func TestJSCodeBSONToJSON(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Converting BSON Javascript code to JSON", t, func() {
		Convey("should produce a json.Javascript", func() {
			Convey("without scope if the scope for the BSON Javascript code is nil", func() {
				_jObj, err := ConvertBSONValueToJSON(bson.JavaScript{"function() { return null; }", nil})
				So(err, ShouldBeNil)
				jObj, ok := _jObj.(json.JavaScript)
				So(ok, ShouldBeTrue)

				So(jObj, ShouldResemble, json.JavaScript{"function() { return null; }", nil})
			})

			Convey("with scope if the scope for the BSON Javascript code is non-nil", func() {
				_jObj, err := ConvertBSONValueToJSON(bson.JavaScript{"function() { return x; }", bson.M{"x": 2}})
				So(err, ShouldBeNil)
				jObj, ok := _jObj.(json.JavaScript)
				So(ok, ShouldBeTrue)
				So(jObj.Scope.(bson.M)["x"], ShouldEqual, 2)
				So(jObj.Code, ShouldEqual, "function() { return x; }")
			})
		})
	})
}
func TestGetUpsertValue(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Given a field and a BSON document, on calling getUpsertValue", t, func() {
		Convey("the value of the key should be correct for unnested "+
			"documents", func() {
			bsonDocument := bson.M{"a": 3}
			So(getUpsertValue("a", bsonDocument), ShouldEqual, 3)
		})
		Convey("the value of the key should be correct for nested "+
			"document fields", func() {
			bsonDocument := bson.M{"a": bson.M{"b": 4}}
			So(getUpsertValue("a.b", bsonDocument), ShouldEqual, 4)
		})
		Convey("the value of the key should be nil for unnested document "+
			"fields that do not exist", func() {
			bsonDocument := bson.M{"a": 4}
			So(getUpsertValue("c", bsonDocument), ShouldBeNil)
		})
		Convey("the value of the key should be nil for nested document "+
			"fields that do not exist", func() {
			bsonDocument := bson.M{"a": bson.M{"b": 4}}
			So(getUpsertValue("a.c", bsonDocument), ShouldBeNil)
		})
		Convey("the value of the key should be nil for nil document"+
			"values", func() {
			So(getUpsertValue("a", bson.M{"a": nil}), ShouldBeNil)
		})
	})
}
Beispiel #3
0
func TestCreateIntentsForDB(t *testing.T) {
	// This tests creates intents based on the test file tree:
	//   db1
	//   db1/baddir
	//   db1/baddir/out.bson
	//   db1/c1.bson
	//   db1/c1.metadata.json
	//   db1/c2.bson
	//   db1/c3.bson
	//   db1/c3.metadata.json

	var mr *MongoRestore
	var buff bytes.Buffer

	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a test MongoRestore", t, func() {
		mr = newMongoRestore()
		log.SetWriter(&buff)

		Convey("running CreateIntentsForDB should succeed", func() {
			ddl, err := newActualPath("testdata/testdirs/db1")
			So(err, ShouldBeNil)
			err = mr.CreateIntentsForDB("myDB", ddl)
			So(err, ShouldBeNil)
			mr.manager.Finalize(intents.Legacy)

			Convey("and reading the intents should show alphabetical order", func() {
				i0 := mr.manager.Pop()
				So(i0.C, ShouldEqual, "c1")
				i1 := mr.manager.Pop()
				So(i1.C, ShouldEqual, "c2")
				i2 := mr.manager.Pop()
				So(i2.C, ShouldEqual, "c3")
				i3 := mr.manager.Pop()
				So(i3, ShouldBeNil)

				Convey("and all intents should have the supplied db name", func() {
					So(i0.DB, ShouldEqual, "myDB")
					So(i1.DB, ShouldEqual, "myDB")
					So(i2.DB, ShouldEqual, "myDB")
				})

				Convey("with all the proper metadata + bson merges", func() {
					So(i0.Location, ShouldNotEqual, "")
					So(i0.MetadataLocation, ShouldNotEqual, "")
					So(i1.Location, ShouldNotEqual, "")
					So(i1.MetadataLocation, ShouldEqual, "") //no metadata for this file
					So(i2.Location, ShouldNotEqual, "")
					So(i2.MetadataLocation, ShouldNotEqual, "")

