func (b *Builder) Test(p *pkg.LocalPackage) error {
// Build the packages alphabetically to ensure a consistent order.
bpkgs := b.sortedBuildPackages()
for _, bpkg := range bpkgs {
if err := b.buildPackage(bpkg); err != nil {
return err
}
}
testBpkg := b.PkgMap[p]
testFilename := b.TestExePath(testBpkg)
if err := b.link(testFilename, nil, nil); err != nil {
return err
}
// Run the tests.
if err := os.Chdir(filepath.Dir(testFilename)); err != nil {
return err
}
util.StatusMessage(util.VERBOSITY_DEFAULT, "Executing test: %s\n",
testFilename)
if _, err := util.ShellCommand(testFilename); err != nil {
newtError := err.(*util.NewtError)
newtError.Text = fmt.Sprintf("Test failure (%s):\n%s", p.Name(),
newtError.Text)
return newtError
}
return nil
}
func (target *Target) Load(basePkg *pkg.LocalPackage) error {
v, err := util.ReadConfig(basePkg.BasePath(),
strings.TrimSuffix(TARGET_FILENAME, ".yml"))
if err != nil {
return err
}
target.Vars = map[string]string{}
settings := v.AllSettings()
for k, v := range settings {
target.Vars[k] = v.(string)
}
target.BspName = target.Vars["target.bsp"]
target.AppName = target.Vars["target.app"]
target.LoaderName = target.Vars["target.loader"]
target.BuildProfile = target.Vars["target.build_profile"]
if target.BuildProfile == "" {
target.BuildProfile = DEFAULT_BUILD_PROFILE
}
// Note: App not required in the case of unit tests.
// Remember the name of the configuration file so that it can be specified
// as a dependency to the compiler.
target.basePkg.AddCfgFilename(basePkg.BasePath() + TARGET_FILENAME)
return nil
}
func (cfg *Cfg) readDefsOnce(lpkg *pkg.LocalPackage,
features map[string]bool) error {
v := lpkg.SyscfgV
lfeatures := cfg.FeaturesForLpkg(lpkg)
for k, _ := range features {
lfeatures[k] = true
}
settings := newtutil.GetStringMapFeatures(v, lfeatures, "syscfg.defs")
if settings != nil {
for k, v := range settings {
vals := v.(map[interface{}]interface{})
entry, err := readSetting(k, lpkg, vals)
if err != nil {
return util.FmtNewtError("Config for package %s: %s",
lpkg.Name(), err.Error())
}
if _, exists := cfg.Settings[k]; exists {
// XXX: Better error message.
return util.FmtNewtError("setting %s redefined", k)
}
cfg.Settings[k] = entry
}
}
return nil
}
func (cfg *Cfg) FeaturesForLpkg(lpkg *pkg.LocalPackage) map[string]bool {
features := cfg.Features()
for k, v := range lpkg.InjectedSettings() {
_, ok := features[k]
if ok {
log.Warnf("Attempt to override syscfg setting %s with "+
"injected feature from package %s", k, lpkg.Name())
} else {
if ValueIsTrue(v) {
features[k] = true
}
}
}
return features
}
func pkgToUnitTests(pack *pkg.LocalPackage) []*pkg.LocalPackage {
// If the user specified a unittest package, just test that one.
if pack.Type() == pkg.PACKAGE_TYPE_UNITTEST {
return []*pkg.LocalPackage{pack}
}
// Otherwise, return all the package's direct descendants that are unit
// test packages.
result := []*pkg.LocalPackage{}
srcPath := pack.BasePath()
for p, _ := range testablePkgs() {
if p.Type() == pkg.PACKAGE_TYPE_UNITTEST &&
filepath.Dir(p.BasePath()) == srcPath {
result = append(result, p)
}
}
return result
}
func (cfg *Cfg) readValsOnce(lpkg *pkg.LocalPackage,
features map[string]bool) error {
v := lpkg.SyscfgV
lfeatures := cfg.FeaturesForLpkg(lpkg)
for k, _ := range features {
lfeatures[k] = true
}
values := newtutil.GetStringMapFeatures(v, lfeatures, "syscfg.vals")
for k, v := range values {
if normalizePkgType(lpkg.Type()) == pkg.PACKAGE_TYPE_LIB {
// A library package is overriding a setting; this is disallowed.
// Overrides must come from a higher priority package.
lateral := CfgLateral{
PkgName: lpkg.Name(),
SettingName: k,
}
cfg.Laterals = append(cfg.Laterals, lateral)
} else {
entry, ok := cfg.Settings[k]
if ok {
entry.appendValue(lpkg, v)
cfg.Settings[k] = entry
} else {
orphan := CfgPoint{
Value: stringValue(v),
Source: lpkg,
}
cfg.Orphans[k] = append(cfg.Orphans[k], orphan)
}
}
}
return nil
}
func Load(basePkg *pkg.LocalPackage) (*MfgImage, error) {
v, err := util.ReadConfig(basePkg.BasePath(),
strings.TrimSuffix(MFG_YAML_FILENAME, ".yml"))
if err != nil {
return nil, err
}
mi := &MfgImage{
basePkg: basePkg,
}
bootName := v.GetString("mfg.bootloader")
if bootName == "" {
return nil, mi.loadError("mfg.bootloader field required")
}
mi.boot, err = mi.loadTarget(bootName)
if err != nil {
return nil, err
}
imgNames := v.GetStringSlice("mfg.images")
if imgNames != nil {
for _, imgName := range imgNames {
imgTarget, err := mi.loadTarget(imgName)
if err != nil {
return nil, err
}
mi.images = append(mi.images, imgTarget)
}
}
if len(mi.images) > 2 {
return nil, mi.loadError("too many images (%d); maximum is 2",
len(mi.images))
}
itf := v.Get("mfg.raw")
slice := cast.ToSlice(itf)
if slice != nil {
for i, entryItf := range slice {
yamlEntry := cast.ToStringMapString(entryItf)
entry, err := mi.loadRawEntry(i, yamlEntry)
if err != nil {
return nil, err
}
mi.rawEntries = append(mi.rawEntries, entry)
}
}
proj := project.GetProject()
bspLpkg, err := proj.ResolvePackage(mi.basePkg.Repo(),
mi.boot.BspName)
if err != nil {
return nil, mi.loadError(
"could not resolve boot loader BSP package: %s",
mi.boot.BspName)
}
mi.bsp, err = pkg.NewBspPackage(bspLpkg)
if err != nil {
return nil, mi.loadError(err.Error())
}
for _, imgTarget := range mi.images {
if len(mi.images) > 1 && imgTarget.LoaderName != "" {
return nil, mi.loadError("only one image allowed in "+
"split image mode (%s is a split build)", imgTarget.Name())
}
if imgTarget.Bsp() != mi.bsp.LocalPackage {
return nil, mi.loadError(
"image target \"%s\" specified conflicting BSP; "+
"boot loader uses %s, image uses %s",
imgTarget.Name(), mi.bsp.Name(), imgTarget.BspName)
}
}
if err := mi.detectInvalidDevices(); err != nil {
return nil, err
}
return mi, nil
}
