sq/cli/testrun/testrun.go
Neil O'Toole 26f0c9a381
Refactor source.Files (#363)
* Moved `source.Files` to its own package, thus the type is now `files.Files`.
* Moved much of the location functionality from pkg `source` to its own package `location`.
2024-01-24 23:29:55 -07:00

298 lines
7.8 KiB
Go

// Package testrun contains helper functionality for executing CLI tests.
package testrun
import (
"bytes"
"context"
"encoding/csv"
"encoding/json"
"os"
"path/filepath"
"strings"
"sync"
"testing"
"github.com/stretchr/testify/require"
"github.com/neilotoole/sq/cli"
"github.com/neilotoole/sq/cli/config"
"github.com/neilotoole/sq/cli/config/yamlstore"
"github.com/neilotoole/sq/cli/run"
"github.com/neilotoole/sq/libsq/core/ioz"
"github.com/neilotoole/sq/libsq/core/lg"
"github.com/neilotoole/sq/libsq/core/lg/lgt"
"github.com/neilotoole/sq/libsq/core/options"
"github.com/neilotoole/sq/libsq/files"
"github.com/neilotoole/sq/libsq/source"
"github.com/neilotoole/sq/testh"
"github.com/neilotoole/sq/testh/tu"
)
// TestRun is a helper for testing sq commands.
type TestRun struct {
T testing.TB
Context context.Context
mu *sync.Mutex
Run *run.Run
// Out contains the output written to stdout after TestRun.Exec is invoked.
Out *bytes.Buffer
// ErrOut contains the output written to stderr after TestRun.Exec is invoked.
ErrOut *bytes.Buffer
used bool
// When true, out and errOut are not logged.
hushOutput bool
}
// New returns a new run instance for testing sq commands.
// If from is non-nil, its config is used. This allows sequential
// commands to use the same config.
//
// You can also use TestRun.Reset to reuse a TestRun instance.
func New(ctx context.Context, t testing.TB, from *TestRun) *TestRun {
if ctx == nil {
ctx = context.Background()
}
if !lg.InContext(ctx) {
// FIXME: Get rid of this abomination
ctx = lg.NewContext(ctx, lgt.New(t))
}
tr := &TestRun{T: t, Context: ctx, mu: &sync.Mutex{}}
var cfgStore config.Store
var cacheDir string
if from != nil {
cfgStore = from.Run.ConfigStore
cacheDir = from.Run.Files.CacheDir()
tr.hushOutput = from.hushOutput
}
tr.Run, tr.Out, tr.ErrOut = newRun(ctx, t, cfgStore, cacheDir)
o := options.Merge(options.FromContext(ctx), tr.Run.Config.Options)
tr.Context = options.NewContext(ctx, o)
return tr
}
// newRun returns a Run for testing, along
// with buffers for out and errOut (instead of the
// ru writing to stdout and stderr). The contents of
// these buffers can be written to t.Log() if desired.
//
// If cfgStore is nil, a new one is created in a temp dir.
func newRun(ctx context.Context, t testing.TB,
cfgStore config.Store, cacheDir string,
) (ru *run.Run, out, errOut *bytes.Buffer) {
out = &bytes.Buffer{}
errOut = &bytes.Buffer{}
optsReg := &options.Registry{}
cli.RegisterDefaultOpts(optsReg)
var cfg *config.Config
var err error
if cfgStore == nil {
var cfgDir string
cfgDir, err = os.MkdirTemp("", "sq_test")
require.NoError(t, err)
cfgStore = &yamlstore.Store{
Path: filepath.Join(cfgDir, "sq.yml"),
OptionsRegistry: optsReg,
}
cfg = config.New()
require.NoError(t, cfgStore.Save(ctx, cfg))
} else {
cfg, err = cfgStore.Load(ctx)
require.NoError(t, err)
}
ru = &run.Run{
Stdin: os.Stdin,
Out: out,
ErrOut: errOut,
Config: cfg,
ConfigStore: cfgStore,
OptionsRegistry: optsReg,
}
// The Files instance needs unique dirs for temp and cache because
// the test runs may execute in parallel inside the same test binary
// process, thus breaking the pid-based lockfile mechanism.
// If cacheDir was supplied, use that one, because it's probably the
// cache dir from a previous run, that we want to reuse. If not supplied,
// create a unique cache dir for this run.
// The Files instance generally needs unique dirs for temp and cache because
// the test runs may execute in parallel inside the same test binary
// process, thus breaking the pid-based lockfile mechanism.
if cacheDir == "" {
cacheDir = tu.CacheDir(t, false)
}
ru.Files, err = files.New(
ctx,
ru.OptionsRegistry,
testh.TempLockFunc(t),
tu.TempDir(t, false),
cacheDir,
)
require.NoError(t, err)
require.NoError(t, cli.FinishRunInit(ctx, ru))
return ru, out, errOut
}
// Reset resets tr to a clean slate. Note that a new TestRun instance
// is created behind the scenes, so any references to the previous
// TestRun's fields are now invalid.
