package librato import ( "bytes" "fmt" "log" "math" "reflect" "strconv" "time" "github.com/hashicorp/terraform/helper/hashcode" "github.com/hashicorp/terraform/helper/resource" "github.com/hashicorp/terraform/helper/schema" "github.com/henrikhodne/go-librato/librato" ) func resourceLibratoSpaceChart() *schema.Resource { return &schema.Resource{ Create: resourceLibratoSpaceChartCreate, Read: resourceLibratoSpaceChartRead, Update: resourceLibratoSpaceChartUpdate, Delete: resourceLibratoSpaceChartDelete, Schema: map[string]*schema.Schema{ "space_id": { Type: schema.TypeInt, Required: true, ForceNew: true, }, "name": { Type: schema.TypeString, Required: true, }, "type": { Type: schema.TypeString, Required: true, ForceNew: true, }, "min": { Type: schema.TypeFloat, Default: math.NaN(), Optional: true, }, "max": { Type: schema.TypeFloat, Default: math.NaN(), Optional: true, }, "label": { Type: schema.TypeString, Optional: true, }, "related_space": { Type: schema.TypeInt, Optional: true, }, "stream": { Type: schema.TypeSet, Optional: true, Elem: &schema.Resource{ Schema: map[string]*schema.Schema{ "metric": { Type: schema.TypeString, Optional: true, ConflictsWith: []string{"stream.composite"}, }, "source": { Type: schema.TypeString, Optional: true, ConflictsWith: []string{"stream.composite"}, }, "group_function": { Type: schema.TypeString, Optional: true, ConflictsWith: []string{"stream.composite"}, }, "composite": { Type: schema.TypeString, Optional: true, ConflictsWith: []string{"stream.metric", "stream.source", "stream.group_function"}, }, "summary_function": { Type: schema.TypeString, Optional: true, }, "name": { Type: schema.TypeString, Optional: true, }, "color": { Type: schema.TypeString, Optional: true, }, "units_short": { Type: schema.TypeString, Optional: true, }, "units_long": { Type: schema.TypeString, Optional: true, }, "min": { Type: schema.TypeFloat, Default: math.NaN(), Optional: true, }, "max": { Type: schema.TypeFloat, Default: math.NaN(), Optional: true, }, "transform_function": { Type: schema.TypeString, Optional: true, }, "period": { Type: schema.TypeInt, Optional: true, }, }, }, Set: resourceLibratoSpaceChartHash, }, }, } } func resourceLibratoSpaceChartHash(v interface{}) int { var buf bytes.Buffer m := v.(map[string]interface{}) buf.WriteString(fmt.Sprintf("%s-", m["metric"].(string))) buf.WriteString(fmt.Sprintf("%s-", m["source"].(string))) buf.WriteString(fmt.Sprintf("%s-", m["composite"].(string))) return hashcode.String(buf.String()) } func resourceLibratoSpaceChartCreate(d *schema.ResourceData, meta interface{}) error { client := meta.(*librato.Client) spaceID := uint(d.Get("space_id").(int)) spaceChart := new(librato.SpaceChart) if v, ok := d.GetOk("name"); ok { spaceChart.Name = librato.String(v.(string)) } if v, ok := d.GetOk("type"); ok { spaceChart.Type = librato.String(v.(string)) } if v, ok := d.GetOk("min"); ok { if math.IsNaN(v.(float64)) { spaceChart.Min = nil } else { spaceChart.Min = librato.Float(v.(float64)) } } if v, ok := d.GetOk("max"); ok { if math.IsNaN(v.(float64)) { spaceChart.Max = nil } else { spaceChart.Max = librato.Float(v.(float64)) } } if v, ok := d.GetOk("label"); ok { spaceChart.Label = librato.String(v.(string)) } if v, ok := d.GetOk("related_space"); ok { spaceChart.RelatedSpace = librato.Uint(uint(v.(int))) } if v, ok := d.GetOk("stream"); ok { vs := v.(*schema.Set) streams := make([]librato.SpaceChartStream, vs.Len()) for i, streamDataM := range vs.List() { streamData := streamDataM.(map[string]interface{}) var stream librato.SpaceChartStream if v, ok := streamData["metric"].(string); ok && v != "" { stream.Metric = librato.String(v) } if v, ok := streamData["source"].(string); ok && v != "" { stream.Source = librato.String(v) } if v, ok := streamData["composite"].(string); ok && v != "" { stream.Composite = librato.String(v) } if v, ok := streamData["group_function"].(string); ok && v != "" { stream.GroupFunction = librato.String(v) } if v, ok := streamData["summary_function"].