kinesisvideoarchivedmedia.d.ts
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import {Request} from '../lib/request';
import {Response} from '../lib/response';
import {AWSError} from '../lib/error';
import {Service} from '../lib/service';
import {ServiceConfigurationOptions} from '../lib/service';
import {ConfigBase as Config} from '../lib/config';
import {Readable} from 'stream';
interface Blob {}
declare class KinesisVideoArchivedMedia extends Service {
/**
* Constructs a service object. This object has one method for each API operation.
*/
constructor(options?: KinesisVideoArchivedMedia.Types.ClientConfiguration)
config: Config & KinesisVideoArchivedMedia.Types.ClientConfiguration;
/**
* Retrieves an MPEG Dynamic Adaptive Streaming over HTTP (DASH) URL for the stream. You can then open the URL in a media player to view the stream contents. Both the StreamName and the StreamARN parameters are optional, but you must specify either the StreamName or the StreamARN when invoking this API operation. An Amazon Kinesis video stream has the following requirements for providing data through MPEG-DASH: The media must contain h.264 or h.265 encoded video and, optionally, AAC or G.711 encoded audio. Specifically, the codec ID of track 1 should be V_MPEG/ISO/AVC (for h.264) or V_MPEGH/ISO/HEVC (for H.265). Optionally, the codec ID of track 2 should be A_AAC (for AAC) or A_MS/ACM (for G.711). Data retention must be greater than 0. The video track of each fragment must contain codec private data in the Advanced Video Coding (AVC) for H.264 format and HEVC for H.265 format. For more information, see MPEG-4 specification ISO/IEC 14496-15. For information about adapting stream data to a given format, see NAL Adaptation Flags. The audio track (if present) of each fragment must contain codec private data in the AAC format (AAC specification ISO/IEC 13818-7) or the MS Wave format. The following procedure shows how to use MPEG-DASH with Kinesis Video Streams: Get an endpoint using GetDataEndpoint, specifying GET_DASH_STREAMING_SESSION_URL for the APIName parameter. Retrieve the MPEG-DASH URL using GetDASHStreamingSessionURL. Kinesis Video Streams creates an MPEG-DASH streaming session to be used for accessing content in a stream using the MPEG-DASH protocol. GetDASHStreamingSessionURL returns an authenticated URL (that includes an encrypted session token) for the session's MPEG-DASH manifest (the root resource needed for streaming with MPEG-DASH). Don't share or store this token where an unauthorized entity could access it. The token provides access to the content of the stream. Safeguard the token with the same measures that you would use with your AWS credentials. The media that is made available through the manifest consists only of the requested stream, time range, and format. No other media data (such as frames outside the requested window or alternate bitrates) is made available. Provide the URL (containing the encrypted session token) for the MPEG-DASH manifest to a media player that supports the MPEG-DASH protocol. Kinesis Video Streams makes the initialization fragment and media fragments available through the manifest URL. The initialization fragment contains the codec private data for the stream, and other data needed to set up the video or audio decoder and renderer. The media fragments contain encoded video frames or encoded audio samples. The media player receives the authenticated URL and requests stream metadata and media data normally. When the media player requests data, it calls the following actions: GetDASHManifest: Retrieves an MPEG DASH manifest, which contains the metadata for the media that you want to playback. GetMP4InitFragment: Retrieves the MP4 initialization fragment. The media player typically loads the initialization fragment before loading any media fragments. This fragment contains the "fytp" and "moov" MP4 atoms, and the child atoms that are needed to initialize the media player decoder. The initialization fragment does not correspond to a fragment in a Kinesis video stream. It contains only the codec private data for the stream and respective track, which the media player needs to decode the media frames. GetMP4MediaFragment: Retrieves MP4 media fragments. These fragments contain the "moof" and "mdat" MP4 atoms and their child atoms, containing the encoded fragment's media frames and their timestamps. After the first media fragment is made available in a streaming session, any fragments that don't contain the same codec private data cause an error to be returned when those different media fragments are loaded. Therefore, the codec private data should not change between fragments in a session. This also means that the session fails if the fragments in a stream change from having only video to having both audio and video. Data retrieved with this action is billable. See Pricing for details. The following restrictions apply to MPEG-DASH sessions: A streaming session URL should not be shared between players. The service might throttle a session if multiple media players are sharing it. For connection limits, see Kinesis Video Streams Limits. A Kinesis video stream can have a maximum of ten active MPEG-DASH streaming sessions. If a new session is created when the maximum number of sessions is already active, the oldest (earliest created) session is closed. The number of active GetMedia connections on a Kinesis video stream does not count against this limit, and the number of active MPEG-DASH sessions does not count against the active GetMedia connection limit. The maximum limits for active HLS and MPEG-DASH streaming sessions are independent of each other. You can monitor the amount of data that the media player consumes by monitoring the GetMP4MediaFragment.OutgoingBytes Amazon CloudWatch metric. For information about using CloudWatch to monitor Kinesis Video Streams, see Monitoring Kinesis Video Streams. For pricing information, see Amazon Kinesis Video Streams Pricing and AWS Pricing. Charges for both HLS sessions and outgoing AWS data apply. For more information about HLS, see HTTP Live Streaming on the Apple Developer site. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getDASHStreamingSessionURL(params: KinesisVideoArchivedMedia.Types.GetDASHStreamingSessionURLInput, callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetDASHStreamingSessionURLOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetDASHStreamingSessionURLOutput, AWSError>;
/**
