adjust log info.

scheduler/schedule.cpp

@@ -212,19 +212,19 @@ long SensorScheduler::CalcNextTimestamp(int id) {
         }    
         if (send_wave_ts > 0 && available_ts > 0) {
             long min_ts = std::min(send_wave_ts, available_ts);
-            zlog_debug(zct, "[%d] next feature send utc time1:%s", id, GetUTCTime(min_ts).c_str());
+            zlog_warn(zct, "[%d] next feature send utc time1:%s", id, GetUTCTime(min_ts).c_str());
             return min_ts;
         }        
         if (send_wave_ts + available_ts > 0) {
             long max_ts = std::max(send_wave_ts, available_ts);
-            zlog_debug(zct, "[%d] next feature send utc time2:%s", id, GetUTCTime(max_ts).c_str());
+            zlog_warn(zct, "[%d] next feature send utc time2:%s", id, GetUTCTime(max_ts).c_str());
             return max_ts;
         }
     }
 
     // 如果是在当前波形时间窗中，不管是空闲时间窗，还是发送波形的时间窗，下一个时间窗是特征值    
     long available_ts = current_wave_start_ts_ + (nth_eigen_value_slice_ + 1)* eigen_value_send_interval_ + (id - 1) * eigen_value_send_duration_;
-    zlog_debug(zct, "[%d] next feature send utc time3:[%s]", id, GetUTCTime(available_ts).c_str());
+    zlog_warn(zct, "[%d] next feature send utc time3:[%s]", id, GetUTCTime(available_ts).c_str());
     return available_ts;
 }
 
@@ -263,7 +263,7 @@ int SensorScheduler::StartSchedule(int short_addr, int &next_duration) {
     nth_eigen_value_slice_ = seconds_in_current_wave_slice_ / eigen_value_send_interval_;
     seconds_in_current_eigen_slice_ = seconds_in_current_wave_slice_ % eigen_value_send_interval_;
     ts_in_eigen_slice_ = true;
-    if (seconds_in_current_eigen_slice_ > eigen_value_slice_total_seconds_ - 3) {
+    if (seconds_in_current_eigen_slice_ > eigen_value_slice_total_seconds_ - 2) {
         ts_in_eigen_slice_ = false;
     }
 
@@ -272,32 +272,32 @@ int SensorScheduler::StartSchedule(int short_addr, int &next_duration) {
     } else {
         nth_wave_slice_ = (seconds_in_current_eigen_slice_ - eigen_value_slice_total_seconds_ + 3) / seconds_per_wave_slice_;
     }  
-    zlog_debug(zct, "[%d] current utc:%s, nth eigen_value slice:%d, seconds in eigen slice:%d, eigen slice:%d", 
+    zlog_warn(zct, "[%d] current utc:%s, nth eigen_value slice:%d, seconds in eigen slice:%d, eigen slice:%d", 
                id, GetUTCTime(current_ts_).c_str(), nth_eigen_value_slice_+1, seconds_in_current_eigen_slice_, ts_in_eigen_slice_);
     if (ts_in_eigen_slice_) {
         if (id == nth_eigen_slice_ + 1) {
             // 传感器需要执行上送特征值任务, 如果有配置需要下发的话，下发配置
             if (update_.count(id)) {
                 // execute config
-                zlog_debug(zct, "[%d] update config in eigen slice", id);
+                zlog_warn(zct, "[%d] update config in eigen slice", id);
                 current_request_ = kScheduleConfigSensor;
                 return kScheduleConfigSensor;
             } else {
                 // 执行上送特征值任务
-                zlog_debug(zct, "[%d] send eigen value in eigen slice", id);
+                zlog_warn(zct, "[%d] send eigen value in eigen slice", id);
                 current_request_ = kScheduleEigenValue;
                 return kScheduleEigenValue;
             }           
         } else {
-            zlog_debug(zct, "[%d] Invalid request, revive in %d eigen slice", id, nth_eigen_slice_ + 1);
+            zlog_warn(zct, "[%d] Invalid request, revive in %d eigen slice", id, nth_eigen_slice_ + 1);
             if (id < nth_eigen_slice_ + 1) {
                 // 不正确的请求                
                 long available_ts = current_wave_start_ts_ + (nth_eigen_value_slice_ + 1) * eigen_value_send_interval_ + (id - 1) * eigen_value_send_duration_;
-                zlog_debug(zct, "[%d] wrong time in eigen slice, next feature in next interval send utc time:[%s]", id, GetUTCTime(available_ts).c_str());
+                zlog_warn(zct, "[%d] wrong time in eigen slice, next feature in next interval send utc time:[%s]", id, GetUTCTime(available_ts).c_str());
                 next_duration = available_ts - current_ts_;
             } else {
                 long available_ts = current_wave_start_ts_ + nth_eigen_value_slice_ * eigen_value_send_interval_ + (id - 1) * eigen_value_send_duration_;
-                zlog_debug(zct, "[%d] wrong time in eigen slice, next feature in current interval send utc time:[%s]", id, GetUTCTime(available_ts).c_str());
+                zlog_warn(zct, "[%d] wrong time in eigen slice, next feature in current interval send utc time:[%s]", id, GetUTCTime(available_ts).c_str());
                 next_duration = available_ts - current_ts_;
             }
             return kScheduleWrongTime;