gamelift

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Published: Nov 7, 2024 License: Apache-2.0 Imports: 45 Imported by: 25

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Overview

Package gamelift provides the API client, operations, and parameter types for Amazon GameLift.

Amazon GameLift provides solutions for hosting session-based multiplayer game servers in the cloud, including tools for deploying, operating, and scaling game servers. Built on Amazon Web Services global computing infrastructure, GameLift helps you deliver high-performance, high-reliability, low-cost game servers while dynamically scaling your resource usage to meet player demand.

About Amazon GameLift solutions

Get more information on these Amazon GameLift solutions in the Amazon GameLift Developer Guide.

  • Amazon GameLift managed hosting -- Amazon GameLift offers a fully managed service to set up and maintain computing machines for hosting, manage game session and player session life cycle, and handle security, storage, and performance tracking. You can use automatic scaling tools to balance player demand and hosting costs, configure your game session management to minimize player latency, and add FlexMatch for matchmaking.

  • Managed hosting with Realtime Servers -- With Amazon GameLift Realtime Servers, you can quickly configure and set up ready-to-go game servers for your game. Realtime Servers provides a game server framework with core Amazon GameLift infrastructure already built in. Then use the full range of Amazon GameLift managed hosting features, including FlexMatch, for your game.

  • Amazon GameLift FleetIQ -- Use Amazon GameLift FleetIQ as a standalone service while hosting your games using EC2 instances and Auto Scaling groups. Amazon GameLift FleetIQ provides optimizations for game hosting, including boosting the viability of low-cost Spot Instances gaming. For a complete solution, pair the Amazon GameLift FleetIQ and FlexMatch standalone services.

  • Amazon GameLift FlexMatch -- Add matchmaking to your game hosting solution. FlexMatch is a customizable matchmaking service for multiplayer games. Use FlexMatch as integrated with Amazon GameLift managed hosting or incorporate FlexMatch as a standalone service into your own hosting solution.

About this API Reference

This reference guide describes the low-level service API for Amazon GameLift. With each topic in this guide, you can find links to language-specific SDK guides and the Amazon Web Services CLI reference. Useful links:

Amazon GameLift API operations listed by tasks

Amazon GameLift tools and resources

Index

Constants

View Source
const ServiceAPIVersion = "2015-10-01"
View Source
const ServiceID = "GameLift"

Variables

This section is empty.

Functions

func NewDefaultEndpointResolver

func NewDefaultEndpointResolver() *internalendpoints.Resolver

NewDefaultEndpointResolver constructs a new service endpoint resolver

func WithAPIOptions added in v1.0.0

func WithAPIOptions(optFns ...func(*middleware.Stack) error) func(*Options)

WithAPIOptions returns a functional option for setting the Client's APIOptions option.

func WithEndpointResolver deprecated

func WithEndpointResolver(v EndpointResolver) func(*Options)

Deprecated: EndpointResolver and WithEndpointResolver. Providing a value for this field will likely prevent you from using any endpoint-related service features released after the introduction of EndpointResolverV2 and BaseEndpoint.

To migrate an EndpointResolver implementation that uses a custom endpoint, set the client option BaseEndpoint instead.

func WithEndpointResolverV2 added in v1.21.0

func WithEndpointResolverV2(v EndpointResolverV2) func(*Options)

WithEndpointResolverV2 returns a functional option for setting the Client's EndpointResolverV2 option.

func WithSigV4SigningName added in v1.26.2

func WithSigV4SigningName(name string) func(*Options)

WithSigV4SigningName applies an override to the authentication workflow to use the given signing name for SigV4-authenticated operations.

This is an advanced setting. The value here is FINAL, taking precedence over the resolved signing name from both auth scheme resolution and endpoint resolution.

func WithSigV4SigningRegion added in v1.26.2

func WithSigV4SigningRegion(region string) func(*Options)

WithSigV4SigningRegion applies an override to the authentication workflow to use the given signing region for SigV4-authenticated operations.

This is an advanced setting. The value here is FINAL, taking precedence over the resolved signing region from both auth scheme resolution and endpoint resolution.

Types

type AcceptMatchInput

type AcceptMatchInput struct {

	// Player response to the proposed match.
	//
	// This member is required.
	AcceptanceType types.AcceptanceType

	// A unique identifier for a player delivering the response. This parameter can
	// include one or multiple player IDs.
	//
	// This member is required.
	PlayerIds []string

	// A unique identifier for a matchmaking ticket. The ticket must be in status
	// REQUIRES_ACCEPTANCE ; otherwise this request will fail.
	//
	// This member is required.
	TicketId *string
	// contains filtered or unexported fields
}

type AcceptMatchOutput

type AcceptMatchOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type AuthResolverParameters added in v1.26.2

type AuthResolverParameters struct {
	// The name of the operation being invoked.
	Operation string

	// The region in which the operation is being invoked.
	Region string
}

AuthResolverParameters contains the set of inputs necessary for auth scheme resolution.

type AuthSchemeResolver added in v1.26.2

type AuthSchemeResolver interface {
	ResolveAuthSchemes(context.Context, *AuthResolverParameters) ([]*smithyauth.Option, error)
}

AuthSchemeResolver returns a set of possible authentication options for an operation.

type ClaimGameServerInput

type ClaimGameServerInput struct {

	// A unique identifier for the game server group where the game server is running.
	// If you are not specifying a game server to claim, this value identifies where
	// you want Amazon GameLift FleetIQ to look for an available game server to claim.
	//
	// This member is required.
	GameServerGroupName *string

	// Object that restricts how a claimed game server is chosen.
	FilterOption *types.ClaimFilterOption

	// A set of custom game server properties, formatted as a single string value.
	// This data is passed to a game client or service when it requests information on
	// game servers.
	GameServerData *string

	// A custom string that uniquely identifies the game server to claim. If this
	// parameter is left empty, Amazon GameLift FleetIQ searches for an available game
	// server in the specified game server group.
	GameServerId *string
	// contains filtered or unexported fields
}

type ClaimGameServerOutput

type ClaimGameServerOutput struct {

	// Object that describes the newly claimed game server.
	GameServer *types.GameServer

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type Client

type Client struct {
	// contains filtered or unexported fields
}

Client provides the API client to make operations call for Amazon GameLift.

func New

func New(options Options, optFns ...func(*Options)) *Client

New returns an initialized Client based on the functional options. Provide additional functional options to further configure the behavior of the client, such as changing the client's endpoint or adding custom middleware behavior.

func NewFromConfig

func NewFromConfig(cfg aws.Config, optFns ...func(*Options)) *Client

NewFromConfig returns a new client from the provided config.

func (*Client) AcceptMatch

func (c *Client) AcceptMatch(ctx context.Context, params *AcceptMatchInput, optFns ...func(*Options)) (*AcceptMatchOutput, error)

Registers a player's acceptance or rejection of a proposed FlexMatch match. A matchmaking configuration may require player acceptance; if so, then matches built with that configuration cannot be completed unless all players accept the proposed match within a specified time limit.

When FlexMatch builds a match, all the matchmaking tickets involved in the proposed match are placed into status REQUIRES_ACCEPTANCE . This is a trigger for your game to get acceptance from all players in each ticket. Calls to this action are only valid for tickets that are in this status; calls for tickets not in this status result in an error.

To register acceptance, specify the ticket ID, one or more players, and an acceptance response. When all players have accepted, Amazon GameLift advances the matchmaking tickets to status PLACING , and attempts to create a new game session for the match.

If any player rejects the match, or if acceptances are not received before a specified timeout, the proposed match is dropped. Each matchmaking ticket in the failed match is handled as follows:

  • If the ticket has one or more players who rejected the match or failed to respond, the ticket status is set CANCELLED and processing is terminated.

  • If all players in the ticket accepted the match, the ticket status is returned to SEARCHING to find a new match.

Learn more

Add FlexMatch to a game client

FlexMatch events(reference)

func (*Client) ClaimGameServer

func (c *Client) ClaimGameServer(ctx context.Context, params *ClaimGameServerInput, optFns ...func(*Options)) (*ClaimGameServerOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Locates an available game server and temporarily reserves it to host gameplay and players. This operation is called from a game client or client service (such as a matchmaker) to request hosting resources for a new game session. In response, Amazon GameLift FleetIQ locates an available game server, places it in CLAIMED status for 60 seconds, and returns connection information that players can use to connect to the game server.

To claim a game server, identify a game server group. You can also specify a game server ID, although this approach bypasses Amazon GameLift FleetIQ placement optimization. Optionally, include game data to pass to the game server at the start of a game session, such as a game map or player information. Add filter options to further restrict how a game server is chosen, such as only allowing game servers on ACTIVE instances to be claimed.

When a game server is successfully claimed, connection information is returned. A claimed game server's utilization status remains AVAILABLE while the claim status is set to CLAIMED for up to 60 seconds. This time period gives the game server time to update its status to UTILIZED after players join. If the game server's status is not updated within 60 seconds, the game server reverts to unclaimed status and is available to be claimed by another request. The claim time period is a fixed value and is not configurable.

If you try to claim a specific game server, this request will fail in the following cases:

  • If the game server utilization status is UTILIZED .

  • If the game server claim status is CLAIMED .

  • If the game server is running on an instance in DRAINING status and the provided filter option does not allow placing on DRAINING instances.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) CreateAlias

func (c *Client) CreateAlias(ctx context.Context, params *CreateAliasInput, optFns ...func(*Options)) (*CreateAliasOutput, error)

Creates an alias for a fleet. In most situations, you can use an alias ID in place of a fleet ID. An alias provides a level of abstraction for a fleet that is useful when redirecting player traffic from one fleet to another, such as when updating your game build.

Amazon GameLift supports two types of routing strategies for aliases: simple and terminal. A simple alias points to an active fleet. A terminal alias is used to display messaging or link to a URL instead of routing players to an active fleet. For example, you might use a terminal alias when a game version is no longer supported and you want to direct players to an upgrade site.

To create a fleet alias, specify an alias name, routing strategy, and optional description. Each simple alias can point to only one fleet, but a fleet can have multiple aliases. If successful, a new alias record is returned, including an alias ID and an ARN. You can reassign an alias to another fleet by calling UpdateAlias .

All APIs by task

func (*Client) CreateBuild

func (c *Client) CreateBuild(ctx context.Context, params *CreateBuildInput, optFns ...func(*Options)) (*CreateBuildOutput, error)

Creates a new Amazon GameLift build resource for your game server binary files. Combine game server binaries into a zip file for use with Amazon GameLift.

When setting up a new game build for Amazon GameLift, we recommend using the CLI command upload-build. This helper command combines two tasks: (1) it uploads your build files from a file directory to an Amazon GameLift Amazon S3 location, and (2) it creates a new build resource.

You can use the CreateBuild operation in the following scenarios:

  • Create a new game build with build files that are in an Amazon S3 location under an Amazon Web Services account that you control. To use this option, you give Amazon GameLift access to the Amazon S3 bucket. With permissions in place, specify a build name, operating system, and the Amazon S3 storage location of your game build.

  • Upload your build files to a Amazon GameLift Amazon S3 location. To use this option, specify a build name and operating system. This operation creates a new build resource and also returns an Amazon S3 location with temporary access credentials. Use the credentials to manually upload your build files to the specified Amazon S3 location. For more information, see Uploading Objectsin the Amazon S3 Developer Guide. After you upload build files to the Amazon GameLift Amazon S3 location, you can't update them.

If successful, this operation creates a new build resource with a unique build ID and places it in INITIALIZED status. A build must be in READY status before you can create fleets with it.

Learn more

Uploading Your Game

Create a Build with Files in Amazon S3

All APIs by task

func (*Client) CreateContainerGroupDefinition added in v1.31.0

func (c *Client) CreateContainerGroupDefinition(ctx context.Context, params *CreateContainerGroupDefinitionInput, optFns ...func(*Options)) (*CreateContainerGroupDefinitionOutput, error)
This operation is used with the Amazon GameLift containers feature, which is

currently in public preview.

Creates a ContainerGroupDefinition resource that describes a set of containers for hosting your game server with Amazon GameLift managed EC2 hosting. An Amazon GameLift container group is similar to a container "task" and "pod". Each container group can have one or more containers.

Use container group definitions when you create a container fleet. Container group definitions determine how Amazon GameLift deploys your containers to each instance in a container fleet.

You can create two types of container groups, based on scheduling strategy:

  • A replica container group manages the containers that run your game server application and supporting software. Replica container groups might be replicated multiple times on each fleet instance, depending on instance resources.

  • A daemon container group manages containers that run other software, such as background services, logging, or test processes. You might use a daemon container group for processes that need to run only once per fleet instance, or processes that need to persist independently of the replica container group.

To create a container group definition, specify a group name, a list of container definitions, and maximum total CPU and memory requirements for the container group. Specify an operating system and scheduling strategy or use the default values. When using the Amazon Web Services CLI tool, you can pass in your container definitions as a JSON file.

This operation requires Identity and Access Management (IAM) permissions to access container images in Amazon ECR repositories. See IAM permissions for Amazon GameLiftfor help setting the appropriate permissions.

If successful, this operation creates a new ContainerGroupDefinition resource with an ARN value assigned. You can't change the properties of a container group definition. Instead, create a new one.

Learn more

Create a container group definition

Container fleet design guide

Create a container definition as a JSON file

func (*Client) CreateFleet

func (c *Client) CreateFleet(ctx context.Context, params *CreateFleetInput, optFns ...func(*Options)) (*CreateFleetOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Creates a fleet of compute resources to host your game servers. Use this operation to set up the following types of fleets based on compute type:

Managed EC2 fleet

An EC2 fleet is a set of Amazon Elastic Compute Cloud (Amazon EC2) instances. Your game server build is deployed to each fleet instance. Amazon GameLift manages the fleet's instances and controls the lifecycle of game server processes, which host game sessions for players. EC2 fleets can have instances in multiple locations. Each instance in the fleet is designated a Compute .

To create an EC2 fleet, provide these required parameters:

  • Either BuildId or ScriptId

  • ComputeType set to EC2 (the default value)

  • EC2InboundPermissions

  • EC2InstanceType

  • FleetType

  • Name

  • RuntimeConfiguration with at least one ServerProcesses configuration

If successful, this operation creates a new fleet resource and places it in NEW status while Amazon GameLift initiates the fleet creation workflow. To debug your fleet, fetch logs, view performance metrics or other actions on the fleet, create a development fleet with port 22/3389 open. As a best practice, we recommend opening ports for remote access only when you need them and closing them when you're finished.

When the fleet status is ACTIVE, you can adjust capacity settings and turn autoscaling on/off for each location.

Managed container fleet

A container fleet is a set of Amazon Elastic Compute Cloud (Amazon EC2) instances. Your container architecture is deployed to each fleet instance based on the fleet configuration. Amazon GameLift manages the containers on each fleet instance and controls the lifecycle of game server processes, which host game sessions for players. Container fleets can have instances in multiple locations. Each container on an instance that runs game server processes is registered as a Compute .

To create a container fleet, provide these required parameters:

  • ComputeType set to CONTAINER

  • ContainerGroupsConfiguration

  • EC2InboundPermissions

  • EC2InstanceType

  • FleetType set to ON_DEMAND

  • Name

  • RuntimeConfiguration with at least one ServerProcesses configuration

If successful, this operation creates a new fleet resource and places it in NEW status while Amazon GameLift initiates the fleet creation workflow.

When the fleet status is ACTIVE, you can adjust capacity settings and turn autoscaling on/off for each location.

Anywhere fleet

An Anywhere fleet represents compute resources that are not owned or managed by Amazon GameLift. You might create an Anywhere fleet with your local machine for testing, or use one to host game servers with on-premises hardware or other game hosting solutions.

To create an Anywhere fleet, provide these required parameters:

  • ComputeType set to ANYWHERE

  • Locations specifying a custom location

  • Name

If successful, this operation creates a new fleet resource and places it in ACTIVE status. You can register computes with a fleet in ACTIVE status.

Learn more

Setting up fleets

Setting up a container fleet

Debug fleet creation issues

Multi-location fleets

func (*Client) CreateFleetLocations added in v1.2.0

func (c *Client) CreateFleetLocations(ctx context.Context, params *CreateFleetLocationsInput, optFns ...func(*Options)) (*CreateFleetLocationsOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Adds remote locations to an EC2 or container fleet and begins populating the new locations with instances. The new instances conform to the fleet's instance type, auto-scaling, and other configuration settings.

You can't add remote locations to a fleet that resides in an Amazon Web Services Region that doesn't support multiple locations. Fleets created prior to March 2021 can't support multiple locations.

To add fleet locations, specify the fleet to be updated and provide a list of one or more locations.

If successful, this operation returns the list of added locations with their status set to NEW . Amazon GameLift initiates the process of starting an instance in each added location. You can track the status of each new location by monitoring location creation events using DescribeFleetEvents.

Learn more

Setting up fleets

Update fleet locations

Amazon GameLift service locationsfor managed hosting.

func (*Client) CreateGameServerGroup

func (c *Client) CreateGameServerGroup(ctx context.Context, params *CreateGameServerGroupInput, optFns ...func(*Options)) (*CreateGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Creates a Amazon GameLift FleetIQ game server group for managing game hosting on a collection of Amazon Elastic Compute Cloud instances for game hosting. This operation creates the game server group, creates an Auto Scaling group in your Amazon Web Services account, and establishes a link between the two groups. You can view the status of your game server groups in the Amazon GameLift console. Game server group metrics and events are emitted to Amazon CloudWatch.

Before creating a new game server group, you must have the following:

  • An Amazon Elastic Compute Cloud launch template that specifies how to launch Amazon Elastic Compute Cloud instances with your game server build. For more information, see Launching an Instance from a Launch Templatein the Amazon Elastic Compute Cloud User Guide.

  • An IAM role that extends limited access to your Amazon Web Services account to allow Amazon GameLift FleetIQ to create and interact with the Auto Scaling group. For more information, see Create IAM roles for cross-service interactionin the Amazon GameLift FleetIQ Developer Guide.

To create a new game server group, specify a unique group name, IAM role and Amazon Elastic Compute Cloud launch template, and provide a list of instance types that can be used in the group. You must also set initial maximum and minimum limits on the group's instance count. You can optionally set an Auto Scaling policy with target tracking based on a Amazon GameLift FleetIQ metric.

Once the game server group and corresponding Auto Scaling group are created, you have full access to change the Auto Scaling group's configuration as needed. Several properties that are set when creating a game server group, including maximum/minimum size and auto-scaling policy settings, must be updated directly in the Auto Scaling group. Keep in mind that some Auto Scaling group properties are periodically updated by Amazon GameLift FleetIQ as part of its balancing activities to optimize for availability and cost.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) CreateGameSession

func (c *Client) CreateGameSession(ctx context.Context, params *CreateGameSessionInput, optFns ...func(*Options)) (*CreateGameSessionOutput, error)

Creates a multiplayer game session for players in a specific fleet location. This operation prompts an available server process to start a game session and retrieves connection information for the new game session. As an alternative, consider using the Amazon GameLift game session placement feature with StartGameSessionPlacement, which uses the FleetIQ algorithm and queues to optimize the placement process.

When creating a game session, you specify exactly where you want to place it and provide a set of game session configuration settings. The target fleet must be in ACTIVE status.

You can use this operation in the following ways:

  • To create a game session on an instance in a fleet's home Region, provide a fleet or alias ID along with your game session configuration.

  • To create a game session on an instance in a fleet's remote location, provide a fleet or alias ID and a location name, along with your game session configuration.

  • To create a game session on an instance in an Anywhere fleet, specify the fleet's custom location.

If successful, Amazon GameLift initiates a workflow to start a new game session and returns a GameSession object containing the game session configuration and status. When the game session status is ACTIVE , it is updated with connection information and you can create player sessions for the game session. By default, newly created game sessions are open to new players. You can restrict new player access by using UpdateGameSessionto change the game session's player session creation policy.

Amazon GameLift retains logs for active for 14 days. To access the logs, call GetGameSessionLogUrl to download the log files.

Available in Amazon GameLift Local.

Learn more

Start a game session

All APIs by task

func (*Client) CreateGameSessionQueue

func (c *Client) CreateGameSessionQueue(ctx context.Context, params *CreateGameSessionQueueInput, optFns ...func(*Options)) (*CreateGameSessionQueueOutput, error)

Creates a placement queue that processes requests for new game sessions. A queue uses FleetIQ algorithms to determine the best placement locations and find an available game server there, then prompts the game server process to start a new game session.

A game session queue is configured with a set of destinations (Amazon GameLift fleets or aliases), which determine the locations where the queue can place new game sessions. These destinations can span multiple fleet types (Spot and On-Demand), instance types, and Amazon Web Services Regions. If the queue includes multi-location fleets, the queue is able to place game sessions in all of a fleet's remote locations. You can opt to filter out individual locations if needed.

The queue configuration also determines how FleetIQ selects the best available placement for a new game session. Before searching for an available game server, FleetIQ first prioritizes the queue's destinations and locations, with the best placement locations on top. You can set up the queue to use the FleetIQ default prioritization or provide an alternate set of priorities.

To create a new queue, provide a name, timeout value, and a list of destinations. Optionally, specify a sort configuration and/or a filter, and define a set of latency cap policies. You can also include the ARN for an Amazon Simple Notification Service (SNS) topic to receive notifications of game session placement activity. Notifications using SNS or CloudWatch events is the preferred way to track placement activity.

If successful, a new GameSessionQueue object is returned with an assigned queue ARN. New game session requests, which are submitted to queue with StartGameSessionPlacementor StartMatchmaking, reference a queue's name or ARN.

Learn more

Design a game session queue

Create a game session queue

CreateGameSessionQueue| DescribeGameSessionQueues | UpdateGameSessionQueue | DeleteGameSessionQueue | All APIs by task

func (*Client) CreateLocation added in v1.16.0

func (c *Client) CreateLocation(ctx context.Context, params *CreateLocationInput, optFns ...func(*Options)) (*CreateLocationOutput, error)

Creates a custom location for use in an Anywhere fleet.

func (*Client) CreateMatchmakingConfiguration

func (c *Client) CreateMatchmakingConfiguration(ctx context.Context, params *CreateMatchmakingConfigurationInput, optFns ...func(*Options)) (*CreateMatchmakingConfigurationOutput, error)

Defines a new matchmaking configuration for use with FlexMatch. Whether your are using FlexMatch with Amazon GameLift hosting or as a standalone matchmaking service, the matchmaking configuration sets out rules for matching players and forming teams. If you're also using Amazon GameLift hosting, it defines how to start game sessions for each match. Your matchmaking system can use multiple configurations to handle different game scenarios. All matchmaking requests identify the matchmaking configuration to use and provide player attributes consistent with that configuration.

To create a matchmaking configuration, you must provide the following: configuration name and FlexMatch mode (with or without Amazon GameLift hosting); a rule set that specifies how to evaluate players and find acceptable matches; whether player acceptance is required; and the maximum time allowed for a matchmaking attempt. When using FlexMatch with Amazon GameLift hosting, you also need to identify the game session queue to use when starting a game session for the match.

In addition, you must set up an Amazon Simple Notification Service topic to receive matchmaking notifications. Provide the topic ARN in the matchmaking configuration.

Learn more

Design a FlexMatch matchmaker

Set up FlexMatch event notification

func (*Client) CreateMatchmakingRuleSet

func (c *Client) CreateMatchmakingRuleSet(ctx context.Context, params *CreateMatchmakingRuleSetInput, optFns ...func(*Options)) (*CreateMatchmakingRuleSetOutput, error)

Creates a new rule set for FlexMatch matchmaking. A rule set describes the type of match to create, such as the number and size of teams. It also sets the parameters for acceptable player matches, such as minimum skill level or character type.

To create a matchmaking rule set, provide unique rule set name and the rule set body in JSON format. Rule sets must be defined in the same Region as the matchmaking configuration they are used with.

Since matchmaking rule sets cannot be edited, it is a good idea to check the rule set syntax using ValidateMatchmakingRuleSetbefore creating a new rule set.

Learn more

Build a rule set

Design a matchmaker

Matchmaking with FlexMatch

func (*Client) CreatePlayerSession

func (c *Client) CreatePlayerSession(ctx context.Context, params *CreatePlayerSessionInput, optFns ...func(*Options)) (*CreatePlayerSessionOutput, error)

Reserves an open player slot in a game session for a player. New player sessions can be created in any game session with an open slot that is in ACTIVE status and has a player creation policy of ACCEPT_ALL . You can add a group of players to a game session with CreatePlayerSessions.

To create a player session, specify a game session ID, player ID, and optionally a set of player data.

If successful, a slot is reserved in the game session for the player and a new PlayerSessions object is returned with a player session ID. The player references the player session ID when sending a connection request to the game session, and the game server can use it to validate the player reservation with the Amazon GameLift service. Player sessions cannot be updated.

The maximum number of players per game session is 200. It is not adjustable.

All APIs by task

func (*Client) CreatePlayerSessions

func (c *Client) CreatePlayerSessions(ctx context.Context, params *CreatePlayerSessionsInput, optFns ...func(*Options)) (*CreatePlayerSessionsOutput, error)

Reserves open slots in a game session for a group of players. New player sessions can be created in any game session with an open slot that is in ACTIVE status and has a player creation policy of ACCEPT_ALL . To add a single player to a game session, use CreatePlayerSession

To create player sessions, specify a game session ID and a list of player IDs. Optionally, provide a set of player data for each player ID.

If successful, a slot is reserved in the game session for each player, and new PlayerSession objects are returned with player session IDs. Each player references their player session ID when sending a connection request to the game session, and the game server can use it to validate the player reservation with the Amazon GameLift service. Player sessions cannot be updated.

The maximum number of players per game session is 200. It is not adjustable.

All APIs by task

func (*Client) CreateScript

func (c *Client) CreateScript(ctx context.Context, params *CreateScriptInput, optFns ...func(*Options)) (*CreateScriptOutput, error)

Creates a new script record for your Realtime Servers script. Realtime scripts are JavaScript that provide configuration settings and optional custom game logic for your game. The script is deployed when you create a Realtime Servers fleet to host your game sessions. Script logic is executed during an active game session.

To create a new script record, specify a script name and provide the script file(s). The script files and all dependencies must be zipped into a single file. You can pull the zip file from either of these locations:

  • A locally available directory. Use the ZipFile parameter for this option.

  • An Amazon Simple Storage Service (Amazon S3) bucket under your Amazon Web Services account. Use the StorageLocation parameter for this option. You'll need to have an Identity Access Management (IAM) role that allows the Amazon GameLift service to access your S3 bucket.

If the call is successful, a new script record is created with a unique script ID. If the script file is provided as a local file, the file is uploaded to an Amazon GameLift-owned S3 bucket and the script record's storage location reflects this location. If the script file is provided as an S3 bucket, Amazon GameLift accesses the file at this storage location as needed for deployment.

Learn more

Amazon GameLift Realtime Servers

Set Up a Role for Amazon GameLift Access

All APIs by task

func (*Client) CreateVpcPeeringAuthorization

func (c *Client) CreateVpcPeeringAuthorization(ctx context.Context, params *CreateVpcPeeringAuthorizationInput, optFns ...func(*Options)) (*CreateVpcPeeringAuthorizationOutput, error)

Requests authorization to create or delete a peer connection between the VPC for your Amazon GameLift fleet and a virtual private cloud (VPC) in your Amazon Web Services account. VPC peering enables the game servers on your fleet to communicate directly with other Amazon Web Services resources. After you've received authorization, use CreateVpcPeeringConnectionto establish the peering connection. For more information, see VPC Peering with Amazon GameLift Fleets.

You can peer with VPCs that are owned by any Amazon Web Services account you have access to, including the account that you use to manage your Amazon GameLift fleets. You cannot peer with VPCs that are in different Regions.

To request authorization to create a connection, call this operation from the Amazon Web Services account with the VPC that you want to peer to your Amazon GameLift fleet. For example, to enable your game servers to retrieve data from a DynamoDB table, use the account that manages that DynamoDB resource. Identify the following values: (1) The ID of the VPC that you want to peer with, and (2) the ID of the Amazon Web Services account that you use to manage Amazon GameLift. If successful, VPC peering is authorized for the specified VPC.

To request authorization to delete a connection, call this operation from the Amazon Web Services account with the VPC that is peered with your Amazon GameLift fleet. Identify the following values: (1) VPC ID that you want to delete the peering connection for, and (2) ID of the Amazon Web Services account that you use to manage Amazon GameLift.

The authorization remains valid for 24 hours unless it is canceled. You must create or delete the peering connection while the authorization is valid.

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func (*Client) CreateVpcPeeringConnection

func (c *Client) CreateVpcPeeringConnection(ctx context.Context, params *CreateVpcPeeringConnectionInput, optFns ...func(*Options)) (*CreateVpcPeeringConnectionOutput, error)

Establishes a VPC peering connection between a virtual private cloud (VPC) in an Amazon Web Services account with the VPC for your Amazon GameLift fleet. VPC peering enables the game servers on your fleet to communicate directly with other Amazon Web Services resources. You can peer with VPCs in any Amazon Web Services account that you have access to, including the account that you use to manage your Amazon GameLift fleets. You cannot peer with VPCs that are in different Regions. For more information, see VPC Peering with Amazon GameLift Fleets.

Before calling this operation to establish the peering connection, you first need to use CreateVpcPeeringAuthorizationand identify the VPC you want to peer with. Once the authorization for the specified VPC is issued, you have 24 hours to establish the connection. These two operations handle all tasks necessary to peer the two VPCs, including acceptance, updating routing tables, etc.

To establish the connection, call this operation from the Amazon Web Services account that is used to manage the Amazon GameLift fleets. Identify the following values: (1) The ID of the fleet you want to be enable a VPC peering connection for; (2) The Amazon Web Services account with the VPC that you want to peer with; and (3) The ID of the VPC you want to peer with. This operation is asynchronous. If successful, a connection request is created. You can use continuous polling to track the request's status using DescribeVpcPeeringConnections, or by monitoring fleet events for success or failure using DescribeFleetEvents.

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func (*Client) DeleteAlias

func (c *Client) DeleteAlias(ctx context.Context, params *DeleteAliasInput, optFns ...func(*Options)) (*DeleteAliasOutput, error)

Deletes an alias. This operation removes all record of the alias. Game clients attempting to access a server process using the deleted alias receive an error. To delete an alias, specify the alias ID to be deleted.

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func (*Client) DeleteBuild

func (c *Client) DeleteBuild(ctx context.Context, params *DeleteBuildInput, optFns ...func(*Options)) (*DeleteBuildOutput, error)

Deletes a build. This operation permanently deletes the build resource and any uploaded build files. Deleting a build does not affect the status of any active fleets using the build, but you can no longer create new fleets with the deleted build.

To delete a build, specify the build ID.

Learn more

Upload a Custom Server Build

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func (*Client) DeleteContainerGroupDefinition added in v1.31.0

func (c *Client) DeleteContainerGroupDefinition(ctx context.Context, params *DeleteContainerGroupDefinitionInput, optFns ...func(*Options)) (*DeleteContainerGroupDefinitionOutput, error)
This operation is used with the Amazon GameLift containers feature, which is

currently in public preview.

Deletes a container group definition resource. You can delete a container group definition if there are no fleets using the definition.

To delete a container group definition, identify the resource to delete.

