/* * Copyright (C) 2022 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include "aidl_struct_util.h" using testing::Test; namespace { constexpr uint32_t kMacId1 = 1; constexpr uint32_t kMacId2 = 2; constexpr uint32_t kIfaceChannel1 = 3; constexpr uint32_t kIfaceChannel2 = 5; constexpr char kIfaceName1[] = "wlan0"; constexpr char kIfaceName2[] = "wlan1"; constexpr uint8_t kMacAddress[] = {0x02, 0x12, 0x45, 0x56, 0xab, 0xcc}; byte LCI[] = {0x27, 0x1A, 0x1, 0x00, 0x8, 0x01, 0x00, 0x08, 0x00, 0x10, 0x52, 0x83, 0x4d, 0x12, 0xef, 0xd2, 0xb0, 0x8b, 0x9b, 0x4b, 0xf1, 0xcc, 0x2c, 0x00, 0x00, 0x41, 0x06, 0x03, 0x06, 0x00, 0x80}; byte LCR[] = {0x27, 0xE, 0x1, 0x00, 0xB, 0x01, 0x00, 0x0b, 0x00, 0x09, 0x55, 0x53, 0x18, 0x05, 0x39, 0x34, 0x30, 0x34, 0x33}; } // namespace namespace aidl { namespace android { namespace hardware { namespace wifi { class AidlStructUtilTest : public Test {}; TEST_F(AidlStructUtilTest, CanConvertLegacyWifiMacInfosToAidlWithOneMac) { std::vector legacy_mac_infos; legacy_hal::WifiMacInfo legacy_mac_info1 = { .wlan_mac_id = kMacId1, .mac_band = legacy_hal::WLAN_MAC_5_0_BAND | legacy_hal::WLAN_MAC_2_4_BAND}; legacy_hal::WifiIfaceInfo legacy_iface_info1 = {.name = kIfaceName1, .channel = kIfaceChannel1}; legacy_hal::WifiIfaceInfo legacy_iface_info2 = {.name = kIfaceName2, .channel = kIfaceChannel2}; legacy_mac_info1.iface_infos.push_back(legacy_iface_info1); legacy_mac_info1.iface_infos.push_back(legacy_iface_info2); legacy_mac_infos.push_back(legacy_mac_info1); std::vector aidl_radio_mode_infos; ASSERT_TRUE(aidl_struct_util::convertLegacyWifiMacInfosToAidl(legacy_mac_infos, &aidl_radio_mode_infos)); ASSERT_EQ(1u, aidl_radio_mode_infos.size()); auto aidl_radio_mode_info1 = aidl_radio_mode_infos[0]; EXPECT_EQ(legacy_mac_info1.wlan_mac_id, (uint32_t)aidl_radio_mode_info1.radioId); EXPECT_EQ(WifiBand::BAND_24GHZ_5GHZ, aidl_radio_mode_info1.bandInfo); ASSERT_EQ(2u, aidl_radio_mode_info1.ifaceInfos.size()); auto aidl_iface_info1 = aidl_radio_mode_info1.ifaceInfos[0]; EXPECT_EQ(legacy_iface_info1.name, aidl_iface_info1.name); EXPECT_EQ(static_cast(legacy_iface_info1.channel), aidl_iface_info1.channel); auto aidl_iface_info2 = aidl_radio_mode_info1.ifaceInfos[1]; EXPECT_EQ(legacy_iface_info2.name, aidl_iface_info2.name); EXPECT_EQ(static_cast(legacy_iface_info2.channel), aidl_iface_info2.channel); } TEST_F(AidlStructUtilTest, CanConvertLegacyWifiMacInfosToAidlWithTwoMac) { std::vector legacy_mac_infos; legacy_hal::WifiMacInfo legacy_mac_info1 = {.wlan_mac_id = kMacId1, .mac_band = legacy_hal::WLAN_MAC_5_0_BAND}; legacy_hal::WifiIfaceInfo legacy_iface_info1 = {.name = kIfaceName1, .channel = kIfaceChannel1}; legacy_hal::WifiMacInfo legacy_mac_info2 = {.wlan_mac_id = kMacId2, .mac_band = legacy_hal::WLAN_MAC_2_4_BAND}; legacy_hal::WifiIfaceInfo legacy_iface_info2 = {.name = kIfaceName2, .channel = kIfaceChannel2}; legacy_mac_info1.iface_infos.push_back(legacy_iface_info1); legacy_mac_infos.push_back(legacy_mac_info1); legacy_mac_info2.iface_infos.push_back(legacy_iface_info2); legacy_mac_infos.push_back(legacy_mac_info2); std::vector aidl_radio_mode_infos; ASSERT_TRUE(aidl_struct_util::convertLegacyWifiMacInfosToAidl(legacy_mac_infos, &aidl_radio_mode_infos)); ASSERT_EQ(2u, aidl_radio_mode_infos.size()); // Find mac info 1. const auto aidl_radio_mode_info1 = std::find_if(aidl_radio_mode_infos.begin(), aidl_radio_mode_infos.end(), [&legacy_mac_info1](const IWifiChipEventCallback::RadioModeInfo& x) { return (uint32_t)x.radioId == legacy_mac_info1.wlan_mac_id; }); ASSERT_NE(aidl_radio_mode_infos.end(), aidl_radio_mode_info1); EXPECT_EQ(WifiBand::BAND_5GHZ, aidl_radio_mode_info1->bandInfo); ASSERT_EQ(1u, aidl_radio_mode_info1->ifaceInfos.size()); auto aidl_iface_info1 = aidl_radio_mode_info1->ifaceInfos[0]; EXPECT_EQ(legacy_iface_info1.name, aidl_iface_info1.name); EXPECT_EQ(static_cast(legacy_iface_info1.channel), aidl_iface_info1.channel); // Find mac info 2. const auto aidl_radio_mode_info2 = std::find_if(aidl_radio_mode_infos.begin(), aidl_radio_mode_infos.end(), [&legacy_mac_info2](const IWifiChipEventCallback::RadioModeInfo& x) { return (uint32_t)x.radioId == legacy_mac_info2.wlan_mac_id; }); ASSERT_NE(aidl_radio_mode_infos.end(), aidl_radio_mode_info2); EXPECT_EQ(WifiBand::BAND_24GHZ, aidl_radio_mode_info2->bandInfo); ASSERT_EQ(1u, aidl_radio_mode_info2->ifaceInfos.size()); auto aidl_iface_info2 = aidl_radio_mode_info2->ifaceInfos[0]; EXPECT_EQ(legacy_iface_info2.name, aidl_iface_info2.name); EXPECT_EQ(static_cast(legacy_iface_info2.channel), aidl_iface_info2.channel); } TEST_F(AidlStructUtilTest, canConvertLegacyLinkLayerMlStatsToAidl) { legacy_hal::LinkLayerMlStats legacy_ml_stats{}; // Add two radio stats legacy_ml_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{}); legacy_ml_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{}); wifi_link_state