ceph-csi/vendor/github.com/ansel1/merry/v2/errors.go

package merry

import (
	"errors"
	"fmt"
	"runtime"
)

// New creates a new error, with a stack attached.  The equivalent of golang's errors.New()
func New(msg string, wrappers ...Wrapper) error {
	return WrapSkipping(errors.New(msg), 1, wrappers...)
}

// Errorf creates a new error with a formatted message and a stack.  The equivalent of golang's fmt.Errorf().
// args may contain either arguments to format, or Wrapper options, which will be applied to the error.
func Errorf(format string, args ...interface{}) error {
	fmtArgs, wrappers := splitWrappers(args)

	return WrapSkipping(fmt.Errorf(format, fmtArgs...), 1, wrappers...)
}

// Sentinel creates an error without running hooks or capturing a stack.  It is intended
// to create sentinel errors, which will be wrapped with a stack later from where the
// error is returned.  At that time, a stack will be captured and hooks will be run.
//
//     var ErrNotFound = merry.Sentinel("not found", merry.WithHTTPCode(404))
//
//     func FindUser(name string) (*User, error) {
//       // some db code which fails to find a user
//       return nil, merry.Wrap(ErrNotFound)
//     }
//
//     func main() {
//       _, err := FindUser("bob")
//       fmt.Println(errors.Is(err, ErrNotFound) // "true"
//       fmt.Println(merry.Details(err))         // stacktrace will start at the return statement
//                                               // in FindUser()
//     }
func Sentinel(msg string, wrappers ...Wrapper) error {
	return ApplySkipping(errors.New(msg), 1, wrappers...)
}

// Sentinelf is like Sentinel, but takes a formatted message.  args can be a mix of
// format arguments and Wrappers.
func Sentinelf(format string, args ...interface{}) error {
	fmtArgs, wrappers := splitWrappers(args)

	return ApplySkipping(fmt.Errorf(format, fmtArgs...), 1, wrappers...)
}

func splitWrappers(args []interface{}) ([]interface{}, []Wrapper) {
	var wrappers []Wrapper

	// pull out the args which are wrappers
	n := 0
	for _, arg := range args {
		if w, ok := arg.(Wrapper); ok {
			wrappers = append(wrappers, w)
		} else {
			args[n] = arg
			n++
		}
	}
	args = args[:n]

	return args, wrappers
}

// Wrap adds context to errors by applying Wrappers.  See WithXXX() functions for Wrappers supplied
// by this package.
//
// If StackCaptureEnabled is true, a stack starting at the caller will be automatically captured
// and attached to the error.  This behavior can be overridden with wrappers which either capture
// their own stacks, or suppress auto capture.
//
// If err is nil, returns nil.
func Wrap(err error, wrappers ...Wrapper) error {
	return WrapSkipping(err, 1, wrappers...)
}

// WrapSkipping is like Wrap, but the captured stacks will start `skip` frames
// further up the call stack.  If skip is 0, it behaves the same as Wrap.
func WrapSkipping(err error, skip int, wrappers ...Wrapper) error {
	if err == nil {
		return nil
	}

	if len(onceHooks) > 0 {
		if _, ok := Lookup(err, errKeyHooked); !ok {
			err = ApplySkipping(err, skip+1, onceHooks...)
			err = ApplySkipping(err, skip+1, WithValue(errKeyHooked, err))
		}
	}
	err = ApplySkipping(err, skip+1, hooks...)
	err = ApplySkipping(err, skip+1, wrappers...)
	return captureStack(err, skip+1, false)
}

// Apply is like Wrap, but does not execute hooks or do automatic stack capture.  It just
// applies the wrappers to the error.
func Apply(err error, wrappers ...Wrapper) error {
	return ApplySkipping(err, 1, wrappers...)
}

