package clickhouse import ( "fmt" "github.com/ClickHouse/clickhouse-diagnostics/internal/collectors" "github.com/ClickHouse/clickhouse-diagnostics/internal/platform" "github.com/ClickHouse/clickhouse-diagnostics/internal/platform/config" "github.com/ClickHouse/clickhouse-diagnostics/internal/platform/data" "github.com/bmatcuk/doublestar/v4" "github.com/pkg/errors" "github.com/rs/zerolog/log" "strings" ) // This collector collects the system zookeeper db type ZookeeperCollector struct { resourceManager *platform.ResourceManager } func NewZookeeperCollector(m *platform.ResourceManager) *ZookeeperCollector { return &ZookeeperCollector{ resourceManager: m, } } func (zkc *ZookeeperCollector) Collect(conf config.Configuration) (*data.DiagnosticBundle, error) { conf, err := conf.ValidateConfig(zkc.Configuration()) if err != nil { return &data.DiagnosticBundle{}, err } pathPattern, err := config.ReadStringValue(conf, "path_pattern") if err != nil { return &data.DiagnosticBundle{}, err } defaultPattern, _ := zkc.Configuration().GetConfigParam("path_pattern") if defaultPattern.(config.StringParam).Value != pathPattern { log.Warn().Msgf("Using non default zookeeper glob pattern [%s] - this can potentially cause high query load", pathPattern) } maxDepth, err := config.ReadIntValue(conf, "max_depth") if err != nil { return &data.DiagnosticBundle{}, err } rowLimit, err := config.ReadIntValue(conf, "row_limit") if err != nil { return &data.DiagnosticBundle{}, err } // we use doublestar for globs as it provides us with ** but also allows us to identify prefix or base paths if !doublestar.ValidatePattern(pathPattern) { return &data.DiagnosticBundle{}, errors.Wrapf(err, "%s is not a valid pattern", pathPattern) } base, _ := doublestar.SplitPattern(pathPattern) frames := make(map[string]data.Frame) hFrame, frameErrors := zkc.collectSubFrames(base, pathPattern, rowLimit, 0, maxDepth) fErrors := data.FrameErrors{ Errors: frameErrors, } frames["zookeeper_db"] = hFrame return &data.DiagnosticBundle{ Frames: frames, Errors: fErrors, }, nil } // recursively iterates over the zookeeper sub tables to a max depth, applying the filter and max rows per table func (zkc *ZookeeperCollector) collectSubFrames(path, pathPattern string, rowLimit, currentDepth, maxDepth int64) (data.HierarchicalFrame, []error) { var frameErrors []error var subFrames []data.HierarchicalFrame currentDepth += 1 if currentDepth == maxDepth { return data.HierarchicalFrame{}, frameErrors } match, err := doublestar.PathMatch(pathPattern, path) if err != nil { frameErrors = append(frameErrors, errors.Wrapf(err, "Path match failed for pattern %s with path %s", pathPattern, path)) return data.HierarchicalFrame{}, frameErrors } // we allow a single level to be examined or we never get going if !match && currentDepth > 1 { return data.HierarchicalFrame{}, frameErrors } frame, err := zkc.resourceManager.DbClient.ExecuteStatement(path, fmt.Sprintf("SELECT name FROM system.zookeeper WHERE path='%s' LIMIT %d", path, rowLimit)) if err != nil { frameErrors = append(frameErrors, errors.Wrapf(err, "Unable to read zookeeper table path for sub paths %s", path)) return data.HierarchicalFrame{}, frameErrors } // this isn't ideal, we add re-execute the query to our collection as this will be consumed by the output lazily outputFrame, err := zkc.resourceManager.DbClient.ExecuteStatement(path, fmt.Sprintf("SELECT * FROM system.zookeeper WHERE path='%s' LIMIT %d", path, rowLimit)) if err != nil { frameErrors = append(frameErrors, errors.Wrapf(err, "Unable to read zookeeper table path %s", path)) return data.HierarchicalFrame{}, frameErrors } frameComponents := strings.Split(path, "/") frameId := frameComponents[len(frameComponents)-1] for { values, ok, err := frame.Next() if err != nil { frameErrors = append(frameErrors, errors.Wrapf(err, "unable to read frame %s", frame.Name())) return data.NewHierarchicalFrame(frameId, outputFrame, subFrames), frameErrors } if !ok { return data.NewHierarchicalFrame(frameId, outputFrame, subFrames), frameErrors } subName := fmt.Sprintf("%v", values[0]) subPath := fmt.Sprintf("%s/%s", path, subName) subFrame, errs := zkc.collectSubFrames(subPath, pathPattern, rowLimit, currentDepth, maxDepth) if subFrame.Name() != "" { subFrames = append(subFrames, subFrame) } frameErrors = append(frameErrors, errs...) } } func (zkc *ZookeeperCollector) Configuration() config.Configuration { return config.Configuration{ Params: []config.ConfigParam{ config.StringParam{ Value: "/clickhouse/{task_queue}/**", Param: config.NewParam("path_pattern", "Glob pattern for zookeeper path matching. Change with caution.", false), }, config.IntParam{ Value: 8, Param: config.NewParam("max_depth", "Max depth for zookeeper navigation.", false), }, config.IntParam{ Value: 10, Param: config.NewParam("row_limit", "Maximum number of rows/sub nodes to collect/expand from any zookeeper leaf. Negative values mean unlimited.", false), }, }, } } func (zkc *ZookeeperCollector) IsDefault() bool { return false } func (zkc *ZookeeperCollector) Description() string { return "Collects Zookeeper information available within ClickHouse." } // here we register the collector for use func init() { collectors.Register("zookeeper_db", func() (collectors.Collector, error) { return &ZookeeperCollector{ resourceManager: platform.GetResourceManager(), }, nil }) }