Documentation
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Index ¶
- Variables
- type AbsoluteTimeRangeConfig
- type Config
- type HTTPClientConfig
- type RelativeTimeRangeConfig
- type ServerGroup
- func (s *ServerGroup) ApplyConfig(cfg *Config) error
- func (s *ServerGroup) Cancel()
- func (s *ServerGroup) GetValue(ctx context.Context, start, end time.Time, matchers []*labels.Matcher) (model.Value, api.Warnings, error)
- func (s *ServerGroup) LabelNames(ctx context.Context) ([]string, api.Warnings, error)
- func (s *ServerGroup) LabelValues(ctx context.Context, label string) (model.LabelValues, api.Warnings, error)
- func (s *ServerGroup) Query(ctx context.Context, query string, ts time.Time) (model.Value, api.Warnings, error)
- func (s *ServerGroup) QueryRange(ctx context.Context, query string, r v1.Range) (model.Value, api.Warnings, error)
- func (s *ServerGroup) Series(ctx context.Context, matches []string, startTime, endTime time.Time) ([]model.LabelSet, api.Warnings, error)
- func (s *ServerGroup) State() *ServerGroupState
- func (s *ServerGroup) Sync()
- type ServerGroupState
Constants ¶
This section is empty.
Variables ¶
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var ( // DefaultConfig is the Default base promxy configuration DefaultConfig = Config{ AntiAffinity: time.Second * 10, Scheme: "http", RemoteReadPath: "api/v1/read", HTTPConfig: HTTPClientConfig{ DialTimeout: time.Millisecond * 200, }, } )
Functions ¶
This section is empty.
Types ¶
type AbsoluteTimeRangeConfig ¶
AbsoluteTimeRangeConfig contains absolute times to define a servergroup's time range
func (*AbsoluteTimeRangeConfig) UnmarshalYAML ¶
func (tr *AbsoluteTimeRangeConfig) UnmarshalYAML(unmarshal func(interface{}) error) error
UnmarshalYAML implements the yaml.Unmarshaler interface.
type Config ¶
type Config struct {
// RemoteRead directs promxy to load RAW data (meaning matrix selectors such as `foo[1h]`)
// through the RemoteRead API on prom.
// Pros:
// - StaleNaNs work
// - ~2x faster (in my local testing, more so if you are using default JSON marshaler in prom)
//
// Cons:
// - proto marshaling prom side doesn't stream, so the data being sent
// over the wire will be 2x its size in memory on the remote prom host.
// - "experimental" API (according to docs) -- meaning this might break
// without much (if any) warning
//
// Upstream prom added a StaleNan to determine if a given timeseries has gone
// NaN -- the problem being that for range vectors they filter out all "stale" samples
// meaning that it isn't possible to get a "raw" dump of data through the query/query_range v1 API
// The only option that exists in reality is the "remote read" API -- which suffers
// from the same memory-balooning problems that the HTTP+JSON API originally had.
// It has **less** of a problem (its 2x memory instead of 14x) so it is a viable option.
RemoteRead bool `yaml:"remote_read"`
// RemoteReadPath sets the remote read path for the hosts in this servergroup
RemoteReadPath string `yaml:"remote_read_path"`
// HTTP client config for promxy to use when connecting to the various server_groups
// this is the same config as prometheus
HTTPConfig HTTPClientConfig `yaml:"http_client"`
// Scheme defines how promxy talks to this server group (http, https, etc.)
Scheme string `yaml:"scheme"`
// Labels is a set of labels that will be added to all metrics retrieved
// from this server group
Labels model.LabelSet `json:"labels"`
// RelabelConfigs are similar in function and identical in configuration as prometheus'
// relabel config for scrape jobs. The difference here being that the source labels
// you can pull from are from the downstream servergroup target and the labels you are
// relabeling are that of the timeseries being returned. This allows you to mutate the
// labelsets returned by that target at runtime.
// To further illustrate the difference we'll look at an example:
//
// relabel_configs:
// - source_labels: [__meta_consul_tags]
// regex: '.*,prod,.*'
// action: keep
// - source_labels: [__meta_consul_dc]
// regex: '.+'
// action: replace
// target_label: datacenter
//
// If we saw this in a scrape-config we would expect:
// (1) the scrape would only target hosts with a prod consul label
// (2) it would add a label to all returned series of datacenter with the value set to whatever the value of __meat_consul_dc was.
//
// If we saw this same config in promxy (pointing at prometheus hosts instead of some exporter), we'd expect a similar behavior:
// (1) only targets with the prod consul label would be included in the servergroup
// (2) it would add a label to all returned series of this servergroup of datacenter with the value set to whatever the value of __meat_consul_dc was.
//
// So in reality its "the same", the difference is in prometheus these apply to the labels/targets of a scrape job,
// in promxy they apply to the prometheus hosts in the servergroup - but the behavior is the same.
