| /developtools/integration_verification/tools/fotff/pkg/dayu200/ |
| D | flash.go | 42 time.Sleep(20 * time.Second) // usually, it takes about 20s to reboot into OpenHarmony
47 time.Sleep(10 * time.Second) // wait 10s more to ensure system has been started completely
59 time.Sleep(5 * time.Second)
70 time.Sleep(5 * time.Second)
79 time.Sleep(3 * time.Second)
87 time.Sleep(5 * time.Second)
95 time.Sleep(5 * time.Second)
118 time.Sleep(3 * time.Second)
120 time.Sleep(5 * time.Second) // sleep a while for writing
|
| /developtools/profiler/timestamps/ |
| D | timestamps.cpp | 43 for (auto& time : times) { in main() local
44 clock_gettime(time.clockId, &time.ts); in main()
47 for (auto& time : times) { in main() local
48 printf("%-25s: %10lld.%09ld\n", time.name.c_str(), in main()
49 static_cast<long long>(time.ts.tv_sec), time.ts.tv_nsec); in main()
|
| /developtools/profiler/host/smartperf/client/client_ui/entry/src/main/ets/common/utils/ |
| D | TimeUtils.ts | 21 export function dateFormat(time?: number, format: string='Y-m-d h:i:s') {
22 const t = new Date(time)
54 export function secToTime(time: number): String {
59 if (time <= 0) {
62 minute = parseInt((time / 60).toString())
64 second = time % 60
69 second = time - hour * 3600 - minute * 60
|
| /developtools/smartperf_host/ide/src/trace/component/trace/sheet/freq/ |
| D | TabPaneCpuFreqLimits.ts | 77 let groupMapData = (time: number, id: string, item: CpuFreqLimitsStruct) => {
79 limitsMap.get(id)!.time += time;
84 limit.time = time;
104 item.timeStr = Utils.getProbablyTime(item.time);
119 return cpuFreqLimitA.time - cpuFreqLimitB.time;
121 return cpuFreqLimitB.time - cpuFreqLimitA.time;
182 time: number = 0; property in CpuFreqLimit
|
| /developtools/profiler/host/smartperf/ide/src/trace/component/trace/sheet/freq/ |
| D | TabPaneCpuFreqLimits.ts | 77 let groupMapData = (time: number, id: string, item: CpuFreqLimitsStruct) => {
79 limitsMap.get(id)!.time += time;
84 limit.time = time;
104 item.timeStr = Utils.getProbablyTime(item.time);
119 return cpuFreqLimitA.time - cpuFreqLimitB.time;
121 return cpuFreqLimitB.time - cpuFreqLimitA.time;
182 time: number = 0; property in CpuFreqLimit
|
| /developtools/integration_verification/tools/fotff/utils/ |
| D | hdc.go | 24 ctx, cancelFn := context.WithTimeout(ctx, 20*time.Second)
33 time.Sleep(time.Second)
35 time.Sleep(time.Second)
60 defer time.Sleep(5 * time.Second)
|
| D | exec.go | 30 ctx, fn := context.WithTimeout(ctx, 6*time.Hour)
57 fmt.Printf("[%s] exec %s :\n", time.Now(), cmdStr)
64 ctx, fn := context.WithTimeout(ctx, 6*time.Hour)
81 fmt.Printf("[%s] exec %s :\n", time.Now(), cmdStr)
85 func SleepContext(duration time.Duration, ctx context.Context) {
87 case <-time.NewTimer(duration).C:
|
| /developtools/smartperf_host/trace_streamer/doc/ |
| D | times.md | 12 - boot time 与monotonic时间相同,不过会累加上系统休眠的时间,它代表着系统上电后的总时间。
13 - monotonic time 该时间自系统开机后就一直单调地增加,它不像xtime可以因用户的调整时间而产生跳变,不过该时间不计算系统休眠的时间,也就是说,系统休眠时,monotoic时间不会…
14 - raw monotonic time 该时间与monotonic时间类似,也是单调递增的时间,唯一的不同是:raw monotonic time“更纯净”,他不会受到NTP时间调整的影响,它代…
|
| /developtools/profiler/host/smartperf/trace_streamer/doc/ |
| D | times.md | 12 - boot time 与monotonic时间相同,不过会累加上系统休眠的时间,它代表着系统上电后的总时间。
13 - monotonic time 该时间自系统开机后就一直单调地增加,它不像xtime可以因用户的调整时间而产生跳变,不过该时间不计算系统休眠的时间,也就是说,系统休眠时,monotoic时间不会…
14 - raw monotonic time 该时间与monotonic时间类似,也是单调递增的时间,唯一的不同是:raw monotonic time“更纯净”,他不会受到NTP时间调整的影响,它代…
|
| /developtools/profiler/host/smartperf/ide/src/trace/component/trace/timer-shaft/ |
| D | Flag.ts | 21 time: number = 0; property in Flag
33 time: number,
42 this.time = time;
|
| /developtools/smartperf_host/ide/src/trace/component/trace/timer-shaft/ |
| D | Flag.ts | 21 time: number = 0; property in Flag
33 time: number,
42 this.time = time;
|
| /developtools/integration_verification/DeployDevice/resource/common/ |
| D | portalocker.py | 3 import time
33 start_time = time.time()
50 if (time.time() - start_time) >= self.timeout:
52 time.sleep(self.delay)
|
| /developtools/integration_verification/DeployDevice/src/util/ |
| D | file_locker.py | 4 import time
34 start_time = time.time()
51 if (time.time() - start_time) >= self.timeout:
53 time.sleep(self.delay)
|
| D | time_info.py | 16 import time
22 return time.time()
