CfnMultiplexprogram

class aws_cdk.aws_medialive.CfnMultiplexprogram(scope, id, *, channel_id=None, multiplex_id=None, multiplex_program_settings=None, packet_identifiers_map=None, pipeline_details=None, preferred_channel_pipeline=None, program_name=None)

Bases: CfnResource

Resource schema for AWS::MediaLive::Multiplexprogram.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-resource-medialive-multiplexprogram.html
CloudformationResource:: AWS::MediaLive::Multiplexprogram
ExampleMetadata:: fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

cfn_multiplexprogram = medialive.CfnMultiplexprogram(self, "MyCfnMultiplexprogram",
    channel_id="channelId",
    multiplex_id="multiplexId",
    multiplex_program_settings=medialive.CfnMultiplexprogram.MultiplexProgramSettingsProperty(
        program_number=123,

        # the properties below are optional
        preferred_channel_pipeline="preferredChannelPipeline",
        service_descriptor=medialive.CfnMultiplexprogram.MultiplexProgramServiceDescriptorProperty(
            provider_name="providerName",
            service_name="serviceName"
        ),
        video_settings=medialive.CfnMultiplexprogram.MultiplexVideoSettingsProperty(
            constant_bitrate=123,
            statmux_settings=medialive.CfnMultiplexprogram.MultiplexStatmuxVideoSettingsProperty(
                maximum_bitrate=123,
                minimum_bitrate=123,
                priority=123
            )
        )
    ),
    packet_identifiers_map=medialive.CfnMultiplexprogram.MultiplexProgramPacketIdentifiersMapProperty(
        audio_pids=[123],
        dvb_sub_pids=[123],
        dvb_teletext_pid=123,
        etv_platform_pid=123,
        etv_signal_pid=123,
        klv_data_pids=[123],
        pcr_pid=123,
        pmt_pid=123,
        private_metadata_pid=123,
        scte27_pids=[123],
        scte35_pid=123,
        timed_metadata_pid=123,
        video_pid=123
    ),
    pipeline_details=[medialive.CfnMultiplexprogram.MultiplexProgramPipelineDetailProperty(
        active_channel_pipeline="activeChannelPipeline",
        pipeline_id="pipelineId"
    )],
    preferred_channel_pipeline="preferredChannelPipeline",
    program_name="programName"
)

Parameters:

scope (Construct) – Scope in which this resource is defined.
id (str) – Construct identifier for this resource (unique in its scope).
channel_id (Optional[str]) – The unique ID of the channel.
multiplex_id (Optional[str]) – The unique id of the multiplex.
multiplex_program_settings (Union[IResolvable, MultiplexProgramSettingsProperty, Dict[str, Any], None]) – Multiplex Program settings configuration.
packet_identifiers_map (Union[IResolvable, MultiplexProgramPacketIdentifiersMapProperty, Dict[str, Any], None]) – Packet identifiers map for a given Multiplex program.
pipeline_details (Union[IResolvable, Sequence[Union[IResolvable, MultiplexProgramPipelineDetailProperty, Dict[str, Any]]], None]) – Contains information about the current sources for the specified program in the specified multiplex. Keep in mind that each multiplex pipeline connects to both pipelines in a given source channel (the channel identified by the program). But only one of those channel pipelines is ever active at one time.
preferred_channel_pipeline (Optional[str]) – Indicates which pipeline is preferred by the multiplex for program ingest. If set to “PIPELINE_0” or “PIPELINE_1” and an unhealthy ingest causes the multiplex to switch to the non-preferred pipeline, it will switch back once that ingest is healthy again. If set to “CURRENTLY_ACTIVE”, it will not switch back to the other pipeline based on it recovering to a healthy state, it will only switch if the active pipeline becomes unhealthy.
program_name (Optional[str]) – The name of the multiplex program.

Methods

add_deletion_override(path)

Syntactic sugar for addOverride(path, undefined).

Parameters:: path (str) – The path of the value to delete.
Return type:: None

add_dependency(target)

Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned.

This can be used for resources across stacks (or nested stack) boundaries and the dependency will automatically be transferred to the relevant scope.

Parameters:

target (CfnResource) –

Return type:

None

add_depends_on(target)

(deprecated) Indicates that this resource depends on another resource and cannot be provisioned unless the other resource has been successfully provisioned.

Parameters:

target (CfnResource) –

Deprecated:

use addDependency

Stability:

deprecated

Return type:

None

add_metadata(key, value)

Add a value to the CloudFormation Resource Metadata.

