ef7b89cc03
this changes globalFlags to be a ulext.External interface value that is passed to each command. rather than have the ulext.External have a Setup call in the way that the projectProvider used to we make all of the state arguments to the functions and have the commands call setup themselves. the reason it is in its own package is so that cmd/uplinkng can import cmd/uplinkng/ultest but cmd/uplinkng/ultest needs to refer to whatever the interface type is to call the function that creates the commands. there's also quite a bit of shuffling around of code and names. sorry if that makes it tricky to review. there should be no logic changes, though. a side benefit is there's no longer a need to do a type assertion in ultest to make it set the fake filesystem to use. that can be passed in directly now. additionally, this makes the access commands much easier to test. Change-Id: I29cf6a2144248a58b7a605a7ae0a5ada5cfd57b6
173 lines
4.4 KiB
Go
173 lines
4.4 KiB
Go
// Copyright (C) 2021 Storj Labs, Inc.
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// See LICENSE for copying information.
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package ultest
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import (
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"bytes"
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"context"
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"testing"
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"github.com/stretchr/testify/require"
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"github.com/zeebo/clingy"
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"storj.io/storj/cmd/uplinkng/ulext"
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"storj.io/storj/cmd/uplinkng/ulfs"
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"storj.io/storj/cmd/uplinkng/ulloc"
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)
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// Commands is an alias to refer to a function that builds clingy commands.
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type Commands = func(clingy.Commands, ulext.External)
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// Setup returns some State that can be run multiple times with different command
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// line arguments.
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func Setup(cmds Commands, opts ...ExecuteOption) State {
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return State{
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cmds: cmds,
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opts: opts,
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}
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}
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// State represents some state and environment for a command to execute in.
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type State struct {
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cmds Commands
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opts []ExecuteOption
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}
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// With appends the provided options and returns a new State.
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func (st State) With(opts ...ExecuteOption) State {
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st.opts = append([]ExecuteOption(nil), st.opts...)
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st.opts = append(st.opts, opts...)
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return st
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}
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// Succeed is the same as Run followed by result.RequireSuccess.
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func (st State) Succeed(t *testing.T, args ...string) Result {
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result := st.Run(t, args...)
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result.RequireSuccess(t)
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return result
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}
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// Fail is the same as Run followed by result.RequireFailure.
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func (st State) Fail(t *testing.T, args ...string) Result {
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result := st.Run(t, args...)
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result.RequireFailure(t)
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return result
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}
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// Run executes the command specified by the args and returns a Result.
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func (st State) Run(t *testing.T, args ...string) Result {
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var stdout bytes.Buffer
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var stderr bytes.Buffer
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var stdin bytes.Buffer
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var ran bool
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tfs := newTestFilesystem()
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ok, err := clingy.Environment{
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Name: "uplink-test",
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Args: args,
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Stdin: &stdin,
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Stdout: &stdout,
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Stderr: &stderr,
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Wrap: func(ctx clingy.Context, cmd clingy.Command) error {
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for _, opt := range st.opts {
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opt.fn(t, ctx, tfs)
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}
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if len(tfs.stdin) > 0 {
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_, _ = stdin.WriteString(tfs.stdin)
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}
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ran = true
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return cmd.Execute(ctx)
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},
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}.Run(context.Background(), func(cmds clingy.Commands) {
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st.cmds(cmds, newExternal(tfs, nil))
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})
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if ok && err == nil {
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require.True(t, ran, "no command was executed: %q", args)
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}
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return Result{
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Stdout: stdout.String(),
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Stderr: stderr.String(),
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Ok: ok,
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Err: err,
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Files: tfs.Files(),
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}
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}
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// ExecuteOption allows one to control the environment that a command executes in.
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type ExecuteOption struct {
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fn func(t *testing.T, ctx clingy.Context, tfs *testFilesystem)
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}
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// WithFilesystem lets one do arbitrary setup on the filesystem in a callback.
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func WithFilesystem(cb func(t *testing.T, ctx clingy.Context, fs ulfs.Filesystem)) ExecuteOption {
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return ExecuteOption{func(t *testing.T, ctx clingy.Context, tfs *testFilesystem) {
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cb(t, ctx, tfs)
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}}
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}
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// WithBucket ensures the bucket exists.
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func WithBucket(name string) ExecuteOption {
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return ExecuteOption{func(_ *testing.T, _ clingy.Context, tfs *testFilesystem) {
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tfs.ensureBucket(name)
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}}
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}
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// WithStdin sets the command to execute with the provided string as standard input.
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func WithStdin(stdin string) ExecuteOption {
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return ExecuteOption{func(_ *testing.T, _ clingy.Context, tfs *testFilesystem) {
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tfs.stdin = stdin
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}}
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}
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// WithFile sets the command to execute with a file created at the given location.
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func WithFile(location string, contents ...string) ExecuteOption {
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contents = append([]string(nil), contents...)
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return ExecuteOption{func(t *testing.T, ctx clingy.Context, tfs *testFilesystem) {
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loc, err := ulloc.Parse(location)
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require.NoError(t, err)
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if bucket, _, ok := loc.RemoteParts(); ok {
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tfs.ensureBucket(bucket)
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}
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wh, err := tfs.Create(ctx, loc)
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require.NoError(t, err)
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defer func() { _ = wh.Abort() }()
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for _, content := range contents {
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_, err := wh.Write([]byte(content))
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require.NoError(t, err)
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}
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if len(contents) == 0 {
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_, err := wh.Write([]byte(location))
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require.NoError(t, err)
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}
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require.NoError(t, wh.Commit())
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}}
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}
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// WithPendingFile sets the command to execute with a pending upload happening to
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// the provided location.
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func WithPendingFile(location string) ExecuteOption {
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return ExecuteOption{func(t *testing.T, ctx clingy.Context, tfs *testFilesystem) {
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loc, err := ulloc.Parse(location)
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require.NoError(t, err)
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if bucket, _, ok := loc.RemoteParts(); ok {
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tfs.ensureBucket(bucket)
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}
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_, err = tfs.Create(ctx, loc)
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require.NoError(t, err)
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}}
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}
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