// ApplySkipping is like WrapSkipping, but does not execute hooks or do automatic stack capture.  It just
// applies the wrappers to the error.  It is useful in Wrapper implementations which
// // want to apply other Wrappers without starting an infinite recursion.
func ApplySkipping(err error, skip int, wrappers ...Wrapper) error {
	if err == nil {
		return nil
	}

	for _, w := range wrappers {
		err = w.Wrap(err, skip+1)
	}
	return err
}

// Prepend is a convenience function for the PrependMessage wrapper.  It eases migration
// from merry v1.  It accepts a varargs of additional Wrappers.
func Prepend(err error, msg string, wrappers ...Wrapper) error {
	return WrapSkipping(err, 1, append(wrappers, PrependMessage(msg))...)
}

// Prependf is a convenience function for the PrependMessagef wrapper.  It eases migration
// from merry v1.  The args can be format arguments mixed with Wrappers.
func Prependf(err error, format string, args ...interface{}) error {
	fmtArgs, wrappers := splitWrappers(args)

	return WrapSkipping(err, 1, append(wrappers, PrependMessagef(format, fmtArgs...))...)
}

// Append is a convenience function for the AppendMessage wrapper.  It eases migration
// from merry v1.  It accepts a varargs of additional Wrappers.
func Append(err error, msg string, wrappers ...Wrapper) error {
	return WrapSkipping(err, 1, append(wrappers, AppendMessage(msg))...)
}

// Appendf is a convenience function for the AppendMessagef wrapper.  It eases migration
// from merry v1.  The args can be format arguments mixed with Wrappers.
func Appendf(err error, format string, args ...interface{}) error {
	fmtArgs, wrappers := splitWrappers(args)

	return WrapSkipping(err, 1, append(wrappers, AppendMessagef(format, fmtArgs...))...)
}

// Value returns the value for key, or nil if not set.
// If e is nil, returns nil.  Will not search causes.
func Value(err error, key interface{}) interface{} {
	v, _ := Lookup(err, key)
	return v
}

// Lookup returns the value for the key, and a boolean indicating
// whether the value was set.  Will not search causes.
//
// if err is nil, returns nil and false.
func Lookup(err error, key interface{}) (interface{}, bool) {
	var merr interface {
		error
		isMerryError()
	}

	// I've tried implementing this logic a few different ways.  It's tricky:
	//
	// - Lookup should only search the current error, but not causes.  errWithCause's
	//   Unwrap() will eventually unwrap to the cause, so we don't want to just
	//   search the entire stream of errors returned by Unwrap.
	// - We need to handle cases where error implementations created outside
	//   this package are in the middle of the chain.  We need to use Unwrap
	//   in these cases to traverse those errors and dig down to the next
	//   merry error.
	// - Some error packages, including our own, do funky stuff with Unwrap(),
	//   returning shim types to control the unwrapping order, rather than
	//   the actual, raw wrapped error.  Typically, these shims implement
	//   Is/As to delegate to the raw error they encapsulate, but implement
	//   Unwrap by encapsulating the raw error in another shim.  So if we're looking
	//   for a raw error type, we can't just use Unwrap() and do type assertions
	//   against the result.  We have to use errors.As(), to allow the shims to delegate
	//   the type assertion to the raw error correctly.
	//
	// Based on all these constraints, we use errors.As() with an internal interface
	// that can only be implemented by our internal error types.  When one is found,
	// we handle each of our internal types as a special case.  For errWithCause, we
	// traverse to the wrapped error, ignoring the cause and the funky Unwrap logic.
	// We could have just used errors.As(err, *errWithValue), but that would have
	// traversed into the causes.

	for {
		switch t := err.(type) {
		case *errWithValue:
			if t.key == key {
				return t.value, true
			}
			err = t.err
		case *errWithCause:
			err = t.err
		default:
			if errors.As(err, &merr) {
				err = merr
			} else {
				return nil, false
			}
		}
	}
}

