Don't fail target creation when AbsInfo errors.

internal/mappingrules/rule_target_axis.go

@@ -19,8 +19,8 @@ type RuleTargetAxis struct {
 }
 
 const (
-	MinAxisValue = int32(-32768)
-	MaxAxisValue = int32(32767)
+	AxisValueMin = int32(-32768)
+	AxisValueMax = int32(32767)
 )
 
 func NewRuleTargetAxis(device_name string,
@@ -31,8 +31,16 @@ func NewRuleTargetAxis(device_name string,
 	deadzoneEnd int32) (*RuleTargetAxis, error) {
 
 	info, err := device.AbsInfos()
+
 	if err != nil {
-		return nil, err
+		// If we can't get AbsInfo (for example, we're a virtual device)
+		// we set the bounds to the maximum allowable
+		info = map[evdev.EvCode]evdev.AbsInfo{
+			axis: {
+				Minimum: AxisValueMin,
+				Maximum: AxisValueMax,
+			},
+		}
 	}
 
 	if _, ok := info[axis]; !ok {
@@ -77,12 +85,12 @@ func (target *RuleTargetAxis) NormalizeValue(value int32) int32 {
 	if target.Inverted {
 		axisStrength = 1.0 - axisStrength
 	}
-	normalizedValue := LerpInt(MinAxisValue, MaxAxisValue, axisStrength)
+	normalizedValue := LerpInt(AxisValueMin, AxisValueMax, axisStrength)
 	return normalizedValue
 }
 
 func (target *RuleTargetAxis) CreateEvent(value int32, mode *string) *evdev.InputEvent {
-	value = ClampInt(value, MinAxisValue, MaxAxisValue)
+	value = ClampInt(value, AxisValueMin, AxisValueMax)
 	return &evdev.InputEvent{
 		Type:  evdev.EV_ABS,
 		Code:  target.Axis,

internal/mappingrules/rule_target_axis_test.go

@@ -1,6 +1,7 @@
 package mappingrules
 
 import (
+	"errors"
 	"testing"
 
 	"github.com/holoplot/go-evdev"
@@ -23,7 +24,7 @@ func (m *InputDeviceMock) AbsInfos() (map[evdev.EvCode]evdev.AbsInfo, error) {
 	return args.Get(0).(map[evdev.EvCode]evdev.AbsInfo), args.Error(1)
 }
 
-func (t *RuleTargetAxisTests) SetupSuite() {
+func (t *RuleTargetAxisTests) SetupTest() {
 	t.mock = new(InputDeviceMock)
 	t.call = t.mock.On("AbsInfos").Return(map[evdev.EvCode]evdev.AbsInfo{
 		evdev.ABS_X: {
@@ -37,7 +38,7 @@ func (t *RuleTargetAxisTests) SetupSuite() {
 	}, nil)
 }
 
-func (t *RuleTargetAxisTests) TearDownSuite() {
+func (t *RuleTargetAxisTests) TearDownTest() {
 	t.call.Unset()
 }
 
@@ -65,25 +66,32 @@ func (t *RuleTargetAxisTests) TestNewRuleTargetAxis() {
 	// Creating a rule on a non-existent axis should err
 	_, err = NewRuleTargetAxis("", t.mock, evdev.ABS_Z, false, 0, 0)
 	t.NotNil(err)
+
+	// If Absinfo has an error, we should create a device with permissive bounds
+	t.call.Unset()
+	t.mock.On("AbsInfos").Return(nil, errors.New("Test Error"))
+	ruleTarget, err = NewRuleTargetAxis("", t.mock, evdev.ABS_Y, false, -500, 500)
+	t.Nil(err)
+	t.Equal(AxisValueMax-AxisValueMin, ruleTarget.axisSize)
 }
 
 func (t *RuleTargetAxisTests) TestNormalizeValue() {
 	// Basic normalization should work
 	ruleTarget, _ := NewRuleTargetAxis("", t.mock, evdev.ABS_X, false, 0, 0)
-	t.Equal(MaxAxisValue, ruleTarget.NormalizeValue(int32(10000)))
-	t.Equal(MinAxisValue, ruleTarget.NormalizeValue(int32(0)))
+	t.Equal(AxisValueMax, ruleTarget.NormalizeValue(int32(10000)))
+	t.Equal(AxisValueMin, ruleTarget.NormalizeValue(int32(0)))
 	t.EqualValues(0, ruleTarget.NormalizeValue(int32(5000)))
 
 	// Normalization with a deadzone should work
 	ruleTarget, _ = NewRuleTargetAxis("", t.mock, evdev.ABS_X, false, 0, 5000)
-	t.Equal(MaxAxisValue, ruleTarget.NormalizeValue(int32(10000)))
+	t.Equal(AxisValueMax, ruleTarget.NormalizeValue(int32(10000)))
 	t.True(ruleTarget.NormalizeValue(int32(5001)) < int32(-31000))
 	t.EqualValues(0, ruleTarget.NormalizeValue(int32(7500)))
 
 	// Normalization on an inverted axis should work
 	ruleTarget, _ = NewRuleTargetAxis("", t.mock, evdev.ABS_X, true, 0, 0)
-	t.Equal(MaxAxisValue, ruleTarget.NormalizeValue(int32(0)))
-	t.Equal(MinAxisValue, ruleTarget.NormalizeValue(int32(10000)))
+	t.Equal(AxisValueMax, ruleTarget.NormalizeValue(int32(0)))
+	t.Equal(AxisValueMin, ruleTarget.NormalizeValue(int32(10000)))
 }
 
 func (t *RuleTargetAxisTests) TestMatchEvent() {
@@ -123,11 +131,11 @@ func (t *RuleTargetAxisTests) TestCreateEvent() {
 
 	// Validate axis clamping
 	testValue = int32(64000)
-	expected.Value = MaxAxisValue
+	expected.Value = AxisValueMax
 	t.EqualValues(expected, ruleTarget.CreateEvent(testValue, nil))
 
 	testValue = int32(-64000)
-	expected.Value = MinAxisValue
+	expected.Value = AxisValueMin
 	t.EqualValues(expected, ruleTarget.CreateEvent(testValue, nil))
 }