# frozen_string_literal: true
# WARNING ABOUT GENERATED CODE
#
# This file is generated. See the contributing guide for more information:
# https://github.com/aws/aws-sdk-ruby/blob/version-3/CONTRIBUTING.md
#
# WARNING ABOUT GENERATED CODE
require 'seahorse/client/plugins/content_length.rb'
require 'aws-sdk-core/plugins/credentials_configuration.rb'
require 'aws-sdk-core/plugins/logging.rb'
require 'aws-sdk-core/plugins/param_converter.rb'
require 'aws-sdk-core/plugins/param_validator.rb'
require 'aws-sdk-core/plugins/user_agent.rb'
require 'aws-sdk-core/plugins/helpful_socket_errors.rb'
require 'aws-sdk-core/plugins/retry_errors.rb'
require 'aws-sdk-core/plugins/global_configuration.rb'
require 'aws-sdk-core/plugins/regional_endpoint.rb'
require 'aws-sdk-core/plugins/endpoint_discovery.rb'
require 'aws-sdk-core/plugins/endpoint_pattern.rb'
require 'aws-sdk-core/plugins/response_paging.rb'
require 'aws-sdk-core/plugins/stub_responses.rb'
require 'aws-sdk-core/plugins/idempotency_token.rb'
require 'aws-sdk-core/plugins/invocation_id.rb'
require 'aws-sdk-core/plugins/jsonvalue_converter.rb'
require 'aws-sdk-core/plugins/client_metrics_plugin.rb'
require 'aws-sdk-core/plugins/client_metrics_send_plugin.rb'
require 'aws-sdk-core/plugins/transfer_encoding.rb'
require 'aws-sdk-core/plugins/http_checksum.rb'
require 'aws-sdk-core/plugins/checksum_algorithm.rb'
require 'aws-sdk-core/plugins/request_compression.rb'
require 'aws-sdk-core/plugins/defaults_mode.rb'
require 'aws-sdk-core/plugins/recursion_detection.rb'
require 'aws-sdk-core/plugins/telemetry.rb'
require 'aws-sdk-core/plugins/sign.rb'
require 'aws-sdk-core/plugins/protocols/rest_json.rb'
Aws::Plugins::GlobalConfiguration.add_identifier(:kinesisvideoarchivedmedia)
module Aws::KinesisVideoArchivedMedia
# An API client for KinesisVideoArchivedMedia. To construct a client, you need to configure a `:region` and `:credentials`.
#
# client = Aws::KinesisVideoArchivedMedia::Client.new(
# region: region_name,
# credentials: credentials,
# # ...
# )
#
# For details on configuring region and credentials see
# the [developer guide](/sdk-for-ruby/v3/developer-guide/setup-config.html).
#
# See {#initialize} for a full list of supported configuration options.
class Client < Seahorse::Client::Base
include Aws::ClientStubs
@identifier = :kinesisvideoarchivedmedia
set_api(ClientApi::API)
add_plugin(Seahorse::Client::Plugins::ContentLength)
add_plugin(Aws::Plugins::CredentialsConfiguration)
add_plugin(Aws::Plugins::Logging)
add_plugin(Aws::Plugins::ParamConverter)
add_plugin(Aws::Plugins::ParamValidator)
add_plugin(Aws::Plugins::UserAgent)
add_plugin(Aws::Plugins::HelpfulSocketErrors)
add_plugin(Aws::Plugins::RetryErrors)
add_plugin(Aws::Plugins::GlobalConfiguration)
add_plugin(Aws::Plugins::RegionalEndpoint)
add_plugin(Aws::Plugins::EndpointDiscovery)
add_plugin(Aws::Plugins::EndpointPattern)
add_plugin(Aws::Plugins::ResponsePaging)
add_plugin(Aws::Plugins::StubResponses)
add_plugin(Aws::Plugins::IdempotencyToken)
add_plugin(Aws::Plugins::InvocationId)
add_plugin(Aws::Plugins::JsonvalueConverter)
add_plugin(Aws::Plugins::ClientMetricsPlugin)
add_plugin(Aws::Plugins::ClientMetricsSendPlugin)
add_plugin(Aws::Plugins::TransferEncoding)
add_plugin(Aws::Plugins::HttpChecksum)
add_plugin(Aws::Plugins::ChecksumAlgorithm)
add_plugin(Aws::Plugins::RequestCompression)
add_plugin(Aws::Plugins::DefaultsMode)
add_plugin(Aws::Plugins::RecursionDetection)
add_plugin(Aws::Plugins::Telemetry)
add_plugin(Aws::Plugins::Sign)
add_plugin(Aws::Plugins::Protocols::RestJson)
add_plugin(Aws::KinesisVideoArchivedMedia::Plugins::Endpoints)
