package storage import ( "time" ) // SetDedupInterval sets the deduplication interval, which is applied to raw samples during data ingestion and querying. // // De-duplication is disabled if dedupInterval is 0. // // This function must be called before initializing the storage. func SetDedupInterval(dedupInterval time.Duration) { globalDedupInterval = dedupInterval.Milliseconds() } // GetDedupInterval returns the dedup interval in milliseconds, which has been set via SetDedupInterval. func GetDedupInterval() int64 { return globalDedupInterval } var globalDedupInterval int64 func isDedupEnabled() bool { return globalDedupInterval > 0 } // DeduplicateSamples removes samples from src* if they are closer to each other than dedupInterval in millseconds. func DeduplicateSamples(srcTimestamps []int64, srcValues []float64, dedupInterval int64) ([]int64, []float64) { if !needsDedup(srcTimestamps, dedupInterval) { // Fast path - nothing to deduplicate return srcTimestamps, srcValues } tsNext := srcTimestamps[0] + dedupInterval - 1 tsNext -= tsNext % dedupInterval dstTimestamps := srcTimestamps[:0] dstValues := srcValues[:0] for i, ts := range srcTimestamps[1:] { if ts <= tsNext { continue } // Choose the maximum value with the timestamp equal to tsPrev. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3333 j := i tsPrev := srcTimestamps[j] vPrev := srcValues[j] for j > 0 && srcTimestamps[j-1] == tsPrev { j-- if srcValues[j] > vPrev { vPrev = srcValues[j] } } dstTimestamps = append(dstTimestamps, tsPrev) dstValues = append(dstValues, vPrev) tsNext += dedupInterval if tsNext < ts { tsNext = ts + dedupInterval - 1 tsNext -= tsNext % dedupInterval } } j := len(srcTimestamps) - 1 tsPrev := srcTimestamps[j] vPrev := srcValues[j] for j > 0 && srcTimestamps[j-1] == tsPrev { j-- if srcValues[j] > vPrev { vPrev = srcValues[j] } } dstTimestamps = append(dstTimestamps, tsPrev) dstValues = append(dstValues, vPrev) return dstTimestamps, dstValues } func deduplicateSamplesDuringMerge(srcTimestamps, srcValues []int64, dedupInterval int64) ([]int64, []int64) { if !needsDedup(srcTimestamps, dedupInterval) { // Fast path - nothing to deduplicate return srcTimestamps, srcValues } tsNext := srcTimestamps[0] + dedupInterval - 1 tsNext -= tsNext % dedupInterval dstTimestamps := srcTimestamps[:0] dstValues := srcValues[:0] for i, ts := range srcTimestamps[1:] { if ts <= tsNext { continue } // Choose the maximum value with the timestamp equal to tsPrev. // See https://github.com/VictoriaMetrics/VictoriaMetrics/issues/3333 j := i tsPrev := srcTimestamps[j] vPrev := srcValues[j] for j > 0 && srcTimestamps[j-1] == tsPrev { j-- if srcValues[j] > vPrev { vPrev = srcValues[j] } } dstTimestamps = append(dstTimestamps, tsPrev) dstValues = append(dstValues, vPrev) tsNext += dedupInterval if tsNext < ts { tsNext = ts + dedupInterval - 1 tsNext -= tsNext % dedupInterval } } j := len(srcTimestamps) - 1 tsPrev := srcTimestamps[j] vPrev := srcValues[j] for j > 0 && srcTimestamps[j-1] == tsPrev { j-- if srcValues[j] > vPrev { vPrev = srcValues[j] } } dstTimestamps = append(dstTimestamps, tsPrev) dstValues = append(dstValues, vPrev) return dstTimestamps, dstValues } func needsDedup(timestamps []int64, dedupInterval int64) bool { if len(timestamps) < 2 || dedupInterval <= 0 { return false } tsNext := timestamps[0] + dedupInterval - 1 tsNext -= tsNext % dedupInterval for _, ts := range timestamps[1:] { if ts <= tsNext { return true } tsNext += dedupInterval if tsNext < ts { tsNext = ts + dedupInterval - 1 tsNext -= tsNext % dedupInterval } } return false }