// Values returns a map of all values attached to the error
// If a key has been attached multiple times, the map will
// contain the last value mapped
// If e is nil, returns nil.
func Values(err error) map[interface{}]interface{} {
	var values map[interface{}]interface{}

	for err != nil {
		if e, ok := err.(*errWithValue); ok {
			if _, ok := values[e.key]; !ok {
				if values == nil {
					values = map[interface{}]interface{}{}
				}
				values[e.key] = e.value
			}
		}
		err = errors.Unwrap(err)
	}

	return values
}

// Stack returns the stack attached to an error, or nil if one is not attached
// If e is nil, returns nil.
func Stack(err error) []uintptr {
	stack, _ := Value(err, errKeyStack).([]uintptr)
	return stack
}

// HTTPCode converts an error to an http status code.  All errors
// map to 500, unless the error has an http code attached.
// If e is nil, returns 200.
func HTTPCode(err error) int {
	if err == nil {
		return 200
	}

	code, _ := Value(err, errKeyHTTPCode).(int)
	if code == 0 {
		return 500
	}

	return code
}

// UserMessage returns the end-user safe message.  Returns empty if not set.
// If e is nil, returns "".
func UserMessage(err error) string {
	msg, _ := Value(err, errKeyUserMessage).(string)
	return msg
}

// Cause returns the cause of the argument.  If e is nil, or has no cause,
// nil is returned.
func Cause(err error) error {
	var causer *errWithCause
	if errors.As(err, &causer) {
		return causer.cause
	}
	return nil
}

// RegisteredDetails extracts details registered with RegisterDetailFunc from an error, and
// returns them as a map.  Values may be nil.
//
// If err is nil or there are no registered details, nil is returned.
func RegisteredDetails(err error) map[string]interface{} {
	detailsLock.Lock()
	defer detailsLock.Unlock()

	if len(detailFields) == 0 || err == nil {
		return nil
	}

	dets := map[string]interface{}{}

	for label, f := range detailFields {
		dets[label] = f(err)
	}

	return dets
}

// captureStack: return an error with a stack attached.  Stack will skip
// specified frames.  skip = 0 will start at caller.
// If the err already has a stack, to auto-stack-capture is disabled globally,
// this is a no-op.  Use force to override and force a stack capture
// in all cases.
func captureStack(err error, skip int, force bool) error {
	if err == nil {
		return nil
	}

	var c interface {
		Callers() []uintptr
	}

	switch {
	case force:
		// always capture
	case HasStack(err):
		return err
	case errors.As(err, &c):
		// if the go-errors already captured a stack
		// reuse it
		if stack := c.Callers(); len(stack) > 0 {
			return Set(err, errKeyStack, stack)
		}
	case !captureStacks:
		return err
	}

	s := make([]uintptr, MaxStackDepth())
	length := runtime.Callers(2+skip, s[:])
	return Set(err, errKeyStack, s[:length])
}

// HasStack returns true if a stack is already attached to the err.
// If err == nil, returns false.
//
// If a stack capture was suppressed with NoCaptureStack(), this will
// still return true, indicating that stack capture processing has already
// occurred on this error.
func HasStack(err error) bool {
	_, ok := Lookup(err, errKeyStack)
	return ok
}
rebase: vendor files required for kmip Signed-off-by: Rakshith R <rar@redhat.com> 2022-08-16 09:48:06 +00:00			`package merry`

			`import (`
			`"errors"`
			`"fmt"`
			`"runtime"`
			`)`

			`// New creates a new error, with a stack attached. The equivalent of golang's errors.New()`
			`func New(msg string, wrappers ...Wrapper) error {`
			`return WrapSkipping(errors.New(msg), 1, wrappers...)`
			`}`

			`// Errorf creates a new error with a formatted message and a stack. The equivalent of golang's fmt.Errorf().`
			`// args may contain either arguments to format, or Wrapper options, which will be applied to the error.`
			`func Errorf(format string, args ...interface{}) error {`
			`fmtArgs, wrappers := splitWrappers(args)`