# @overload initialize(options)
# @param [Hash] options
#
# @option options [Array] :plugins ([]])
# A list of plugins to apply to the client. Each plugin is either a
# class name or an instance of a plugin class.
#
# @option options [required, Aws::CredentialProvider] :credentials
# Your AWS credentials. This can be an instance of any one of the
# following classes:
#
# * `Aws::Credentials` - Used for configuring static, non-refreshing
# credentials.
#
# * `Aws::SharedCredentials` - Used for loading static credentials from a
# shared file, such as `~/.aws/config`.
#
# * `Aws::AssumeRoleCredentials` - Used when you need to assume a role.
#
# * `Aws::AssumeRoleWebIdentityCredentials` - Used when you need to
# assume a role after providing credentials via the web.
#
# * `Aws::SSOCredentials` - Used for loading credentials from AWS SSO using an
# access token generated from `aws login`.
#
# * `Aws::ProcessCredentials` - Used for loading credentials from a
# process that outputs to stdout.
#
# * `Aws::InstanceProfileCredentials` - Used for loading credentials
# from an EC2 IMDS on an EC2 instance.
#
# * `Aws::ECSCredentials` - Used for loading credentials from
# instances running in ECS.
#
# * `Aws::CognitoIdentityCredentials` - Used for loading credentials
# from the Cognito Identity service.
#
# When `:credentials` are not configured directly, the following
# locations will be searched for credentials:
#
# * `Aws.config[:credentials]`
# * The `:access_key_id`, `:secret_access_key`, `:session_token`, and
# `:account_id` options.
# * ENV['AWS_ACCESS_KEY_ID'], ENV['AWS_SECRET_ACCESS_KEY'],
# ENV['AWS_SESSION_TOKEN'], and ENV['AWS_ACCOUNT_ID']
# * `~/.aws/credentials`
# * `~/.aws/config`
# * EC2/ECS IMDS instance profile - When used by default, the timeouts
# are very aggressive. Construct and pass an instance of
# `Aws::InstanceProfileCredentials` or `Aws::ECSCredentials` to
# enable retries and extended timeouts. Instance profile credential
# fetching can be disabled by setting ENV['AWS_EC2_METADATA_DISABLED']
# to true.
#
# @option options [required, String] :region
# The AWS region to connect to. The configured `:region` is
# used to determine the service `:endpoint`. When not passed,
# a default `:region` is searched for in the following locations:
#
# * `Aws.config[:region]`
# * `ENV['AWS_REGION']`
# * `ENV['AMAZON_REGION']`
# * `ENV['AWS_DEFAULT_REGION']`
# * `~/.aws/credentials`
# * `~/.aws/config`
#
# @option options [String] :access_key_id
#
# @option options [String] :account_id
#
# @option options [Boolean] :active_endpoint_cache (false)
# When set to `true`, a thread polling for endpoints will be running in
# the background every 60 secs (default). Defaults to `false`.
#
# @option options [Boolean] :adaptive_retry_wait_to_fill (true)
# Used only in `adaptive` retry mode. When true, the request will sleep
# until there is sufficent client side capacity to retry the request.
# When false, the request will raise a `RetryCapacityNotAvailableError` and will
# not retry instead of sleeping.
#
# @option options [Boolean] :client_side_monitoring (false)
# When `true`, client-side metrics will be collected for all API requests from
# this client.
#
# @option options [String] :client_side_monitoring_client_id ("")
# Allows you to provide an identifier for this client which will be attached to
# all generated client side metrics. Defaults to an empty string.
#
# @option options [String] :client_side_monitoring_host ("127.0.0.1")
# Allows you to specify the DNS hostname or IPv4 or IPv6 address that the client
# side monitoring agent is running on, where client metrics will be published via UDP.
#
# @option options [Integer] :client_side_monitoring_port (31000)
# Required for publishing client metrics. The port that the client side monitoring
# agent is running on, where client metrics will be published via UDP.
#
# @option options [Aws::ClientSideMonitoring::Publisher] :client_side_monitoring_publisher (Aws::ClientSideMonitoring::Publisher)