Parameters:

key (str) –
value (Any) –

See:

Return type:

None

https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html

Note that this is a different set of metadata from CDK node metadata; this metadata ends up in the stack template under the resource, whereas CDK node metadata ends up in the Cloud Assembly.

add_override(path, value)

Adds an override to the synthesized CloudFormation resource.

To add a property override, either use addPropertyOverride or prefix path with “Properties.” (i.e. Properties.TopicName).

If the override is nested, separate each nested level using a dot (.) in the path parameter. If there is an array as part of the nesting, specify the index in the path.

To include a literal . in the property name, prefix with a \. In most programming languages you will need to write this as "\\." because the \ itself will need to be escaped.

For example:

cfn_resource.add_override("Properties.GlobalSecondaryIndexes.0.Projection.NonKeyAttributes", ["myattribute"])
cfn_resource.add_override("Properties.GlobalSecondaryIndexes.1.ProjectionType", "INCLUDE")

would add the overrides Example:

"Properties": {
  "GlobalSecondaryIndexes": [
    {
      "Projection": {
        "NonKeyAttributes": [ "myattribute" ]
        ...
      }
      ...
    },
    {
      "ProjectionType": "INCLUDE"
      ...
    },
  ]
  ...
}

The value argument to addOverride will not be processed or translated in any way. Pass raw JSON values in here with the correct capitalization for CloudFormation. If you pass CDK classes or structs, they will be rendered with lowercased key names, and CloudFormation will reject the template.

Parameters:

path (str) –
- The path of the property, you can use dot notation to override values in complex types. Any intermediate keys will be created as needed.
value (Any) –
- The value. Could be primitive or complex.

Return type:

None

add_property_deletion_override(property_path)

Adds an override that deletes the value of a property from the resource definition.

Parameters:: property_path (str) – The path to the property.
Return type:: None

add_property_override(property_path, value)

Adds an override to a resource property.

Syntactic sugar for addOverride("Properties.<...>", value).

Parameters:

property_path (str) – The path of the property.
value (Any) – The value.

Return type:

None

apply_removal_policy(policy=None, *, apply_to_update_replace_policy=None, default=None)

Sets the deletion policy of the resource based on the removal policy specified.

The Removal Policy controls what happens to this resource when it stops being managed by CloudFormation, either because you’ve removed it from the CDK application or because you’ve made a change that requires the resource to be replaced.

The resource can be deleted (RemovalPolicy.DESTROY), or left in your AWS account for data recovery and cleanup later (RemovalPolicy.RETAIN). In some cases, a snapshot can be taken of the resource prior to deletion (RemovalPolicy.SNAPSHOT). A list of resources that support this policy can be found in the following link:

Parameters:

policy (Optional[RemovalPolicy]) –
apply_to_update_replace_policy (Optional[bool]) – Apply the same deletion policy to the resource’s “UpdateReplacePolicy”. Default: true
default (Optional[RemovalPolicy]) – The default policy to apply in case the removal policy is not defined. Default: - Default value is resource specific. To determine the default value for a resource, please consult that specific resource’s documentation.

See:

https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-attribute-deletionpolicy.html#aws-attribute-deletionpolicy-options

Return type:

None

get_att(attribute_name, type_hint=None)

Returns a token for an runtime attribute of this resource.

Ideally, use generated attribute accessors (e.g. resource.arn), but this can be used for future compatibility in case there is no generated attribute.

Parameters:

attribute_name (str) – The name of the attribute.
type_hint (Optional[ResolutionTypeHint]) –

Return type:

Reference

get_metadata(key)

Retrieve a value value from the CloudFormation Resource Metadata.

Parameters:

key (str) –

See:

Return type:

Any

https://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/metadata-section-structure.html

Note that this is a different set of metadata from CDK node metadata; this metadata ends up in the stack template under the resource, whereas CDK node metadata ends up in the Cloud Assembly.

inspect(inspector)

Examines the CloudFormation resource and discloses attributes.

Parameters:: inspector (TreeInspector) – tree inspector to collect and process attributes.
Return type:: None

obtain_dependencies()

Retrieves an array of resources this resource depends on.

This assembles dependencies on resources across stacks (including nested stacks) automatically.

Return type:: List[Union[Stack, CfnResource]]

obtain_resource_dependencies()

Get a shallow copy of dependencies between this resource and other resources in the same stack.

Return type:: List[CfnResource]

override_logical_id(new_logical_id)

Overrides the auto-generated logical ID with a specific ID.

Parameters:: new_logical_id (str) – The new logical ID to use for this stack element.
Return type:: None

remove_dependency(target)

Indicates that this resource no longer depends on another resource.

