DockerCLI/cli/command/swarm/init_test.go

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package swarm
import (
"fmt"
"io"
"testing"
"github.com/docker/cli/internal/test"
"github.com/docker/docker/api/types"
"github.com/docker/docker/api/types/swarm"
"github.com/pkg/errors"
"gotest.tools/v3/assert"
"gotest.tools/v3/golden"
)
func TestSwarmInitErrorOnAPIFailure(t *testing.T) {
testCases := []struct {
name string
flags map[string]string
swarmInitFunc func() (string, error)
swarmInspectFunc func() (swarm.Swarm, error)
swarmGetUnlockKeyFunc func() (types.SwarmUnlockKeyResponse, error)
nodeInspectFunc func() (swarm.Node, []byte, error)
expectedError string
}{
{
name: "init-failed",
swarmInitFunc: func() (string, error) {
return "", errors.Errorf("error initializing the swarm")
},
expectedError: "error initializing the swarm",
},
{
name: "init-failed-with-ip-choice",
swarmInitFunc: func() (string, error) {
return "", errors.Errorf("could not choose an IP address to advertise")
},
expectedError: "could not choose an IP address to advertise - specify one with --advertise-addr",
},
{
name: "swarm-inspect-after-init-failed",
swarmInspectFunc: func() (swarm.Swarm, error) {
return swarm.Swarm{}, errors.Errorf("error inspecting the swarm")
},
expectedError: "error inspecting the swarm",
},
{
name: "node-inspect-after-init-failed",
nodeInspectFunc: func() (swarm.Node, []byte, error) {
return swarm.Node{}, []byte{}, errors.Errorf("error inspecting the node")
},
expectedError: "error inspecting the node",
},
{
name: "swarm-get-unlock-key-after-init-failed",
flags: map[string]string{
flagAutolock: "true",
},
swarmGetUnlockKeyFunc: func() (types.SwarmUnlockKeyResponse, error) {
return types.SwarmUnlockKeyResponse{}, errors.Errorf("error getting swarm unlock key")
},
expectedError: "could not fetch unlock key: error getting swarm unlock key",
},
}
for _, tc := range testCases {
test spring-cleaning This makes a quick pass through our tests; Discard output/err ---------------------------------------------- Many tests were testing for error-conditions, but didn't discard output. This produced a lot of noise when running the tests, and made it hard to discover if there were actual failures, or if the output was expected. For example: === RUN TestConfigCreateErrors Error: "create" requires exactly 2 arguments. See 'create --help'. Usage: create [OPTIONS] CONFIG file|- [flags] Create a config from a file or STDIN Error: "create" requires exactly 2 arguments. See 'create --help'. Usage: create [OPTIONS] CONFIG file|- [flags] Create a config from a file or STDIN Error: error creating config --- PASS: TestConfigCreateErrors (0.00s) And after discarding output: === RUN TestConfigCreateErrors --- PASS: TestConfigCreateErrors (0.00s) Use sub-tests where possible ---------------------------------------------- Some tests were already set-up to use test-tables, and even had a usable name (or in some cases "error" to check for). Change them to actual sub- tests. Same test as above, but now with sub-tests and output discarded: === RUN TestConfigCreateErrors === RUN TestConfigCreateErrors/requires_exactly_2_arguments === RUN TestConfigCreateErrors/requires_exactly_2_arguments#01 === RUN TestConfigCreateErrors/error_creating_config --- PASS: TestConfigCreateErrors (0.00s) --- PASS: TestConfigCreateErrors/requires_exactly_2_arguments (0.00s) --- PASS: TestConfigCreateErrors/requires_exactly_2_arguments#01 (0.00s) --- PASS: TestConfigCreateErrors/error_creating_config (0.00s) PASS It's not perfect in all cases (in the above, there's duplicate "expected" errors, but Go conveniently adds "#01" for the duplicate). There's probably also various tests I missed that could still use the same changes applied; we can improve these in follow-ups. Set cmd.Args to prevent test-failures ---------------------------------------------- When running tests from my IDE, it compiles the tests before running, then executes the compiled binary to run the tests. Cobra doesn't like that, because in that situation `os.Args` is taken as argument for the command that's executed. The command that's tested now sees the test- flags as arguments (`-test.v -test.run ..