# Allows you to provide a custom client-side monitoring publisher class. By default,
# will use the Client Side Monitoring Agent Publisher.
#
# @option options [Boolean] :convert_params (true)
# When `true`, an attempt is made to coerce request parameters into
# the required types.
#
# @option options [Boolean] :correct_clock_skew (true)
# Used only in `standard` and adaptive retry modes. Specifies whether to apply
# a clock skew correction and retry requests with skewed client clocks.
#
# @option options [String] :defaults_mode ("legacy")
# See {Aws::DefaultsModeConfiguration} for a list of the
# accepted modes and the configuration defaults that are included.
#
# @option options [Boolean] :disable_host_prefix_injection (false)
# Set to true to disable SDK automatically adding host prefix
# to default service endpoint when available.
#
# @option options [Boolean] :disable_request_compression (false)
# When set to 'true' the request body will not be compressed
# for supported operations.
#
# @option options [String, URI::HTTPS, URI::HTTP] :endpoint
# Normally you should not configure the `:endpoint` option
# directly. This is normally constructed from the `:region`
# option. Configuring `:endpoint` is normally reserved for
# connecting to test or custom endpoints. The endpoint should
# be a URI formatted like:
#
# 'http://example.com'
# 'https://example.com'
# 'http://example.com:123'
#
# @option options [Integer] :endpoint_cache_max_entries (1000)
# Used for the maximum size limit of the LRU cache storing endpoints data
# for endpoint discovery enabled operations. Defaults to 1000.
#
# @option options [Integer] :endpoint_cache_max_threads (10)
# Used for the maximum threads in use for polling endpoints to be cached, defaults to 10.
#
# @option options [Integer] :endpoint_cache_poll_interval (60)
# When :endpoint_discovery and :active_endpoint_cache is enabled,
# Use this option to config the time interval in seconds for making
# requests fetching endpoints information. Defaults to 60 sec.
#
# @option options [Boolean] :endpoint_discovery (false)
# When set to `true`, endpoint discovery will be enabled for operations when available.
#
# @option options [Boolean] :ignore_configured_endpoint_urls
# Setting to true disables use of endpoint URLs provided via environment
# variables and the shared configuration file.
#
# @option options [Aws::Log::Formatter] :log_formatter (Aws::Log::Formatter.default)
# The log formatter.
#
# @option options [Symbol] :log_level (:info)
# The log level to send messages to the `:logger` at.
#
# @option options [Logger] :logger
# The Logger instance to send log messages to. If this option
# is not set, logging will be disabled.
#
# @option options [Integer] :max_attempts (3)
# An integer representing the maximum number attempts that will be made for
# a single request, including the initial attempt. For example,
# setting this value to 5 will result in a request being retried up to
# 4 times. Used in `standard` and `adaptive` retry modes.
#
# @option options [String] :profile ("default")
# Used when loading credentials from the shared credentials file
# at HOME/.aws/credentials. When not specified, 'default' is used.
#
# @option options [Integer] :request_min_compression_size_bytes (10240)
# The minimum size in bytes that triggers compression for request
# bodies. The value must be non-negative integer value between 0
# and 10485780 bytes inclusive.
#
# @option options [Proc] :retry_backoff
# A proc or lambda used for backoff. Defaults to 2**retries * retry_base_delay.
# This option is only used in the `legacy` retry mode.
#
# @option options [Float] :retry_base_delay (0.3)
# The base delay in seconds used by the default backoff function. This option
# is only used in the `legacy` retry mode.
#
# @option options [Symbol] :retry_jitter (:none)
# A delay randomiser function used by the default backoff function.
# Some predefined functions can be referenced by name - :none, :equal, :full,
# otherwise a Proc that takes and returns a number. This option is only used
# in the `legacy` retry mode.
#
# @see https://www.awsarchitectureblog.com/2015/03/backoff.html
#
# @option options [Integer] :retry_limit (3)
# The maximum number of times to retry failed requests. Only
# ~ 500 level server errors and certain ~ 400 level client errors
# are retried. Generally, these are throttling errors, data
# checksum errors, networking errors, timeout errors, auth errors,
# endpoint discovery, and errors from expired credentials.
# This option is only used in the `legacy` retry mode.
#
# @option options [Integer] :retry_max_delay (0)
# The maximum number of seconds to delay between retries (0 for no limit)
# used by the default backoff function. This option is only used in the
# `legacy` retry mode.
#
# @option options [String] :retry_mode ("legacy")
# Specifies which retry algorithm to use. Values are:
#
# * `legacy` - The pre-existing retry behavior. This is default value if
# no retry mode is provided.
#
# * `standard` - A standardized set of retry rules across the AWS SDKs.
# This includes support for retry quotas, which limit the number of
# unsuccessful retries a client can make.
#
# * `adaptive` - An experimental retry mode that includes all the
# functionality of `standard` mode along with automatic client side
# throttling. This is a provisional mode that may change behavior
# in the future.
#
# @option options [String] :sdk_ua_app_id
# A unique and opaque application ID that is appended to the
# User-Agent header as app/sdk_ua_app_id. It should have a
# maximum length of 50. This variable is sourced from environment
# variable AWS_SDK_UA_APP_ID or the shared config profile attribute sdk_ua_app_id.