			`return WrapSkipping(fmt.Errorf(format, fmtArgs...), 1, wrappers...)`
			`}`

			`// Sentinel creates an error without running hooks or capturing a stack. It is intended`
			`// to create sentinel errors, which will be wrapped with a stack later from where the`
			`// error is returned. At that time, a stack will be captured and hooks will be run.`
			`//`
			`// var ErrNotFound = merry.Sentinel("not found", merry.WithHTTPCode(404))`
			`//`
			`// func FindUser(name string) (*User, error) {`
			`// // some db code which fails to find a user`
			`// return nil, merry.Wrap(ErrNotFound)`
			`// }`
			`//`
			`// func main() {`
			`// _, err := FindUser("bob")`
			`// fmt.Println(errors.Is(err, ErrNotFound) // "true"`
			`// fmt.Println(merry.Details(err)) // stacktrace will start at the return statement`
			`// // in FindUser()`
			`// }`
			`func Sentinel(msg string, wrappers ...Wrapper) error {`
			`return ApplySkipping(errors.New(msg), 1, wrappers...)`
			`}`

			`// Sentinelf is like Sentinel, but takes a formatted message. args can be a mix of`
			`// format arguments and Wrappers.`
			`func Sentinelf(format string, args ...interface{}) error {`
			`fmtArgs, wrappers := splitWrappers(args)`

			`return ApplySkipping(fmt.Errorf(format, fmtArgs...), 1, wrappers...)`
			`}`

			`func splitWrappers(args []interface{}) ([]interface{}, []Wrapper) {`
			`var wrappers []Wrapper`

			`// pull out the args which are wrappers`
			`n := 0`
			`for _, arg := range args {`
			`if w, ok := arg.(Wrapper); ok {`
			`wrappers = append(wrappers, w)`
			`} else {`
			`args[n] = arg`
			`n++`
			`}`
			`}`
			`args = args[:n]`

			`return args, wrappers`
			`}`

			`// Wrap adds context to errors by applying Wrappers. See WithXXX() functions for Wrappers supplied`
			`// by this package.`
			`//`
			`// If StackCaptureEnabled is true, a stack starting at the caller will be automatically captured`
			`// and attached to the error. This behavior can be overridden with wrappers which either capture`
			`// their own stacks, or suppress auto capture.`
			`//`
			`// If err is nil, returns nil.`
			`func Wrap(err error, wrappers ...Wrapper) error {`
			`return WrapSkipping(err, 1, wrappers...)`
			`}`

			// WrapSkipping is like Wrap, but the captured stacks will start `skip` frames
			`// further up the call stack. If skip is 0, it behaves the same as Wrap.`
			`func WrapSkipping(err error, skip int, wrappers ...Wrapper) error {`
			`if err == nil {`
			`return nil`
			`}`

			`if len(onceHooks) > 0 {`
			`if _, ok := Lookup(err, errKeyHooked); !ok {`
			`err = ApplySkipping(err, skip+1, onceHooks...)`
			`err = ApplySkipping(err, skip+1, WithValue(errKeyHooked, err))`
			`}`
			`}`
			`err = ApplySkipping(err, skip+1, hooks...)`
			`err = ApplySkipping(err, skip+1, wrappers...)`
			`return captureStack(err, skip+1, false)`
			`}`

			`// Apply is like Wrap, but does not execute hooks or do automatic stack capture. It just`
			`// applies the wrappers to the error.`
			`func Apply(err error, wrappers ...Wrapper) error {`
			`return ApplySkipping(err, 1, wrappers...)`
			`}`

			`// ApplySkipping is like WrapSkipping, but does not execute hooks or do automatic stack capture. It just`
			`// applies the wrappers to the error. It is useful in Wrapper implementations which`
			`// // want to apply other Wrappers without starting an infinite recursion.`
			`func ApplySkipping(err error, skip int, wrappers ...Wrapper) error {`
			`if err == nil {`
			`return nil`
			`}`

