mirror of
https://github.com/octoleo/syncthing.git
synced 2024-11-10 07:11:08 +00:00
916ec63af6
This is a new revision of the discovery server. Relevant changes and non-changes: - Protocol towards clients is unchanged. - Recommended large scale design is still to be deployed nehind nginx (I tested, and it's still a lot faster at terminating TLS). - Database backend is leveldb again, only. It scales enough, is easy to setup, and we don't need any backend to take care of. - Server supports replication. This is a simple TCP channel - protect it with a firewall when deploying over the internet. (We deploy this within the same datacenter, and with firewall.) Any incoming client announces are sent over the replication channel(s) to other peer discosrvs. Incoming replication changes are applied to the database as if they came from clients, but without the TLS/certificate overhead. - Metrics are exposed using the prometheus library, when enabled. - The database values and replication protocol is protobuf, because JSON was quite CPU intensive when I tried that and benchmarked it. - The "Retry-After" value for failed lookups gets slowly increased from a default of 120 seconds, by 5 seconds for each failed lookup, independently by each discosrv. This lowers the query load over time for clients that are never seen. The Retry-After maxes out at 3600 after a couple of weeks of this increase. The number of failed lookups is stored in the database, now and then (avoiding making each lookup a database put). All in all this means clients can be pointed towards a cluster using just multiple A / AAAA records to gain both load sharing and redundancy (if one is down, clients will talk to the remaining ones). GitHub-Pull-Request: https://github.com/syncthing/syncthing/pull/4648
174 lines
4.2 KiB
Go
174 lines
4.2 KiB
Go
package humanize
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import (
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"fmt"
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"math/big"
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"strings"
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"unicode"
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)
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var (
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bigIECExp = big.NewInt(1024)
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// BigByte is one byte in bit.Ints
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BigByte = big.NewInt(1)
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// BigKiByte is 1,024 bytes in bit.Ints
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BigKiByte = (&big.Int{}).Mul(BigByte, bigIECExp)
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// BigMiByte is 1,024 k bytes in bit.Ints
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BigMiByte = (&big.Int{}).Mul(BigKiByte, bigIECExp)
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// BigGiByte is 1,024 m bytes in bit.Ints
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BigGiByte = (&big.Int{}).Mul(BigMiByte, bigIECExp)
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// BigTiByte is 1,024 g bytes in bit.Ints
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BigTiByte = (&big.Int{}).Mul(BigGiByte, bigIECExp)
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// BigPiByte is 1,024 t bytes in bit.Ints
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BigPiByte = (&big.Int{}).Mul(BigTiByte, bigIECExp)
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// BigEiByte is 1,024 p bytes in bit.Ints
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BigEiByte = (&big.Int{}).Mul(BigPiByte, bigIECExp)
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// BigZiByte is 1,024 e bytes in bit.Ints
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BigZiByte = (&big.Int{}).Mul(BigEiByte, bigIECExp)
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// BigYiByte is 1,024 z bytes in bit.Ints
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BigYiByte = (&big.Int{}).Mul(BigZiByte, bigIECExp)
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)
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var (
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bigSIExp = big.NewInt(1000)
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// BigSIByte is one SI byte in big.Ints
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BigSIByte = big.NewInt(1)
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// BigKByte is 1,000 SI bytes in big.Ints
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BigKByte = (&big.Int{}).Mul(BigSIByte, bigSIExp)
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// BigMByte is 1,000 SI k bytes in big.Ints
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BigMByte = (&big.Int{}).Mul(BigKByte, bigSIExp)
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// BigGByte is 1,000 SI m bytes in big.Ints
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BigGByte = (&big.Int{}).Mul(BigMByte, bigSIExp)
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// BigTByte is 1,000 SI g bytes in big.Ints
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BigTByte = (&big.Int{}).Mul(BigGByte, bigSIExp)
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// BigPByte is 1,000 SI t bytes in big.Ints
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BigPByte = (&big.Int{}).Mul(BigTByte, bigSIExp)
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// BigEByte is 1,000 SI p bytes in big.Ints
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BigEByte = (&big.Int{}).Mul(BigPByte, bigSIExp)
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// BigZByte is 1,000 SI e bytes in big.Ints
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BigZByte = (&big.Int{}).Mul(BigEByte, bigSIExp)
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// BigYByte is 1,000 SI z bytes in big.Ints
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BigYByte = (&big.Int{}).Mul(BigZByte, bigSIExp)
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)
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var bigBytesSizeTable = map[string]*big.Int{
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"b": BigByte,
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"kib": BigKiByte,
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"kb": BigKByte,
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"mib": BigMiByte,
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"mb": BigMByte,
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"gib": BigGiByte,
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"gb": BigGByte,
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"tib": BigTiByte,
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"tb": BigTByte,
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"pib": BigPiByte,
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"pb": BigPByte,
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"eib": BigEiByte,
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"eb": BigEByte,
