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opts.go
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opts.go
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package opts
import (
"fmt"
"net"
"path"
"regexp"
"strings"
units "github.com/docker/go-units"
)
var (
alphaRegexp = regexp.MustCompile(`[a-zA-Z]`)
domainRegexp = regexp.MustCompile(`^(:?(:?[a-zA-Z0-9]|(:?[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9]))(:?\.(:?[a-zA-Z0-9]|(:?[a-zA-Z0-9][a-zA-Z0-9\-]*[a-zA-Z0-9])))*)\.?\s*$`)
)
// ListOpts holds a list of values and a validation function.
type ListOpts struct {
values *[]string
validator ValidatorFctType
}
// NewListOpts creates a new ListOpts with the specified validator.
func NewListOpts(validator ValidatorFctType) ListOpts {
var values []string
return *NewListOptsRef(&values, validator)
}
// NewListOptsRef creates a new ListOpts with the specified values and validator.
func NewListOptsRef(values *[]string, validator ValidatorFctType) *ListOpts {
return &ListOpts{
values: values,
validator: validator,
}
}
func (opts *ListOpts) String() string {
if len(*opts.values) == 0 {
return ""
}
return fmt.Sprintf("%v", *opts.values)
}
// Set validates if needed the input value and adds it to the
// internal slice.
func (opts *ListOpts) Set(value string) error {
if opts.validator != nil {
v, err := opts.validator(value)
if err != nil {
return err
}
value = v
}
(*opts.values) = append((*opts.values), value)
return nil
}
// Delete removes the specified element from the slice.
func (opts *ListOpts) Delete(key string) {
for i, k := range *opts.values {
if k == key {
(*opts.values) = append((*opts.values)[:i], (*opts.values)[i+1:]...)
return
}
}
}
// GetMap returns the content of values in a map in order to avoid
// duplicates.
func (opts *ListOpts) GetMap() map[string]struct{} {
ret := make(map[string]struct{})
for _, k := range *opts.values {
ret[k] = struct{}{}
}
return ret
}
// GetAll returns the values of slice.
func (opts *ListOpts) GetAll() []string {
return (*opts.values)
}
// GetAllOrEmpty returns the values of the slice
// or an empty slice when there are no values.
func (opts *ListOpts) GetAllOrEmpty() []string {
v := *opts.values
if v == nil {
return make([]string, 0)
}
return v
}
// Get checks the existence of the specified key.
func (opts *ListOpts) Get(key string) bool {
for _, k := range *opts.values {
if k == key {
return true
}
}
return false
}
// Len returns the amount of element in the slice.
func (opts *ListOpts) Len() int {
return len((*opts.values))
}
// Type returns a string name for this Option type
func (opts *ListOpts) Type() string {
return "list"
}
// WithValidator returns the ListOpts with validator set.
func (opts *ListOpts) WithValidator(validator ValidatorFctType) *ListOpts {
opts.validator = validator
return opts
}
// NamedOption is an interface that list and map options
// with names implement.
type NamedOption interface {
Name() string
}
// NamedListOpts is a ListOpts with a configuration name.
// This struct is useful to keep reference to the assigned
// field name in the internal configuration struct.
type NamedListOpts struct {
name string
ListOpts
}
var _ NamedOption = &NamedListOpts{}
// NewNamedListOptsRef creates a reference to a new NamedListOpts struct.
func NewNamedListOptsRef(name string, values *[]string, validator ValidatorFctType) *NamedListOpts {
return &NamedListOpts{
name: name,
ListOpts: *NewListOptsRef(values, validator),
}
}
// Name returns the name of the NamedListOpts in the configuration.
func (o *NamedListOpts) Name() string {
return o.name
}
// MapOpts holds a map of values and a validation function.
type MapOpts struct {
values map[string]string
validator ValidatorFctType
}
// Set validates if needed the input value and add it to the
// internal map, by splitting on '='.
func (opts *MapOpts) Set(value string) error {
if opts.validator != nil {
v, err := opts.validator(value)
if err != nil {
return err
}
value = v
}
vals := strings.SplitN(value, "=", 2)
if len(vals) == 1 {
(opts.values)[vals[0]] = ""
} else {
(opts.values)[vals[0]] = vals[1]
}
return nil
}
// GetAll returns the values of MapOpts as a map.
func (opts *MapOpts) GetAll() map[string]string {
return opts.values
}
func (opts *MapOpts) String() string {
return fmt.Sprintf("%v", map[string]string((opts.values)))
}
// Type returns a string name for this Option type
func (opts *MapOpts) Type() string {
return "map"
}
// NewMapOpts creates a new MapOpts with the specified map of values and a validator.
func NewMapOpts(values map[string]string, validator ValidatorFctType) *MapOpts {
if values == nil {
values = make(map[string]string)
}
return &MapOpts{
values: values,
validator: validator,
}
}
// NamedMapOpts is a MapOpts struct with a configuration name.