//
// See also: testrun.New.
func (tr *TestRun) Reset() *TestRun {
tr2 := New(tr.Context, tr.T, tr)
*tr = *tr2
return tr
}
// Add adds srcs to tr.Run.Config.Collection. If the collection
// does not already have an active source, the first element
// of srcs is used as the active source.
//
// REVISIT: Why not use *source.Source instead of the value?
func (tr *TestRun) Add(srcs ...source.Source) *TestRun {
tr.mu.Lock()
defer tr.mu.Unlock()
if len(srcs) == 0 {
return tr
}
coll := tr.Run.Config.Collection
hasActive := tr.Run.Config.Collection.Active() != nil
for _, src := range srcs {
src := src
require.NoError(tr.T, coll.Add(&src))
}
if !hasActive {
_, err := coll.SetActive(srcs[0].Handle, false)
require.NoError(tr.T, err)
}
err := tr.Run.ConfigStore.Save(tr.Context, tr.Run.Config)
require.NoError(tr.T, err)
return tr
}
// Exec executes the sq command specified by args. If the first
// element of args is not "sq", that value is prepended to the
// args for execution. This method may only be invoked once on
// this TestRun instance, unless TestRun.Reset is called.
// The backing Run will also be closed. If an error
// occurs on the client side during execution, that error is returned.
// Either tr.Out or tr.ErrOut will be filled, according to what the
// CLI outputs.
func (tr *TestRun) Exec(args ...string) error {
tr.mu.Lock()
defer tr.mu.Unlock()
return tr.doExec(args)
}
func (tr *TestRun) doExec(args []string) error {
defer func() { tr.used = true }()
require.False(tr.T, tr.used, "TestRun instance must only be used once")
ctx, cancelFn := context.WithCancel(tr.Context)
tr.T.Cleanup(cancelFn)
execErr := cli.ExecuteWith(ctx, tr.Run, args)
if !tr.hushOutput {
// We log the CLI's output now (before calling ru.Close) because
// it reads better in testing's output that way.
if tr.Out.Len() > 0 {
tr.T.Log(strings.TrimSuffix(tr.Out.String(), "\n"))
}
if tr.ErrOut.Len() > 0 {
tr.T.Log(strings.TrimSuffix(tr.ErrOut.String(), "\n"))
}
}
closeErr := tr.Run.Close()
if execErr != nil {
// We return the ExecuteWith err first
return execErr
}
// Return the closeErr (hopefully is nil)
return closeErr
}
// Bind marshals tr.Out to v (as JSON), failing the test on any error.
func (tr *TestRun) Bind(v any) *TestRun {
tr.mu.Lock()
defer tr.mu.Unlock()
err := json.Unmarshal(tr.Out.Bytes(), v)
require.NoError(tr.T, err)
return tr
}
// BindYAML marshals tr.Out to v (as YAML), failing the test on any error.
func (tr *TestRun) BindYAML(v any) *TestRun {
tr.mu.Lock()
defer tr.mu.Unlock()
err := ioz.UnmarshallYAML(tr.Out.Bytes(), v)
require.NoError(tr.T, err)
return tr
}
// BindMap is a convenience method for binding tr.Out to a map
// (assuming tr.Out is JSON).
func (tr *TestRun) BindMap() map[string]any {
m := map[string]any{}
tr.Bind(&m)
return m
}
// BindSliceMap is a convenience method for binding tr.Out
// to a slice of map (assuming tr.Out is JSON).
func (tr *TestRun) BindSliceMap() []map[string]any {
var a []map[string]any
tr.Bind(&a)
return a
}
// BindCSV reads CSV from tr.Out and returns all records,
// failing the testing on any problem. Obviously the Exec call
// should have specified "--csv".
func (tr *TestRun) BindCSV() [][]string {
tr.mu.Lock()
defer tr.mu.Unlock()
recs, err := csv.NewReader(tr.Out).ReadAll()
require.NoError(tr.T, err)
return recs
}
// OutString returns the contents of tr.Out as a string,
// with the final trailing newline removed.
func (tr *TestRun) OutString() string {
return strings.TrimSuffix(tr.Out.String(), "\n")
}
// Hush suppresses the printing of output collected in out
// and errOut to t.Log. Set to true for tests
// that output excessive content, binary files, etc.
func (tr *TestRun) Hush() *TestRun {
tr.hushOutput = true
return tr
}