states[sizeof(wifi_link_state)] = {wifi_link_state::WIFI_LINK_STATE_UNKNOWN, wifi_link_state::WIFI_LINK_STATE_NOT_IN_USE, wifi_link_state::WIFI_LINK_STATE_IN_USE}; // Add two links. legacy_ml_stats.links.push_back(legacy_hal::LinkStats{}); legacy_ml_stats.links.push_back(legacy_hal::LinkStats{}); // Set stats for each link. for (legacy_hal::LinkStats& link : legacy_ml_stats.links) { link.peers.push_back(legacy_hal::WifiPeerInfo{}); link.peers.push_back(legacy_hal::WifiPeerInfo{}); link.stat.beacon_rx = rand(); // MLO link id: 0 - 15 link.stat.link_id = rand() % 16; link.stat.state = states[rand() % sizeof(states)]; // Maximum number of radios is limited to 3 for testing. link.stat.radio = rand() % 4; link.stat.frequency = rand(); // RSSI: 0 to -127 link.stat.rssi_mgmt = (rand() % 128) * -1; link.stat.ac[legacy_hal::WIFI_AC_BE].rx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].tx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].mpdu_lost = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].retries = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_min = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_max = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_avg = rand(); link.stat.ac[legacy_hal::WIFI_AC_BE].contention_num_samples = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].rx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].tx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].mpdu_lost = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].retries = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_min = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_max = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_avg = rand(); link.stat.ac[legacy_hal::WIFI_AC_BK].contention_num_samples = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].rx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].tx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].mpdu_lost = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].retries = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_min = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_max = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_avg = rand(); link.stat.ac[legacy_hal::WIFI_AC_VI].contention_num_samples = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].rx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].tx_mpdu = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].mpdu_lost = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].retries = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_min = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_max = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_avg = rand(); link.stat.ac[legacy_hal::WIFI_AC_VO].contention_num_samples = rand(); link.stat.time_slicing_duty_cycle_percent = rand() % 101; link.stat.num_peers = 2; // Set peer stats for each of the peers. for (auto& peer : link.peers) { // Max station count is limited to 32 for testing. peer.peer_info.bssload.sta_count = rand() % 33; peer.peer_info.bssload.chan_util = rand() % 101; wifi_rate_stat rate_stat1 = { .rate = {3, 1, 2, 5, 0, 0}, .tx_mpdu = 0, .rx_mpdu = 1, .mpdu_lost = 2, .retries = 3, .retries_short = 4, .retries_long = 5, }; wifi_rate_stat rate_stat2 = { .rate = {2, 2, 1, 6, 0, 1}, .tx_mpdu = 6, .rx_mpdu = 7, .mpdu_lost = 8, .retries = 9, .retries_short = 10, .retries_long = 11, }; peer.rate_stats.push_back(rate_stat1); peer.rate_stats.push_back(rate_stat2); } } // Set radio stats for (auto& radio : legacy_ml_stats.radios) { // Maximum number of radios is limited to 3 for testing. radio.stats.radio = rand() % 4; radio.stats.on_time = rand(); radio.stats.tx_time = rand(); radio.stats.rx_time = rand(); radio.stats.on_time_scan = rand(); radio.stats.on_time_nbd = rand(); radio.stats.on_time_gscan = rand(); radio.stats.on_time_roam_scan = rand(); radio.stats.on_time_pno_scan = rand(); radio.stats.on_time_hs20 = rand(); for (int i = 0; i < 4; i++) { radio.tx_time_per_levels.push_back(rand()); } legacy_hal::wifi_channel_stat channel_stat1 = { .channel = {legacy_hal::WIFI_CHAN_WIDTH_20, 2437, 2437, 0}, .on_time = 0x1111, .cca_busy_time = 0x55, }; legacy_hal::wifi_channel_stat channel_stat2 = { .channel = {legacy_hal::WIFI_CHAN_WIDTH_20, 5180, 5180, 0}, .on_time = 0x2222, .cca_busy_time = 0x66, }; radio.channel_stats.push_back(channel_stat1); radio.channel_stats.push_back(channel_stat2); } // Convert to AIDL StaLinkLayerStats converted{}; aidl_struct_util::convertLegacyLinkLayerMlStatsToAidl(legacy_ml_stats, &converted); // Validate int l = 0; for (legacy_hal::LinkStats& link : legacy_ml_stats.links) { EXPECT_EQ(link.stat.link_id, (uint8_t)converted.iface.links[l].linkId); StaLinkLayerLinkStats::StaLinkState expectedState; switch (link.stat.state) { case wifi_link_state::WIFI_LINK_STATE_NOT_IN_USE: expectedState = StaLinkLayerLinkStats::StaLinkState::NOT_IN_USE; break; case wifi_link_state::WIFI_LINK_STATE_IN_USE: expectedState = StaLinkLayerLinkStats::StaLinkState::IN_USE; break; default: expectedState = StaLinkLayerLinkStats::StaLinkState::UNKNOWN; } EXPECT_EQ(expectedState, converted.iface.links[l].state); EXPECT_EQ(link.stat.radio, converted.iface.links[l].radioId); EXPECT_EQ(link.stat.frequency, (uint32_t)converted.iface.links[l].frequencyMhz); EXPECT_EQ(link.stat.beacon_rx, (uint32_t)converted.iface.links[l].beaconRx); EXPECT_EQ(link.stat.rssi_mgmt, converted.iface.links[l].avgRssiMgmt); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].rx_mpdu, converted.iface.links[l].wmeBePktStats.rxMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].tx_mpdu, converted.iface.links[l].wmeBePktStats.txMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].mpdu_lost, converted.iface.links[l].wmeBePktStats.lostMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].retries, converted.iface.links[l].wmeBePktStats.retries); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_min, (uint32_t)converted.iface.links[l] .wmeBeContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_max, (uint32_t)converted.iface.links[l] .wmeBeContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].contention_time_avg, (uint32_t)converted.iface.links[l] .wmeBeContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BE].contention_num_samples, (uint32_t)converted.iface.links[l].wmeBeContentionTimeStats.contentionNumSamples); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].rx_mpdu, converted.iface.links[l].wmeBkPktStats.rxMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].tx_mpdu, converted.iface.links[l].wmeBkPktStats.txMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].mpdu_lost, converted.iface.links[l].wmeBkPktStats.lostMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].retries, converted.iface.links[l].wmeBkPktStats.retries); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_min, (uint32_t)converted.iface.links[l] .wmeBkContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_max, (uint32_t)converted.iface.links[l] .wmeBkContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].contention_time_avg, (uint32_t)converted.iface.links[l] .wmeBkContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_BK].contention_num_samples, (uint32_t)converted.iface.links[l].wmeBkContentionTimeStats.contentionNumSamples); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].rx_mpdu, converted.iface.links[l].wmeViPktStats.rxMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].tx_mpdu, converted.iface.links[l].wmeViPktStats.txMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].mpdu_lost, converted.iface.links[l].wmeViPktStats.lostMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].retries, converted.iface.links[l].wmeViPktStats.retries); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_min, (uint32_t)converted.iface.links[l] .wmeViContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_max, (uint32_t)converted.iface.links[l] .wmeViContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].contention_time_avg, (uint32_t)converted.iface.links[l] .wmeViContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VI].contention_num_samples, (uint32_t)converted.iface.links[l].wmeViContentionTimeStats.contentionNumSamples); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].rx_mpdu, converted.iface.links[l].wmeVoPktStats.rxMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].tx_mpdu, converted.iface.links[l].wmeVoPktStats.txMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].mpdu_lost, converted.iface.links[l].wmeVoPktStats.lostMpdu); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].retries, converted.iface.links[l].wmeVoPktStats.retries); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_min, (uint32_t)converted.iface.links[l] .wmeVoContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_max, (uint32_t)converted.iface.links[l] .wmeVoContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].contention_time_avg, (uint32_t)converted.iface.links[l] .wmeVoContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(link.stat.ac[legacy_hal::WIFI_AC_VO].contention_num_samples, (uint32_t)converted.iface.links[l].wmeVoContentionTimeStats.contentionNumSamples); EXPECT_EQ(link.stat.time_slicing_duty_cycle_percent, converted.iface.links[l].timeSliceDutyCycleInPercent); EXPECT_EQ(link.peers.size(), converted.iface.links[l].peers.size()); for (size_t i = 0; i < link.peers.size(); i++) { EXPECT_EQ(link.peers[i].peer_info.bssload.sta_count, converted.iface.links[l].peers[i].staCount); EXPECT_EQ(link.peers[i].peer_info.bssload.chan_util, converted.iface.links[l].peers[i].chanUtil); for (size_t j = 0; j < link.peers[i].rate_stats.size(); j++) { EXPECT_EQ( link.peers[i].rate_stats[j].rate.preamble, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].rateInfo.preamble); EXPECT_EQ(link.peers[i].rate_stats[j].rate.nss, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].rateInfo.nss); EXPECT_EQ(link.peers[i].rate_stats[j].rate.bw, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].rateInfo.bw); EXPECT_EQ(link.peers[i].rate_stats[j].rate.rateMcsIdx, (uint32_t)converted.iface.links[l] .peers[i] .rateStats[j] .rateInfo.rateMcsIdx); EXPECT_EQ(link.peers[i].rate_stats[j].tx_mpdu, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].txMpdu); EXPECT_EQ(link.peers[i].rate_stats[j].rx_mpdu, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].rxMpdu); EXPECT_EQ(link.peers[i].rate_stats[j].mpdu_lost, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].mpduLost); EXPECT_EQ(link.peers[i].rate_stats[j].retries, (uint32_t)converted.iface.links[l].peers[i].rateStats[j].retries); } } ++l; } // loop over links EXPECT_EQ(legacy_ml_stats.radios.size(), converted.radios.size()); for (size_t i = 0; i < legacy_ml_stats.radios.size(); i++) { EXPECT_EQ(legacy_ml_stats.radios[i].stats.radio, converted.radios[i].radioId); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time, (uint32_t)converted.radios[i].onTimeInMs); EXPECT_EQ(legacy_ml_stats.radios[i].stats.tx_time, (uint32_t)converted.radios[i].txTimeInMs); EXPECT_EQ(legacy_ml_stats.radios[i].stats.rx_time, (uint32_t)converted.radios[i].rxTimeInMs); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_scan, (uint32_t)converted.radios[i].onTimeInMsForScan); EXPECT_EQ(legacy_ml_stats.radios[i].tx_time_per_levels.size(), converted.radios[i].txTimeInMsPerLevel.size()); for (size_t j = 0; j < legacy_ml_stats.radios[i].tx_time_per_levels.size(); j++) { EXPECT_EQ(legacy_ml_stats.radios[i].tx_time_per_levels[j], (uint32_t)converted.radios[i].txTimeInMsPerLevel[j]); } EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_nbd, (uint32_t)converted.radios[i].onTimeInMsForNanScan); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_gscan, (uint32_t)converted.radios[i].onTimeInMsForBgScan); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_roam_scan, (uint32_t)converted.radios[i].onTimeInMsForRoamScan); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_pno_scan, (uint32_t)converted.radios[i].onTimeInMsForPnoScan); EXPECT_EQ(legacy_ml_stats.radios[i].stats.on_time_hs20, (uint32_t)converted.radios[i].onTimeInMsForHs20Scan); EXPECT_EQ(legacy_ml_stats.radios[i].channel_stats.size(), converted.radios[i].channelStats.size()); for (size_t k = 0; k < legacy_ml_stats.radios[i].channel_stats.size(); k++) { auto& legacy_channel_st = legacy_ml_stats.radios[i].channel_stats[k]; EXPECT_EQ(WifiChannelWidthInMhz::WIDTH_20, converted.radios[i].channelStats[k].channel.width); EXPECT_EQ(legacy_channel_st.channel.center_freq, converted.radios[i].channelStats[k].channel.centerFreq); EXPECT_EQ(legacy_channel_st.channel.center_freq0, converted.radios[i].channelStats[k].channel.centerFreq0); EXPECT_EQ(legacy_channel_st.channel.center_freq1, converted.radios[i].channelStats[k].channel.centerFreq1); EXPECT_EQ(legacy_channel_st.cca_busy_time, (uint32_t)converted.radios[i].channelStats[k].ccaBusyTimeInMs); EXPECT_EQ(legacy_channel_st.on_time, (uint32_t)converted.radios[i].channelStats[k].onTimeInMs); } } } TEST_F(AidlStructUtilTest, canConvertLegacyLinkLayerStatsToAidl) { legacy_hal::LinkLayerStats legacy_stats{}; legacy_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{}); legacy_stats.radios.push_back(legacy_hal::LinkLayerRadioStats{}); legacy_stats.peers.push_back(legacy_hal::WifiPeerInfo{}); legacy_stats.peers.push_back(legacy_hal::WifiPeerInfo{}); legacy_stats.iface.beacon_rx = rand(); // RSSI: 0 to -127 legacy_stats.iface.rssi_mgmt = rand() % 128; legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].rx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].tx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].mpdu_lost = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].retries = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_min = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_max = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_avg = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_num_samples = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].rx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].tx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].mpdu_lost = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].retries = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_min = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_max = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_avg = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_num_samples = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].rx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].tx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].mpdu_lost = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].retries = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_min = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_max = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_avg = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_num_samples = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].rx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].tx_mpdu = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].mpdu_lost = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].retries = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_min = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_max = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_avg = rand(); legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_num_samples = rand(); legacy_stats.iface.info.time_slicing_duty_cycle_percent = rand() % 101; legacy_stats.iface.num_peers = 1; for (auto& radio : legacy_stats.radios) { // Max number of radios limit to 3. radio.stats.radio = rand() % 4; radio.stats.on_time = rand(); radio.stats.tx_time = rand(); radio.stats.rx_time = rand(); radio.stats.on_time_scan = rand(); radio.stats.on_time_nbd = rand(); radio.stats.on_time_gscan = rand(); radio.stats.on_time_roam_scan = rand(); radio.stats.on_time_pno_scan = rand(); radio.stats.on_time_hs20 = rand(); for (int i = 0; i < 4; i++) { radio.tx_time_per_levels.push_back(rand()); } legacy_hal::wifi_channel_stat channel_stat1 = { .channel = {legacy_hal::WIFI_CHAN_WIDTH_20, 2437, 2437, 0}, .on_time = 0x1111, .cca_busy_time = 0x55, }; legacy_hal::wifi_channel_stat channel_stat2 = { .channel = {legacy_hal::WIFI_CHAN_WIDTH_20, 5180, 5180, 0}, .on_time = 0x2222, .cca_busy_time = 0x66, }; radio.channel_stats.push_back(channel_stat1); radio.channel_stats.push_back(channel_stat2); } for (auto& peer : legacy_stats.peers) { // Max number of stations is limited to 32 for testing. peer.peer_info.bssload.sta_count = rand() % 33; peer.peer_info.bssload.chan_util = rand() % 101; wifi_rate_stat rate_stat1 = { .rate = {3, 1, 2, 5, 0, 0}, .tx_mpdu = 0, .rx_mpdu = 1, .mpdu_lost = 2, .retries = 3, .retries_short = 4, .retries_long = 5, }; wifi_rate_stat rate_stat2 = { .rate = {2, 2, 1, 6, 0, 1}, .tx_mpdu = 6, .rx_mpdu = 7, .mpdu_lost = 8, .retries = 9, .retries_short = 10, .retries_long = 11, }; peer.rate_stats.push_back(rate_stat1); peer.rate_stats.push_back(rate_stat2); } StaLinkLayerStats converted{}; aidl_struct_util::convertLegacyLinkLayerStatsToAidl(legacy_stats, &converted); EXPECT_EQ(0, converted.iface.links[0].linkId); EXPECT_EQ(legacy_stats.iface.beacon_rx, (uint32_t)converted.iface.links[0].beaconRx); EXPECT_EQ(legacy_stats.iface.rssi_mgmt, converted.iface.links[0].avgRssiMgmt); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].rx_mpdu, converted.iface.links[0].wmeBePktStats.rxMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].tx_mpdu, converted.iface.links[0].wmeBePktStats.txMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].mpdu_lost, converted.iface.links[0].wmeBePktStats.lostMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].retries, converted.iface.links[0].wmeBePktStats.retries); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_min, (uint32_t)converted.iface.links[0].wmeBeContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_max, (uint32_t)converted.iface.links[0].wmeBeContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_time_avg, (uint32_t)converted.iface.links[0].wmeBeContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BE].contention_num_samples, (uint32_t)converted.iface.links[0].wmeBeContentionTimeStats.contentionNumSamples); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].rx_mpdu, converted.iface.links[0].wmeBkPktStats.rxMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].tx_mpdu, converted.iface.links[0].wmeBkPktStats.txMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].mpdu_lost, converted.iface.links[0].wmeBkPktStats.lostMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].retries, converted.iface.links[0].wmeBkPktStats.retries); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_min, (uint32_t)converted.iface.links[0].wmeBkContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_max, (uint32_t)converted.iface.links[0].wmeBkContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_time_avg, (uint32_t)converted.iface.links[0].wmeBkContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_BK].contention_num_samples, (uint32_t)converted.iface.links[0].wmeBkContentionTimeStats.contentionNumSamples); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].rx_mpdu, converted.iface.links[0].wmeViPktStats.rxMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].tx_mpdu, converted.iface.links[0].wmeViPktStats.txMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].mpdu_lost