return NewSynchronizedBeforeSuiteNode(bodyA, bodyB, codeLocation, time.Millisecond, failer)
	}

	Describe("when not running in parallel", func() {
		Context("when all is well", func() {
			var data []byte
			BeforeEach(func() {
				data = nil

				node = newNode(func() []byte {
					return []byte("my data")
				}, func(d []byte) {
					data = d
				})

				outcome = node.Run(1, 1, server.URL())
			})

			It("should run A, then B passing the output from A to B", func() {
				Ω(data).Should(Equal([]byte("my data")))
			})

			It("should report success", func() {
				Ω(outcome).Should(BeTrue())
				Ω(node.Passed()).Should(BeTrue())
				Ω(node.Summary().State).Should(Equal(types.SpecStatePassed))
			})
		})

		Context("when A fails", func() {
			var ranB bool
	thingsThatRan := func() []string {
		lock.Lock()
		defer lock.Unlock()
		return things
	}

	Context("when not running in parallel", func() {
		Context("when all is well", func() {
			BeforeEach(func() {
				node = newNode(func() {
					ranThing("A")
				}, func() {
					ranThing("B")
				})

				outcome = node.Run(1, 1, server.URL())
			})

			It("should run A, then B", func() {
				Ω(thingsThatRan()).Should(Equal([]string{"A", "B"}))
			})

			It("should report success", func() {
				Ω(outcome).Should(BeTrue())
				Ω(node.Passed()).Should(BeTrue())
				Ω(node.Summary().State).Should(Equal(types.SpecStatePassed))
			})
		})

		Context("when A fails", func() {
			BeforeEach(func() {