RelabelConfigs []*relabel.Config `yaml:"relabel_configs,omitempty"`
// Hosts is a set of ServiceDiscoveryConfig options that allow promxy to discover
// all hosts in the server_group
Hosts sd_config.ServiceDiscoveryConfig `yaml:",inline"`
// PathPrefix to prepend to all queries to hosts in this servergroup
PathPrefix string `yaml:"path_prefix"`
// QueryParams are a map of query params to add to all HTTP calls made to this downstream
// the main use-case for this is to add `nocache=1` to VictoriaMetrics downstreams
// (see https://github.com/jacksontj/promxy/issues/202)
QueryParams map[string]string `yaml:"query_params"`
// TODO cache this as a model.Time after unmarshal
// AntiAffinity defines how large of a gap in the timeseries will cause promxy
// to merge series from 2 hosts in a server_group. This required for a couple reasons
// (1) Promxy cannot make assumptions on downstream clock-drift and
// (2) two prometheus hosts scraping the same target may have different times
// #2 is caused by prometheus storing the time of the scrape as the time the scrape **starts**.
// in practice this is actually quite frequent as there are a variety of situations that
// cause variable scrape completion time (slow exporter, serial exporter, network latency, etc.)
// any one of these can cause the resulting data in prometheus to have the same time but in reality
// come from different points in time. Best practice for this value is to set it to your scrape interval
AntiAffinity time.Duration `yaml:"anti_affinity,omitempty"`
// IgnoreError will hide all errors from this given servergroup effectively making
// the responses from this servergroup "not required" for the result.
// Note: this allows you to make the tradeoff between availability of queries and consistency of results
IgnoreError bool `yaml:"ignore_error"`
// RelativeTimeRangeConfig defines a relative time range that this servergroup will respond to
// An example use-case would be if a specific servergroup was long-term storage, it might only
// have data 3d old and retain 90d of data.
*RelativeTimeRangeConfig `yaml:"relative_time_range"`
// AbsoluteTimeRangeConfig defines an absolute time range that this servergroup will respond to
// An example use-case would be if a specific servergroup was was "deprecated" and wasn't getting
// any new data after a specific given point in time
*AbsoluteTimeRangeConfig `yaml:"absolute_time_range"`
}
Config is the configuration for a ServerGroup that promxy will talk to. This is where the vast majority of options exist.
func (*Config) GetAntiAffinity ¶
GetAntiAffinity returns the AntiAffinity time for this servergroup
func (*Config) UnmarshalYAML ¶
UnmarshalYAML implements the yaml.Unmarshaler interface.
type HTTPClientConfig ¶
type HTTPClientConfig struct {
DialTimeout time.Duration `yaml:"dial_timeout"`
HTTPConfig config_util.HTTPClientConfig `yaml:",inline"`
}
HTTPClientConfig extends prometheus' HTTPClientConfig
type RelativeTimeRangeConfig ¶
type RelativeTimeRangeConfig struct {
Start *time.Duration `yaml:"start"`
End *time.Duration `yaml:"end"`
}
RelativeTimeRangeConfig configures durations relative from "now" to define a servergroup's time range
func (*RelativeTimeRangeConfig) UnmarshalYAML ¶
func (tr *RelativeTimeRangeConfig) UnmarshalYAML(unmarshal func(interface{}) error) error
UnmarshalYAML implements the yaml.Unmarshaler interface.
type ServerGroup ¶
type ServerGroup struct {
Ready chan struct{}
// TODO: lock/atomics on cfg and client
Cfg *Config
Client *http.Client
OriginalURLs []string
// contains filtered or unexported fields
}
ServerGroup encapsulates a set of prometheus downstreams to query/aggregate
func (*ServerGroup) ApplyConfig ¶
func (s *ServerGroup) ApplyConfig(cfg *Config) error
ApplyConfig applies new configuration to the ServerGroup TODO: move config + client into state object to be swapped with atomics
func (*ServerGroup) Cancel ¶
func (s *ServerGroup) Cancel()
Cancel stops backround processes (e.g. discovery manager)
func (*ServerGroup) GetValue ¶
func (s *ServerGroup) GetValue(ctx context.Context, start, end time.Time, matchers []*labels.Matcher) (model.Value, api.Warnings, error)
GetValue loads the raw data for a given set of matchers in the time range
func (*ServerGroup) LabelNames ¶
LabelNames returns all the unique label names present in the block in sorted order.
func (*ServerGroup) LabelValues ¶
func (s *ServerGroup) LabelValues(ctx context.Context, label string) (model.LabelValues, api.Warnings, error)
LabelValues performs a query for the values of the given label.
func (*ServerGroup) Query ¶
func (s *ServerGroup) Query(ctx context.Context, query string, ts time.Time) (model.Value, api.Warnings, error)
Query performs a query for the given time.
func (*ServerGroup) QueryRange ¶
func (s *ServerGroup) QueryRange(ctx context.Context, query string, r v1.Range) (model.Value, api.Warnings, error)
QueryRange performs a query for the given range.
func (*ServerGroup) Series ¶
func (s *ServerGroup) Series(ctx context.Context, matches []string, startTime, endTime time.Time) ([]model.LabelSet, api.Warnings, error)
Series finds series by label matchers.
func (*ServerGroup) State ¶
func (s *ServerGroup) State() *ServerGroupState
State returns the current ServerGroupState
func (*ServerGroup) Sync ¶
func (s *ServerGroup) Sync()
Sync updates the targets from our discovery manager
type ServerGroupState ¶
type ServerGroupState struct {
// Targets is the list of target URLs for this discovery round
Targets []string
// contains filtered or unexported fields
}
ServerGroupState encapsulates the state of a serverGroup from service discovery
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