(string); ok && v != "" { stream.SummaryFunction = librato.String(v) } if v, ok := streamData["transform_function"].(string); ok && v != "" { stream.TransformFunction = librato.String(v) } if v, ok := streamData["color"].(string); ok && v != "" { stream.Color = librato.String(v) } if v, ok := streamData["units_short"].(string); ok && v != "" { stream.UnitsShort = librato.String(v) } if v, ok := streamData["units_longs"].(string); ok && v != "" { stream.UnitsLong = librato.String(v) } if v, ok := streamData["min"].(float64); ok && !math.IsNaN(v) { stream.Min = librato.Float(v) } if v, ok := streamData["max"].(float64); ok && !math.IsNaN(v) { stream.Max = librato.Float(v) } streams[i] = stream } spaceChart.Streams = streams } spaceChartResult, _, err := client.Spaces.CreateChart(spaceID, spaceChart) if err != nil { return fmt.Errorf("Error creating Librato space chart %s: %s", *spaceChart.Name, err) } resource.Retry(1*time.Minute, func() *resource.RetryError { _, _, err := client.Spaces.GetChart(spaceID, *spaceChartResult.ID) if err != nil { if errResp, ok := err.(*librato.ErrorResponse); ok && errResp.Response.StatusCode == 404 { return resource.RetryableError(err) } return resource.NonRetryableError(err) } return nil }) return resourceLibratoSpaceChartReadResult(d, spaceChartResult) } func resourceLibratoSpaceChartRead(d *schema.ResourceData, meta interface{}) error { client := meta.(*librato.Client) spaceID := uint(d.Get("space_id").(int)) id, err := strconv.ParseUint(d.Id(), 10, 0) if err != nil { return err } chart, _, err := client.Spaces.GetChart(spaceID, uint(id)) if err != nil { if errResp, ok := err.(*librato.ErrorResponse); ok && errResp.Response.StatusCode == 404 { d.SetId("") return nil } return fmt.Errorf("Error reading Librato Space chart %s: %s", d.Id(), err) } return resourceLibratoSpaceChartReadResult(d, chart) } func resourceLibratoSpaceChartReadResult(d *schema.ResourceData, chart *librato.SpaceChart) error { d.SetId(strconv.FormatUint(uint64(*chart.ID), 10)) if chart.Name != nil { if err := d.Set("name", *chart.Name); err != nil { return err } } if chart.Type != nil { if err := d.Set("type", *chart.Type); err != nil { return err } } if chart.Min != nil { if err := d.Set("min", *chart.Min); err != nil { return err } } if chart.Max != nil { if err := d.Set("max", *chart.Max); err != nil { return err } } if chart.Label != nil { if err := d.Set("label", *chart.Label); err != nil { return err } } if chart.RelatedSpace != nil { if err := d.Set("related_space", *chart.RelatedSpace); err != nil { return err } } streams := resourceLibratoSpaceChartStreamsGather(d, chart.Streams) if err := d.Set("stream", streams); err != nil { return err } return nil } func resourceLibratoSpaceChartStreamsGather(d *schema.ResourceData, streams []librato.SpaceChartStream) []map[string]interface{} { retStreams := make([]map[string]interface{}, 0, len(streams)) for _, s := range streams { stream := make(map[string]interface{}) if s.Metric != nil { stream["metric"] = *s.Metric } if s.Source != nil { stream["source"] = *s.Source } if s.Composite != nil { stream["composite"] = *s.Composite } if s.GroupFunction != nil { stream["group_function"] = *s.GroupFunction } if s.SummaryFunction != nil { stream["summary_function"] = *s.SummaryFunction } if s.TransformFunction != nil { stream["transform_function"] = *s.TransformFunction } if s.Color != nil { stream["color"] = *s.Color } if s.UnitsShort != nil { stream["units_short"] = *s.UnitsShort } if s.UnitsLong != nil { stream["units_long"] = *s.UnitsLong } retStreams = append(retStreams, stream) } return retStreams } func resourceLibratoSpaceChartUpdate(d *schema.ResourceData, meta interface{}) error { client := meta.(*librato.Client) spaceID := uint(d.Get("space_id").(int)) chartID, err := strconv.ParseUint(d.Id(), 10, 0) if err != nil { return err } // Just to have whole object for comparison before/after update fullChart, _, err := client.Spaces.GetChart(spaceID, uint(chartID)) if err != nil { return err } spaceChart := new(librato.SpaceChart) if d.HasChange("name") { spaceChart.Name = librato.String(d.Get("name").