, converted.iface.links[0].wmeViPktStats.lostMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].retries, converted.iface.links[0].wmeViPktStats.retries); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_min, (uint32_t)converted.iface.links[0].wmeViContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_max, (uint32_t)converted.iface.links[0].wmeViContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_time_avg, (uint32_t)converted.iface.links[0].wmeViContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VI].contention_num_samples, (uint32_t)converted.iface.links[0].wmeViContentionTimeStats.contentionNumSamples); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].rx_mpdu, converted.iface.links[0].wmeVoPktStats.rxMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].tx_mpdu, converted.iface.links[0].wmeVoPktStats.txMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].mpdu_lost, converted.iface.links[0].wmeVoPktStats.lostMpdu); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].retries, converted.iface.links[0].wmeVoPktStats.retries); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_min, (uint32_t)converted.iface.links[0].wmeVoContentionTimeStats.contentionTimeMinInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_max, (uint32_t)converted.iface.links[0].wmeVoContentionTimeStats.contentionTimeMaxInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_time_avg, (uint32_t)converted.iface.links[0].wmeVoContentionTimeStats.contentionTimeAvgInUsec); EXPECT_EQ(legacy_stats.iface.ac[legacy_hal::WIFI_AC_VO].contention_num_samples, (uint32_t)converted.iface.links[0].wmeVoContentionTimeStats.contentionNumSamples); EXPECT_EQ(legacy_stats.iface.info.time_slicing_duty_cycle_percent, converted.iface.links[0].timeSliceDutyCycleInPercent); EXPECT_EQ(legacy_stats.radios.size(), converted.radios.size()); for (size_t i = 0; i < legacy_stats.radios.size(); i++) { EXPECT_EQ(legacy_stats.radios[i].stats.radio, converted.radios[i].radioId); EXPECT_EQ(legacy_stats.radios[i].stats.on_time, (uint32_t)converted.radios[i].onTimeInMs); EXPECT_EQ(legacy_stats.radios[i].stats.tx_time, (uint32_t)converted.radios[i].txTimeInMs); EXPECT_EQ(legacy_stats.radios[i].stats.rx_time, (uint32_t)converted.radios[i].rxTimeInMs); EXPECT_EQ(legacy_stats.radios[i].stats.on_time_scan, (uint32_t)converted.radios[i].onTimeInMsForScan); EXPECT_EQ(legacy_stats.radios[i].tx_time_per_levels.size(), converted.radios[i].txTimeInMsPerLevel.size()); for (size_t j = 0; j < legacy_stats.radios[i].tx_time_per_levels.size(); j++) { EXPECT_EQ(legacy_stats.radios[i].tx_time_per_levels[j], (uint32_t)converted.radios[i].txTimeInMsPerLevel[j]); } EXPECT_EQ(legacy_stats.radios[i].stats.on_time_nbd, (uint32_t)converted.radios[i].onTimeInMsForNanScan); EXPECT_EQ(legacy_stats.radios[i].stats.on_time_gscan, (uint32_t)converted.radios[i].onTimeInMsForBgScan); EXPECT_EQ(legacy_stats.radios[i].stats.on_time_roam_scan, (uint32_t)converted.radios[i].onTimeInMsForRoamScan); EXPECT_EQ(legacy_stats.radios[i].stats.on_time_pno_scan, (uint32_t)converted.radios[i].onTimeInMsForPnoScan); EXPECT_EQ(legacy_stats.radios[i].stats.on_time_hs20, (uint32_t)converted.radios[i].onTimeInMsForHs20Scan); EXPECT_EQ(legacy_stats.radios[i].channel_stats.size(), converted.radios[i].channelStats.size()); for (size_t k = 0; k < legacy_stats.radios[i].channel_stats.size(); k++) { auto& legacy_channel_st = legacy_stats.radios[i].channel_stats[k]; EXPECT_EQ(WifiChannelWidthInMhz::WIDTH_20, converted.radios[i].channelStats[k].channel.width); EXPECT_EQ(legacy_channel_st.channel.center_freq, converted.radios[i].channelStats[k].channel.centerFreq); EXPECT_EQ(legacy_channel_st.channel.center_freq0, converted.radios[i].channelStats[k].channel.centerFreq0); EXPECT_EQ(legacy_channel_st.channel.center_freq1, converted.radios[i].channelStats[k].channel.centerFreq1); EXPECT_EQ(legacy_channel_st.cca_busy_time, (uint32_t)converted.radios[i].channelStats[k].ccaBusyTimeInMs); EXPECT_EQ(legacy_channel_st.on_time, (uint32_t)converted.radios[i].channelStats[k].onTimeInMs); } } EXPECT_EQ(legacy_stats.peers.size(), converted.iface.links[0].peers.size()); for (size_t i = 0; i < legacy_stats.peers.size(); i++) { EXPECT_EQ(legacy_stats.peers[i].peer_info.bssload.sta_count, converted.iface.links[0].peers[i].staCount); EXPECT_EQ(legacy_stats.peers[i].peer_info.bssload.chan_util, converted.iface.links[0].peers[i].chanUtil); for (size_t j = 0; j < legacy_stats.peers[i].rate_stats.size(); j++) { EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].rate.preamble, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].rateInfo.preamble); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].rate.nss, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].rateInfo.nss); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].rate.bw, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].rateInfo.bw); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].rate.rateMcsIdx, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].rateInfo.rateMcsIdx); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].tx_mpdu, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].txMpdu); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].rx_mpdu, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].rxMpdu); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].mpdu_lost, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].mpduLost); EXPECT_EQ(legacy_stats.peers[i].rate_stats[j].retries, (uint32_t)converted.iface.links[0].peers[i].rateStats[j].retries); } } } TEST_F(AidlStructUtilTest, CanConvertLegacyFeaturesToAidl) { using AidlChipCaps = IWifiChip::FeatureSetMask; uint32_t aidl_features; uint32_t legacy_feature_set = WIFI_FEATURE_D2D_RTT | WIFI_FEATURE_SET_LATENCY_MODE; ASSERT_TRUE( aidl_struct_util::convertLegacyChipFeaturesToAidl(legacy_feature_set, &aidl_features)); EXPECT_EQ((uint32_t)AidlChipCaps::D2D_RTT | (uint32_t)AidlChipCaps::SET_LATENCY_MODE, aidl_features); } void insertRadioCombination(legacy_hal::wifi_radio_combination* dst_radio_combination_ptr, int num_radio_configurations, legacy_hal::wifi_radio_configuration* radio_configuration) { dst_radio_combination_ptr->num_radio_configurations = num_radio_configurations; memcpy(dst_radio_combination_ptr->radio_configurations, radio_configuration, num_radio_configurations * sizeof(legacy_hal::wifi_radio_configuration)); } void verifyRadioCombination(WifiRadioCombination* radioCombination, size_t num_radio_configurations, legacy_hal::wifi_radio_configuration* radio_configuration) { EXPECT_EQ(num_radio_configurations, radioCombination->radioConfigurations.size()); for (size_t i = 0; i < num_radio_configurations; i++) { EXPECT_EQ(aidl_struct_util::convertLegacyMacBandToAidlWifiBand(radio_configuration->band), radioCombination->radioConfigurations[i].bandInfo); EXPECT_EQ(aidl_struct_util::convertLegacyAntennaConfigurationToAidl( radio_configuration->antenna_cfg), radioCombination->radioConfigurations[i].antennaMode); radio_configuration++; } } TEST_F(AidlStructUtilTest, canConvertLegacyRadioCombinationsMatrixToAidl) { legacy_hal::wifi_radio_configuration radio_configurations_array1[] = { {.band = legacy_hal::WLAN_MAC_2_4_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_1X1}, }; legacy_hal::wifi_radio_configuration radio_configurations_array2[] = { {.band = legacy_hal::WLAN_MAC_2_4_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_2X2}, {.band = legacy_hal::WLAN_MAC_5_0_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_3X3}, }; legacy_hal::wifi_radio_configuration radio_configurations_array3[] = { {.band = legacy_hal::WLAN_MAC_2_4_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_2X2}, {.band = legacy_hal::WLAN_MAC_6_0_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_1X1}, {.band = legacy_hal::WLAN_MAC_5_0_BAND, .antenna_cfg = legacy_hal::WIFI_ANTENNA_4X4}, }; int num_radio_configs = 0; int num_combinations = 0; std::array buffer; buffer.fill(0); legacy_hal::wifi_radio_combination_matrix* legacy_matrix = reinterpret_cast(buffer.data()); legacy_hal::wifi_radio_combination* radio_combinations; // Prepare a legacy wifi_radio_combination_matrix legacy_matrix->num_radio_combinations = 3; // Insert first combination radio_combinations = (legacy_hal::wifi_radio_combination*)((char*)legacy_matrix->radio_combinations); insertRadioCombination( radio_combinations, sizeof(radio_configurations_array1) / sizeof(radio_configurations_array1[0]), radio_configurations_array1); num_combinations++; num_radio_configs += sizeof(radio_configurations_array1) / sizeof(radio_configurations_array1[0]); // Insert second combination radio_combinations = (legacy_hal::wifi_radio_combination*)((char*)legacy_matrix->radio_combinations + (num_combinations * sizeof(legacy_hal::wifi_radio_combination)) + (num_radio_configs * sizeof(wifi_radio_configuration))); insertRadioCombination( radio_combinations, sizeof(radio_configurations_array2) / sizeof(radio_configurations_array2[0]), radio_configurations_array2); num_combinations++; num_radio_configs += sizeof(radio_configurations_array2) / sizeof(radio_configurations_array2[0]); // Insert third combination radio_combinations = (legacy_hal::wifi_radio_combination*)((char*)legacy_matrix->radio_combinations + (num_combinations * sizeof(legacy_hal::wifi_radio_combination)) + (num_radio_configs * sizeof(wifi_radio_configuration))); insertRadioCombination( radio_combinations, sizeof(radio_configurations_array3) / sizeof(radio_configurations_array3[0]), radio_configurations_array3); std::vector converted_combinations; aidl_struct_util::convertLegacyRadioCombinationsMatrixToAidl(legacy_matrix, &converted_combinations); // Verify the conversion