package model import ( "bytes" "fmt" "testing" ) var blocksTestData = []struct { data []byte blocksize int hash []string }{ {[]byte(""), 1024, []string{}}, {[]byte("contents"), 1024, []string{ "d1b2a59fbea7e20077af9f91b27e95e865061b270be03ff539ab3b73587882e8"}}, {[]byte("contents"), 9, []string{ "d1b2a59fbea7e20077af9f91b27e95e865061b270be03ff539ab3b73587882e8"}}, {[]byte("contents"), 8, []string{ "d1b2a59fbea7e20077af9f91b27e95e865061b270be03ff539ab3b73587882e8"}}, {[]byte("contents"), 7, []string{ "ed7002b439e9ac845f22357d822bac1444730fbdb6016d3ec9432297b9ec9f73", "043a718774c572bd8a25adbeb1bfcd5c0256ae11cecf9f9c3f925d0e52beaf89"}, }, {[]byte("contents"), 3, []string{ "1143da2bc54c495c4be31d3868785d39ffdfd56df5668f0645d8f14d47647952", "e4432baa90819aaef51d2a7f8e148bf7e679610f3173752fabb4dcb2d0f418d3", "44ad63f60af0f6db6fdde6d5186ef78176367df261fa06be3079b6c80c8adba4"}, }, {[]byte("conconts"), 3, []string{ "1143da2bc54c495c4be31d3868785d39ffdfd56df5668f0645d8f14d47647952", "1143da2bc54c495c4be31d3868785d39ffdfd56df5668f0645d8f14d47647952", "44ad63f60af0f6db6fdde6d5186ef78176367df261fa06be3079b6c80c8adba4"}, }, {[]byte("contenten"), 3, []string{ "1143da2bc54c495c4be31d3868785d39ffdfd56df5668f0645d8f14d47647952", "e4432baa90819aaef51d2a7f8e148bf7e679610f3173752fabb4dcb2d0f418d3", "e4432baa90819aaef51d2a7f8e148bf7e679610f3173752fabb4dcb2d0f418d3"}, }, } func TestBlocks(t *testing.T) { for _, test := range blocksTestData { buf := bytes.NewBuffer(test.data) blocks, err := Blocks(buf, test.blocksize) if err != nil { t.Fatal(err) } if l := len(blocks); l != len(test.hash) { t.Fatalf("Incorrect number of blocks %d != %d", l, len(test.hash)) } else { i := 0 for off := int64(0); off < int64(len(test.data)); off += int64(test.blocksize) { if blocks[i].Offset != off { t.Errorf("Incorrect offset for block %d: %d != %d", i, blocks[i].Offset, off) } bs := test.blocksize if rem := len(test.data) - int(off); bs > rem { bs = rem } if int(blocks[i].Size) != bs { t.Errorf("Incorrect length for block %d: %d != %d", i, blocks[i].Size, bs) } if h := fmt.Sprintf("%x", blocks[i].Hash); h != test.hash[i] { t.Errorf("Incorrect block hash %q != %q", h, test.hash[i]) } i++ } } } } var diffTestData = []struct { a string b string s int d []Block }{ {"contents", "contents", 1024, []Block{}}, {"", "", 1024, []Block{}}, {"contents", "contents", 3, []Block{}}, {"contents", "cantents", 3, []Block{{0, 3, nil}}}, {"contents", "contants", 3, []Block{{3, 3, nil}}}, {"contents", "cantants", 3, []Block{{0, 3, nil}, {3, 3, nil}}}, {"contents", "", 3, nil}, {"", "contents", 3, []Block{{0, 3, nil}, {3, 3, nil}, {6, 2, nil}}}, {"con", "contents", 3, []Block{{3, 3, nil}, {6, 2, nil}}}, {"contents", "con", 3, nil}, {"contents", "cont", 3, []Block{{3, 1, nil}}}, {"cont", "contents", 3, []Block{{3, 3, nil}, {6, 2, nil}}}, } func TestDiff(t *testing.T) { for i, test := range diffTestData { a, _ := Blocks(bytes.NewBufferString(test.a), test.s) b, _ := Blocks(bytes.NewBufferString(test.b), test.s) _, d := BlockDiff(a, b) if len(d) != len(test.d) { t.Fatalf("Incorrect length for diff %d; %d != %d", i, len(d), len(test.d)) } else { for j := range test.d { if d[j].Offset != test.d[j].Offset { t.Errorf("Incorrect offset for diff %d block %d; %d != %d", i, j, d[j].Offset, test.d[j].Offset) } if d[j].Size != test.d[j].Size { t.Errorf("Incorrect length for diff %d block %d; %d != %d", i, j, d[j].Size, test.d[j].Size) } } } } }