Learn more

Manage a container group definition

func (*Client) DeleteFleet

func (c *Client) DeleteFleet(ctx context.Context, params *DeleteFleetInput, optFns ...func(*Options)) (*DeleteFleetOutput, error)

Deletes all resources and information related to a fleet and shuts down any currently running fleet instances, including those in remote locations.

If the fleet being deleted has a VPC peering connection, you first need to get a valid authorization (good for 24 hours) by calling CreateVpcPeeringAuthorization. You don't need to explicitly delete the VPC peering connection.

To delete a fleet, specify the fleet ID to be terminated. During the deletion process, the fleet status is changed to DELETING . When completed, the status switches to TERMINATED and the fleet event FLEET_DELETED is emitted.

Learn more

Setting up Amazon GameLift Fleets

func (*Client) DeleteFleetLocations added in v1.2.0

func (c *Client) DeleteFleetLocations(ctx context.Context, params *DeleteFleetLocationsInput, optFns ...func(*Options)) (*DeleteFleetLocationsOutput, error)

Removes locations from a multi-location fleet. When deleting a location, all game server process and all instances that are still active in the location are shut down.

To delete fleet locations, identify the fleet ID and provide a list of the locations to be deleted.

If successful, GameLift sets the location status to DELETING , and begins to shut down existing server processes and terminate instances in each location being deleted. When completed, the location status changes to TERMINATED .

Learn more

Setting up Amazon GameLift fleets

func (*Client) DeleteGameServerGroup

func (c *Client) DeleteGameServerGroup(ctx context.Context, params *DeleteGameServerGroupInput, optFns ...func(*Options)) (*DeleteGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Terminates a game server group and permanently deletes the game server group record. You have several options for how these resources are impacted when deleting the game server group. Depending on the type of delete operation selected, this operation might affect these resources:

  • The game server group

  • The corresponding Auto Scaling group

  • All game servers that are currently running in the group

To delete a game server group, identify the game server group to delete and specify the type of delete operation to initiate. Game server groups can only be deleted if they are in ACTIVE or ERROR status.

If the delete request is successful, a series of operations are kicked off. The game server group status is changed to DELETE_SCHEDULED , which prevents new game servers from being registered and stops automatic scaling activity. Once all game servers in the game server group are deregistered, Amazon GameLift FleetIQ can begin deleting resources. If any of the delete operations fail, the game server group is placed in ERROR status.

Amazon GameLift FleetIQ emits delete events to Amazon CloudWatch.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) DeleteGameSessionQueue

func (c *Client) DeleteGameSessionQueue(ctx context.Context, params *DeleteGameSessionQueueInput, optFns ...func(*Options)) (*DeleteGameSessionQueueOutput, error)

Deletes a game session queue. Once a queue is successfully deleted, unfulfilled StartGameSessionPlacement requests that reference the queue will fail. To delete a queue, specify the queue name.

func (*Client) DeleteLocation added in v1.16.0

func (c *Client) DeleteLocation(ctx context.Context, params *DeleteLocationInput, optFns ...func(*Options)) (*DeleteLocationOutput, error)

Deletes a custom location.

Before deleting a custom location, review any fleets currently using the custom location and deregister the location if it is in use. For more information, see DeregisterCompute .

func (*Client) DeleteMatchmakingConfiguration

func (c *Client) DeleteMatchmakingConfiguration(ctx context.Context, params *DeleteMatchmakingConfigurationInput, optFns ...func(*Options)) (*DeleteMatchmakingConfigurationOutput, error)

Permanently removes a FlexMatch matchmaking configuration. To delete, specify the configuration name. A matchmaking configuration cannot be deleted if it is being used in any active matchmaking tickets.

func (*Client) DeleteMatchmakingRuleSet

func (c *Client) DeleteMatchmakingRuleSet(ctx context.Context, params *DeleteMatchmakingRuleSetInput, optFns ...func(*Options)) (*DeleteMatchmakingRuleSetOutput, error)

Deletes an existing matchmaking rule set. To delete the rule set, provide the rule set name. Rule sets cannot be deleted if they are currently being used by a matchmaking configuration.

Learn more

Build a rule set

func (*Client) DeleteScalingPolicy

func (c *Client) DeleteScalingPolicy(ctx context.Context, params *DeleteScalingPolicyInput, optFns ...func(*Options)) (*DeleteScalingPolicyOutput, error)

Deletes a fleet scaling policy. Once deleted, the policy is no longer in force and Amazon GameLift removes all record of it. To delete a scaling policy, specify both the scaling policy name and the fleet ID it is associated with.

To temporarily suspend scaling policies, use StopFleetActions. This operation suspends all policies for the fleet.

func (*Client) DeleteScript

func (c *Client) DeleteScript(ctx context.Context, params *DeleteScriptInput, optFns ...func(*Options)) (*DeleteScriptOutput, error)

Deletes a Realtime script. This operation permanently deletes the script record. If script files were uploaded, they are also deleted (files stored in an S3 bucket are not deleted).

To delete a script, specify the script ID. Before deleting a script, be sure to terminate all fleets that are deployed with the script being deleted. Fleet instances periodically check for script updates, and if the script record no longer exists, the instance will go into an error state and be unable to host game sessions.

Learn more

Amazon GameLift Realtime Servers

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func (*Client) DeleteVpcPeeringAuthorization

func (c *Client) DeleteVpcPeeringAuthorization(ctx context.Context, params *DeleteVpcPeeringAuthorizationInput, optFns ...func(*Options)) (*DeleteVpcPeeringAuthorizationOutput, error)

Cancels a pending VPC peering authorization for the specified VPC. If you need to delete an existing VPC peering connection, use DeleteVpcPeeringConnection.

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func (*Client) DeleteVpcPeeringConnection

func (c *Client) DeleteVpcPeeringConnection(ctx context.Context, params *DeleteVpcPeeringConnectionInput, optFns ...func(*Options)) (*DeleteVpcPeeringConnectionOutput, error)

Removes a VPC peering connection. To delete the connection, you must have a valid authorization for the VPC peering connection that you want to delete..

Once a valid authorization exists, call this operation from the Amazon Web Services account that is used to manage the Amazon GameLift fleets. Identify the connection to delete by the connection ID and fleet ID. If successful, the connection is removed.

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func (*Client) DeregisterCompute added in v1.16.0

func (c *Client) DeregisterCompute(ctx context.Context, params *DeregisterComputeInput, optFns ...func(*Options)) (*DeregisterComputeOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Removes a compute resource from an Amazon GameLift Anywhere fleet or container fleet. Deregistered computes can no longer host game sessions through Amazon GameLift.

For an Anywhere fleet or a container fleet that's running the Amazon GameLift Agent, the Agent handles all compute registry tasks for you. For an Anywhere fleet that doesn't use the Agent, call this operation to deregister fleet computes.

To deregister a compute, call this operation from the compute that's being deregistered and specify the compute name and the fleet ID.

func (*Client) DeregisterGameServer

func (c *Client) DeregisterGameServer(ctx context.Context, params *DeregisterGameServerInput, optFns ...func(*Options)) (*DeregisterGameServerOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Removes the game server from a game server group. As a result of this operation, the deregistered game server can no longer be claimed and will not be returned in a list of active game servers.

To deregister a game server, specify the game server group and game server ID. If successful, this operation emits a CloudWatch event with termination timestamp and reason.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) DescribeAlias

func (c *Client) DescribeAlias(ctx context.Context, params *DescribeAliasInput, optFns ...func(*Options)) (*DescribeAliasOutput, error)

Retrieves properties for an alias. This operation returns all alias metadata and settings. To get an alias's target fleet ID only, use ResolveAlias .

To get alias properties, specify the alias ID. If successful, the requested alias record is returned.

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func (*Client) DescribeBuild

func (c *Client) DescribeBuild(ctx context.Context, params *DescribeBuildInput, optFns ...func(*Options)) (*DescribeBuildOutput, error)

Retrieves properties for a custom game build. To request a build resource, specify a build ID. If successful, an object containing the build properties is returned.

Learn more

Upload a Custom Server Build

All APIs by task

func (*Client) DescribeCompute added in v1.16.0

func (c *Client) DescribeCompute(ctx context.Context, params *DescribeComputeInput, optFns ...func(*Options)) (*DescribeComputeOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Retrieves properties for a compute resource in an Amazon GameLift fleet. To get a list of all computes in a fleet, call ListCompute.

To request information on a specific compute, provide the fleet ID and compute name.

If successful, this operation returns details for the requested compute resource. Depending on the fleet's compute type, the result includes the following information:

  • For EC2 fleets, this operation returns information about the EC2 instance.

  • For ANYWHERE fleets, this operation returns information about the registered compute.

  • For CONTAINER fleets, this operation returns information about the container that's registered as a compute, and the instance it's running on. The compute name is the container name.

func (*Client) DescribeContainerGroupDefinition added in v1.31.0

func (c *Client) DescribeContainerGroupDefinition(ctx context.Context, params *DescribeContainerGroupDefinitionInput, optFns ...func(*Options)) (*DescribeContainerGroupDefinitionOutput, error)
This operation is used with the Amazon GameLift containers feature, which is

currently in public preview.

Retrieves the properties of a container group definition, including all container definitions in the group.

To retrieve a container group definition, provide a resource identifier. If successful, this operation returns the complete properties of the container group definition.

Learn more

Manage a container group definition

func (*Client) DescribeEC2InstanceLimits

func (c *Client) DescribeEC2InstanceLimits(ctx context.Context, params *DescribeEC2InstanceLimitsInput, optFns ...func(*Options)) (*DescribeEC2InstanceLimitsOutput, error)

Retrieves the instance limits and current utilization for an Amazon Web Services Region or location. Instance limits control the number of instances, per instance type, per location, that your Amazon Web Services account can use. Learn more at Amazon EC2 Instance Types. The information returned includes the maximum number of instances allowed and your account's current usage across all fleets. This information can affect your ability to scale your Amazon GameLift fleets. You can request a limit increase for your account by using the Service limits page in the Amazon GameLift console.

Instance limits differ based on whether the instances are deployed in a fleet's home Region or in a remote location. For remote locations, limits also differ based on the combination of home Region and remote location. All requests must specify an Amazon Web Services Region (either explicitly or as your default settings). To get the limit for a remote location, you must also specify the location. For example, the following requests all return different results:

  • Request specifies the Region ap-northeast-1 with no location. The result is limits and usage data on all instance types that are deployed in us-east-2 , by all of the fleets that reside in ap-northeast-1 .

  • Request specifies the Region us-east-1 with location ca-central-1 . The result is limits and usage data on all instance types that are deployed in ca-central-1 , by all of the fleets that reside in us-east-2 . These limits do not affect fleets in any other Regions that deploy instances to ca-central-1 .

  • Request specifies the Region eu-west-1 with location ca-central-1 . The result is limits and usage data on all instance types that are deployed in ca-central-1 , by all of the fleets that reside in eu-west-1 .

This operation can be used in the following ways:

  • To get limit and usage data for all instance types that are deployed in an Amazon Web Services Region by fleets that reside in the same Region: Specify the Region only. Optionally, specify a single instance type to retrieve information for.

  • To get limit and usage data for all instance types that are deployed to a remote location by fleets that reside in different Amazon Web Services Region: Provide both the Amazon Web Services Region and the remote location. Optionally, specify a single instance type to retrieve information for.

If successful, an EC2InstanceLimits object is returned with limits and usage data for each requested instance type.

Learn more

Setting up Amazon GameLift fleets

func (*Client) DescribeFleetAttributes

func (c *Client) DescribeFleetAttributes(ctx context.Context, params *DescribeFleetAttributesInput, optFns ...func(*Options)) (*DescribeFleetAttributesOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Retrieves core fleet-wide properties for fleets in an Amazon Web Services Region. Properties include the computing hardware and deployment configuration for instances in the fleet.

You can use this operation in the following ways:

  • To get attributes for specific fleets, provide a list of fleet IDs or fleet ARNs.

  • To get attributes for all fleets, do not provide a fleet identifier.

When requesting attributes for multiple fleets, use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a FleetAttributes object is returned for each fleet requested, unless the fleet identifier is not found.

Some API operations limit the number of fleet IDs that allowed in one request. If a request exceeds this limit, the request fails and the error message contains the maximum allowed number.

Learn more

Setting up Amazon GameLift fleets

func (*Client) DescribeFleetCapacity

func (c *Client) DescribeFleetCapacity(ctx context.Context, params *DescribeFleetCapacityInput, optFns ...func(*Options)) (*DescribeFleetCapacityOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Retrieves the resource capacity settings for one or more fleets. For a container fleet, this operation also returns counts for replica container groups.

With multi-location fleets, this operation retrieves data for the fleet's home Region only. To retrieve capacity for remote locations, see DescribeFleetLocationCapacity.

This operation can be used in the following ways:

  • To get capacity data for one or more specific fleets, provide a list of fleet IDs or fleet ARNs.

  • To get capacity data for all fleets, do not provide a fleet identifier.

When requesting multiple fleets, use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a FleetCapacity object is returned for each requested fleet ID. Each FleetCapacity object includes a Location property, which is set to the fleet's home Region. Capacity values are returned only for fleets that currently exist.

Some API operations may limit the number of fleet IDs that are allowed in one request. If a request exceeds this limit, the request fails and the error message includes the maximum allowed.

Learn more

Setting up Amazon GameLift fleets

GameLift metrics for fleets

func (*Client) DescribeFleetEvents

func (c *Client) DescribeFleetEvents(ctx context.Context, params *DescribeFleetEventsInput, optFns ...func(*Options)) (*DescribeFleetEventsOutput, error)

Retrieves entries from a fleet's event log. Fleet events are initiated by changes in status, such as during fleet creation and termination, changes in capacity, etc. If a fleet has multiple locations, events are also initiated by changes to status and capacity in remote locations.

You can specify a time range to limit the result set. Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a collection of event log entries matching the request are returned.

Learn more

Setting up Amazon GameLift fleets

func (*Client) DescribeFleetLocationAttributes added in v1.2.0

func (c *Client) DescribeFleetLocationAttributes(ctx context.Context, params *DescribeFleetLocationAttributesInput, optFns ...func(*Options)) (*DescribeFleetLocationAttributesOutput, error)

Retrieves information on a fleet's remote locations, including life-cycle status and any suspended fleet activity.

This operation can be used in the following ways:

  • To get data for specific locations, provide a fleet identifier and a list of locations. Location data is returned in the order that it is requested.

  • To get data for all locations, provide a fleet identifier only. Location data is returned in no particular order.

When requesting attributes for multiple locations, use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a LocationAttributes object is returned for each requested location. If the fleet does not have a requested location, no information is returned. This operation does not return the home Region. To get information on a fleet's home Region, call DescribeFleetAttributes .

Learn more

Setting up Amazon GameLift fleets

Amazon GameLift service locationsfor managed hosting

func (*Client) DescribeFleetLocationCapacity added in v1.2.0

func (c *Client) DescribeFleetLocationCapacity(ctx context.Context, params *DescribeFleetLocationCapacityInput, optFns ...func(*Options)) (*DescribeFleetLocationCapacityOutput, error)

Retrieves the resource capacity settings for a fleet location. The data returned includes the current capacity (number of EC2 instances) and some scaling settings for the requested fleet location. For a container fleet, this operation also returns counts for replica container groups.

Use this operation to retrieve capacity information for a fleet's remote location or home Region (you can also retrieve home Region capacity by calling DescribeFleetCapacity ).

To retrieve capacity data, identify a fleet and location.

If successful, a FleetCapacity object is returned for the requested fleet location.

Learn more

Setting up Amazon GameLift fleets

Amazon GameLift service locationsfor managed hosting

GameLift metrics for fleets

func (*Client) DescribeFleetLocationUtilization added in v1.2.0

func (c *Client) DescribeFleetLocationUtilization(ctx context.Context, params *DescribeFleetLocationUtilizationInput, optFns ...func(*Options)) (*DescribeFleetLocationUtilizationOutput, error)

Retrieves current usage data for a fleet location. Utilization data provides a snapshot of current game hosting activity at the requested location. Use this operation to retrieve utilization information for a fleet's remote location or home Region (you can also retrieve home Region utilization by calling DescribeFleetUtilization ).

To retrieve utilization data, identify a fleet and location.

If successful, a FleetUtilization object is returned for the requested fleet location.

Learn more

Setting up Amazon GameLift fleets

Amazon GameLift service locationsfor managed hosting

GameLift metrics for fleets

func (*Client) DescribeFleetPortSettings

func (c *Client) DescribeFleetPortSettings(ctx context.Context, params *DescribeFleetPortSettingsInput, optFns ...func(*Options)) (*DescribeFleetPortSettingsOutput, error)

Retrieves a fleet's inbound connection permissions. Connection permissions specify IP addresses and port settings that incoming traffic can use to access server processes in the fleet. Game server processes that are running in the fleet must use a port that falls within this range. To connect to game server processes on a container fleet, the port settings should include one or more of the fleet's connection ports.

Use this operation in the following ways:

  • To retrieve the port settings for a fleet, identify the fleet's unique identifier.

  • To check the status of recent updates to a fleet remote location, specify the fleet ID and a location. Port setting updates can take time to propagate across all locations.

If successful, a set of IpPermission objects is returned for the requested fleet ID. When specifying a location, this operation returns a pending status. If the requested fleet has been deleted, the result set is empty.

Learn more

Setting up Amazon GameLift fleets

func (*Client) DescribeFleetUtilization

func (c *Client) DescribeFleetUtilization(ctx context.Context, params *DescribeFleetUtilizationInput, optFns ...func(*Options)) (*DescribeFleetUtilizationOutput, error)

Retrieves utilization statistics for one or more fleets. Utilization data provides a snapshot of how the fleet's hosting resources are currently being used. For fleets with remote locations, this operation retrieves data for the fleet's home Region only. See DescribeFleetLocationUtilizationto get utilization statistics for a fleet's remote locations.

This operation can be used in the following ways:

  • To get utilization data for one or more specific fleets, provide a list of fleet IDs or fleet ARNs.

  • To get utilization data for all fleets, do not provide a fleet identifier.

When requesting multiple fleets, use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a FleetUtilization object is returned for each requested fleet ID, unless the fleet identifier is not found. Each fleet utilization object includes a Location property, which is set to the fleet's home Region.

Some API operations may limit the number of fleet IDs allowed in one request. If a request exceeds this limit, the request fails and the error message includes the maximum allowed.

Learn more

Setting up Amazon GameLift Fleets

GameLift Metrics for Fleets

func (*Client) DescribeGameServer

func (c *Client) DescribeGameServer(ctx context.Context, params *DescribeGameServerInput, optFns ...func(*Options)) (*DescribeGameServerOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Retrieves information for a registered game server. Information includes game server status, health check info, and the instance that the game server is running on.

To retrieve game server information, specify the game server ID. If successful, the requested game server object is returned.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) DescribeGameServerGroup

func (c *Client) DescribeGameServerGroup(ctx context.Context, params *DescribeGameServerGroupInput, optFns ...func(*Options)) (*DescribeGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Retrieves information on a game server group. This operation returns only properties related to Amazon GameLift FleetIQ. To view or update properties for the corresponding Auto Scaling group, such as launch template, auto scaling policies, and maximum/minimum group size, access the Auto Scaling group directly.

To get attributes for a game server group, provide a group name or ARN value. If successful, a GameServerGroup object is returned.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) DescribeGameServerInstances added in v0.29.0

func (c *Client) DescribeGameServerInstances(ctx context.Context, params *DescribeGameServerInstancesInput, optFns ...func(*Options)) (*DescribeGameServerInstancesOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Retrieves status information about the Amazon EC2 instances associated with a Amazon GameLift FleetIQ game server group. Use this operation to detect when instances are active or not available to host new game servers.

To request status for all instances in the game server group, provide a game server group ID only. To request status for specific instances, provide the game server group ID and one or more instance IDs. Use the pagination parameters to retrieve results in sequential segments. If successful, a collection of GameServerInstance objects is returned.

This operation is not designed to be called with every game server claim request; this practice can cause you to exceed your API limit, which results in errors. Instead, as a best practice, cache the results and refresh your cache no more than once every 10 seconds.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) DescribeGameSessionDetails

func (c *Client) DescribeGameSessionDetails(ctx context.Context, params *DescribeGameSessionDetailsInput, optFns ...func(*Options)) (*DescribeGameSessionDetailsOutput, error)

Retrieves additional game session properties, including the game session protection policy in force, a set of one or more game sessions in a specific fleet location. You can optionally filter the results by current game session status.

This operation can be used in the following ways:

  • To retrieve details for all game sessions that are currently running on all locations in a fleet, provide a fleet or alias ID, with an optional status filter. This approach returns details from the fleet's home Region and all remote locations.

  • To retrieve details for all game sessions that are currently running on a specific fleet location, provide a fleet or alias ID and a location name, with optional status filter. The location can be the fleet's home Region or any remote location.

  • To retrieve details for a specific game session, provide the game session ID. This approach looks for the game session ID in all fleets that reside in the Amazon Web Services Region defined in the request.

Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a GameSessionDetail object is returned for each game session that matches the request.

Learn more

Find a game session

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func (*Client) DescribeGameSessionPlacement

func (c *Client) DescribeGameSessionPlacement(ctx context.Context, params *DescribeGameSessionPlacementInput, optFns ...func(*Options)) (*DescribeGameSessionPlacementOutput, error)

Retrieves information, including current status, about a game session placement request.

To get game session placement details, specify the placement ID.

This operation is not designed to be continually called to track game session status. This practice can cause you to exceed your API limit, which results in errors. Instead, you must configure configure an Amazon Simple Notification Service (SNS) topic to receive notifications from FlexMatch or queues. Continuously polling with DescribeGameSessionPlacement should only be used for games in development with low game session usage.

func (*Client) DescribeGameSessionQueues

func (c *Client) DescribeGameSessionQueues(ctx context.Context, params *DescribeGameSessionQueuesInput, optFns ...func(*Options)) (*DescribeGameSessionQueuesOutput, error)

Retrieves the properties for one or more game session queues. When requesting multiple queues, use the pagination parameters to retrieve results as a set of sequential pages. When specifying a list of queues, objects are returned only for queues that currently exist in the Region.

Learn more

View Your Queues

func (*Client) DescribeGameSessions

func (c *Client) DescribeGameSessions(ctx context.Context, params *DescribeGameSessionsInput, optFns ...func(*Options)) (*DescribeGameSessionsOutput, error)

Retrieves a set of one or more game sessions in a specific fleet location. You can optionally filter the results by current game session status.

This operation can be used in the following ways:

  • To retrieve all game sessions that are currently running on all locations in a fleet, provide a fleet or alias ID, with an optional status filter. This approach returns all game sessions in the fleet's home Region and all remote locations.

  • To retrieve all game sessions that are currently running on a specific fleet location, provide a fleet or alias ID and a location name, with optional status filter. The location can be the fleet's home Region or any remote location.

  • To retrieve a specific game session, provide the game session ID. This approach looks for the game session ID in all fleets that reside in the Amazon Web Services Region defined in the request.

Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a GameSession object is returned for each game session that matches the request.

This operation is not designed to be continually called to track game session status. This practice can cause you to exceed your API limit, which results in errors. Instead, you must configure an Amazon Simple Notification Service (SNS) topic to receive notifications from FlexMatch or queues. Continuously polling with DescribeGameSessions should only be used for games in development with low game session usage.

Available in Amazon GameLift Local.

Learn more

Find a game session

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func (*Client) DescribeInstances

func (c *Client) DescribeInstances(ctx context.Context, params *DescribeInstancesInput, optFns ...func(*Options)) (*DescribeInstancesOutput, error)

Retrieves information about the EC2 instances in an Amazon GameLift managed fleet, including instance ID, connection data, and status. You can use this operation with a multi-location fleet to get location-specific instance information. As an alternative, use the operations ListComputeand DescribeCompute to retrieve information for compute resources, including EC2 and Anywhere fleets.

You can call this operation in the following ways:

  • To get information on all instances in a fleet's home Region, specify the fleet ID.

  • To get information on all instances in a fleet's remote location, specify the fleet ID and location name.

  • To get information on a specific instance in a fleet, specify the fleet ID and instance ID.

Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, this operation returns Instance objects for each requested instance, listed in no particular order. If you call this operation for an Anywhere fleet, you receive an InvalidRequestException.

Learn more

Remotely connect to fleet instances

Debug fleet issues

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func (*Client) DescribeMatchmaking

func (c *Client) DescribeMatchmaking(ctx context.Context, params *DescribeMatchmakingInput, optFns ...func(*Options)) (*DescribeMatchmakingOutput, error)

Retrieves one or more matchmaking tickets. Use this operation to retrieve ticket information, including--after a successful match is made--connection information for the resulting new game session.

To request matchmaking tickets, provide a list of up to 10 ticket IDs. If the request is successful, a ticket object is returned for each requested ID that currently exists.

This operation is not designed to be continually called to track matchmaking ticket status. This practice can cause you to exceed your API limit, which results in errors. Instead, as a best practice, set up an Amazon Simple Notification Service to receive notifications, and provide the topic ARN in the matchmaking configuration.

Learn more

Add FlexMatch to a game client

Set Up FlexMatch event notification

func (*Client) DescribeMatchmakingConfigurations

func (c *Client) DescribeMatchmakingConfigurations(ctx context.Context, params *DescribeMatchmakingConfigurationsInput, optFns ...func(*Options)) (*DescribeMatchmakingConfigurationsOutput, error)

Retrieves the details of FlexMatch matchmaking configurations.

This operation offers the following options: (1) retrieve all matchmaking configurations, (2) retrieve configurations for a specified list, or (3) retrieve all configurations that use a specified rule set name. When requesting multiple items, use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a configuration is returned for each requested name. When specifying a list of names, only configurations that currently exist are returned.

Learn more

Setting up FlexMatch matchmakers

func (*Client) DescribeMatchmakingRuleSets

func (c *Client) DescribeMatchmakingRuleSets(ctx context.Context, params *DescribeMatchmakingRuleSetsInput, optFns ...func(*Options)) (*DescribeMatchmakingRuleSetsOutput, error)

Retrieves the details for FlexMatch matchmaking rule sets. You can request all existing rule sets for the Region, or provide a list of one or more rule set names. When requesting multiple items, use the pagination parameters to retrieve results as a set of sequential pages. If successful, a rule set is returned for each requested name.

Learn more

Build a rule set

func (*Client) DescribePlayerSessions

func (c *Client) DescribePlayerSessions(ctx context.Context, params *DescribePlayerSessionsInput, optFns ...func(*Options)) (*DescribePlayerSessionsOutput, error)

Retrieves properties for one or more player sessions.

This action can be used in the following ways:

  • To retrieve a specific player session, provide the player session ID only.

  • To retrieve all player sessions in a game session, provide the game session ID only.

  • To retrieve all player sessions for a specific player, provide a player ID only.

To request player sessions, specify either a player session ID, game session ID, or player ID. You can filter this request by player session status. If you provide a specific PlayerSessionId or PlayerId , Amazon GameLift ignores the filter criteria. Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a PlayerSession object is returned for each session that matches the request.

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func (*Client) DescribeRuntimeConfiguration

func (c *Client) DescribeRuntimeConfiguration(ctx context.Context, params *DescribeRuntimeConfigurationInput, optFns ...func(*Options)) (*DescribeRuntimeConfigurationOutput, error)

Retrieves a fleet's runtime configuration settings. The runtime configuration determines which server processes run, and how, on computes in the fleet. For managed EC2 fleets, the runtime configuration describes server processes that run on each fleet instance. For container fleets, the runtime configuration describes server processes that run in each replica container group. You can update a fleet's runtime configuration at any time using UpdateRuntimeConfiguration.

To get the current runtime configuration for a fleet, provide the fleet ID.

If successful, a RuntimeConfiguration object is returned for the requested fleet. If the requested fleet has been deleted, the result set is empty.

Learn more

Setting up Amazon GameLift fleets

Running multiple processes on a fleet

func (*Client) DescribeScalingPolicies

func (c *Client) DescribeScalingPolicies(ctx context.Context, params *DescribeScalingPoliciesInput, optFns ...func(*Options)) (*DescribeScalingPoliciesOutput, error)

Retrieves all scaling policies applied to a fleet.

To get a fleet's scaling policies, specify the fleet ID. You can filter this request by policy status, such as to retrieve only active scaling policies. Use the pagination parameters to retrieve results as a set of sequential pages. If successful, set of ScalingPolicy objects is returned for the fleet.

A fleet may have all of its scaling policies suspended. This operation does not affect the status of the scaling policies, which remains ACTIVE.

func (*Client) DescribeScript

func (c *Client) DescribeScript(ctx context.Context, params *DescribeScriptInput, optFns ...func(*Options)) (*DescribeScriptOutput, error)

Retrieves properties for a Realtime script.

To request a script record, specify the script ID. If successful, an object containing the script properties is returned.

Learn more

Amazon GameLift Realtime Servers

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func (*Client) DescribeVpcPeeringAuthorizations

func (c *Client) DescribeVpcPeeringAuthorizations(ctx context.Context, params *DescribeVpcPeeringAuthorizationsInput, optFns ...func(*Options)) (*DescribeVpcPeeringAuthorizationsOutput, error)

Retrieves valid VPC peering authorizations that are pending for the Amazon Web Services account. This operation returns all VPC peering authorizations and requests for peering. This includes those initiated and received by this account.

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func (*Client) DescribeVpcPeeringConnections

func (c *Client) DescribeVpcPeeringConnections(ctx context.Context, params *DescribeVpcPeeringConnectionsInput, optFns ...func(*Options)) (*DescribeVpcPeeringConnectionsOutput, error)

Retrieves information on VPC peering connections. Use this operation to get peering information for all fleets or for one specific fleet ID.

To retrieve connection information, call this operation from the Amazon Web Services account that is used to manage the Amazon GameLift fleets. Specify a fleet ID or leave the parameter empty to retrieve all connection records. If successful, the retrieved information includes both active and pending connections. Active connections identify the IpV4 CIDR block that the VPC uses to connect.

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func (*Client) GetComputeAccess added in v1.16.0

func (c *Client) GetComputeAccess(ctx context.Context, params *GetComputeAccessInput, optFns ...func(*Options)) (*GetComputeAccessOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Requests authorization to remotely connect to a hosting resource in a Amazon GameLift managed fleet. This operation is not used with Amazon GameLift Anywhere fleets

To request access, specify the compute name and the fleet ID. If successful, this operation returns a set of temporary Amazon Web Services credentials, including a two-part access key and a session token.

EC2 fleets

With an EC2 fleet (where compute type is EC2 ), use these credentials with Amazon EC2 Systems Manager (SSM) to start a session with the compute. For more details, see Starting a session (CLI)in the Amazon EC2 Systems Manager User Guide.

Container fleets

With a container fleet (where compute type is CONTAINER ), use these credentials and the target value with SSM to connect to the fleet instance where the container is running. After you're connected to the instance, use Docker commands to interact with the container.

Learn more

Remotely connect to fleet instances

Debug fleet issues

func (*Client) GetComputeAuthToken added in v1.16.0

func (c *Client) GetComputeAuthToken(ctx context.Context, params *GetComputeAuthTokenInput, optFns ...func(*Options)) (*GetComputeAuthTokenOutput, error)

Requests an authentication token from Amazon GameLift for a compute resource in an Amazon GameLift Anywhere fleet or container fleet. Game servers that are running on the compute use this token to communicate with the Amazon GameLift service, such as when calling the Amazon GameLift server SDK action InitSDK() . Authentication tokens are valid for a limited time span, so you need to request a fresh token before the current token expires.

