models

package
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Published: Mar 15, 2018 License: MIT Imports: 13 Imported by: 0

Documentation

Overview

Package models implements basic objects used throughout the TICK stack.

Index

Constants

View Source
const (
	// MinNanoTime is the minumum time that can be represented.
	//
	// 1677-09-21 00:12:43.145224194 +0000 UTC
	//
	// The two lowest minimum integers are used as sentinel values.  The
	// minimum value needs to be used as a value lower than any other value for
	// comparisons and another separate value is needed to act as a sentinel
	// default value that is unusable by the user, but usable internally.
	// Because these two values need to be used for a special purpose, we do
	// not allow users to write points at these two times.
	MinNanoTime = int64(math.MinInt64) + 2

	// MaxNanoTime is the maximum time that can be represented.
	//
	// 2262-04-11 23:47:16.854775806 +0000 UTC
	//
	// The highest time represented by a nanosecond needs to be used for an
	// exclusive range in the shard group, so the maximum time needs to be one
	// less than the possible maximum number of nanoseconds representable by an
	// int64 so that we don't lose a point at that one time.
	MaxNanoTime = int64(math.MaxInt64) - 1
)
View Source
const (
	// MaxKeyLength is the largest allowed size of the combined measurement and tag keys.
	MaxKeyLength = 65535
)

Variables

View Source
var (

	// ErrPointMustHaveAField is returned when operating on a point that does not have any fields.
	ErrPointMustHaveAField = errors.New("point without fields is unsupported")

	// ErrInvalidNumber is returned when a number is expected but not provided.
	ErrInvalidNumber = errors.New("invalid number")

	// ErrInvalidPoint is returned when a point cannot be parsed correctly.
	ErrInvalidPoint = errors.New("point is invalid")
)
View Source
var (
	// ErrInvalidConsistencyLevel is returned when parsing the string version
	// of a consistency level.
	ErrInvalidConsistencyLevel = errors.New("invalid consistency level")
)
View Source
var (

	// ErrTimeOutOfRange gets returned when time is out of the representable range using int64 nanoseconds since the epoch.
	ErrTimeOutOfRange = fmt.Errorf("time outside range %d - %d", MinNanoTime, MaxNanoTime)
)

Functions

func AppendMakeKey

func AppendMakeKey(dst []byte, name []byte, tags Tags) []byte

AppendMakeKey appends the key derived from name and tags to dst and returns the extended buffer.

func CheckTime

func CheckTime(t time.Time) error

CheckTime checks that a time is within the safe range.

func CompareTags

func CompareTags(a, b Tags) int

CompareTags returns -1 if a < b, 1 if a > b, and 0 if a == b.

func EnableUintSupport

func EnableUintSupport()

EnableUintSupport manually enables uint support for the point parser. This function will be removed in the future and only exists for unit tests during the transition.

func EscapeMeasurement

func EscapeMeasurement(in []byte) []byte

func EscapeStringField

func EscapeStringField(in string) string

EscapeStringField returns a copy of in with any double quotes or backslashes with escaped values.

func GetPrecisionMultiplier

func GetPrecisionMultiplier(precision string) int64

GetPrecisionMultiplier will return a multiplier for the precision specified.

func MakeKey

func MakeKey(name []byte, tags Tags) []byte

MakeKey creates a key for a set of tags.

func ParseName

func ParseName(buf []byte) ([]byte, error)

func SafeCalcTime

func SafeCalcTime(timestamp int64, precision string) (time.Time, error)

SafeCalcTime safely calculates the time given. Will return error if the time is outside the supported range.

Types

type ConsistencyLevel

type ConsistencyLevel int

ConsistencyLevel represent a required replication criteria before a write can be returned as successful.

