mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
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f924297af1
Bumps [github.com/minio/minio-go/v7](https://github.com/minio/minio-go) from 7.0.75 to 7.0.76. - [Release notes](https://github.com/minio/minio-go/releases) - [Commits](https://github.com/minio/minio-go/compare/v7.0.75...v7.0.76) --- updated-dependencies: - dependency-name: github.com/minio/minio-go/v7 dependency-type: direct:production update-type: version-update:semver-patch ... Signed-off-by: dependabot[bot] <support@github.com> Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
390 lines
11 KiB
Go
390 lines
11 KiB
Go
// Package xid is a globally unique id generator suited for web scale
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//
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// Xid is using Mongo Object ID algorithm to generate globally unique ids:
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// https://docs.mongodb.org/manual/reference/object-id/
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//
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// - 4-byte value representing the seconds since the Unix epoch,
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// - 3-byte machine identifier,
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// - 2-byte process id, and
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// - 3-byte counter, starting with a random value.
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//
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// The binary representation of the id is compatible with Mongo 12 bytes Object IDs.
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// The string representation is using base32 hex (w/o padding) for better space efficiency
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// when stored in that form (20 bytes). The hex variant of base32 is used to retain the
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// sortable property of the id.
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//
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// Xid doesn't use base64 because case sensitivity and the 2 non alphanum chars may be an
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// issue when transported as a string between various systems. Base36 wasn't retained either
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// because 1/ it's not standard 2/ the resulting size is not predictable (not bit aligned)
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// and 3/ it would not remain sortable. To validate a base32 `xid`, expect a 20 chars long,
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// all lowercase sequence of `a` to `v` letters and `0` to `9` numbers (`[0-9a-v]{20}`).
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//
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// UUID is 16 bytes (128 bits), snowflake is 8 bytes (64 bits), xid stands in between
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// with 12 bytes with a more compact string representation ready for the web and no
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// required configuration or central generation server.
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//
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// Features:
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//
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// - Size: 12 bytes (96 bits), smaller than UUID, larger than snowflake
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// - Base32 hex encoded by default (16 bytes storage when transported as printable string)
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// - Non configured, you don't need set a unique machine and/or data center id
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// - K-ordered
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// - Embedded time with 1 second precision
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// - Unicity guaranteed for 16,777,216 (24 bits) unique ids per second and per host/process
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//
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// Best used with xlog's RequestIDHandler (https://godoc.org/github.com/rs/xlog#RequestIDHandler).
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//
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// References:
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//
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// - http://www.slideshare.net/davegardnerisme/unique-id-generation-in-distributed-systems
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// - https://en.wikipedia.org/wiki/Universally_unique_identifier
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// - https://blog.twitter.com/2010/announcing-snowflake
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package xid
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import (
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"bytes"
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"crypto/sha256"
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"crypto/rand"
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"database/sql/driver"
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"encoding/binary"
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"fmt"
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"hash/crc32"
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"io/ioutil"
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"os"
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"sort"
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"sync/atomic"
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"time"
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)
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// Code inspired from mgo/bson ObjectId
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// ID represents a unique request id
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type ID [rawLen]byte
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const (
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encodedLen = 20 // string encoded len
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rawLen = 12 // binary raw len
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// encoding stores a custom version of the base32 encoding with lower case
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// letters.
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encoding = "0123456789abcdefghijklmnopqrstuv"
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)
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var (
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// objectIDCounter is atomically incremented when generating a new ObjectId. It's
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// used as the counter part of an id. This id is initialized with a random value.
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objectIDCounter = randInt()
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// machineID is generated once and used in subsequent calls to the New* functions.
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machineID = readMachineID()
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// pid stores the current process id
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pid = os.Getpid()
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nilID ID
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// dec is the decoding map for base32 encoding
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dec [256]byte
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)
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func init() {
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for i := 0; i < len(dec); i++ {
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dec[i] = 0xFF
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}
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for i := 0; i < len(encoding); i++ {
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dec[encoding[i]] = byte(i)
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}
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// If /proc/self/cpuset exists and is not /, we can assume that we are in a
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// form of container and use the content of cpuset xor-ed with the PID in
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// order get a reasonable machine global unique PID.
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b, err := ioutil.ReadFile("/proc/self/cpuset")
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if err == nil && len(b) > 1 {
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pid ^= int(crc32.ChecksumIEEE(b))
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}
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}
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// readMachineID generates a machine ID, derived from a platform-specific machine ID
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// value, or else the machine's hostname, or else a randomly-generated number.
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// It panics if all of these methods fail.
