package integration_test import ( "fmt" "regexp" "runtime" "strings" . "github.com/onsi/ginkgo" "github.com/onsi/ginkgo/types" . "github.com/onsi/gomega" "github.com/onsi/gomega/gbytes" "github.com/onsi/gomega/gexec" ) var _ = Describe("Running Specs", func() { var pathToTest string isWindows := (runtime.GOOS == "windows") denoter := "•" if isWindows { denoter = "+" } Context("when pointed at the current directory", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") copyIn("passing_ginkgo_tests", pathToTest) }) It("should run the tests in the working directory", func() { session := startGinkgo(pathToTest, "--noColor") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Running Suite: Passing_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring(strings.Repeat(denoter, 4))) Ω(output).Should(ContainSubstring("SUCCESS! -- 4 Passed")) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("when passed an explicit package to run", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") copyIn("passing_ginkgo_tests", pathToTest) }) It("should run the ginkgo style tests", func() { session := startGinkgo(tmpDir, "--noColor", pathToTest) Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Running Suite: Passing_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring(strings.Repeat(denoter, 4))) Ω(output).Should(ContainSubstring("SUCCESS! -- 4 Passed")) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("when passed a number of packages to run", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") otherPathToTest := tmpPath("other") copyIn("passing_ginkgo_tests", pathToTest) copyIn("more_ginkgo_tests", otherPathToTest) }) It("should run the ginkgo style tests", func() { session := startGinkgo(tmpDir, "--noColor", "--succinct=false", "ginkgo", "./other") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Running Suite: Passing_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Running Suite: More_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("when passed a number of packages to run, some of which have focused tests", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") otherPathToTest := tmpPath("other") focusedPathToTest := tmpPath("focused") copyIn("passing_ginkgo_tests", pathToTest) copyIn("more_ginkgo_tests", otherPathToTest) copyIn("focused_fixture", focusedPathToTest) }) It("should exit with a status code of 2 and explain why", func() { session := startGinkgo(tmpDir, "--noColor", "--succinct=false", "-r") Eventually(session).Should(gexec.Exit(types.GINKGO_FOCUS_EXIT_CODE)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Running Suite: Passing_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Running Suite: More_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Test Suite Passed")) Ω(output).Should(ContainSubstring("Detected Programmatic Focus - setting exit status to %d", types.GINKGO_FOCUS_EXIT_CODE)) }) }) Context("when told to skipPackages", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") otherPathToTest := tmpPath("other") focusedPathToTest := tmpPath("focused") copyIn("passing_ginkgo_tests", pathToTest) copyIn("more_ginkgo_tests", otherPathToTest) copyIn("focused_fixture", focusedPathToTest) }) It("should skip packages that match the list", func() { session := startGinkgo(tmpDir, "--noColor", "--skipPackage=other,focused", "-r") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Passing_ginkgo_tests Suite")) Ω(output).ShouldNot(ContainSubstring("More_ginkgo_tests Suite")) Ω(output).ShouldNot(ContainSubstring("Focused_fixture Suite")) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) Context("when all packages are skipped", func() { It("should not run anything, but still exit 0", func() { session := startGinkgo(tmpDir, "--noColor", "--skipPackage=other,focused,ginkgo", "-r") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("All tests skipped!")) Ω(output).ShouldNot(ContainSubstring("Passing_ginkgo_tests Suite")) Ω(output).ShouldNot(ContainSubstring("More_ginkgo_tests Suite")) Ω(output).ShouldNot(ContainSubstring("Focused_fixture Suite")) Ω(output).ShouldNot(ContainSubstring("Test Suite Passed")) }) }) }) Context("when there are no tests to run", func() { It("should exit 1", func() { session := startGinkgo(tmpDir, "--noColor", "--skipPackage=other,focused", "-r") Eventually(session).Should(gexec.Exit(1)) output := string(session.Err.Contents()) Ω(output).Should(ContainSubstring("Found no test suites")) }) }) Context("when there are test files but `go test` reports there are no tests to run", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") copyIn("no_test_fn", pathToTest) }) It("suggests running ginkgo bootstrap", func() { session := startGinkgo(tmpDir, "--noColor", "--skipPackage=other,focused", "-r") Eventually(session).Should(gexec.Exit(0)) output := string(session.Err.Contents()) Ω(output).Should(ContainSubstring(`Found no test suites, did you forget to run "ginkgo bootstrap"?