					Convey("and skipped files all present in the logs", func() {
						logs := buff.String()
						So(strings.Contains(logs, "baddir"), ShouldEqual, true)
					})
				})
			})
		})
	})
}
func TestKerberos(t *testing.T) {
	testutil.VerifyTestType(t, testutil.KerberosTestType)

	Convey("Should be able to run mongoexport with Kerberos auth", t, func() {
		opts, err := testutil.GetKerberosOptions()

		So(err, ShouldBeNil)

		sessionProvider, err := db.NewSessionProvider(*opts)
		So(err, ShouldBeNil)

		export := MongoExport{
			ToolOptions:     *opts,
			OutputOpts:      &OutputFormatOptions{},
			InputOpts:       &InputOptions{},
			SessionProvider: sessionProvider,
		}

		var out bytes.Buffer
		num, err := export.exportInternal(&out)

		So(err, ShouldBeNil)
		So(num, ShouldEqual, 1)
		outputLines := strings.Split(strings.TrimSpace(out.String()), "\n")
		So(len(outputLines), ShouldEqual, 1)
		So(outputLines[0], ShouldEqual,
			"{\"_id\":{\"$oid\":\"528fb35afb3a8030e2f643c3\"},"+
				"\"authenticated\":\"yeah\",\"kerberos\":true}")
	})
}
Beispiel #5
0
func TestMongoDumpValidateOptions(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a MongoDump instance", t, func() {
		md := simpleMongoDumpInstance()

		Convey("we cannot dump a collection when a database specified", func() {
			md.ToolOptions.Namespace.Collection = "some_collection"
			md.ToolOptions.Namespace.DB = ""

			err := md.Init()
			So(err, ShouldNotBeNil)
			So(err.Error(), ShouldContainSubstring, "cannot dump a collection without a specified database")
		})

		Convey("we have to specify a collection name if using a query", func() {
			md.ToolOptions.Namespace.Collection = ""
			md.OutputOptions.Out = ""
			md.InputOptions.Query = "{_id:\"\"}"

			err := md.Init()
			So(err, ShouldNotBeNil)
			So(err.Error(), ShouldContainSubstring, "cannot dump using a query without a specified collection")
		})

	})
}
Beispiel #6
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func TestJSONArray(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a JSON export output in array mode", t, func() {
		out := &bytes.Buffer{}
		Convey("exporting a bunch of documents should produce valid json", func() {
			jsonExporter := NewJSONExportOutput(true, false, out)
			err := jsonExporter.WriteHeader()
			So(err, ShouldBeNil)

			// Export a few docs of various types

			testObjs := []interface{}{bson.NewObjectId(), "asd", 12345, 3.14159, bson.M{"A": 1}}
			for _, obj := range testObjs {
				err = jsonExporter.ExportDocument(bson.M{"_id": obj})
				So(err, ShouldBeNil)
			}

			err = jsonExporter.WriteFooter()
			So(err, ShouldBeNil)
			// Unmarshal the whole thing, it should be valid json
			fromJSON := []map[string]interface{}{}
			err = json.Unmarshal(out.Bytes(), &fromJSON)
			So(err, ShouldBeNil)
			So(len(fromJSON), ShouldEqual, len(testObjs))

		})

		Reset(func() {
			out.Reset()
		})

	})
}
Beispiel #7
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func TestWriteJSON(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a JSON export output", t, func() {
		out := &bytes.Buffer{}

		Convey("Special types should serialize as extended JSON", func() {

			Convey("ObjectId should have an extended JSON format", func() {
				jsonExporter := NewJSONExportOutput(false, false, out)
				objId := bson.NewObjectId()
				err := jsonExporter.WriteHeader()
				So(err, ShouldBeNil)
				err = jsonExporter.ExportDocument(bson.M{"_id": objId})
				So(err, ShouldBeNil)
				err = jsonExporter.WriteFooter()
				So(err, ShouldBeNil)
				So(out.String(), ShouldEqual, `{"_id":{"$oid":"`+objId.Hex()+`"}}`+"\n")
			})

			Reset(func() {
				out.Reset()
			})
		})