Use this operation based on the fleet compute type:

  • For EC2 fleets, auth token retrieval and refresh is handled automatically. All game servers that are running on all fleet instances have access to a valid auth token.

  • For ANYWHERE and CONTAINER fleets, if you're using the Amazon GameLift Agent, auth token retrieval and refresh is handled automatically for any container or Anywhere compute where the Agent is running. If you're not using the Agent, create a mechanism to retrieve and refresh auth tokens for computes that are running game server processes.

Learn more

Create an Anywhere fleet

Test your integration

Server SDK reference guides

  • (for version 5.x)

func (*Client) GetGameSessionLogUrl

func (c *Client) GetGameSessionLogUrl(ctx context.Context, params *GetGameSessionLogUrlInput, optFns ...func(*Options)) (*GetGameSessionLogUrlOutput, error)

Retrieves the location of stored game session logs for a specified game session on Amazon GameLift managed fleets. When a game session is terminated, Amazon GameLift automatically stores the logs in Amazon S3 and retains them for 14 days. Use this URL to download the logs.

See the Amazon Web Services Service Limits page for maximum log file sizes. Log files that exceed this limit are not saved.

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func (*Client) GetInstanceAccess

func (c *Client) GetInstanceAccess(ctx context.Context, params *GetInstanceAccessInput, optFns ...func(*Options)) (*GetInstanceAccessOutput, error)

Requests authorization to remotely connect to an instance in an Amazon GameLift managed fleet. Use this operation to connect to instances with game servers that use Amazon GameLift server SDK 4.x or earlier. To connect to instances with game servers that use server SDK 5.x or later, call GetComputeAccess.

To request access to an instance, specify IDs for the instance and the fleet it belongs to. You can retrieve instance IDs for a fleet by calling DescribeInstanceswith the fleet ID.

If successful, this operation returns an IP address and credentials. The returned credentials match the operating system of the instance, as follows:

  • For a Windows instance: returns a user name and secret (password) for use with a Windows Remote Desktop client.

  • For a Linux instance: returns a user name and secret (RSA private key) for use with an SSH client. You must save the secret to a .pem file. If you're using the CLI, see the example Get credentials for a Linux instancefor tips on automatically saving the secret to a .pem file.

Learn more

Remotely connect to fleet instances

Debug fleet issues

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func (*Client) ListAliases

func (c *Client) ListAliases(ctx context.Context, params *ListAliasesInput, optFns ...func(*Options)) (*ListAliasesOutput, error)

Retrieves all aliases for this Amazon Web Services account. You can filter the result set by alias name and/or routing strategy type. Use the pagination parameters to retrieve results in sequential pages.

Returned aliases are not listed in any particular order.

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func (*Client) ListBuilds

func (c *Client) ListBuilds(ctx context.Context, params *ListBuildsInput, optFns ...func(*Options)) (*ListBuildsOutput, error)

Retrieves build resources for all builds associated with the Amazon Web Services account in use. You can limit results to builds that are in a specific status by using the Status parameter. Use the pagination parameters to retrieve results in a set of sequential pages.

Build resources are not listed in any particular order.

Learn more

Upload a Custom Server Build

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func (*Client) ListCompute added in v1.16.0

func (c *Client) ListCompute(ctx context.Context, params *ListComputeInput, optFns ...func(*Options)) (*ListComputeOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Retrieves information on the compute resources in an Amazon GameLift fleet.

To request a list of computes, specify the fleet ID. Use the pagination parameters to retrieve results in a set of sequential pages.

You can filter the result set by location.

If successful, this operation returns information on all computes in the requested fleet. Depending on the fleet's compute type, the result includes the following information:

  • For EC2 fleets, this operation returns information about the EC2 instance. Compute names are instance IDs.

  • For ANYWHERE fleets, this operation returns the compute names and details provided when the compute was registered with RegisterCompute . The GameLiftServiceSdkEndpoint or GameLiftAgentEndpoint is included.

  • For CONTAINER fleets, this operation returns information about containers that are registered as computes, and the instances they're running on. Compute names are container names.

func (*Client) ListContainerGroupDefinitions added in v1.31.0

func (c *Client) ListContainerGroupDefinitions(ctx context.Context, params *ListContainerGroupDefinitionsInput, optFns ...func(*Options)) (*ListContainerGroupDefinitionsOutput, error)
This operation is used with the Amazon GameLift containers feature, which is

currently in public preview.

Retrieves all container group definitions for the Amazon Web Services account and Amazon Web Services Region that are currently in use. You can filter the result set by the container groups' scheduling strategy. Use the pagination parameters to retrieve results in a set of sequential pages.

This operation returns the list of container group definitions in no particular order.

Learn more

Manage a container group definition

func (*Client) ListFleets

func (c *Client) ListFleets(ctx context.Context, params *ListFleetsInput, optFns ...func(*Options)) (*ListFleetsOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Retrieves a collection of fleet resources in an Amazon Web Services Region. You can filter the result set to find only those fleets that are deployed with a specific build or script. For fleets that have multiple locations, this operation retrieves fleets based on their home Region only.

You can use operation in the following ways:

  • To get a list of all fleets in a Region, don't provide a build or script identifier.

  • To get a list of all fleets where a specific game build is deployed, provide the build ID.

  • To get a list of all Realtime Servers fleets with a specific configuration script, provide the script ID.

  • To get a list of all fleets with a specific container group definition, provide the ContainerGroupDefinition ID.

Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, this operation returns a list of fleet IDs that match the request parameters. A NextToken value is also returned if there are more result pages to retrieve.

Fleet IDs are returned in no particular order.

func (*Client) ListGameServerGroups

func (c *Client) ListGameServerGroups(ctx context.Context, params *ListGameServerGroupsInput, optFns ...func(*Options)) (*ListGameServerGroupsOutput, error)

Lists a game server groups.

func (*Client) ListGameServers

func (c *Client) ListGameServers(ctx context.Context, params *ListGameServersInput, optFns ...func(*Options)) (*ListGameServersOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Retrieves information on all game servers that are currently active in a specified game server group. You can opt to sort the list by game server age. Use the pagination parameters to retrieve results in a set of sequential segments.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) ListLocations added in v1.16.0

func (c *Client) ListLocations(ctx context.Context, params *ListLocationsInput, optFns ...func(*Options)) (*ListLocationsOutput, error)

Lists all custom and Amazon Web Services locations.

func (*Client) ListScripts

func (c *Client) ListScripts(ctx context.Context, params *ListScriptsInput, optFns ...func(*Options)) (*ListScriptsOutput, error)

Retrieves script records for all Realtime scripts that are associated with the Amazon Web Services account in use.

Learn more

Amazon GameLift Realtime Servers

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func (*Client) ListTagsForResource

func (c *Client) ListTagsForResource(ctx context.Context, params *ListTagsForResourceInput, optFns ...func(*Options)) (*ListTagsForResourceOutput, error)

Retrieves all tags assigned to a Amazon GameLift resource. Use resource tags to organize Amazon Web Services resources for a range of purposes. This operation handles the permissions necessary to manage tags for Amazon GameLift resources that support tagging.

To list tags for a resource, specify the unique ARN value for the resource.

Learn more

Tagging Amazon Web Services Resourcesin the Amazon Web Services General Reference

Amazon Web Services Tagging Strategies

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func (*Client) Options added in v1.27.0

func (c *Client) Options() Options

Options returns a copy of the client configuration.

Callers SHOULD NOT perform mutations on any inner structures within client config. Config overrides should instead be made on a per-operation basis through functional options.

func (*Client) PutScalingPolicy

func (c *Client) PutScalingPolicy(ctx context.Context, params *PutScalingPolicyInput, optFns ...func(*Options)) (*PutScalingPolicyOutput, error)

Creates or updates a scaling policy for a fleet. Scaling policies are used to automatically scale a fleet's hosting capacity to meet player demand. An active scaling policy instructs Amazon GameLift to track a fleet metric and automatically change the fleet's capacity when a certain threshold is reached. There are two types of scaling policies: target-based and rule-based. Use a target-based policy to quickly and efficiently manage fleet scaling; this option is the most commonly used. Use rule-based policies when you need to exert fine-grained control over auto-scaling.

Fleets can have multiple scaling policies of each type in force at the same time; you can have one target-based policy, one or multiple rule-based scaling policies, or both. We recommend caution, however, because multiple auto-scaling policies can have unintended consequences.

Learn more about how to work with auto-scaling in Set Up Fleet Automatic Scaling.

Target-based policy

A target-based policy tracks a single metric: PercentAvailableGameSessions. This metric tells us how much of a fleet's hosting capacity is ready to host game sessions but is not currently in use. This is the fleet's buffer; it measures the additional player demand that the fleet could handle at current capacity. With a target-based policy, you set your ideal buffer size and leave it to Amazon GameLift to take whatever action is needed to maintain that target.

For example, you might choose to maintain a 10% buffer for a fleet that has the capacity to host 100 simultaneous game sessions. This policy tells Amazon GameLift to take action whenever the fleet's available capacity falls below or rises above 10 game sessions. Amazon GameLift will start new instances or stop unused instances in order to return to the 10% buffer.

To create or update a target-based policy, specify a fleet ID and name, and set the policy type to "TargetBased". Specify the metric to track (PercentAvailableGameSessions) and reference a TargetConfiguration object with your desired buffer value. Exclude all other parameters. On a successful request, the policy name is returned. The scaling policy is automatically in force as soon as it's successfully created. If the fleet's auto-scaling actions are temporarily suspended, the new policy will be in force once the fleet actions are restarted.

Rule-based policy

A rule-based policy tracks specified fleet metric, sets a threshold value, and specifies the type of action to initiate when triggered. With a rule-based policy, you can select from several available fleet metrics. Each policy specifies whether to scale up or scale down (and by how much), so you need one policy for each type of action.

For example, a policy may make the following statement: "If the percentage of idle instances is greater than 20% for more than 15 minutes, then reduce the fleet capacity by 10%."

A policy's rule statement has the following structure:

If [MetricName] is [ComparisonOperator] [Threshold] for [EvaluationPeriods] minutes, then [ScalingAdjustmentType] to/by [ScalingAdjustment] .

To implement the example, the rule statement would look like this:

If [PercentIdleInstances] is [GreaterThanThreshold] [20] for [15] minutes, then [PercentChangeInCapacity] to/by [10] .

To create or update a scaling policy, specify a unique combination of name and fleet ID, and set the policy type to "RuleBased". Specify the parameter values for a policy rule statement. On a successful request, the policy name is returned. Scaling policies are automatically in force as soon as they're successfully created. If the fleet's auto-scaling actions are temporarily suspended, the new policy will be in force once the fleet actions are restarted.

func (*Client) RegisterCompute added in v1.16.0

func (c *Client) RegisterCompute(ctx context.Context, params *RegisterComputeInput, optFns ...func(*Options)) (*RegisterComputeOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Registers a compute resource in an Amazon GameLift fleet. Register computes with an Amazon GameLift Anywhere fleet or a container fleet.

For an Anywhere fleet or a container fleet that's running the Amazon GameLift Agent, the Agent handles all compute registry tasks for you. For an Anywhere fleet that doesn't use the Agent, call this operation to register fleet computes.

To register a compute, give the compute a name (must be unique within the fleet) and specify the compute resource's DNS name or IP address. Provide a fleet ID and a fleet location to associate with the compute being registered. You can optionally include the path to a TLS certificate on the compute resource.

If successful, this operation returns compute details, including an Amazon GameLift SDK endpoint or Agent endpoint. Game server processes running on the compute can use this endpoint to communicate with the Amazon GameLift service. Each server process includes the SDK endpoint in its call to the Amazon GameLift server SDK action InitSDK() .

To view compute details, call DescribeCompute with the compute name.

Learn more

Create an Anywhere fleet

Test your integration

Server SDK reference guides

  • (for version 5.x)

func (*Client) RegisterGameServer

func (c *Client) RegisterGameServer(ctx context.Context, params *RegisterGameServerInput, optFns ...func(*Options)) (*RegisterGameServerOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Creates a new game server resource and notifies Amazon GameLift FleetIQ that the game server is ready to host gameplay and players. This operation is called by a game server process that is running on an instance in a game server group. Registering game servers enables Amazon GameLift FleetIQ to track available game servers and enables game clients and services to claim a game server for a new game session.

To register a game server, identify the game server group and instance where the game server is running, and provide a unique identifier for the game server. You can also include connection and game server data.

Once a game server is successfully registered, it is put in status AVAILABLE . A request to register a game server may fail if the instance it is running on is in the process of shutting down as part of instance balancing or scale-down activity.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) RequestUploadCredentials

func (c *Client) RequestUploadCredentials(ctx context.Context, params *RequestUploadCredentialsInput, optFns ...func(*Options)) (*RequestUploadCredentialsOutput, error)

Retrieves a fresh set of credentials for use when uploading a new set of game build files to Amazon GameLift's Amazon S3. This is done as part of the build creation process; see CreateBuild.

To request new credentials, specify the build ID as returned with an initial CreateBuild request. If successful, a new set of credentials are returned, along with the S3 storage location associated with the build ID.

Learn more

Create a Build with Files in S3

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func (*Client) ResolveAlias

func (c *Client) ResolveAlias(ctx context.Context, params *ResolveAliasInput, optFns ...func(*Options)) (*ResolveAliasOutput, error)

Attempts to retrieve a fleet ID that is associated with an alias. Specify a unique alias identifier.

If the alias has a SIMPLE routing strategy, Amazon GameLift returns a fleet ID. If the alias has a TERMINAL routing strategy, the result is a TerminalRoutingStrategyException .

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func (*Client) ResumeGameServerGroup

func (c *Client) ResumeGameServerGroup(ctx context.Context, params *ResumeGameServerGroupInput, optFns ...func(*Options)) (*ResumeGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Reinstates activity on a game server group after it has been suspended. A game server group might be suspended by the SuspendGameServerGroupoperation, or it might be suspended involuntarily due to a configuration problem. In the second case, you can manually resume activity on the group once the configuration problem has been resolved. Refer to the game server group status and status reason for more information on why group activity is suspended.

To resume activity, specify a game server group ARN and the type of activity to be resumed. If successful, a GameServerGroup object is returned showing that the resumed activity is no longer listed in SuspendedActions .

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) SearchGameSessions

func (c *Client) SearchGameSessions(ctx context.Context, params *SearchGameSessionsInput, optFns ...func(*Options)) (*SearchGameSessionsOutput, error)

Retrieves all active game sessions that match a set of search criteria and sorts them into a specified order.

This operation is not designed to continually track game session status because that practice can cause you to exceed your API limit and generate errors. Instead, configure an Amazon Simple Notification Service (Amazon SNS) topic to receive notifications from a matchmaker or a game session placement queue.

When searching for game sessions, you specify exactly where you want to search and provide a search filter expression, a sort expression, or both. A search request can search only one fleet, but it can search all of a fleet's locations.

This operation can be used in the following ways:

  • To search all game sessions that are currently running on all locations in a fleet, provide a fleet or alias ID. This approach returns game sessions in the fleet's home Region and all remote locations that fit the search criteria.

  • To search all game sessions that are currently running on a specific fleet location, provide a fleet or alias ID and a location name. For location, you can specify a fleet's home Region or any remote location.

Use the pagination parameters to retrieve results as a set of sequential pages.

If successful, a GameSession object is returned for each game session that matches the request. Search finds game sessions that are in ACTIVE status only. To retrieve information on game sessions in other statuses, use DescribeGameSessions.

To set search and sort criteria, create a filter expression using the following game session attributes. For game session search examples, see the Examples section of this topic.

  • gameSessionId -- A unique identifier for the game session. You can use either a GameSessionId or GameSessionArn value.

  • gameSessionName -- Name assigned to a game session. Game session names do not need to be unique to a game session.

  • gameSessionProperties -- A set of key-value pairs that can store custom data in a game session. For example: {"Key": "difficulty", "Value": "novice"} . The filter expression must specify the GameProperty-- a Key and a string Value to search for the game sessions.

For example, to search for the above key-value pair, specify the following

search filter: gameSessionProperties.difficulty = "novice" . All game property
values are searched as strings.

For examples of searching game sessions, see the ones below, and also see Search game sessions by game property.

  • maximumSessions -- Maximum number of player sessions allowed for a game session.

  • creationTimeMillis -- Value indicating when a game session was created. It is expressed in Unix time as milliseconds.

  • playerSessionCount -- Number of players currently connected to a game session. This value changes rapidly as players join the session or drop out.

  • hasAvailablePlayerSessions -- Boolean value indicating whether a game session has reached its maximum number of players. It is highly recommended that all search requests include this filter attribute to optimize search performance and return only sessions that players can join.

Returned values for playerSessionCount and hasAvailablePlayerSessions change quickly as players join sessions and others drop out. Results should be considered a snapshot in time. Be sure to refresh search results often, and handle sessions that fill up before a player can join.

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func (*Client) StartFleetActions

func (c *Client) StartFleetActions(ctx context.Context, params *StartFleetActionsInput, optFns ...func(*Options)) (*StartFleetActionsOutput, error)

Resumes certain types of activity on fleet instances that were suspended with StopFleetActions. For multi-location fleets, fleet actions are managed separately for each location. Currently, this operation is used to restart a fleet's auto-scaling activity.

This operation can be used in the following ways:

  • To restart actions on instances in the fleet's home Region, provide a fleet ID and the type of actions to resume.

  • To restart actions on instances in one of the fleet's remote locations, provide a fleet ID, a location name, and the type of actions to resume.

If successful, Amazon GameLift once again initiates scaling events as triggered by the fleet's scaling policies. If actions on the fleet location were never stopped, this operation will have no effect.

Learn more

Setting up Amazon GameLift fleets

func (*Client) StartGameSessionPlacement

func (c *Client) StartGameSessionPlacement(ctx context.Context, params *StartGameSessionPlacementInput, optFns ...func(*Options)) (*StartGameSessionPlacementOutput, error)

Places a request for a new game session in a queue. When processing a placement request, Amazon GameLift searches for available resources on the queue's destinations, scanning each until it finds resources or the placement request times out.

A game session placement request can also request player sessions. When a new game session is successfully created, Amazon GameLift creates a player session for each player included in the request.

When placing a game session, by default Amazon GameLift tries each fleet in the order they are listed in the queue configuration. Ideally, a queue's destinations are listed in preference order.

Alternatively, when requesting a game session with players, you can also provide latency data for each player in relevant Regions. Latency data indicates the performance lag a player experiences when connected to a fleet in the Region. Amazon GameLift uses latency data to reorder the list of destinations to place the game session in a Region with minimal lag. If latency data is provided for multiple players, Amazon GameLift calculates each Region's average lag for all players and reorders to get the best game play across all players.

To place a new game session request, specify the following:

  • The queue name and a set of game session properties and settings

  • A unique ID (such as a UUID) for the placement. You use this ID to track the status of the placement request

  • (Optional) A set of player data and a unique player ID for each player that you are joining to the new game session (player data is optional, but if you include it, you must also provide a unique ID for each player)

  • Latency data for all players (if you want to optimize game play for the players)

If successful, a new game session placement is created.

To track the status of a placement request, call DescribeGameSessionPlacement and check the request's status. If the status is FULFILLED , a new game session has been created and a game session ARN and Region are referenced. If the placement request times out, you can resubmit the request or retry it with a different queue.

func (*Client) StartMatchBackfill

func (c *Client) StartMatchBackfill(ctx context.Context, params *StartMatchBackfillInput, optFns ...func(*Options)) (*StartMatchBackfillOutput, error)

Finds new players to fill open slots in currently running game sessions. The backfill match process is essentially identical to the process of forming new matches. Backfill requests use the same matchmaker that was used to make the original match, and they provide matchmaking data for all players currently in the game session. FlexMatch uses this information to select new players so that backfilled match continues to meet the original match requirements.

When using FlexMatch with Amazon GameLift managed hosting, you can request a backfill match from a client service by calling this operation with a GameSessions ID. You also have the option of making backfill requests directly from your game server. In response to a request, FlexMatch creates player sessions for the new players, updates the GameSession resource, and sends updated matchmaking data to the game server. You can request a backfill match at any point after a game session is started. Each game session can have only one active backfill request at a time; a subsequent request automatically replaces the earlier request.

When using FlexMatch as a standalone component, request a backfill match by calling this operation without a game session identifier. As with newly formed matches, matchmaking results are returned in a matchmaking event so that your game can update the game session that is being backfilled.

To request a backfill match, specify a unique ticket ID, the original matchmaking configuration, and matchmaking data for all current players in the game session being backfilled. Optionally, specify the GameSession ARN. If successful, a match backfill ticket is created and returned with status set to QUEUED. Track the status of backfill tickets using the same method for tracking tickets for new matches.

Only game sessions created by FlexMatch are supported for match backfill.

Learn more

Backfill existing games with FlexMatch

Matchmaking events(reference)

How Amazon GameLift FlexMatch works

func (*Client) StartMatchmaking

func (c *Client) StartMatchmaking(ctx context.Context, params *StartMatchmakingInput, optFns ...func(*Options)) (*StartMatchmakingOutput, error)

Uses FlexMatch to create a game match for a group of players based on custom matchmaking rules. With games that use Amazon GameLift managed hosting, this operation also triggers Amazon GameLift to find hosting resources and start a new game session for the new match. Each matchmaking request includes information on one or more players and specifies the FlexMatch matchmaker to use. When a request is for multiple players, FlexMatch attempts to build a match that includes all players in the request, placing them in the same team and finding additional players as needed to fill the match.

To start matchmaking, provide a unique ticket ID, specify a matchmaking configuration, and include the players to be matched. You must also include any player attributes that are required by the matchmaking configuration's rule set. If successful, a matchmaking ticket is returned with status set to QUEUED .

Track matchmaking events to respond as needed and acquire game session connection information for successfully completed matches. Ticket status updates are tracked using event notification through Amazon Simple Notification Service, which is defined in the matchmaking configuration.

Learn more

Add FlexMatch to a game client

Set Up FlexMatch event notification

How Amazon GameLift FlexMatch works

func (*Client) StopFleetActions

func (c *Client) StopFleetActions(ctx context.Context, params *StopFleetActionsInput, optFns ...func(*Options)) (*StopFleetActionsOutput, error)

Suspends certain types of activity in a fleet location. Currently, this operation is used to stop auto-scaling activity. For multi-location fleets, fleet actions are managed separately for each location.

Stopping fleet actions has several potential purposes. It allows you to temporarily stop auto-scaling activity but retain your scaling policies for use in the future. For multi-location fleets, you can set up fleet-wide auto-scaling, and then opt out of it for certain locations.

This operation can be used in the following ways:

  • To stop actions on instances in the fleet's home Region, provide a fleet ID and the type of actions to suspend.

  • To stop actions on instances in one of the fleet's remote locations, provide a fleet ID, a location name, and the type of actions to suspend.

If successful, Amazon GameLift no longer initiates scaling events except in response to manual changes using UpdateFleetCapacity. To restart fleet actions again, call StartFleetActions.

Learn more

Setting up Amazon GameLift Fleets

func (*Client) StopGameSessionPlacement

func (c *Client) StopGameSessionPlacement(ctx context.Context, params *StopGameSessionPlacementInput, optFns ...func(*Options)) (*StopGameSessionPlacementOutput, error)

Cancels a game session placement that is in PENDING status. To stop a placement, provide the placement ID values. If successful, the placement is moved to CANCELLED status.

func (*Client) StopMatchmaking

func (c *Client) StopMatchmaking(ctx context.Context, params *StopMatchmakingInput, optFns ...func(*Options)) (*StopMatchmakingOutput, error)

Cancels a matchmaking ticket or match backfill ticket that is currently being processed. To stop the matchmaking operation, specify the ticket ID. If successful, work on the ticket is stopped, and the ticket status is changed to CANCELLED .

This call is also used to turn off automatic backfill for an individual game session. This is for game sessions that are created with a matchmaking configuration that has automatic backfill enabled. The ticket ID is included in the MatchmakerData of an updated game session object, which is provided to the game server.

If the operation is successful, the service sends back an empty JSON struct with the HTTP 200 response (not an empty HTTP body).

Learn more

Add FlexMatch to a game client

func (*Client) SuspendGameServerGroup

func (c *Client) SuspendGameServerGroup(ctx context.Context, params *SuspendGameServerGroupInput, optFns ...func(*Options)) (*SuspendGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Temporarily stops activity on a game server group without terminating instances or the game server group. You can restart activity by calling ResumeGameServerGroup. You can suspend the following activity:

  • Instance type replacement - This activity evaluates the current game hosting viability of all Spot instance types that are defined for the game server group. It updates the Auto Scaling group to remove nonviable Spot Instance types, which have a higher chance of game server interruptions. It then balances capacity across the remaining viable Spot Instance types. When this activity is suspended, the Auto Scaling group continues with its current balance, regardless of viability. Instance protection, utilization metrics, and capacity scaling activities continue to be active.

To suspend activity, specify a game server group ARN and the type of activity to be suspended. If successful, a GameServerGroup object is returned showing that the activity is listed in SuspendedActions .

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) TagResource

func (c *Client) TagResource(ctx context.Context, params *TagResourceInput, optFns ...func(*Options)) (*TagResourceOutput, error)

Assigns a tag to an Amazon GameLift resource. You can use tags to organize resources, create IAM permissions policies to manage access to groups of resources, customize Amazon Web Services cost breakdowns, and more. This operation handles the permissions necessary to manage tags for Amazon GameLift resources that support tagging.

To add a tag to a resource, specify the unique ARN value for the resource and provide a tag list containing one or more tags. The operation succeeds even if the list includes tags that are already assigned to the resource.

Learn more

Tagging Amazon Web Services Resourcesin the Amazon Web Services General Reference

Amazon Web Services Tagging Strategies

All APIs by task

func (*Client) UntagResource

func (c *Client) UntagResource(ctx context.Context, params *UntagResourceInput, optFns ...func(*Options)) (*UntagResourceOutput, error)

Removes a tag assigned to a Amazon GameLift resource. You can use resource tags to organize Amazon Web Services resources for a range of purposes. This operation handles the permissions necessary to manage tags for Amazon GameLift resources that support tagging.

To remove a tag from a resource, specify the unique ARN value for the resource and provide a string list containing one or more tags to remove. This operation succeeds even if the list includes tags that aren't assigned to the resource.

Learn more

Tagging Amazon Web Services Resourcesin the Amazon Web Services General Reference

Amazon Web Services Tagging Strategies

All APIs by task

func (*Client) UpdateAlias

func (c *Client) UpdateAlias(ctx context.Context, params *UpdateAliasInput, optFns ...func(*Options)) (*UpdateAliasOutput, error)

Updates properties for an alias. Specify the unique identifier of the alias to be updated and the new property values. When reassigning an alias to a new fleet, provide an updated routing strategy. If successful, the updated alias record is returned.

All APIs by task

func (*Client) UpdateBuild

func (c *Client) UpdateBuild(ctx context.Context, params *UpdateBuildInput, optFns ...func(*Options)) (*UpdateBuildOutput, error)

Updates metadata in a build resource, including the build name and version. To update the metadata, specify the build ID to update and provide the new values. If successful, a build object containing the updated metadata is returned.

Learn more

Upload a Custom Server Build

All APIs by task

func (*Client) UpdateFleetAttributes

func (c *Client) UpdateFleetAttributes(ctx context.Context, params *UpdateFleetAttributesInput, optFns ...func(*Options)) (*UpdateFleetAttributesOutput, error)

Updates a fleet's mutable attributes, such as game session protection and resource creation limits.

To update fleet attributes, specify the fleet ID and the property values that you want to change. If successful, Amazon GameLift returns the identifiers for the updated fleet.

Learn more

Setting up Amazon GameLift fleets

func (*Client) UpdateFleetCapacity

func (c *Client) UpdateFleetCapacity(ctx context.Context, params *UpdateFleetCapacityInput, optFns ...func(*Options)) (*UpdateFleetCapacityOutput, error)
This operation has been expanded to use with the Amazon GameLift containers

feature, which is currently in public preview.

Updates capacity settings for a managed EC2 fleet or container fleet. For these fleets, you adjust capacity by changing the number of instances in the fleet. Fleet capacity determines the number of game sessions and players that the fleet can host based on its configuration. For fleets with multiple locations, use this operation to manage capacity settings in each location individually.

Use this operation to set these fleet capacity properties:

  • Minimum/maximum size: Set hard limits on the number of Amazon EC2 instances allowed. If Amazon GameLift receives a request--either through manual update or automatic scaling--it won't change the capacity to a value outside of this range.

  • Desired capacity: As an alternative to automatic scaling, manually set the number of Amazon EC2 instances to be maintained. Before changing a fleet's desired capacity, check the maximum capacity of the fleet's Amazon EC2 instance type by calling DescribeEC2InstanceLimits.

To update capacity for a fleet's home Region, or if the fleet has no remote locations, omit the Location parameter. The fleet must be in ACTIVE status.

To update capacity for a fleet's remote location, set the Location parameter to the location to update. The location must be in ACTIVE status.

If successful, Amazon GameLift updates the capacity settings and returns the identifiers for the updated fleet and/or location. If a requested change to desired capacity exceeds the instance type's limit, the LimitExceeded exception occurs.

Updates often prompt an immediate change in fleet capacity, such as when current capacity is different than the new desired capacity or outside the new limits. In this scenario, Amazon GameLift automatically initiates steps to add or remove instances in the fleet location. You can track a fleet's current capacity by calling DescribeFleetCapacityor DescribeFleetLocationCapacity.

Learn more

Scaling fleet capacity

func (*Client) UpdateFleetPortSettings

func (c *Client) UpdateFleetPortSettings(ctx context.Context, params *UpdateFleetPortSettingsInput, optFns ...func(*Options)) (*UpdateFleetPortSettingsOutput, error)

Updates permissions that allow inbound traffic to connect to game sessions in the fleet.

To update settings, specify the fleet ID to be updated and specify the changes to be made. List the permissions you want to add in InboundPermissionAuthorizations , and permissions you want to remove in InboundPermissionRevocations . Permissions to be removed must match existing fleet permissions.

For a container fleet, inbound permissions must specify port numbers that are defined in the fleet's connection port settings.

If successful, the fleet ID for the updated fleet is returned. For fleets with remote locations, port setting updates can take time to propagate across all locations. You can check the status of updates in each location by calling DescribeFleetPortSettings with a location name.

Learn more

Setting up Amazon GameLift fleets

func (*Client) UpdateGameServer

func (c *Client) UpdateGameServer(ctx context.Context, params *UpdateGameServerInput, optFns ...func(*Options)) (*UpdateGameServerOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Updates information about a registered game server to help Amazon GameLift FleetIQ track game server availability. This operation is called by a game server process that is running on an instance in a game server group.

Use this operation to update the following types of game server information. You can make all three types of updates in the same request:

  • To update the game server's utilization status from AVAILABLE (when the game server is available to be claimed) to UTILIZED (when the game server is currently hosting games). Identify the game server and game server group and specify the new utilization status. You can't change the status from to UTILIZED to AVAILABLE .