EXPECT_EQ(legacy_matrix->num_radio_combinations, converted_combinations.size()); verifyRadioCombination( &converted_combinations[0], sizeof(radio_configurations_array1) / sizeof(radio_configurations_array1[0]), radio_configurations_array1); verifyRadioCombination( &converted_combinations[1], sizeof(radio_configurations_array2) / sizeof(radio_configurations_array2[0]), radio_configurations_array2); verifyRadioCombination( &converted_combinations[2], sizeof(radio_configurations_array3) / sizeof(radio_configurations_array3[0]), radio_configurations_array3); } void verifyRttResult(wifi_rtt_result* legacy_rtt_result_ptr, RttResult* aidl_results_ptr) { EXPECT_EQ((int)legacy_rtt_result_ptr->burst_num, aidl_results_ptr->burstNum); EXPECT_EQ((int)legacy_rtt_result_ptr->measurement_number, aidl_results_ptr->measurementNumber); EXPECT_EQ((int)legacy_rtt_result_ptr->success_number, aidl_results_ptr->successNumber); EXPECT_EQ(legacy_rtt_result_ptr->number_per_burst_peer, aidl_results_ptr->numberPerBurstPeer); EXPECT_EQ(legacy_rtt_result_ptr->retry_after_duration, aidl_results_ptr->retryAfterDuration); EXPECT_EQ(legacy_rtt_result_ptr->rssi, aidl_results_ptr->rssi); EXPECT_EQ(legacy_rtt_result_ptr->rssi_spread, aidl_results_ptr->rssiSpread); EXPECT_EQ(legacy_rtt_result_ptr->rtt, aidl_results_ptr->rtt); EXPECT_EQ(legacy_rtt_result_ptr->rtt_sd, aidl_results_ptr->rttSd); EXPECT_EQ(legacy_rtt_result_ptr->rtt_spread, aidl_results_ptr->rttSpread); EXPECT_EQ(legacy_rtt_result_ptr->distance_mm, aidl_results_ptr->distanceInMm); EXPECT_EQ(legacy_rtt_result_ptr->distance_sd_mm, aidl_results_ptr->distanceSdInMm); EXPECT_EQ(legacy_rtt_result_ptr->distance_spread_mm, aidl_results_ptr->distanceSpreadInMm); EXPECT_EQ(legacy_rtt_result_ptr->ts, aidl_results_ptr->timeStampInUs); EXPECT_EQ(legacy_rtt_result_ptr->burst_duration, aidl_results_ptr->burstDurationInMs); EXPECT_EQ(legacy_rtt_result_ptr->negotiated_burst_num, aidl_results_ptr->negotiatedBurstNum); EXPECT_EQ(legacy_rtt_result_ptr->LCI->id, aidl_results_ptr->lci.id); for (int i = 0; i < legacy_rtt_result_ptr->LCI->len; i++) { EXPECT_EQ(legacy_rtt_result_ptr->LCI->data[i], aidl_results_ptr->lci.data[i]); } EXPECT_EQ(legacy_rtt_result_ptr->LCR->id, aidl_results_ptr->lcr.id); for (int i = 0; i < legacy_rtt_result_ptr->LCR->len; i++) { EXPECT_EQ(legacy_rtt_result_ptr->LCR->data[i], aidl_results_ptr->lcr.data[i]); } } void fillLegacyRttResult(wifi_rtt_result* rtt_result_ptr) { std::copy(std::begin(kMacAddress), std::end(kMacAddress), std::begin(rtt_result_ptr->addr)); rtt_result_ptr->burst_num = rand(); rtt_result_ptr->measurement_number = rand(); rtt_result_ptr->success_number = rand(); rtt_result_ptr->number_per_burst_peer = 0xF & rand(); rtt_result_ptr->status = RTT_STATUS_SUCCESS; rtt_result_ptr->retry_after_duration = 0xF & rand(); rtt_result_ptr->type = RTT_TYPE_2_SIDED; rtt_result_ptr->rssi = rand(); rtt_result_ptr->rssi_spread = rand(); rtt_result_ptr->rtt = rand(); rtt_result_ptr->rtt_sd = rand(); rtt_result_ptr->rtt_spread = rand(); rtt_result_ptr->distance_mm = rand(); rtt_result_ptr->distance_sd_mm = rand(); rtt_result_ptr->distance_spread_mm = rand(); rtt_result_ptr->burst_duration = rand(); rtt_result_ptr->negotiated_burst_num = rand(); rtt_result_ptr->LCI = (wifi_information_element*)LCI; rtt_result_ptr->LCR = (wifi_information_element*)LCR; } TEST_F(AidlStructUtilTest, convertLegacyVectorOfRttResultToAidl) { std::vector rtt_results_vec; wifi_rtt_result rttResults[2]; // fill legacy rtt results for (int i = 0; i < 2; i++) { fillLegacyRttResult(&rttResults[i]); rtt_results_vec.push_back(&rttResults[i]); } std::vector aidl_results; aidl_struct_util::convertLegacyVectorOfRttResultToAidl(rtt_results_vec, &aidl_results); EXPECT_EQ(rtt_results_vec.size(), aidl_results.size()); for (size_t i = 0; i < rtt_results_vec.size(); i++) { verifyRttResult(&rttResults[i], &aidl_results[i]); EXPECT_EQ(aidl_results[i].channelFreqMHz, 0); EXPECT_EQ(aidl_results[i].packetBw, RttBw::BW_UNSPECIFIED); } } TEST_F(AidlStructUtilTest, convertLegacyVectorOfRttResultV2ToAidl) { std::vector rtt_results_vec_v2; wifi_rtt_result_v2 rttResults_v2[2]; // fill legacy rtt results v2 for (int i = 0; i < 2; i++) { fillLegacyRttResult(&rttResults_v2[i].rtt_result); rttResults_v2[i].frequency = 2412 + i * 5; rttResults_v2[i].packet_bw = WIFI_RTT_BW_80; rtt_results_vec_v2.push_back(&rttResults_v2[i]); } std::vector aidl_results; aidl_struct_util::convertLegacyVectorOfRttResultV2ToAidl(rtt_results_vec_v2, &aidl_results); EXPECT_EQ(rtt_results_vec_v2.size(), aidl_results.size()); for (size_t i = 0; i < rtt_results_vec_v2.size(); i++) { verifyRttResult(&rttResults_v2[i].rtt_result, &aidl_results[i]); EXPECT_EQ(aidl_results[i].channelFreqMHz, rttResults_v2[i].frequency); EXPECT_EQ(aidl_results[i].packetBw, RttBw::BW_80MHZ); } } } // namespace wifi } // namespace hardware } // namespace android } // namespace aidl