#
# @option options [String] :secret_access_key
#
# @option options [String] :session_token
#
# @option options [Array] :sigv4a_signing_region_set
# A list of regions that should be signed with SigV4a signing. When
# not passed, a default `:sigv4a_signing_region_set` is searched for
# in the following locations:
#
# * `Aws.config[:sigv4a_signing_region_set]`
# * `ENV['AWS_SIGV4A_SIGNING_REGION_SET']`
# * `~/.aws/config`
#
# @option options [Boolean] :stub_responses (false)
# Causes the client to return stubbed responses. By default
# fake responses are generated and returned. You can specify
# the response data to return or errors to raise by calling
# {ClientStubs#stub_responses}. See {ClientStubs} for more information.
#
# ** Please note ** When response stubbing is enabled, no HTTP
# requests are made, and retries are disabled.
#
# @option options [Aws::Telemetry::TelemetryProviderBase] :telemetry_provider (Aws::Telemetry::NoOpTelemetryProvider)
# Allows you to provide a telemetry provider, which is used to
# emit telemetry data. By default, uses `NoOpTelemetryProvider` which
# will not record or emit any telemetry data. The SDK supports the
# following telemetry providers:
#
# * OpenTelemetry (OTel) - To use the OTel provider, install and require the
# `opentelemetry-sdk` gem and then, pass in an instance of a
# `Aws::Telemetry::OTelProvider` for telemetry provider.
#
# @option options [Aws::TokenProvider] :token_provider
# A Bearer Token Provider. This can be an instance of any one of the
# following classes:
#
# * `Aws::StaticTokenProvider` - Used for configuring static, non-refreshing
# tokens.
#
# * `Aws::SSOTokenProvider` - Used for loading tokens from AWS SSO using an
# access token generated from `aws login`.
#
# When `:token_provider` is not configured directly, the `Aws::TokenProviderChain`
# will be used to search for tokens configured for your profile in shared configuration files.
#
# @option options [Boolean] :use_dualstack_endpoint
# When set to `true`, dualstack enabled endpoints (with `.aws` TLD)
# will be used if available.
#
# @option options [Boolean] :use_fips_endpoint
# When set to `true`, fips compatible endpoints will be used if available.
# When a `fips` region is used, the region is normalized and this config
# is set to `true`.
#
# @option options [Boolean] :validate_params (true)
# When `true`, request parameters are validated before
# sending the request.
#
# @option options [Aws::KinesisVideoArchivedMedia::EndpointProvider] :endpoint_provider
# The endpoint provider used to resolve endpoints. Any object that responds to
# `#resolve_endpoint(parameters)` where `parameters` is a Struct similar to
# `Aws::KinesisVideoArchivedMedia::EndpointParameters`.
#
# @option options [Float] :http_continue_timeout (1)
# The number of seconds to wait for a 100-continue response before sending the
# request body. This option has no effect unless the request has "Expect"
# header set to "100-continue". Defaults to `nil` which disables this
# behaviour. This value can safely be set per request on the session.
#
# @option options [Float] :http_idle_timeout (5)
# The number of seconds a connection is allowed to sit idle before it
# is considered stale. Stale connections are closed and removed from the
# pool before making a request.
#
# @option options [Float] :http_open_timeout (15)
# The default number of seconds to wait for response data.
# This value can safely be set per-request on the session.
#
# @option options [URI::HTTP,String] :http_proxy
# A proxy to send requests through. Formatted like 'http://proxy.com:123'.
#
# @option options [Float] :http_read_timeout (60)
# The default number of seconds to wait for response data.
# This value can safely be set per-request on the session.
#
# @option options [Boolean] :http_wire_trace (false)
# When `true`, HTTP debug output will be sent to the `:logger`.
#
# @option options [Proc] :on_chunk_received
# When a Proc object is provided, it will be used as callback when each chunk
# of the response body is received. It provides three arguments: the chunk,
# the number of bytes received, and the total number of
# bytes in the response (or nil if the server did not send a `content-length`).
#
# @option options [Proc] :on_chunk_sent
# When a Proc object is provided, it will be used as callback when each chunk
# of the request body is sent. It provides three arguments: the chunk,
# the number of bytes read from the body, and the total number of
# bytes in the body.
#
# @option options [Boolean] :raise_response_errors (true)
# When `true`, response errors are raised.
#
# @option options [String] :ssl_ca_bundle
# Full path to the SSL certificate authority bundle file that should be used when
# verifying peer certificates. If you do not pass `:ssl_ca_bundle` or
# `:ssl_ca_directory` the the system default will be used if available.
#
# @option options [String] :ssl_ca_directory
# Full path of the directory that contains the unbundled SSL certificate
# authority files for verifying peer certificates. If you do
# not pass `:ssl_ca_bundle` or `:ssl_ca_directory` the the system
# default will be used if available.
#
# @option options [String] :ssl_ca_store
# Sets the X509::Store to verify peer certificate.
#
# @option options [OpenSSL::X509::Certificate] :ssl_cert
# Sets a client certificate when creating http connections.
#
# @option options [OpenSSL::PKey] :ssl_key
# Sets a client key when creating http connections.
#
# @option options [Float] :ssl_timeout
# Sets the SSL timeout in seconds
#
# @option options [Boolean] :ssl_verify_peer (true)
# When `true`, SSL peer certificates are verified when establishing a connection.
#
def initialize(*args)
super
end
# @!group API Operations
# Downloads an MP4 file (clip) containing the archived, on-demand media
# from the specified video stream over the specified time range.
#
# Both the StreamName and the StreamARN parameters are optional, but you
# must specify either the StreamName or the StreamARN when invoking this
# API operation.
#
# As a prerequisite to using GetCLip API, you must obtain an endpoint
# using `GetDataEndpoint`, specifying GET\_CLIP for` the APIName
# parameter.
An Amazon Kinesis video stream has the following
# requirements for providing data through MP4: 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. You can monitor the amount of outgoing data by monitoring