  • To report health status, identify the game server and game server group and set health check to HEALTHY . If a game server does not report health status for a certain length of time, the game server is no longer considered healthy. As a result, it will be eventually deregistered from the game server group to avoid affecting utilization metrics. The best practice is to report health every 60 seconds.

  • To change game server metadata, provide updated game server data.

Once a game server is successfully updated, the relevant statuses and timestamps are updated.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) UpdateGameServerGroup

func (c *Client) UpdateGameServerGroup(ctx context.Context, params *UpdateGameServerGroupInput, optFns ...func(*Options)) (*UpdateGameServerGroupOutput, error)
This operation is used with the Amazon GameLift FleetIQ solution and game

server groups.

Updates Amazon GameLift FleetIQ-specific properties for a game server group. Many Auto Scaling group properties are updated on the Auto Scaling group directly, including the launch template, Auto Scaling policies, and maximum/minimum/desired instance counts.

To update the game server group, specify the game server group ID and provide the updated values. Before applying the updates, the new values are validated to ensure that Amazon GameLift FleetIQ can continue to perform instance balancing activity. If successful, a GameServerGroup object is returned.

Learn more

Amazon GameLift FleetIQ Guide

func (*Client) UpdateGameSession

func (c *Client) UpdateGameSession(ctx context.Context, params *UpdateGameSessionInput, optFns ...func(*Options)) (*UpdateGameSessionOutput, error)

Updates the mutable properties of a game session.

To update a game session, specify the game session ID and the values you want to change.

If successful, the updated GameSession object is returned.

All APIs by task

func (*Client) UpdateGameSessionQueue

func (c *Client) UpdateGameSessionQueue(ctx context.Context, params *UpdateGameSessionQueueInput, optFns ...func(*Options)) (*UpdateGameSessionQueueOutput, error)

Updates the configuration of a game session queue, which determines how the queue processes new game session requests. To update settings, specify the queue name to be updated and provide the new settings. When updating destinations, provide a complete list of destinations.

Learn more

Using Multi-Region Queues

func (*Client) UpdateMatchmakingConfiguration

func (c *Client) UpdateMatchmakingConfiguration(ctx context.Context, params *UpdateMatchmakingConfigurationInput, optFns ...func(*Options)) (*UpdateMatchmakingConfigurationOutput, error)

Updates settings for a FlexMatch matchmaking configuration. These changes affect all matches and game sessions that are created after the update. To update settings, specify the configuration name to be updated and provide the new settings.

Learn more

Design a FlexMatch matchmaker

func (*Client) UpdateRuntimeConfiguration

func (c *Client) UpdateRuntimeConfiguration(ctx context.Context, params *UpdateRuntimeConfigurationInput, optFns ...func(*Options)) (*UpdateRuntimeConfigurationOutput, error)

Updates the runtime configuration for the specified fleet. The runtime configuration tells Amazon GameLift how to launch server processes on computes in the fleet. For managed EC2 fleets, it determines what server processes to run on each fleet instance. For container fleets, it describes what server processes to run in each replica container group. You can update a fleet's runtime configuration at any time after the fleet is created; it does not need to be in ACTIVE status.

To update runtime configuration, specify the fleet ID and provide a RuntimeConfiguration with an updated set of server process configurations.

If successful, the fleet's runtime configuration settings are updated. Fleet computes that run game server processes regularly check for and receive updated runtime configurations. The computes immediately take action to comply with the new configuration by launching new server processes or by not replacing existing processes when they shut down. Updating a fleet's runtime configuration never affects existing server processes.

Learn more

Setting up Amazon GameLift fleets

func (*Client) UpdateScript

func (c *Client) UpdateScript(ctx context.Context, params *UpdateScriptInput, optFns ...func(*Options)) (*UpdateScriptOutput, error)

Updates Realtime script metadata and content.

To update script metadata, specify the script ID and provide updated name and/or version values.

To update script content, provide an updated zip file by pointing to either a local file or an Amazon S3 bucket location. You can use either method regardless of how the original script was uploaded. Use the Version parameter to track updates to the script.

If the call is successful, the updated metadata is stored in the script record and a revised script is uploaded to the Amazon GameLift service. Once the script is updated and acquired by a fleet instance, the new version is used for all new game sessions.

Learn more

Amazon GameLift Realtime Servers

All APIs by task

func (*Client) ValidateMatchmakingRuleSet

func (c *Client) ValidateMatchmakingRuleSet(ctx context.Context, params *ValidateMatchmakingRuleSetInput, optFns ...func(*Options)) (*ValidateMatchmakingRuleSetOutput, error)

Validates the syntax of a matchmaking rule or rule set. This operation checks that the rule set is using syntactically correct JSON and that it conforms to allowed property expressions. To validate syntax, provide a rule set JSON string.

Learn more

Build a rule set

type CreateAliasInput

type CreateAliasInput struct {

	// A descriptive label that is associated with an alias. Alias names do not need
	// to be unique.
	//
	// This member is required.
	Name *string

	// The routing configuration, including routing type and fleet target, for the
	// alias.
	//
	// This member is required.
	RoutingStrategy *types.RoutingStrategy

	// A human-readable description of the alias.
	Description *string

	// A list of labels to assign to the new alias resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateAliasOutput

type CreateAliasOutput struct {

	// The newly created alias resource.
	Alias *types.Alias

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateBuildInput

type CreateBuildInput struct {

	// A descriptive label associated with a build. Build names don't need to be
	// unique. You can change this value later.
	Name *string

	// The operating system that your game server binaries run on. This value
	// determines the type of fleet resources that you use for this build. If your game
	// build contains multiple executables, they all must run on the same operating
	// system. You must specify a valid operating system in this request. There is no
	// default value. You can't change a build's operating system later.
	//
	// Amazon Linux 2 (AL2) will reach end of support on 6/30/2025. See more details
	// in the [Amazon Linux 2 FAQs]. For game servers that are hosted on AL2 and use Amazon GameLift server
	// SDK 4.x., first update the game server build to server SDK 5.x, and then deploy
	// to AL2023 instances. See [Migrate to Amazon GameLift server SDK version 5.]
	//
	// [Amazon Linux 2 FAQs]: https://aws.amazon.com/amazon-linux-2/faqs/
	// [Migrate to Amazon GameLift server SDK version 5.]: https://docs.aws.amazon.com/gamelift/latest/developerguide/reference-serversdk5-migration.html
	OperatingSystem types.OperatingSystem

	// A server SDK version you used when integrating your game server build with
	// Amazon GameLift. For more information see [Integrate games with custom game servers]. By default Amazon GameLift sets
	// this value to 4.0.2 .
	//
	// [Integrate games with custom game servers]: https://docs.aws.amazon.com/gamelift/latest/developerguide/integration-custom-intro.html
	ServerSdkVersion *string

	// Information indicating where your game build files are stored. Use this
	// parameter only when creating a build with files stored in an Amazon S3 bucket
	// that you own. The storage location must specify an Amazon S3 bucket name and
	// key. The location must also specify a role ARN that you set up to allow Amazon
	// GameLift to access your Amazon S3 bucket. The S3 bucket and your new build must
	// be in the same Region.
	//
	// If a StorageLocation is specified, the size of your file can be found in your
	// Amazon S3 bucket. Amazon GameLift will report a SizeOnDisk of 0.
	StorageLocation *types.S3Location

	// A list of labels to assign to the new build resource. Tags are developer
	// defined key-value pairs. Tagging Amazon Web Services resources are useful for
	// resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference. Once the
	// resource is created, you can use [TagResource], [UntagResource], and [ListTagsForResource] to add, remove, and view tags. The
	// maximum tag limit may be lower than stated. See the Amazon Web Services General
	// Reference for actual tagging limits.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	// [TagResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_TagResource.html
	// [UntagResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_UntagResource.html
	// [ListTagsForResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_ListTagsForResource.html
	Tags []types.Tag

	// Version information associated with a build or script. Version strings don't
	// need to be unique. You can change this value later.
	Version *string
	// contains filtered or unexported fields
}

type CreateBuildOutput

type CreateBuildOutput struct {

	// The newly created build resource, including a unique build IDs and status.
	Build *types.Build

	// Amazon S3 location for your game build file, including bucket name and key.
	StorageLocation *types.S3Location

	// This element is returned only when the operation is called without a storage
	// location. It contains credentials to use when you are uploading a build file to
	// an Amazon S3 bucket that is owned by Amazon GameLift. Credentials have a limited
	// life span. To refresh these credentials, call [RequestUploadCredentials].
	//
	// [RequestUploadCredentials]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_RequestUploadCredentials.html
	UploadCredentials *types.AwsCredentials

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateContainerGroupDefinitionInput added in v1.31.0

type CreateContainerGroupDefinitionInput struct {

	// Definitions for all containers in this group. Each container definition
	// identifies the container image and specifies configuration settings for the
	// container. See the [Container fleet design guide]for container guidelines.
	//
	// [Container fleet design guide]: https://docs.aws.amazon.com/gamelift/latest/developerguide/containers-design-fleet.html
	//
	// This member is required.
	ContainerDefinitions []types.ContainerDefinitionInput

	// A descriptive identifier for the container group definition. The name value
	// must be unique in an Amazon Web Services Region.
	//
	// This member is required.
	Name *string

	// The platform that is used by containers in the container group definition. All
	// containers in a group must run on the same operating system.
	//
	// Amazon Linux 2 (AL2) will reach end of support on 6/30/2025. See more details
	// in the [Amazon Linux 2 FAQs]. For game servers that are hosted on AL2 and use Amazon GameLift server
	// SDK 4.x., first update the game server build to server SDK 5.x, and then deploy
	// to AL2023 instances. See [Migrate to Amazon GameLift server SDK version 5.]
	//
	// [Amazon Linux 2 FAQs]: https://aws.amazon.com/amazon-linux-2/faqs/
	// [Migrate to Amazon GameLift server SDK version 5.]: https://docs.aws.amazon.com/gamelift/latest/developerguide/reference-serversdk5-migration.html
	//
	// This member is required.
	OperatingSystem types.ContainerOperatingSystem

	// The maximum amount of CPU units to allocate to the container group. Set this
	// parameter to an integer value in CPU units (1 vCPU is equal to 1024 CPU units).
	// All containers in the group share this memory. If you specify CPU limits for
	// individual containers, set this parameter based on the following guidelines. The
	// value must be equal to or greater than the sum of the CPU limits for all
	// containers in the group.
	//
	// This member is required.
	TotalCpuLimit *int32

	// The maximum amount of memory (in MiB) to allocate to the container group. All
	// containers in the group share this memory. If you specify memory limits for
	// individual containers, set this parameter based on the following guidelines. The
	// value must be (1) greater than the sum of the soft memory limits for all
	// containers in the group, and (2) greater than any individual container's hard
	// memory limit.
	//
	// This member is required.
	TotalMemoryLimit *int32

	// The method for deploying the container group across fleet instances. A replica
	// container group might have multiple copies on each fleet instance. A daemon
	// container group has one copy per fleet instance. Default value is REPLICA .
	SchedulingStrategy types.ContainerSchedulingStrategy

	// A list of labels to assign to the container group definition resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateContainerGroupDefinitionOutput added in v1.31.0

type CreateContainerGroupDefinitionOutput struct {

	// The properties of the newly created container group definition resource. You
	// use this resource to create a container fleet.
	ContainerGroupDefinition *types.ContainerGroupDefinition

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateFleetInput

type CreateFleetInput struct {

	// A descriptive label that is associated with a fleet. Fleet names do not need to
	// be unique.
	//
	// This member is required.
	Name *string

	// Amazon GameLift Anywhere configuration options.
	AnywhereConfiguration *types.AnywhereConfiguration

	// The unique identifier for a custom game server build to be deployed to a fleet
	// with compute type EC2 . You can use either the build ID or ARN. The build must
	// be uploaded to Amazon GameLift and in READY status. This fleet property can't
	// be changed after the fleet is created.
	BuildId *string

	// Prompts Amazon GameLift to generate a TLS/SSL certificate for the fleet. Amazon
	// GameLift uses the certificates to encrypt traffic between game clients and the
	// game servers running on Amazon GameLift. By default, the
	// CertificateConfiguration is DISABLED . You can't change this property after you
	// create the fleet.
	//
	// Certificate Manager (ACM) certificates expire after 13 months. Certificate
	// expiration can cause fleets to fail, preventing players from connecting to
	// instances in the fleet. We recommend you replace fleets before 13 months,
	// consider using fleet aliases for a smooth transition.
	//
	// ACM isn't available in all Amazon Web Services regions. A fleet creation
	// request with certificate generation enabled in an unsupported Region, fails with
	// a 4xx error. For more information about the supported Regions, see [Supported Regions]in the
	// Certificate Manager User Guide.
	//
	// [Supported Regions]: https://docs.aws.amazon.com/acm/latest/userguide/acm-regions.html
	CertificateConfiguration *types.CertificateConfiguration

	// The type of compute resource used to host your game servers.
	//
	//   - EC2 – The game server build is deployed to Amazon EC2 instances for cloud
	//   hosting. This is the default setting.
	//
	//   - CONTAINER – Container images with your game server build and supporting
	//   software are deployed to Amazon EC2 instances for cloud hosting. With this
	//   compute type, you must specify the ContainerGroupsConfiguration parameter.
	//
	//   - ANYWHERE – Game servers or container images with your game server and
	//   supporting software are deployed to compute resources that are provided and
	//   managed by you. With this compute type, you can also set the
	//   AnywhereConfiguration parameter.
	ComputeType types.ComputeType

	// The container groups to deploy to instances in the container fleet and other
	// fleet-level configuration settings. Use the CreateContainerGroupDefinitionaction to create container groups.
	// A container fleet must have exactly one replica container group, and can
	// optionally have one daemon container group. You can't change this property after
	// you create the fleet.
	ContainerGroupsConfiguration *types.ContainerGroupsConfiguration

	// A description for the fleet.
	Description *string

	// The IP address ranges and port settings that allow inbound traffic to access
	// game server processes and other processes on this fleet. Set this parameter for
	// EC2 and container fleets. You can leave this parameter empty when creating the
	// fleet, but you must call UpdateFleetPortSettingsto set it before players can connect to game sessions.
	// As a best practice, we recommend opening ports for remote access only when you
	// need them and closing them when you're finished. For Realtime Servers fleets,
	// Amazon GameLift automatically sets TCP and UDP ranges.
	//
	// To manage inbound access for a container fleet, set this parameter to the same
	// port numbers that you set for the fleet's connection port range. During the life
	// of the fleet, update this parameter to control which connection ports are open
	// to inbound traffic.
	EC2InboundPermissions []types.IpPermission

	// The Amazon GameLift-supported Amazon EC2 instance type to use with EC2 and
	// container fleets. Instance type determines the computing resources that will be
	// used to host your game servers, including CPU, memory, storage, and networking
	// capacity. See [Amazon Elastic Compute Cloud Instance Types]for detailed descriptions of Amazon EC2 instance types.
	//
	// [Amazon Elastic Compute Cloud Instance Types]: http://aws.amazon.com/ec2/instance-types/
	EC2InstanceType types.EC2InstanceType

	// Indicates whether to use On-Demand or Spot instances for this fleet. By
	// default, this property is set to ON_DEMAND . Learn more about when to use [On-Demand versus Spot Instances].
	// This fleet property can't be changed after the fleet is created.
	//
	// [On-Demand versus Spot Instances]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-ec2-instances.html#gamelift-ec2-instances-spot
	FleetType types.FleetType

	// A unique identifier for an IAM role with access permissions to other Amazon Web
	// Services services. Any application that runs on an instance in the
	// fleet--including install scripts, server processes, and other processes--can use
	// these permissions to interact with Amazon Web Services resources that you own or
	// have access to. For more information about using the role with your game server
	// builds, see [Communicate with other Amazon Web Services resources from your fleets]. This fleet property can't be changed after the fleet is created.
	//
	// [Communicate with other Amazon Web Services resources from your fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-resources.html
	InstanceRoleArn *string

	// Prompts Amazon GameLift to generate a shared credentials file for the IAM role
	// that's defined in InstanceRoleArn . The shared credentials file is stored on
	// each fleet instance and refreshed as needed. Use shared credentials for
	// applications that are deployed along with the game server executable, if the
	// game server is integrated with server SDK version 5.x. For more information
	// about using shared credentials, see [Communicate with other Amazon Web Services resources from your fleets].
	//
	// [Communicate with other Amazon Web Services resources from your fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-resources.html
	InstanceRoleCredentialsProvider types.InstanceRoleCredentialsProvider

	// A set of remote locations to deploy additional instances to and manage as a
	// multi-location fleet. Use this parameter when creating a fleet in Amazon Web
	// Services Regions that support multiple locations. You can add any Amazon Web
	// Services Region or Local Zone that's supported by Amazon GameLift. Provide a
	// list of one or more Amazon Web Services Region codes, such as us-west-2 , or
	// Local Zone names. When using this parameter, Amazon GameLift requires you to
	// include your home location in the request. For a list of supported Regions and
	// Local Zones, see [Amazon GameLift service locations]for managed hosting.
	//
	// [Amazon GameLift service locations]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-regions.html
	Locations []types.LocationConfiguration

	//  This parameter is no longer used. To specify where Amazon GameLift should
	// store log files once a server process shuts down, use the Amazon GameLift server
	// API ProcessReady() and specify one or more directory paths in logParameters .
	// For more information, see [Initialize the server process]in the Amazon GameLift Developer Guide.
	//
	// [Initialize the server process]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-api.html#gamelift-sdk-server-initialize
	LogPaths []string

	// The name of an Amazon Web Services CloudWatch metric group to add this fleet
	// to. A metric group is used to aggregate the metrics for multiple fleets. You can
	// specify an existing metric group name or set a new name to create a new metric
	// group. A fleet can be included in only one metric group at a time.
	MetricGroups []string

	// The status of termination protection for active game sessions on the fleet. By
	// default, this property is set to NoProtection . You can also set game session
	// protection for an individual game session by calling UpdateGameSession.
	//
	//   - NoProtection - Game sessions can be terminated during active gameplay as a
	//   result of a scale-down event.
	//
	//   - FullProtection - Game sessions in ACTIVE status cannot be terminated during
	//   a scale-down event.
	NewGameSessionProtectionPolicy types.ProtectionPolicy

	// Used when peering your Amazon GameLift fleet with a VPC, the unique identifier
	// for the Amazon Web Services account that owns the VPC. You can find your account
	// ID in the Amazon Web Services Management Console under account settings.
	PeerVpcAwsAccountId *string

	// A unique identifier for a VPC with resources to be accessed by your Amazon
	// GameLift fleet. The VPC must be in the same Region as your fleet. To look up a
	// VPC ID, use the [VPC Dashboard]in the Amazon Web Services Management Console. Learn more about
	// VPC peering in [VPC Peering with Amazon GameLift Fleets].
	//
	// [VPC Dashboard]: https://console.aws.amazon.com/vpc/
	// [VPC Peering with Amazon GameLift Fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/vpc-peering.html
	PeerVpcId *string

	// A policy that limits the number of game sessions that an individual player can
	// create on instances in this fleet within a specified span of time.
	ResourceCreationLimitPolicy *types.ResourceCreationLimitPolicy

	// Instructions for how to launch and run server processes on the fleet. Set
	// runtime configuration for EC2 fleets and container fleets. For an Anywhere
	// fleets, set this parameter only if the fleet is running the Amazon GameLift
	// Agent. The runtime configuration defines one or more server process
	// configurations. Each server process identifies a game executable or Realtime
	// script file and the number of processes to run concurrently.
	//
	// This parameter replaces the parameters ServerLaunchPath and
	// ServerLaunchParameters , which are still supported for backward compatibility.
	RuntimeConfiguration *types.RuntimeConfiguration

	// The unique identifier for a Realtime configuration script to be deployed to a
	// fleet with compute type EC2 . You can use either the script ID or ARN. Scripts
	// must be uploaded to Amazon GameLift prior to creating the fleet. This fleet
	// property can't be changed after the fleet is created.
	ScriptId *string

	//  This parameter is no longer used. Specify server launch parameters using the
	// RuntimeConfiguration parameter. Requests that use this parameter instead
	// continue to be valid.
	ServerLaunchParameters *string

	//  This parameter is no longer used. Specify a server launch path using the
	// RuntimeConfiguration parameter. Requests that use this parameter instead
	// continue to be valid.
	ServerLaunchPath *string

	// A list of labels to assign to the new fleet resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateFleetLocationsInput added in v1.2.0

type CreateFleetLocationsInput struct {

	// A unique identifier for the fleet to add locations to. You can use either the
	// fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// A list of locations to deploy additional instances to and manage as part of the
	// fleet. You can add any Amazon GameLift-supported Amazon Web Services Region as a
	// remote location, in the form of an Amazon Web Services Region code such as
	// us-west-2 .
	//
	// This member is required.
	Locations []types.LocationConfiguration
	// contains filtered or unexported fields
}

type CreateFleetLocationsOutput added in v1.2.0

type CreateFleetLocationsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that was updated with new locations.
	FleetId *string

	// The remote locations that are being added to the fleet, and the life-cycle
	// status of each location. For new locations, the status is set to NEW . During
	// location creation, Amazon GameLift updates each location's status as instances
	// are deployed there and prepared for game hosting. This list does not include the
	// fleet home Region or any remote locations that were already added to the fleet.
	LocationStates []types.LocationState

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateFleetOutput

type CreateFleetOutput struct {

	// The properties for the new fleet, including the current status. All fleets are
	// placed in NEW status on creation.
	FleetAttributes *types.FleetAttributes

	// The fleet's locations and life-cycle status of each location. For new fleets,
	// the status of all locations is set to NEW . During fleet creation, Amazon
	// GameLift updates each location status as instances are deployed there and
	// prepared for game hosting. This list includes an entry for the fleet's home
	// Region. For fleets with no remote locations, only one entry, representing the
	// home Region, is returned.
	LocationStates []types.LocationState

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateGameServerGroupInput

type CreateGameServerGroupInput struct {

	// An identifier for the new game server group. This value is used to generate
	// unique ARN identifiers for the Amazon EC2 Auto Scaling group and the Amazon
	// GameLift FleetIQ game server group. The name must be unique per Region per
	// Amazon Web Services account.
	//
	// This member is required.
	GameServerGroupName *string

	// The Amazon EC2 instance types and sizes to use in the Auto Scaling group. The
	// instance definitions must specify at least two different instance types that are
	// supported by Amazon GameLift FleetIQ. For more information on instance types,
	// see [EC2 Instance Types]in the Amazon Elastic Compute Cloud User Guide. You can optionally specify
	// capacity weighting for each instance type. If no weight value is specified for
	// an instance type, it is set to the default value "1". For more information about
	// capacity weighting, see [Instance Weighting for Amazon EC2 Auto Scaling]in the Amazon EC2 Auto Scaling User Guide.
	//
	// [Instance Weighting for Amazon EC2 Auto Scaling]: https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-instance-weighting.html
	// [EC2 Instance Types]: https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html
	//
	// This member is required.
	InstanceDefinitions []types.InstanceDefinition

	// The Amazon EC2 launch template that contains configuration settings and game
	// server code to be deployed to all instances in the game server group. You can
	// specify the template using either the template name or ID. For help with
	// creating a launch template, see [Creating a Launch Template for an Auto Scaling Group]in the Amazon Elastic Compute Cloud Auto
	// Scaling User Guide. After the Auto Scaling group is created, update this value
	// directly in the Auto Scaling group using the Amazon Web Services console or
	// APIs.
	//
	// If you specify network interfaces in your launch template, you must explicitly
	// set the property AssociatePublicIpAddress to "true". If no network interface is
	// specified in the launch template, Amazon GameLift FleetIQ uses your account's
	// default VPC.
	//
	// [Creating a Launch Template for an Auto Scaling Group]: https://docs.aws.amazon.com/autoscaling/ec2/userguide/create-launch-template.html
	//
	// This member is required.
	LaunchTemplate *types.LaunchTemplateSpecification

	// The maximum number of instances allowed in the Amazon EC2 Auto Scaling group.
	// During automatic scaling events, Amazon GameLift FleetIQ and EC2 do not scale up
	// the group above this maximum. After the Auto Scaling group is created, update
	// this value directly in the Auto Scaling group using the Amazon Web Services
	// console or APIs.
	//
	// This member is required.
	MaxSize *int32

	// The minimum number of instances allowed in the Amazon EC2 Auto Scaling group.
	// During automatic scaling events, Amazon GameLift FleetIQ and Amazon EC2 do not
	// scale down the group below this minimum. In production, this value should be set
	// to at least 1. After the Auto Scaling group is created, update this value
	// directly in the Auto Scaling group using the Amazon Web Services console or
	// APIs.
	//
	// This member is required.
	MinSize *int32

	// The Amazon Resource Name ([ARN] ) for an IAM role that allows Amazon GameLift to
	// access your Amazon EC2 Auto Scaling groups.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	//
	// This member is required.
	RoleArn *string

	// Configuration settings to define a scaling policy for the Auto Scaling group
	// that is optimized for game hosting. The scaling policy uses the metric
	// "PercentUtilizedGameServers" to maintain a buffer of idle game servers that can
	// immediately accommodate new games and players. After the Auto Scaling group is
	// created, update this value directly in the Auto Scaling group using the Amazon
	// Web Services console or APIs.
	AutoScalingPolicy *types.GameServerGroupAutoScalingPolicy

	// Indicates how Amazon GameLift FleetIQ balances the use of Spot Instances and
	// On-Demand Instances in the game server group. Method options include the
	// following:
	//
	//   - SPOT_ONLY - Only Spot Instances are used in the game server group. If Spot
	//   Instances are unavailable or not viable for game hosting, the game server group
	//   provides no hosting capacity until Spot Instances can again be used. Until then,
	//   no new instances are started, and the existing nonviable Spot Instances are
	//   terminated (after current gameplay ends) and are not replaced.
	//
	//   - SPOT_PREFERRED - (default value) Spot Instances are used whenever available
	//   in the game server group. If Spot Instances are unavailable, the game server
	//   group continues to provide hosting capacity by falling back to On-Demand
	//   Instances. Existing nonviable Spot Instances are terminated (after current
	//   gameplay ends) and are replaced with new On-Demand Instances.
	//
	//   - ON_DEMAND_ONLY - Only On-Demand Instances are used in the game server group.
	//   No Spot Instances are used, even when available, while this balancing strategy
	//   is in force.
	BalancingStrategy types.BalancingStrategy

	// A flag that indicates whether instances in the game server group are protected
	// from early termination. Unprotected instances that have active game servers
	// running might be terminated during a scale-down event, causing players to be
	// dropped from the game. Protected instances cannot be terminated while there are
	// active game servers running except in the event of a forced game server group
	// deletion (see ). An exception to this is with Spot Instances, which can be
	// terminated by Amazon Web Services regardless of protection status. This property
	// is set to NO_PROTECTION by default.
	GameServerProtectionPolicy types.GameServerProtectionPolicy

	// A list of labels to assign to the new game server group resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources is
	// useful for resource management, access management, and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag

	// A list of virtual private cloud (VPC) subnets to use with instances in the game
	// server group. By default, all Amazon GameLift FleetIQ-supported Availability
	// Zones are used. You can use this parameter to specify VPCs that you've set up.
	// This property cannot be updated after the game server group is created, and the
	// corresponding Auto Scaling group will always use the property value that is set
	// with this request, even if the Auto Scaling group is updated directly.
	VpcSubnets []string
	// contains filtered or unexported fields
}

type CreateGameServerGroupOutput

type CreateGameServerGroupOutput struct {

	// The newly created game server group object, including the new ARN value for the
	// Amazon GameLift FleetIQ game server group and the object's status. The Amazon
	// EC2 Auto Scaling group ARN is initially null, since the group has not yet been
	// created. This value is added once the game server group status reaches ACTIVE .
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateGameSessionInput

type CreateGameSessionInput struct {

	// The maximum number of players that can be connected simultaneously to the game
	// session.
	//
	// This member is required.
	MaximumPlayerSessionCount *int32

	// A unique identifier for the alias associated with the fleet to create a game
	// session in. You can use either the alias ID or ARN value. Each request must
	// reference either a fleet ID or alias ID, but not both.
	AliasId *string

	// A unique identifier for a player or entity creating the game session.
	//
	// If you add a resource creation limit policy to a fleet, the CreateGameSession
	// operation requires a CreatorId . Amazon GameLift limits the number of game
	// session creation requests with the same CreatorId in a specified time period.
	//
	// If you your fleet doesn't have a resource creation limit policy and you provide
	// a CreatorId in your CreateGameSession requests, Amazon GameLift limits requests
	// to one request per CreatorId per second.
	//
	// To not limit CreateGameSession requests with the same CreatorId , don't provide
	// a CreatorId in your CreateGameSession request.
	CreatorId *string

	// A unique identifier for the fleet to create a game session in. You can use
	// either the fleet ID or ARN value. Each request must reference either a fleet ID
	// or alias ID, but not both.
	FleetId *string

	// A set of key-value pairs that can store custom data in a game session. For
	// example: {"Key": "difficulty", "Value": "novice"} . For an example, see [Create a game session with custom properties].
	//
	// [Create a game session with custom properties]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-client-api.html#game-properties-create
	GameProperties []types.GameProperty

	// A set of custom game session properties, formatted as a single string value.
	// This data is passed to a game server process with a request to start a new game
	// session (see [Start a Game Session]).
	//
	// [Start a Game Session]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-api.html#gamelift-sdk-server-startsession
	GameSessionData *string

	//  This parameter is deprecated. Use IdempotencyToken instead.
	//
	// Custom string that uniquely identifies a request for a new game session.
	// Maximum token length is 48 characters. If provided, this string is included in
	// the new game session's ID.
	GameSessionId *string

	// Custom string that uniquely identifies the new game session request. This is
	// useful for ensuring that game session requests with the same idempotency token
	// are processed only once. Subsequent requests with the same string return the
	// original GameSession object, with an updated status. Maximum token length is 48
	// characters. If provided, this string is included in the new game session's ID. A
	// game session ARN has the following format: arn:aws:gamelift:::gamesession// .
	// Idempotency tokens remain in use for 30 days after a game session has ended;
	// game session objects are retained for this time period and then deleted.
	IdempotencyToken *string

	// A fleet's remote location to place the new game session in. If this parameter
	// is not set, the new game session is placed in the fleet's home Region. Specify a
	// remote location with an Amazon Web Services Region code such as us-west-2 . When
	// using an Anywhere fleet, this parameter is required and must be set to the
	// Anywhere fleet's custom location.
	Location *string

	// A descriptive label that is associated with a game session. Session names do
	// not need to be unique.
	Name *string
	// contains filtered or unexported fields
}

type CreateGameSessionOutput

type CreateGameSessionOutput struct {

	// Object that describes the newly created game session record.
	GameSession *types.GameSession

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateGameSessionQueueInput

type CreateGameSessionQueueInput struct {

	// A descriptive label that is associated with game session queue. Queue names
	// must be unique within each Region.
	//
	// This member is required.
	Name *string

	// Information to be added to all events that are related to this game session
	// queue.
	CustomEventData *string

	// A list of fleets and/or fleet aliases that can be used to fulfill game session
	// placement requests in the queue. Destinations are identified by either a fleet
	// ARN or a fleet alias ARN, and are listed in order of placement preference.
	Destinations []types.GameSessionQueueDestination