`)) }) It("fails if told to requireSuite", func() { session := startGinkgo(tmpDir, "--noColor", "--skipPackage=other,focused", "-r", "-requireSuite") Eventually(session).Should(gexec.Exit(1)) output := string(session.Err.Contents()) Ω(output).Should(ContainSubstring(`Found no test suites, did you forget to run "ginkgo bootstrap"?`)) }) }) Context("when told to randomizeSuites", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") otherPathToTest := tmpPath("other") copyIn("passing_ginkgo_tests", pathToTest) copyIn("more_ginkgo_tests", otherPathToTest) }) It("should skip packages that match the regexp", func() { session := startGinkgo(tmpDir, "--noColor", "--randomizeSuites", "-r", "--seed=2") Eventually(session).Should(gexec.Exit(0)) Ω(session).Should(gbytes.Say("More_ginkgo_tests Suite")) Ω(session).Should(gbytes.Say("Passing_ginkgo_tests Suite")) session = startGinkgo(tmpDir, "--noColor", "--randomizeSuites", "-r", "--seed=3") Eventually(session).Should(gexec.Exit(0)) Ω(session).Should(gbytes.Say("Passing_ginkgo_tests Suite")) Ω(session).Should(gbytes.Say("More_ginkgo_tests Suite")) }) }) Context("when pointed at a package with xunit style tests", func() { BeforeEach(func() { pathToTest = tmpPath("xunit") copyIn("xunit_tests", pathToTest) }) It("should run the xunit style tests", func() { session := startGinkgo(pathToTest) Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("--- PASS: TestAlwaysTrue")) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("when pointed at a package with no tests", func() { BeforeEach(func() { pathToTest = tmpPath("no_tests") copyIn("no_tests", pathToTest) }) It("should fail", func() { session := startGinkgo(pathToTest, "--noColor") Eventually(session).Should(gexec.Exit(1)) Ω(session.Err.Contents()).Should(ContainSubstring("Found no test suites")) }) }) Context("when pointed at a package that fails to compile", func() { BeforeEach(func() { pathToTest = tmpPath("does_not_compile") copyIn("does_not_compile", pathToTest) }) It("should fail", func() { session := startGinkgo(pathToTest, "--noColor") Eventually(session).Should(gexec.Exit(1)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring("Failed to compile")) }) }) Context("when running in parallel", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") copyIn("passing_ginkgo_tests", pathToTest) }) Context("with a specific number of -nodes", func() { It("should use the specified number of nodes", func() { session := startGinkgo(pathToTest, "--noColor", "-succinct", "-nodes=2") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4 specs - 2 nodes [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s`, regexp.QuoteMeta(denoter))) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("with -p", func() { It("it should autocompute the number of nodes", func() { session := startGinkgo(pathToTest, "--noColor", "-succinct", "-p") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) nodes := runtime.NumCPU() if nodes == 1 { Skip("Can't test parallel testings with 1 CPU") } if nodes > 4 { nodes = nodes - 1 } Ω(output).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4 specs - %d nodes [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]?s`, nodes, regexp.QuoteMeta(denoter))) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) }) Context("when streaming in parallel", func() { BeforeEach(func() { pathToTest = tmpPath("ginkgo") copyIn("passing_ginkgo_tests", pathToTest) }) It("should print output in realtime", func() { session := startGinkgo(pathToTest, "--noColor", "-stream", "-nodes=2") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) Ω(output).Should(ContainSubstring(`[1] Parallel test node 1/2.`)) Ω(output).Should(ContainSubstring(`[2] Parallel test node 2/2.`)) Ω(output).Should(ContainSubstring(`[1] SUCCESS!`)) Ω(output).Should(ContainSubstring(`[2] SUCCESS!`)) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("when running recursively", func() { BeforeEach(func() { passingTest := tmpPath("A") otherPassingTest := tmpPath("E") copyIn("passing_ginkgo_tests", passingTest) copyIn("more_ginkgo_tests", otherPassingTest) }) Context("when all the tests pass", func() { Context("with the -r flag", func() { It("should run all the tests (in succinct mode) and succeed", func() { session := startGinkgo(tmpDir, "--noColor", "-r", ".") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) outputLines := strings.Split(output, "\n") Ω(outputLines[0]).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 specs [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(outputLines[1]).Should(MatchRegexp(`\[\d+\] More_ginkgo_tests Suite - 2/2 specs [%s]{2} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) Context("with a trailing /...", func() { It("should run all the tests (in succinct mode) and succeed", func() { session := startGinkgo(tmpDir, "--noColor", "./...") Eventually(session).Should(gexec.Exit(0)) output := string(session.Out.Contents()) outputLines := strings.Split(output, "\n") Ω(outputLines[0]).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 specs [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(outputLines[1]).Should(MatchRegexp(`\[\d+\] More_ginkgo_tests Suite - 2/2 specs [%s]{2} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(output).Should(ContainSubstring("Test Suite Passed")) }) }) }) Context("when one of the packages has a failing tests", func() { BeforeEach(func() { failingTest := tmpPath("C") copyIn("failing_ginkgo_tests", failingTest) }) It("should fail and stop running tests", func() { session := startGinkgo(tmpDir, "--noColor", "-r") Eventually(session).Should(gexec.Exit(1)) output := string(session.Out.Contents()) outputLines := strings.Split(output, "\n") Ω(outputLines[0]).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 specs [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(outputLines[1]).Should(MatchRegexp(`\[\d+\] Failing_ginkgo_tests Suite - 2/2 specs`)) Ω(output).Should(ContainSubstring(fmt.Sprintf("%s Failure", denoter))) Ω(output).ShouldNot(ContainSubstring("More_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Test Suite Failed")) Ω(output).Should(ContainSubstring("Summarizing 1 Failure:")) Ω(output).Should(ContainSubstring("[Fail] FailingGinkgoTests [It] should fail")) }) }) Context("when one of the packages fails to compile", func() { BeforeEach(func() { doesNotCompileTest := tmpPath("C") copyIn("does_not_compile", doesNotCompileTest) }) It("should fail and stop running tests", func() { session := startGinkgo(tmpDir, "--noColor", "-r") Eventually(session).Should(gexec.Exit(1)) output := string(session.Out.Contents()) outputLines := strings.Split(output, "\n") Ω(outputLines[0]).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 specs [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(outputLines[1]).Should(ContainSubstring("Failed to compile C:")) Ω(output).ShouldNot(ContainSubstring("More_ginkgo_tests Suite")) Ω(output).Should(ContainSubstring("Test Suite Failed")) }) }) Context("when either is the case, but the keepGoing flag is set", func() { BeforeEach(func() { doesNotCompileTest := tmpPath("B") copyIn("does_not_compile", doesNotCompileTest) failingTest := tmpPath("C") copyIn("failing_ginkgo_tests", failingTest) }) It("should soldier on", func() { session := startGinkgo(tmpDir, "--noColor", "-r", "-keepGoing") Eventually(session).Should(gexec.Exit(1)) output := string(session.Out.Contents()) outputLines := strings.Split(output, "\n") Ω(outputLines[0]).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 specs [%s]{4} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(outputLines[1]).Should(ContainSubstring("Failed to compile B:")) Ω(output).Should(MatchRegexp(`\[\d+\] Failing_ginkgo_tests Suite - 2/2 specs`)) Ω(output).Should(ContainSubstring(fmt.Sprintf("%s Failure", denoter))) Ω(output).Should(MatchRegexp(`\[\d+\] More_ginkgo_tests Suite - 2/2 specs [%s]{2} SUCCESS! \d+(\.\d+)?[muµ]s PASS`, regexp.QuoteMeta(denoter))) Ω(output).Should(ContainSubstring("Test Suite Failed")) }) }) }) Context("when told to keep going --untilItFails", func() { BeforeEach(func() { copyIn("eventually_failing", tmpDir) }) It("should keep rerunning the tests, until a failure occurs", func() { session := startGinkgo(tmpDir, "--untilItFails", "--noColor") Eventually(session).Should(gexec.Exit(1)) Ω(session).Should(gbytes.Say("This was attempt #1")) Ω(session).Should(gbytes.Say("This was attempt #2")) Ω(session).Should(gbytes.Say("Tests failed on attempt #3")) //it should change the random seed between each test lines := strings.Split(string(session.Out.Contents()), "\n") randomSeeds := []string{} for _, line := range lines { if strings.Contains(line, "Random Seed:") { randomSeeds = append(randomSeeds, strings.Split(line, ": ")[1]) } } Ω(randomSeeds[0]).ShouldNot(Equal(randomSeeds[1])) Ω(randomSeeds[1]).ShouldNot(Equal(randomSeeds[2])) Ω(randomSeeds[0]).ShouldNot(Equal(randomSeeds[2])) }) }) })