# the GetClip.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 Amazon Web Services Pricing.
# Charges for outgoing Amazon Web Services data apply.
# `
#
# @option params [String] :stream_name
# The name of the stream for which to retrieve the media clip.
#
# You must specify either the StreamName or the StreamARN.
#
# @option params [String] :stream_arn
# The Amazon Resource Name (ARN) of the stream for which to retrieve the
# media clip.
#
# You must specify either the StreamName or the StreamARN.
#
# @option params [required, Types::ClipFragmentSelector] :clip_fragment_selector
# The time range of the requested clip and the source of the timestamps.
#
# @return [Types::GetClipOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetClipOutput#content_type #content_type} => String
# * {Types::GetClipOutput#payload #payload} => IO
#
# @example Request syntax with placeholder values
#
# resp = client.get_clip({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# clip_fragment_selector: { # required
# fragment_selector_type: "PRODUCER_TIMESTAMP", # required, accepts PRODUCER_TIMESTAMP, SERVER_TIMESTAMP
# timestamp_range: { # required
# start_timestamp: Time.now, # required
# end_timestamp: Time.now, # required
# },
# },
# })
#
# @example Response structure
#
# resp.content_type #=> String
# resp.payload #=> IO
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/GetClip AWS API Documentation
#
# @overload get_clip(params = {})
# @param [Hash] params ({})
def get_clip(params = {}, options = {}, &block)
req = build_request(:get_clip, params)
req.send_request(options, &block)
end
# 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][1]. For information about adapting stream data to a given
# format, see [NAL Adaptation Flags][2].
#
# * The audio track (if present) of each fragment must contain codec
# private data in the AAC format ([AAC specification ISO/IEC
# 13818-7][3]) or the [MS Wave format][4].
#
# The following procedure shows how to use MPEG-DASH with Kinesis Video
# Streams:
#
# 1. Get an endpoint using [GetDataEndpoint][5], specifying
# `GET_DASH_STREAMING_SESSION_URL` for the `APIName` parameter.
#
# 2. 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 can
# access it. The token provides access to the content of the stream.
# Safeguard the token with the same measures that you use with your
# Amazon Web Services 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.
#
# 3. 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.
#
# 4. 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][6]
# for details.
#
# For restrictions that apply to MPEG-DASH sessions, see [Kinesis Video
# Streams Limits][7].
#
#
#
# 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][8]. For pricing
# information, see [Amazon Kinesis Video Streams Pricing][6] and [Amazon
# Web Services Pricing][9]. Charges for both HLS sessions and outgoing
# Amazon Web Services data apply.
#
# For more information about HLS, see [HTTP Live Streaming][10] on the
# [Apple Developer site][11].
#
# 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
# Amazon Web Services 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][12].
#
#
#
# [1]: https://www.iso.org/standard/55980.html
# [2]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/producer-reference-nal.html
# [3]: https://www.iso.org/standard/43345.html
# [4]: http://www-mmsp.ece.mcgill.ca/Documents/AudioFormats/WAVE/WAVE.html
# [5]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/API_GetDataEndpoint.html
# [6]: https://aws.amazon.com/kinesis/video-streams/pricing/
# [7]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/limits.html
# [8]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/monitoring.html
# [9]: https://aws.amazon.com/pricing/
# [10]: https://developer.apple.com/streaming/
# [11]: https://developer.apple.com
# [12]: https://docs.aws.amazon.com/kinesisvideostreams/latest/dg/CommonErrors.html
#
# @option params [String] :stream_name
# The name of the stream for which to retrieve the MPEG-DASH manifest
# URL.
#
# You must specify either the `StreamName` or the `StreamARN`.
#
# @option params [String] :stream_arn
# 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`.
#
# @option params [String] :playback_mode
# 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 `MaxManifestFragmentResults`. 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`.
#
# @option params [String] :display_fragment_timestamp
# 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.
#
# @option params [String] :display_fragment_number
# 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`.
#
# @option params [Types::DASHFragmentSelector] :dash_fragment_selector
# 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.
# `
#
# @option params [Integer] :expires
# 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).
#
# @option params [Integer] :max_manifest_fragment_results
# 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.
#
# @return [Types::GetDASHStreamingSessionURLOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetDASHStreamingSessionURLOutput#dash_streaming_session_url #dash_streaming_session_url} => String
#
# @example Request syntax with placeholder values
#
# resp = client.get_dash_streaming_session_url({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# playback_mode: "LIVE", # accepts LIVE, LIVE_REPLAY, ON_DEMAND
# display_fragment_timestamp: "ALWAYS", # accepts ALWAYS, NEVER
# display_fragment_number: "ALWAYS", # accepts ALWAYS, NEVER
# dash_fragment_selector: {
# fragment_selector_type: "PRODUCER_TIMESTAMP", # accepts PRODUCER_TIMESTAMP, SERVER_TIMESTAMP
# timestamp_range: {
# start_timestamp: Time.now,
# end_timestamp: Time.now,
# },
# },
# expires: 1,
# max_manifest_fragment_results: 1,
# })
#
# @example Response structure
#
# resp.dash_streaming_session_url #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/GetDASHStreamingSessionURL AWS API Documentation
#
# @overload get_dash_streaming_session_url(params = {})
# @param [Hash] params ({})
def get_dash_streaming_session_url(params = {}, options = {})
req = build_request(:get_dash_streaming_session_url, params)
req.send_request(options)
end
# 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:
#
# * For streaming video, 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`. For audio only streaming, the codec ID of track 1