The consistency level is handled in open-source InfluxDB but only applicable to clusters.

const (
	// ConsistencyLevelAny allows for hinted handoff, potentially no write happened yet.
	ConsistencyLevelAny ConsistencyLevel = iota

	// ConsistencyLevelOne requires at least one data node acknowledged a write.
	ConsistencyLevelOne

	// ConsistencyLevelQuorum requires a quorum of data nodes to acknowledge a write.
	ConsistencyLevelQuorum

	// ConsistencyLevelAll requires all data nodes to acknowledge a write.
	ConsistencyLevelAll
)

func ParseConsistencyLevel

func ParseConsistencyLevel(level string) (ConsistencyLevel, error)

ParseConsistencyLevel converts a consistency level string to the corresponding ConsistencyLevel const.

type FieldIterator

type FieldIterator interface {
	// Next indicates whether there any fields remaining.
	Next() bool

	// FieldKey returns the key of the current field.
	FieldKey() []byte

	// Type returns the FieldType of the current field.
	Type() FieldType

	// StringValue returns the string value of the current field.
	StringValue() string

	// IntegerValue returns the integer value of the current field.
	IntegerValue() (int64, error)

	// UnsignedValue returns the unsigned value of the current field.
	UnsignedValue() (uint64, error)

	// BooleanValue returns the boolean value of the current field.
	BooleanValue() (bool, error)

	// FloatValue returns the float value of the current field.
	FloatValue() (float64, error)

	// Reset resets the iterator to its initial state.
	Reset()
}

FieldIterator provides a low-allocation interface to iterate through a point's fields.

type FieldType

type FieldType int

FieldType represents the type of a field.

const (
	// Integer indicates the field's type is integer.
	Integer FieldType = iota

	// Float indicates the field's type is float.
	Float

	// Boolean indicates the field's type is boolean.
	Boolean

	// String indicates the field's type is string.
	String

	// Empty is used to indicate that there is no field.
	Empty

	// Unsigned indicates the field's type is an unsigned integer.
	Unsigned
)

type Fields

type Fields map[string]interface{}

Fields represents a mapping between a Point's field names and their values.

func (Fields) MarshalBinary

func (p Fields) MarshalBinary() []byte

MarshalBinary encodes all the fields to their proper type and returns the binary represenation NOTE: uint64 is specifically not supported due to potential overflow when we decode again later to an int64 NOTE2: uint is accepted, and may be 64 bits, and is for some reason accepted...

type InlineFNV64a

type InlineFNV64a uint64

InlineFNV64a is an alloc-free port of the standard library's fnv64a. See https://en.wikipedia.org/wiki/Fowler%E2%80%93Noll%E2%80%93Vo_hash_function.

func NewInlineFNV64a

func NewInlineFNV64a() InlineFNV64a

NewInlineFNV64a returns a new instance of InlineFNV64a.

func (*InlineFNV64a) Sum64

func (s *InlineFNV64a) Sum64() uint64

Sum64 returns the uint64 of the current resulting hash.

func (*InlineFNV64a) Write

func (s *InlineFNV64a) Write(data []byte) (int, error)

Write adds data to the running hash.

type Point

type Point interface {
	// Name return the measurement name for the point.
	Name() []byte

	// SetName updates the measurement name for the point.
	SetName(string)

	// Tags returns the tag set for the point.
	Tags() Tags

	// ForEachTag iterates over each tag invoking fn.  If fn return false, iteration stops.
	ForEachTag(fn func(k, v []byte) bool)

	// AddTag adds or replaces a tag value for a point.
	AddTag(key, value string)

	// SetTags replaces the tags for the point.
	SetTags(tags Tags)

	// HasTag returns true if the tag exists for the point.
	HasTag(tag []byte) bool

	// Fields returns the fields for the point.
	Fields() (Fields, error)

	// Time return the timestamp for the point.
	Time() time.Time

	// SetTime updates the timestamp for the point.
	SetTime(t time.Time)

	// UnixNano returns the timestamp of the point as nanoseconds since Unix epoch.
	UnixNano() int64

	// HashID returns a non-cryptographic checksum of the point's key.
	HashID() uint64

	// Key returns the key (measurement joined with tags) of the point.
	Key() []byte

	// String returns a string representation of the point. If there is a
	// timestamp associated with the point then it will be specified with the default
	// precision of nanoseconds.
	String() string

	// MarshalBinary returns a binary representation of the point.
	MarshalBinary() ([]byte, error)