(string)) fullChart.Name = spaceChart.Name } if d.HasChange("min") { if math.IsNaN(d.Get("min").(float64)) { spaceChart.Min = nil } else { spaceChart.Min = librato.Float(d.Get("min").(float64)) } fullChart.Min = spaceChart.Min } if d.HasChange("max") { if math.IsNaN(d.Get("max").(float64)) { spaceChart.Max = nil } else { spaceChart.Max = librato.Float(d.Get("max").(float64)) } fullChart.Max = spaceChart.Max } if d.HasChange("label") { spaceChart.Label = librato.String(d.Get("label").(string)) fullChart.Label = spaceChart.Label } if d.HasChange("related_space") { spaceChart.RelatedSpace = librato.Uint(d.Get("related_space").(uint)) fullChart.RelatedSpace = spaceChart.RelatedSpace } if d.HasChange("stream") { vs := d.Get("stream").(*schema.Set) streams := make([]librato.SpaceChartStream, vs.Len()) for i, streamDataM := range vs.List() { streamData := streamDataM.(map[string]interface{}) var stream librato.SpaceChartStream if v, ok := streamData["metric"].(string); ok && v != "" { stream.Metric = librato.String(v) } if v, ok := streamData["source"].(string); ok && v != "" { stream.Source = librato.String(v) } if v, ok := streamData["composite"].(string); ok && v != "" { stream.Composite = librato.String(v) } if v, ok := streamData["group_function"].(string); ok && v != "" { stream.GroupFunction = librato.String(v) } if v, ok := streamData["summary_function"].(string); ok && v != "" { stream.SummaryFunction = librato.String(v) } if v, ok := streamData["transform_function"].(string); ok && v != "" { stream.TransformFunction = librato.String(v) } if v, ok := streamData["color"].(string); ok && v != "" { stream.Color = librato.String(v) } if v, ok := streamData["units_short"].(string); ok && v != "" { stream.UnitsShort = librato.String(v) } if v, ok := streamData["units_longs"].(string); ok && v != "" { stream.UnitsLong = librato.String(v) } if v, ok := streamData["min"].(float64); ok && !math.IsNaN(v) { stream.Min = librato.Float(v) } if v, ok := streamData["max"].(float64); ok && !math.IsNaN(v) { stream.Max = librato.Float(v) } streams[i] = stream } spaceChart.Streams = streams fullChart.Streams = streams } _, err = client.Spaces.UpdateChart(spaceID, uint(chartID), spaceChart) if err != nil { return fmt.Errorf("Error updating Librato space chart %s: %s", *spaceChart.Name, err) } // Wait for propagation since Librato updates are eventually consistent wait := resource.StateChangeConf{ Pending: []string{fmt.Sprintf("%t", false)}, Target: []string{fmt.Sprintf("%t", true)}, Timeout: 5 * time.Minute, MinTimeout: 2 * time.Second, ContinuousTargetOccurence: 5, Refresh: func() (interface{}, string, error) { log.Printf("[DEBUG] Checking if Librato Space Chart %d was updated yet", chartID) changedChart, _, getErr := client.Spaces.GetChart(spaceID, uint(chartID)) if getErr != nil { return changedChart, "", getErr } isEqual := reflect.DeepEqual(*fullChart, *changedChart) log.Printf("[DEBUG] Updated Librato Space Chart %d match: %t", chartID, isEqual) return changedChart, fmt.Sprintf("%t", isEqual), nil }, } _, err = wait.WaitForState() if err != nil { return fmt.Errorf("Failed updating Librato Space Chart %d: %s", chartID, err) } return resourceLibratoSpaceChartRead(d, meta) } func resourceLibratoSpaceChartDelete(d *schema.ResourceData, meta interface{}) error { client := meta.(*librato.Client) spaceID := uint(d.Get("space_id").(int)) id, err := strconv.ParseUint(d.Id(), 10, 0) if err != nil { return err } log.Printf("[INFO] Deleting Chart: %d/%d", spaceID, uint(id)) _, err = client.Spaces.DeleteChart(spaceID, uint(id)) if err != nil { return fmt.Errorf("Error deleting space: %s", err) } resource.Retry(1*time.Minute, func() *resource.RetryError { _, _, err := client.Spaces.GetChart(spaceID, uint(id)) if err != nil { if errResp, ok := err.(*librato.ErrorResponse); ok && errResp.Response.StatusCode == 404 { return nil } return resource.NonRetryableError(err) } return resource.RetryableError(fmt.Errorf("space chart still exists")) }) d.SetId("") return nil }