			`for _, w := range wrappers {`
			`err = w.Wrap(err, skip+1)`
			`}`
			`return err`
			`}`

			`// Prepend is a convenience function for the PrependMessage wrapper. It eases migration`
			`// from merry v1. It accepts a varargs of additional Wrappers.`
			`func Prepend(err error, msg string, wrappers ...Wrapper) error {`
			`return WrapSkipping(err, 1, append(wrappers, PrependMessage(msg))...)`
			`}`

			`// Prependf is a convenience function for the PrependMessagef wrapper. It eases migration`
			`// from merry v1. The args can be format arguments mixed with Wrappers.`
			`func Prependf(err error, format string, args ...interface{}) error {`
			`fmtArgs, wrappers := splitWrappers(args)`

			`return WrapSkipping(err, 1, append(wrappers, PrependMessagef(format, fmtArgs...))...)`
			`}`

			`// Append is a convenience function for the AppendMessage wrapper. It eases migration`
			`// from merry v1. It accepts a varargs of additional Wrappers.`
			`func Append(err error, msg string, wrappers ...Wrapper) error {`
			`return WrapSkipping(err, 1, append(wrappers, AppendMessage(msg))...)`
			`}`

			`// Appendf is a convenience function for the AppendMessagef wrapper. It eases migration`
			`// from merry v1. The args can be format arguments mixed with Wrappers.`
			`func Appendf(err error, format string, args ...interface{}) error {`
			`fmtArgs, wrappers := splitWrappers(args)`

			`return WrapSkipping(err, 1, append(wrappers, AppendMessagef(format, fmtArgs...))...)`
			`}`

			`// Value returns the value for key, or nil if not set.`
			`// If e is nil, returns nil. Will not search causes.`
			`func Value(err error, key interface{}) interface{} {`
			`v, _ := Lookup(err, key)`
			`return v`
			`}`

			`// Lookup returns the value for the key, and a boolean indicating`
			`// whether the value was set. Will not search causes.`
			`//`
			`// if err is nil, returns nil and false.`
			`func Lookup(err error, key interface{}) (interface{}, bool) {`
			`var merr interface {`
			`error`
			`isMerryError()`
			`}`

			`// I've tried implementing this logic a few different ways. It's tricky:`
			`//`
			`// - Lookup should only search the current error, but not causes. errWithCause's`
			`// Unwrap() will eventually unwrap to the cause, so we don't want to just`
			`// search the entire stream of errors returned by Unwrap.`
			`// - We need to handle cases where error implementations created outside`
			`// this package are in the middle of the chain. We need to use Unwrap`
			`// in these cases to traverse those errors and dig down to the next`
			`// merry error.`
			`// - Some error packages, including our own, do funky stuff with Unwrap(),`
			`// returning shim types to control the unwrapping order, rather than`
			`// the actual, raw wrapped error. Typically, these shims implement`
			`// Is/As to delegate to the raw error they encapsulate, but implement`
			`// Unwrap by encapsulating the raw error in another shim. So if we're looking`
			`// for a raw error type, we can't just use Unwrap() and do type assertions`
			`// against the result. We have to use errors.As(), to allow the shims to delegate`
			`// the type assertion to the raw error correctly.`
			`//`
			`// Based on all these constraints, we use errors.As() with an internal interface`
			`// that can only be implemented by our internal error types. When one is found,`
			`// we handle each of our internal types as a special case. For errWithCause, we`
			`// traverse to the wrapped error, ignoring the cause and the funky Unwrap logic.`
			`// We could have just used errors.As(err, *errWithValue), but that would have`
			`// traversed into the causes.`

			`for {`
			`switch t := err.(type) {`
			`case *errWithValue:`
			`if t.key == key {`
			`return t.value, true`
			`}`
			`err = t.err`
			`case *errWithCause:`
			`err = t.err`
			`default:`
			`if errors.As(err, &merr) {`
			`err = merr`
			`} else {`
			`return nil, false`
			`}`
			`}`
			`}`
			`}`

