ceph-csi/vendor/github.com/google/cel-go/cel/library.go

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// Copyright 2020 Google LLC
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package cel
import (
"strconv"
"strings"
"time"
"github.com/google/cel-go/checker"
"github.com/google/cel-go/common/overloads"
"github.com/google/cel-go/common/types"
"github.com/google/cel-go/common/types/ref"
"github.com/google/cel-go/interpreter/functions"
)
// Library provides a collection of EnvOption and ProgramOption values used to configure a CEL
// environment for a particular use case or with a related set of functionality.
//
// Note, the ProgramOption values provided by a library are expected to be static and not vary
// between calls to Env.Program(). If there is a need for such dynamic configuration, prefer to
// configure these options outside the Library and within the Env.Program() call directly.
type Library interface {
// CompileOptions returns a collection of functional options for configuring the Parse / Check
// environment.
CompileOptions() []EnvOption
// ProgramOptions returns a collection of functional options which should be included in every
// Program generated from the Env.Program() call.
ProgramOptions() []ProgramOption
}
// Lib creates an EnvOption out of a Library, allowing libraries to be provided as functional args,
// and to be linked to each other.
func Lib(l Library) EnvOption {
return func(e *Env) (*Env, error) {
var err error
for _, opt := range l.CompileOptions() {
e, err = opt(e)
if err != nil {
return nil, err
}
}
e.progOpts = append(e.progOpts, l.ProgramOptions()...)
return e, nil
}
}
// StdLib returns an EnvOption for the standard library of CEL functions and macros.
func StdLib() EnvOption {
return Lib(stdLibrary{})
}
// stdLibrary implements the Library interface and provides functional options for the core CEL
// features documented in the specification.
type stdLibrary struct{}
// EnvOptions returns options for the standard CEL function declarations and macros.
func (stdLibrary) CompileOptions() []EnvOption {
return []EnvOption{
Declarations(checker.StandardDeclarations()...),
Macros(StandardMacros...),
}
}
// ProgramOptions returns function implementations for the standard CEL functions.
func (stdLibrary) ProgramOptions() []ProgramOption {
return []ProgramOption{
Functions(functions.StandardOverloads()...),
}
}
type timeUTCLibrary struct{}
func (timeUTCLibrary) CompileOptions() []EnvOption {
return timeOverloadDeclarations
}
func (timeUTCLibrary) ProgramOptions() []ProgramOption {
return []ProgramOption{}
}
// Declarations and functions which enable using UTC on time.Time inputs when the timezone is unspecified
// in the CEL expression.
var (
utcTZ = types.String("UTC")
timeOverloadDeclarations = []EnvOption{
Function(overloads.TimeGetHours,
MemberOverload(overloads.DurationToHours, []*Type{DurationType}, IntType,
UnaryBinding(func(dur ref.Val) ref.Val {
d := dur.(types.Duration)
return types.Int(d.Hours())
}))),
Function(overloads.TimeGetMinutes,
MemberOverload(overloads.DurationToMinutes, []*Type{DurationType}, IntType,
UnaryBinding(func(dur ref.Val) ref.Val {
d := dur.(types.Duration)
return types.Int(d.Minutes())
}))),
Function(overloads.TimeGetSeconds,
MemberOverload(overloads.DurationToSeconds, []*Type{DurationType}, IntType,
UnaryBinding(func(dur ref.Val) ref.Val {
d := dur.(types.Duration)
return types.Int(d.Seconds())
}))),
Function(overloads.TimeGetMilliseconds,
MemberOverload(overloads.DurationToMilliseconds, []*Type{DurationType}, IntType,
UnaryBinding(func(dur ref.Val) ref.Val {
d := dur.(types.Duration)
return types.Int(d.Milliseconds())
}))),
Function(overloads.TimeGetFullYear,
MemberOverload(overloads.TimestampToYear, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetFullYear(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToYearWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetFullYear),
),
),
Function(overloads.TimeGetMonth,
MemberOverload(overloads.TimestampToMonth, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetMonth(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToMonthWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetMonth),
),
),
Function(overloads.TimeGetDayOfYear,