	// A list of locations where a queue is allowed to place new game sessions.
	// Locations are specified in the form of Amazon Web Services Region codes, such as
	// us-west-2 . If this parameter is not set, game sessions can be placed in any
	// queue location.
	FilterConfiguration *types.FilterConfiguration

	// An SNS topic ARN that is set up to receive game session placement
	// notifications. See [Setting up notifications for game session placement].
	//
	// [Setting up notifications for game session placement]: https://docs.aws.amazon.com/gamelift/latest/developerguide/queue-notification.html
	NotificationTarget *string

	// A set of policies that act as a sliding cap on player latency. FleetIQ works to
	// deliver low latency for most players in a game session. These policies ensure
	// that no individual player can be placed into a game with unreasonably high
	// latency. Use multiple policies to gradually relax latency requirements a step at
	// a time. Multiple policies are applied based on their maximum allowed latency,
	// starting with the lowest value.
	PlayerLatencyPolicies []types.PlayerLatencyPolicy

	// Custom settings to use when prioritizing destinations and locations for game
	// session placements. This configuration replaces the FleetIQ default
	// prioritization process. Priority types that are not explicitly named will be
	// automatically applied at the end of the prioritization process.
	PriorityConfiguration *types.PriorityConfiguration

	// A list of labels to assign to the new game session queue resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag

	// The maximum time, in seconds, that a new game session placement request remains
	// in the queue. When a request exceeds this time, the game session placement
	// changes to a TIMED_OUT status. By default, this property is set to 600 .
	TimeoutInSeconds *int32
	// contains filtered or unexported fields
}

type CreateGameSessionQueueOutput

type CreateGameSessionQueueOutput struct {

	// An object that describes the newly created game session queue.
	GameSessionQueue *types.GameSessionQueue

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateLocationInput added in v1.16.0

type CreateLocationInput struct {

	// A descriptive name for the custom location.
	//
	// This member is required.
	LocationName *string

	// A list of labels to assign to the new resource. Tags are developer-defined
	// key-value pairs. Tagging Amazon Web Services resources are useful for resource
	// management, access management, and cost allocation. For more information, see [Tagging Amazon Web Services Resources]
	// in the Amazon Web Services General Rareference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateLocationOutput added in v1.16.0

type CreateLocationOutput struct {

	// The details of the custom location you created.
	Location *types.LocationModel

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateMatchmakingConfigurationInput

type CreateMatchmakingConfigurationInput struct {

	// A flag that determines whether a match that was created with this configuration
	// must be accepted by the matched players. To require acceptance, set to TRUE .
	// With this option enabled, matchmaking tickets use the status REQUIRES_ACCEPTANCE
	// to indicate when a completed potential match is waiting for player acceptance.
	//
	// This member is required.
	AcceptanceRequired *bool

	// A unique identifier for the matchmaking configuration. This name is used to
	// identify the configuration associated with a matchmaking request or ticket.
	//
	// This member is required.
	Name *string

	// The maximum duration, in seconds, that a matchmaking ticket can remain in
	// process before timing out. Requests that fail due to timing out can be
	// resubmitted as needed.
	//
	// This member is required.
	RequestTimeoutSeconds *int32

	// A unique identifier for the matchmaking rule set to use with this
	// configuration. You can use either the rule set name or ARN value. A matchmaking
	// configuration can only use rule sets that are defined in the same Region.
	//
	// This member is required.
	RuleSetName *string

	// The length of time (in seconds) to wait for players to accept a proposed match,
	// if acceptance is required.
	AcceptanceTimeoutSeconds *int32

	// The number of player slots in a match to keep open for future players. For
	// example, if the configuration's rule set specifies a match for a single
	// 10-person team, and the additional player count is set to 2, 10 players will be
	// selected for the match and 2 more player slots will be open for future players.
	// This parameter is not used if FlexMatchMode is set to STANDALONE .
	AdditionalPlayerCount *int32

	// The method used to backfill game sessions that are created with this
	// matchmaking configuration. Specify MANUAL when your game manages backfill
	// requests manually or does not use the match backfill feature. Specify AUTOMATIC
	// to have Amazon GameLift create a backfill request whenever a game session has
	// one or more open slots. Learn more about manual and automatic backfill in [Backfill Existing Games with FlexMatch].
	// Automatic backfill is not available when FlexMatchMode is set to STANDALONE .
	//
	// [Backfill Existing Games with FlexMatch]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-backfill.html
	BackfillMode types.BackfillMode

	// Information to be added to all events related to this matchmaking
	// configuration.
	CustomEventData *string

	// A human-readable description of the matchmaking configuration.
	Description *string

	// Indicates whether this matchmaking configuration is being used with Amazon
	// GameLift hosting or as a standalone matchmaking solution.
	//
	//   - STANDALONE - FlexMatch forms matches and returns match information,
	//   including players and team assignments, in a [MatchmakingSucceeded]event.
	//
	//   - WITH_QUEUE - FlexMatch forms matches and uses the specified Amazon GameLift
	//   queue to start a game session for the match.
	//
	// [MatchmakingSucceeded]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-events.html#match-events-matchmakingsucceeded
	FlexMatchMode types.FlexMatchMode

	// A set of key-value pairs that can store custom data in a game session. For
	// example: {"Key": "difficulty", "Value": "novice"} . This information is added to
	// the new GameSession object that is created for a successful match. This
	// parameter is not used if FlexMatchMode is set to STANDALONE .
	GameProperties []types.GameProperty

	// A set of custom game session properties, formatted as a single string value.
	// This data is passed to a game server process with a request to start a new game
	// session (see [Start a Game Session]). This information is added to the new GameSession object that is
	// created for a successful match. This parameter is not used if FlexMatchMode is
	// set to STANDALONE .
	//
	// [Start a Game Session]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-api.html#gamelift-sdk-server-startsession
	GameSessionData *string

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift game session
	// queue resource and uniquely identifies it. ARNs are unique across all Regions.
	// Format is arn:aws:gamelift:::gamesessionqueue/ . Queues can be located in any
	// Region. Queues are used to start new Amazon GameLift-hosted game sessions for
	// matches that are created with this matchmaking configuration. If FlexMatchMode
	// is set to STANDALONE , do not set this parameter.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	GameSessionQueueArns []string

	// An SNS topic ARN that is set up to receive matchmaking notifications. See [Setting up notifications for matchmaking] for
	// more information.
	//
	// [Setting up notifications for matchmaking]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-notification.html
	NotificationTarget *string

	// A list of labels to assign to the new matchmaking configuration resource. Tags
	// are developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateMatchmakingConfigurationOutput

type CreateMatchmakingConfigurationOutput struct {

	// Object that describes the newly created matchmaking configuration.
	Configuration *types.MatchmakingConfiguration

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateMatchmakingRuleSetInput

type CreateMatchmakingRuleSetInput struct {

	// A unique identifier for the matchmaking rule set. A matchmaking configuration
	// identifies the rule set it uses by this name value. Note that the rule set name
	// is different from the optional name field in the rule set body.
	//
	// This member is required.
	Name *string

	// A collection of matchmaking rules, formatted as a JSON string. Comments are not
	// allowed in JSON, but most elements support a description field.
	//
	// This member is required.
	RuleSetBody *string

	// A list of labels to assign to the new matchmaking rule set resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	Tags []types.Tag
	// contains filtered or unexported fields
}

type CreateMatchmakingRuleSetOutput

type CreateMatchmakingRuleSetOutput struct {

	// The newly created matchmaking rule set.
	//
	// This member is required.
	RuleSet *types.MatchmakingRuleSet

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreatePlayerSessionInput

type CreatePlayerSessionInput struct {

	// A unique identifier for the game session to add a player to.
	//
	// This member is required.
	GameSessionId *string

	// A unique identifier for a player. Player IDs are developer-defined.
	//
	// This member is required.
	PlayerId *string

	// Developer-defined information related to a player. Amazon GameLift does not use
	// this data, so it can be formatted as needed for use in the game.
	PlayerData *string
	// contains filtered or unexported fields
}

type CreatePlayerSessionOutput

type CreatePlayerSessionOutput struct {

	// Object that describes the newly created player session record.
	PlayerSession *types.PlayerSession

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreatePlayerSessionsInput

type CreatePlayerSessionsInput struct {

	// A unique identifier for the game session to add players to.
	//
	// This member is required.
	GameSessionId *string

	// List of unique identifiers for the players to be added.
	//
	// This member is required.
	PlayerIds []string

	// Map of string pairs, each specifying a player ID and a set of developer-defined
	// information related to the player. Amazon GameLift does not use this data, so it
	// can be formatted as needed for use in the game. Any player data strings for
	// player IDs that are not included in the PlayerIds parameter are ignored.
	PlayerDataMap map[string]string
	// contains filtered or unexported fields
}

type CreatePlayerSessionsOutput

type CreatePlayerSessionsOutput struct {

	// A collection of player session objects created for the added players.
	PlayerSessions []types.PlayerSession

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateScriptInput

type CreateScriptInput struct {

	// A descriptive label that is associated with a script. Script names don't need
	// to be unique. You can use [UpdateScript]to change this value later.
	//
	// [UpdateScript]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_UpdateScript.html
	Name *string

	// The location of the Amazon S3 bucket where a zipped file containing your
	// Realtime scripts is stored. The storage location must specify the Amazon S3
	// bucket name, the zip file name (the "key"), and a role ARN that allows Amazon
	// GameLift to access the Amazon S3 storage location. The S3 bucket must be in the
	// same Region where you want to create a new script. By default, Amazon GameLift
	// uploads the latest version of the zip file; if you have S3 object versioning
	// turned on, you can use the ObjectVersion parameter to specify an earlier
	// version.
	StorageLocation *types.S3Location

	// A list of labels to assign to the new script resource. Tags are
	// developer-defined key-value pairs. Tagging Amazon Web Services resources are
	// useful for resource management, access management and cost allocation. For more
	// information, see [Tagging Amazon Web Services Resources]in the Amazon Web Services General Reference. Once the
	// resource is created, you can use [TagResource], [UntagResource], and [ListTagsForResource] to add, remove, and view tags. The
	// maximum tag limit may be lower than stated. See the Amazon Web Services General
	// Reference for actual tagging limits.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	// [TagResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_TagResource.html
	// [UntagResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_UntagResource.html
	// [ListTagsForResource]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_ListTagsForResource.html
	Tags []types.Tag

	// Version information associated with a build or script. Version strings don't
	// need to be unique. You can use [UpdateScript]to change this value later.
	//
	// [UpdateScript]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_UpdateScript.html
	Version *string

	// A data object containing your Realtime scripts and dependencies as a zip file.
	// The zip file can have one or multiple files. Maximum size of a zip file is 5 MB.
	//
	// When using the Amazon Web Services CLI tool to create a script, this parameter
	// is set to the zip file name. It must be prepended with the string "fileb://" to
	// indicate that the file data is a binary object. For example: --zip-file
	// fileb://myRealtimeScript.zip .
	ZipFile []byte
	// contains filtered or unexported fields
}

type CreateScriptOutput

type CreateScriptOutput struct {

	// The newly created script record with a unique script ID and ARN. The new
	// script's storage location reflects an Amazon S3 location: (1) If the script was
	// uploaded from an S3 bucket under your account, the storage location reflects the
	// information that was provided in the CreateScript request; (2) If the script
	// file was uploaded from a local zip file, the storage location reflects an S3
	// location controls by the Amazon GameLift service.
	Script *types.Script

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateVpcPeeringAuthorizationInput

type CreateVpcPeeringAuthorizationInput struct {

	// A unique identifier for the Amazon Web Services account that you use to manage
	// your Amazon GameLift fleet. You can find your Account ID in the Amazon Web
	// Services Management Console under account settings.
	//
	// This member is required.
	GameLiftAwsAccountId *string

	// A unique identifier for a VPC with resources to be accessed by your Amazon
	// GameLift fleet. The VPC must be in the same Region as your fleet. To look up a
	// VPC ID, use the [VPC Dashboard]in the Amazon Web Services Management Console. Learn more about
	// VPC peering in [VPC Peering with Amazon GameLift Fleets].
	//
	// [VPC Dashboard]: https://console.aws.amazon.com/vpc/
	// [VPC Peering with Amazon GameLift Fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/vpc-peering.html
	//
	// This member is required.
	PeerVpcId *string
	// contains filtered or unexported fields
}

type CreateVpcPeeringAuthorizationOutput

type CreateVpcPeeringAuthorizationOutput struct {

	// Details on the requested VPC peering authorization, including expiration.
	VpcPeeringAuthorization *types.VpcPeeringAuthorization

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type CreateVpcPeeringConnectionInput

type CreateVpcPeeringConnectionInput struct {

	// A unique identifier for the fleet. You can use either the fleet ID or ARN
	// value. This tells Amazon GameLift which GameLift VPC to peer with.
	//
	// This member is required.
	FleetId *string

	// A unique identifier for the Amazon Web Services account with the VPC that you
	// want to peer your Amazon GameLift fleet with. You can find your Account ID in
	// the Amazon Web Services Management Console under account settings.
	//
	// This member is required.
	PeerVpcAwsAccountId *string

	// A unique identifier for a VPC with resources to be accessed by your Amazon
	// GameLift fleet. The VPC must be in the same Region as your fleet. To look up a
	// VPC ID, use the [VPC Dashboard]in the Amazon Web Services Management Console. Learn more about
	// VPC peering in [VPC Peering with Amazon GameLift Fleets].
	//
	// [VPC Dashboard]: https://console.aws.amazon.com/vpc/
	// [VPC Peering with Amazon GameLift Fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/vpc-peering.html
	//
	// This member is required.
	PeerVpcId *string
	// contains filtered or unexported fields
}

type CreateVpcPeeringConnectionOutput

type CreateVpcPeeringConnectionOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteAliasInput

type DeleteAliasInput struct {

	// A unique identifier of the alias that you want to delete. You can use either
	// the alias ID or ARN value.
	//
	// This member is required.
	AliasId *string
	// contains filtered or unexported fields
}

type DeleteAliasOutput

type DeleteAliasOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteBuildInput

type DeleteBuildInput struct {

	// A unique identifier for the build to delete. You can use either the build ID or
	// ARN value.
	//
	// This member is required.
	BuildId *string
	// contains filtered or unexported fields
}

type DeleteBuildOutput

type DeleteBuildOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteContainerGroupDefinitionInput added in v1.31.0

type DeleteContainerGroupDefinitionInput struct {

	// The unique identifier for the container group definition to delete. You can use
	// either the Name or ARN value.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DeleteContainerGroupDefinitionOutput added in v1.31.0

type DeleteContainerGroupDefinitionOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteFleetInput

type DeleteFleetInput struct {

	// A unique identifier for the fleet to be deleted. You can use either the fleet
	// ID or ARN value.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type DeleteFleetLocationsInput added in v1.2.0

type DeleteFleetLocationsInput struct {

	// A unique identifier for the fleet to delete locations for. You can use either
	// the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The list of fleet locations to delete. Specify locations in the form of an
	// Amazon Web Services Region code, such as us-west-2 .
	//
	// This member is required.
	Locations []string
	// contains filtered or unexported fields
}

type DeleteFleetLocationsOutput added in v1.2.0

type DeleteFleetLocationsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that location attributes are being deleted
	// for.
	FleetId *string

	// The remote locations that are being deleted, with each location status set to
	// DELETING .
	LocationStates []types.LocationState

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteFleetOutput

type DeleteFleetOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteGameServerGroupInput

type DeleteGameServerGroupInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// The type of delete to perform. Options include the following:
	//
	//   - SAFE_DELETE – (default) Terminates the game server group and Amazon EC2 Auto
	//   Scaling group only when it has no game servers that are in UTILIZED status.
	//
	//   - FORCE_DELETE – Terminates the game server group, including all active game
	//   servers regardless of their utilization status, and the Amazon EC2 Auto Scaling
	//   group.
	//
	//   - RETAIN – Does a safe delete of the game server group but retains the Amazon
	//   EC2 Auto Scaling group as is.
	DeleteOption types.GameServerGroupDeleteOption
	// contains filtered or unexported fields
}

type DeleteGameServerGroupOutput

type DeleteGameServerGroupOutput struct {

	// An object that describes the deleted game server group resource, with status
	// updated to DELETE_SCHEDULED .
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteGameSessionQueueInput

type DeleteGameSessionQueueInput struct {

	// A descriptive label that is associated with game session queue. Queue names
	// must be unique within each Region. You can use either the queue ID or ARN value.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DeleteGameSessionQueueOutput

type DeleteGameSessionQueueOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteLocationInput added in v1.16.0

type DeleteLocationInput struct {

	// The location name of the custom location to be deleted.
	//
	// This member is required.
	LocationName *string
	// contains filtered or unexported fields
}

type DeleteLocationOutput added in v1.16.0

type DeleteLocationOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteMatchmakingConfigurationInput

type DeleteMatchmakingConfigurationInput struct {

	// A unique identifier for the matchmaking configuration. You can use either the
	// configuration name or ARN value.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DeleteMatchmakingConfigurationOutput

type DeleteMatchmakingConfigurationOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteMatchmakingRuleSetInput

type DeleteMatchmakingRuleSetInput struct {

	// A unique identifier for the matchmaking rule set to be deleted. (Note: The rule
	// set name is different from the optional "name" field in the rule set body.) You
	// can use either the rule set name or ARN value.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DeleteMatchmakingRuleSetOutput

type DeleteMatchmakingRuleSetOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteScalingPolicyInput

type DeleteScalingPolicyInput struct {

	// A unique identifier for the fleet to be deleted. You can use either the fleet
	// ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// A descriptive label that is associated with a fleet's scaling policy. Policy
	// names do not need to be unique.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DeleteScalingPolicyOutput

type DeleteScalingPolicyOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteScriptInput

type DeleteScriptInput struct {

	// A unique identifier for the Realtime script to delete. You can use either the
	// script ID or ARN value.
	//
	// This member is required.
	ScriptId *string
	// contains filtered or unexported fields
}

type DeleteScriptOutput

type DeleteScriptOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteVpcPeeringAuthorizationInput

type DeleteVpcPeeringAuthorizationInput struct {

	// A unique identifier for the Amazon Web Services account that you use to manage
	// your Amazon GameLift fleet. You can find your Account ID in the Amazon Web
	// Services Management Console under account settings.
	//
	// This member is required.
	GameLiftAwsAccountId *string

	// A unique identifier for a VPC with resources to be accessed by your Amazon
	// GameLift fleet. The VPC must be in the same Region as your fleet. To look up a
	// VPC ID, use the [VPC Dashboard]in the Amazon Web Services Management Console. Learn more about
	// VPC peering in [VPC Peering with Amazon GameLift Fleets].
	//
	// [VPC Dashboard]: https://console.aws.amazon.com/vpc/
	// [VPC Peering with Amazon GameLift Fleets]: https://docs.aws.amazon.com/gamelift/latest/developerguide/vpc-peering.html
	//
	// This member is required.
	PeerVpcId *string
	// contains filtered or unexported fields
}

type DeleteVpcPeeringAuthorizationOutput

type DeleteVpcPeeringAuthorizationOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeleteVpcPeeringConnectionInput

type DeleteVpcPeeringConnectionInput struct {

	// A unique identifier for the fleet. This fleet specified must match the fleet
	// referenced in the VPC peering connection record. You can use either the fleet ID
	// or ARN value.
	//
	// This member is required.
	FleetId *string

	// A unique identifier for a VPC peering connection.
	//
	// This member is required.
	VpcPeeringConnectionId *string
	// contains filtered or unexported fields
}

type DeleteVpcPeeringConnectionOutput

type DeleteVpcPeeringConnectionOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeregisterComputeInput added in v1.16.0

type DeregisterComputeInput struct {

	// The unique identifier of the compute resource to deregister. For an Anywhere
	// fleet compute, use the registered compute name. For a container fleet, use the
	// compute name (for example,
	// a123b456c789012d3e4567f8a901b23c/1a234b56-7cd8-9e0f-a1b2-c34d567ef8a9 ) or the
	// compute ARN.
	//
	// This member is required.
	ComputeName *string

	// A unique identifier for the fleet the compute resource is currently registered
	// to.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type DeregisterComputeOutput added in v1.16.0

type DeregisterComputeOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DeregisterGameServerInput

type DeregisterGameServerInput struct {

	// A unique identifier for the game server group where the game server is running.
	//
	// This member is required.
	GameServerGroupName *string

	// A custom string that uniquely identifies the game server to deregister.
	//
	// This member is required.
	GameServerId *string
	// contains filtered or unexported fields
}

type DeregisterGameServerOutput

type DeregisterGameServerOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeAliasInput

type DescribeAliasInput struct {

	// The unique identifier for the fleet alias that you want to retrieve. You can
	// use either the alias ID or ARN value.
	//
	// This member is required.
	AliasId *string
	// contains filtered or unexported fields
}

type DescribeAliasOutput

type DescribeAliasOutput struct {

	// The requested alias resource.
	Alias *types.Alias

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeBuildInput

type DescribeBuildInput struct {

	// A unique identifier for the build to retrieve properties for. You can use
	// either the build ID or ARN value.
	//
	// This member is required.
	BuildId *string
	// contains filtered or unexported fields
}

type DescribeBuildOutput

type DescribeBuildOutput struct {

	// Set of properties describing the requested build.
	Build *types.Build

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeComputeInput added in v1.16.0

type DescribeComputeInput struct {

	// The unique identifier of the compute resource to retrieve properties for. For
	// an Anywhere fleet compute, use the registered compute name. For an EC2 fleet
	// instance, use the instance ID. For a container fleet, use the compute name (for
	// example, a123b456c789012d3e4567f8a901b23c/1a234b56-7cd8-9e0f-a1b2-c34d567ef8a9 )
	// or the compute ARN.
	//
	// This member is required.
	ComputeName *string

	// A unique identifier for the fleet that the compute belongs to. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type DescribeComputeOutput added in v1.16.0

type DescribeComputeOutput struct {

	// The set of properties for the requested compute resource.
	Compute *types.Compute

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeContainerGroupDefinitionInput added in v1.31.0

type DescribeContainerGroupDefinitionInput struct {

	// The unique identifier for the container group definition to retrieve properties
	// for. You can use either the Name or ARN value.
	//
	// This member is required.
	Name *string
	// contains filtered or unexported fields
}

type DescribeContainerGroupDefinitionOutput added in v1.31.0

type DescribeContainerGroupDefinitionOutput struct {

	// The properties of the requested container group definition resource.
	ContainerGroupDefinition *types.ContainerGroupDefinition

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeEC2InstanceLimitsInput

type DescribeEC2InstanceLimitsInput struct {

	// Name of an Amazon EC2 instance type that is supported in Amazon GameLift. A
	// fleet instance type determines the computing resources of each instance in the
	// fleet, including CPU, memory, storage, and networking capacity. Do not specify a
	// value for this parameter to retrieve limits for all instance types.
	EC2InstanceType types.EC2InstanceType

	// The name of a remote location to request instance limits for, in the form of an
	// Amazon Web Services Region code such as us-west-2 .
	Location *string
	// contains filtered or unexported fields
}

type DescribeEC2InstanceLimitsOutput

type DescribeEC2InstanceLimitsOutput struct {

	// The maximum number of instances for the specified instance type.
	EC2InstanceLimits []types.EC2InstanceLimit

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetAttributesAPIClient added in v0.30.0

type DescribeFleetAttributesAPIClient interface {
	DescribeFleetAttributes(context.Context, *DescribeFleetAttributesInput, ...func(*Options)) (*DescribeFleetAttributesOutput, error)
}

DescribeFleetAttributesAPIClient is a client that implements the DescribeFleetAttributes operation.

type DescribeFleetAttributesInput

type DescribeFleetAttributesInput struct {

	// A list of unique fleet identifiers to retrieve attributes for. You can use
	// either the fleet ID or ARN value. To retrieve attributes for all current fleets,
	// do not include this parameter.
	FleetIds []string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value. This parameter is
	// ignored when the request specifies one or a list of fleet IDs.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeFleetAttributesOutput

type DescribeFleetAttributesOutput struct {

	// A collection of objects containing attribute metadata for each requested fleet
	// ID. Attribute objects are returned only for fleets that currently exist.
	FleetAttributes []types.FleetAttributes

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetAttributesPaginator added in v0.30.0

type DescribeFleetAttributesPaginator struct {
	// contains filtered or unexported fields
}

DescribeFleetAttributesPaginator is a paginator for DescribeFleetAttributes

func NewDescribeFleetAttributesPaginator added in v0.30.0

NewDescribeFleetAttributesPaginator returns a new DescribeFleetAttributesPaginator

func (*DescribeFleetAttributesPaginator) HasMorePages added in v0.30.0

func (p *DescribeFleetAttributesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeFleetAttributesPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeFleetAttributes page.

type DescribeFleetAttributesPaginatorOptions added in v0.30.0

type DescribeFleetAttributesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeFleetAttributesPaginatorOptions is the paginator options for DescribeFleetAttributes

type DescribeFleetCapacityAPIClient added in v0.30.0

type DescribeFleetCapacityAPIClient interface {
	DescribeFleetCapacity(context.Context, *DescribeFleetCapacityInput, ...func(*Options)) (*DescribeFleetCapacityOutput, error)
}

DescribeFleetCapacityAPIClient is a client that implements the DescribeFleetCapacity operation.

type DescribeFleetCapacityInput

type DescribeFleetCapacityInput struct {

	// A unique identifier for the fleet to retrieve capacity information for. You can
	// use either the fleet ID or ARN value. Leave this parameter empty to retrieve
	// capacity information for all fleets.
	FleetIds []string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value. This parameter is
	// ignored when the request specifies one or a list of fleet IDs.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeFleetCapacityOutput

type DescribeFleetCapacityOutput struct {

	// A collection of objects that contains capacity information for each requested
	// fleet ID. Capacity objects are returned only for fleets that currently exist.
	// Changes in desired instance value can take up to 1 minute to be reflected.
	FleetCapacity []types.FleetCapacity

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetCapacityPaginator added in v0.30.0

type DescribeFleetCapacityPaginator struct {
	// contains filtered or unexported fields
}

DescribeFleetCapacityPaginator is a paginator for DescribeFleetCapacity

func NewDescribeFleetCapacityPaginator added in v0.30.0

NewDescribeFleetCapacityPaginator returns a new DescribeFleetCapacityPaginator

func (*DescribeFleetCapacityPaginator) HasMorePages added in v0.30.0

func (p *DescribeFleetCapacityPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeFleetCapacityPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeFleetCapacity page.

type DescribeFleetCapacityPaginatorOptions added in v0.30.0

type DescribeFleetCapacityPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeFleetCapacityPaginatorOptions is the paginator options for DescribeFleetCapacity

type DescribeFleetEventsAPIClient added in v0.30.0

type DescribeFleetEventsAPIClient interface {
	DescribeFleetEvents(context.Context, *DescribeFleetEventsInput, ...func(*Options)) (*DescribeFleetEventsOutput, error)
}

DescribeFleetEventsAPIClient is a client that implements the DescribeFleetEvents operation.

type DescribeFleetEventsInput

type DescribeFleetEventsInput struct {

	// A unique identifier for the fleet to get event logs for. You can use either the
	// fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The most recent date to retrieve event logs for. If no end time is specified,
	// this call returns entries from the specified start time up to the present.
	// Format is a number expressed in Unix time as milliseconds (ex:
	// "1469498468.057").
	EndTime *time.Time

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// The earliest date to retrieve event logs for. If no start time is specified,
	// this call returns entries starting from when the fleet was created to the
	// specified end time. Format is a number expressed in Unix time as milliseconds
	// (ex: "1469498468.057").
	StartTime *time.Time
	// contains filtered or unexported fields
}

type DescribeFleetEventsOutput

type DescribeFleetEventsOutput struct {

	// A collection of objects containing event log entries for the specified fleet.
	Events []types.Event

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetEventsPaginator added in v0.30.0

type DescribeFleetEventsPaginator struct {
	// contains filtered or unexported fields
}

DescribeFleetEventsPaginator is a paginator for DescribeFleetEvents

func NewDescribeFleetEventsPaginator added in v0.30.0

func NewDescribeFleetEventsPaginator(client DescribeFleetEventsAPIClient, params *DescribeFleetEventsInput, optFns ...func(*DescribeFleetEventsPaginatorOptions)) *DescribeFleetEventsPaginator

NewDescribeFleetEventsPaginator returns a new DescribeFleetEventsPaginator

func (*DescribeFleetEventsPaginator) HasMorePages added in v0.30.0

func (p *DescribeFleetEventsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeFleetEventsPaginator) NextPage added in v0.30.0

func (p *DescribeFleetEventsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*DescribeFleetEventsOutput, error)

NextPage retrieves the next DescribeFleetEvents page.

type DescribeFleetEventsPaginatorOptions added in v0.30.0

type DescribeFleetEventsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeFleetEventsPaginatorOptions is the paginator options for DescribeFleetEvents

type DescribeFleetLocationAttributesAPIClient added in v1.2.0

type DescribeFleetLocationAttributesAPIClient interface {
	DescribeFleetLocationAttributes(context.Context, *DescribeFleetLocationAttributesInput, ...func(*Options)) (*DescribeFleetLocationAttributesOutput, error)
}

DescribeFleetLocationAttributesAPIClient is a client that implements the DescribeFleetLocationAttributes operation.

type DescribeFleetLocationAttributesInput added in v1.2.0

type DescribeFleetLocationAttributesInput struct {

	// A unique identifier for the fleet to retrieve remote locations for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This limit is not currently enforced.
	Limit *int32

	// A list of fleet locations to retrieve information for. Specify locations in the
	// form of an Amazon Web Services Region code, such as us-west-2 .
	Locations []string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeFleetLocationAttributesOutput added in v1.2.0

type DescribeFleetLocationAttributesOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that location attributes were requested for.
	FleetId *string

	//  Location-specific information on the requested fleet's remote locations.
	LocationAttributes []types.LocationAttributes

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetLocationAttributesPaginator added in v1.2.0

type DescribeFleetLocationAttributesPaginator struct {
	// contains filtered or unexported fields
}

DescribeFleetLocationAttributesPaginator is a paginator for DescribeFleetLocationAttributes

func NewDescribeFleetLocationAttributesPaginator added in v1.2.0

NewDescribeFleetLocationAttributesPaginator returns a new DescribeFleetLocationAttributesPaginator

func (*DescribeFleetLocationAttributesPaginator) HasMorePages added in v1.2.0

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeFleetLocationAttributesPaginator) NextPage added in v1.2.0

NextPage retrieves the next DescribeFleetLocationAttributes page.

type DescribeFleetLocationAttributesPaginatorOptions added in v1.2.0

type DescribeFleetLocationAttributesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This limit is not currently enforced.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeFleetLocationAttributesPaginatorOptions is the paginator options for DescribeFleetLocationAttributes

type DescribeFleetLocationCapacityInput added in v1.2.0

type DescribeFleetLocationCapacityInput struct {

	// A unique identifier for the fleet to request location capacity for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The fleet location to retrieve capacity information for. Specify a location in
	// the form of an Amazon Web Services Region code, such as us-west-2 .
	//
	// This member is required.
	Location *string
	// contains filtered or unexported fields
}

type DescribeFleetLocationCapacityOutput added in v1.2.0

type DescribeFleetLocationCapacityOutput struct {

	// Resource capacity information for the requested fleet location. Capacity
	// objects are returned only for fleets and locations that currently exist. Changes
	// in desired instance value can take up to 1 minute to be reflected.
	FleetCapacity *types.FleetCapacity

