// Copyright 2013-2014 Frank Schroeder. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package properties import ( "bytes" "flag" "fmt" "math" "os" "strings" "testing" "time" . "github.com/magiconair/properties/_third_party/gopkg.in/check.v1" ) func Test(t *testing.T) { TestingT(t) } type TestSuite struct { prevHandler ErrorHandlerFunc } var ( _ = Suite(&TestSuite{}) verbose = flag.Bool("verbose", false, "Verbose output") ) // -------------------------------------------------------------------- func (s *TestSuite) SetUpSuite(c *C) { s.prevHandler = ErrorHandler ErrorHandler = PanicHandler } // -------------------------------------------------------------------- func (s *TestSuite) TearDownSuite(c *C) { ErrorHandler = s.prevHandler } // ---------------------------------------------------------------------------- // define test cases in the form of // {"input", "key1", "value1", "key2", "value2", ...} var complexTests = [][]string{ // whitespace prefix {" key=value", "key", "value"}, // SPACE prefix {"\fkey=value", "key", "value"}, // FF prefix {"\tkey=value", "key", "value"}, // TAB prefix {" \f\tkey=value", "key", "value"}, // mix prefix // multiple keys {"key1=value1\nkey2=value2\n", "key1", "value1", "key2", "value2"}, {"key1=value1\rkey2=value2\r", "key1", "value1", "key2", "value2"}, {"key1=value1\r\nkey2=value2\r\n", "key1", "value1", "key2", "value2"}, // blank lines {"\nkey=value\n", "key", "value"}, {"\rkey=value\r", "key", "value"}, {"\r\nkey=value\r\n", "key", "value"}, // escaped chars in key {"k\\ ey = value", "k ey", "value"}, {"k\\:ey = value", "k:ey", "value"}, {"k\\=ey = value", "k=ey", "value"}, {"k\\fey = value", "k\fey", "value"}, {"k\\ney = value", "k\ney", "value"}, {"k\\rey = value", "k\rey", "value"}, {"k\\tey = value", "k\tey", "value"}, // escaped chars in value {"key = v\\ alue", "key", "v alue"}, {"key = v\\:alue", "key", "v:alue"}, {"key = v\\=alue", "key", "v=alue"}, {"key = v\\falue", "key", "v\falue"}, {"key = v\\nalue", "key", "v\nalue"}, {"key = v\\ralue", "key", "v\ralue"}, {"key = v\\talue", "key", "v\talue"}, // silently dropped escape character {"k\\zey = value", "kzey", "value"}, {"key = v\\zalue", "key", "vzalue"}, // unicode literals {"key\\u2318 = value", "key⌘", "value"}, {"k\\u2318ey = value", "k⌘ey", "value"}, {"key = value\\u2318", "key", "value⌘"}, {"key = valu\\u2318e", "key", "valu⌘e"}, // multiline values {"key = valueA,\\\n valueB", "key", "valueA,valueB"}, // SPACE indent {"key = valueA,\\\n\f\f\fvalueB", "key", "valueA,valueB"}, // FF indent {"key = valueA,\\\n\t\t\tvalueB", "key", "valueA,valueB"}, // TAB indent {"key = valueA,\\\n \f\tvalueB", "key", "valueA,valueB"}, // mix indent // comments {"# this is a comment\n! and so is this\nkey1=value1\nkey#2=value#2\n\nkey!3=value!3\n# and another one\n! and the final one", "key1", "value1", "key#2", "value#2", "key!3", "value!3"}, // expansion tests {"key=value\nkey2=${key}", "key", "value", "key2", "value"}, {"key=value\nkey2=aa${key}", "key", "value", "key2", "aavalue"}, {"key=value\nkey2=${key}bb", "key", "value", "key2", "valuebb"}, {"key=value\nkey2=aa${key}bb", "key", "value", "key2", "aavaluebb"}, {"key=value\nkey2=${key}\nkey3=${key2}", "key", "value", "key2", "value", "key3", "value"}, {"key=${USER}", "key", os.Getenv("USER")}, {"key=${USER}\nUSER=value", "key", "value", "USER", "value"}, } // ---------------------------------------------------------------------------- var commentTests = []struct { input, key, value string comments []string }{ {"key=value", "key", "value", nil}, {"#\nkey=value", "key", "value", []string{""}}, {"#comment\nkey=value", "key", "value", []string{"comment"}}, {"# comment\nkey=value", "key", "value", []string{"comment"}}, {"# comment\nkey=value", "key", "value", []string{"comment"}}, {"# comment\n\nkey=value", "key", "value", []string{"comment"}}, {"# comment1\n# comment2\nkey=value", "key", "value", []string{"comment1", "comment2"}}, {"# comment1\n\n# comment2\n\nkey=value", "key", "value", []string{"comment1", "comment2"}}, {"!comment\nkey=value", "key", "value", []string{"comment"}}, {"! comment\nkey=value", "key", "value", []string{"comment"}}, {"! comment\nkey=value", "key", "value", []string{"comment"}}, {"! comment\n\nkey=value", "key", "value", []string{"comment"}}, {"! comment1\n! comment2\nkey=value", "key", "value", []string{"comment1", "comment2"}}, {"! comment1\n\n! comment2\n\nkey=value", "key", "value", []string{"comment1", "comment2"}}, } // ---------------------------------------------------------------------------- var errorTests = []struct { input, msg string }{ // unicode literals {"key\\u1 = value", "invalid unicode literal"}, {"key\\u12 = value", "invalid unicode literal"}, {"key\\u123 = value", "invalid unicode literal"}, {"key\\u123g = value", "invalid unicode literal"}, {"key\\u123", "invalid unicode literal"}, // circular references {"key=${key}", "circular reference"}, {"key1=${key2}\nkey2=${key1}", "circular reference"}, // malformed expressions {"key=${ke", "malformed expression"}, {"key=valu${ke", "malformed expression"}, } // ---------------------------------------------------------------------------- var writeTests = []struct { input, output, encoding string }{ // ISO-8859-1 tests {"key = value", "key = value\n", "ISO-8859-1"}, {"key = value \\\n continued", "key = value continued\n", "ISO-8859-1"}, {"key⌘ = value", "key\\u2318 = value\n", "ISO-8859-1"}, {"ke\\ \\:y = value", "ke\\ \\:y = value\n", "ISO-8859-1"}, // UTF-8 tests {"key = value", "key = value\n", "UTF-8"}, {"key = value \\\n continued", "key = value continued\n", "UTF-8"}, {"key⌘ = value⌘", "key⌘ = value⌘\n", "UTF-8"}, {"ke\\ \\:y = value", "ke\\ \\:y = value\n", "UTF-8"}, } // ---------------------------------------------------------------------------- var writeCommentTests = []struct { input, output, encoding string }{ // ISO-8859-1 tests {"key = value", "key = value\n", "ISO-8859-1"}, {"#\nkey = value", "key = value\n", "ISO-8859-1"}, {"#\n#\n#\nkey = value", "key = value\n", "ISO-8859-1"}, {"# comment\nkey = value", "# comment\nkey = value\n", "ISO-8859-1"}, {"\n# comment\nkey = value", "# comment\nkey = value\n", "ISO-8859-1"}, {"# comment\n\nkey = value", "# comment\nkey = value\n", "ISO-8859-1"}, {"# comment1\n# comment2\nkey = value", "# comment1\n# comment2\nkey = value\n", "ISO-8859-1"}, {"#comment1\nkey1 = value1\n#comment2\nkey2 = value2", "# comment1\nkey1 = value1\n\n# comment2\nkey2 = value2\n", "ISO-8859-1"}, // UTF-8 tests {"key = value", "key = value\n", "UTF-8"}, {"# comment⌘\nkey = value⌘", "# comment⌘\nkey = value⌘\n", "UTF-8"}, {"\n# comment⌘\nkey = value⌘", "# comment⌘\nkey = value⌘\n", "UTF-8"}, {"# comment⌘\n\nkey = value⌘", "# comment⌘\nkey = value⌘\n", "UTF-8"}, {"# comment1⌘\n# comment2⌘\nkey = value⌘", "# comment1⌘\n# comment2⌘\nkey = value⌘\n", "UTF-8"}, {"#comment1⌘\nkey1 = value1⌘\n#comment2⌘\nkey2 = value2⌘", "# comment1⌘\nkey1 = value1⌘\n\n# comment2⌘\nkey2 = value2⌘\n", "UTF-8"}, } // ---------------------------------------------------------------------------- var boolTests = []struct { input, key string def, value bool }{ // valid values for TRUE {"key = 1", "key", false, true}, {"key = on", "key", false, true}, {"key = On", "key", false, true}, {"key = ON", "key", false, true}, {"key = true", "key", false, true}, {"key = True", "key", false, true}, {"key = TRUE", "key", false, true}, {"key = yes", "key", false, true}, {"key = Yes", "key", false, true}, {"key = YES", "key", false, true}, // valid values for FALSE (all other) {"key = 0", "key", true, false}, {"key = off", "key", true, false}, {"key = false", "key", true, false}, {"key = no", "key", true, false}, // non existent key {"key = true", "key2", false, false}, } // ---------------------------------------------------------------------------- var durationTests = []struct { input, key string def, value time.Duration }{ // valid values {"key = 1", "key", 999, 1}, {"key = 0", "key", 999, 0}, {"key = -1", "key", 999, -1}, {"key = 0123", "key", 999, 123}, // invalid values {"key = 0xff", "key", 999, 999}, {"key = 1.0", "key", 999, 999}, {"key = a", "key", 999, 999}, // non existent key {"key = 1", "key2", 999, 999}, } // ---------------------------------------------------------------------------- var parsedDurationTests = []struct { input, key string def, value time.Duration }{ // valid values {"key = -1ns", "key", 999, -1 * time.Nanosecond}, {"key = 300ms", "key", 999, 300 * time.Millisecond}, {"key = 5s", "key", 999, 5 * time.Second}, {"key = 3h", "key", 999, 3 * time.Hour}, {"key = 2h45m", "key", 999, 2*time.Hour + 45*time.Minute}, // invalid values {"key = 0xff", "key", 999, 999}, {"key = 1.0", "key", 999, 999}, {"key = a", "key", 999, 999}, {"key = 1", "key", 999, 999}, {"key = 0", "key", 999, 0}, // non existent key {"key = 1", "key2", 999, 999}, } // ---------------------------------------------------------------------------- var floatTests = []struct { input, key string def, value float64 }{ // valid values {"key = 1.0", "key", 999, 1.0}, {"key = 0.0", "key", 999, 0.0}, {"key = -1.0", "key", 999, -1.0}, {"key = 1", "key", 999, 1}, {"key = 0", "key", 999, 0}, {"key = -1", "key", 999, -1}, {"key = 0123", "key", 999, 123}, // invalid values {"key = 0xff", "key", 999, 999}, {"key = a", "key", 999, 999}, // non existent key {"key = 1", "key2", 999, 999}, } // ---------------------------------------------------------------------------- var int64Tests = []struct { input, key string def, value int64 }{ // valid values {"key = 1", "key", 999, 1}, {"key = 0", "key", 999, 0}, {"key = -1", "key", 999, -1}, {"key = 0123", "key", 999, 123}, // invalid values {"key = 0xff", "key", 999, 999}, {"key = 1.0", "key", 999, 999}, {"key = a", "key", 999, 999}, // non existent key {"key = 1", "key2", 999, 999}, } // ---------------------------------------------------------------------------- var uint64Tests = []struct { input, key string def, value uint64 }{ // valid values {"key = 1", "key", 999, 1}, {"key = 0", "key", 999, 0}, {"key = 0123", "key", 999, 123}, // invalid values {"key = -1", "key", 999, 999}, {"key = 0xff", "key", 999, 999}, {"key = 1.0", "key", 999, 999}, {"key = a", "key", 999, 999}, // non existent key {"key = 1", "key2", 999, 999}, } // ---------------------------------------------------------------------------- var stringTests = []struct { input, key string def, value string }{ // valid values {"key = abc", "key", "def", "abc"}, // non existent key {"key = abc", "key2", "def", "def"}, } // ---------------------------------------------------------------------------- var keysTests = []struct { input string keys []string }{ {"", []string{}}, {"key = abc", []string{"key"}}, {"key = abc\nkey2=def", []string{"key", "key2"}}, {"key2 = abc\nkey=def", []string{"key2", "key"}}, {"key = abc\nkey=def", []string{"key"}}, } // ---------------------------------------------------------------------------- var filterTests = []struct { input string pattern string keys []string err string }{ {"", "", []string{}, ""}, {"", "abc", []string{}, ""}, {"key=value", "", []string{"key"}, ""}, {"key=value", "key=", []string{}, ""}, {"key=value\nfoo=bar", "", []string{"foo", "key"}, ""}, {"key=value\nfoo=bar", "f", []string{"foo"}, ""}, {"key=value\nfoo=bar", "fo", []string{"foo"}, ""}, {"key=value\nfoo=bar", "foo", []string{"foo"}, ""}, {"key=value\nfoo=bar", "fooo", []string{}, ""}, {"key=value\nkey2=value2\nfoo=bar", "ey", []string{"key", "key2"}, ""}, {"key=value\nkey2=value2\nfoo=bar", "key", []string{"key", "key2"}, ""}, {"key=value\nkey2=value2\nfoo=bar", "^key", []string{"key", "key2"}, ""}, {"key=value\nkey2=value2\nfoo=bar", "^(key|foo)", []string{"foo", "key", "key2"}, ""}, {"key=value\nkey2=value2\nfoo=bar", "[ abc", nil, "error parsing regexp.