delete(mc.cache, pid)
}
}
- logger.WithFields(fields).WithField("size", mc.Length()).Debug("Cleaned, add/update new key")
+ logger.WithFields(
+ fields,
+ ).WithField(
+ "size",
+ mc.Length(),
+ ).Debug("Cleaned, add/update new key")
for pid, pc := range *peers {
if _, exists := mc.cache[pid]; exists {
logger.WithFields(fields).WithFields(
for i := 0; i < 8; i++ {
data[i] ^= buf[i]
}
- logger.WithFields(fields).WithField("after", hex.EncodeToString(data)).Debug("Done")
+ logger.WithFields(
+ fields,
+ ).WithField(
+ "after",
+ hex.EncodeToString(data),
+ ).Debug("Done")
}
// Find tries to find peer's identity (that equals to MAC)
mt.l.Unlock()
return nil, errors.Wrap(err, "mt.mac.Write")
}
- logger.WithFields(fields).WithField("buf", hex.EncodeToString(buf[:0])).Debug("mt.mac.Sum")
+ logger.WithFields(
+ fields,
+ ).WithField(
+ "buf",
+ hex.EncodeToString(buf[:0]),
+ ).Debug("mt.mac.Sum")
mt.mac.Sum(sum[:0])
mt.l.Unlock()