Amazon VPC FAQs
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General QuestionsGeneral Questions
What is Amazon Virtual Private Cloud?
Amazon VPC lets you provision a logically isolated section of the Amazon Web Services (AWS) cloud where you can launch AWS resources in a virtual network that you define. You have complete control over your virtual networking environment, including selection of your own IP address ranges, creation of subnets, and configuration of route tables and network gateways. You can also create a hardware Virtual Private Network (VPN) connection between your corporate datacenter and your VPC and leverage the AWS cloud as an extension of your corporate datacenter.
You can easily customize the network configuration for your Amazon VPC. For example, you can create a public-facing subnet for your web servers that have access to the Internet, and place your backend systems such as databases or application servers in a private-facing subnet with no Internet access. You can leverage multiple layers of security, including security groups and network access control lists, to help control access to Amazon EC2 instances in each subnet.
What are the components of Amazon VPC?
Amazon VPC comprises a variety of objects that will be familiar to customers with existing networks:
- A Virtual Private Cloud: A logically isolated virtual network in the AWS cloud. You define a VPC’s IP address space from ranges you select.
- Subnet: A segment of a VPC’s IP address range where you can place groups of isolated resources.
- Internet Gateway: The Amazon VPC side of a connection to the public Internet.
- NAT Gateway: A highly available, managed Network Address Translation (NAT) service for your resources in a private subnet to access the Internet.
- Virtual private gateway: The Amazon VPC side of a VPN connection.
- Peering Connection: A peering connection enables you to route traffic via private IP addresses between two peered VPCs.
- VPC Endpoints: Enables private connectivity to services hosted in AWS, from within your VPC without using an Internet Gateway, VPN, Network Address Translation (NAT) devices, or firewall proxies.
- Egress-only Internet Gateway: A stateful gateway to provide egress only access for IPv6 traffic from the VPC to the Internet.
Why should I use Amazon VPC?
How do I get started with Amazon VPC?
Your AWS resources are automatically provisioned in a ready-to-use default VPC. You can choose to create additional VPCs by going to the Amazon VPC page in the AWS Management Console and selecting "Start VPC Wizard".
You’ll be presented with four basic options for network architectures. After selecting an option, you can modify the size and IP address range of the VPC and its subnets. If you select an option with Hardware VPN Access, you will need to specify the IP address of the VPN hardware on your network. You can modify the VPC to add or remove secondary IP ranges and gateways, or add more subnets to IP ranges.
The four options are:
- Amazon VPC with a single public subnet only
- Amazon VPC with public and private subnets
- Amazon VPC with public and private subnets and AWS Site-to-Site VPN access
- Amazon VPC with a private subnet only and AWS Site-to-Site VPN access
What are the different types of VPC endpoints available on Amazon VPC?
VPC endpoints enable you to privately connect your VPC to services hosted on AWS without requiring an Internet gateway, a NAT device, VPN, or firewall proxies. Endpoints are horizontally scalable and highly available virtual devices that allow communication between instances in your VPC and AWS services. Amazon VPC offers two different types of endpoints: gateway type endpoints and interface type endpoints.
Gateway type endpoints are available only for AWS services including S3 and DynamoDB. These endpoints will add an entry to your route table you selected and route the traffic to the supported services through Amazon’s private network.
Interface type endpoints provide private connectivity to services powered by PrivateLink, being AWS services, your own services or SaaS solutions, and supports connectivity over Direct Connect. More AWS and SaaS solutions will be supported by these endpoints in the future. Please refer to VPC Pricing for the price of interface type endpoints.
Billing
How will I be charged and billed for my use of Amazon VPC?
There are no additional charges for creating and using the VPC itself. Usage charges for other Amazon Web Services, including Amazon EC2, still apply at published rates for those resources, including data transfer charges. If you connect your VPC to your corporate datacenter using the optional hardware VPN connection, pricing is per VPN connection-hour (the amount of time you have a VPN connection in the "available" state.) Partial hours are billed as full hours. Data transferred over VPN connections will be charged at standard AWS Data Transfer rates. For VPC-VPN pricing information, please visit the pricing section of the Amazon VPC product page.