* Retrieves an MPEG Dynamic Adaptive Streaming over HTTP (DASH) URL for the stream. You can then open the URL in a media player to view the stream contents. Both the StreamName and the StreamARN parameters are optional, but you must specify either the StreamName or the StreamARN when invoking this API operation. An Amazon Kinesis video stream has the following requirements for providing data through MPEG-DASH: The media must contain h.264 or h.265 encoded video and, optionally, AAC or G.711 encoded audio. Specifically, the codec ID of track 1 should be V_MPEG/ISO/AVC (for h.264) or V_MPEGH/ISO/HEVC (for H.265). Optionally, the codec ID of track 2 should be A_AAC (for AAC) or A_MS/ACM (for G.711). Data retention must be greater than 0. The video track of each fragment must contain codec private data in the Advanced Video Coding (AVC) for H.264 format and HEVC for H.265 format. For more information, see MPEG-4 specification ISO/IEC 14496-15. For information about adapting stream data to a given format, see NAL Adaptation Flags. The audio track (if present) of each fragment must contain codec private data in the AAC format (AAC specification ISO/IEC 13818-7) or the MS Wave format. The following procedure shows how to use MPEG-DASH with Kinesis Video Streams: Get an endpoint using GetDataEndpoint, specifying GET_DASH_STREAMING_SESSION_URL for the APIName parameter. Retrieve the MPEG-DASH URL using GetDASHStreamingSessionURL. Kinesis Video Streams creates an MPEG-DASH streaming session to be used for accessing content in a stream using the MPEG-DASH protocol. GetDASHStreamingSessionURL returns an authenticated URL (that includes an encrypted session token) for the session's MPEG-DASH manifest (the root resource needed for streaming with MPEG-DASH). Don't share or store this token where an unauthorized entity could access it. The token provides access to the content of the stream. Safeguard the token with the same measures that you would use with your AWS credentials. The media that is made available through the manifest consists only of the requested stream, time range, and format. No other media data (such as frames outside the requested window or alternate bitrates) is made available. Provide the URL (containing the encrypted session token) for the MPEG-DASH manifest to a media player that supports the MPEG-DASH protocol. Kinesis Video Streams makes the initialization fragment and media fragments available through the manifest URL. The initialization fragment contains the codec private data for the stream, and other data needed to set up the video or audio decoder and renderer. The media fragments contain encoded video frames or encoded audio samples. The media player receives the authenticated URL and requests stream metadata and media data normally. When the media player requests data, it calls the following actions: GetDASHManifest: Retrieves an MPEG DASH manifest, which contains the metadata for the media that you want to playback. GetMP4InitFragment: Retrieves the MP4 initialization fragment. The media player typically loads the initialization fragment before loading any media fragments. This fragment contains the "fytp" and "moov" MP4 atoms, and the child atoms that are needed to initialize the media player decoder. The initialization fragment does not correspond to a fragment in a Kinesis video stream. It contains only the codec private data for the stream and respective track, which the media player needs to decode the media frames. GetMP4MediaFragment: Retrieves MP4 media fragments. These fragments contain the "moof" and "mdat" MP4 atoms and their child atoms, containing the encoded fragment's media frames and their timestamps. After the first media fragment is made available in a streaming session, any fragments that don't contain the same codec private data cause an error to be returned when those different media fragments are loaded. Therefore, the codec private data should not change between fragments in a session. This also means that the session fails if the fragments in a stream change from having only video to having both audio and video. Data retrieved with this action is billable. See Pricing for details. The following restrictions apply to MPEG-DASH sessions: A streaming session URL should not be shared between players. The service might throttle a session if multiple media players are sharing it. For connection limits, see Kinesis Video Streams Limits. A Kinesis video stream can have a maximum of ten active MPEG-DASH streaming sessions. If a new session is created when the maximum number of sessions is already active, the oldest (earliest created) session is closed. The number of active GetMedia connections on a Kinesis video stream does not count against this limit, and the number of active MPEG-DASH sessions does not count against the active GetMedia connection limit. The maximum limits for active HLS and MPEG-DASH streaming sessions are independent of each other. You can monitor the amount of data that the media player consumes by monitoring the GetMP4MediaFragment.OutgoingBytes Amazon CloudWatch metric. For information about using CloudWatch to monitor Kinesis Video Streams, see Monitoring Kinesis Video Streams. For pricing information, see Amazon Kinesis Video Streams Pricing and AWS Pricing. Charges for both HLS sessions and outgoing AWS data apply. For more information about HLS, see HTTP Live Streaming on the Apple Developer site. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getDASHStreamingSessionURL(callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetDASHStreamingSessionURLOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetDASHStreamingSessionURLOutput, AWSError>;
/**
* Retrieves an HTTP Live Streaming (HLS) URL for the stream. You can then open the URL in a browser or media player to view the stream contents. Both the StreamName and the StreamARN parameters are optional, but you must specify either the StreamName or the StreamARN when invoking this API operation. An Amazon Kinesis video stream has the following requirements for providing data through HLS: The media must contain h.264 or h.265 encoded video and, optionally, AAC encoded audio. Specifically, the codec ID of track 1 should be V_MPEG/ISO/AVC (for h.264) or V_MPEG/ISO/HEVC (for h.265). Optionally, the codec ID of track 2 should be A_AAC. Data retention must be greater than 0. The video track of each fragment must contain codec private data in the Advanced Video Coding (AVC) for H.264 format or HEVC for H.265 format (MPEG-4 specification ISO/IEC 14496-15). For information about adapting stream data to a given format, see NAL Adaptation Flags. The audio track (if present) of each fragment must contain codec private data in the AAC format (AAC specification ISO/IEC 13818-7). Kinesis Video Streams HLS sessions contain fragments in the fragmented MPEG-4 form (also called fMP4 or CMAF) or the MPEG-2 form (also called TS chunks, which the HLS specification also supports). For more information about HLS fragment types, see the HLS specification. The following procedure shows how to use HLS with Kinesis Video Streams: Get an endpoint using GetDataEndpoint, specifying GET_HLS_STREAMING_SESSION_URL for the APIName parameter. Retrieve the HLS URL using GetHLSStreamingSessionURL. Kinesis Video Streams creates an HLS streaming session to be used for accessing content in a stream using the HLS protocol. GetHLSStreamingSessionURL returns an authenticated URL (that includes an encrypted session token) for the session's HLS master playlist (the root resource needed for streaming with HLS). Don't share or store this token where an unauthorized entity could access it. The token provides access to the content of the stream. Safeguard the token with the same measures that you would use with your AWS credentials. The media that is made available through the playlist consists only of the requested stream, time range, and format. No other media data (such as frames outside the requested window or alternate bitrates) is made available. Provide the URL (containing the encrypted session token) for the HLS master playlist to a media player that supports the HLS protocol. Kinesis Video Streams makes the HLS media playlist, initialization fragment, and media fragments available through the master playlist URL. The initialization fragment contains the codec private data for the stream, and other data needed to set up the video or audio decoder and renderer. The media fragments contain H.264-encoded video frames or AAC-encoded audio samples. The media player receives the authenticated URL and requests stream metadata and media data normally. When the