	// PrecisionString returns a string representation of the point. If there
	// is a timestamp associated with the point then it will be specified in the
	// given unit.
	PrecisionString(precision string) string

	// RoundedString returns a string representation of the point. If there
	// is a timestamp associated with the point, then it will be rounded to the
	// given duration.
	RoundedString(d time.Duration) string

	// Split will attempt to return multiple points with the same timestamp whose
	// string representations are no longer than size. Points with a single field or
	// a point without a timestamp may exceed the requested size.
	Split(size int) []Point

	// Round will round the timestamp of the point to the given duration.
	Round(d time.Duration)

	// StringSize returns the length of the string that would be returned by String().
	StringSize() int

	// AppendString appends the result of String() to the provided buffer and returns
	// the result, potentially reducing string allocations.
	AppendString(buf []byte) []byte

	// FieldIterator retuns a FieldIterator that can be used to traverse the
	// fields of a point without constructing the in-memory map.
	FieldIterator() FieldIterator
}

Point defines the values that will be written to the database.

func MustNewPoint

func MustNewPoint(name string, tags Tags, fields Fields, time time.Time) Point

MustNewPoint returns a new point with the given measurement name, tags, fields and timestamp. If an unsupported field value (NaN) is passed, this function panics.

func NewPoint

func NewPoint(name string, tags Tags, fields Fields, t time.Time) (Point, error)

NewPoint returns a new point with the given measurement name, tags, fields and timestamp. If an unsupported field value (NaN) or out of range time is passed, this function returns an error.

func NewPointFromBytes

func NewPointFromBytes(b []byte) (Point, error)

NewPointFromBytes returns a new Point from a marshalled Point.

func ParsePoints

func ParsePoints(buf []byte) ([]Point, error)

ParsePoints returns a slice of Points from a text representation of a point with each point separated by newlines. If any points fail to parse, a non-nil error will be returned in addition to the points that parsed successfully.

func ParsePointsString

func ParsePointsString(buf string) ([]Point, error)

ParsePointsString is identical to ParsePoints but accepts a string.

func ParsePointsWithPrecision

func ParsePointsWithPrecision(buf []byte, defaultTime time.Time, precision string) ([]Point, error)

ParsePointsWithPrecision is similar to ParsePoints, but allows the caller to provide a precision for time.

NOTE: to minimize heap allocations, the returned Points will refer to subslices of buf. This can have the unintended effect preventing buf from being garbage collected.

type Points

type Points []Point

Points represents a sortable list of points by timestamp.

func (Points) Len

func (a Points) Len() int

Len implements sort.Interface.

func (Points) Less

func (a Points) Less(i, j int) bool

Less implements sort.Interface.

func (Points) Swap

func (a Points) Swap(i, j int)

Swap implements sort.Interface.

type Row

type Row struct {
	Name    string            `json:"name,omitempty"`
	Tags    map[string]string `json:"tags,omitempty"`
	Columns []string          `json:"columns,omitempty"`
	Values  [][]interface{}   `json:"values,omitempty"`
	Partial bool              `json:"partial,omitempty"`
}

Row represents a single row returned from the execution of a statement.

func (*Row) SameSeries

func (r *Row) SameSeries(o *Row) bool

SameSeries returns true if r contains values for the same series as o.

type Rows

type Rows []*Row

Rows represents a collection of rows. Rows implements sort.Interface.

func (Rows) Len

func (p Rows) Len() int

Len implements sort.Interface.

func (Rows) Less

func (p Rows) Less(i, j int) bool

Less implements sort.Interface.

func (Rows) Swap

func (p Rows) Swap(i, j int)

Swap implements sort.Interface.

type Statistic

type Statistic struct {
	Name   string                 `json:"name"`
	Tags   map[string]string      `json:"tags"`
	Values map[string]interface{} `json:"values"`
}

Statistic is the representation of a statistic used by the monitoring service.

func NewStatistic

func NewStatistic(name string) Statistic

NewStatistic returns an initialized Statistic.

type StatisticTags

type StatisticTags map[string]string

StatisticTags is a map that can be merged with others without causing mutations to either map.

func (StatisticTags) Merge

func (t StatisticTags) Merge(tags map[string]string) map[string]string

Merge creates a new map containing the merged contents of tags and t. If both tags and the receiver map contain the same key, the value in tags is used in the resulting map.