*"}, } // ---------------------------------------------------------------------------- var filterPrefixTests = []struct { input string prefix string keys []string }{ {"", "", []string{}}, {"", "abc", []string{}}, {"key=value", "", []string{"key"}}, {"key=value", "key=", []string{}}, {"key=value\nfoo=bar", "", []string{"foo", "key"}}, {"key=value\nfoo=bar", "f", []string{"foo"}}, {"key=value\nfoo=bar", "fo", []string{"foo"}}, {"key=value\nfoo=bar", "foo", []string{"foo"}}, {"key=value\nfoo=bar", "fooo", []string{}}, {"key=value\nkey2=value2\nfoo=bar", "key", []string{"key", "key2"}}, } // ---------------------------------------------------------------------------- var filterStripPrefixTests = []struct { input string prefix string keys []string }{ {"", "", []string{}}, {"", "abc", []string{}}, {"key=value", "", []string{"key"}}, {"key=value", "key=", []string{}}, {"key=value\nfoo=bar", "", []string{"foo", "key"}}, {"key=value\nfoo=bar", "f", []string{"foo"}}, {"key=value\nfoo=bar", "fo", []string{"foo"}}, {"key=value\nfoo=bar", "foo", []string{"foo"}}, {"key=value\nfoo=bar", "fooo", []string{}}, {"key=value\nkey2=value2\nfoo=bar", "key", []string{"key", "key2"}}, } // ---------------------------------------------------------------------------- var setTests = []struct { input string key, value string prev string ok bool err string keys []string }{ {"", "", "", "", false, "", []string{}}, {"", "key", "value", "", false, "", []string{"key"}}, {"key=value", "key2", "value2", "", false, "", []string{"key", "key2"}}, {"key=value", "abc", "value3", "", false, "", []string{"key", "abc"}}, {"key=value", "key", "value3", "value", true, "", []string{"key"}}, } // ---------------------------------------------------------------------------- // TestBasic tests basic single key/value combinations with all possible // whitespace, delimiter and newline permutations. func (s *TestSuite) TestBasic(c *C) { testWhitespaceAndDelimiterCombinations(c, "key", "") testWhitespaceAndDelimiterCombinations(c, "key", "value") testWhitespaceAndDelimiterCombinations(c, "key", "value ") } func (s *TestSuite) TestComplex(c *C) { for _, test := range complexTests { testKeyValue(c, test[0], test[1:]...) } } func (s *TestSuite) TestErrors(c *C) { for _, test := range errorTests { _, err := Load([]byte(test.input), ISO_8859_1) c.Assert(err, NotNil) c.Assert(strings.Contains(err.Error(), test.msg), Equals, true, Commentf("Expected %q got %q", test.msg, err.Error())) } } func (s *TestSuite) TestDisableExpansion(c *C) { input := "key=value\nkey2=${key}" p, err := parse(input) p.DisableExpansion = true c.Assert(err, IsNil) c.Assert(p.MustGet("key"), Equals, "value") c.Assert(p.MustGet("key2"), Equals, "${key}") // with expansion disabled we can introduce circular references p.Set("keyA", "${keyB}") p.Set("keyB", "${keyA}") c.Assert(p.MustGet("keyA"), Equals, "${keyB}") c.Assert(p.MustGet("keyB"), Equals, "${keyA}") } func (s *TestSuite) TestMustGet(c *C) { input := "key = value\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGet("key"), Equals, "value") c.Assert(func() { p.MustGet("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetBool(c *C) { for _, test := range boolTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetBool(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetBool(c *C) { input := "key = true\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetBool("key"), Equals, true) c.Assert(func() { p.MustGetBool("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetDuration(c *C) { for _, test := range durationTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetDuration(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetDuration(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetDuration("key"), Equals, time.Duration(123)) c.Assert(func() { p.MustGetDuration("key2") }, PanicMatches, "strconv.ParseInt: parsing.