package common import ( "strings" "testing" ) func testHWConfig() *HWConfig { return &HWConfig{ CpuCount: 1, CoreCount: 1, MemorySize: 512, Sound: true, USB: true, } } func TestHWConfigPrepare(t *testing.T) { c := new(HWConfig) if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if c.CpuCount < 0 { t.Errorf("bad cpu count: %d", c.CpuCount) } if c.CoreCount < 0 { t.Errorf("bad core count: %d", c.CoreCount) } if c.MemorySize < 0 { t.Errorf("bad memory size: %d", c.MemorySize) } if c.Sound { t.Errorf("peripheral choice (sound) should be conservative: %t", c.Sound) } if c.USB { t.Errorf("peripheral choice (usb) should be conservative: %t", c.USB) } if strings.ToUpper(c.Parallel) != "NONE" { t.Errorf("parallel port should not be defined: %s", c.Parallel) } if strings.ToUpper(c.Serial) != "NONE" { t.Errorf("serial port should not be defined: %s", c.Serial) } } func TestHWConfigParallel_File(t *testing.T) { c := new(HWConfig) c.Parallel = "file:filename" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasParallel() { t.Errorf("parallel port should be defined") } parallel, err := c.ReadParallel() if err != nil { t.Fatalf("Unable to read parallel port definition: %s", err) } switch parallel.Union.(type) { case *ParallelPortFile: break default: t.Errorf("parallel port should be a file type") } if parallel.File.Filename != "filename" { t.Errorf("parallel port filename should be \"filename\": %s", parallel.File.Filename) } } func TestHWConfigParallel_Device(t *testing.T) { c := new(HWConfig) c.Parallel = "device:devicename,uni" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasParallel() { t.Errorf("parallel port should be defined") } parallel, err := c.ReadParallel() if err != nil { t.Fatalf("Unable to read parallel port definition: %s", err) } switch parallel.Union.(type) { case *ParallelPortDevice: break default: t.Errorf("parallel port should be a device type") } if strings.ToLower(parallel.Device.Bidirectional) != "false" { t.Errorf("parallel port device should not be bidirectional: %s", parallel.Device.Bidirectional) } if parallel.Device.Devicename != "devicename" { t.Errorf("parallel port device should be \"devicename\": %s", parallel.Device.Devicename) } } func TestHWConfigParallel_Auto(t *testing.T) { c := new(HWConfig) c.Parallel = "auto:bi" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasParallel() { t.Errorf("parallel port should be defined") } parallel, err := c.ReadParallel() if err != nil { t.Fatalf("Unable to read parallel port definition: %s", err) } switch parallel.Union.(type) { case *ParallelPortAuto: break default: t.Errorf("parallel port should be an auto type") } if strings.ToLower(parallel.Auto.Bidirectional) != "true" { t.Errorf("parallel port device should be bidirectional: %s", parallel.Auto.Bidirectional) } } func TestHWConfigParallel_None(t *testing.T) { c := new(HWConfig) c.Parallel = "none" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasParallel() { t.Errorf("parallel port should be defined") } parallel, err := c.ReadParallel() if err != nil { t.Fatalf("Unable to read parallel port definition: %s", err) } if parallel.Union != nil { t.Errorf("parallel port shouldn't exist") } } func TestHWConfigSerial_File(t *testing.T) { c := new(HWConfig) c.Serial = "file:filename,true" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasSerial() { t.Errorf("serial port should be defined") } serial, err := c.ReadSerial() if err != nil { t.Fatalf("Unable to read serial port definition: %s", err) } switch serial.Union.(type) { case *SerialConfigFile: break default: t.Errorf("serial port should be a file type") } if serial.File.Filename != "filename" { t.Errorf("serial port filename should be \"filename\": %s", serial.File.Filename) } if strings.ToLower(serial.File.Yield) != "true" { t.Errorf("serial port yield should be true: %s", serial.File.Yield) } } func TestHWConfigSerial_Device(t *testing.T) { c := new(HWConfig) c.Serial = "device:devicename,true" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasSerial() { t.Errorf("serial port should be defined") } serial, err := c.ReadSerial() if err != nil { t.Fatalf("Unable to read serial port definition: %s", err) } switch serial.Union.(type) { case *SerialConfigDevice: break default: t.Errorf("serial port should be a device type") } if serial.Device.Devicename != "devicename" { t.Errorf("serial port device should be \"devicename\": %s", serial.Device.Devicename) } if strings.ToLower(serial.Device.Yield) != "true" { t.Errorf("serial port device should yield: %s", serial.Device.Yield) } } func TestHWConfigSerial_Pipe(t *testing.T) { c := new(HWConfig) c.Serial = "pipe:mypath,client,app,true" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasSerial() { t.Errorf("serial port should be defined") } serial, err := c.ReadSerial() if err != nil { t.Fatalf("Unable to read serial port definition: %s", err) } switch serial.Union.(type) { case *SerialConfigPipe: break default: t.Errorf("serial port should be a pipe type") } if serial.Pipe.Filename != "mypath" { t.Errorf("serial port pipe name should be \"mypath\": %s", serial.Pipe.Filename) } if strings.ToLower(serial.Pipe.Endpoint) != "client" { t.Errorf("serial port endpoint should be \"client\": %s", serial.Pipe.Endpoint) } if strings.ToLower(serial.Pipe.Host) != "true" { t.Errorf("serial port host type for app should be true: %s", serial.Pipe.Host) } if strings.ToLower(serial.Pipe.Yield) != "true" { t.Errorf("serial port should yield: %s", serial.Pipe.Yield) } } func TestHWConfigSerial_Auto(t *testing.T) { c := new(HWConfig) c.Serial = "auto:true" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasSerial() { t.Errorf("serial port should be defined") } serial, err := c.ReadSerial() if err != nil { t.Fatalf("Unable to read serial port definition: %s", err) } switch serial.Union.(type) { case *SerialConfigAuto: break default: t.Errorf("serial port should be an auto type") } if strings.ToLower(serial.Auto.Yield) != "true" { t.Errorf("serial port should yield: %s", serial.Auto.Yield) } } func TestHWConfigSerial_None(t *testing.T) { c := new(HWConfig) c.Serial = "none" if errs := c.Prepare(testConfigTemplate(t)); len(errs) > 0 { t.Fatalf("err: %#v", errs) } if !c.HasSerial() { t.Errorf("serial port should be defined") } serial, err := c.ReadSerial() if err != nil { t.Fatalf("Unable to read serial port definition: %s", err) } if serial.Union != nil { t.Errorf("serial port shouldn't exist") } }