media player requests data, it calls the following actions: GetHLSMasterPlaylist: Retrieves an HLS master playlist, which contains a URL for the GetHLSMediaPlaylist action for each track, and additional metadata for the media player, including estimated bitrate and resolution. GetHLSMediaPlaylist: Retrieves an HLS media playlist, which contains a URL to access the MP4 initialization fragment with the GetMP4InitFragment action, and URLs to access the MP4 media fragments with the GetMP4MediaFragment actions. The HLS media playlist also contains metadata about the stream that the player needs to play it, such as whether the PlaybackMode is LIVE or ON_DEMAND. The HLS media playlist is typically static for sessions with a PlaybackType of ON_DEMAND. The HLS media playlist is continually updated with new fragments for sessions with a PlaybackType of LIVE. There is a distinct HLS media playlist for the video track and the audio track (if applicable) that contains MP4 media URLs for the specific track. GetMP4InitFragment: Retrieves the MP4 initialization fragment. The media player typically loads the initialization fragment before loading any media fragments. This fragment contains the "fytp" and "moov" MP4 atoms, and the child atoms that are needed to initialize the media player decoder. The initialization fragment does not correspond to a fragment in a Kinesis video stream. It contains only the codec private data for the stream and respective track, which the media player needs to decode the media frames. GetMP4MediaFragment: Retrieves MP4 media fragments. These fragments contain the "moof" and "mdat" MP4 atoms and their child atoms, containing the encoded fragment's media frames and their timestamps. After the first media fragment is made available in a streaming session, any fragments that don't contain the same codec private data cause an error to be returned when those different media fragments are loaded. Therefore, the codec private data should not change between fragments in a session. This also means that the session fails if the fragments in a stream change from having only video to having both audio and video. Data retrieved with this action is billable. See Pricing for details. GetTSFragment: Retrieves MPEG TS fragments containing both initialization and media data for all tracks in the stream. If the ContainerFormat is MPEG_TS, this API is used instead of GetMP4InitFragment and GetMP4MediaFragment to retrieve stream media. Data retrieved with this action is billable. For more information, see Kinesis Video Streams pricing. The following restrictions apply to HLS sessions: A streaming session URL should not be shared between players. The service might throttle a session if multiple media players are sharing it. For connection limits, see Kinesis Video Streams Limits. A Kinesis video stream can have a maximum of ten active HLS streaming sessions. If a new session is created when the maximum number of sessions is already active, the oldest (earliest created) session is closed. The number of active GetMedia connections on a Kinesis video stream does not count against this limit, and the number of active HLS sessions does not count against the active GetMedia connection limit. The maximum limits for active HLS and MPEG-DASH streaming sessions are independent of each other. You can monitor the amount of data that the media player consumes by monitoring the GetMP4MediaFragment.OutgoingBytes Amazon CloudWatch metric. For information about using CloudWatch to monitor Kinesis Video Streams, see Monitoring Kinesis Video Streams. For pricing information, see Amazon Kinesis Video Streams Pricing and AWS Pricing. Charges for both HLS sessions and outgoing AWS data apply. For more information about HLS, see HTTP Live Streaming on the Apple Developer site. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getHLSStreamingSessionURL(params: KinesisVideoArchivedMedia.Types.GetHLSStreamingSessionURLInput, callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetHLSStreamingSessionURLOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetHLSStreamingSessionURLOutput, AWSError>;
/**
* Retrieves an HTTP Live Streaming (HLS) URL for the stream. You can then open the URL in a browser or media player to view the stream contents. Both the StreamName and the StreamARN parameters are optional, but you must specify either the StreamName or the StreamARN when invoking this API operation. An Amazon Kinesis video stream has the following requirements for providing data through HLS: The media must contain h.264 or h.265 encoded video and, optionally, AAC encoded audio. Specifically, the codec ID of track 1 should be V_MPEG/ISO/AVC (for h.264) or V_MPEG/ISO/HEVC (for h.265). Optionally, the codec ID of track 2 should be A_AAC. Data retention must be greater than 0. The video track of each fragment must contain codec private data in the Advanced Video Coding (AVC) for H.264 format or HEVC for H.265 format (MPEG-4 specification ISO/IEC 14496-15). For information about adapting stream data to a given format, see NAL Adaptation Flags. The audio track (if present) of each fragment must contain codec private data in the AAC format (AAC specification ISO/IEC 13818-7). Kinesis Video Streams HLS sessions contain fragments in the fragmented MPEG-4 form (also called fMP4 or CMAF) or the MPEG-2 form (also called TS chunks, which the HLS specification also supports). For more information about HLS fragment types, see the HLS specification. The following procedure shows how to use HLS with Kinesis Video Streams: Get an endpoint using GetDataEndpoint, specifying GET_HLS_STREAMING_SESSION_URL for the APIName parameter. Retrieve the HLS URL using GetHLSStreamingSessionURL. Kinesis Video Streams creates an HLS streaming session to be used for accessing content in a stream using the HLS protocol. GetHLSStreamingSessionURL returns an authenticated URL (that includes an encrypted session token) for the session's HLS master playlist (the root resource needed for streaming with HLS). Don't share or store this token where an unauthorized entity could access it. The token provides access to the content of the stream. Safeguard the token with the same measures that you would use with your AWS credentials. The media that is made available through the playlist consists only of the requested stream, time range, and format. No other media data (such as frames outside the requested window or alternate bitrates) is made available. Provide the URL (containing the encrypted session token) for the HLS master playlist to a media player that supports the HLS protocol. Kinesis Video Streams makes the HLS media playlist, initialization fragment, and media fragments available through the master playlist URL. The initialization fragment contains the codec private data for the stream, and other data needed to set up the video or audio decoder and renderer. The media fragments contain H.264-encoded video frames or AAC-encoded audio samples. The media player receives the authenticated URL and requests stream metadata and media data normally. When the media player requests data, it calls the following actions: GetHLSMasterPlaylist: Retrieves an HLS master playlist, which contains a URL for the GetHLSMediaPlaylist action for each track, and additional metadata for the media player, including estimated bitrate and resolution. GetHLSMediaPlaylist: Retrieves an HLS media playlist, which contains a URL to access the MP4 initialization fragment with the GetMP4InitFragment action, and URLs to access the MP4 media fragments