*") c.Assert(func() { p.MustGetDuration("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetParsedDuration(c *C) { for _, test := range parsedDurationTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetParsedDuration(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetParsedDuration(c *C) { input := "key = 123ms\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetParsedDuration("key"), Equals, 123*time.Millisecond) c.Assert(func() { p.MustGetParsedDuration("key2") }, PanicMatches, "time: invalid duration ghi") c.Assert(func() { p.MustGetParsedDuration("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetFloat64(c *C) { for _, test := range floatTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetFloat64(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetFloat64(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetFloat64("key"), Equals, float64(123)) c.Assert(func() { p.MustGetFloat64("key2") }, PanicMatches, "strconv.ParseFloat: parsing.*") c.Assert(func() { p.MustGetFloat64("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetInt(c *C) { for _, test := range int64Tests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetInt(test.key, int(test.def)), Equals, int(test.value)) } } func (s *TestSuite) TestMustGetInt(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetInt("key"), Equals, int(123)) c.Assert(func() { p.MustGetInt("key2") }, PanicMatches, "strconv.ParseInt: parsing.*") c.Assert(func() { p.MustGetInt("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetInt64(c *C) { for _, test := range int64Tests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetInt64(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetInt64(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetInt64("key"), Equals, int64(123)) c.Assert(func() { p.MustGetInt64("key2") }, PanicMatches, "strconv.ParseInt: parsing.*") c.Assert(func() { p.MustGetInt64("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetUint(c *C) { for _, test := range uint64Tests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetUint(test.key, uint(test.def)), Equals, uint(test.value)) } } func (s *TestSuite) TestMustGetUint(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetUint("key"), Equals, uint(123)) c.Assert(func() { p.MustGetUint64("key2") }, PanicMatches, "strconv.ParseUint: parsing.*") c.Assert(func() { p.MustGetUint64("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetUint64(c *C) { for _, test := range uint64Tests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetUint64(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetUint64(c *C) { input := "key = 123\nkey2 = ghi" p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetUint64("key"), Equals, uint64(123)) c.Assert(func() { p.MustGetUint64("key2") }, PanicMatches, "strconv.ParseUint: parsing.