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetLocationUtilizationInput added in v1.2.0

type DescribeFleetLocationUtilizationInput struct {

	// A unique identifier for the fleet to request location utilization for. You can
	// use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The fleet location to retrieve utilization information for. Specify a location
	// in the form of an Amazon Web Services Region code, such as us-west-2 .
	//
	// This member is required.
	Location *string
	// contains filtered or unexported fields
}

type DescribeFleetLocationUtilizationOutput added in v1.2.0

type DescribeFleetLocationUtilizationOutput struct {

	// Utilization information for the requested fleet location. Utilization objects
	// are returned only for fleets and locations that currently exist.
	FleetUtilization *types.FleetUtilization

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetPortSettingsInput

type DescribeFleetPortSettingsInput struct {

	// A unique identifier for the fleet to retrieve port settings for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// A remote location to check for status of port setting updates. Use the Amazon
	// Web Services Region code format, such as us-west-2 .
	Location *string
	// contains filtered or unexported fields
}

type DescribeFleetPortSettingsOutput

type DescribeFleetPortSettingsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that was requested.
	FleetId *string

	// The port settings for the requested fleet ID.
	InboundPermissions []types.IpPermission

	// The requested fleet location, expressed as an Amazon Web Services Region code,
	// such as us-west-2 .
	Location *string

	// The current status of updates to the fleet's port settings in the requested
	// fleet location. A status of PENDING_UPDATE indicates that an update was
	// requested for the fleet but has not yet been completed for the location.
	UpdateStatus types.LocationUpdateStatus

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetUtilizationAPIClient added in v0.30.0

type DescribeFleetUtilizationAPIClient interface {
	DescribeFleetUtilization(context.Context, *DescribeFleetUtilizationInput, ...func(*Options)) (*DescribeFleetUtilizationOutput, error)
}

DescribeFleetUtilizationAPIClient is a client that implements the DescribeFleetUtilization operation.

type DescribeFleetUtilizationInput

type DescribeFleetUtilizationInput struct {

	// A unique identifier for the fleet to retrieve utilization data for. You can use
	// either the fleet ID or ARN value. To retrieve attributes for all current fleets,
	// do not include this parameter.
	FleetIds []string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value. This parameter is
	// ignored when the request specifies one or a list of fleet IDs.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeFleetUtilizationOutput

type DescribeFleetUtilizationOutput struct {

	// A collection of objects containing utilization information for each requested
	// fleet ID. Utilization objects are returned only for fleets that currently exist.
	FleetUtilization []types.FleetUtilization

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeFleetUtilizationPaginator added in v0.30.0

type DescribeFleetUtilizationPaginator struct {
	// contains filtered or unexported fields
}

DescribeFleetUtilizationPaginator is a paginator for DescribeFleetUtilization

func NewDescribeFleetUtilizationPaginator added in v0.30.0

NewDescribeFleetUtilizationPaginator returns a new DescribeFleetUtilizationPaginator

func (*DescribeFleetUtilizationPaginator) HasMorePages added in v0.30.0

func (p *DescribeFleetUtilizationPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeFleetUtilizationPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeFleetUtilization page.

type DescribeFleetUtilizationPaginatorOptions added in v0.30.0

type DescribeFleetUtilizationPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is ignored when the
	// request specifies one or a list of fleet IDs.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeFleetUtilizationPaginatorOptions is the paginator options for DescribeFleetUtilization

type DescribeGameServerGroupInput

type DescribeGameServerGroupInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string
	// contains filtered or unexported fields
}

type DescribeGameServerGroupOutput

type DescribeGameServerGroupOutput struct {

	// An object with the property settings for the requested game server group
	// resource.
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameServerInput

type DescribeGameServerInput struct {

	// A unique identifier for the game server group where the game server is running.
	//
	// This member is required.
	GameServerGroupName *string

	// A custom string that uniquely identifies the game server information to be
	// retrieved.
	//
	// This member is required.
	GameServerId *string
	// contains filtered or unexported fields
}

type DescribeGameServerInstancesAPIClient added in v0.30.0

type DescribeGameServerInstancesAPIClient interface {
	DescribeGameServerInstances(context.Context, *DescribeGameServerInstancesInput, ...func(*Options)) (*DescribeGameServerInstancesOutput, error)
}

DescribeGameServerInstancesAPIClient is a client that implements the DescribeGameServerInstances operation.

type DescribeGameServerInstancesInput added in v0.29.0

type DescribeGameServerInstancesInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// The Amazon EC2 instance IDs that you want to retrieve status on. Amazon EC2
	// instance IDs use a 17-character format, for example: i-1234567890abcdef0 . To
	// retrieve all instances in the game server group, leave this parameter empty.
	InstanceIds []string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeGameServerInstancesOutput added in v0.29.0

type DescribeGameServerInstancesOutput struct {

	// The collection of requested game server instances.
	GameServerInstances []types.GameServerInstance

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameServerInstancesPaginator added in v0.30.0

type DescribeGameServerInstancesPaginator struct {
	// contains filtered or unexported fields
}

DescribeGameServerInstancesPaginator is a paginator for DescribeGameServerInstances

func NewDescribeGameServerInstancesPaginator added in v0.30.0

NewDescribeGameServerInstancesPaginator returns a new DescribeGameServerInstancesPaginator

func (*DescribeGameServerInstancesPaginator) HasMorePages added in v0.30.0

func (p *DescribeGameServerInstancesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeGameServerInstancesPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeGameServerInstances page.

type DescribeGameServerInstancesPaginatorOptions added in v0.30.0

type DescribeGameServerInstancesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeGameServerInstancesPaginatorOptions is the paginator options for DescribeGameServerInstances

type DescribeGameServerOutput

type DescribeGameServerOutput struct {

	// Object that describes the requested game server.
	GameServer *types.GameServer

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameSessionDetailsAPIClient added in v0.30.0

type DescribeGameSessionDetailsAPIClient interface {
	DescribeGameSessionDetails(context.Context, *DescribeGameSessionDetailsInput, ...func(*Options)) (*DescribeGameSessionDetailsOutput, error)
}

DescribeGameSessionDetailsAPIClient is a client that implements the DescribeGameSessionDetails operation.

type DescribeGameSessionDetailsInput

type DescribeGameSessionDetailsInput struct {

	// A unique identifier for the alias associated with the fleet to retrieve all
	// game sessions for. You can use either the alias ID or ARN value.
	AliasId *string

	// A unique identifier for the fleet to retrieve all game sessions active on the
	// fleet. You can use either the fleet ID or ARN value.
	FleetId *string

	// A unique identifier for the game session to retrieve.
	GameSessionId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A fleet location to get game session details for. You can specify a fleet's
	// home Region or a remote location. Use the Amazon Web Services Region code
	// format, such as us-west-2 .
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// Game session status to filter results on. Possible game session statuses
	// include ACTIVE , TERMINATED , ACTIVATING and TERMINATING (the last two are
	// transitory).
	StatusFilter *string
	// contains filtered or unexported fields
}

type DescribeGameSessionDetailsOutput

type DescribeGameSessionDetailsOutput struct {

	// A collection of properties for each game session that matches the request.
	GameSessionDetails []types.GameSessionDetail

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameSessionDetailsPaginator added in v0.30.0

type DescribeGameSessionDetailsPaginator struct {
	// contains filtered or unexported fields
}

DescribeGameSessionDetailsPaginator is a paginator for DescribeGameSessionDetails

func NewDescribeGameSessionDetailsPaginator added in v0.30.0

NewDescribeGameSessionDetailsPaginator returns a new DescribeGameSessionDetailsPaginator

func (*DescribeGameSessionDetailsPaginator) HasMorePages added in v0.30.0

func (p *DescribeGameSessionDetailsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeGameSessionDetailsPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeGameSessionDetails page.

type DescribeGameSessionDetailsPaginatorOptions added in v0.30.0

type DescribeGameSessionDetailsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeGameSessionDetailsPaginatorOptions is the paginator options for DescribeGameSessionDetails

type DescribeGameSessionPlacementInput

type DescribeGameSessionPlacementInput struct {

	// A unique identifier for a game session placement to retrieve.
	//
	// This member is required.
	PlacementId *string
	// contains filtered or unexported fields
}

type DescribeGameSessionPlacementOutput

type DescribeGameSessionPlacementOutput struct {

	// Object that describes the requested game session placement.
	GameSessionPlacement *types.GameSessionPlacement

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameSessionQueuesAPIClient added in v0.30.0

type DescribeGameSessionQueuesAPIClient interface {
	DescribeGameSessionQueues(context.Context, *DescribeGameSessionQueuesInput, ...func(*Options)) (*DescribeGameSessionQueuesOutput, error)
}

DescribeGameSessionQueuesAPIClient is a client that implements the DescribeGameSessionQueues operation.

type DescribeGameSessionQueuesInput

type DescribeGameSessionQueuesInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. You can request up to 50 results.
	Limit *int32

	// A list of queue names to retrieve information for. You can use either the queue
	// ID or ARN value. To request settings for all queues, leave this parameter empty.
	Names []string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeGameSessionQueuesOutput

type DescribeGameSessionQueuesOutput struct {

	// A collection of objects that describe the requested game session queues.
	GameSessionQueues []types.GameSessionQueue

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameSessionQueuesPaginator added in v0.30.0

type DescribeGameSessionQueuesPaginator struct {
	// contains filtered or unexported fields
}

DescribeGameSessionQueuesPaginator is a paginator for DescribeGameSessionQueues

func NewDescribeGameSessionQueuesPaginator added in v0.30.0

NewDescribeGameSessionQueuesPaginator returns a new DescribeGameSessionQueuesPaginator

func (*DescribeGameSessionQueuesPaginator) HasMorePages added in v0.30.0

func (p *DescribeGameSessionQueuesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeGameSessionQueuesPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeGameSessionQueues page.

type DescribeGameSessionQueuesPaginatorOptions added in v0.30.0

type DescribeGameSessionQueuesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. You can request up to 50 results.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeGameSessionQueuesPaginatorOptions is the paginator options for DescribeGameSessionQueues

type DescribeGameSessionsAPIClient added in v0.30.0

type DescribeGameSessionsAPIClient interface {
	DescribeGameSessions(context.Context, *DescribeGameSessionsInput, ...func(*Options)) (*DescribeGameSessionsOutput, error)
}

DescribeGameSessionsAPIClient is a client that implements the DescribeGameSessions operation.

type DescribeGameSessionsInput

type DescribeGameSessionsInput struct {

	// A unique identifier for the alias associated with the fleet to retrieve game
	// sessions for. You can use either the alias ID or ARN value.
	AliasId *string

	// A unique identifier for the fleet to retrieve game sessions for. You can use
	// either the fleet ID or ARN value.
	FleetId *string

	// A unique identifier for the game session to retrieve.
	GameSessionId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A fleet location to get game sessions for. You can specify a fleet's home
	// Region or a remote location. Use the Amazon Web Services Region code format,
	// such as us-west-2 .
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// Game session status to filter results on. You can filter on the following
	// states: ACTIVE , TERMINATED , ACTIVATING , and TERMINATING . The last two are
	// transitory and used for only very brief periods of time.
	StatusFilter *string
	// contains filtered or unexported fields
}

type DescribeGameSessionsOutput

type DescribeGameSessionsOutput struct {

	// A collection of properties for each game session that matches the request.
	GameSessions []types.GameSession

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeGameSessionsPaginator added in v0.30.0

type DescribeGameSessionsPaginator struct {
	// contains filtered or unexported fields
}

DescribeGameSessionsPaginator is a paginator for DescribeGameSessions

func NewDescribeGameSessionsPaginator added in v0.30.0

NewDescribeGameSessionsPaginator returns a new DescribeGameSessionsPaginator

func (*DescribeGameSessionsPaginator) HasMorePages added in v0.30.0

func (p *DescribeGameSessionsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeGameSessionsPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeGameSessions page.

type DescribeGameSessionsPaginatorOptions added in v0.30.0

type DescribeGameSessionsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeGameSessionsPaginatorOptions is the paginator options for DescribeGameSessions

type DescribeInstancesAPIClient added in v0.30.0

type DescribeInstancesAPIClient interface {
	DescribeInstances(context.Context, *DescribeInstancesInput, ...func(*Options)) (*DescribeInstancesOutput, error)
}

DescribeInstancesAPIClient is a client that implements the DescribeInstances operation.

type DescribeInstancesInput

type DescribeInstancesInput struct {

	// A unique identifier for the fleet to retrieve instance information for. You can
	// use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// A unique identifier for an instance to retrieve. Specify an instance ID or
	// leave blank to retrieve all instances in the fleet.
	InstanceId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// The name of a location to retrieve instance information for, in the form of an
	// Amazon Web Services Region code such as us-west-2 .
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeInstancesOutput

type DescribeInstancesOutput struct {

	// A collection of objects containing properties for each instance returned.
	Instances []types.Instance

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeInstancesPaginator added in v0.30.0

type DescribeInstancesPaginator struct {
	// contains filtered or unexported fields
}

DescribeInstancesPaginator is a paginator for DescribeInstances

func NewDescribeInstancesPaginator added in v0.30.0

func NewDescribeInstancesPaginator(client DescribeInstancesAPIClient, params *DescribeInstancesInput, optFns ...func(*DescribeInstancesPaginatorOptions)) *DescribeInstancesPaginator

NewDescribeInstancesPaginator returns a new DescribeInstancesPaginator

func (*DescribeInstancesPaginator) HasMorePages added in v0.30.0

func (p *DescribeInstancesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeInstancesPaginator) NextPage added in v0.30.0

func (p *DescribeInstancesPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*DescribeInstancesOutput, error)

NextPage retrieves the next DescribeInstances page.

type DescribeInstancesPaginatorOptions added in v0.30.0

type DescribeInstancesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeInstancesPaginatorOptions is the paginator options for DescribeInstances

type DescribeMatchmakingConfigurationsAPIClient added in v0.30.0

type DescribeMatchmakingConfigurationsAPIClient interface {
	DescribeMatchmakingConfigurations(context.Context, *DescribeMatchmakingConfigurationsInput, ...func(*Options)) (*DescribeMatchmakingConfigurationsOutput, error)
}

DescribeMatchmakingConfigurationsAPIClient is a client that implements the DescribeMatchmakingConfigurations operation.

type DescribeMatchmakingConfigurationsInput

type DescribeMatchmakingConfigurationsInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is limited to 10.
	Limit *int32

	// A unique identifier for the matchmaking configuration(s) to retrieve. You can
	// use either the configuration name or ARN value. To request all existing
	// configurations, leave this parameter empty.
	Names []string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// A unique identifier for the matchmaking rule set. You can use either the rule
	// set name or ARN value. Use this parameter to retrieve all matchmaking
	// configurations that use this rule set.
	RuleSetName *string
	// contains filtered or unexported fields
}

type DescribeMatchmakingConfigurationsOutput

type DescribeMatchmakingConfigurationsOutput struct {

	// A collection of requested matchmaking configurations.
	Configurations []types.MatchmakingConfiguration

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeMatchmakingConfigurationsPaginator added in v0.30.0

type DescribeMatchmakingConfigurationsPaginator struct {
	// contains filtered or unexported fields
}

DescribeMatchmakingConfigurationsPaginator is a paginator for DescribeMatchmakingConfigurations

func NewDescribeMatchmakingConfigurationsPaginator added in v0.30.0

NewDescribeMatchmakingConfigurationsPaginator returns a new DescribeMatchmakingConfigurationsPaginator

func (*DescribeMatchmakingConfigurationsPaginator) HasMorePages added in v0.30.0

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeMatchmakingConfigurationsPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeMatchmakingConfigurations page.

type DescribeMatchmakingConfigurationsPaginatorOptions added in v0.30.0

type DescribeMatchmakingConfigurationsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. This parameter is limited to 10.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeMatchmakingConfigurationsPaginatorOptions is the paginator options for DescribeMatchmakingConfigurations

type DescribeMatchmakingInput

type DescribeMatchmakingInput struct {

	// A unique identifier for a matchmaking ticket. You can include up to 10 ID
	// values.
	//
	// This member is required.
	TicketIds []string
	// contains filtered or unexported fields
}

type DescribeMatchmakingOutput

type DescribeMatchmakingOutput struct {

	// A collection of existing matchmaking ticket objects matching the request.
	TicketList []types.MatchmakingTicket

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeMatchmakingRuleSetsAPIClient added in v0.30.0

type DescribeMatchmakingRuleSetsAPIClient interface {
	DescribeMatchmakingRuleSets(context.Context, *DescribeMatchmakingRuleSetsInput, ...func(*Options)) (*DescribeMatchmakingRuleSetsOutput, error)
}

DescribeMatchmakingRuleSetsAPIClient is a client that implements the DescribeMatchmakingRuleSets operation.

type DescribeMatchmakingRuleSetsInput

type DescribeMatchmakingRuleSetsInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A list of one or more matchmaking rule set names to retrieve details for.
	// (Note: The rule set name is different from the optional "name" field in the rule
	// set body.) You can use either the rule set name or ARN value.
	Names []string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type DescribeMatchmakingRuleSetsOutput

type DescribeMatchmakingRuleSetsOutput struct {

	// A collection of requested matchmaking rule set objects.
	//
	// This member is required.
	RuleSets []types.MatchmakingRuleSet

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeMatchmakingRuleSetsPaginator added in v0.30.0

type DescribeMatchmakingRuleSetsPaginator struct {
	// contains filtered or unexported fields
}

DescribeMatchmakingRuleSetsPaginator is a paginator for DescribeMatchmakingRuleSets

func NewDescribeMatchmakingRuleSetsPaginator added in v0.30.0

NewDescribeMatchmakingRuleSetsPaginator returns a new DescribeMatchmakingRuleSetsPaginator

func (*DescribeMatchmakingRuleSetsPaginator) HasMorePages added in v0.30.0

func (p *DescribeMatchmakingRuleSetsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeMatchmakingRuleSetsPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeMatchmakingRuleSets page.

type DescribeMatchmakingRuleSetsPaginatorOptions added in v0.30.0

type DescribeMatchmakingRuleSetsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeMatchmakingRuleSetsPaginatorOptions is the paginator options for DescribeMatchmakingRuleSets

type DescribePlayerSessionsAPIClient added in v0.30.0

type DescribePlayerSessionsAPIClient interface {
	DescribePlayerSessions(context.Context, *DescribePlayerSessionsInput, ...func(*Options)) (*DescribePlayerSessionsOutput, error)
}

DescribePlayerSessionsAPIClient is a client that implements the DescribePlayerSessions operation.

type DescribePlayerSessionsInput

type DescribePlayerSessionsInput struct {

	// A unique identifier for the game session to retrieve player sessions for.
	GameSessionId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. If a player session ID is specified,
	// this parameter is ignored.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value. If a player session ID
	// is specified, this parameter is ignored.
	NextToken *string

	// A unique identifier for a player to retrieve player sessions for.
	PlayerId *string

	// A unique identifier for a player session to retrieve.
	PlayerSessionId *string

	// Player session status to filter results on. Note that when a PlayerSessionId or
	// PlayerId is provided in a DescribePlayerSessions request, then the
	// PlayerSessionStatusFilter has no effect on the response.
	//
	// Possible player session statuses include the following:
	//
	//   - RESERVED -- The player session request has been received, but the player
	//   has not yet connected to the server process and/or been validated.
	//
	//   - ACTIVE -- The player has been validated by the server process and is
	//   currently connected.
	//
	//   - COMPLETED -- The player connection has been dropped.
	//
	//   - TIMEDOUT -- A player session request was received, but the player did not
	//   connect and/or was not validated within the timeout limit (60 seconds).
	PlayerSessionStatusFilter *string
	// contains filtered or unexported fields
}

type DescribePlayerSessionsOutput

type DescribePlayerSessionsOutput struct {

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// A collection of objects containing properties for each player session that
	// matches the request.
	PlayerSessions []types.PlayerSession

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribePlayerSessionsPaginator added in v0.30.0

type DescribePlayerSessionsPaginator struct {
	// contains filtered or unexported fields
}

DescribePlayerSessionsPaginator is a paginator for DescribePlayerSessions

func NewDescribePlayerSessionsPaginator added in v0.30.0

NewDescribePlayerSessionsPaginator returns a new DescribePlayerSessionsPaginator

func (*DescribePlayerSessionsPaginator) HasMorePages added in v0.30.0

func (p *DescribePlayerSessionsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribePlayerSessionsPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribePlayerSessions page.

type DescribePlayerSessionsPaginatorOptions added in v0.30.0

type DescribePlayerSessionsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. If a player session ID is specified,
	// this parameter is ignored.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribePlayerSessionsPaginatorOptions is the paginator options for DescribePlayerSessions

type DescribeRuntimeConfigurationInput

type DescribeRuntimeConfigurationInput struct {

	// A unique identifier for the fleet to get the runtime configuration for. You can
	// use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type DescribeRuntimeConfigurationOutput

type DescribeRuntimeConfigurationOutput struct {

	// Instructions that describe how server processes are launched and maintained on
	// computes in the fleet.
	RuntimeConfiguration *types.RuntimeConfiguration

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeScalingPoliciesAPIClient added in v0.30.0

type DescribeScalingPoliciesAPIClient interface {
	DescribeScalingPolicies(context.Context, *DescribeScalingPoliciesInput, ...func(*Options)) (*DescribeScalingPoliciesOutput, error)
}

DescribeScalingPoliciesAPIClient is a client that implements the DescribeScalingPolicies operation.

type DescribeScalingPoliciesInput

type DescribeScalingPoliciesInput struct {

	// A unique identifier for the fleet for which to retrieve scaling policies. You
	// can use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	//  The fleet location. If you don't specify this value, the response contains the
	// scaling policies of every location in the fleet.
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// Scaling policy status to filter results on. A scaling policy is only in force
	// when in an ACTIVE status.
	//
	//   - ACTIVE -- The scaling policy is currently in force.
	//
	//   - UPDATEREQUESTED -- A request to update the scaling policy has been received.
	//
	//   - UPDATING -- A change is being made to the scaling policy.
	//
	//   - DELETEREQUESTED -- A request to delete the scaling policy has been received.
	//
	//   - DELETING -- The scaling policy is being deleted.
	//
	//   - DELETED -- The scaling policy has been deleted.
	//
	//   - ERROR -- An error occurred in creating the policy. It should be removed and
	//   recreated.
	StatusFilter types.ScalingStatusType
	// contains filtered or unexported fields
}

type DescribeScalingPoliciesOutput

type DescribeScalingPoliciesOutput struct {

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// A collection of objects containing the scaling policies matching the request.
	ScalingPolicies []types.ScalingPolicy

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeScalingPoliciesPaginator added in v0.30.0

type DescribeScalingPoliciesPaginator struct {
	// contains filtered or unexported fields
}

DescribeScalingPoliciesPaginator is a paginator for DescribeScalingPolicies

func NewDescribeScalingPoliciesPaginator added in v0.30.0

NewDescribeScalingPoliciesPaginator returns a new DescribeScalingPoliciesPaginator

func (*DescribeScalingPoliciesPaginator) HasMorePages added in v0.30.0

func (p *DescribeScalingPoliciesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*DescribeScalingPoliciesPaginator) NextPage added in v0.30.0

NextPage retrieves the next DescribeScalingPolicies page.

type DescribeScalingPoliciesPaginatorOptions added in v0.30.0

type DescribeScalingPoliciesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

DescribeScalingPoliciesPaginatorOptions is the paginator options for DescribeScalingPolicies

type DescribeScriptInput

type DescribeScriptInput struct {

	// A unique identifier for the Realtime script to retrieve properties for. You can
	// use either the script ID or ARN value.
	//
	// This member is required.
	ScriptId *string
	// contains filtered or unexported fields
}

type DescribeScriptOutput

type DescribeScriptOutput struct {

	// A set of properties describing the requested script.
	Script *types.Script

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeVpcPeeringAuthorizationsInput

type DescribeVpcPeeringAuthorizationsInput struct {
	// contains filtered or unexported fields
}

type DescribeVpcPeeringAuthorizationsOutput

type DescribeVpcPeeringAuthorizationsOutput struct {

	// A collection of objects that describe all valid VPC peering operations for the
	// current Amazon Web Services account.
	VpcPeeringAuthorizations []types.VpcPeeringAuthorization

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type DescribeVpcPeeringConnectionsInput

type DescribeVpcPeeringConnectionsInput struct {

	// A unique identifier for the fleet. You can use either the fleet ID or ARN value.
	FleetId *string
	// contains filtered or unexported fields
}

type DescribeVpcPeeringConnectionsOutput

type DescribeVpcPeeringConnectionsOutput struct {

	// A collection of VPC peering connection records that match the request.
	VpcPeeringConnections []types.VpcPeeringConnection

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type EndpointParameters added in v1.21.0

type EndpointParameters struct {
	// The AWS region used to dispatch the request.
	//
	// Parameter is
	// required.
	//
	// AWS::Region
	Region *string

	// When true, use the dual-stack endpoint. If the configured endpoint does not
	// support dual-stack, dispatching the request MAY return an error.
	//
	// Defaults to
	// false if no value is provided.
	//
	// AWS::UseDualStack
	UseDualStack *bool

	// When true, send this request to the FIPS-compliant regional endpoint. If the
	// configured endpoint does not have a FIPS compliant endpoint, dispatching the
	// request will return an error.
	//
	// Defaults to false if no value is
	// provided.
	//
	// AWS::UseFIPS
	UseFIPS *bool

	// Override the endpoint used to send this request
	//
	// Parameter is
	// required.
	//
	// SDK::Endpoint
	Endpoint *string
}

EndpointParameters provides the parameters that influence how endpoints are resolved.

func (EndpointParameters) ValidateRequired added in v1.21.0

func (p EndpointParameters) ValidateRequired() error

ValidateRequired validates required parameters are set.

func (EndpointParameters) WithDefaults added in v1.21.0

func (p EndpointParameters) WithDefaults() EndpointParameters

WithDefaults returns a shallow copy of EndpointParameterswith default values applied to members where applicable.

type EndpointResolver

type EndpointResolver interface {
	ResolveEndpoint(region string, options EndpointResolverOptions) (aws.Endpoint, error)
}

EndpointResolver interface for resolving service endpoints.

func EndpointResolverFromURL added in v1.1.0

func EndpointResolverFromURL(url string, optFns ...func(*aws.Endpoint)) EndpointResolver

EndpointResolverFromURL returns an EndpointResolver configured using the provided endpoint url. By default, the resolved endpoint resolver uses the client region as signing region, and the endpoint source is set to EndpointSourceCustom.You can provide functional options to configure endpoint values for the resolved endpoint.

type EndpointResolverFunc

type EndpointResolverFunc func(region string, options EndpointResolverOptions) (aws.Endpoint, error)

EndpointResolverFunc is a helper utility that wraps a function so it satisfies the EndpointResolver interface. This is useful when you want to add additional endpoint resolving logic, or stub out specific endpoints with custom values.

func (EndpointResolverFunc) ResolveEndpoint

func (fn EndpointResolverFunc) ResolveEndpoint(region string, options EndpointResolverOptions) (endpoint aws.Endpoint, err error)

type EndpointResolverOptions added in v0.29.0

type EndpointResolverOptions = internalendpoints.Options

EndpointResolverOptions is the service endpoint resolver options

type EndpointResolverV2 added in v1.21.0

type EndpointResolverV2 interface {
	// ResolveEndpoint attempts to resolve the endpoint with the provided options,
	// returning the endpoint if found. Otherwise an error is returned.
	ResolveEndpoint(ctx context.Context, params EndpointParameters) (
		smithyendpoints.Endpoint, error,
	)
}

EndpointResolverV2 provides the interface for resolving service endpoints.

func NewDefaultEndpointResolverV2 added in v1.21.0

func NewDefaultEndpointResolverV2() EndpointResolverV2

type GetComputeAccessInput added in v1.16.0

type GetComputeAccessInput struct {

	// A unique identifier for the compute resource that you want to connect to. For
	// an EC2 fleet compute, use the instance ID. For a container fleet, use the
	// compute name (for example,
	// a123b456c789012d3e4567f8a901b23c/1a234b56-7cd8-9e0f-a1b2-c34d567ef8a9 ) or the
	// compute ARN.
	//
	// This member is required.
	ComputeName *string

	// A unique identifier for the fleet that holds the compute resource that you want
	// to connect to. You can use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type GetComputeAccessOutput added in v1.16.0

type GetComputeAccessOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to an Amazon GameLift compute
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::compute/compute-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	ComputeArn *string

	// The identifier of the compute resource to be accessed. This value might be
	// either a compute name or an instance ID.
	ComputeName *string

	// A set of temporary Amazon Web Services credentials for use when connecting to
	// the compute resource with Amazon EC2 Systems Manager (SSM).
	Credentials *types.AwsCredentials

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// The ID of the fleet that holds the compute resource to be accessed.
	FleetId *string

	// (For container fleets only) The instance ID where the compute resource is
	// running.
	Target *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type GetComputeAuthTokenInput added in v1.16.0

type GetComputeAuthTokenInput struct {

	// The name of the compute resource you are requesting the authentication token
	// for. For an Anywhere fleet compute, use the registered compute name. For an EC2
	// fleet instance, use the instance ID. For a container fleet, use the compute name
	// (for example,
	// a123b456c789012d3e4567f8a901b23c/1a234b56-7cd8-9e0f-a1b2-c34d567ef8a9 ) or the
	// compute ARN.
	//
	// This member is required.
	ComputeName *string

	// A unique identifier for the fleet that the compute is registered to.
	//
	// This member is required.
	FleetId *string
	// contains filtered or unexported fields
}

type GetComputeAuthTokenOutput added in v1.16.0

type GetComputeAuthTokenOutput struct {

	// A valid temporary authentication token.
	AuthToken *string

	// The Amazon Resource Name ([ARN] ) that is assigned to an Amazon GameLift compute
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::compute/compute-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	ComputeArn *string

	// The name of the compute resource that the authentication token is issued to.
	ComputeName *string

	// The amount of time until the authentication token is no longer valid.
	ExpirationTimestamp *time.Time

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that the compute is registered to.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type GetGameSessionLogUrlInput

type GetGameSessionLogUrlInput struct {

	// A unique identifier for the game session to get logs for.
	//
	// This member is required.
	GameSessionId *string
	// contains filtered or unexported fields
}

type GetGameSessionLogUrlOutput

type GetGameSessionLogUrlOutput struct {

	// Location of the requested game session logs, available for download. This URL
	// is valid for 15 minutes, after which S3 will reject any download request using
	// this URL. You can request a new URL any time within the 14-day period that the
	// logs are retained.
	PreSignedUrl *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type GetInstanceAccessInput

type GetInstanceAccessInput struct {

	// A unique identifier for the fleet that contains the instance you want to
	// access. You can request access to instances in EC2 fleets with the following
	// statuses: ACTIVATING , ACTIVE , or ERROR . Use either a fleet ID or an ARN
	// value.
	//
	// You can access fleets in ERROR status for a short period of time before Amazon
	// GameLift deletes them.
	//
	// This member is required.
	FleetId *string