This can be used for resources across stacks (including nested stacks) and the dependency will automatically be removed from the relevant scope.

Parameters:

target (CfnResource) –

Return type:

None

replace_dependency(target, new_target)

Replaces one dependency with another.

Parameters:

target (CfnResource) – The dependency to replace.
new_target (CfnResource) – The new dependency to add.

Return type:

None

to_string()

Returns a string representation of this construct.

Return type:: str
Returns:: a string representation of this resource

Attributes

CFN_RESOURCE_TYPE_NAME = 'AWS::MediaLive::Multiplexprogram'

cfn_options: Options for this resource, such as condition, update policy etc.

cfn_resource_type: AWS resource type.

channel_id: The unique ID of the channel.

creation_stack

return:

the stack trace of the point where this Resource was created from, sourced from the +metadata+ entry typed +aws:cdk:logicalId+, and with the bottom-most node +internal+ entries filtered.

logical_id

The logical ID for this CloudFormation stack element.

The logical ID of the element is calculated from the path of the resource node in the construct tree.

To override this value, use overrideLogicalId(newLogicalId).

Returns:

the logical ID as a stringified token. This value will only get resolved during synthesis.

multiplex_id: The unique id of the multiplex.

multiplex_program_settings: Multiplex Program settings configuration.

node: The tree node.

packet_identifiers_map: Packet identifiers map for a given Multiplex program.

pipeline_details: Contains information about the current sources for the specified program in the specified multiplex.

preferred_channel_pipeline: Indicates which pipeline is preferred by the multiplex for program ingest.

program_name: The name of the multiplex program.

ref

Return a string that will be resolved to a CloudFormation { Ref } for this element.

If, by any chance, the intrinsic reference of a resource is not a string, you could coerce it to an IResolvable through Lazy.any({ produce: resource.ref }).

stack

The stack in which this element is defined.

CfnElements must be defined within a stack scope (directly or indirectly).

Static Methods

classmethod is_cfn_element(x)

Returns true if a construct is a stack element (i.e. part of the synthesized cloudformation template).

Uses duck-typing instead of instanceof to allow stack elements from different versions of this library to be included in the same stack.

Parameters:

x (Any) –

Return type:

bool

Returns:

The construct as a stack element or undefined if it is not a stack element.

classmethod is_cfn_resource(x)

Check whether the given object is a CfnResource.

Parameters:

x (Any) –

Return type:

bool

classmethod is_construct(x)

Checks if x is a construct.

Use this method instead of instanceof to properly detect Construct instances, even when the construct library is symlinked.

Explanation: in JavaScript, multiple copies of the constructs library on disk are seen as independent, completely different libraries. As a consequence, the class Construct in each copy of the constructs library is seen as a different class, and an instance of one class will not test as instanceof the other class. npm install will not create installations like this, but users may manually symlink construct libraries together or use a monorepo tool: in those cases, multiple copies of the constructs library can be accidentally installed, and instanceof will behave unpredictably. It is safest to avoid using instanceof, and using this type-testing method instead.

Parameters:: x (Any) – Any object.
Return type:: bool
Returns:: true if x is an object created from a class which extends Construct.

MultiplexProgramPacketIdentifiersMapProperty

class CfnMultiplexprogram.MultiplexProgramPacketIdentifiersMapProperty(*, audio_pids=None, dvb_sub_pids=None, dvb_teletext_pid=None, etv_platform_pid=None, etv_signal_pid=None, klv_data_pids=None, pcr_pid=None, pmt_pid=None, private_metadata_pid=None, scte27_pids=None, scte35_pid=None, timed_metadata_pid=None, video_pid=None)

Bases: object

Packet identifiers map for a given Multiplex program.

Parameters:

audio_pids (Union[IResolvable, Sequence[Union[int, float]], None]) –
dvb_sub_pids (Union[IResolvable, Sequence[Union[int, float]], None]) –
dvb_teletext_pid (Union[int, float, None]) –
etv_platform_pid (Union[int, float, None]) –
etv_signal_pid (Union[int, float, None]) –
klv_data_pids (Union[IResolvable, Sequence[Union[int, float]], None]) –
pcr_pid (Union[int, float, None]) –
pmt_pid (Union[int, float, None]) –
private_metadata_pid (Union[int, float, None]) –
scte27_pids (Union[IResolvable, Sequence[Union[int, float]], None]) –
scte35_pid (Union[int, float, None]) –
timed_metadata_pid (Union[int, float, None]) –
video_pid (Union[int, float, None]) –