*") c.Assert(func() { p.MustGetUint64("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestGetString(c *C) { for _, test := range stringTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, 1) c.Assert(p.GetString(test.key, test.def), Equals, test.value) } } func (s *TestSuite) TestMustGetString(c *C) { input := `key = value` p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetString("key"), Equals, "value") c.Assert(func() { p.MustGetString("invalid") }, PanicMatches, "unknown property: invalid") } func (s *TestSuite) TestComment(c *C) { for _, test := range commentTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.MustGetString(test.key), Equals, test.value) c.Assert(p.GetComments(test.key), DeepEquals, test.comments) if test.comments != nil { c.Assert(p.GetComment(test.key), Equals, test.comments[len(test.comments)-1]) } else { c.Assert(p.GetComment(test.key), Equals, "") } // test setting comments if len(test.comments) > 0 { // set single comment p.ClearComments() c.Assert(len(p.c), Equals, 0) p.SetComment(test.key, test.comments[0]) c.Assert(p.GetComment(test.key), Equals, test.comments[0]) // set multiple comments p.ClearComments() c.Assert(len(p.c), Equals, 0) p.SetComments(test.key, test.comments) c.Assert(p.GetComments(test.key), DeepEquals, test.comments) // clear comments for a key p.SetComments(test.key, nil) c.Assert(p.GetComment(test.key), Equals, "") c.Assert(p.GetComments(test.key), IsNil) } } } func (s *TestSuite) TestFilter(c *C) { for _, test := range filterTests { p, err := parse(test.input) c.Assert(err, IsNil) pp, err := p.Filter(test.pattern) if err != nil { c.Assert(err, ErrorMatches, test.err) continue } c.Assert(pp, NotNil) c.Assert(pp.Len(), Equals, len(test.keys)) for _, key := range test.keys { v1, ok1 := p.Get(key) v2, ok2 := pp.Get(key) c.Assert(ok1, Equals, true) c.Assert(ok2, Equals, true) c.Assert(v1, Equals, v2) } } } func (s *TestSuite) TestFilterPrefix(c *C) { for _, test := range filterPrefixTests { p, err := parse(test.input) c.Assert(err, IsNil) pp := p.FilterPrefix(test.prefix) c.Assert(pp, NotNil) c.Assert(pp.Len(), Equals, len(test.keys)) for _, key := range test.keys { v1, ok1 := p.Get(key) v2, ok2 := pp.Get(key) c.Assert(ok1, Equals, true) c.Assert(ok2, Equals, true) c.Assert(v1, Equals, v2) } } } func (s *TestSuite) TestKeys(c *C) { for _, test := range keysTests { p, err := parse(test.input) c.Assert(err, IsNil) c.Assert(p.Len(), Equals, len(test.keys)) c.Assert(len(p.Keys()), Equals, len(test.keys)) c.Assert(p.Keys(), DeepEquals, test.keys) } } func (s *TestSuite) TestSet(c *C) { for _, test := range setTests { p, err := parse(test.input) c.Assert(err, IsNil) prev, ok, err := p.Set(test.key, test.value) if test.err != "" { c.Assert(err, ErrorMatches, test.err) continue } c.Assert(err, IsNil) c.Assert(ok, Equals, test.ok) if ok { c.Assert(prev, Equals, test.prev) } c.Assert(p.Keys(), DeepEquals, test.keys) } } func (s *TestSuite) TestMustSet(c *C) { input := "key=${key}" p, err := parse(input) c.Assert(err, IsNil) c.Assert(func() { p.MustSet("key", "${key}") }, PanicMatches, "circular reference .*") } func (s *TestSuite) TestWrite(c *C) { for _, test := range writeTests { p, err := parse(test.input) buf := new(bytes.Buffer) var n int switch test.encoding { case "UTF-8": n, err = p.Write(buf, UTF8) case "ISO-8859-1": n, err = p.Write(buf, ISO_8859_1) } c.Assert(err, IsNil) s := string(buf.Bytes()) c.Assert(n, Equals, len(test.output), Commentf("input=%q expected=%q obtained=%q", test.input, test.output, s)) c.Assert(s, Equals, test.output, Commentf("input=%q expected=%q obtained=%q", test.input, test.output, s)) } } func (s *TestSuite) TestWriteComment(c *C) { for _, test := range writeCommentTests { p, err := parse(test.input) buf := new(bytes.Buffer) var n int switch test.encoding { case "UTF-8": n, err = p.WriteComment(buf, "# ", UTF8) case "ISO-8859-1": n, err = p.WriteComment(buf, "# ", ISO_8859_1) } c.Assert(err, IsNil) s := string(buf.Bytes()) c.Assert(n, Equals, len(test.output), Commentf("input=%q expected=%q obtained=%q", test.input, test.output, s)) c.Assert(s, Equals, test.output, Commentf("input=%q expected=%q obtained=%q", test.input, test.output, s)) } } func (s *TestSuite) TestCustomExpansionExpression(c *C) { testKeyValuePrePostfix(c, "*[", "]*", "key=value\nkey2=*[key]*", "key", "value", "key2", "value") } func (s *TestSuite) TestPanicOn32BitIntOverflow(c *C) { is32Bit = true var min, max int64 = math.MinInt32 - 1, math.MaxInt32 + 1 input := fmt.Sprintf("min=%d\nmax=%d", min, max) p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetInt64("min"), Equals, min) c.Assert(p.MustGetInt64("max"), Equals, max) c.Assert(func() { p.MustGetInt("min") }, PanicMatches, ".