package fserrors import ( "fmt" "io" "net" "net/url" "os" "syscall" "testing" "time" "github.com/pkg/errors" "github.com/stretchr/testify/assert" ) var errUseOfClosedNetworkConnection = errors.New("use of closed network connection") // make a plausible network error with the underlying errno func makeNetErr(errno syscall.Errno) error { return &net.OpError{ Op: "write", Net: "tcp", Source: &net.TCPAddr{IP: net.ParseIP("127.0.0.1"), Port: 123}, Addr: &net.TCPAddr{IP: net.ParseIP("127.0.0.1"), Port: 8080}, Err: &os.SyscallError{ Syscall: "write", Err: errno, }, } } type myError1 struct { Err error } func (e myError1) Error() string { return e.Err.Error() } type myError2 struct { Err error } func (e *myError2) Error() string { if e == nil { return "myError2(nil)" } if e.Err == nil { return "myError2{Err: nil}" } return e.Err.Error() } type myError3 struct { Err int } func (e *myError3) Error() string { return "hello" } type myError4 struct { e error } func (e *myError4) Error() string { return e.e.Error() } type errorCause struct { e error } func (e *errorCause) Error() string { return fmt.Sprintf("%#v", e) } func (e *errorCause) Cause() error { return e.e } func TestCause(t *testing.T) { e3 := &myError3{3} e4 := &myError4{io.EOF} eNil1 := &myError2{nil} eNil2 := &myError2{Err: (*myError2)(nil)} errPotato := errors.New("potato") nilCause1 := &errorCause{nil} nilCause2 := &errorCause{(*myError2)(nil)} for i, test := range []struct { err error wantRetriable bool wantErr error }{ {nil, false, nil}, {errPotato, false, errPotato}, {errors.Wrap(errPotato, "potato"), false, errPotato}, {errors.Wrap(errors.Wrap(errPotato, "potato2"), "potato"), false, errPotato}, {errUseOfClosedNetworkConnection, false, errUseOfClosedNetworkConnection}, {makeNetErr(syscall.EAGAIN), true, syscall.EAGAIN}, {makeNetErr(syscall.Errno(123123123)), false, syscall.Errno(123123123)}, {eNil1, false, eNil1}, {eNil2, false, eNil2.Err}, {myError1{io.EOF}, false, io.EOF}, {&myError2{io.EOF}, false, io.EOF}, {e3, false, e3}, {e4, false, e4}, {&errorCause{errPotato}, false, errPotato}, {nilCause1, false, nilCause1}, {nilCause2, false, nilCause2.e}, } { gotRetriable, gotErr := Cause(test.err) what := fmt.Sprintf("test #%d: %v", i, test.err) assert.Equal(t, test.wantErr, gotErr, what) assert.Equal(t, test.wantRetriable, gotRetriable, what) } } func TestShouldRetry(t *testing.T) { for i, test := range []struct { err error want bool }{ {nil, false}, {errors.New("potato"), false}, {errors.Wrap(errUseOfClosedNetworkConnection, "connection"), true}, {io.EOF, true}, {io.ErrUnexpectedEOF, true}, {makeNetErr(syscall.EAGAIN), true}, {makeNetErr(syscall.Errno(123123123)), false}, {&url.Error{Op: "post", URL: "/", Err: io.EOF}, true}, {&url.Error{Op: "post", URL: "/", Err: errUseOfClosedNetworkConnection}, true}, {&url.Error{Op: "post", URL: "/", Err: fmt.Errorf("net/http: HTTP/1.x transport connection broken: %v", fmt.Errorf("http: ContentLength=%d with Body length %d", 100663336, 99590598))}, true}, { errors.Wrap(&url.Error{ Op: "post", URL: "http://localhost/", Err: makeNetErr(syscall.EPIPE), }, "potato error"), true, }, { errors.Wrap(&url.Error{ Op: "post", URL: "http://localhost/", Err: makeNetErr(syscall.Errno(123123123)), }, "listing error"), false, }, } { got := ShouldRetry(test.err) assert.Equal(t, test.want, got, fmt.Sprintf("test #%d: %v", i, test.err)) } } func TestRetryAfter(t *testing.T) { e := NewErrorRetryAfter(time.Second) after := e.RetryAfter() dt := after.Sub(time.Now()) assert.True(t, dt >= 900*time.Millisecond && dt <= 1100*time.Millisecond) assert.True(t, IsRetryAfterError(e)) assert.False(t, IsRetryAfterError(io.EOF)) assert.Equal(t, time.Time{}, RetryAfterErrorTime(io.EOF)) assert.False(t, IsRetryAfterError(nil)) assert.Contains(t, e.Error(), "try again after") t0 := time.Now() err := errors.Wrap(ErrorRetryAfter(t0), "potato") assert.Equal(t, t0, RetryAfterErrorTime(err)) assert.True(t, IsRetryAfterError(err)) assert.Contains(t, e.Error(), "try again after") }