MemberOverload(overloads.TimestampToDayOfYear, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetDayOfYear(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToDayOfYearWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(func(ts, tz ref.Val) ref.Val {
return timestampGetDayOfYear(ts, tz)
}),
),
),
Function(overloads.TimeGetDayOfMonth,
MemberOverload(overloads.TimestampToDayOfMonthZeroBased, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetDayOfMonthZeroBased(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToDayOfMonthZeroBasedWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetDayOfMonthZeroBased),
),
),
Function(overloads.TimeGetDate,
MemberOverload(overloads.TimestampToDayOfMonthOneBased, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetDayOfMonthOneBased(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToDayOfMonthOneBasedWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetDayOfMonthOneBased),
),
),
Function(overloads.TimeGetDayOfWeek,
MemberOverload(overloads.TimestampToDayOfWeek, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetDayOfWeek(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToDayOfWeekWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetDayOfWeek),
),
),
Function(overloads.TimeGetHours,
MemberOverload(overloads.TimestampToHours, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetHours(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToHoursWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetHours),
),
),
Function(overloads.TimeGetMinutes,
MemberOverload(overloads.TimestampToMinutes, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetMinutes(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToMinutesWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetMinutes),
),
),
Function(overloads.TimeGetSeconds,
MemberOverload(overloads.TimestampToSeconds, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetSeconds(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToSecondsWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetSeconds),
),
),
Function(overloads.TimeGetMilliseconds,
MemberOverload(overloads.TimestampToMilliseconds, []*Type{TimestampType}, IntType,
UnaryBinding(func(ts ref.Val) ref.Val {
return timestampGetMilliseconds(ts, utcTZ)
}),
),
MemberOverload(overloads.TimestampToMillisecondsWithTz, []*Type{TimestampType, StringType}, IntType,
BinaryBinding(timestampGetMilliseconds),
),
),
}
)
func timestampGetFullYear(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Year())
}
func timestampGetMonth(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
// CEL spec indicates that the month should be 0-based, but the Time value
// for Month() is 1-based.
return types.Int(t.Month() - 1)
}
func timestampGetDayOfYear(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.YearDay() - 1)
}
func timestampGetDayOfMonthZeroBased(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Day() - 1)
}
func timestampGetDayOfMonthOneBased(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Day())
}
func timestampGetDayOfWeek(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Weekday())
}
func timestampGetHours(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Hour())
}
func timestampGetMinutes(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Minute())
}
func timestampGetSeconds(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Second())
}
func timestampGetMilliseconds(ts, tz ref.Val) ref.Val {
t, err := inTimeZone(ts, tz)
if err != nil {
return types.NewErr(err.Error())
}
return types.Int(t.Nanosecond() / 1000000)
}
func inTimeZone(ts, tz ref.Val) (time.Time, error) {
t := ts.(types.Timestamp)
val := string(tz.(types.String))
ind := strings.Index(val, ":")
if ind == -1 {
loc, err := time.LoadLocation(val)
if err != nil {
return time.Time{}, err
}
return t.In(loc), nil
}
// If the input is not the name of a timezone (for example, 'US/Central'), it should be a numerical offset from UTC
// in the format ^(+|-)(0[0-9]|1[0-4]):[0-5][0-9]$. The numerical input is parsed in terms of hours and minutes.
hr, err := strconv.Atoi(string(val[0:ind]))
if err != nil {
return time.Time{}, err
}
min, err := strconv.Atoi(string(val[ind+1:]))
if err != nil {
return time.Time{}, err
}
var offset int
if string(val[0]) == "-" {
offset = hr*60 - min
} else {
offset = hr*60 + min
}
secondsEastOfUTC := int((time.Duration(offset) * time.Minute).Seconds())
timezone := time.FixedZone("", secondsEastOfUTC)
return t.In(timezone), nil
}