	})
}
func TestRemoveBlankFields(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Given an unordered BSON document", t, func() {
		Convey("the same document should be returned if there are no blanks", func() {
			bsonDocument := bson.D{bson.DocElem{"a", 3}, bson.DocElem{"b", "hello"}}
			So(removeBlankFields(bsonDocument), ShouldResemble, bsonDocument)
		})
		Convey("a new document without blanks should be returned if there are "+
			" blanks", func() {
			bsonDocument := bson.D{
				bson.DocElem{"a", 0},
				bson.DocElem{"b", ""},
				bson.DocElem{"c", ""},
				bson.DocElem{"d", &bson.D{
					bson.DocElem{"a", ""},
					bson.DocElem{"b", ""},
				}},
				bson.DocElem{"e", &bson.D{
					bson.DocElem{"a", ""},
					bson.DocElem{"b", 1},
				}},
			}
			expectedDocument := bson.D{
				bson.DocElem{"a", 0},
				bson.DocElem{"e", bson.D{
					bson.DocElem{"b", 1},
				}},
			}
			So(removeBlankFields(bsonDocument), ShouldResemble, expectedDocument)
		})
	})
}
func TestFilterIngestError(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Given a boolean 'stopOnError' and an error...", t, func() {

		Convey("an error should be returned if stopOnError is true the err is not nil", func() {
			So(filterIngestError(true, fmt.Errorf("")), ShouldNotBeNil)
		})

		Convey("errLostConnection should be returned if stopOnError is true the err is io.EOF", func() {
			So(filterIngestError(true, io.EOF), ShouldEqual, db.ErrLostConnection)
		})

		Convey("no error should be returned if stopOnError is false the err is not nil", func() {
			So(filterIngestError(false, fmt.Errorf("")), ShouldBeNil)
		})

		Convey("no error should be returned if stopOnError is false the err is nil", func() {
			So(filterIngestError(false, nil), ShouldBeNil)
		})

		Convey("no error should be returned if stopOnError is true the err is nil", func() {
			So(filterIngestError(true, nil), ShouldBeNil)
		})
	})
}
func TestGetSourceReader(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)
	Convey("Given a mongoimport instance, on calling getSourceReader", t,
		func() {
			Convey("an error should be thrown if the given file referenced by "+
				"the reader does not exist", func() {
				imp, err := NewMongoImport()
				So(err, ShouldBeNil)
				imp.InputOptions.File = "/path/to/input/file/dot/input.txt"
				imp.InputOptions.Type = CSV
				imp.ToolOptions.Namespace.Collection = ""
				_, _, err = imp.getSourceReader()
				So(err, ShouldNotBeNil)
			})

			Convey("no error should be thrown if the file exists", func() {
				imp, err := NewMongoImport()
				So(err, ShouldBeNil)
				imp.InputOptions.File = "testdata/test_array.json"
				imp.InputOptions.Type = JSON
				_, _, err = imp.getSourceReader()
				So(err, ShouldBeNil)
			})

			Convey("no error should be thrown if stdin is used", func() {
				imp, err := NewMongoImport()
				So(err, ShouldBeNil)
				imp.InputOptions.File = ""
				_, _, err = imp.getSourceReader()
				So(err, ShouldBeNil)
			})
		})
}
Beispiel #11
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func TestFailpointParsing(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With test args", t, func() {
		args := "foo=bar,baz,biz=,=a"
		ParseFailpoints(args)

		So(Enabled("foo"), ShouldBeTrue)
		So(Enabled("baz"), ShouldBeTrue)
		So(Enabled("biz"), ShouldBeTrue)
		So(Enabled(""), ShouldBeTrue)
		So(Enabled("bar"), ShouldBeFalse)

		var val string
		var ok bool
		val, ok = Get("foo")
		So(val, ShouldEqual, "bar")
		So(ok, ShouldBeTrue)
		val, ok = Get("baz")
		So(val, ShouldEqual, "")
		So(ok, ShouldBeTrue)
		val, ok = Get("biz")
		So(val, ShouldEqual, "")
		So(ok, ShouldBeTrue)
		val, ok = Get("")
		So(val, ShouldEqual, "a")
		So(ok, ShouldBeTrue)
		val, ok = Get("bar")
		So(ok, ShouldBeFalse)
	})
}
func TestBufferPoolRecycling(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("With a BufferPool of size 1", t, func() {
		bp := NewBufferPool(1)
		So(bp, ShouldNotBeNil)

		Convey("get a buffer from the pool and then return it", func() {
			a := bp.Get()
			So(len(a), ShouldEqual, 1)
			a[0] = 'a'
			bp.Put(a)