with the GetMP4MediaFragment actions. The HLS media playlist also contains metadata about the stream that the player needs to play it, such as whether the PlaybackMode is LIVE or ON_DEMAND. The HLS media playlist is typically static for sessions with a PlaybackType of ON_DEMAND. The HLS media playlist is continually updated with new fragments for sessions with a PlaybackType of LIVE. There is a distinct HLS media playlist for the video track and the audio track (if applicable) that contains MP4 media URLs for the specific track. GetMP4InitFragment: Retrieves the MP4 initialization fragment. The media player typically loads the initialization fragment before loading any media fragments. This fragment contains the "fytp" and "moov" MP4 atoms, and the child atoms that are needed to initialize the media player decoder. The initialization fragment does not correspond to a fragment in a Kinesis video stream. It contains only the codec private data for the stream and respective track, which the media player needs to decode the media frames. GetMP4MediaFragment: Retrieves MP4 media fragments. These fragments contain the "moof" and "mdat" MP4 atoms and their child atoms, containing the encoded fragment's media frames and their timestamps. After the first media fragment is made available in a streaming session, any fragments that don't contain the same codec private data cause an error to be returned when those different media fragments are loaded. Therefore, the codec private data should not change between fragments in a session. This also means that the session fails if the fragments in a stream change from having only video to having both audio and video. Data retrieved with this action is billable. See Pricing for details. GetTSFragment: Retrieves MPEG TS fragments containing both initialization and media data for all tracks in the stream. If the ContainerFormat is MPEG_TS, this API is used instead of GetMP4InitFragment and GetMP4MediaFragment to retrieve stream media. Data retrieved with this action is billable. For more information, see Kinesis Video Streams pricing. The following restrictions apply to HLS sessions: A streaming session URL should not be shared between players. The service might throttle a session if multiple media players are sharing it. For connection limits, see Kinesis Video Streams Limits. A Kinesis video stream can have a maximum of ten active HLS streaming sessions. If a new session is created when the maximum number of sessions is already active, the oldest (earliest created) session is closed. The number of active GetMedia connections on a Kinesis video stream does not count against this limit, and the number of active HLS sessions does not count against the active GetMedia connection limit. The maximum limits for active HLS and MPEG-DASH streaming sessions are independent of each other. You can monitor the amount of data that the media player consumes by monitoring the GetMP4MediaFragment.OutgoingBytes Amazon CloudWatch metric. For information about using CloudWatch to monitor Kinesis Video Streams, see Monitoring Kinesis Video Streams. For pricing information, see Amazon Kinesis Video Streams Pricing and AWS Pricing. Charges for both HLS sessions and outgoing AWS data apply. For more information about HLS, see HTTP Live Streaming on the Apple Developer site. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getHLSStreamingSessionURL(callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetHLSStreamingSessionURLOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetHLSStreamingSessionURLOutput, AWSError>;
/**
* Gets media for a list of fragments (specified by fragment number) from the archived data in an Amazon Kinesis video stream. You must first call the GetDataEndpoint API to get an endpoint. Then send the GetMediaForFragmentList requests to this endpoint using the --endpoint-url parameter. The following limits apply when using the GetMediaForFragmentList API: A client can call GetMediaForFragmentList up to five times per second per stream. Kinesis Video Streams sends media data at a rate of up to 25 megabytes per second (or 200 megabits per second) during a GetMediaForFragmentList session. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getMediaForFragmentList(params: KinesisVideoArchivedMedia.Types.GetMediaForFragmentListInput, callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetMediaForFragmentListOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetMediaForFragmentListOutput, AWSError>;
/**
* Gets media for a list of fragments (specified by fragment number) from the archived data in an Amazon Kinesis video stream. You must first call the GetDataEndpoint API to get an endpoint. Then send the GetMediaForFragmentList requests to this endpoint using the --endpoint-url parameter. The following limits apply when using the GetMediaForFragmentList API: A client can call GetMediaForFragmentList up to five times per second per stream. Kinesis Video Streams sends media data at a rate of up to 25 megabytes per second (or 200 megabits per second) during a GetMediaForFragmentList session. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
getMediaForFragmentList(callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.GetMediaForFragmentListOutput) => void): Request<KinesisVideoArchivedMedia.Types.GetMediaForFragmentListOutput, AWSError>;
/**
* Returns a list of Fragment objects from the specified stream and timestamp range within the archived data. Listing fragments is eventually consistent. This means that even if the producer receives an acknowledgment that a fragment is persisted, the result might not be returned immediately from a request to ListFragments. However, results are typically available in less than one second. You must first call the GetDataEndpoint API to get an endpoint. Then send the ListFragments requests to this endpoint using the --endpoint-url parameter. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
listFragments(params: KinesisVideoArchivedMedia.Types.ListFragmentsInput, callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.ListFragmentsOutput) => void): Request<KinesisVideoArchivedMedia.Types.ListFragmentsOutput, AWSError>;
/**
* Returns a list of Fragment objects from the specified stream and timestamp range within the archived data. Listing fragments is eventually consistent. This means that even if the producer receives an acknowledgment that a fragment is persisted, the result might not be returned immediately from a request to ListFragments. However, results are typically available in less than one second. You must first call the GetDataEndpoint API to get an endpoint. Then send the ListFragments requests to this endpoint using the --endpoint-url parameter. If an error is thrown after invoking a Kinesis Video Streams archived media API, in addition to the HTTP status code and the response body, it includes the following pieces of information: x-amz-ErrorType HTTP header – contains a more specific error type in addition to what the HTTP status code provides. x-amz-RequestId HTTP header – if you want to report an issue to AWS, the support team can better diagnose the problem if given the Request Id. Both the HTTP status code and the ErrorType header can be utilized to make programmatic decisions about whether errors are retry-able and under what conditions, as well as provide information on what actions the client programmer might need to take in order to successfully try again. For more information, see the Errors section at the bottom of this topic, as well as Common Errors.