25 st = time.localtime(time_stamp)
26 result = time.strftime("%Y-%m-%d %H:%M:%S", st)
30 st = time.strptime(timeinfo, "%Y-%m-%d %H:%M:%S")
31 return time.mktime(st)
|
| /developtools/integration_verification/tools/fotff/pkg/mock/ |
| D | mock.go | 51 time.Sleep(time.Duration(m.pkgCount) * time.Second)
58 time.Sleep(time.Second)
|
| /developtools/profiler/host/smartperf/ide/src/trace/component/trace/sheet/cpu/ |
| D | TabPaneCounterSample.ts | 94 a.timeStr = parseFloat((a.time / 1000000.0).toFixed(6));
116 item.time = rightNs - item.ts;
118 item.time = initCounterResultList[idx + 1].ts - item.ts;
122 obj.time += item.time;
140 return sortByColumnLeftData.time - sortByColumnRightData.time;
142 return sortByColumnRightData.time - sortByColumnLeftData.time;
|
| D | TabPaneFrequencySample.ts | 96 a.timeStr = parseFloat((a.time / 1000000.0).toFixed(6));
118 item.time = rightEndNs - item.ts;
120 item.time = initFreqResult[idx + 1].ts - item.ts;
124 obj.time += item.time;
143 return frequencySampleLeftData.time - frequencySampleRightData.time;
145 return frequencySampleRightData.time - frequencySampleLeftData.time;
|
| /developtools/smartperf_host/ide/src/trace/component/trace/sheet/cpu/ |
| D | TabPaneCounterSample.ts | 94 a.timeStr = parseFloat((a.time / 1000000.0).toFixed(6));
116 item.time = rightNs - item.ts;
118 item.time = initCounterResultList[idx + 1].ts - item.ts;
122 obj.time += item.time;
140 return sortByColumnLeftData.time - sortByColumnRightData.time;
142 return sortByColumnRightData.time - sortByColumnLeftData.time;
|
| D | TabPaneFrequencySample.ts | 96 a.timeStr = parseFloat((a.time / 1000000.0).toFixed(6));
118 item.time = rightEndNs - item.ts;
120 item.time = initFreqResult[idx + 1].ts - item.ts;
124 obj.time += item.time;
143 return frequencySampleLeftData.time - frequencySampleRightData.time;
145 return frequencySampleRightData.time - frequencySampleLeftData.time;
|
| /developtools/integration_verification/tools/fotff/pkg/gitee_common/ |
| D | get_newer_dir.go | 30 time.Sleep(10 * time.Second)
43 time.Sleep(10 * time.Second)
|
| /developtools/profiler/host/smartperf/client/client_command/ |
| D | CPU.cpp | 125 size_t time[10] = {0}; in CacWorkload() local
138 time[cnt++] = tmp; in CacWorkload()
154 size_t user = time[0] + time[1] - preTime[0] - preTime[1]; in CacWorkload()
155 size_t sys = time[2] - preTime[2]; in CacWorkload()
156 size_t idle = time[3] - preTime[3]; in CacWorkload()
157 size_t iowait = time[4] - preTime[4]; in CacWorkload()
158 size_t irq = time[5] + time[6] - preTime[5] - preTime[6]; in CacWorkload()
|
| D | control_call_cmd.cpp | 41 time = SmartPerf::ControlCallCmd::ColdStart(v); in GetResult()
42 stream << time; in GetResult()
45 time = SmartPerf::ControlCallCmd::HotStart(v); in GetResult()
46 stream << time; in GetResult()
49 time = SmartPerf::ControlCallCmd::ResponseTime(); in GetResult()
50 stream << time; in GetResult()
53 time = SmartPerf::ControlCallCmd::CompleteTime(); in GetResult()
54 stream << time; in GetResult()
57 time = SmartPerf::ControlCallCmd::ColdStartHM(v); in GetResult()
58 stream << time; in GetResult()
[all …]
|
| /developtools/integration_verification/tools/fotff/rec/ |
| D | fotff_test.go | 42 rand.Seed(time.Now().UnixNano())
73 time.Sleep(time.Duration(rand.Intn(1)) * time.Millisecond)
83 time.Sleep(time.Duration(rand.Intn(1)) * time.Millisecond)
114 time.Sleep(time.Duration(rand.Intn(1)) * time.Millisecond)
|
| /developtools/smartperf_host/ide/src/trace/component/chart/ |
| D | SpCpuChart.ts | 127 let time = new Date().getTime();
130 let durTime = new Date().getTime() - time;
135 let time = new Date().getTime();
147 let durTime = new Date().getTime() - time;
159 let time = new Date().getTime();
162 let durTime = new Date().getTime() - time;
167 let time = new Date().getTime();
170 let durTime = new Date().getTime() - time;
|
| /developtools/profiler/host/smartperf/ide/src/trace/component/chart/ |
| D | SpCpuChart.ts | 127 let time = new Date().getTime();
130 let durTime = new Date().getTime() - time;
135 let time = new Date().getTime();
147 let durTime = new Date().getTime() - time;
159 let time = new Date().getTime();
162 let durTime = new Date().getTime() - time;
167 let time = new Date().getTime();
170 let durTime = new Date().getTime() - time;
|