Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / system / connectivity / shill / baeefdf544bfcfe2895e4e15c348db3f7ce4d45b / . / wifi_endpoint_unittest.cc
blob: f939e907d95021fbb51f704218632bf31c2c2de3 [file] [log] [blame]
// Copyright (c) 2012 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_endpoint.h"
#include <map>
#include <set>
#include <string>
#include <vector>
#include <base/stl_util.h>
#include <chromeos/dbus/service_constants.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "shill/ieee80211.h"
#include "shill/mock_wifi.h"
#include "shill/property_store_unittest.h"
#include "shill/refptr_types.h"
#include "shill/wpa_supplicant.h"
using std::map;
using std::set;
using std::string;
using std::vector;
using ::testing::_;
using ::testing::NiceMock;
namespace shill {
class WiFiEndpointTest : public PropertyStoreTest {
public:
WiFiEndpointTest() : wifi_(
new NiceMock<MockWiFi>(
control_interface(),
dispatcher(),
metrics(),
manager(),
"wifi",
"aabbccddeeff", // fake mac
0)) {}
virtual ~WiFiEndpointTest() {}
protected:
vector<string> make_string_vector1(const string &str1) {
vector<string> strvec;
strvec.push_back(str1);
return strvec;
}
vector<string> make_string_vector2(const string &str1, const string &str2) {
vector<string> strvec;
strvec.push_back(str1);
strvec.push_back(str2);
return strvec;
}
map<string, ::DBus::Variant> make_key_management_args(
vector<string> key_management_method_strings) {
map<string, ::DBus::Variant> args;
::DBus::MessageIter writer;
writer =
args[wpa_supplicant::kSecurityMethodPropertyKeyManagement].writer();
writer << key_management_method_strings;
return args;
}
map<string, ::DBus::Variant> make_security_args(
const string &security_protocol,
const string &key_management_method) {
map<string, ::DBus::Variant> args;
::DBus::MessageIter writer;
writer = args[security_protocol].writer();
writer <<
make_key_management_args(make_string_vector1(key_management_method));
return args;
}
const char *ParseSecurity(
const map<string, ::DBus::Variant> &properties) {
return WiFiEndpoint::ParseSecurity(properties);
}
void AddIE(uint8_t type, vector<uint8_t> *ies) {
ies->push_back(type); // type
ies->push_back(4); // length
ies->insert(ies->end(), 3, 0); // OUI
ies->push_back(0); // data
}
WiFiEndpoint *MakeOpenEndpoint(ProxyFactory *proxy_factory,
const WiFiRefPtr &wifi,
const std::string &ssid,
const std::string &bssid) {
return WiFiEndpoint::MakeOpenEndpoint(
proxy_factory, wifi, ssid, bssid, 0, 0);
}
scoped_refptr<MockWiFi> wifi() { return wifi_; }
private:
scoped_refptr<MockWiFi> wifi_;
};
TEST_F(WiFiEndpointTest, ParseKeyManagementMethodsEAP) {
set<WiFiEndpoint::KeyManagement> parsed_methods;
WiFiEndpoint::ParseKeyManagementMethods(
make_key_management_args(make_string_vector1("something-eap")),
&parsed_methods);
EXPECT_TRUE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagement802_1x));
EXPECT_FALSE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagementPSK));
}
TEST_F(WiFiEndpointTest, ParseKeyManagementMethodsPSK) {
set<WiFiEndpoint::KeyManagement> parsed_methods;
WiFiEndpoint::ParseKeyManagementMethods(
make_key_management_args(make_string_vector1("something-psk")),
&parsed_methods);
EXPECT_TRUE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagementPSK));
EXPECT_FALSE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagement802_1x));
}
TEST_F(WiFiEndpointTest, ParseKeyManagementMethodsEAPAndPSK) {
set<WiFiEndpoint::KeyManagement> parsed_methods;
WiFiEndpoint::ParseKeyManagementMethods(
make_key_management_args(
make_string_vector2("something-eap", "something-psk")),
&parsed_methods);
EXPECT_TRUE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagement802_1x));
EXPECT_TRUE(
ContainsKey(parsed_methods, WiFiEndpoint::kKeyManagementPSK));