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func readMachineID() []byte {
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id := make([]byte, 3)
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hid, err := readPlatformMachineID()
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if err != nil || len(hid) == 0 {
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hid, err = os.Hostname()
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}
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if err == nil && len(hid) != 0 {
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hw := sha256.New()
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hw.Write([]byte(hid))
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copy(id, hw.Sum(nil))
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} else {
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// Fallback to rand number if machine id can't be gathered
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if _, randErr := rand.Reader.Read(id); randErr != nil {
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panic(fmt.Errorf("xid: cannot get hostname nor generate a random number: %v; %v", err, randErr))
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}
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}
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return id
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}
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// randInt generates a random uint32
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func randInt() uint32 {
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b := make([]byte, 3)
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if _, err := rand.Reader.Read(b); err != nil {
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panic(fmt.Errorf("xid: cannot generate random number: %v;", err))
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}
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return uint32(b[0])<<16 | uint32(b[1])<<8 | uint32(b[2])
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}
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// New generates a globally unique ID
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func New() ID {
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return NewWithTime(time.Now())
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}
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// NewWithTime generates a globally unique ID with the passed in time
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func NewWithTime(t time.Time) ID {
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var id ID
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// Timestamp, 4 bytes, big endian
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binary.BigEndian.PutUint32(id[:], uint32(t.Unix()))
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// Machine ID, 3 bytes
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id[4] = machineID[0]
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id[5] = machineID[1]
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id[6] = machineID[2]
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// Pid, 2 bytes, specs don't specify endianness, but we use big endian.
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id[7] = byte(pid >> 8)
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id[8] = byte(pid)
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// Increment, 3 bytes, big endian
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i := atomic.AddUint32(&objectIDCounter, 1)
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id[9] = byte(i >> 16)
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id[10] = byte(i >> 8)
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id[11] = byte(i)
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return id
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}
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// FromString reads an ID from its string representation
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func FromString(id string) (ID, error) {
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i := &ID{}
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err := i.UnmarshalText([]byte(id))
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return *i, err
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}
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// String returns a base32 hex lowercased with no padding representation of the id (char set is 0-9, a-v).
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func (id ID) String() string {
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text := make([]byte, encodedLen)
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encode(text, id[:])
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return string(text)
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}
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// Encode encodes the id using base32 encoding, writing 20 bytes to dst and return it.
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func (id ID) Encode(dst []byte) []byte {
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encode(dst, id[:])
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return dst
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}
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// MarshalText implements encoding/text TextMarshaler interface
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func (id ID) MarshalText() ([]byte, error) {
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text := make([]byte, encodedLen)
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encode(text, id[:])
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return text, nil
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}
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// MarshalJSON implements encoding/json Marshaler interface
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func (id ID) MarshalJSON() ([]byte, error) {
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if id.IsNil() {
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return []byte("null"), nil
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}
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text := make([]byte, encodedLen+2)
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encode(text[1:encodedLen+1], id[:])
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text[0], text[encodedLen+1] = '"', '"'
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return text, nil
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}
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// encode by unrolling the stdlib base32 algorithm + removing all safe checks
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func encode(dst, id []byte) {
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_ = dst[19]
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_ = id[11]
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dst[19] = encoding[(id[11]<<4)&0x1F]
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dst[18] = encoding[(id[11]>>1)&0x1F]
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dst[17] = encoding[(id[11]>>6)|(id[10]<<2)&0x1F]
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dst[16] = encoding[id[10]>>3]
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dst[15] = encoding[id[9]&0x1F]
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dst[14] = encoding[(id[9]>>5)|(id[8]<<3)&0x1F]
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dst[13] = encoding[(id[8]>>2)&0x1F]
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dst[12] = encoding[id[8]>>7|(id[7]<<1)&0x1F]
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dst[11] = encoding[(id[7]>>4)|(id[6]<<4)&0x1F]
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dst[10] = encoding[(id[6]>>1)&0x1F]
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dst[9] = encoding[(id[6]>>6)|(id[5]<<2)&0x1F]
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dst[8] = encoding[id[5]>>3]
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dst[7] = encoding[id[4]&0x1F]
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dst[6] = encoding[id[4]>>5|(id[3]<<3)&0x1F]
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dst[5] = encoding[(id[3]>>2)&0x1F]
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dst[4] = encoding[id[3]>>7|(id[2]<<1)&0x1F]
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dst[3] = encoding[(id[2]>>4)|(id[1]<<4)&0x1F]
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dst[2] = encoding[(id[1]>>1)&0x1F]
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dst[1] = encoding[(id[1]>>6)|(id[0]<<2)&0x1F]
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dst[0] = encoding[id[0]>>3]
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}
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// UnmarshalText implements encoding/text TextUnmarshaler interface
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func (id *ID) UnmarshalText(text []byte) error {
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if len(text) != encodedLen {
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return ErrInvalidID
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}
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for _, c := range text {
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if dec[c] == 0xFF {
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return ErrInvalidID
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}
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}
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if !decode(id, text) {
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*id = nilID
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return ErrInvalidID
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}
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return nil
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}
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// UnmarshalJSON implements encoding/json Unmarshaler interface
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func (id *ID) UnmarshalJSON(b []byte) error {
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s := string(b)
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if s == "null" {
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*id = nilID
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return nil
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}
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// Check the slice length to prevent panic on passing it to UnmarshalText()
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if len(b) < 2 {
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return ErrInvalidID
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}
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return id.UnmarshalText(b[1 : len(b)-1])
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}
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// decode by unrolling the stdlib base32 algorithm + customized safe check.
