docker/builder/bflag.go

177 строки
3.9 KiB
Go

package builder
import (
"fmt"
"strings"
)
// FlagType is the type of the build flag
type FlagType int
const (
boolType FlagType = iota
stringType
)
// BFlags contains all flags information for the builder
type BFlags struct {
Args []string // actual flags/args from cmd line
flags map[string]*Flag
used map[string]*Flag
Err error
}
// Flag contains all information for a flag
type Flag struct {
bf *BFlags
name string
flagType FlagType
Value string
}
// NewBFlags return the new BFlags struct
func NewBFlags() *BFlags {
return &BFlags{
flags: make(map[string]*Flag),
used: make(map[string]*Flag),
}
}
// AddBool adds a bool flag to BFlags
// Note, any error will be generated when Parse() is called (see Parse).
func (bf *BFlags) AddBool(name string, def bool) *Flag {
flag := bf.addFlag(name, boolType)
if flag == nil {
return nil
}
if def {
flag.Value = "true"
} else {
flag.Value = "false"
}
return flag
}
// AddString adds a string flag to BFlags
// Note, any error will be generated when Parse() is called (see Parse).
func (bf *BFlags) AddString(name string, def string) *Flag {
flag := bf.addFlag(name, stringType)
if flag == nil {
return nil
}
flag.Value = def
return flag
}
// addFlag is a generic func used by the other AddXXX() func
// to add a new flag to the BFlags struct.
// Note, any error will be generated when Parse() is called (see Parse).
func (bf *BFlags) addFlag(name string, flagType FlagType) *Flag {
if _, ok := bf.flags[name]; ok {
bf.Err = fmt.Errorf("Duplicate flag defined: %s", name)
return nil
}
newFlag := &Flag{
bf: bf,
name: name,
flagType: flagType,
}
bf.flags[name] = newFlag
return newFlag
}
// IsUsed checks if the flag is used
func (fl *Flag) IsUsed() bool {
if _, ok := fl.bf.used[fl.name]; ok {
return true
}
return false
}
// IsTrue checks if a bool flag is true
func (fl *Flag) IsTrue() bool {
if fl.flagType != boolType {
// Should never get here
panic(fmt.Errorf("Trying to use IsTrue on a non-boolean: %s", fl.name))
}
return fl.Value == "true"
}
// Parse parses and checks if the BFlags is valid.
// Any error noticed during the AddXXX() funcs will be generated/returned
// here. We do this because an error during AddXXX() is more like a
// compile time error so it doesn't matter too much when we stop our
// processing as long as we do stop it, so this allows the code
// around AddXXX() to be just:
// defFlag := AddString("desription", "")
// w/o needing to add an if-statement around each one.
func (bf *BFlags) Parse() error {
// If there was an error while defining the possible flags
// go ahead and bubble it back up here since we didn't do it
// earlier in the processing
if bf.Err != nil {
return fmt.Errorf("Error setting up flags: %s", bf.Err)
}
for _, arg := range bf.Args {
if !strings.HasPrefix(arg, "--") {
return fmt.Errorf("Arg should start with -- : %s", arg)
}
if arg == "--" {
return nil
}
arg = arg[2:]
value := ""
index := strings.Index(arg, "=")
if index >= 0 {
value = arg[index+1:]
arg = arg[:index]
}
flag, ok := bf.flags[arg]
if !ok {
return fmt.Errorf("Unknown flag: %s", arg)
}
if _, ok = bf.used[arg]; ok {
return fmt.Errorf("Duplicate flag specified: %s", arg)
}
bf.used[arg] = flag
switch flag.flagType {
case boolType:
// value == "" is only ok if no "=" was specified
if index >= 0 && value == "" {
return fmt.Errorf("Missing a value on flag: %s", arg)
}
lower := strings.ToLower(value)
if lower == "" {
flag.Value = "true"
} else if lower == "true" || lower == "false" {
flag.Value = lower
} else {
return fmt.Errorf("Expecting boolean value for flag %s, not: %s", arg, value)
}
case stringType:
if index < 0 {
return fmt.Errorf("Missing a value on flag: %s", arg)
}
flag.Value = value
default:
panic(fmt.Errorf("No idea what kind of flag we have! Should never get here!"))
}
}
return nil
}