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_program_packet_identifiers_map_property = medialive.CfnMultiplexprogram.MultiplexProgramPacketIdentifiersMapProperty(
    audio_pids=[123],
    dvb_sub_pids=[123],
    dvb_teletext_pid=123,
    etv_platform_pid=123,
    etv_signal_pid=123,
    klv_data_pids=[123],
    pcr_pid=123,
    pmt_pid=123,
    private_metadata_pid=123,
    scte27_pids=[123],
    scte35_pid=123,
    timed_metadata_pid=123,
    video_pid=123
)

Attributes

audio_pids

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-audiopids

Type:: see

dvb_sub_pids

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-dvbsubpids

Type:: see

dvb_teletext_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-dvbteletextpid

Type:: see

etv_platform_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-etvplatformpid

Type:: see

etv_signal_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-etvsignalpid

Type:: see

klv_data_pids

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-klvdatapids

Type:: see

pcr_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-pcrpid

Type:: see

pmt_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-pmtpid

Type:: see

private_metadata_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-privatemetadatapid

Type:: see

scte27_pids

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-scte27pids

Type:: see

scte35_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-scte35pid

Type:: see

timed_metadata_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-timedmetadatapid

Type:: see

video_pid

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap.html#cfn-medialive-multiplexprogram-multiplexprogrampacketidentifiersmap-videopid

Type:: see

MultiplexProgramPipelineDetailProperty

class CfnMultiplexprogram.MultiplexProgramPipelineDetailProperty(*, active_channel_pipeline=None, pipeline_id=None)

Bases: object

The current source for one of the pipelines in the multiplex.

Parameters:

active_channel_pipeline (Optional[str]) – Identifies the channel pipeline that is currently active for the pipeline (identified by PipelineId) in the multiplex.
pipeline_id (Optional[str]) – Identifies a specific pipeline in the multiplex.

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampipelinedetail.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_program_pipeline_detail_property = medialive.CfnMultiplexprogram.MultiplexProgramPipelineDetailProperty(
    active_channel_pipeline="activeChannelPipeline",
    pipeline_id="pipelineId"
)

Attributes

active_channel_pipeline

Identifies the channel pipeline that is currently active for the pipeline (identified by PipelineId) in the multiplex.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampipelinedetail.html#cfn-medialive-multiplexprogram-multiplexprogrampipelinedetail-activechannelpipeline

pipeline_id

Identifies a specific pipeline in the multiplex.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogrampipelinedetail.html#cfn-medialive-multiplexprogram-multiplexprogrampipelinedetail-pipelineid

MultiplexProgramServiceDescriptorProperty

class CfnMultiplexprogram.MultiplexProgramServiceDescriptorProperty(*, provider_name, service_name)

Bases: object

Transport stream service descriptor configuration for the Multiplex program.

Parameters:

provider_name (str) – Name of the provider.
service_name (str) – Name of the service.

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramservicedescriptor.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_program_service_descriptor_property = medialive.CfnMultiplexprogram.MultiplexProgramServiceDescriptorProperty(
    provider_name="providerName",
    service_name="serviceName"
)

Attributes

provider_name

Name of the provider.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramservicedescriptor.html#cfn-medialive-multiplexprogram-multiplexprogramservicedescriptor-providername

service_name

Name of the service.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramservicedescriptor.html#cfn-medialive-multiplexprogram-multiplexprogramservicedescriptor-servicename

MultiplexProgramSettingsProperty

class CfnMultiplexprogram.MultiplexProgramSettingsProperty(*, program_number, preferred_channel_pipeline=None, service_descriptor=None, video_settings=None)

Bases: object

Multiplex Program settings configuration.

Parameters:

program_number (Union[int, float]) – Unique program number.
preferred_channel_pipeline (Optional[str]) – Indicates which pipeline is preferred by the multiplex for program ingest.
service_descriptor (Union[IResolvable, MultiplexProgramServiceDescriptorProperty, Dict[str, Any], None]) – Transport stream service descriptor configuration for the Multiplex program.
video_settings (Union[IResolvable, MultiplexVideoSettingsProperty, Dict[str, Any], None]) – Program video settings configuration.