			`// Values returns a map of all values attached to the error`
			`// If a key has been attached multiple times, the map will`
			`// contain the last value mapped`
			`// If e is nil, returns nil.`
			`func Values(err error) map[interface{}]interface{} {`
			`var values map[interface{}]interface{}`

			`for err != nil {`
			`if e, ok := err.(*errWithValue); ok {`
			`if _, ok := values[e.key]; !ok {`
			`if values == nil {`
			`values = map[interface{}]interface{}{}`
			`}`
			`values[e.key] = e.value`
			`}`
			`}`
			`err = errors.Unwrap(err)`
			`}`

			`return values`
			`}`

			`// Stack returns the stack attached to an error, or nil if one is not attached`
			`// If e is nil, returns nil.`
			`func Stack(err error) []uintptr {`
			`stack, _ := Value(err, errKeyStack).([]uintptr)`
			`return stack`
			`}`

			`// HTTPCode converts an error to an http status code. All errors`
			`// map to 500, unless the error has an http code attached.`
			`// If e is nil, returns 200.`
			`func HTTPCode(err error) int {`
			`if err == nil {`
			`return 200`
			`}`

			`code, _ := Value(err, errKeyHTTPCode).(int)`
			`if code == 0 {`
			`return 500`
			`}`

			`return code`
			`}`

			`// UserMessage returns the end-user safe message. Returns empty if not set.`
			`// If e is nil, returns "".`
			`func UserMessage(err error) string {`
			`msg, _ := Value(err, errKeyUserMessage).(string)`
			`return msg`
			`}`

			`// Cause returns the cause of the argument. If e is nil, or has no cause,`
			`// nil is returned.`
			`func Cause(err error) error {`
			`var causer *errWithCause`
			`if errors.As(err, &causer) {`
			`return causer.cause`
			`}`
			`return nil`
			`}`

			`// RegisteredDetails extracts details registered with RegisterDetailFunc from an error, and`
			`// returns them as a map. Values may be nil.`
			`//`
			`// If err is nil or there are no registered details, nil is returned.`
			`func RegisteredDetails(err error) map[string]interface{} {`
			`detailsLock.Lock()`
			`defer detailsLock.Unlock()`

			`if len(detailFields) == 0 \|\| err == nil {`
			`return nil`
			`}`

			`dets := map[string]interface{}{}`

			`for label, f := range detailFields {`
			`dets[label] = f(err)`
			`}`

			`return dets`
			`}`

			`// captureStack: return an error with a stack attached. Stack will skip`
			`// specified frames. skip = 0 will start at caller.`
			`// If the err already has a stack, to auto-stack-capture is disabled globally,`
			`// this is a no-op. Use force to override and force a stack capture`
			`// in all cases.`
			`func captureStack(err error, skip int, force bool) error {`
			`if err == nil {`
			`return nil`
			`}`

			`var c interface {`
			`Callers() []uintptr`
			`}`

			`switch {`
			`case force:`
			`// always capture`
			`case HasStack(err):`
			`return err`
			`case errors.As(err, &c):`
			`// if the go-errors already captured a stack`
			`// reuse it`
			`if stack := c.Callers(); len(stack) > 0 {`
			`return Set(err, errKeyStack, stack)`
			`}`
			`case !captureStacks:`
			`return err`
			`}`

			`s := make([]uintptr, MaxStackDepth())`
			`length := runtime.Callers(2+skip, s[:])`
			`return Set(err, errKeyStack, s[:length])`
			`}`

			`// HasStack returns true if a stack is already attached to the err.`
			`// If err == nil, returns false.`
			`//`
			`// If a stack capture was suppressed with NoCaptureStack(), this will`
			`// still return true, indicating that stack capture processing has already`
			`// occurred on this error.`
			`func HasStack(err error) bool {`
			`_, ok := Lookup(err, errKeyStack)`
			`return ok`
			`}`