diff options
author | Jakob Unterwurzacher | 2021-05-29 16:05:36 +0200 |
---|---|---|
committer | Jakob Unterwurzacher | 2021-05-29 16:05:36 +0200 |
commit | 738a9e006af6f5e43871c2d8e208601c18191965 (patch) | |
tree | 48e52a90a2d59b622453497bff18482badd3e2b2 /tests/plaintextnames | |
parent | c1d7e38761d35149f19524fa19d3afaaca73f302 (diff) |
fusefrontend: rewrite Lseek SEEK_DATA / SEEK_HOLE
In response to the discussion of the xfstests mailing list [1],
I looked at the Lseek implementation, which was naive and
did not handle all cases correctly.
The new implementation aligns the returned values to 4096 bytes
as most callers expect.
A lot of tests are added to verify that we handle all
cases correctly now.
[1]: https://www.spinics.net/lists/fstests/msg16554.html
Diffstat (limited to 'tests/plaintextnames')
-rw-r--r-- | tests/plaintextnames/file_holes_test.go | 113 |
1 files changed, 84 insertions, 29 deletions
diff --git a/tests/plaintextnames/file_holes_test.go b/tests/plaintextnames/file_holes_test.go index d046cea..9948715 100644 --- a/tests/plaintextnames/file_holes_test.go +++ b/tests/plaintextnames/file_holes_test.go @@ -2,9 +2,12 @@ package plaintextnames import ( "fmt" + "math/rand" "os" "os/exec" + "syscall" "testing" + "time" "github.com/rfjakob/gocryptfs/tests/test_helpers" @@ -26,38 +29,21 @@ func findHolesPretty(t *testing.T, path string) string { return holes.PrettyPrint(segments) } -// TestFileHoleCopy creates a sparse times, copies it a few times, and check if -// the copies are the same (including the location of holes and data sections). -// -// The test runs with -plaintextnames because that makes it easier to manipulate -// cipherdir directly. -func TestFileHoleCopy(t *testing.T) { - n := "TestFileHoleCopy" +func doTestFileHoleCopy(t *testing.T, name string, writeOffsets []int64) { + n := "TestFileHoleCopy." + name pPath := []string{pDir + "/" + n} cPath := []string{cDir + "/" + n} - f, err := os.Create(pPath[0]) - if err != nil { - t.Fatal(err) - } - // | hole | x | hole | x | hole | - buf := []byte("x") - f.WriteAt(buf, 10000) - f.WriteAt(buf, 30000) - f.Truncate(50000) - f.Sync() - f.Close() - - // You have to update this value manually when you change the sequence - // above + os.Remove(pPath[0]) + holes.Create(pPath[0]) + + // expected md6 md5 := test_helpers.Md5fn(pPath[0]) - if md5 != "4e8d0742bccfbcdbf1d71be688e4e81c" { - t.Fatalf("wrong md5: %s", md5) - } pSegments := []string{findHolesPretty(t, pPath[0])} cSegments := []string{findHolesPretty(t, cPath[0])} + // create 5 more copies for i := 1; i < 5; i++ { pPath = append(pPath, fmt.Sprintf("%s.%d", pPath[0], i)) cPath = append(cPath, fmt.Sprintf("%s.%d", cPath[0], i)) @@ -76,21 +62,90 @@ func TestFileHoleCopy(t *testing.T) { cSegments = append(cSegments, findHolesPretty(t, cPath[i])) } + // "cp --sparse=auto" checks of the file has fewer blocks on disk than it + // should have for its size. Only then it will try to create a sparse copy. + var st syscall.Stat_t + err := syscall.Stat(pPath[0], &st) + if err != nil { + t.Fatal(err) + } + // convert 512 byte blocks to 4k blocks + blocks4k := st.Blocks / 8 + // For more than a few fragments, ext4 allocates one extra block + blocks4k++ + if blocks4k >= (st.Size+4095)/4096 { + t.Logf("file will look non-sparse to cp, skipping segment check") + return + } + + // Check that size on disk stays the same across copies + var st0 syscall.Stat_t + if err := syscall.Stat(pPath[0], &st0); err != nil { + t.Fatal(err) + } for i := range pSegments { - t.Logf("pSegments[%d]: %s", i, pSegments[i]) + var st syscall.Stat_t + if err := syscall.Stat(pPath[i], &st); err != nil { + t.Fatal(err) + } + // Sometimes the size on disk decreases by 4k due to less fragmentation + if st.Blocks != st0.Blocks && st.Blocks != st0.Blocks-8 { + t.Errorf("size changed: st0.Blocks=%d st%d.Blocks=%d", st0.Blocks, i, st.Blocks) + } + } + + // Check that hole/data segments stays the same across copies + out := "" + same := true + for i := range pSegments { + out += fmt.Sprintf("pSegments[%d]:\n%s\n", i, pSegments[i]) if i < len(pSegments)-1 { if pSegments[i+1] != pSegments[i] { - t.Errorf("error: this is different than pSegments[%d]!", i+1) + same = false + t.Errorf("error: pSegments[%d] is different than pSegments[%d]!", i, i+1) } } } - t.Log("------------------------------------") + out += "------------------------------------\n" for i := range cSegments { - t.Logf("cSegments[%d]: %s", i, cSegments[i]) + out += fmt.Sprintf("cSegments[%d]:\n%s\n", i, cSegments[i]) if i < len(pSegments)-1 { if cSegments[i+1] != cSegments[i] { - t.Errorf("error: this is different than cSegments[%d]!", i+1) + same = false + t.Errorf("error: cSegments[%d] is different than cSegments[%d]!", i, i+1) } } } + if !same { + t.Log(out) + } +} + +// TestFileHoleCopy creates a sparse times, copies it a few times, and check if +// the copies are the same (including the location of holes and data sections). +// +// The test runs with -plaintextnames because that makes it easier to manipulate +// cipherdir directly. +func TestFileHoleCopy(t *testing.T) { + // | hole | x | hole | x | hole | + // truncate -s 50000 foo && dd if=/dev/zero of=foo bs=1 seek=10000 count=1 conv=notrunc && dd if=/dev/zero of=foo bs=1 seek=30000 count=1 conv=notrunc + name := "c0" + c0 := []int64{10000, 30000} + if !t.Run("c0", func(t *testing.T) { doTestFileHoleCopy(t, name, c0) }) { + t.Log("aborting further subtests") + return + } + + rand.Seed(time.Now().UnixNano()) + for k := 0; k < 100; k++ { + c1 := make([]int64, 10) + for i := range c1 { + c1[i] = int64(rand.Int31n(60000)) + } + name := fmt.Sprintf("k%d", k) + if !t.Run(name, func(t *testing.T) { doTestFileHoleCopy(t, name, c1) }) { + t.Log("aborting further subtests") + return + } + } } |