*/
listFragments(callback?: (err: AWSError, data: KinesisVideoArchivedMedia.Types.ListFragmentsOutput) => void): Request<KinesisVideoArchivedMedia.Types.ListFragmentsOutput, AWSError>;
}
declare namespace KinesisVideoArchivedMedia {
export type ContainerFormat = "FRAGMENTED_MP4"|"MPEG_TS"|string;
export type ContentType = string;
export type DASHDisplayFragmentNumber = "ALWAYS"|"NEVER"|string;
export type DASHDisplayFragmentTimestamp = "ALWAYS"|"NEVER"|string;
export interface DASHFragmentSelector {
/**
* The source of the timestamps for the requested media. When FragmentSelectorType is set to PRODUCER_TIMESTAMP and GetDASHStreamingSessionURLInput$PlaybackMode is ON_DEMAND or LIVE_REPLAY, the first fragment ingested with a producer timestamp within the specified FragmentSelector$TimestampRange is included in the media playlist. In addition, the fragments with producer timestamps within the TimestampRange ingested immediately following the first fragment (up to the GetDASHStreamingSessionURLInput$MaxManifestFragmentResults value) are included. Fragments that have duplicate producer timestamps are deduplicated. This means that if producers are producing a stream of fragments with producer timestamps that are approximately equal to the true clock time, the MPEG-DASH manifest will contain all of the fragments within the requested timestamp range. If some fragments are ingested within the same time range and very different points in time, only the oldest ingested collection of fragments are returned. When FragmentSelectorType is set to PRODUCER_TIMESTAMP and GetDASHStreamingSessionURLInput$PlaybackMode is LIVE, the producer timestamps are used in the MP4 fragments and for deduplication. But the most recently ingested fragments based on server timestamps are included in the MPEG-DASH manifest. This means that even if fragments ingested in the past have producer timestamps with values now, they are not included in the HLS media playlist. The default is SERVER_TIMESTAMP.
*/
FragmentSelectorType?: DASHFragmentSelectorType;
/**
* The start and end of the timestamp range for the requested media. This value should not be present if PlaybackType is LIVE.
*/
TimestampRange?: DASHTimestampRange;
}
export type DASHFragmentSelectorType = "PRODUCER_TIMESTAMP"|"SERVER_TIMESTAMP"|string;
export type DASHPlaybackMode = "LIVE"|"LIVE_REPLAY"|"ON_DEMAND"|string;
export type DASHStreamingSessionURL = string;
export interface DASHTimestampRange {
/**
* The start of the timestamp range for the requested media. If the DASHTimestampRange value is specified, the StartTimestamp value is required. This value is inclusive. Fragments that start before the StartTimestamp and continue past it are included in the session. If FragmentSelectorType is SERVER_TIMESTAMP, the StartTimestamp must be later than the stream head.
*/
StartTimestamp?: Timestamp;
/**
* The end of the timestamp range for the requested media. This value must be within 3 hours of the specified StartTimestamp, and it must be later than the StartTimestamp value. If FragmentSelectorType for the request is SERVER_TIMESTAMP, this value must be in the past. The EndTimestamp value is required for ON_DEMAND mode, but optional for LIVE_REPLAY mode. If the EndTimestamp is not set for LIVE_REPLAY mode then the session will continue to include newly ingested fragments until the session expires. This value is inclusive. The EndTimestamp is compared to the (starting) timestamp of the fragment. Fragments that start before the EndTimestamp value and continue past it are included in the session.
*/
EndTimestamp?: Timestamp;
}
export type Expires = number;
export interface Fragment {
/**
* The unique identifier of the fragment. This value monotonically increases based on the ingestion order.
*/
FragmentNumber?: String;
/**
* The total fragment size, including information about the fragment and contained media data.
*/
FragmentSizeInBytes?: Long;
/**
* The timestamp from the producer corresponding to the fragment.
*/
ProducerTimestamp?: Timestamp;
/**
* The timestamp from the AWS server corresponding to the fragment.
*/
ServerTimestamp?: Timestamp;
/**
* The playback duration or other time value associated with the fragment.
*/
FragmentLengthInMilliseconds?: Long;
}
export type FragmentList = Fragment[];
export type FragmentNumberList = FragmentNumberString[];
export type FragmentNumberString = string;
export interface FragmentSelector {
/**
* The origin of the timestamps to use (Server or Producer).
*/
FragmentSelectorType: FragmentSelectorType;
/**
* The range of timestamps to return.
*/
TimestampRange: TimestampRange;
}
export type FragmentSelectorType = "PRODUCER_TIMESTAMP"|"SERVER_TIMESTAMP"|string;
export interface GetDASHStreamingSessionURLInput {
/**
* The name of the stream for which to retrieve the MPEG-DASH manifest URL. You must specify either the StreamName or the StreamARN.
*/
StreamName?: StreamName;
/**
* The Amazon Resource Name (ARN) of the stream for which to retrieve the MPEG-DASH manifest URL. You must specify either the StreamName or the StreamARN.
