//go:build linux // +build linux // Copyright (c) 2015-2021 MinIO, Inc. // // This file is part of MinIO Object Storage stack // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Affero General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Affero General Public License for more details. // // You should have received a copy of the GNU Affero General Public License // along with this program. If not, see . package mountinfo import ( "fmt" "os" "path/filepath" "strings" "testing" ) // Tests cross device mount verification function, for both failure // and success cases. func TestCrossDeviceMountPaths(t *testing.T) { successCase := `/dev/0 /path/to/0/1 type0 flags 0 0 /dev/1 /path/to/1 type1 flags 1 1 /dev/2 /path/to/1/2 type2 flags,1,2=3 2 2 /dev/3 /path/to/1.1 type3 falgs,1,2=3 3 3 ` var err error dir := t.TempDir() mountsPath := filepath.Join(dir, "mounts") if err = os.WriteFile(mountsPath, []byte(successCase), 0o666); err != nil { t.Fatal(err) } // Failure case where we detected successfully cross device mounts. { absPaths := []string{"/path/to/1"} if err = checkCrossDevice(absPaths, mountsPath); err == nil { t.Fatal("Expected to fail, but found success") } mp := []mountInfo{ {"/dev/2", "/path/to/1/2", "type2", []string{"flags"}, "2", "2"}, } msg := fmt.Sprintf("Cross-device mounts detected on path (/path/to/1) at following locations %s. Export path should not have any sub-mounts, refusing to start.", mp) if err.Error() != msg { t.Fatalf("Expected msg %s, got %s", msg, err) } } // Failure case when input path is not absolute. { absPaths := []string{"."} if err = checkCrossDevice(absPaths, mountsPath); err == nil { t.Fatal("Expected to fail for non absolute paths") } expectedErrMsg := fmt.Sprintf("Invalid argument, path (%s) is expected to be absolute", ".") if err.Error() != expectedErrMsg { t.Fatalf("Expected %s, got %s", expectedErrMsg, err) } } // Success case, where path doesn't have any mounts. { absPaths := []string{"/path/to/x"} if err = checkCrossDevice(absPaths, mountsPath); err != nil { t.Fatalf("Expected success, failed instead (%s)", err) } } } // Tests cross device mount verification function, for both failure // and success cases. func TestCrossDeviceMount(t *testing.T) { successCase := `/dev/0 /path/to/0/1 type0 flags 0 0 /dev/1 /path/to/1 type1 flags 1 1 /dev/2 /path/to/1/2 type2 flags,1,2=3 2 2 /dev/3 /path/to/1.1 type3 falgs,1,2=3 3 3 ` var err error dir := t.TempDir() mountsPath := filepath.Join(dir, "mounts") if err = os.WriteFile(mountsPath, []byte(successCase), 0o666); err != nil { t.Fatal(err) } mounts, err := readProcMounts(mountsPath) if err != nil { t.Fatal(err) } // Failure case where we detected successfully cross device mounts. { if err = mounts.checkCrossMounts("/path/to/1"); err == nil { t.Fatal("Expected to fail, but found success") } mp := []mountInfo{ {"/dev/2", "/path/to/1/2", "type2", []string{"flags"}, "2", "2"}, } msg := fmt.Sprintf("Cross-device mounts detected on path (/path/to/1) at following locations %s. Export path should not have any sub-mounts, refusing to start.", mp) if err.Error() != msg { t.Fatalf("Expected msg %s, got %s", msg, err) } } // Failure case when input path is not absolute. { if err = mounts.checkCrossMounts("."); err == nil { t.Fatal("Expected to fail for non absolute paths") } expectedErrMsg := fmt.Sprintf("Invalid argument, path (%s) is expected to be absolute", ".") if err.Error() != expectedErrMsg { t.Fatalf("Expected %s, got %s", expectedErrMsg, err) } } // Success case, where path doesn't have any mounts. { if err = mounts.checkCrossMounts("/path/to/x"); err != nil { t.Fatalf("Expected success, failed instead (%s)", err) } } } // Tests read proc mounts file. func TestReadProcmountInfos(t *testing.T) { successCase := `/dev/0 /path/to/0 type0 flags 0 0 /dev/1 /path/to/1 type1 flags 1 1 /dev/2 /path/to/2 type2 flags,1,2=3 2 2 ` var err error dir := t.TempDir() mountsPath := filepath.Join(dir, "mounts") if err = os.WriteFile(mountsPath, []byte(successCase), 0o666); err != nil { t.Fatal(err) } // Verifies if reading each line worked properly. { var mounts mountInfos mounts, err = readProcMounts(mountsPath) if err != nil { t.Fatal(err) } if len(mounts) != 3 { t.Fatalf("expected 3 mounts, got %d", len(mounts)) } mp := mountInfo{"/dev/0", "/path/to/0", "type0", []string{"flags"}, "0", "0"} if !mountPointsEqual(mounts[0], mp) { t.Errorf("got unexpected MountPoint[0]: %#v", mounts[0]) } mp = mountInfo{"/dev/1", "/path/to/1", "type1", []string{"flags"}, "1", "1"} if !mountPointsEqual(mounts[1], mp) { t.Errorf("got unexpected mountInfo[1]: %#v", mounts[1]) } mp = mountInfo{"/dev/2", "/path/to/2", "type2", []string{"flags", "1", "2=3"}, "2", "2"} if !mountPointsEqual(mounts[2], mp) { t.Errorf("got unexpected mountInfo[2]: %#v", mounts[2]) } } // Failure case mounts path doesn't exist, if not fail. { if _, err = readProcMounts(filepath.Join(dir, "non-existent")); err != nil && !os.IsNotExist(err) { t.Fatal(err) } } } // Tests read proc mounts reader. func TestReadProcMountFrom(t *testing.T) { successCase := `/dev/0 /path/to/0 type0 flags 0 0 /dev/1 /path/to/1 type1 flags 1 1 /dev/2 /path/to/2 type2 flags,1,2=3 2 2 ` // Success case, verifies if parsing works properly. { mounts, err := parseMountFrom(strings.NewReader(successCase)) if err != nil { t.Errorf("expected success") } if len(mounts) != 3 { t.Fatalf("expected 3 mounts, got %d", len(mounts)) } mp := mountInfo{"/dev/0", "/path/to/0", "type0", []string{"flags"}, "0", "0"} if !mountPointsEqual(mounts[0], mp) { t.Errorf("got unexpected mountInfo[0]: %#v", mounts[0]) } mp = mountInfo{"/dev/1", "/path/to/1", "type1", []string{"flags"}, "1", "1"} if !mountPointsEqual(mounts[1], mp) { t.Errorf("got unexpected mountInfo[1]: %#v", mounts[1]) } mp = mountInfo{"/dev/2", "/path/to/2", "type2", []string{"flags", "1", "2=3"}, "2", "2"} if !mountPointsEqual(mounts[2], mp) { t.Errorf("got unexpected mountInfo[2]: %#v", mounts[2]) } } // Error cases where parsing fails with invalid Freq and Pass params. { errorCases := []string{ "/dev/1 /path/to/mount type flags a 0\n", "/dev/2 /path/to/mount type flags 0 b\n", } for _, ec := range errorCases { _, rerr := parseMountFrom(strings.NewReader(ec)) if rerr == nil { t.Errorf("expected error") } } } } // Helpers for tests. // Check if two `mountInfo` are equal. func mountPointsEqual(a, b mountInfo) bool { if a.Device != b.Device || a.Path != b.Path || a.FSType != b.FSType || !slicesEqual(a.Options, b.Options) || a.Pass != b.Pass || a.Freq != b.Freq { return false } return true } // Checks if two string slices are equal. func slicesEqual(a, b []string) bool { if len(a) != len(b) { return false } for i := range a { if a[i] != b[i] { return false } } return true }