## Get BGP time series `radar.bgp.timeseries(BGPTimeseriesParams**kwargs) -> BGPTimeseriesResponse` **get** `/radar/bgp/timeseries` Retrieves BGP updates over time. When requesting updates for an autonomous system, only BGP updates of type announcement are returned. ### Parameters - `agg_interval: Optional[Literal["15m", "1h", "1d", "1w"]]` Aggregation interval of the results (e.g., in 15 minutes or 1 hour intervals). Refer to [Aggregation intervals](https://developers.cloudflare.com/radar/concepts/aggregation-intervals/). - `"15m"` - `"1h"` - `"1d"` - `"1w"` - `asn: Optional[SequenceNotStr[str]]` Filters results by Autonomous System. Specify one or more Autonomous System Numbers (ASNs) as a comma-separated list. Prefix with `-` to exclude ASNs from results. For example, `-174, 3356` excludes results from AS174, but includes results from AS3356. - `date_end: Optional[SequenceNotStr[Union[str, datetime]]]` End of the date range (inclusive). - `date_range: Optional[SequenceNotStr[str]]` Filters results by date range. For example, use `7d` and `7dcontrol` to compare this week with the previous week. Use this parameter or set specific start and end dates (`dateStart` and `dateEnd` parameters). - `date_start: Optional[SequenceNotStr[Union[str, datetime]]]` Start of the date range. - `format: Optional[Literal["JSON", "CSV"]]` Format in which results will be returned. - `"JSON"` - `"CSV"` - `name: Optional[SequenceNotStr[str]]` Array of names used to label the series in the response. - `prefix: Optional[SequenceNotStr[str]]` Filters results by BGP network prefix. - `update_type: Optional[List[Literal["ANNOUNCEMENT", "WITHDRAWAL"]]]` Filters results by BGP update type. - `"ANNOUNCEMENT"` - `"WITHDRAWAL"` ### Returns - `class BGPTimeseriesResponse: …` - `meta: Meta` - `agg_interval: Literal["15m", "1h", "1d", "1w"]` - `"15m"` - `"1h"` - `"1d"` - `"1w"` - `confidence_info: MetaConfidenceInfo` - `annotations: List[MetaConfidenceInfoAnnotation]` - `data_source: Literal["ALL", "AI_BOTS", "AI_GATEWAY", 22 more]` Data source for annotations. - `"ALL"` - `"AI_BOTS"` - `"AI_GATEWAY"` - `"BGP"` - `"BOTS"` - `"CONNECTION_ANOMALY"` - `"CT"` - `"DNS"` - `"DNS_MAGNITUDE"` - `"DNS_AS112"` - `"DOS"` - `"EMAIL_ROUTING"` - `"EMAIL_SECURITY"` - `"FW"` - `"FW_PG"` - `"HTTP"` - `"HTTP_CONTROL"` - `"HTTP_CRAWLER_REFERER"` - `"HTTP_ORIGINS"` - `"IQI"` - `"LEAKED_CREDENTIALS"` - `"NET"` - `"ROBOTS_TXT"` - `"SPEED"` - `"WORKERS_AI"` - `description: str` - `end_date: datetime` - `event_type: Literal["EVENT", "GENERAL", "OUTAGE", 3 more]` Event type for annotations. - `"EVENT"` - `"GENERAL"` - `"OUTAGE"` - `"PARTIAL_PROJECTION"` - `"PIPELINE"` - `"TRAFFIC_ANOMALY"` - `is_instantaneous: bool` Whether event is a single point in time or a time range. - `linked_url: str` - `start_date: datetime` - `level: int` Provides an indication of how much confidence Cloudflare has in the data. - `date_range: List[MetaDateRange]` - `end_time: datetime` Adjusted end of date range. - `start_time: datetime` Adjusted start of date range. - `last_updated: datetime` - `serie_0: Serie0` - `timestamps: List[datetime]` - `values: List[str]` ### Example ```python import os from cloudflare import Cloudflare client = Cloudflare( api_token=os.environ.get("CLOUDFLARE_API_TOKEN"), # This is the default and can be omitted ) response = client.radar.bgp.timeseries() print(response.meta) ``` #### Response ```json { "result": { "meta": { "aggInterval": "15m", "confidenceInfo": { "annotations": [ { "dataSource": "ALL", "description": "Cable cut in Tonga", "endDate": "2019-12-27T18:11:19.117Z", "eventType": "EVENT", "isInstantaneous": true, "linkedUrl": "https://example.com", "startDate": "2019-12-27T18:11:19.117Z" } ], "level": 0 }, "dateRange": [ { "endTime": "2022-09-17T10:22:57.555Z", "startTime": "2022-09-16T10:22:57.555Z" } ], "lastUpdated": "2019-12-27T18:11:19.117Z" }, "serie_0": { "timestamps": [ "2019-12-27T18:11:19.117Z" ], "values": [ "10" ] } }, "success": true } ```