	// A unique identifier for the instance you want to access. You can access an
	// instance in any status.
	//
	// This member is required.
	InstanceId *string
	// contains filtered or unexported fields
}

type GetInstanceAccessOutput

type GetInstanceAccessOutput struct {

	// The connection information for a fleet instance, including IP address and
	// access credentials.
	InstanceAccess *types.InstanceAccess

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type HTTPClient

type HTTPClient interface {
	Do(*http.Request) (*http.Response, error)
}

type HTTPSignerV4

type HTTPSignerV4 interface {
	SignHTTP(ctx context.Context, credentials aws.Credentials, r *http.Request, payloadHash string, service string, region string, signingTime time.Time, optFns ...func(*v4.SignerOptions)) error
}

type ListAliasesAPIClient added in v0.30.0

type ListAliasesAPIClient interface {
	ListAliases(context.Context, *ListAliasesInput, ...func(*Options)) (*ListAliasesOutput, error)
}

ListAliasesAPIClient is a client that implements the ListAliases operation.

type ListAliasesInput

type ListAliasesInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A descriptive label that is associated with an alias. Alias names do not need
	// to be unique.
	Name *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// The routing type to filter results on. Use this parameter to retrieve only
	// aliases with a certain routing type. To retrieve all aliases, leave this
	// parameter empty.
	//
	// Possible routing types include the following:
	//
	//   - SIMPLE -- The alias resolves to one specific fleet. Use this type when
	//   routing to active fleets.
	//
	//   - TERMINAL -- The alias does not resolve to a fleet but instead can be used
	//   to display a message to the user. A terminal alias throws a
	//   TerminalRoutingStrategyException with the [RoutingStrategy]message embedded.
	//
	// [RoutingStrategy]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_RoutingStrategy.html
	RoutingStrategyType types.RoutingStrategyType
	// contains filtered or unexported fields
}

type ListAliasesOutput

type ListAliasesOutput struct {

	// A collection of alias resources that match the request parameters.
	Aliases []types.Alias

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListAliasesPaginator added in v0.30.0

type ListAliasesPaginator struct {
	// contains filtered or unexported fields
}

ListAliasesPaginator is a paginator for ListAliases

func NewListAliasesPaginator added in v0.30.0

func NewListAliasesPaginator(client ListAliasesAPIClient, params *ListAliasesInput, optFns ...func(*ListAliasesPaginatorOptions)) *ListAliasesPaginator

NewListAliasesPaginator returns a new ListAliasesPaginator

func (*ListAliasesPaginator) HasMorePages added in v0.30.0

func (p *ListAliasesPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListAliasesPaginator) NextPage added in v0.30.0

func (p *ListAliasesPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListAliasesOutput, error)

NextPage retrieves the next ListAliases page.

type ListAliasesPaginatorOptions added in v0.30.0

type ListAliasesPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListAliasesPaginatorOptions is the paginator options for ListAliases

type ListBuildsAPIClient added in v0.30.0

type ListBuildsAPIClient interface {
	ListBuilds(context.Context, *ListBuildsInput, ...func(*Options)) (*ListBuildsOutput, error)
}

ListBuildsAPIClient is a client that implements the ListBuilds operation.

type ListBuildsInput

type ListBuildsInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, don't specify a value.
	NextToken *string

	// Build status to filter results by. To retrieve all builds, leave this parameter
	// empty.
	//
	// Possible build statuses include the following:
	//
	//   - INITIALIZED -- A new build has been defined, but no files have been
	//   uploaded. You cannot create fleets for builds that are in this status. When a
	//   build is successfully created, the build status is set to this value.
	//
	//   - READY -- The game build has been successfully uploaded. You can now create
	//   new fleets for this build.
	//
	//   - FAILED -- The game build upload failed. You cannot create new fleets for
	//   this build.
	Status types.BuildStatus
	// contains filtered or unexported fields
}

type ListBuildsOutput

type ListBuildsOutput struct {

	// A collection of build resources that match the request.
	Builds []types.Build

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListBuildsPaginator added in v0.30.0

type ListBuildsPaginator struct {
	// contains filtered or unexported fields
}

ListBuildsPaginator is a paginator for ListBuilds

func NewListBuildsPaginator added in v0.30.0

func NewListBuildsPaginator(client ListBuildsAPIClient, params *ListBuildsInput, optFns ...func(*ListBuildsPaginatorOptions)) *ListBuildsPaginator

NewListBuildsPaginator returns a new ListBuildsPaginator

func (*ListBuildsPaginator) HasMorePages added in v0.30.0

func (p *ListBuildsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListBuildsPaginator) NextPage added in v0.30.0

func (p *ListBuildsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListBuildsOutput, error)

NextPage retrieves the next ListBuilds page.

type ListBuildsPaginatorOptions added in v0.30.0

type ListBuildsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListBuildsPaginatorOptions is the paginator options for ListBuilds

type ListComputeAPIClient added in v1.16.0

type ListComputeAPIClient interface {
	ListCompute(context.Context, *ListComputeInput, ...func(*Options)) (*ListComputeOutput, error)
}

ListComputeAPIClient is a client that implements the ListCompute operation.

type ListComputeInput added in v1.16.0

type ListComputeInput struct {

	// A unique identifier for the fleet to retrieve compute resources for.
	//
	// This member is required.
	FleetId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// The name of a location to retrieve compute resources for. For an Amazon
	// GameLift Anywhere fleet, use a custom location. For a multi-location EC2 or
	// container fleet, provide a Amazon Web Services Region or Local Zone code (for
	// example: us-west-2 or us-west-2-lax-1 ).
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type ListComputeOutput added in v1.16.0

type ListComputeOutput struct {

	// A list of compute resources in the specified fleet.
	ComputeList []types.Compute

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListComputePaginator added in v1.16.0

type ListComputePaginator struct {
	// contains filtered or unexported fields
}

ListComputePaginator is a paginator for ListCompute

func NewListComputePaginator added in v1.16.0

func NewListComputePaginator(client ListComputeAPIClient, params *ListComputeInput, optFns ...func(*ListComputePaginatorOptions)) *ListComputePaginator

NewListComputePaginator returns a new ListComputePaginator

func (*ListComputePaginator) HasMorePages added in v1.16.0

func (p *ListComputePaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListComputePaginator) NextPage added in v1.16.0

func (p *ListComputePaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListComputeOutput, error)

NextPage retrieves the next ListCompute page.

type ListComputePaginatorOptions added in v1.16.0

type ListComputePaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListComputePaginatorOptions is the paginator options for ListCompute

type ListContainerGroupDefinitionsAPIClient added in v1.31.0

type ListContainerGroupDefinitionsAPIClient interface {
	ListContainerGroupDefinitions(context.Context, *ListContainerGroupDefinitionsInput, ...func(*Options)) (*ListContainerGroupDefinitionsOutput, error)
}

ListContainerGroupDefinitionsAPIClient is a client that implements the ListContainerGroupDefinitions operation.

type ListContainerGroupDefinitionsInput added in v1.31.0

type ListContainerGroupDefinitionsInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// The type of container group definitions to retrieve.
	//
	//   - DAEMON -- Daemon container groups run background processes and are deployed
	//   once per fleet instance.
	//
	//   - REPLICA -- Replica container groups run your game server application and
	//   supporting software. Replica groups might be deployed multiple times per fleet
	//   instance.
	SchedulingStrategy types.ContainerSchedulingStrategy
	// contains filtered or unexported fields
}

type ListContainerGroupDefinitionsOutput added in v1.31.0

type ListContainerGroupDefinitionsOutput struct {

	// A result set of container group definitions that match the request.
	ContainerGroupDefinitions []types.ContainerGroupDefinition

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListContainerGroupDefinitionsPaginator added in v1.31.0

type ListContainerGroupDefinitionsPaginator struct {
	// contains filtered or unexported fields
}

ListContainerGroupDefinitionsPaginator is a paginator for ListContainerGroupDefinitions

func NewListContainerGroupDefinitionsPaginator added in v1.31.0

NewListContainerGroupDefinitionsPaginator returns a new ListContainerGroupDefinitionsPaginator

func (*ListContainerGroupDefinitionsPaginator) HasMorePages added in v1.31.0

func (p *ListContainerGroupDefinitionsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListContainerGroupDefinitionsPaginator) NextPage added in v1.31.0

NextPage retrieves the next ListContainerGroupDefinitions page.

type ListContainerGroupDefinitionsPaginatorOptions added in v1.31.0

type ListContainerGroupDefinitionsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListContainerGroupDefinitionsPaginatorOptions is the paginator options for ListContainerGroupDefinitions

type ListFleetsAPIClient added in v0.30.0

type ListFleetsAPIClient interface {
	ListFleets(context.Context, *ListFleetsInput, ...func(*Options)) (*ListFleetsOutput, error)
}

ListFleetsAPIClient is a client that implements the ListFleets operation.

type ListFleetsInput

type ListFleetsInput struct {

	// A unique identifier for the build to request fleets for. Use this parameter to
	// return only fleets using a specified build. Use either the build ID or ARN
	// value.
	BuildId *string

	// The container group definition name to request fleets for. Use this parameter
	// to return only fleets that are deployed with the specified container group
	// definition.
	ContainerGroupDefinitionName *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// A unique identifier for the Realtime script to request fleets for. Use this
	// parameter to return only fleets using a specified script. Use either the script
	// ID or ARN value.
	ScriptId *string
	// contains filtered or unexported fields
}

type ListFleetsOutput

type ListFleetsOutput struct {

	// A set of fleet IDs that match the list request.
	FleetIds []string

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListFleetsPaginator added in v0.30.0

type ListFleetsPaginator struct {
	// contains filtered or unexported fields
}

ListFleetsPaginator is a paginator for ListFleets

func NewListFleetsPaginator added in v0.30.0

func NewListFleetsPaginator(client ListFleetsAPIClient, params *ListFleetsInput, optFns ...func(*ListFleetsPaginatorOptions)) *ListFleetsPaginator

NewListFleetsPaginator returns a new ListFleetsPaginator

func (*ListFleetsPaginator) HasMorePages added in v0.30.0

func (p *ListFleetsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListFleetsPaginator) NextPage added in v0.30.0

func (p *ListFleetsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListFleetsOutput, error)

NextPage retrieves the next ListFleets page.

type ListFleetsPaginatorOptions added in v0.30.0

type ListFleetsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListFleetsPaginatorOptions is the paginator options for ListFleets

type ListGameServerGroupsAPIClient added in v0.30.0

type ListGameServerGroupsAPIClient interface {
	ListGameServerGroups(context.Context, *ListGameServerGroupsInput, ...func(*Options)) (*ListGameServerGroupsOutput, error)
}

ListGameServerGroupsAPIClient is a client that implements the ListGameServerGroups operation.

type ListGameServerGroupsInput

type ListGameServerGroupsInput struct {

	// The game server groups' limit.
	Limit *int32

	// Specify the pagination token from a previous request to retrieve the next page
	// of results.
	NextToken *string
	// contains filtered or unexported fields
}

type ListGameServerGroupsOutput

type ListGameServerGroupsOutput struct {

	// The game server groups' game server groups.
	GameServerGroups []types.GameServerGroup

	// Specify the pagination token from a previous request to retrieve the next page
	// of results.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListGameServerGroupsPaginator added in v0.30.0

type ListGameServerGroupsPaginator struct {
	// contains filtered or unexported fields
}

ListGameServerGroupsPaginator is a paginator for ListGameServerGroups

func NewListGameServerGroupsPaginator added in v0.30.0

NewListGameServerGroupsPaginator returns a new ListGameServerGroupsPaginator

func (*ListGameServerGroupsPaginator) HasMorePages added in v0.30.0

func (p *ListGameServerGroupsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListGameServerGroupsPaginator) NextPage added in v0.30.0

NextPage retrieves the next ListGameServerGroups page.

type ListGameServerGroupsPaginatorOptions added in v0.30.0

type ListGameServerGroupsPaginatorOptions struct {
	// The game server groups' limit.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListGameServerGroupsPaginatorOptions is the paginator options for ListGameServerGroups

type ListGameServersAPIClient added in v0.30.0

type ListGameServersAPIClient interface {
	ListGameServers(context.Context, *ListGameServersInput, ...func(*Options)) (*ListGameServersOutput, error)
}

ListGameServersAPIClient is a client that implements the ListGameServers operation.

type ListGameServersInput

type ListGameServersInput struct {

	// An identifier for the game server group to retrieve a list of game servers
	// from. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// Indicates how to sort the returned data based on game server registration
	// timestamp. Use ASCENDING to retrieve oldest game servers first, or use
	// DESCENDING to retrieve newest game servers first. If this parameter is left
	// empty, game servers are returned in no particular order.
	SortOrder types.SortOrder
	// contains filtered or unexported fields
}

type ListGameServersOutput

type ListGameServersOutput struct {

	// A collection of game server objects that match the request.
	GameServers []types.GameServer

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListGameServersPaginator added in v0.30.0

type ListGameServersPaginator struct {
	// contains filtered or unexported fields
}

ListGameServersPaginator is a paginator for ListGameServers

func NewListGameServersPaginator added in v0.30.0

func NewListGameServersPaginator(client ListGameServersAPIClient, params *ListGameServersInput, optFns ...func(*ListGameServersPaginatorOptions)) *ListGameServersPaginator

NewListGameServersPaginator returns a new ListGameServersPaginator

func (*ListGameServersPaginator) HasMorePages added in v0.30.0

func (p *ListGameServersPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListGameServersPaginator) NextPage added in v0.30.0

func (p *ListGameServersPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListGameServersOutput, error)

NextPage retrieves the next ListGameServers page.

type ListGameServersPaginatorOptions added in v0.30.0

type ListGameServersPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListGameServersPaginatorOptions is the paginator options for ListGameServers

type ListLocationsAPIClient added in v1.16.0

type ListLocationsAPIClient interface {
	ListLocations(context.Context, *ListLocationsInput, ...func(*Options)) (*ListLocationsOutput, error)
}

ListLocationsAPIClient is a client that implements the ListLocations operation.

type ListLocationsInput added in v1.16.0

type ListLocationsInput struct {

	// Filters the list for AWS or CUSTOM locations.
	Filters []types.LocationFilter

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type ListLocationsOutput added in v1.16.0

type ListLocationsOutput struct {

	// A collection of locations.
	Locations []types.LocationModel

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListLocationsPaginator added in v1.16.0

type ListLocationsPaginator struct {
	// contains filtered or unexported fields
}

ListLocationsPaginator is a paginator for ListLocations

func NewListLocationsPaginator added in v1.16.0

func NewListLocationsPaginator(client ListLocationsAPIClient, params *ListLocationsInput, optFns ...func(*ListLocationsPaginatorOptions)) *ListLocationsPaginator

NewListLocationsPaginator returns a new ListLocationsPaginator

func (*ListLocationsPaginator) HasMorePages added in v1.16.0

func (p *ListLocationsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListLocationsPaginator) NextPage added in v1.16.0

func (p *ListLocationsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListLocationsOutput, error)

NextPage retrieves the next ListLocations page.

type ListLocationsPaginatorOptions added in v1.16.0

type ListLocationsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListLocationsPaginatorOptions is the paginator options for ListLocations

type ListScriptsAPIClient added in v0.30.0

type ListScriptsAPIClient interface {
	ListScripts(context.Context, *ListScriptsInput, ...func(*Options)) (*ListScriptsOutput, error)
}

ListScriptsAPIClient is a client that implements the ListScripts operation.

type ListScriptsInput

type ListScriptsInput struct {

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit *int32

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, don't specify a value.
	NextToken *string
	// contains filtered or unexported fields
}

type ListScriptsOutput

type ListScriptsOutput struct {

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// A set of properties describing the requested script.
	Scripts []types.Script

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ListScriptsPaginator added in v0.30.0

type ListScriptsPaginator struct {
	// contains filtered or unexported fields
}

ListScriptsPaginator is a paginator for ListScripts

func NewListScriptsPaginator added in v0.30.0

func NewListScriptsPaginator(client ListScriptsAPIClient, params *ListScriptsInput, optFns ...func(*ListScriptsPaginatorOptions)) *ListScriptsPaginator

NewListScriptsPaginator returns a new ListScriptsPaginator

func (*ListScriptsPaginator) HasMorePages added in v0.30.0

func (p *ListScriptsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*ListScriptsPaginator) NextPage added in v0.30.0

func (p *ListScriptsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*ListScriptsOutput, error)

NextPage retrieves the next ListScripts page.

type ListScriptsPaginatorOptions added in v0.30.0

type ListScriptsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

ListScriptsPaginatorOptions is the paginator options for ListScripts

type ListTagsForResourceInput

type ListTagsForResourceInput struct {

	// The Amazon Resource Name ([ARN] ) that uniquely identifies the Amazon GameLift
	// resource that you want to retrieve tags for. Amazon GameLift includes resource
	// ARNs in the data object for the resource. You can retrieve the ARN by calling a
	// List or Describe operation for the resource type.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	//
	// This member is required.
	ResourceARN *string
	// contains filtered or unexported fields
}

type ListTagsForResourceOutput

type ListTagsForResourceOutput struct {

	// The collection of tags assigned to the resource.
	Tags []types.Tag

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type Options

type Options struct {
	// Set of options to modify how an operation is invoked. These apply to all
	// operations invoked for this client. Use functional options on operation call to
	// modify this list for per operation behavior.
	APIOptions []func(*middleware.Stack) error

	// The optional application specific identifier appended to the User-Agent header.
	AppID string

	// This endpoint will be given as input to an EndpointResolverV2. It is used for
	// providing a custom base endpoint that is subject to modifications by the
	// processing EndpointResolverV2.
	BaseEndpoint *string

	// Configures the events that will be sent to the configured logger.
	ClientLogMode aws.ClientLogMode

	// The credentials object to use when signing requests.
	Credentials aws.CredentialsProvider

	// The configuration DefaultsMode that the SDK should use when constructing the
	// clients initial default settings.
	DefaultsMode aws.DefaultsMode

	// The endpoint options to be used when attempting to resolve an endpoint.
	EndpointOptions EndpointResolverOptions

	// The service endpoint resolver.
	//
	// Deprecated: Deprecated: EndpointResolver and WithEndpointResolver. Providing a
	// value for this field will likely prevent you from using any endpoint-related
	// service features released after the introduction of EndpointResolverV2 and
	// BaseEndpoint.
	//
	// To migrate an EndpointResolver implementation that uses a custom endpoint, set
	// the client option BaseEndpoint instead.
	EndpointResolver EndpointResolver

	// Resolves the endpoint used for a particular service operation. This should be
	// used over the deprecated EndpointResolver.
	EndpointResolverV2 EndpointResolverV2

	// Signature Version 4 (SigV4) Signer
	HTTPSignerV4 HTTPSignerV4

	// The logger writer interface to write logging messages to.
	Logger logging.Logger

	// The client meter provider.
	MeterProvider metrics.MeterProvider

	// The region to send requests to. (Required)
	Region string

	// RetryMaxAttempts specifies the maximum number attempts an API client will call
	// an operation that fails with a retryable error. A value of 0 is ignored, and
	// will not be used to configure the API client created default retryer, or modify
	// per operation call's retry max attempts.
	//
	// If specified in an operation call's functional options with a value that is
	// different than the constructed client's Options, the Client's Retryer will be
	// wrapped to use the operation's specific RetryMaxAttempts value.
	RetryMaxAttempts int

	// RetryMode specifies the retry mode the API client will be created with, if
	// Retryer option is not also specified.
	//
	// When creating a new API Clients this member will only be used if the Retryer
	// Options member is nil. This value will be ignored if Retryer is not nil.
	//
	// Currently does not support per operation call overrides, may in the future.
	RetryMode aws.RetryMode

	// Retryer guides how HTTP requests should be retried in case of recoverable
	// failures. When nil the API client will use a default retryer. The kind of
	// default retry created by the API client can be changed with the RetryMode
	// option.
	Retryer aws.Retryer

	// The RuntimeEnvironment configuration, only populated if the DefaultsMode is set
	// to DefaultsModeAuto and is initialized using config.LoadDefaultConfig . You
	// should not populate this structure programmatically, or rely on the values here
	// within your applications.
	RuntimeEnvironment aws.RuntimeEnvironment

	// The client tracer provider.
	TracerProvider tracing.TracerProvider

	// The HTTP client to invoke API calls with. Defaults to client's default HTTP
	// implementation if nil.
	HTTPClient HTTPClient

	// The auth scheme resolver which determines how to authenticate for each
	// operation.
	AuthSchemeResolver AuthSchemeResolver

	// The list of auth schemes supported by the client.
	AuthSchemes []smithyhttp.AuthScheme
	// contains filtered or unexported fields
}

func (Options) Copy

func (o Options) Copy() Options

Copy creates a clone where the APIOptions list is deep copied.

func (Options) GetIdentityResolver added in v1.26.2

func (o Options) GetIdentityResolver(schemeID string) smithyauth.IdentityResolver

type PutScalingPolicyInput

type PutScalingPolicyInput struct {

	// A unique identifier for the fleet to apply this policy to. You can use either
	// the fleet ID or ARN value. The fleet cannot be in any of the following statuses:
	// ERROR or DELETING.
	//
	// This member is required.
	FleetId *string

	// Name of the Amazon GameLift-defined metric that is used to trigger a scaling
	// adjustment. For detailed descriptions of fleet metrics, see [Monitor Amazon GameLift with Amazon CloudWatch].
	//
	//   - ActivatingGameSessions -- Game sessions in the process of being created.
	//
	//   - ActiveGameSessions -- Game sessions that are currently running.
	//
	//   - ActiveInstances -- Fleet instances that are currently running at least one
	//   game session.
	//
	//   - AvailableGameSessions -- Additional game sessions that fleet could host
	//   simultaneously, given current capacity.
	//
	//   - AvailablePlayerSessions -- Empty player slots in currently active game
	//   sessions. This includes game sessions that are not currently accepting players.
	//   Reserved player slots are not included.
	//
	//   - CurrentPlayerSessions -- Player slots in active game sessions that are
	//   being used by a player or are reserved for a player.
	//
	//   - IdleInstances -- Active instances that are currently hosting zero game
	//   sessions.
	//
	//   - PercentAvailableGameSessions -- Unused percentage of the total number of
	//   game sessions that a fleet could host simultaneously, given current capacity.
	//   Use this metric for a target-based scaling policy.
	//
	//   - PercentIdleInstances -- Percentage of the total number of active instances
	//   that are hosting zero game sessions.
	//
	//   - QueueDepth -- Pending game session placement requests, in any queue, where
	//   the current fleet is the top-priority destination.
	//
	//   - WaitTime -- Current wait time for pending game session placement requests,
	//   in any queue, where the current fleet is the top-priority destination.
	//
	// [Monitor Amazon GameLift with Amazon CloudWatch]: https://docs.aws.amazon.com/gamelift/latest/developerguide/monitoring-cloudwatch.html
	//
	// This member is required.
	MetricName types.MetricName

	// A descriptive label that is associated with a fleet's scaling policy. Policy
	// names do not need to be unique. A fleet can have only one scaling policy with
	// the same name.
	//
	// This member is required.
	Name *string

	// Comparison operator to use when measuring the metric against the threshold
	// value.
	ComparisonOperator types.ComparisonOperatorType

	// Length of time (in minutes) the metric must be at or beyond the threshold
	// before a scaling event is triggered.
	EvaluationPeriods *int32

	// The type of scaling policy to create. For a target-based policy, set the
	// parameter MetricName to 'PercentAvailableGameSessions' and specify a
	// TargetConfiguration. For a rule-based policy set the following parameters:
	// MetricName, ComparisonOperator, Threshold, EvaluationPeriods,
	// ScalingAdjustmentType, and ScalingAdjustment.
	PolicyType types.PolicyType

	// Amount of adjustment to make, based on the scaling adjustment type.
	ScalingAdjustment *int32

	// The type of adjustment to make to a fleet's instance count:
	//
	//   - ChangeInCapacity -- add (or subtract) the scaling adjustment value from the
	//   current instance count. Positive values scale up while negative values scale
	//   down.
	//
	//   - ExactCapacity -- set the instance count to the scaling adjustment value.
	//
	//   - PercentChangeInCapacity -- increase or reduce the current instance count by
	//   the scaling adjustment, read as a percentage. Positive values scale up while
	//   negative values scale down; for example, a value of "-10" scales the fleet down
	//   by 10%.
	ScalingAdjustmentType types.ScalingAdjustmentType

	// An object that contains settings for a target-based scaling policy.
	TargetConfiguration *types.TargetConfiguration

	// Metric value used to trigger a scaling event.
	Threshold *float64
	// contains filtered or unexported fields
}

type PutScalingPolicyOutput

type PutScalingPolicyOutput struct {

	// A descriptive label that is associated with a fleet's scaling policy. Policy
	// names do not need to be unique.
	Name *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type RegisterComputeInput added in v1.16.0

type RegisterComputeInput struct {

	// A descriptive label for the compute resource.
	//
	// This member is required.
	ComputeName *string

	// A unique identifier for the fleet to register the compute to. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The path to a TLS certificate on your compute resource. Amazon GameLift doesn't
	// validate the path and certificate.
	CertificatePath *string

	// The DNS name of the compute resource. Amazon GameLift requires either a DNS
	// name or IP address.
	DnsName *string

	// The IP address of the compute resource. Amazon GameLift requires either a DNS
	// name or IP address. When registering an Anywhere fleet, an IP address is
	// required.
	IpAddress *string

	// The name of a custom location to associate with the compute resource being
	// registered. This parameter is required when registering a compute for an
	// Anywhere fleet.
	Location *string
	// contains filtered or unexported fields
}

type RegisterComputeOutput added in v1.16.0

type RegisterComputeOutput struct {

	// The details of the compute resource you registered.
	Compute *types.Compute

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type RegisterGameServerInput

type RegisterGameServerInput struct {

	// A unique identifier for the game server group where the game server is running.
	//
	// This member is required.
	GameServerGroupName *string

	// A custom string that uniquely identifies the game server to register. Game
	// server IDs are developer-defined and must be unique across all game server
	// groups in your Amazon Web Services account.
	//
	// This member is required.
	GameServerId *string

	// The unique identifier for the instance where the game server is running. This
	// ID is available in the instance metadata. EC2 instance IDs use a 17-character
	// format, for example: i-1234567890abcdef0 .
	//
	// This member is required.
	InstanceId *string

	// Information that is needed to make inbound client connections to the game
	// server. This might include the IP address and port, DNS name, and other
	// information.
	ConnectionInfo *string

	// A set of custom game server properties, formatted as a single string value.
	// This data is passed to a game client or service when it requests information on
	// game servers.
	GameServerData *string
	// contains filtered or unexported fields
}

type RegisterGameServerOutput

type RegisterGameServerOutput struct {

	// Object that describes the newly registered game server.
	GameServer *types.GameServer

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type RequestUploadCredentialsInput

type RequestUploadCredentialsInput struct {

	// A unique identifier for the build to get credentials for. You can use either
	// the build ID or ARN value.
	//
	// This member is required.
	BuildId *string
	// contains filtered or unexported fields
}

type RequestUploadCredentialsOutput

type RequestUploadCredentialsOutput struct {

	// Amazon S3 path and key, identifying where the game build files are stored.
	StorageLocation *types.S3Location

	// Amazon Web Services credentials required when uploading a game build to the
	// storage location. These credentials have a limited lifespan and are valid only
	// for the build they were issued for.
	UploadCredentials *types.AwsCredentials

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ResolveAliasInput

type ResolveAliasInput struct {

	// The unique identifier of the alias that you want to retrieve a fleet ID for.
	// You can use either the alias ID or ARN value.
	//
	// This member is required.
	AliasId *string
	// contains filtered or unexported fields
}

type ResolveAliasOutput

type ResolveAliasOutput struct {

	//  The Amazon Resource Name ([ARN] ) associated with the GameLift fleet resource that
	// this alias points to.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// The fleet identifier that the alias is pointing to.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ResolveEndpoint

type ResolveEndpoint struct {
	Resolver EndpointResolver
	Options  EndpointResolverOptions
}

func (*ResolveEndpoint) HandleSerialize

func (*ResolveEndpoint) ID

func (*ResolveEndpoint) ID() string

type ResumeGameServerGroupInput

type ResumeGameServerGroupInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// The activity to resume for this game server group.
	//
	// This member is required.
	ResumeActions []types.GameServerGroupAction
	// contains filtered or unexported fields
}

type ResumeGameServerGroupOutput

type ResumeGameServerGroupOutput struct {

	// An object that describes the game server group resource, with the
	// SuspendedActions property updated to reflect the resumed activity.
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type SearchGameSessionsAPIClient added in v0.30.0

type SearchGameSessionsAPIClient interface {
	SearchGameSessions(context.Context, *SearchGameSessionsInput, ...func(*Options)) (*SearchGameSessionsOutput, error)
}

SearchGameSessionsAPIClient is a client that implements the SearchGameSessions operation.

type SearchGameSessionsInput

type SearchGameSessionsInput struct {

	// A unique identifier for the alias associated with the fleet to search for
	// active game sessions. You can use either the alias ID or ARN value. Each request
	// must reference either a fleet ID or alias ID, but not both.
	AliasId *string

	// String containing the search criteria for the session search. If no filter
	// expression is included, the request returns results for all game sessions in the
	// fleet that are in ACTIVE status.
	//
	// A filter expression can contain one or multiple conditions. Each condition
	// consists of the following:
	//
	//   - Operand -- Name of a game session attribute. Valid values are
	//   gameSessionName , gameSessionId , gameSessionProperties , maximumSessions ,
	//   creationTimeMillis , playerSessionCount , hasAvailablePlayerSessions .
	//
	//   - Comparator -- Valid comparators are: = , <> , < , > , <= , >= .
	//
	//   - Value -- Value to be searched for. Values may be numbers, boolean values
	//   (true/false) or strings depending on the operand. String values are case
	//   sensitive and must be enclosed in single quotes. Special characters must be
	//   escaped. Boolean and string values can only be used with the comparators = and
	//   <> . For example, the following filter expression searches on gameSessionName
	//   : " FilterExpression": "gameSessionName = 'Matt\\'s Awesome Game 1'" .
	//
	// To chain multiple conditions in a single expression, use the logical keywords
	// AND , OR , and NOT and parentheses as needed. For example: x AND y AND NOT z ,
	// NOT (x OR y) .
	//
	// Session search evaluates conditions from left to right using the following
	// precedence rules:
	//
	//   - = , <> , < , > , <= , >=
	//
	//   - Parentheses
	//
	//   - NOT
	//
	//   - AND
	//
	//   - OR
	//
	// For example, this filter expression retrieves game sessions hosting at least
	// ten players that have an open player slot: "maximumSessions>=10 AND
	// hasAvailablePlayerSessions=true" .
	FilterExpression *string

	// A unique identifier for the fleet to search for active game sessions. You can
	// use either the fleet ID or ARN value. Each request must reference either a fleet
	// ID or alias ID, but not both.
	FleetId *string

	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. The maximum number of results returned
	// is 20, even if this value is not set or is set higher than 20.
	Limit *int32

	// A fleet location to search for game sessions. You can specify a fleet's home
	// Region or a remote location. Use the Amazon Web Services Region code format,
	// such as us-west-2 .
	Location *string