			Convey("so now getting a buffer should recycle the previous buffer", func() {
				newA := bp.Get()
				So(newA[0], ShouldEqual, 'a')

				newA[0] = 'X'
				So(a[0], ShouldEqual, 'X') //assure both point to the same thing

				Convey("but getting a second new buffer should be clean", func() {
					newB := bp.Get()
					So(newB[0], ShouldNotEqual, 'a')
					So(newB[0], ShouldNotEqual, 'X')
				})
			})
		})
	})
}
func TestDBCounterCollectionSorting(t *testing.T) {

	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a dbCounter and an unordered collection of intents", t, func() {
		dbc := &dbCounter{
			collections: []*Intent{
				&Intent{Size: 100},
				&Intent{Size: 1000},
				&Intent{Size: 1},
				&Intent{Size: 10},
			},
		}

		Convey("popping the sorted intents should return in decreasing BSONSize", func() {
			dbc.SortCollectionsBySize()
			So(dbc.PopIntent().Size, ShouldEqual, 1000)
			So(dbc.PopIntent().Size, ShouldEqual, 100)
			So(dbc.PopIntent().Size, ShouldEqual, 10)
			So(dbc.PopIntent().Size, ShouldEqual, 1)
			So(dbc.PopIntent(), ShouldBeNil)
			So(dbc.PopIntent(), ShouldBeNil)
		})
	})
}
Beispiel #14
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func TestNumberConverter(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("With a number converter for float32", t, func() {
		floatConverter := newNumberConverter(reflect.TypeOf(float32(0)))

		Convey("numeric values should be convertable", func() {
			out, err := floatConverter(21)
			So(err, ShouldEqual, nil)
			So(out, ShouldEqual, 21.0)
			out, err = floatConverter(uint64(21))
			So(err, ShouldEqual, nil)
			So(out, ShouldEqual, 21.0)
			out, err = floatConverter(float64(27.52))
			So(err, ShouldEqual, nil)
			So(out, ShouldEqual, 27.52)
		})

		Convey("non-numeric values should fail", func() {
			_, err := floatConverter("I AM A STRING")
			So(err, ShouldNotBeNil)
			_, err = floatConverter(struct{ int }{12})
			So(err, ShouldNotBeNil)
			_, err = floatConverter(nil)
			So(err, ShouldNotBeNil)
		})
	})
}
Beispiel #15
0
func TestKerberos(t *testing.T) {
	testutil.VerifyTestType(t, testutil.KerberosTestType)

	Convey("Should be able to run mongoexport with Kerberos auth", t, func() {
		opts, err := testutil.GetKerberosOptions()

		So(err, ShouldBeNil)

		sessionProvider, err := db.NewSessionProvider(*opts)
		So(err, ShouldBeNil)

		export := MongoExport{
			ToolOptions:     *opts,
			OutputOpts:      &OutputFormatOptions{},
			InputOpts:       &InputOptions{},
			SessionProvider: sessionProvider,
		}

		var out bytes.Buffer
		num, err := export.exportInternal(&out)

		So(err, ShouldBeNil)
		So(num, ShouldEqual, 1)
		outputLines := strings.Split(strings.TrimSpace(out.String()), "\n")
		So(len(outputLines), ShouldEqual, 1)
		outMap := map[string]interface{}{}
		So(json.Unmarshal([]byte(outputLines[0]), &outMap), ShouldBeNil)
		So(outMap["kerberos"], ShouldEqual, true)
		So(outMap["authenticated"], ShouldEqual, "yeah")
		So(outMap["_id"].(map[string]interface{})["$oid"], ShouldEqual, "528fb35afb3a8030e2f643c3")
	})
}
Beispiel #16
0
func TestParseConnectionString(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("When extracting the replica set and hosts from a connection"+
		" url", t, func() {

		Convey("an empty url should lead to an empty replica set name"+
			" and hosts slice", func() {
			hosts, setName := ParseConnectionString("")
			So(hosts, ShouldResemble, []string{""})
			So(setName, ShouldEqual, "")
		})

		Convey("a url not specifying a replica set name should lead to"+
			" an empty replica set name", func() {
			hosts, setName := ParseConnectionString("host1,host2")
			So(hosts, ShouldResemble, []string{"host1", "host2"})
			So(setName, ShouldEqual, "")
		})