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramsettings.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_program_settings_property = medialive.CfnMultiplexprogram.MultiplexProgramSettingsProperty(
    program_number=123,

    # the properties below are optional
    preferred_channel_pipeline="preferredChannelPipeline",
    service_descriptor=medialive.CfnMultiplexprogram.MultiplexProgramServiceDescriptorProperty(
        provider_name="providerName",
        service_name="serviceName"
    ),
    video_settings=medialive.CfnMultiplexprogram.MultiplexVideoSettingsProperty(
        constant_bitrate=123,
        statmux_settings=medialive.CfnMultiplexprogram.MultiplexStatmuxVideoSettingsProperty(
            maximum_bitrate=123,
            minimum_bitrate=123,
            priority=123
        )
    )
)

Attributes

preferred_channel_pipeline

Indicates which pipeline is preferred by the multiplex for program ingest.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramsettings.html#cfn-medialive-multiplexprogram-multiplexprogramsettings-preferredchannelpipeline

program_number

Unique program number.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramsettings.html#cfn-medialive-multiplexprogram-multiplexprogramsettings-programnumber

service_descriptor

Transport stream service descriptor configuration for the Multiplex program.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramsettings.html#cfn-medialive-multiplexprogram-multiplexprogramsettings-servicedescriptor

video_settings

Program video settings configuration.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexprogramsettings.html#cfn-medialive-multiplexprogram-multiplexprogramsettings-videosettings

MultiplexStatmuxVideoSettingsProperty

class CfnMultiplexprogram.MultiplexStatmuxVideoSettingsProperty(*, maximum_bitrate=None, minimum_bitrate=None, priority=None)

Bases: object

Statmux rate control settings.

Parameters:

maximum_bitrate (Union[int, float, None]) – Maximum statmux bitrate.
minimum_bitrate (Union[int, float, None]) – Minimum statmux bitrate.
priority (Union[int, float, None]) – The purpose of the priority is to use a combination of thenmultiplex rate control algorithm and the QVBR capability of thenencoder to prioritize the video quality of some channels in anmultiplex over others. Channels that have a higher priority willnget higher video quality at the expense of the video quality ofnother channels in the multiplex with lower priority.

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexstatmuxvideosettings.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_statmux_video_settings_property = medialive.CfnMultiplexprogram.MultiplexStatmuxVideoSettingsProperty(
    maximum_bitrate=123,
    minimum_bitrate=123,
    priority=123
)

Attributes

maximum_bitrate

Maximum statmux bitrate.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexstatmuxvideosettings.html#cfn-medialive-multiplexprogram-multiplexstatmuxvideosettings-maximumbitrate

minimum_bitrate

Minimum statmux bitrate.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexstatmuxvideosettings.html#cfn-medialive-multiplexprogram-multiplexstatmuxvideosettings-minimumbitrate

priority

The purpose of the priority is to use a combination of thenmultiplex rate control algorithm and the QVBR capability of thenencoder to prioritize the video quality of some channels in anmultiplex over others.

Channels that have a higher priority willnget higher video quality at the expense of the video quality ofnother channels in the multiplex with lower priority.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexstatmuxvideosettings.html#cfn-medialive-multiplexprogram-multiplexstatmuxvideosettings-priority

MultiplexVideoSettingsProperty

class CfnMultiplexprogram.MultiplexVideoSettingsProperty(*, constant_bitrate=None, statmux_settings=None)

Bases: object

The video configuration for each program in a multiplex.

Parameters:

constant_bitrate (Union[int, float, None]) – The constant bitrate configuration for the video encode. When this field is defined, StatmuxSettings must be undefined.
statmux_settings (Union[IResolvable, MultiplexStatmuxVideoSettingsProperty, Dict[str, Any], None]) – Statmux rate control settings. When this field is defined, ConstantBitrate must be undefined.

See:

http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexvideosettings.html

ExampleMetadata:

fixture=_generated

Example:

# The code below shows an example of how to instantiate this type.
# The values are placeholders you should change.
from aws_cdk import aws_medialive as medialive

multiplex_video_settings_property = medialive.CfnMultiplexprogram.MultiplexVideoSettingsProperty(
    constant_bitrate=123,
    statmux_settings=medialive.CfnMultiplexprogram.MultiplexStatmuxVideoSettingsProperty(
        maximum_bitrate=123,
        minimum_bitrate=123,
        priority=123
    )
)

Attributes

constant_bitrate

The constant bitrate configuration for the video encode.

When this field is defined, StatmuxSettings must be undefined.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexvideosettings.html#cfn-medialive-multiplexprogram-multiplexvideosettings-constantbitrate

statmux_settings

Statmux rate control settings.

When this field is defined, ConstantBitrate must be undefined.

See:: http://docs.aws.amazon.com/AWSCloudFormation/latest/UserGuide/aws-properties-medialive-multiplexprogram-multiplexvideosettings.html#cfn-medialive-multiplexprogram-multiplexvideosettings-statmuxsettings