*/
StreamARN?: ResourceARN;
/**
* Whether to retrieve live, live replay, or archived, on-demand data. Features of the three types of sessions include the following: LIVE : For sessions of this type, the MPEG-DASH manifest is continually updated with the latest fragments as they become available. We recommend that the media player retrieve a new manifest on a one-second interval. When this type of session is played in a media player, the user interface typically displays a "live" notification, with no scrubber control for choosing the position in the playback window to display. In LIVE mode, the newest available fragments are included in an MPEG-DASH manifest, even if there is a gap between fragments (that is, if a fragment is missing). A gap like this might cause a media player to halt or cause a jump in playback. In this mode, fragments are not added to the MPEG-DASH manifest if they are older than the newest fragment in the playlist. If the missing fragment becomes available after a subsequent fragment is added to the manifest, the older fragment is not added, and the gap is not filled. LIVE_REPLAY : For sessions of this type, the MPEG-DASH manifest is updated similarly to how it is updated for LIVE mode except that it starts by including fragments from a given start time. Instead of fragments being added as they are ingested, fragments are added as the duration of the next fragment elapses. For example, if the fragments in the session are two seconds long, then a new fragment is added to the manifest every two seconds. This mode is useful to be able to start playback from when an event is detected and continue live streaming media that has not yet been ingested as of the time of the session creation. This mode is also useful to stream previously archived media without being limited by the 1,000 fragment limit in the ON_DEMAND mode. ON_DEMAND : For sessions of this type, the MPEG-DASH manifest contains all the fragments for the session, up to the number that is specified in MaxMediaPlaylistFragmentResults. The manifest must be retrieved only once for each session. When this type of session is played in a media player, the user interface typically displays a scrubber control for choosing the position in the playback window to display. In all playback modes, if FragmentSelectorType is PRODUCER_TIMESTAMP, and if there are multiple fragments with the same start timestamp, the fragment that has the larger fragment number (that is, the newer fragment) is included in the MPEG-DASH manifest. The other fragments are not included. Fragments that have different timestamps but have overlapping durations are still included in the MPEG-DASH manifest. This can lead to unexpected behavior in the media player. The default is LIVE.
*/
PlaybackMode?: DASHPlaybackMode;
/**
* Per the MPEG-DASH specification, the wall-clock time of fragments in the manifest file can be derived using attributes in the manifest itself. However, typically, MPEG-DASH compatible media players do not properly handle gaps in the media timeline. Kinesis Video Streams adjusts the media timeline in the manifest file to enable playback of media with discontinuities. Therefore, the wall-clock time derived from the manifest file may be inaccurate. If DisplayFragmentTimestamp is set to ALWAYS, the accurate fragment timestamp is added to each S element in the manifest file with the attribute name “kvs:ts”. A custom MPEG-DASH media player is necessary to leverage this custom attribute. The default value is NEVER. When DASHFragmentSelector is SERVER_TIMESTAMP, the timestamps will be the server start timestamps. Similarly, when DASHFragmentSelector is PRODUCER_TIMESTAMP, the timestamps will be the producer start timestamps.
*/
DisplayFragmentTimestamp?: DASHDisplayFragmentTimestamp;
/**
* Fragments are identified in the manifest file based on their sequence number in the session. If DisplayFragmentNumber is set to ALWAYS, the Kinesis Video Streams fragment number is added to each S element in the manifest file with the attribute name “kvs:fn”. These fragment numbers can be used for logging or for use with other APIs (e.g. GetMedia and GetMediaForFragmentList). A custom MPEG-DASH media player is necessary to leverage these this custom attribute. The default value is NEVER.
*/
DisplayFragmentNumber?: DASHDisplayFragmentNumber;
/**
* The time range of the requested fragment and the source of the timestamps. This parameter is required if PlaybackMode is ON_DEMAND or LIVE_REPLAY. This parameter is optional if PlaybackMode is LIVE. If PlaybackMode is LIVE, the FragmentSelectorType can be set, but the TimestampRange should not be set. If PlaybackMode is ON_DEMAND or LIVE_REPLAY, both FragmentSelectorType and TimestampRange must be set.
*/
DASHFragmentSelector?: DASHFragmentSelector;
/**
* The time in seconds until the requested session expires. This value can be between 300 (5 minutes) and 43200 (12 hours). When a session expires, no new calls to GetDashManifest, GetMP4InitFragment, or GetMP4MediaFragment can be made for that session. The default is 300 (5 minutes).
*/
Expires?: Expires;
/**
* The maximum number of fragments that are returned in the MPEG-DASH manifest. When the PlaybackMode is LIVE, the most recent fragments are returned up to this value. When the PlaybackMode is ON_DEMAND, the oldest fragments are returned, up to this maximum number. When there are a higher number of fragments available in a live MPEG-DASH manifest, video players often buffer content before starting playback. Increasing the buffer size increases the playback latency, but it decreases the likelihood that rebuffering will occur during playback. We recommend that a live MPEG-DASH manifest have a minimum of 3 fragments and a maximum of 10 fragments. The default is 5 fragments if PlaybackMode is LIVE or LIVE_REPLAY, and 1,000 if PlaybackMode is ON_DEMAND. The maximum value of 1,000 fragments corresponds to more than 16 minutes of video on streams with 1-second fragments, and more than 2 1/2 hours of video on streams with 10-second fragments.
*/
MaxManifestFragmentResults?: PageLimit;
}
export interface GetDASHStreamingSessionURLOutput {
/**
* The URL (containing the session token) that a media player can use to retrieve the MPEG-DASH manifest.
*/
DASHStreamingSessionURL?: DASHStreamingSessionURL;
}
export interface GetHLSStreamingSessionURLInput {
/**
* The name of the stream for which to retrieve the HLS master playlist URL. You must specify either the StreamName or the StreamARN.
*/
StreamName?: StreamName;
/**
* The Amazon Resource Name (ARN) of the stream for which to retrieve the HLS master playlist URL. You must specify either the StreamName or the StreamARN.
*/
StreamARN?: ResourceARN;
/**
* Whether to retrieve live, live replay, or archived, on-demand data. Features of the three types of sessions include the following: LIVE : For sessions of this type, the HLS media playlist is continually updated with the latest fragments as they become available. We recommend that the media player retrieve a new playlist on a one-second interval. When this type of session is played in a media player, the user interface typically displays a "live" notification, with no scrubber control for choosing the position in the playback window to display. In LIVE mode, the newest available fragments are included in an HLS media playlist, even if there is a gap between fragments (that is, if a fragment is missing). A gap like this might cause a media player to halt or cause a jump in playback. In this mode, fragments are not added to the HLS media playlist if they are older than the newest fragment in the playlist. If the missing fragment becomes available after a subsequent fragment is added to the playlist, the older fragment is not added, and the gap is not filled. LIVE_REPLAY : For sessions of this type, the HLS media playlist is updated similarly to how it is updated for LIVE mode except that it starts by including fragments from a given start time. Instead of fragments being added as they are ingested, fragments are added as the duration of the next fragment elapses. For example, if the fragments in the session are two seconds long, then a new fragment is added to the media playlist every two seconds. This mode is useful to be able to start playback from when an event is detected and continue live streaming media that has not yet been ingested as of the time of the session creation. This mode is also useful to stream previously archived media without being limited by the 1,000 fragment limit in the ON_DEMAND mode. ON_DEMAND : For sessions of this type, the HLS media playlist contains all the fragments for the session, up to the number that is specified in MaxMediaPlaylistFragmentResults. The playlist must be retrieved only once for each session. When this type of session is played in a media player, the user interface typically displays a scrubber control for choosing the position in the playback window to display. In all playback modes, if FragmentSelectorType is PRODUCER_TIMESTAMP, and if there are multiple fragments with the same start timestamp, the fragment that has the larger fragment number (that is, the newer fragment) is included in the HLS media playlist. The other fragments are not included. Fragments that have different timestamps but have overlapping durations are still included in the HLS media playlist. This can lead to unexpected behavior in the media player. The default is LIVE.
