);
}
}
string Device::SerializeIPConfigs(const string &suffix) {
return StringPrintf("%s:%s", suffix.c_str(), ipconfig_->type().c_str());
}
vector<string> Device::AvailableIPConfigs() {
string id = (ipconfig_.get() ? ipconfig_->GetRpcIdentifier() : string());
return vector<string>(1, id);
}
string Device::GetRpcConnectionIdentifier() {
return adaptor_->GetRpcConnectionIdentifier();
}
} // namespace shill