// This struct is useful to keep reference to the assigned
// field name in the internal configuration struct.
type NamedMapOpts struct {
name string
MapOpts
}
var _ NamedOption = &NamedMapOpts{}
// NewNamedMapOpts creates a reference to a new NamedMapOpts struct.
func NewNamedMapOpts(name string, values map[string]string, validator ValidatorFctType) *NamedMapOpts {
return &NamedMapOpts{
name: name,
MapOpts: *NewMapOpts(values, validator),
}
}
// Name returns the name of the NamedMapOpts in the configuration.
func (o *NamedMapOpts) Name() string {
return o.name
}
// ValidatorFctType defines a validator function that returns a validated string and/or an error.
type ValidatorFctType func(val string) (string, error)
// ValidatorFctListType defines a validator function that returns a validated list of string and/or an error
type ValidatorFctListType func(val string) ([]string, error)
// ValidateIPAddress validates an Ip address.
func ValidateIPAddress(val string) (string, error) {
var ip = net.ParseIP(strings.TrimSpace(val))
if ip != nil {
return ip.String(), nil
}
return "", fmt.Errorf("%s is not an ip address", val)
}
// ValidateDNSSearch validates domain for resolvconf search configuration.
// A zero length domain is represented by a dot (.).
func ValidateDNSSearch(val string) (string, error) {
if val = strings.Trim(val, " "); val == "." {
return val, nil
}
return validateDomain(val)
}
func validateDomain(val string) (string, error) {
if alphaRegexp.FindString(val) == "" {
return "", fmt.Errorf("%s is not a valid domain", val)
}
ns := domainRegexp.FindSubmatch([]byte(val))
if len(ns) > 0 && len(ns[1]) < 255 {
return string(ns[1]), nil
}
return "", fmt.Errorf("%s is not a valid domain", val)
}
// ValidateLabel validates that the specified string is a valid label, and returns it.
// Labels are in the form on key=value.
func ValidateLabel(val string) (string, error) {
if strings.Count(val, "=") < 1 {
return "", fmt.Errorf("bad attribute format: %s", val)
}
return val, nil
}
// ParseLink parses and validates the specified string as a link format (name:alias)
func ParseLink(val string) (string, string, error) {
if val == "" {
return "", "", fmt.Errorf("empty string specified for links")
}
arr := strings.Split(val, ":")
if len(arr) > 2 {
return "", "", fmt.Errorf("bad format for links: %s", val)
}
if len(arr) == 1 {
return val, val, nil
}
// This is kept because we can actually get a HostConfig with links
// from an already created container and the format is not `foo:bar`
// but `/foo:/c1/bar`
if strings.HasPrefix(arr[0], "/") {
_, alias := path.Split(arr[1])
return arr[0][1:], alias, nil
}
return arr[0], arr[1], nil
}
// MemBytes is a type for human readable memory bytes (like 128M, 2g, etc)
type MemBytes int64
// String returns the string format of the human readable memory bytes
func (m *MemBytes) String() string {
// NOTE: In spf13/pflag/flag.go, "0" is considered as "zero value" while "0 B" is not.
// We return "0" in case value is 0 here so that the default value is hidden.
// (Sometimes "default 0 B" is actually misleading)
if m.Value() != 0 {
return units.BytesSize(float64(m.Value()))
}
return "0"
}
// Set sets the value of the MemBytes by passing a string
func (m *MemBytes) Set(value string) error {
val, err := units.RAMInBytes(value)
*m = MemBytes(val)
return err
}
// Type returns the type
func (m *MemBytes) Type() string {
return "bytes"
}
// Value returns the value in int64
func (m *MemBytes) Value() int64 {
return int64(*m)
}
// UnmarshalJSON is the customized unmarshaler for MemBytes
func (m *MemBytes) UnmarshalJSON(s []byte) error {
if len(s) <= 2 || s[0] != '"' || s[len(s)-1] != '"' {
return fmt.Errorf("invalid size: %q", s)
}
val, err := units.RAMInBytes(string(s[1 : len(s)-1]))
*m = MemBytes(val)
return err
}