*/
PlaybackMode?: HLSPlaybackMode;
/**
* The time range of the requested fragment and the source of the timestamps. This parameter is required if PlaybackMode is ON_DEMAND or LIVE_REPLAY. This parameter is optional if PlaybackMode is LIVE. If PlaybackMode is LIVE, the FragmentSelectorType can be set, but the TimestampRange should not be set. If PlaybackMode is ON_DEMAND or LIVE_REPLAY, both FragmentSelectorType and TimestampRange must be set.
*/
HLSFragmentSelector?: HLSFragmentSelector;
/**
* Specifies which format should be used for packaging the media. Specifying the FRAGMENTED_MP4 container format packages the media into MP4 fragments (fMP4 or CMAF). This is the recommended packaging because there is minimal packaging overhead. The other container format option is MPEG_TS. HLS has supported MPEG TS chunks since it was released and is sometimes the only supported packaging on older HLS players. MPEG TS typically has a 5-25 percent packaging overhead. This means MPEG TS typically requires 5-25 percent more bandwidth and cost than fMP4. The default is FRAGMENTED_MP4.
*/
ContainerFormat?: ContainerFormat;
/**
* Specifies when flags marking discontinuities between fragments are added to the media playlists. Media players typically build a timeline of media content to play, based on the timestamps of each fragment. This means that if there is any overlap or gap between fragments (as is typical if HLSFragmentSelector is set to SERVER_TIMESTAMP), the media player timeline will also have small gaps between fragments in some places, and will overwrite frames in other places. Gaps in the media player timeline can cause playback to stall and overlaps can cause playback to be jittery. When there are discontinuity flags between fragments, the media player is expected to reset the timeline, resulting in the next fragment being played immediately after the previous fragment. The following modes are supported: ALWAYS: a discontinuity marker is placed between every fragment in the HLS media playlist. It is recommended to use a value of ALWAYS if the fragment timestamps are not accurate. NEVER: no discontinuity markers are placed anywhere. It is recommended to use a value of NEVER to ensure the media player timeline most accurately maps to the producer timestamps. ON_DISCONTIUNITY: a discontinuity marker is placed between fragments that have a gap or overlap of more than 50 milliseconds. For most playback scenarios, it is recommended to use a value of ON_DISCONTINUITY so that the media player timeline is only reset when there is a significant issue with the media timeline (e.g. a missing fragment). The default is ALWAYS when HLSFragmentSelector is set to SERVER_TIMESTAMP, and NEVER when it is set to PRODUCER_TIMESTAMP.
*/
DiscontinuityMode?: HLSDiscontinuityMode;
/**
* Specifies when the fragment start timestamps should be included in the HLS media playlist. Typically, media players report the playhead position as a time relative to the start of the first fragment in the playback session. However, when the start timestamps are included in the HLS media playlist, some media players might report the current playhead as an absolute time based on the fragment timestamps. This can be useful for creating a playback experience that shows viewers the wall-clock time of the media. The default is NEVER. When HLSFragmentSelector is SERVER_TIMESTAMP, the timestamps will be the server start timestamps. Similarly, when HLSFragmentSelector is PRODUCER_TIMESTAMP, the timestamps will be the producer start timestamps.
*/
DisplayFragmentTimestamp?: HLSDisplayFragmentTimestamp;
/**
* The time in seconds until the requested session expires. This value can be between 300 (5 minutes) and 43200 (12 hours). When a session expires, no new calls to GetHLSMasterPlaylist, GetHLSMediaPlaylist, GetMP4InitFragment, GetMP4MediaFragment, or GetTSFragment can be made for that session. The default is 300 (5 minutes).
*/
Expires?: Expires;
/**
* The maximum number of fragments that are returned in the HLS media playlists. When the PlaybackMode is LIVE, the most recent fragments are returned up to this value. When the PlaybackMode is ON_DEMAND, the oldest fragments are returned, up to this maximum number. When there are a higher number of fragments available in a live HLS media playlist, video players often buffer content before starting playback. Increasing the buffer size increases the playback latency, but it decreases the likelihood that rebuffering will occur during playback. We recommend that a live HLS media playlist have a minimum of 3 fragments and a maximum of 10 fragments. The default is 5 fragments if PlaybackMode is LIVE or LIVE_REPLAY, and 1,000 if PlaybackMode is ON_DEMAND. The maximum value of 1,000 fragments corresponds to more than 16 minutes of video on streams with 1-second fragments, and more than 2 1/2 hours of video on streams with 10-second fragments.
*/
MaxMediaPlaylistFragmentResults?: PageLimit;
}
export interface GetHLSStreamingSessionURLOutput {
/**
* The URL (containing the session token) that a media player can use to retrieve the HLS master playlist.
*/
HLSStreamingSessionURL?: HLSStreamingSessionURL;
}
export interface GetMediaForFragmentListInput {
/**
* The name of the stream from which to retrieve fragment media.
*/
StreamName: StreamName;
/**
* A list of the numbers of fragments for which to retrieve media. You retrieve these values with ListFragments.
*/
Fragments: FragmentNumberList;
}
export interface GetMediaForFragmentListOutput {
/**
* The content type of the requested media.