What usage charges will I incur if I use other AWS services, such as Amazon S3, from Amazon EC2 instances in my VPC?
Usage charges for other Amazon Web Services, including Amazon EC2, still apply at published rates for those resources. Data transfer charges are not incurred when accessing Amazon Web Services, such as Amazon S3, via your VPC’s Internet gateway.
If you access AWS resources via your VPN connection, you will incur Internet data transfer charges.
Connectivity
What are the connectivity options for my Amazon VPC?
You may connect your Amazon VPC to:
- The internet (via an internet gateway)
- Your corporate data center using an AWS Site-to-Site VPN connection (via the virtual private gateway)
- Both the internet and your corporate data center (utilizing both an internet gateway and a virtual private gateway)
- Other AWS services (via internet gateway, NAT, virtual private gateway, or VPC endpoints)
- Other Amazon VPCs (via VPC peering connections)
How do I connect my VPC to the Internet?
Are there any bandwidth limitations for Internet gateways? Do I need to be concerned about its availability? Can it be a single point of failure?
How do instances in a VPC access the Internet?
When is an IP address considered a Public IP address?
How do instances without public IP addresses access the Internet?
Instances without public IP addresses can access the Internet in one of two ways:
- Instances without public IP addresses can route their traffic through a NAT gateway or a NAT instance to access the Internet. These instances use the public IP address of the NAT gateway or NAT instance to traverse the Internet. The NAT gateway or NAT instance allows outbound communication but doesn’t allow machines on the Internet to initiate a connection to the privately addressed instances.
- For VPCs with a hardware VPN connection or Direct Connect connection, instances can route their Internet traffic down the virtual private gateway to your existing datacenter. From there, it can access the Internet via your existing egress points and network security/monitoring devices.
Can I connect to my VPC using a software VPN?
Does traffic go over the internet when two instances communicate using public IP addresses, or when instances communicate with a public AWS service endpoint?
No. When using public IP addresses, all communication between instances and services hosted in AWS use AWS's private network. Packets that originate from the AWS network with a destination on the AWS network stay on the AWS global network, except traffic to or from AWS China Regions.
In addition, all data flowing across the AWS global network that interconnects our data centers and Regions is automatically encrypted at the physical layer before it leaves our secured facilities. Additional encryption layers exist as well; for example, all VPC cross-region peering traffic, and customer or service-to-service Transport Layer Security (TLS) connections.
How does an AWS Site-to-Site VPN connection work with Amazon VPC?
IP Addressing
What IP address ranges can I use within my Amazon VPC?
You can use any IPv4 address range, including RFC 1918 or publicly routable IP ranges, for the primary CIDR block. For the secondary CIDR blocks, certain restrictions apply. Publicly routable IP blocks are only reachable via the Virtual Private Gateway and cannot be accessed over the Internet through the Internet gateway. AWS does not advertise customer-owned IP address blocks to the Internet. You can allocate up to 5 Amazon-provided or BYOIP IPv6 GUA CIDR blocks to a VPC by calling the relevant API or via the AWS Management Console.
How do I assign IP address ranges to Amazon VPCs?
You assign a single Classless Internet Domain Routing (CIDR) IP address range as the primary CIDR block when you create a VPC and can add up to four (4) secondary CIDR blocks after creation of the VPC. Subnets within a VPC are addressed from these CIDR ranges by you. Please note that while you can create multiple VPCs with overlapping IP address ranges, doing so will prohibit you from connecting these VPCs to a common home network via the hardware VPN connection. . For this reason we recommend using non-overlapping IP address ranges. You can allocate up to 5 Amazon-provided or BYOIP IPv6 CIDR blocks to your VPC.
What IP address ranges are assigned to a default Amazon VPC?
Can I use my IP addresses in VPC and access them over the Internet?
How large of a VPC can I create?
Currently, Amazon VPC supports five (5) IP address ranges, one (1) primary and four (4) secondary for IPv4. Each of these ranges can be between /28 (in CIDR notation) and /16 in size. The IP address ranges of your VPC should not overlap with the IP address ranges of your existing network.