	// A token that indicates the start of the next sequential page of results. Use
	// the token that is returned with a previous call to this operation. To start at
	// the beginning of the result set, do not specify a value.
	NextToken *string

	// Instructions on how to sort the search results. If no sort expression is
	// included, the request returns results in random order. A sort expression
	// consists of the following elements:
	//
	//   - Operand -- Name of a game session attribute. Valid values are
	//   gameSessionName , gameSessionId , gameSessionProperties , maximumSessions ,
	//   creationTimeMillis , playerSessionCount , hasAvailablePlayerSessions .
	//
	//   - Order -- Valid sort orders are ASC (ascending) and DESC (descending).
	//
	// For example, this sort expression returns the oldest active sessions first:
	// "SortExpression": "creationTimeMillis ASC" . Results with a null value for the
	// sort operand are returned at the end of the list.
	SortExpression *string
	// contains filtered or unexported fields
}

type SearchGameSessionsOutput

type SearchGameSessionsOutput struct {

	// A collection of objects containing game session properties for each session
	// that matches the request.
	GameSessions []types.GameSession

	// A token that indicates where to resume retrieving results on the next call to
	// this operation. If no token is returned, these results represent the end of the
	// list.
	NextToken *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type SearchGameSessionsPaginator added in v0.30.0

type SearchGameSessionsPaginator struct {
	// contains filtered or unexported fields
}

SearchGameSessionsPaginator is a paginator for SearchGameSessions

func NewSearchGameSessionsPaginator added in v0.30.0

func NewSearchGameSessionsPaginator(client SearchGameSessionsAPIClient, params *SearchGameSessionsInput, optFns ...func(*SearchGameSessionsPaginatorOptions)) *SearchGameSessionsPaginator

NewSearchGameSessionsPaginator returns a new SearchGameSessionsPaginator

func (*SearchGameSessionsPaginator) HasMorePages added in v0.30.0

func (p *SearchGameSessionsPaginator) HasMorePages() bool

HasMorePages returns a boolean indicating whether more pages are available

func (*SearchGameSessionsPaginator) NextPage added in v0.30.0

func (p *SearchGameSessionsPaginator) NextPage(ctx context.Context, optFns ...func(*Options)) (*SearchGameSessionsOutput, error)

NextPage retrieves the next SearchGameSessions page.

type SearchGameSessionsPaginatorOptions added in v0.30.0

type SearchGameSessionsPaginatorOptions struct {
	// The maximum number of results to return. Use this parameter with NextToken to
	// get results as a set of sequential pages. The maximum number of results returned
	// is 20, even if this value is not set or is set higher than 20.
	Limit int32

	// Set to true if pagination should stop if the service returns a pagination token
	// that matches the most recent token provided to the service.
	StopOnDuplicateToken bool
}

SearchGameSessionsPaginatorOptions is the paginator options for SearchGameSessions

type StartFleetActionsInput

type StartFleetActionsInput struct {

	// List of actions to restart on the fleet.
	//
	// This member is required.
	Actions []types.FleetAction

	// A unique identifier for the fleet to restart actions on. You can use either the
	// fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The fleet location to restart fleet actions for. Specify a location in the form
	// of an Amazon Web Services Region code, such as us-west-2 .
	Location *string
	// contains filtered or unexported fields
}

type StartFleetActionsOutput

type StartFleetActionsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet to restart actions on.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StartGameSessionPlacementInput

type StartGameSessionPlacementInput struct {

	// Name of the queue to use to place the new game session. You can use either the
	// queue name or ARN value.
	//
	// This member is required.
	GameSessionQueueName *string

	// The maximum number of players that can be connected simultaneously to the game
	// session.
	//
	// This member is required.
	MaximumPlayerSessionCount *int32

	// A unique identifier to assign to the new game session placement. This value is
	// developer-defined. The value must be unique across all Regions and cannot be
	// reused.
	//
	// This member is required.
	PlacementId *string

	// Set of information on each player to create a player session for.
	DesiredPlayerSessions []types.DesiredPlayerSession

	// A set of key-value pairs that can store custom data in a game session. For
	// example: {"Key": "difficulty", "Value": "novice"} .
	GameProperties []types.GameProperty

	// A set of custom game session properties, formatted as a single string value.
	// This data is passed to a game server process in the GameSession object with a
	// request to start a new game session (see [Start a Game Session]).
	//
	// [Start a Game Session]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-api.html#gamelift-sdk-server-startsession
	GameSessionData *string

	// A descriptive label that is associated with a game session. Session names do
	// not need to be unique.
	GameSessionName *string

	// A set of values, expressed in milliseconds, that indicates the amount of
	// latency that a player experiences when connected to Amazon Web Services Regions.
	// This information is used to try to place the new game session where it can offer
	// the best possible gameplay experience for the players.
	PlayerLatencies []types.PlayerLatency
	// contains filtered or unexported fields
}

type StartGameSessionPlacementOutput

type StartGameSessionPlacementOutput struct {

	// Object that describes the newly created game session placement. This object
	// includes all the information provided in the request, as well as start/end time
	// stamps and placement status.
	GameSessionPlacement *types.GameSessionPlacement

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StartMatchBackfillInput

type StartMatchBackfillInput struct {

	// Name of the matchmaker to use for this request. You can use either the
	// configuration name or ARN value. The ARN of the matchmaker that was used with
	// the original game session is listed in the GameSession object, MatchmakerData
	// property.
	//
	// This member is required.
	ConfigurationName *string

	// Match information on all players that are currently assigned to the game
	// session. This information is used by the matchmaker to find new players and add
	// them to the existing game.
	//
	// You can include up to 199 Players in a StartMatchBackfill request.
	//
	//   - PlayerID, PlayerAttributes, Team -- This information is maintained in the
	//   GameSession object, MatchmakerData property, for all players who are currently
	//   assigned to the game session. The matchmaker data is in JSON syntax, formatted
	//   as a string. For more details, see [Match Data].
	//
	// The backfill request must specify the team membership for every player. Do not
	//   specify team if you are not using backfill.
	//
	//   - LatencyInMs -- If the matchmaker uses player latency, include a latency
	//   value, in milliseconds, for the Region that the game session is currently in. Do
	//   not include latency values for any other Region.
	//
	// [Match Data]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-server.html#match-server-data
	//
	// This member is required.
	Players []types.Player

	// A unique identifier for the game session. Use the game session ID. When using
	// FlexMatch as a standalone matchmaking solution, this parameter is not needed.
	GameSessionArn *string

	// A unique identifier for a matchmaking ticket. If no ticket ID is specified
	// here, Amazon GameLift will generate one in the form of a UUID. Use this
	// identifier to track the match backfill ticket status and retrieve match results.
	TicketId *string
	// contains filtered or unexported fields
}

type StartMatchBackfillOutput

type StartMatchBackfillOutput struct {

	// Ticket representing the backfill matchmaking request. This object includes the
	// information in the request, ticket status, and match results as generated during
	// the matchmaking process.
	MatchmakingTicket *types.MatchmakingTicket

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StartMatchmakingInput

type StartMatchmakingInput struct {

	// Name of the matchmaking configuration to use for this request. Matchmaking
	// configurations must exist in the same Region as this request. You can use either
	// the configuration name or ARN value.
	//
	// This member is required.
	ConfigurationName *string

	// Information on each player to be matched. This information must include a
	// player ID, and may contain player attributes and latency data to be used in the
	// matchmaking process. After a successful match, Player objects contain the name
	// of the team the player is assigned to.
	//
	// You can include up to 10 Players in a StartMatchmaking request.
	//
	// This member is required.
	Players []types.Player

	// A unique identifier for a matchmaking ticket. If no ticket ID is specified
	// here, Amazon GameLift will generate one in the form of a UUID. Use this
	// identifier to track the matchmaking ticket status and retrieve match results.
	TicketId *string
	// contains filtered or unexported fields
}

type StartMatchmakingOutput

type StartMatchmakingOutput struct {

	// Ticket representing the matchmaking request. This object include the
	// information included in the request, ticket status, and match results as
	// generated during the matchmaking process.
	MatchmakingTicket *types.MatchmakingTicket

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StopFleetActionsInput

type StopFleetActionsInput struct {

	// List of actions to suspend on the fleet.
	//
	// This member is required.
	Actions []types.FleetAction

	// A unique identifier for the fleet to stop actions on. You can use either the
	// fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The fleet location to stop fleet actions for. Specify a location in the form of
	// an Amazon Web Services Region code, such as us-west-2 .
	Location *string
	// contains filtered or unexported fields
}

type StopFleetActionsOutput

type StopFleetActionsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet to stop actions on.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StopGameSessionPlacementInput

type StopGameSessionPlacementInput struct {

	// A unique identifier for a game session placement to stop.
	//
	// This member is required.
	PlacementId *string
	// contains filtered or unexported fields
}

type StopGameSessionPlacementOutput

type StopGameSessionPlacementOutput struct {

	// Object that describes the canceled game session placement, with CANCELLED
	// status and an end time stamp.
	GameSessionPlacement *types.GameSessionPlacement

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type StopMatchmakingInput

type StopMatchmakingInput struct {

	// A unique identifier for a matchmaking ticket.
	//
	// This member is required.
	TicketId *string
	// contains filtered or unexported fields
}

type StopMatchmakingOutput

type StopMatchmakingOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type SuspendGameServerGroupInput

type SuspendGameServerGroupInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// The activity to suspend for this game server group.
	//
	// This member is required.
	SuspendActions []types.GameServerGroupAction
	// contains filtered or unexported fields
}

type SuspendGameServerGroupOutput

type SuspendGameServerGroupOutput struct {

	// An object that describes the game server group resource, with the
	// SuspendedActions property updated to reflect the suspended activity.
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type TagResourceInput

type TagResourceInput struct {

	// The Amazon Resource Name ([ARN] ) that uniquely identifies the Amazon GameLift
	// resource that you want to assign tags to. Amazon GameLift includes resource ARNs
	// in the data object for the resource. You can retrieve the ARN by calling a List
	// or Describe operation for the resource type.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	//
	// This member is required.
	ResourceARN *string

	// A list of one or more tags to assign to the specified Amazon GameLift resource.
	// Tags are developer-defined and structured as key-value pairs. The maximum tag
	// limit may be lower than stated. See [Tagging Amazon Web Services Resources]for tagging limits.
	//
	// [Tagging Amazon Web Services Resources]: https://docs.aws.amazon.com/general/latest/gr/aws_tagging.html
	//
	// This member is required.
	Tags []types.Tag
	// contains filtered or unexported fields
}

type TagResourceOutput

type TagResourceOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UntagResourceInput

type UntagResourceInput struct {

	// The Amazon Resource Name ([ARN] ) that uniquely identifies the Amazon GameLift
	// resource that you want to remove tags from. Amazon GameLift includes resource
	// ARNs in the data object for the resource. You can retrieve the ARN by calling a
	// List or Describe operation for the resource type.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	//
	// This member is required.
	ResourceARN *string

	// A list of one or more tag keys to remove from the specified Amazon GameLift
	// resource.
	//
	// This member is required.
	TagKeys []string
	// contains filtered or unexported fields
}

type UntagResourceOutput

type UntagResourceOutput struct {
	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateAliasInput

type UpdateAliasInput struct {

	// A unique identifier for the alias that you want to update. You can use either
	// the alias ID or ARN value.
	//
	// This member is required.
	AliasId *string

	// A human-readable description of the alias.
	Description *string

	// A descriptive label that is associated with an alias. Alias names do not need
	// to be unique.
	Name *string

	// The routing configuration, including routing type and fleet target, for the
	// alias.
	RoutingStrategy *types.RoutingStrategy
	// contains filtered or unexported fields
}

type UpdateAliasOutput

type UpdateAliasOutput struct {

	// The updated alias resource.
	Alias *types.Alias

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateBuildInput

type UpdateBuildInput struct {

	// A unique identifier for the build to update. You can use either the build ID or
	// ARN value.
	//
	// This member is required.
	BuildId *string

	// A descriptive label associated with a build. Build names don't need to be
	// unique.
	Name *string

	// Version information associated with a build or script. Version strings don't
	// need to be unique.
	Version *string
	// contains filtered or unexported fields
}

type UpdateBuildOutput

type UpdateBuildOutput struct {

	// The updated build resource.
	Build *types.Build

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateFleetAttributesInput

type UpdateFleetAttributesInput struct {

	// A unique identifier for the fleet to update attribute metadata for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// Amazon GameLift Anywhere configuration options.
	AnywhereConfiguration *types.AnywhereConfiguration

	// A human-readable description of a fleet.
	Description *string

	// The name of a metric group to add this fleet to. Use a metric group in Amazon
	// CloudWatch to aggregate the metrics from multiple fleets. Provide an existing
	// metric group name, or create a new metric group by providing a new name. A fleet
	// can only be in one metric group at a time.
	MetricGroups []string

	// A descriptive label that is associated with a fleet. Fleet names do not need to
	// be unique.
	Name *string

	// The game session protection policy to apply to all new game sessions created in
	// this fleet. Game sessions that already exist are not affected. You can set
	// protection for individual game sessions using [UpdateGameSession].
	//
	//   - NoProtection -- The game session can be terminated during a scale-down
	//   event.
	//
	//   - FullProtection -- If the game session is in an ACTIVE status, it cannot be
	//   terminated during a scale-down event.
	//
	// [UpdateGameSession]: https://docs.aws.amazon.com/gamelift/latest/apireference/API_UpdateGameSession.html
	NewGameSessionProtectionPolicy types.ProtectionPolicy

	// Policy settings that limit the number of game sessions an individual player can
	// create over a span of time.
	ResourceCreationLimitPolicy *types.ResourceCreationLimitPolicy
	// contains filtered or unexported fields
}

type UpdateFleetAttributesOutput

type UpdateFleetAttributesOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that was updated.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateFleetCapacityInput

type UpdateFleetCapacityInput struct {

	// A unique identifier for the fleet to update capacity settings for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// The number of Amazon EC2 instances you want to maintain in the specified fleet
	// location. This value must fall between the minimum and maximum size limits.
	// Changes in desired instance value can take up to 1 minute to be reflected when
	// viewing the fleet's capacity settings.
	DesiredInstances *int32

	// The name of a remote location to update fleet capacity settings for, in the
	// form of an Amazon Web Services Region code such as us-west-2 .
	Location *string

	// The maximum number of instances that are allowed in the specified fleet
	// location. If this parameter is not set, the default is 1.
	MaxSize *int32

	// The minimum number of instances that are allowed in the specified fleet
	// location. If this parameter is not set, the default is 0.
	MinSize *int32
	// contains filtered or unexported fields
}

type UpdateFleetCapacityOutput

type UpdateFleetCapacityOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that was updated.
	FleetId *string

	// The remote location being updated, expressed as an Amazon Web Services Region
	// code, such as us-west-2 .
	Location *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateFleetPortSettingsInput

type UpdateFleetPortSettingsInput struct {

	// A unique identifier for the fleet to update port settings for. You can use
	// either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// A collection of port settings to be added to the fleet resource.
	InboundPermissionAuthorizations []types.IpPermission

	// A collection of port settings to be removed from the fleet resource.
	InboundPermissionRevocations []types.IpPermission
	// contains filtered or unexported fields
}

type UpdateFleetPortSettingsOutput

type UpdateFleetPortSettingsOutput struct {

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift fleet
	// resource and uniquely identifies it. ARNs are unique across all Regions. Format
	// is arn:aws:gamelift:::fleet/fleet-a1234567-b8c9-0d1e-2fa3-b45c6d7e8912 .
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	FleetArn *string

	// A unique identifier for the fleet that was updated.
	FleetId *string

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateGameServerGroupInput

type UpdateGameServerGroupInput struct {

	// A unique identifier for the game server group. Use either the name or ARN value.
	//
	// This member is required.
	GameServerGroupName *string

	// Indicates how Amazon GameLift FleetIQ balances the use of Spot Instances and
	// On-Demand Instances in the game server group. Method options include the
	// following:
	//
	//   - SPOT_ONLY - Only Spot Instances are used in the game server group. If Spot
	//   Instances are unavailable or not viable for game hosting, the game server group
	//   provides no hosting capacity until Spot Instances can again be used. Until then,
	//   no new instances are started, and the existing nonviable Spot Instances are
	//   terminated (after current gameplay ends) and are not replaced.
	//
	//   - SPOT_PREFERRED - (default value) Spot Instances are used whenever available
	//   in the game server group. If Spot Instances are unavailable, the game server
	//   group continues to provide hosting capacity by falling back to On-Demand
	//   Instances. Existing nonviable Spot Instances are terminated (after current
	//   gameplay ends) and are replaced with new On-Demand Instances.
	//
	//   - ON_DEMAND_ONLY - Only On-Demand Instances are used in the game server group.
	//   No Spot Instances are used, even when available, while this balancing strategy
	//   is in force.
	BalancingStrategy types.BalancingStrategy

	// A flag that indicates whether instances in the game server group are protected
	// from early termination. Unprotected instances that have active game servers
	// running might be terminated during a scale-down event, causing players to be
	// dropped from the game. Protected instances cannot be terminated while there are
	// active game servers running except in the event of a forced game server group
	// deletion (see ). An exception to this is with Spot Instances, which can be
	// terminated by Amazon Web Services regardless of protection status. This property
	// is set to NO_PROTECTION by default.
	GameServerProtectionPolicy types.GameServerProtectionPolicy

	// An updated list of Amazon EC2 instance types to use in the Auto Scaling group.
	// The instance definitions must specify at least two different instance types that
	// are supported by Amazon GameLift FleetIQ. This updated list replaces the entire
	// current list of instance definitions for the game server group. For more
	// information on instance types, see [EC2 Instance Types]in the Amazon EC2 User Guide. You can
	// optionally specify capacity weighting for each instance type. If no weight value
	// is specified for an instance type, it is set to the default value "1". For more
	// information about capacity weighting, see [Instance Weighting for Amazon EC2 Auto Scaling]in the Amazon EC2 Auto Scaling User
	// Guide.
	//
	// [Instance Weighting for Amazon EC2 Auto Scaling]: https://docs.aws.amazon.com/autoscaling/ec2/userguide/asg-instance-weighting.html
	// [EC2 Instance Types]: https://docs.aws.amazon.com/AWSEC2/latest/UserGuide/instance-types.html
	InstanceDefinitions []types.InstanceDefinition

	// The Amazon Resource Name ([ARN] ) for an IAM role that allows Amazon GameLift to
	// access your Amazon EC2 Auto Scaling groups.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	RoleArn *string
	// contains filtered or unexported fields
}

type UpdateGameServerGroupOutput

type UpdateGameServerGroupOutput struct {

	// An object that describes the game server group resource with updated
	// properties.
	GameServerGroup *types.GameServerGroup

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateGameServerInput

type UpdateGameServerInput struct {

	// A unique identifier for the game server group where the game server is running.
	//
	// This member is required.
	GameServerGroupName *string

	// A custom string that uniquely identifies the game server to update.
	//
	// This member is required.
	GameServerId *string

	// A set of custom game server properties, formatted as a single string value.
	// This data is passed to a game client or service when it requests information on
	// game servers.
	GameServerData *string

	// Indicates health status of the game server. A request that includes this
	// parameter updates the game server's LastHealthCheckTime timestamp.
	HealthCheck types.GameServerHealthCheck

	// Indicates if the game server is available or is currently hosting gameplay. You
	// can update a game server status from AVAILABLE to UTILIZED , but you can't
	// change a the status from UTILIZED to AVAILABLE .
	UtilizationStatus types.GameServerUtilizationStatus
	// contains filtered or unexported fields
}

type UpdateGameServerOutput

type UpdateGameServerOutput struct {

	// Object that describes the newly updated game server.
	GameServer *types.GameServer

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateGameSessionInput

type UpdateGameSessionInput struct {

	// A unique identifier for the game session to update.
	//
	// This member is required.
	GameSessionId *string

	// A set of key-value pairs that can store custom data in a game session. For
	// example: {"Key": "difficulty", "Value": "novice"} . You can use this parameter
	// to modify game properties in an active game session. This action adds new
	// properties and modifies existing properties. There is no way to delete
	// properties. For an example, see [Update the value of a game property].
	//
	// [Update the value of a game property]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-client-api.html#game-properties-update
	GameProperties []types.GameProperty

	// The maximum number of players that can be connected simultaneously to the game
	// session.
	MaximumPlayerSessionCount *int32

	// A descriptive label that is associated with a game session. Session names do
	// not need to be unique.
	Name *string

	// A policy that determines whether the game session is accepting new players.
	PlayerSessionCreationPolicy types.PlayerSessionCreationPolicy

	// Game session protection policy to apply to this game session only.
	//
	//   - NoProtection -- The game session can be terminated during a scale-down
	//   event.
	//
	//   - FullProtection -- If the game session is in an ACTIVE status, it cannot be
	//   terminated during a scale-down event.
	ProtectionPolicy types.ProtectionPolicy
	// contains filtered or unexported fields
}

type UpdateGameSessionOutput

type UpdateGameSessionOutput struct {

	// The updated game session properties.
	GameSession *types.GameSession

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateGameSessionQueueInput

type UpdateGameSessionQueueInput struct {

	// A descriptive label that is associated with game session queue. Queue names
	// must be unique within each Region. You can use either the queue ID or ARN value.
	//
	// This member is required.
	Name *string

	// Information to be added to all events that are related to this game session
	// queue.
	CustomEventData *string

	// A list of fleets and/or fleet aliases that can be used to fulfill game session
	// placement requests in the queue. Destinations are identified by either a fleet
	// ARN or a fleet alias ARN, and are listed in order of placement preference. When
	// updating this list, provide a complete list of destinations.
	Destinations []types.GameSessionQueueDestination

	// A list of locations where a queue is allowed to place new game sessions.
	// Locations are specified in the form of Amazon Web Services Region codes, such as
	// us-west-2 . If this parameter is not set, game sessions can be placed in any
	// queue location. To remove an existing filter configuration, pass in an empty
	// set.
	FilterConfiguration *types.FilterConfiguration

	// An SNS topic ARN that is set up to receive game session placement
	// notifications. See [Setting up notifications for game session placement].
	//
	// [Setting up notifications for game session placement]: https://docs.aws.amazon.com/gamelift/latest/developerguide/queue-notification.html
	NotificationTarget *string

	// A set of policies that act as a sliding cap on player latency. FleetIQ works to
	// deliver low latency for most players in a game session. These policies ensure
	// that no individual player can be placed into a game with unreasonably high
	// latency. Use multiple policies to gradually relax latency requirements a step at
	// a time. Multiple policies are applied based on their maximum allowed latency,
	// starting with the lowest value. When updating policies, provide a complete
	// collection of policies.
	PlayerLatencyPolicies []types.PlayerLatencyPolicy

	// Custom settings to use when prioritizing destinations and locations for game
	// session placements. This configuration replaces the FleetIQ default
	// prioritization process. Priority types that are not explicitly named will be
	// automatically applied at the end of the prioritization process. To remove an
	// existing priority configuration, pass in an empty set.
	PriorityConfiguration *types.PriorityConfiguration

	// The maximum time, in seconds, that a new game session placement request remains
	// in the queue. When a request exceeds this time, the game session placement
	// changes to a TIMED_OUT status. By default, this property is set to 600 .
	TimeoutInSeconds *int32
	// contains filtered or unexported fields
}

type UpdateGameSessionQueueOutput

type UpdateGameSessionQueueOutput struct {

	// An object that describes the newly updated game session queue.
	GameSessionQueue *types.GameSessionQueue

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateMatchmakingConfigurationInput

type UpdateMatchmakingConfigurationInput struct {

	// A unique identifier for the matchmaking configuration to update. You can use
	// either the configuration name or ARN value.
	//
	// This member is required.
	Name *string

	// A flag that indicates whether a match that was created with this configuration
	// must be accepted by the matched players. To require acceptance, set to TRUE.
	// With this option enabled, matchmaking tickets use the status REQUIRES_ACCEPTANCE
	// to indicate when a completed potential match is waiting for player acceptance.
	AcceptanceRequired *bool

	// The length of time (in seconds) to wait for players to accept a proposed match,
	// if acceptance is required.
	AcceptanceTimeoutSeconds *int32

	// The number of player slots in a match to keep open for future players. For
	// example, if the configuration's rule set specifies a match for a single
	// 10-person team, and the additional player count is set to 2, 10 players will be
	// selected for the match and 2 more player slots will be open for future players.
	// This parameter is not used if FlexMatchMode is set to STANDALONE .
	AdditionalPlayerCount *int32

	// The method that is used to backfill game sessions created with this matchmaking
	// configuration. Specify MANUAL when your game manages backfill requests manually
	// or does not use the match backfill feature. Specify AUTOMATIC to have GameLift
	// create a match backfill request whenever a game session has one or more open
	// slots. Learn more about manual and automatic backfill in [Backfill Existing Games with FlexMatch]. Automatic backfill
	// is not available when FlexMatchMode is set to STANDALONE .
	//
	// [Backfill Existing Games with FlexMatch]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-backfill.html
	BackfillMode types.BackfillMode

	// Information to add to all events related to the matchmaking configuration.
	CustomEventData *string

	// A description for the matchmaking configuration.
	Description *string

	// Indicates whether this matchmaking configuration is being used with Amazon
	// GameLift hosting or as a standalone matchmaking solution.
	//
	//   - STANDALONE - FlexMatch forms matches and returns match information,
	//   including players and team assignments, in a [MatchmakingSucceeded]event.
	//
	//   - WITH_QUEUE - FlexMatch forms matches and uses the specified Amazon GameLift
	//   queue to start a game session for the match.
	//
	// [MatchmakingSucceeded]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-events.html#match-events-matchmakingsucceeded
	FlexMatchMode types.FlexMatchMode

	// A set of key-value pairs that can store custom data in a game session. For
	// example: {"Key": "difficulty", "Value": "novice"} . This information is added to
	// the new GameSession object that is created for a successful match. This
	// parameter is not used if FlexMatchMode is set to STANDALONE .
	GameProperties []types.GameProperty

	// A set of custom game session properties, formatted as a single string value.
	// This data is passed to a game server process with a request to start a new game
	// session (see [Start a Game Session]). This information is added to the game session that is created
	// for a successful match. This parameter is not used if FlexMatchMode is set to
	// STANDALONE .
	//
	// [Start a Game Session]: https://docs.aws.amazon.com/gamelift/latest/developerguide/gamelift-sdk-server-api.html#gamelift-sdk-server-startsession
	GameSessionData *string

	// The Amazon Resource Name ([ARN] ) that is assigned to a Amazon GameLift game session
	// queue resource and uniquely identifies it. ARNs are unique across all Regions.
	// Format is arn:aws:gamelift:::gamesessionqueue/ . Queues can be located in any
	// Region. Queues are used to start new Amazon GameLift-hosted game sessions for
	// matches that are created with this matchmaking configuration. If FlexMatchMode
	// is set to STANDALONE , do not set this parameter.
	//
	// [ARN]: https://docs.aws.amazon.com/AmazonS3/latest/dev/s3-arn-format.html
	GameSessionQueueArns []string

	// An SNS topic ARN that is set up to receive matchmaking notifications. See [Setting up notifications for matchmaking] for
	// more information.
	//
	// [Setting up notifications for matchmaking]: https://docs.aws.amazon.com/gamelift/latest/flexmatchguide/match-notification.html
	NotificationTarget *string

	// The maximum duration, in seconds, that a matchmaking ticket can remain in
	// process before timing out. Requests that fail due to timing out can be
	// resubmitted as needed.
	RequestTimeoutSeconds *int32

	// A unique identifier for the matchmaking rule set to use with this
	// configuration. You can use either the rule set name or ARN value. A matchmaking
	// configuration can only use rule sets that are defined in the same Region.
	RuleSetName *string
	// contains filtered or unexported fields
}

type UpdateMatchmakingConfigurationOutput

type UpdateMatchmakingConfigurationOutput struct {

	// The updated matchmaking configuration.
	Configuration *types.MatchmakingConfiguration

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateRuntimeConfigurationInput

type UpdateRuntimeConfigurationInput struct {

	// A unique identifier for the fleet to update runtime configuration for. You can
	// use either the fleet ID or ARN value.
	//
	// This member is required.
	FleetId *string

	// Instructions for launching server processes on fleet computes. Server processes
	// run either a custom game build executable or a Realtime Servers script. The
	// runtime configuration lists the types of server processes to run, how to launch
	// them, and the number of processes to run concurrently.
	//
	// This member is required.
	RuntimeConfiguration *types.RuntimeConfiguration
	// contains filtered or unexported fields
}

type UpdateRuntimeConfigurationOutput

type UpdateRuntimeConfigurationOutput struct {

	// The runtime configuration currently in use by computes in the fleet. If the
	// update is successful, all property changes are shown.
	RuntimeConfiguration *types.RuntimeConfiguration

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type UpdateScriptInput

type UpdateScriptInput struct {

	// A unique identifier for the Realtime script to update. You can use either the
	// script ID or ARN value.
	//
	// This member is required.
	ScriptId *string

	// A descriptive label that is associated with a script. Script names don't need
	// to be unique.
	Name *string

	// The location of the Amazon S3 bucket where a zipped file containing your
	// Realtime scripts is stored. The storage location must specify the Amazon S3
	// bucket name, the zip file name (the "key"), and a role ARN that allows Amazon
	// GameLift to access the Amazon S3 storage location. The S3 bucket must be in the
	// same Region where you want to create a new script. By default, Amazon GameLift
	// uploads the latest version of the zip file; if you have S3 object versioning
	// turned on, you can use the ObjectVersion parameter to specify an earlier
	// version.
	StorageLocation *types.S3Location

	// Version information associated with a build or script. Version strings don't
	// need to be unique.
	Version *string

	// A data object containing your Realtime scripts and dependencies as a zip file.
	// The zip file can have one or multiple files. Maximum size of a zip file is 5 MB.
	//
	// When using the Amazon Web Services CLI tool to create a script, this parameter
	// is set to the zip file name. It must be prepended with the string "fileb://" to
	// indicate that the file data is a binary object. For example: --zip-file
	// fileb://myRealtimeScript.zip .
	ZipFile []byte
	// contains filtered or unexported fields
}

type UpdateScriptOutput

type UpdateScriptOutput struct {

	// The newly created script record with a unique script ID. The new script's
	// storage location reflects an Amazon S3 location: (1) If the script was uploaded
	// from an S3 bucket under your account, the storage location reflects the
	// information that was provided in the CreateScript request; (2) If the script
	// file was uploaded from a local zip file, the storage location reflects an S3
	// location controls by the Amazon GameLift service.
	Script *types.Script

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

type ValidateMatchmakingRuleSetInput

type ValidateMatchmakingRuleSetInput struct {

	// A collection of matchmaking rules to validate, formatted as a JSON string.
	//
	// This member is required.
	RuleSetBody *string
	// contains filtered or unexported fields
}

type ValidateMatchmakingRuleSetOutput

type ValidateMatchmakingRuleSetOutput struct {

	// A response indicating whether the rule set is valid.
	Valid *bool

	// Metadata pertaining to the operation's result.
	ResultMetadata middleware.Metadata
	// contains filtered or unexported fields
}

Source Files

Directories

Path Synopsis
internal

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