Merge always returns a usable map.

type Tag

type Tag struct {
	Key   []byte
	Value []byte
}

Tag represents a single key/value tag pair.

func NewTag

func NewTag(key, value []byte) Tag

NewTag returns a new Tag.

func (Tag) Clone

func (t Tag) Clone() Tag

Clone returns a shallow copy of Tag.

Tags associated with a Point created by ParsePointsWithPrecision will hold references to the byte slice that was parsed. Use Clone to create a Tag with new byte slices that do not refer to the argument to ParsePointsWithPrecision.

func (Tag) Size

func (t Tag) Size() int

Size returns the size of the key and value.

func (*Tag) String

func (t *Tag) String() string

String returns the string reprsentation of the tag.

type Tags

type Tags []Tag

Tags represents a sorted list of tags.

func CopyTags

func CopyTags(a Tags) Tags

CopyTags returns a shallow copy of tags.

func DeepCopyTags

func DeepCopyTags(a Tags) Tags

DeepCopyTags returns a deep copy of tags.

func NewTags

func NewTags(m map[string]string) Tags

NewTags returns a new Tags from a map.

func ParseKey

func ParseKey(buf []byte) (string, Tags)

ParseKey returns the measurement name and tags from a point.

NOTE: to minimize heap allocations, the returned Tags will refer to subslices of buf. This can have the unintended effect preventing buf from being garbage collected.

func ParseKeyBytes

func ParseKeyBytes(buf []byte) ([]byte, Tags)

func ParseTags

func ParseTags(buf []byte) Tags

func (Tags) AppendHashKey

func (a Tags) AppendHashKey(dst []byte) []byte

AppendHashKey appends the result of hashing all of a tag's keys and values to dst and returns the extended buffer.

func (Tags) Clone

func (a Tags) Clone() Tags

Clone returns a copy of the slice where the elements are a result of calling `Clone` on the original elements

Tags associated with a Point created by ParsePointsWithPrecision will hold references to the byte slice that was parsed. Use Clone to create Tags with new byte slices that do not refer to the argument to ParsePointsWithPrecision.

func (*Tags) Delete

func (a *Tags) Delete(key []byte)

Delete removes a tag by key.

func (Tags) Equal

func (a Tags) Equal(other Tags) bool

Equal returns true if a equals other.

func (Tags) Get

func (a Tags) Get(key []byte) []byte

Get returns the value for a key.

func (Tags) GetString

func (a Tags) GetString(key string) string

GetString returns the string value for a string key.

func (Tags) HashKey

func (a Tags) HashKey() []byte

HashKey hashes all of a tag's keys.

func (Tags) Keys

func (a Tags) Keys() []string

Keys returns the list of keys for a tag set.

func (Tags) Len

func (a Tags) Len() int

func (Tags) Less

func (a Tags) Less(i, j int) bool

func (Tags) Map

func (a Tags) Map() map[string]string

Map returns a map representation of the tags.

func (Tags) Merge

func (a Tags) Merge(other map[string]string) Tags

Merge merges the tags combining the two. If both define a tag with the same key, the merged value overwrites the old value. A new map is returned.

func (*Tags) Set

func (a *Tags) Set(key, value []byte)

Set sets the value for a key.

func (*Tags) SetString

func (a *Tags) SetString(key, value string)

SetString sets the string value for a string key.

func (Tags) Size

func (a Tags) Size() int

Size returns the number of bytes needed to store all tags. Note, this is the number of bytes needed to store all keys and values and does not account for data structures or delimiters for example.

func (Tags) String

func (a Tags) String() string

String returns the string representation of the tags.

func (Tags) Swap

func (a Tags) Swap(i, j int)

func (Tags) Values

func (a Tags) Values() []string

Values returns the list of values for a tag set.

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