}
TEST_F(WiFiEndpointTest, ParseSecurityRSN802_1x) {
EXPECT_STREQ(flimflam::kSecurity8021x,
ParseSecurity(make_security_args("RSN", "something-eap")));
}
TEST_F(WiFiEndpointTest, ParseSecurityWPA802_1x) {
EXPECT_STREQ(flimflam::kSecurity8021x,
ParseSecurity(make_security_args("WPA", "something-eap")));
}
TEST_F(WiFiEndpointTest, ParseSecurityRSNPSK) {
EXPECT_STREQ(flimflam::kSecurityRsn,
ParseSecurity(make_security_args("RSN", "something-psk")));
}
TEST_F(WiFiEndpointTest, ParseSecurityWPAPSK) {
EXPECT_STREQ(flimflam::kSecurityWpa,
ParseSecurity(make_security_args("WPA", "something-psk")));
}
TEST_F(WiFiEndpointTest, ParseSecurityWEP) {
map<string, ::DBus::Variant> top_params;
top_params[wpa_supplicant::kPropertyPrivacy].writer().append_bool(true);
EXPECT_STREQ(flimflam::kSecurityWep, ParseSecurity(top_params));
}
TEST_F(WiFiEndpointTest, ParseSecurityNone) {
map<string, ::DBus::Variant> top_params;
EXPECT_STREQ(flimflam::kSecurityNone, ParseSecurity(top_params));
}
TEST_F(WiFiEndpointTest, SSIDWithNull) {
WiFiEndpointRefPtr endpoint =
MakeOpenEndpoint(NULL, NULL, string(1, 0), "00:00:00:00:00:01");
EXPECT_EQ("?", endpoint->ssid_string());
}
TEST_F(WiFiEndpointTest, DeterminePhyMode) {
{
map<string, ::DBus::Variant> properties;
vector<uint8_t> ies;
AddIE(IEEE_80211::kElemIdErp, &ies);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyIEs].writer();
writer << ies;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11g,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
{
map<string, ::DBus::Variant> properties;
vector<uint8_t> ies;
AddIE(IEEE_80211::kElemIdHTCap, &ies);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyIEs].writer();
writer << ies;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11n,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
{
map<string, ::DBus::Variant> properties;
vector<uint8_t> ies;
AddIE(IEEE_80211::kElemIdHTInfo, &ies);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyIEs].writer();
writer << ies;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11n,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
{
map<string, ::DBus::Variant> properties;
vector<uint8_t> ies;
AddIE(IEEE_80211::kElemIdErp, &ies);
AddIE(IEEE_80211::kElemIdHTCap, &ies);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyIEs].writer();
writer << ies;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11n,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
{
map<string, ::DBus::Variant> properties;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11a,
WiFiEndpoint::DeterminePhyMode(properties, 3200));
}
{
map<string, ::DBus::Variant> properties;
vector<uint32_t> rates(1, 22000000);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyRates].writer();
writer << rates;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11b,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
{
map<string, ::DBus::Variant> properties;
vector<uint32_t> rates(1, 54000000);
::DBus::MessageIter writer =
properties[wpa_supplicant::kBSSPropertyRates].writer();
writer << rates;
EXPECT_EQ(Metrics::kWiFiNetworkPhyMode11g,
WiFiEndpoint::DeterminePhyMode(properties, 2400));
}
}
TEST_F(WiFiEndpointTest, PropertiesChanged) {
WiFiEndpointRefPtr endpoint =
MakeOpenEndpoint(NULL, wifi(), "ssid", "00:00:00:00:00:01");
map<string, ::DBus::Variant> changed_properties;
::DBus::MessageIter writer;
int16_t signal_strength = 10;
EXPECT_NE(signal_strength, endpoint->signal_strength());
writer =
changed_properties[wpa_supplicant::kBSSPropertySignal].writer();
writer << signal_strength;
EXPECT_CALL(*wifi(), NotifyEndpointChanged(_));
endpoint->PropertiesChanged(changed_properties);
EXPECT_EQ(signal_strength, endpoint->signal_strength());
}
} // namespace shill