		Convey("a url specifying a replica set name should lead to that name"+
			" being returned", func() {
			hosts, setName := ParseConnectionString("foo/host1,host2")
			So(hosts, ShouldResemble, []string{"host1", "host2"})
			So(setName, ShouldEqual, "foo")
		})

	})

}
Beispiel #17
0
func TestUInt32Converter(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("With a series of test values, conversions should pass", t, func() {
		out, err := ToUInt32(int64(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))
		out, err = ToUInt32(int32(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))
		out, err = ToUInt32(float32(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))
		out, err = ToUInt32(float64(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))
		out, err = ToUInt32(uint64(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))
		out, err = ToUInt32(uint32(99))
		So(err, ShouldEqual, nil)
		So(out, ShouldEqual, uint32(99))

		Convey("but non-numeric inputs will fail", func() {
			_, err = ToUInt32(nil)
			So(err, ShouldNotBeNil)
			_, err = ToUInt32("string")
			So(err, ShouldNotBeNil)
			_, err = ToUInt32([]byte{1, 2, 3, 4})
			So(err, ShouldNotBeNil)
		})
	})
}
Beispiel #18
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func TestCreateConnectionAddrs(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("When creating the slice of connection addresses", t, func() {

		Convey("if no port is specified, the addresses should all appear"+
			" unmodified in the result", func() {

			addrs := CreateConnectionAddrs("host1,host2", "")
			So(addrs, ShouldResemble, []string{"host1", "host2"})

		})

		Convey("if a port is specified, it should be appended to each host"+
			" from the host connection string", func() {

			addrs := CreateConnectionAddrs("host1,host2", "20000")
			So(addrs, ShouldResemble, []string{"host1:20000", "host2:20000"})

		})

	})

}
Beispiel #19
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func TestParseHost(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("When parsing a host string into the contained"+
		" addresses", t, func() {

		Convey("a string with a single hostname should return a slice of just"+
			" the hostname", func() {

			addrs := parseHost("localhost")
			So(addrs, ShouldResemble, []string{"localhost"})

		})

		Convey("a string with multiple hostnames should return a slice of"+
			" all of them", func() {

			addrs := parseHost("host1,host2,host3")
			So(addrs, ShouldResemble, []string{"host1", "host2", "host3"})

		})

		Convey("a string with multiple hostnames and a replica set should"+
			" return a slice of all the host names", func() {

			addrs := parseHost("foo/host1,host2,host3")
			So(addrs, ShouldResemble, []string{"host1", "host2", "host3"})

		})

	})
}
Beispiel #20
0
func TestValidateFields(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Given an import input, in validating the headers", t, func() {
		Convey("if the fields contain '..', an error should be thrown", func() {
			So(validateFields([]string{"a..a"}), ShouldNotBeNil)
		})
		Convey("if the fields start/end in a '.', an error should be thrown", func() {
			So(validateFields([]string{".a"}), ShouldNotBeNil)
			So(validateFields([]string{"a."}), ShouldNotBeNil)
		})
		Convey("if the fields start in a '$', an error should be thrown", func() {
			So(validateFields([]string{"$.a"}), ShouldNotBeNil)
			So(validateFields([]string{"$"}), ShouldNotBeNil)
			So(validateFields([]string{"$a"}), ShouldNotBeNil)
			So(validateFields([]string{"a$a"}), ShouldBeNil)
		})
		Convey("if the fields collide, an error should be thrown", func() {
			So(validateFields([]string{"a", "a.a"}), ShouldNotBeNil)
			So(validateFields([]string{"a", "a.ba", "b.a"}), ShouldNotBeNil)
			So(validateFields([]string{"a", "a.ba", "b.a"}), ShouldNotBeNil)
			So(validateFields([]string{"a", "a.b.c"}), ShouldNotBeNil)
		})
		Convey("if the fields don't collide, no error should be thrown", func() {
			So(validateFields([]string{"a", "aa"}), ShouldBeNil)
			So(validateFields([]string{"a", "aa", "b.a", "b.c"}), ShouldBeNil)
			So(validateFields([]string{"a", "ba", "ab", "b.a"}), ShouldBeNil)
			So(validateFields([]string{"a", "ba", "ab", "b.a", "b.c.d"}), ShouldBeNil)
			So(validateFields([]string{"a", "ab.c"}), ShouldBeNil)
		})
		Convey("if the fields contain the same keys, an error should be thrown", func() {
			So(validateFields([]string{"a", "ba", "a"}), ShouldNotBeNil)
		})
	})
}
Beispiel #21
0
func TestRunCommand(t *testing.T) {

	testutil.VerifyTestType(t, "db")