* out of range") c.Assert(func() { p.MustGetInt("max") }, PanicMatches, ".* out of range") } func (s *TestSuite) TestPanicOn32BitUintOverflow(c *C) { is32Bit = true var max uint64 = math.MaxUint32 + 1 input := fmt.Sprintf("max=%d", max) p, err := parse(input) c.Assert(err, IsNil) c.Assert(p.MustGetUint64("max"), Equals, max) c.Assert(func() { p.MustGetUint("max") }, PanicMatches, ".* out of range") } func (s *TestSuite) TestDeleteKey(c *C) { input := "#comments should also be gone\nkey=to-be-deleted\nsecond=key" p, err := parse(input) c.Assert(err, IsNil) c.Check(len(p.m), Equals, 2) c.Check(len(p.c), Equals, 1) c.Check(len(p.k), Equals, 2) p.Delete("key") c.Check(len(p.m), Equals, 1) c.Check(len(p.c), Equals, 0) c.Check(len(p.k), Equals, 1) } func (s *TestSuite) TestDeleteUnknownKey(c *C) { input := "#comments should also be gone\nkey=to-be-deleted" p, err := parse(input) c.Assert(err, IsNil) c.Check(len(p.m), Equals, 1) c.Check(len(p.c), Equals, 1) c.Check(len(p.k), Equals, 1) p.Delete("wrong-key") c.Check(len(p.m), Equals, 1) c.Check(len(p.c), Equals, 1) c.Check(len(p.k), Equals, 1) } // ---------------------------------------------------------------------------- // tests all combinations of delimiters, leading and/or trailing whitespace and newlines. func testWhitespaceAndDelimiterCombinations(c *C, key, value string) { whitespace := []string{"", " ", "\f", "\t"} delimiters := []string{"", " ", "=", ":"} newlines := []string{"", "\r", "\n", "\r\n"} for _, dl := range delimiters { for _, ws1 := range whitespace { for _, ws2 := range whitespace { for _, nl := range newlines { // skip the one case where there is nothing between a key and a value if ws1 == "" && dl == "" && ws2 == "" && value != "" { continue } input := fmt.Sprintf("%s%s%s%s%s%s", key, ws1, dl, ws2, value, nl) testKeyValue(c, input, key, value) } } } } } // tests whether key/value pairs exist for a given input. // keyvalues is expected to be an even number of strings of "key", "value", ... func testKeyValue(c *C, input string, keyvalues ...string) { testKeyValuePrePostfix(c, "${", "}", input, keyvalues...) } // tests whether key/value pairs exist for a given input. // keyvalues is expected to be an even number of strings of "key", "value", ... func testKeyValuePrePostfix(c *C, prefix, postfix, input string, keyvalues ...string) { printf("%q\n", input) p, err := Load([]byte(input), ISO_8859_1) c.Assert(err, IsNil) p.Prefix = prefix p.Postfix = postfix assertKeyValues(c, input, p, keyvalues...) } // tests whether key/value pairs exist for a given input. // keyvalues is expected to be an even number of strings of "key", "value", ... func assertKeyValues(c *C, input string, p *Properties, keyvalues ...string) { c.Assert(p, NotNil) c.Assert(2*p.Len(), Equals, len(keyvalues), Commentf("Odd number of key/value pairs.")) for i := 0; i < len(keyvalues); i += 2 { key, value := keyvalues[i], keyvalues[i+1] v, ok := p.Get(key) c.Assert(ok, Equals, true, Commentf("No key %q found (input=%q)", key, input)) c.Assert(v, Equals, value, Commentf("Value %q does not match %q (input=%q)", v, value, input)) } } // prints to stderr if the -verbose flag was given. func printf(format string, args ...interface{}) { if *verbose { fmt.Fprintf(os.Stderr, format, args...) } }