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filter_len_range.go
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/
filter_len_range.go
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package logstorage
import (
"unicode/utf8"
"github.com/VictoriaMetrics/VictoriaMetrics/lib/logger"
)
// filterLenRange matches field values with the length in the given range [minLen, maxLen].
//
// Example LogsQL: `fieldName:len_range(10, 20)`
type filterLenRange struct {
fieldName string
minLen uint64
maxLen uint64
stringRepr string
}
func (fr *filterLenRange) String() string {
return quoteFieldNameIfNeeded(fr.fieldName) + "len_range" + fr.stringRepr
}
func (fr *filterLenRange) updateNeededFields(neededFields fieldsSet) {
neededFields.add(fr.fieldName)
}
func (fr *filterLenRange) applyToBlockResult(br *blockResult, bm *bitmap) {
minLen := fr.minLen
maxLen := fr.maxLen
if minLen > maxLen {
bm.resetBits()
return
}
c := br.getColumnByName(fr.fieldName)
if c.isConst {
v := c.valuesEncoded[0]
if !matchLenRange(v, minLen, maxLen) {
bm.resetBits()
}
return
}
if c.isTime {
matchColumnByLenRange(br, bm, c, minLen, maxLen)
}
switch c.valueType {
case valueTypeString:
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeDict:
bb := bbPool.Get()
for _, v := range c.dictValues {
c := byte(0)
if matchLenRange(v, minLen, maxLen) {
c = 1
}
bb.B = append(bb.B, c)
}
valuesEncoded := c.getValuesEncoded(br)
bm.forEachSetBit(func(idx int) bool {
n := valuesEncoded[idx][0]
return bb.B[n] == 1
})
bbPool.Put(bb)
case valueTypeUint8:
if minLen > 3 || maxLen == 0 {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeUint16:
if minLen > 5 || maxLen == 0 {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeUint32:
if minLen > 10 || maxLen == 0 {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeUint64:
if minLen > 20 || maxLen == 0 {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeFloat64:
if minLen > 24 || maxLen == 0 {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeIPv4:
if minLen > uint64(len("255.255.255.255")) || maxLen < uint64(len("0.0.0.0")) {
bm.resetBits()
return
}
matchColumnByLenRange(br, bm, c, minLen, maxLen)
case valueTypeTimestampISO8601:
matchTimestampISO8601ByLenRange(bm, minLen, maxLen)
default:
logger.Panicf("FATAL: unknown valueType=%d", c.valueType)
}
}
func matchColumnByLenRange(br *blockResult, bm *bitmap, c *blockResultColumn, minLen, maxLen uint64) {
values := c.getValues(br)
bm.forEachSetBit(func(idx int) bool {
v := values[idx]
return matchLenRange(v, minLen, maxLen)
})
}
func (fr *filterLenRange) applyToBlockSearch(bs *blockSearch, bm *bitmap) {
fieldName := fr.fieldName
minLen := fr.minLen
maxLen := fr.maxLen
if minLen > maxLen {
bm.resetBits()
return
}
v := bs.csh.getConstColumnValue(fieldName)
if v != "" {
if !matchLenRange(v, minLen, maxLen) {
bm.resetBits()
}
return
}
// Verify whether filter matches other columns
ch := bs.csh.getColumnHeader(fieldName)
if ch == nil {
// Fast path - there are no matching columns.
if !matchLenRange("", minLen, maxLen) {
bm.resetBits()
}
return
}
switch ch.valueType {
case valueTypeString:
matchStringByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeDict:
matchValuesDictByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeUint8:
matchUint8ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeUint16:
matchUint16ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeUint32:
matchUint32ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeUint64:
matchUint64ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeFloat64:
matchFloat64ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeIPv4:
matchIPv4ByLenRange(bs, ch, bm, minLen, maxLen)
case valueTypeTimestampISO8601:
matchTimestampISO8601ByLenRange(bm, minLen, maxLen)
default:
logger.Panicf("FATAL: %s: unknown valueType=%d", bs.partPath(), ch.valueType)
}
}
func matchTimestampISO8601ByLenRange(bm *bitmap, minLen, maxLen uint64) {
if minLen > uint64(len(iso8601Timestamp)) || maxLen < uint64(len(iso8601Timestamp)) {
bm.resetBits()
return
}
}
func matchIPv4ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > uint64(len("255.255.255.255")) || maxLen < uint64(len("0.0.0.0")) {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toIPv4String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchFloat64ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > 24 || maxLen == 0 {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toFloat64String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchValuesDictByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
bb := bbPool.Get()
for _, v := range ch.valuesDict.values {
c := byte(0)
if matchLenRange(v, minLen, maxLen) {
c = 1
}
bb.B = append(bb.B, c)
}
matchEncodedValuesDict(bs, ch, bm, bb.B)
bbPool.Put(bb)
}
func matchStringByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
visitValues(bs, ch, bm, func(v string) bool {
return matchLenRange(v, minLen, maxLen)
})
}
func matchUint8ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > 3 || maxLen == 0 {
bm.resetBits()
return
}
if !matchMinMaxValueLen(ch, minLen, maxLen) {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toUint8String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchUint16ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > 5 || maxLen == 0 {
bm.resetBits()
return
}
if !matchMinMaxValueLen(ch, minLen, maxLen) {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toUint16String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchUint32ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > 10 || maxLen == 0 {
bm.resetBits()
return
}
if !matchMinMaxValueLen(ch, minLen, maxLen) {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toUint32String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchUint64ByLenRange(bs *blockSearch, ch *columnHeader, bm *bitmap, minLen, maxLen uint64) {
if minLen > 20 || maxLen == 0 {
bm.resetBits()
return
}
if !matchMinMaxValueLen(ch, minLen, maxLen) {
bm.resetBits()
return
}
bb := bbPool.Get()
visitValues(bs, ch, bm, func(v string) bool {
s := toUint64String(bs, bb, v)
return matchLenRange(s, minLen, maxLen)
})
bbPool.Put(bb)
}
func matchLenRange(s string, minLen, maxLen uint64) bool {
sLen := uint64(utf8.RuneCountInString(s))
return sLen >= minLen && sLen <= maxLen
}
func matchMinMaxValueLen(ch *columnHeader, minLen, maxLen uint64) bool {
bb := bbPool.Get()
defer bbPool.Put(bb)
bb.B = marshalUint64String(bb.B[:0], ch.minValue)
if maxLen < uint64(len(bb.B)) {
return false
}
bb.B = marshalUint64String(bb.B[:0], ch.maxValue)
return minLen <= uint64(len(bb.B))
}