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"zib": BigZiByte,
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"zb": BigZByte,
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"yib": BigYiByte,
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"yb": BigYByte,
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// Without suffix
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"": BigByte,
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"ki": BigKiByte,
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"k": BigKByte,
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"mi": BigMiByte,
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"m": BigMByte,
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"gi": BigGiByte,
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"g": BigGByte,
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"ti": BigTiByte,
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"t": BigTByte,
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"pi": BigPiByte,
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"p": BigPByte,
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"ei": BigEiByte,
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"e": BigEByte,
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"z": BigZByte,
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"zi": BigZiByte,
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"y": BigYByte,
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"yi": BigYiByte,
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}
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var ten = big.NewInt(10)
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func humanateBigBytes(s, base *big.Int, sizes []string) string {
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if s.Cmp(ten) < 0 {
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return fmt.Sprintf("%d B", s)
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}
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c := (&big.Int{}).Set(s)
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val, mag := oomm(c, base, len(sizes)-1)
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suffix := sizes[mag]
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f := "%.0f %s"
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if val < 10 {
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f = "%.1f %s"
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}
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return fmt.Sprintf(f, val, suffix)
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}
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// BigBytes produces a human readable representation of an SI size.
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//
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// See also: ParseBigBytes.
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//
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// BigBytes(82854982) -> 83 MB
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func BigBytes(s *big.Int) string {
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sizes := []string{"B", "kB", "MB", "GB", "TB", "PB", "EB", "ZB", "YB"}
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return humanateBigBytes(s, bigSIExp, sizes)
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}
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// BigIBytes produces a human readable representation of an IEC size.
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//
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// See also: ParseBigBytes.
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//
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// BigIBytes(82854982) -> 79 MiB
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func BigIBytes(s *big.Int) string {
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sizes := []string{"B", "KiB", "MiB", "GiB", "TiB", "PiB", "EiB", "ZiB", "YiB"}
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return humanateBigBytes(s, bigIECExp, sizes)
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}
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// ParseBigBytes parses a string representation of bytes into the number
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// of bytes it represents.
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//
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// See also: BigBytes, BigIBytes.
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//
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// ParseBigBytes("42 MB") -> 42000000, nil
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// ParseBigBytes("42 mib") -> 44040192, nil
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func ParseBigBytes(s string) (*big.Int, error) {
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lastDigit := 0
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hasComma := false
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for _, r := range s {
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if !(unicode.IsDigit(r) || r == '.' || r == ',') {
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break
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}
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if r == ',' {
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hasComma = true
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}
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lastDigit++
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}
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num := s[:lastDigit]
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if hasComma {
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num = strings.Replace(num, ",", "", -1)
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}
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val := &big.Rat{}
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_, err := fmt.Sscanf(num, "%f", val)
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if err != nil {
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return nil, err
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}
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extra := strings.ToLower(strings.TrimSpace(s[lastDigit:]))
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if m, ok := bigBytesSizeTable[extra]; ok {
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mv := (&big.Rat{}).SetInt(m)
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val.Mul(val, mv)
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rv := &big.Int{}
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rv.Div(val.Num(), val.Denom())
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return rv, nil
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}
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return nil, fmt.Errorf("unhandled size name: %v", extra)
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}
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