# 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][1]). For information
# about adapting stream data to a given format, see [NAL Adaptation
# Flags][2].
#
# * The audio track (if present) of each fragment must contain codec
# private data in the AAC format ([AAC specification ISO/IEC
# 13818-7][3]).
#
# 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][4].
#
# The following procedure shows how to use HLS with Kinesis Video
# Streams:
#
# 1. Get an endpoint using [GetDataEndpoint][5], specifying
# `GET_HLS_STREAMING_SESSION_URL` for the `APIName` parameter.
#
# 2. 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 Amazon Web Services 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.
#
# 3. 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.
#
# 4. 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.
#
# For the HLS streaming session, in-track codec private data (CPD)
# changes are supported. After the first media fragment is made
# available in a streaming session, fragments can contain CPD
# changes for each track. Therefore, the fragments in a session
# can have a different resolution, bit rate, or other information
# in the CPD without interrupting playback. However, any change
# made in the track number or track codec format can return an
# error when those different media fragments are loaded. For
# example, streaming will fail if the fragments in the stream
# change from having only video to having both audio and video, or
# if an AAC audio track is changed to an ALAW audio track. For
# each streaming session, only 500 CPD changes are allowed.
#
#
#
# Data retrieved with this action is billable. For information,
# see [Pricing][6].
#
# * **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][6].
#
# A streaming session URL must 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][7].
#
# 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][8]. For pricing
# information, see [Amazon Kinesis Video Streams Pricing][6] and [Amazon
# Web Services Pricing][9]. Charges for both HLS sessions and outgoing
# Amazon Web Services data apply.
#
# For more information about HLS, see [HTTP Live Streaming][10] on the
# [Apple Developer site][11].
#
# 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
# Amazon Web Services, 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][12].
#
#
#
# [1]: https://www.iso.org/standard/55980.html
# [2]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/producer-reference-nal.html
# [3]: https://www.iso.org/standard/43345.html
# [4]: https://tools.ietf.org/html/draft-pantos-http-live-streaming-23
# [5]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/API_GetDataEndpoint.html
# [6]: https://aws.amazon.com/kinesis/video-streams/pricing/
# [7]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/limits.html
# [8]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/monitoring.html
# [9]: https://aws.amazon.com/pricing/
# [10]: https://developer.apple.com/streaming/
# [11]: https://developer.apple.com
# [12]: https://docs.aws.amazon.com/kinesisvideostreams/latest/dg/CommonErrors.html
#
# @option params [String] :stream_name
# The name of the stream for which to retrieve the HLS master playlist
# URL.
#
# You must specify either the `StreamName` or the `StreamARN`.
#
# @option params [String] :stream_arn
# 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`.
#
# @option params [String] :playback_mode
# 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 largest fragment
# number (that is, the newest 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`.
#
# @option params [Types::HLSFragmentSelector] :hls_fragment_selector
# 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.
# `
#
# @option params [String] :container_format
# 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`.
#
# @option params [String] :discontinuity_mode
# 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_DISCONTINUITY`: 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`.
#
# @option params [String] :display_fragment_timestamp
# 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.
#
# @option params [Integer] :expires
# 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).
#
# @option params [Integer] :max_media_playlist_fragment_results
# 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 5,000 fragments corresponds to more than 80
# minutes of video on streams with 1-second fragments, and more than 13
# hours of video on streams with 10-second fragments.
#
# @return [Types::GetHLSStreamingSessionURLOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetHLSStreamingSessionURLOutput#hls_streaming_session_url #hls_streaming_session_url} => String
#
# @example Request syntax with placeholder values
#
# resp = client.get_hls_streaming_session_url({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# playback_mode: "LIVE", # accepts LIVE, LIVE_REPLAY, ON_DEMAND
# hls_fragment_selector: {
# fragment_selector_type: "PRODUCER_TIMESTAMP", # accepts PRODUCER_TIMESTAMP, SERVER_TIMESTAMP
# timestamp_range: {
# start_timestamp: Time.now,
# end_timestamp: Time.now,
# },
# },
# container_format: "FRAGMENTED_MP4", # accepts FRAGMENTED_MP4, MPEG_TS
# discontinuity_mode: "ALWAYS", # accepts ALWAYS, NEVER, ON_DISCONTINUITY
# display_fragment_timestamp: "ALWAYS", # accepts ALWAYS, NEVER
# expires: 1,
# max_media_playlist_fragment_results: 1,
# })
#
# @example Response structure
#
# resp.hls_streaming_session_url #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/GetHLSStreamingSessionURL AWS API Documentation
#
# @overload get_hls_streaming_session_url(params = {})
# @param [Hash] params ({})
def get_hls_streaming_session_url(params = {}, options = {})
req = build_request(:get_hls_streaming_session_url, params)
req.send_request(options)