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func decode(id *ID, src []byte) bool {
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_ = src[19]
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_ = id[11]
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id[11] = dec[src[17]]<<6 | dec[src[18]]<<1 | dec[src[19]]>>4
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// check the last byte
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if encoding[(id[11]<<4)&0x1F] != src[19] {
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return false
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}
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id[10] = dec[src[16]]<<3 | dec[src[17]]>>2
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id[9] = dec[src[14]]<<5 | dec[src[15]]
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id[8] = dec[src[12]]<<7 | dec[src[13]]<<2 | dec[src[14]]>>3
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id[7] = dec[src[11]]<<4 | dec[src[12]]>>1
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id[6] = dec[src[9]]<<6 | dec[src[10]]<<1 | dec[src[11]]>>4
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id[5] = dec[src[8]]<<3 | dec[src[9]]>>2
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id[4] = dec[src[6]]<<5 | dec[src[7]]
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id[3] = dec[src[4]]<<7 | dec[src[5]]<<2 | dec[src[6]]>>3
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id[2] = dec[src[3]]<<4 | dec[src[4]]>>1
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id[1] = dec[src[1]]<<6 | dec[src[2]]<<1 | dec[src[3]]>>4
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id[0] = dec[src[0]]<<3 | dec[src[1]]>>2
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return true
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}
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// Time returns the timestamp part of the id.
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// It's a runtime error to call this method with an invalid id.
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func (id ID) Time() time.Time {
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// First 4 bytes of ObjectId is 32-bit big-endian seconds from epoch.
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secs := int64(binary.BigEndian.Uint32(id[0:4]))
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return time.Unix(secs, 0)
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}
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// Machine returns the 3-byte machine id part of the id.
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// It's a runtime error to call this method with an invalid id.
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func (id ID) Machine() []byte {
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return id[4:7]
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}
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// Pid returns the process id part of the id.
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// It's a runtime error to call this method with an invalid id.
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func (id ID) Pid() uint16 {
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return binary.BigEndian.Uint16(id[7:9])
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}
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// Counter returns the incrementing value part of the id.
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// It's a runtime error to call this method with an invalid id.
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func (id ID) Counter() int32 {
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b := id[9:12]
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// Counter is stored as big-endian 3-byte value
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return int32(uint32(b[0])<<16 | uint32(b[1])<<8 | uint32(b[2]))
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}
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// Value implements the driver.Valuer interface.
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func (id ID) Value() (driver.Value, error) {
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if id.IsNil() {
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return nil, nil
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}
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b, err := id.MarshalText()
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return string(b), err
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}
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// Scan implements the sql.Scanner interface.
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func (id *ID) Scan(value interface{}) (err error) {
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switch val := value.(type) {
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case string:
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return id.UnmarshalText([]byte(val))
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case []byte:
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return id.UnmarshalText(val)
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case nil:
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*id = nilID
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return nil
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default:
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return fmt.Errorf("xid: scanning unsupported type: %T", value)
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}
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}
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// IsNil Returns true if this is a "nil" ID
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func (id ID) IsNil() bool {
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return id == nilID
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}
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// Alias of IsNil
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func (id ID) IsZero() bool {
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return id.IsNil()
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}
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// NilID returns a zero value for `xid.ID`.
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func NilID() ID {
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return nilID
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}
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// Bytes returns the byte array representation of `ID`
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func (id ID) Bytes() []byte {
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return id[:]
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}
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// FromBytes convert the byte array representation of `ID` back to `ID`
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func FromBytes(b []byte) (ID, error) {
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var id ID
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if len(b) != rawLen {
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return id, ErrInvalidID
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}
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copy(id[:], b)
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return id, nil
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}
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// Compare returns an integer comparing two IDs. It behaves just like `bytes.Compare`.
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// The result will be 0 if two IDs are identical, -1 if current id is less than the other one,
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// and 1 if current id is greater than the other.
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func (id ID) Compare(other ID) int {
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return bytes.Compare(id[:], other[:])
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}
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type sorter []ID
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func (s sorter) Len() int {
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return len(s)
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}
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func (s sorter) Less(i, j int) bool {
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return s[i].Compare(s[j]) < 0
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}
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func (s sorter) Swap(i, j int) {
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s[i], s[j] = s[j], s[i]
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}
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// Sort sorts an array of IDs inplace.
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// It works by wrapping `[]ID` and use `sort.Sort`.
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func Sort(ids []ID) {
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sort.Sort(sorter(ids))
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}
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