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syncthing/vendor/github.com/onsi/ginkgo/integration/run_test.go

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Use Go 1.5 vendoring instead of Godeps Change made by: - running "gvt fetch" on each of the packages mentioned in Godeps/Godeps.json - `rm -rf Godeps` - tweaking the build scripts to not mention Godeps - tweaking the build scripts to test `./lib/...`, `./cmd/...` explicitly (to avoid testing vendor) - tweaking the build scripts to not juggle GOPATH for Godeps and instead set GO15VENDOREXPERIMENT. This also results in some updated packages at the same time I bet. Building with Go 1.3 and 1.4 still *works* but won't use our vendored dependencies - the user needs to have the actual packages in their GOPATH then, which they'll get with a normal "go get". Building with Go 1.6+ will get our vendored dependencies by default even when not using our build script, which is nice. By doing this we gain some freedom in that we can pick and choose manually what to include in vendor, as it's not based on just dependency analysis of our own code. This is also a risk as we might pick up dependencies we are unaware of, as the build may work locally with those packages present in GOPATH. On the other hand the build server will detect this as it has no packages in it's GOPATH beyond what is included in the repo. Recommended tool to manage dependencies is github.com/FiloSottile/gvt.
2016-03-05 20:01:58 +00:00
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 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 - 4/4 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 > 4 {
nodes = nodes - 1
}
Ω(output).Should(MatchRegexp(`\[\d+\] Passing_ginkgo_tests Suite - 4/4 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() {
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("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]))
})
})
})
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