end
# Retrieves a list of images corresponding to each timestamp for a given
# time range, sampling interval, and image format configuration.
#
# @option params [String] :stream_name
# The name of the stream from which to retrieve the images. You must
# specify either the `StreamName` or the `StreamARN`.
#
# @option params [String] :stream_arn
# The Amazon Resource Name (ARN) of the stream from which to retrieve
# the images. You must specify either the `StreamName` or the
# `StreamARN`.
#
# @option params [required, String] :image_selector_type
# The origin of the Server or Producer timestamps to use to generate the
# images.
#
# @option params [required, Time,DateTime,Date,Integer,String] :start_timestamp
# The starting point from which the images should be generated. This
# `StartTimestamp` must be within an inclusive range of timestamps for
# an image to be returned.
#
# @option params [required, Time,DateTime,Date,Integer,String] :end_timestamp
# The end timestamp for the range of images to be generated. If the time
# range between `StartTimestamp` and `EndTimestamp` is more than 300
# seconds above `StartTimestamp`, you will receive an
# `IllegalArgumentException`.
#
# @option params [Integer] :sampling_interval
# The time interval in milliseconds (ms) at which the images need to be
# generated from the stream. The minimum value that can be provided is
# 200 ms (5 images per second). If the timestamp range is less than the
# sampling interval, the image from the `startTimestamp` will be
# returned if available.
#
# @option params [required, String] :format
# The format that will be used to encode the image.
#
# @option params [Hash] :format_config
# The list of a key-value pair structure that contains extra parameters
# that can be applied when the image is generated. The `FormatConfig`
# key is the `JPEGQuality`, which indicates the JPEG quality key to be
# used to generate the image. The `FormatConfig` value accepts ints from
# 1 to 100. If the value is 1, the image will be generated with less
# quality and the best compression. If the value is 100, the image will
# be generated with the best quality and less compression. If no value
# is provided, the default value of the `JPEGQuality` key will be set to
# 80.
#
# @option params [Integer] :width_pixels
# The width of the output image that is used in conjunction with the
# `HeightPixels` parameter. When both `WidthPixels` and `HeightPixels`
# parameters are provided, the image will be stretched to fit the
# specified aspect ratio. If only the `WidthPixels` parameter is
# provided or if only the `HeightPixels` is provided, a
# `ValidationException` will be thrown. If neither parameter is
# provided, the original image size from the stream will be returned.
#
# @option params [Integer] :height_pixels
# The height of the output image that is used in conjunction with the
# `WidthPixels` parameter. When both `HeightPixels` and `WidthPixels`
# parameters are provided, the image will be stretched to fit the
# specified aspect ratio. If only the `HeightPixels` parameter is
# provided, its original aspect ratio will be used to calculate the
# `WidthPixels` ratio. If neither parameter is provided, the original
# image size will be returned.
#
# @option params [Integer] :max_results
# The maximum number of images to be returned by the API.
#
# The default limit is 25 images per API response. Providing a
# `MaxResults` greater than this value will result in a page size of 25.
# Any additional results will be paginated.
#
#
#
# @option params [String] :next_token
# A token that specifies where to start paginating the next set of
# Images. This is the `GetImages:NextToken` from a previously truncated
# response.
#
# @return [Types::GetImagesOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetImagesOutput#images #images} => Array<Types::Image>
# * {Types::GetImagesOutput#next_token #next_token} => String
#
# The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}.
#
# @example Request syntax with placeholder values
#
# resp = client.get_images({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# image_selector_type: "PRODUCER_TIMESTAMP", # required, accepts PRODUCER_TIMESTAMP, SERVER_TIMESTAMP
# start_timestamp: Time.now, # required
# end_timestamp: Time.now, # required
# sampling_interval: 1,
# format: "JPEG", # required, accepts JPEG, PNG
# format_config: {
# "JPEGQuality" => "FormatConfigValue",
# },
# width_pixels: 1,
# height_pixels: 1,
# max_results: 1,
# next_token: "NextToken",
# })
#
# @example Response structure
#
# resp.images #=> Array
# resp.images[0].time_stamp #=> Time
# resp.images[0].error #=> String, one of "NO_MEDIA", "MEDIA_ERROR"
# resp.images[0].image_content #=> String
# resp.next_token #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/GetImages AWS API Documentation
#
# @overload get_images(params = {})
# @param [Hash] params ({})
def get_images(params = {}, options = {})
req = build_request(:get_images, params)
req.send_request(options)