	Convey("When running a db command against a live mongod", t, func() {

		Convey("the specified command should be run and unmarshalled into the"+
			" provided struct", func() {

			opts := options.ToolOptions{
				Connection: &options.Connection{},
				SSL:        &options.SSL{},
				Auth:       &options.Auth{},
			}
			provider, err := InitSessionProvider(opts)
			So(err, ShouldBeNil)

			cmd := &listDatabasesCommand{}
			So(provider.RunCommand("admin", cmd), ShouldBeNil)
			So(cmd.Databases, ShouldNotBeNil)
			So(cmd.Ok, ShouldBeTrue)

		})

	})

}
Beispiel #22
0
func TestTokensToBSON(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Given an slice of fields and tokens to convert to BSON", t, func() {
		Convey("the expected ordered BSON should be produced for the fields/tokens given", func() {
			fields := []string{"a", "b", "c"}
			tokens := []string{"1", "2", "hello"}
			expectedDocument := bson.D{
				bson.DocElem{"a", 1},
				bson.DocElem{"b", 2},
				bson.DocElem{"c", "hello"},
			}
			bsonD, err := tokensToBSON(fields, tokens, uint64(0))
			So(err, ShouldBeNil)
			So(bsonD, ShouldResemble, expectedDocument)
		})
		Convey("if there are more tokens than fields, additional fields should be prefixed"+
			" with 'fields' and an index indicating the header number", func() {
			fields := []string{"a", "b", "c"}
			tokens := []string{"1", "2", "hello", "mongodb", "user"}
			expectedDocument := bson.D{
				bson.DocElem{"a", 1},
				bson.DocElem{"b", 2},
				bson.DocElem{"c", "hello"},
				bson.DocElem{"field3", "mongodb"},
				bson.DocElem{"field4", "user"},
			}
			bsonD, err := tokensToBSON(fields, tokens, uint64(0))
			So(err, ShouldBeNil)
			So(bsonD, ShouldResemble, expectedDocument)
		})
		Convey("an error should be thrown if duplicate headers are found", func() {
			fields := []string{"a", "b", "field3"}
			tokens := []string{"1", "2", "hello", "mongodb", "user"}
			_, err := tokensToBSON(fields, tokens, uint64(0))
			So(err, ShouldNotBeNil)
		})
		Convey("fields with nested values should be set appropriately", func() {
			fields := []string{"a", "b", "c.a"}
			tokens := []string{"1", "2", "hello"}
			expectedDocument := bson.D{
				bson.DocElem{"a", 1},
				bson.DocElem{"b", 2},
				bson.DocElem{"c", bson.D{
					bson.DocElem{"a", "hello"},
				}},
			}
			bsonD, err := tokensToBSON(fields, tokens, uint64(0))
			So(err, ShouldBeNil)
			So(expectedDocument[0].Name, ShouldResemble, bsonD[0].Name)
			So(expectedDocument[0].Value, ShouldResemble, bsonD[0].Value)
			So(expectedDocument[1].Name, ShouldResemble, bsonD[1].Name)
			So(expectedDocument[1].Value, ShouldResemble, bsonD[1].Value)
			So(expectedDocument[2].Name, ShouldResemble, bsonD[2].Name)
			So(expectedDocument[2].Value, ShouldResemble, *bsonD[2].Value.(*bson.D))
		})
	})
}
Beispiel #23
0
func TestWriteCSV(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("With a CSV export output", t, func() {
		fields := []string{"_id", "x", " y", "z.1.a"}
		out := &bytes.Buffer{}

		Convey("Headers should be written correctly", func() {
			csvExporter := NewCSVExportOutput(fields, false, out)
			err := csvExporter.WriteHeader()
			So(err, ShouldBeNil)
			csvExporter.ExportDocument(bson.D{{"_id", "12345"}})
			csvExporter.WriteFooter()
			csvExporter.Flush()
			rec, err := csv.NewReader(strings.NewReader(out.String())).Read()
			So(err, ShouldBeNil)
			So(rec, ShouldResemble, []string{"_id", "x", " y", "z.1.a"})
		})