*/
ContentType?: ContentType;
/**
* The payload that Kinesis Video Streams returns is a sequence of chunks from the specified stream. For information about the chunks, see PutMedia. The chunks that Kinesis Video Streams returns in the GetMediaForFragmentList call also include the following additional Matroska (MKV) tags: AWS_KINESISVIDEO_FRAGMENT_NUMBER - Fragment number returned in the chunk. AWS_KINESISVIDEO_SERVER_SIDE_TIMESTAMP - Server-side timestamp of the fragment. AWS_KINESISVIDEO_PRODUCER_SIDE_TIMESTAMP - Producer-side timestamp of the fragment. The following tags will be included if an exception occurs: AWS_KINESISVIDEO_FRAGMENT_NUMBER - The number of the fragment that threw the exception AWS_KINESISVIDEO_EXCEPTION_ERROR_CODE - The integer code of the exception AWS_KINESISVIDEO_EXCEPTION_MESSAGE - A text description of the exception
*/
Payload?: Payload;
}
export type HLSDiscontinuityMode = "ALWAYS"|"NEVER"|"ON_DISCONTINUITY"|string;
export type HLSDisplayFragmentTimestamp = "ALWAYS"|"NEVER"|string;
export interface HLSFragmentSelector {
/**
* The source of the timestamps for the requested media. When FragmentSelectorType is set to PRODUCER_TIMESTAMP and GetHLSStreamingSessionURLInput$PlaybackMode is ON_DEMAND or LIVE_REPLAY, the first fragment ingested with a producer timestamp within the specified FragmentSelector$TimestampRange is included in the media playlist. In addition, the fragments with producer timestamps within the TimestampRange ingested immediately following the first fragment (up to the GetHLSStreamingSessionURLInput$MaxMediaPlaylistFragmentResults value) are included. Fragments that have duplicate producer timestamps are deduplicated. This means that if producers are producing a stream of fragments with producer timestamps that are approximately equal to the true clock time, the HLS media playlists will contain all of the fragments within the requested timestamp range. If some fragments are ingested within the same time range and very different points in time, only the oldest ingested collection of fragments are returned. When FragmentSelectorType is set to PRODUCER_TIMESTAMP and GetHLSStreamingSessionURLInput$PlaybackMode is LIVE, the producer timestamps are used in the MP4 fragments and for deduplication. But the most recently ingested fragments based on server timestamps are included in the HLS media playlist. This means that even if fragments ingested in the past have producer timestamps with values now, they are not included in the HLS media playlist. The default is SERVER_TIMESTAMP.
*/
FragmentSelectorType?: HLSFragmentSelectorType;
/**
* The start and end of the timestamp range for the requested media. This value should not be present if PlaybackType is LIVE.
*/
TimestampRange?: HLSTimestampRange;
}
export type HLSFragmentSelectorType = "PRODUCER_TIMESTAMP"|"SERVER_TIMESTAMP"|string;
export type HLSPlaybackMode = "LIVE"|"LIVE_REPLAY"|"ON_DEMAND"|string;
export type HLSStreamingSessionURL = string;
export interface HLSTimestampRange {
/**
* The start of the timestamp range for the requested media. If the HLSTimestampRange value is specified, the StartTimestamp value is required. This value is inclusive. Fragments that start before the StartTimestamp and continue past it are included in the session. If FragmentSelectorType is SERVER_TIMESTAMP, the StartTimestamp must be later than the stream head.
*/
StartTimestamp?: Timestamp;
/**
* The end of the timestamp range for the requested media. This value must be within 3 hours of the specified StartTimestamp, and it must be later than the StartTimestamp value. If FragmentSelectorType for the request is SERVER_TIMESTAMP, this value must be in the past. The EndTimestamp value is required for ON_DEMAND mode, but optional for LIVE_REPLAY mode. If the EndTimestamp is not set for LIVE_REPLAY mode then the session will continue to include newly ingested fragments until the session expires. This value is inclusive. The EndTimestamp is compared to the (starting) timestamp of the fragment. Fragments that start before the EndTimestamp value and continue past it are included in the session.
*/
EndTimestamp?: Timestamp;
}
export interface ListFragmentsInput {
/**
* The name of the stream from which to retrieve a fragment list.
*/
StreamName: StreamName;
/**
* The total number of fragments to return. If the total number of fragments available is more than the value specified in max-results, then a ListFragmentsOutput$NextToken is provided in the output that you can use to resume pagination.
*/
MaxResults?: PageLimit;
/**
* A token to specify where to start paginating. This is the ListFragmentsOutput$NextToken from a previously truncated response.
*/
NextToken?: String;
/**
* Describes the timestamp range and timestamp origin for the range of fragments to return.
*/
FragmentSelector?: FragmentSelector;
}
export interface ListFragmentsOutput {
/**
* A list of archived Fragment objects from the stream that meet the selector criteria. Results are in no specific order, even across pages.
*/
Fragments?: FragmentList;
/**
* If the returned list is truncated, the operation returns this token to use to retrieve the next page of results. This value is null when there are no more results to return.
*/
NextToken?: String;
}
export type Long = number;
export type PageLimit = number;
export type Payload = Buffer|Uint8Array|Blob|string|Readable;
export type ResourceARN = string;
export type StreamName = string;
export type String = string;
export type Timestamp = Date;
export interface TimestampRange {
/**
* The starting timestamp in the range of timestamps for which to return fragments.
*/
StartTimestamp: Timestamp;
/**
* The ending timestamp in the range of timestamps for which to return fragments.
*/
EndTimestamp: Timestamp;
}
/**
* A string in YYYY-MM-DD format that represents the latest possible API version that can be used in this service. Specify 'latest' to use the latest possible version.
*/
export type apiVersion = "2017-09-30"|"latest"|string;
export interface ClientApiVersions {
/**
* A string in YYYY-MM-DD format that represents the latest possible API version that can be used in this service. Specify 'latest' to use the latest possible version.
*/
apiVersion?: apiVersion;
}
export type ClientConfiguration = ServiceConfigurationOptions & ClientApiVersions;
/**
* Contains interfaces for use with the KinesisVideoArchivedMedia client.
*/
export import Types = KinesisVideoArchivedMedia;
}
export = KinesisVideoArchivedMedia;