end
# 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][1].
#
#
#
# For limits, see [Kinesis Video Streams Limits][2].
#
# 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
# Amazon Web Services, 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][3].
#
#
#
# [1]: https://docs.aws.amazon.com/cli/latest/reference/
# [2]: http://docs.aws.amazon.com/kinesisvideostreams/latest/dg/limits.html
# [3]: https://docs.aws.amazon.com/kinesisvideostreams/latest/dg/CommonErrors.html
#
# @option params [String] :stream_name
# The name of the stream from which to retrieve fragment media. Specify
# either this parameter or the `StreamARN` parameter.
#
# @option params [String] :stream_arn
# The Amazon Resource Name (ARN) of the stream from which to retrieve
# fragment media. Specify either this parameter or the `StreamName`
# parameter.
#
# @option params [required, Array] :fragments
# A list of the numbers of fragments for which to retrieve media. You
# retrieve these values with ListFragments.
#
# @return [Types::GetMediaForFragmentListOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::GetMediaForFragmentListOutput#content_type #content_type} => String
# * {Types::GetMediaForFragmentListOutput#payload #payload} => IO
#
# @example Request syntax with placeholder values
#
# resp = client.get_media_for_fragment_list({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# fragments: ["FragmentNumberString"], # required
# })
#
# @example Response structure
#
# resp.content_type #=> String
# resp.payload #=> IO
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/GetMediaForFragmentList AWS API Documentation
#
# @overload get_media_for_fragment_list(params = {})
# @param [Hash] params ({})
def get_media_for_fragment_list(params = {}, options = {}, &block)
req = build_request(:get_media_for_fragment_list, params)
req.send_request(options, &block)
end
# 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][1].
#
#
#
# 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
# Amazon Web Services, 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][2].
#
#
#
# [1]: https://docs.aws.amazon.com/cli/latest/reference/
# [2]: https://docs.aws.amazon.com/kinesisvideostreams/latest/dg/CommonErrors.html
#
# @option params [String] :stream_name
# The name of the stream from which to retrieve a fragment list. Specify
# either this parameter or the `StreamARN` parameter.
#
# @option params [String] :stream_arn
# The Amazon Resource Name (ARN) of the stream from which to retrieve a
# fragment list. Specify either this parameter or the `StreamName`
# parameter.
#
# @option params [Integer] :max_results
# 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$NextToken is provided in the output that
# you can use to resume pagination.
#
# @option params [String] :next_token
# A token to specify where to start paginating. This is the
# ListFragmentsOutput$NextToken from a previously truncated response.
#
# @option params [Types::FragmentSelector] :fragment_selector
# Describes the timestamp range and timestamp origin for the range of
# fragments to return.
#
# This is only required when the `NextToken` isn't passed in the API.
#
#
#
# @return [Types::ListFragmentsOutput] Returns a {Seahorse::Client::Response response} object which responds to the following methods:
#
# * {Types::ListFragmentsOutput#fragments #fragments} => Array<Types::Fragment>
# * {Types::ListFragmentsOutput#next_token #next_token} => String
#
# The returned {Seahorse::Client::Response response} is a pageable response and is Enumerable. For details on usage see {Aws::PageableResponse PageableResponse}.
#
# @example Request syntax with placeholder values
#
# resp = client.list_fragments({
# stream_name: "StreamName",
# stream_arn: "ResourceARN",
# max_results: 1,
# next_token: "NextToken",
# fragment_selector: {
# fragment_selector_type: "PRODUCER_TIMESTAMP", # required, accepts PRODUCER_TIMESTAMP, SERVER_TIMESTAMP
# timestamp_range: { # required
# start_timestamp: Time.now, # required
# end_timestamp: Time.now, # required
# },
# },
# })
#
# @example Response structure
#
# resp.fragments #=> Array
# resp.fragments[0].fragment_number #=> String
# resp.fragments[0].fragment_size_in_bytes #=> Integer
# resp.fragments[0].producer_timestamp #=> Time
# resp.fragments[0].server_timestamp #=> Time
# resp.fragments[0].fragment_length_in_milliseconds #=> Integer
# resp.next_token #=> String
#
# @see http://docs.aws.amazon.com/goto/WebAPI/kinesis-video-archived-media-2017-09-30/ListFragments AWS API Documentation
#
# @overload list_fragments(params = {})
# @param [Hash] params ({})
def list_fragments(params = {}, options = {})
req = build_request(:list_fragments, params)
req.send_request(options)
end
# @!endgroup
# @param params ({})
# @api private
def build_request(operation_name, params = {})
handlers = @handlers.for(operation_name)
tracer = config.telemetry_provider.tracer_provider.tracer(
Aws::Telemetry.module_to_tracer_name('Aws::KinesisVideoArchivedMedia')
)
context = Seahorse::Client::RequestContext.new(
operation_name: operation_name,
operation: config.api.operation(operation_name),
client: self,
params: params,
config: config,
tracer: tracer
)
context[:gem_name] = 'aws-sdk-kinesisvideoarchivedmedia'
context[:gem_version] = '1.69.0'
Seahorse::Client::Request.new(handlers, context)
end
# @api private
# @deprecated
def waiter_names
[]
end
class << self
# @api private
attr_reader :identifier
# @api private
def errors_module
Errors
end
end
end
end