		Convey("Headers should not be written", func() {
			csvExporter := NewCSVExportOutput(fields, true, out)
			err := csvExporter.WriteHeader()
			So(err, ShouldBeNil)
			csvExporter.ExportDocument(bson.D{{"_id", "12345"}})
			csvExporter.WriteFooter()
			csvExporter.Flush()
			rec, err := csv.NewReader(strings.NewReader(out.String())).Read()
			So(err, ShouldBeNil)
			So(rec, ShouldResemble, []string{"12345", "", "", ""})
		})

		Convey("Exported document with missing fields should print as blank", func() {
			csvExporter := NewCSVExportOutput(fields, true, out)
			csvExporter.ExportDocument(bson.D{{"_id", "12345"}})
			csvExporter.WriteFooter()
			csvExporter.Flush()
			rec, err := csv.NewReader(strings.NewReader(out.String())).Read()
			So(err, ShouldBeNil)
			So(rec, ShouldResemble, []string{"12345", "", "", ""})
		})

		Convey("Exported document with index into nested objects should print correctly", func() {
			csvExporter := NewCSVExportOutput(fields, true, out)
			z := []interface{}{"x", bson.D{{"a", "T"}, {"B", 1}}}
			csvExporter.ExportDocument(bson.D{{Name: "z", Value: z}})
			csvExporter.WriteFooter()
			csvExporter.Flush()
			rec, err := csv.NewReader(strings.NewReader(out.String())).Read()
			So(err, ShouldBeNil)
			So(rec, ShouldResemble, []string{"", "", "", "T"})
		})

		Reset(func() {
			out.Reset()
		})

	})
}
Beispiel #24
0
func TestTypedHeaderParser(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Using 'zip.string(),number.double(),foo.auto()'", t, func() {
		var headers = []string{"zip.string()", "number.double()", "foo.auto()", `bar.date(January 2\, \(2006\))`}
		var colSpecs []ColumnSpec
		var err error

		Convey("with parse grace: auto", func() {
			colSpecs, err = ParseTypedHeaders(headers, pgAutoCast)
			So(colSpecs, ShouldResemble, []ColumnSpec{
				{"zip", new(FieldStringParser), pgAutoCast, "string"},
				{"number", new(FieldDoubleParser), pgAutoCast, "double"},
				{"foo", new(FieldAutoParser), pgAutoCast, "auto"},
				{"bar", &FieldDateParser{"January 2, (2006)"}, pgAutoCast, "date"},
			})
			So(err, ShouldBeNil)
		})
		Convey("with parse grace: skipRow", func() {
			colSpecs, err = ParseTypedHeaders(headers, pgSkipRow)
			So(colSpecs, ShouldResemble, []ColumnSpec{
				{"zip", new(FieldStringParser), pgSkipRow, "string"},
				{"number", new(FieldDoubleParser), pgSkipRow, "double"},
				{"foo", new(FieldAutoParser), pgSkipRow, "auto"},
				{"bar", &FieldDateParser{"January 2, (2006)"}, pgSkipRow, "date"},
			})
			So(err, ShouldBeNil)
		})
	})

	Convey("Using various bad headers", t, func() {
		var err error

		Convey("with non-empty arguments for types that don't want them", func() {
			_, err = ParseTypedHeader("zip.string(blah)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.string(0)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.int32(0)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.int64(0)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.double(0)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.auto(0)", pgAutoCast)
			So(err, ShouldNotBeNil)
		})
		Convey("with bad arguments for the binary type", func() {
			_, err = ParseTypedHeader("zip.binary(blah)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.binary(binary)", pgAutoCast)
			So(err, ShouldNotBeNil)
			_, err = ParseTypedHeader("zip.binary(decimal)", pgAutoCast)
			So(err, ShouldNotBeNil)
		})
	})
}
func TestFieldSelect(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Using makeFieldSelector should return correct projection doc", t, func() {
		So(makeFieldSelector("a,b"), ShouldResemble, bson.M{"_id": 1, "a": 1, "b": 1})
		So(makeFieldSelector(""), ShouldResemble, bson.M{"_id": 1})
		So(makeFieldSelector("x,foo.baz"), ShouldResemble, bson.M{"_id": 1, "foo": 1, "x": 1})
	})
}
func TestServerStatusCommandDiff(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("When diffing two ServerStatus commands", t, func() {

	})

