rclone/fs/fspath/path_test.go
Nick Craig-Wood eb6e9b194a fspath: Stop empty strings being a valid path - fixes #4239
Before this change you could use "" as a valid remote, so `rclone lsf
""` would work. This was treated as the current directory.

This is unexpected and creates a footgun for scripting when an empty
variable is passed to rclone by accident.

This fix returns the error "can't use empty string as a path" instead
of allowing it.
2020-05-19 12:34:23 +01:00

158 lines
4.9 KiB
Go

package fspath
import (
"fmt"
"runtime"
"strings"
"testing"
"github.com/stretchr/testify/assert"
)
func TestCheckConfigName(t *testing.T) {
for _, test := range []struct {
in string
want error
}{
{"remote", nil},
{"", errInvalidCharacters},
{":remote:", errInvalidCharacters},
{"remote:", errInvalidCharacters},
{"rem:ote", errInvalidCharacters},
{"rem/ote", errInvalidCharacters},
{"rem\\ote", errInvalidCharacters},
{"[remote", errInvalidCharacters},
{"*", errInvalidCharacters},
} {
got := CheckConfigName(test.in)
assert.Equal(t, test.want, got, test.in)
}
}
func TestCheckRemoteName(t *testing.T) {
for _, test := range []struct {
in string
want error
}{
{":remote:", nil},
{"remote:", nil},
{"", errInvalidCharacters},
{"rem:ote", errInvalidCharacters},
{"rem:ote:", errInvalidCharacters},
{"remote", errInvalidCharacters},
{"rem/ote:", errInvalidCharacters},
{"rem\\ote:", errInvalidCharacters},
{"[remote:", errInvalidCharacters},
{"*:", errInvalidCharacters},
} {
got := CheckRemoteName(test.in)
assert.Equal(t, test.want, got, test.in)
}
}
func TestParse(t *testing.T) {
for _, test := range []struct {
in, wantConfigName, wantFsPath string
wantErr error
}{
{"", "", "", errCantBeEmpty},
{":", "", "", errInvalidCharacters},
{"::", ":", "", errInvalidCharacters},
{":/:", "", "/:", errInvalidCharacters},
{"/:", "", "/:", nil},
{"\\backslash:", "", "\\backslash:", nil},
{"/slash:", "", "/slash:", nil},
{"with\\backslash:", "", "with\\backslash:", nil},
{"with/slash:", "", "with/slash:", nil},
{"/path/to/file", "", "/path/to/file", nil},
{"/path:/to/file", "", "/path:/to/file", nil},
{"./path:/to/file", "", "./path:/to/file", nil},
{"./:colon.txt", "", "./:colon.txt", nil},
{"path/to/file", "", "path/to/file", nil},
{"remote:path/to/file", "remote", "path/to/file", nil},
{"rem*ote:path/to/file", "rem*ote", "path/to/file", errInvalidCharacters},
{"remote:/path/to/file", "remote", "/path/to/file", nil},
{"rem.ote:/path/to/file", "rem.ote", "/path/to/file", errInvalidCharacters},
{":backend:/path/to/file", ":backend", "/path/to/file", nil},
{":bac*kend:/path/to/file", ":bac*kend", "/path/to/file", errInvalidCharacters},
} {
gotConfigName, gotFsPath, gotErr := Parse(test.in)
if runtime.GOOS == "windows" {
test.wantFsPath = strings.Replace(test.wantFsPath, `\`, `/`, -1)
}
assert.Equal(t, test.wantErr, gotErr)
assert.Equal(t, test.wantConfigName, gotConfigName)
assert.Equal(t, test.wantFsPath, gotFsPath)
}
}
func TestSplit(t *testing.T) {
for _, test := range []struct {
remote, wantParent, wantLeaf string
wantErr error
}{
{"", "", "", errCantBeEmpty},
{"remote:", "remote:", "", nil},
{"remote:potato", "remote:", "potato", nil},
{"remote:/", "remote:/", "", nil},
{"remote:/potato", "remote:/", "potato", nil},
{"remote:/potato/potato", "remote:/potato/", "potato", nil},
{"remote:potato/sausage", "remote:potato/", "sausage", nil},
{"rem.ote:potato/sausage", "", "", errInvalidCharacters},
{":remote:", ":remote:", "", nil},
{":remote:potato", ":remote:", "potato", nil},
{":remote:/", ":remote:/", "", nil},
{":remote:/potato", ":remote:/", "potato", nil},
{":remote:/potato/potato", ":remote:/potato/", "potato", nil},
{":remote:potato/sausage", ":remote:potato/", "sausage", nil},
{":rem[ote:potato/sausage", "", "", errInvalidCharacters},
{"/", "/", "", nil},
{"/root", "/", "root", nil},
{"/a/b", "/a/", "b", nil},
{"root", "", "root", nil},
{"a/b", "a/", "b", nil},
{"root/", "root/", "", nil},
{"a/b/", "a/b/", "", nil},
} {
gotParent, gotLeaf, gotErr := Split(test.remote)
assert.Equal(t, test.wantErr, gotErr)
assert.Equal(t, test.wantParent, gotParent, test.remote)
assert.Equal(t, test.wantLeaf, gotLeaf, test.remote)
if gotErr == nil {
assert.Equal(t, test.remote, gotParent+gotLeaf, fmt.Sprintf("%s: %q + %q != %q", test.remote, gotParent, gotLeaf, test.remote))
}
}
}
func TestJoinRootPath(t *testing.T) {
for _, test := range []struct {
elements []string
want string
}{
{nil, ""},
{[]string{""}, ""},
{[]string{"/"}, "/"},
{[]string{"/", "/"}, "/"},
{[]string{"/", "//"}, "/"},
{[]string{"/root", ""}, "/root"},
{[]string{"/root", "/"}, "/root"},
{[]string{"/root", "//"}, "/root"},
{[]string{"/a/b"}, "/a/b"},
{[]string{"//", "/"}, "//"},
{[]string{"//server", "path"}, "//server/path"},
{[]string{"//server/sub", "path"}, "//server/sub/path"},
{[]string{"//server", "//path"}, "//server/path"},
{[]string{"//server/sub", "//path"}, "//server/sub/path"},
{[]string{"", "//", "/"}, "//"},
{[]string{"", "//server", "path"}, "//server/path"},
{[]string{"", "//server/sub", "path"}, "//server/sub/path"},
{[]string{"", "//server", "//path"}, "//server/path"},
{[]string{"", "//server/sub", "//path"}, "//server/sub/path"},
} {
got := JoinRootPath(test.elements...)
assert.Equal(t, test.want, got)
}
}