/*
* Copyright (C) 2017 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/utility.h"
using RpcLog = wifi_offload::RpcLogRecord::RpcLogRecordType;
namespace wifi_offload_test {
void init(uint8_t &val, RandomGenerator &rand_gen) {
val = rand_gen.get<uint8_t>();
}
void init(uint16_t &val, RandomGenerator &rand_gen) {
val = rand_gen.get<uint16_t>();
}
void init(uint32_t &val, RandomGenerator &rand_gen) {
val = rand_gen.get<uint32_t>();
}
void init(uint64_t &val, RandomGenerator &rand_gen) {
val = rand_gen.get<uint64_t>();
}
void init(uint8_t *arr, size_t len, RandomGenerator &rand_gen) {
for (size_t i = 0; i < len; i++) {
arr[i] = rand_gen.get<uint8_t>();
}
}
void init_security_mode(uint8_t &sec_mode, RandomGenerator &rand_gen) {
init(sec_mode, rand_gen);
sec_mode &= 0x0f;
}
void init_rssi(int8_t &rssi, RandomGenerator &rand_gen) {
rssi = rand_gen.get<int8_t>();
if (rssi > 0) {
rssi = -rssi;
}
}
void init_rpc_log_record(RpcLog &log_record, RandomGenerator &rand_gen) {
log_record = static_cast<RpcLog>((rand_gen.get<uint32_t>() % 6u) +
static_cast<uint32_t>(RpcLog::CMD_BASE) + 1);
}
void init_frequency(uint32_t &freq, RandomGenerator &rand_gen) {
freq = kAllFrequencies_Test[rand_gen.get<uint8_t>() % kNumFrequencies_Test];
}
void init_capability(uint16_t &capa, RandomGenerator &rand_gen) {
capa = (rand_gen.get<uint16_t>() % 0xffff) + 1;
}
void init(wifi_offload::Ssid &ssid, RandomGenerator &rand_gen) {
uint8_t rand_ssid[wifi_offload::Ssid::kMaxSsidLen];
size_t len = (rand_gen.get<uint8_t>() % wifi_offload::Ssid::kMaxSsidLen) + 1;
init(rand_ssid, len, rand_gen);
ssid.SetData(rand_ssid, len);
}
void init(wifi_offload::PreferredNetwork &net_info, RandomGenerator &rand_gen) {
init(net_info.ssid_, rand_gen);
init_security_mode(net_info.security_modes_, rand_gen);
}
void init(wifi_offload::ScanRecord &record, RandomGenerator &rand_gen) {
init(record.time_spent_scanning_ms_, rand_gen);
init(record.num_channels_scanned_, rand_gen);
init(record.num_entries_aggregated_, rand_gen);
}
void init(wifi_offload::RpcLogRecord &record, RandomGenerator &rand_gen) {
init_rpc_log_record(record.record_type_, rand_gen);
init(record.timestamp_chre_ms_, rand_gen);
}
void init(wifi_offload::ChannelHistogram &histo, RandomGenerator &rand_gen) {
for (size_t i = 0; i < kNumFrequencies_Test; i++) {
histo.IncrementScanCountForFrequencyForTest(kAllFrequencies_Test[i],
rand_gen.get<uint16_t>());
}
}
void init(wifi_offload::ScanStats &stats, RandomGenerator &rand_gen) {
init(stats.num_scans_requested_by_nanoapp_, rand_gen);
init(stats.num_scans_serviced_by_hardware_, rand_gen);
init(stats.num_scans_serviced_by_cache_, rand_gen);
init(stats.updated_at_chre_ms_, rand_gen);
init(stats.sent_at_chre_ms_, rand_gen);
init(stats.last_subscription_duration_ms_, rand_gen);
init(stats.channel_histogram_, rand_gen);
init<wifi_offload::ScanRecord>(stats.scan_records_, rand_gen);
init<wifi_offload::RpcLogRecord>(stats.rpc_log_records_, rand_gen);
}
void init(wifi_offload::ScanParams ¶ms, RandomGenerator &rand_gen) {
init<wifi_offload::Ssid>(params.ssids_to_scan_, rand_gen);
// Need to init frequency vector with valid frequency values
// init<uint32_t>(params.frequencies_to_scan_mhz_, rand_gen);
params.frequencies_to_scan_mhz_.clear();
size_t vec_len = (rand_gen.get<uint8_t>() % 10) + 1;
for (size_t i = 0; i < vec_len; i++) {
uint32_t new_freq;
init_frequency(new_freq, rand_gen);
params.frequencies_to_scan_mhz_.push_back(new_freq);
}
init(params.disconnected_mode_scan_interval_ms_, rand_gen);
}
void init(wifi_offload::ScanFilter &filter, RandomGenerator &rand_gen) {
init<wifi_offload::PreferredNetwork>(filter.networks_to_match_, rand_gen);
init_rssi(filter.min_rssi_threshold_dbm_, rand_gen);
}
void init(wifi_offload::ScanConfig &config, RandomGenerator &rand_gen) {
init(config.scan_params_, rand_gen);
init(config.scan_filter_, rand_gen);
}
void init(wifi_offload::ScanResult &result, RandomGenerator &rand_gen) {
init(result.ssid_, rand_gen);
init_security_mode(result.security_modes_, rand_gen);
init(result.bssid_, wifi_offload::ScanResult::kBssidSize, rand_gen);
init_capability(result.capability_, rand_gen);
init_frequency(result.frequency_scanned_mhz_, rand_gen);
init_rssi(result.rssi_dbm_, rand_gen);
init(result.tsf_, rand_gen);
}
void init(chreWifiScanResult &result, RandomGenerator &rand_gen) {
init(result.ageMs, rand_gen);
init_capability(result.capabilityInfo, rand_gen);
result.ssidLen =
(rand_gen.get<uint8_t>() % wifi_offload::Ssid::kMaxSsidLen) + 1;
init(result.ssid, result.ssidLen, rand_gen);
init(result.bssid, CHRE_WIFI_BSSID_LEN, rand_gen);
init(result.flags, rand_gen);
init_rssi(result.rssi, rand_gen);
init(result.band, rand_gen);
init_frequency(result.primaryChannel, rand_gen);
init(result.centerFreqPrimary, rand_gen);
init(result.centerFreqSecondary, rand_gen);
result.channelWidth = CHRE_WIFI_CHANNEL_WIDTH_20_MHZ;
init_security_mode(result.securityMode, rand_gen);
}
} // wifioffloadtesthelper namespace