`), which causes various tests to fail ("Command XYZ does not accept arguments"). # compile the tests: go test -c -o foo.test # execute the test: ./foo.test -test.v -test.run TestFoo === RUN TestFoo Error: "foo" accepts no arguments. The Cobra maintainers ran into the same situation, and for their own use have added a special case to ignore `os.Args` in these cases; https://github.com/spf13/cobra/blob/v1.8.1/command.go#L1078-L1083 args := c.args // Workaround FAIL with "go test -v" or "cobra.test -test.v", see #155 if c.args == nil && filepath.Base(os.Args[0]) != "cobra.test" { args = os.Args[1:] } Unfortunately, that exception is too specific (only checks for `cobra.test`), so doesn't automatically fix the issue for other test-binaries. They did provide a `cmd.SetArgs()` utility for this purpose https://github.com/spf13/cobra/blob/v1.8.1/command.go#L276-L280 // SetArgs sets arguments for the command. It is set to os.Args[1:] by default, if desired, can be overridden // particularly useful when testing. func (c *Command) SetArgs(a []string) { c.args = a } And the fix is to explicitly set the command's args to an empty slice to prevent Cobra from falling back to using `os.Args[1:]` as arguments. cmd := newSomeThingCommand() cmd.SetArgs([]string{}) Some tests already take this issue into account, and I updated some tests for this, but there's likely many other ones that can use the same treatment. Perhaps the Cobra maintainers would accept a contribution to make their condition less specific and to look for binaries ending with a `.test` suffix (which is what compiled binaries usually are named as). Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
2024-07-03 19:29:04 -04:00
t.Run(tc.name, func(t *testing.T) {
cmd := newInitCommand(
test.NewFakeCli(&fakeClient{
swarmInitFunc: tc.swarmInitFunc,
swarmInspectFunc: tc.swarmInspectFunc,
swarmGetUnlockKeyFunc: tc.swarmGetUnlockKeyFunc,
nodeInspectFunc: tc.nodeInspectFunc,
}))
for key, value := range tc.flags {
cmd.Flags().Set(key, value)
}
cmd.SetOut(io.Discard)
cmd.SetErr(io.Discard)
assert.Error(t, cmd.Execute(), tc.expectedError)
})
}
}
func TestSwarmInit(t *testing.T) {
testCases := []struct {
name string
flags map[string]string
swarmInitFunc func() (string, error)
swarmInspectFunc func() (swarm.Swarm, error)
swarmGetUnlockKeyFunc func() (types.SwarmUnlockKeyResponse, error)
nodeInspectFunc func() (swarm.Node, []byte, error)
}{
{
name: "init",
swarmInitFunc: func() (string, error) {
return "nodeID", nil
},
},
{
name: "init-autolock",
flags: map[string]string{
flagAutolock: "true",
},
swarmInitFunc: func() (string, error) {
return "nodeID", nil
},
swarmGetUnlockKeyFunc: func() (types.SwarmUnlockKeyResponse, error) {
return types.SwarmUnlockKeyResponse{
UnlockKey: "unlock-key",
}, nil
},
},
}
for _, tc := range testCases {
cli := test.NewFakeCli(&fakeClient{
swarmInitFunc: tc.swarmInitFunc,
swarmInspectFunc: tc.swarmInspectFunc,
swarmGetUnlockKeyFunc: tc.swarmGetUnlockKeyFunc,
nodeInspectFunc: tc.nodeInspectFunc,
})
cmd := newInitCommand(cli)
for key, value := range tc.flags {
cmd.Flags().Set(key, value)
}
assert.NilError(t, cmd.Execute())
golden.Assert(t, cli.OutBuffer().String(), fmt.Sprintf("init-%s.golden", tc.name))
}
}