}
func TestServerStatusDiffToRows(t *testing.T) {

	testutil.VerifyTestType(t, "unit")

	Convey("When converting a ServerStatusDiff to rows to be "+
		" printed", t, func() {

	})

}
Beispiel #28
0
func TestUnknownBSONTypeToJSON(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Converting an unknown BSON type to JSON", t, func() {
		Convey("should produce an error", func() {
			_, err := ConvertBSONValueToJSON(func() {})
			So(err, ShouldNotBeNil)
		})
	})
}
Beispiel #29
0
func TestArraysBSONToJSON(t *testing.T) {
	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Converting BSON arrays to JSON arrays", t, func() {
		Convey("should work for empty arrays", func() {
			jArr, err := ConvertBSONValueToJSON([]interface{}{})
			So(err, ShouldBeNil)

			So(jArr, ShouldResemble, []interface{}{})
		})

		Convey("should work for one-level deep arrays", func() {
			objId := bson.NewObjectId()
			bsonArr := []interface{}{objId, 28, 0.999, "plain"}
			_jArr, err := ConvertBSONValueToJSON(bsonArr)
			So(err, ShouldBeNil)
			jArr, ok := _jArr.([]interface{})
			So(ok, ShouldBeTrue)

			So(len(jArr), ShouldEqual, 4)
			So(jArr[0], ShouldEqual, json.ObjectId(objId.Hex()))
			So(jArr[1], ShouldEqual, 28)
			So(jArr[2], ShouldEqual, 0.999)
			So(jArr[3], ShouldEqual, "plain")
		})

		Convey("should work for arrays with embedded objects", func() {
			bsonObj := []interface{}{
				80,
				bson.M{
					"a": int64(20),
					"b": bson.M{
						"c": bson.RegEx{Pattern: "hi", Options: "i"},
					},
				},
			}

			__jObj, err := ConvertBSONValueToJSON(bsonObj)
			So(err, ShouldBeNil)
			_jObj, ok := __jObj.([]interface{})
			So(ok, ShouldBeTrue)
			jObj, ok := _jObj[1].(bson.M)
			So(ok, ShouldBeTrue)
			So(len(jObj), ShouldEqual, 2)
			So(jObj["a"], ShouldEqual, json.NumberLong(20))
			jjObj, ok := jObj["b"].(bson.M)
			So(ok, ShouldBeTrue)

			So(jjObj["c"], ShouldResemble, json.RegExp{"hi", "i"})
			So(jjObj["c"], ShouldNotResemble, json.RegExp{"i", "hi"})
		})

	})
}
Beispiel #30
0
func TestTimestampStringParsing(t *testing.T) {

	testutil.VerifyTestType(t, testutil.UnitTestType)

	Convey("Testing some possible timestamp strings:", t, func() {
		Convey("123:456 [should pass]", func() {
			ts, err := ParseTimestampFlag("123:456")
			So(err, ShouldBeNil)
			So(ts, ShouldEqual, (int64(123)<<32 | int64(456)))
		})

		Convey("123 [should pass]", func() {
			ts, err := ParseTimestampFlag("123")
			So(err, ShouldBeNil)
			So(ts, ShouldEqual, int64(123)<<32)
		})

		Convey("123: [should pass]", func() {
			ts, err := ParseTimestampFlag("123:")
			So(err, ShouldBeNil)
			So(ts, ShouldEqual, int64(123)<<32)
		})

		Convey("123.123 [should fail]", func() {
			ts, err := ParseTimestampFlag("123.123")
			So(err, ShouldNotBeNil)
			So(ts, ShouldEqual, 0)
		})

		Convey(": [should fail]", func() {
			ts, err := ParseTimestampFlag(":")
			So(err, ShouldNotBeNil)
			So(ts, ShouldEqual, 0)
		})

		Convey("1:1:1 [should fail]", func() {
			ts, err := ParseTimestampFlag("1:1:1")
			So(err, ShouldNotBeNil)
			So(ts, ShouldEqual, 0)
		})

		Convey("cats [should fail]", func() {
			ts, err := ParseTimestampFlag("cats")
			So(err, ShouldNotBeNil)
			So(ts, ShouldEqual, 0)
		})

		Convey("[empty string] [should fail]", func() {
			ts, err := ParseTimestampFlag("")
			So(err, ShouldNotBeNil)
			So(ts, ShouldEqual, 0)
		})
	})
}