For IPv6, the VPC is a fixed size of /56 (in CIDR notation). A VPC can have both IPv4 and IPv6 CIDR blocks associated to it.
Can I change the size of a VPC?
How many subnets can I create per VPC?
Currently you can create 200 subnets per VPC. If you would like to create more, please submit a case at the support center.
Is there a limit on how large or small a subnet can be?
The minimum size of a subnet is a /28 (or 14 IP addresses.) for IPv4. Subnets cannot be larger than the VPC in which they are created.
For IPv6, the subnet size is fixed to be a /64. Only one IPv6 CIDR block can be allocated to a subnet.
Can I use all the IP addresses that I assign to a subnet?
How do I assign private IP addresses to Amazon EC2 instances within a VPC?
Can I change the private IP addresses of an Amazon EC2 instance while it is running and/or stopped within a VPC?
If an Amazon EC2 instance is stopped within a VPC, can I launch another instance with the same IP address in the same VPC?
Can I assign IP addresses for multiple instances simultaneously?
Can I assign any IP address to an instance?
You can assign any IP address to your instance as long as it is:
- Part of the associated subnet's IP address range
- Not reserved by Amazon for IP networking purposes
- Not currently assigned to another interface
Can I assign multiple IP addresses to an instance?
Yes. You can assign one or more secondary private IP addresses to an Elastic Network Interface or an EC2 instance in Amazon VPC. The number of secondary private IP addresses you can assign depends on the instance type. See EC2 User Guide for more information on the number of secondary private IP addresses that can be assigned per instance type.
Can I assign one or more Elastic IP (EIP) addresses to VPC-based Amazon EC2 instances?
Bring Your Own IP
What is the Bring Your Own IP feature?
Why should I use BYOIP?
You may want to bring your own IP addresses to AWS for the following reasons:
IP Reputation: Many customers consider the reputation of their IP addresses to be a strategic asset and want to use those IPs on AWS with their resources. For example, customers who maintain services such as outbound e-mail MTA and have high reputation IPs, can now bring over their IP space and successfully maintain their existing sending success rate.
Customer whitelisting: BYOIP also enables customers to move workloads that rely on IP address whitelisting to AWS without the need to re-establish the whitelists with new IP addresses.
Hardcoded dependencies: Several customers have IPs hardcoded in devices or have taken architectural dependencies on their IPs. BYOIP enables such customers hassle free migration to AWS.
Regulation and compliance: Many customers are required to use certain IPs because of regulation and compliance reasons. They too are unlocked by BYOIP.
On-prem IPv6 network policy: Many customers can route only their IPv6 in their on-prem network. These customers are unlocked by BYOIP as they can assign their own IPv6 range to their VPC and choose to route to their on-prem network using internet or Direct Connect.
What happens if I release a BYOIP Elastic IP?
In which AWS Regions is BYOIP available?
See our documentation for details on BYOIP availability.
Can a BYOIP prefix be shared with multiple VPCs in the same account?
How many IP ranges can I bring via BYOIP?
What is the most specific prefix that I can bring via BYOIP?
Which RIR prefixes can I use for BYOIP?
Can I bring a reassigned or reallocated prefix?
Can I move a BYOIP prefix from one AWS Region to another?
IP Address Manager
What is VPC IP Address Manager (IPAM)?
Why should you use IPAM?
What are the key features offered by IPAM?
AWS IPAM provides the following features:
- Allocate IP addresses for at-scale networks: IPAM can automate IP address allocations across hundreds of accounts and VPCs based on configurable business rules.
- Monitor IP usage across your network: IPAM can monitor IP addresses and enables you to get alerts when IPAM detects potential issues such as depleting IP addresses that can stall network’s growth or overlapping IP addresses that can result in erroneous routing.
- Troubleshoot your network: IPAM can help you quickly identify if connectivity issues are due to IP address misconfigurations or other issues.
- Audit IP addresses: IPAM automatically retains your IP address monitoring data (up to a maximum of three years). You can use this historical data to do retrospective analysis and audits for your network.
What are the key components of IPAM?
The following are the key components of IPAM:
- A scope is the highest-level container within IPAM. An IPAM contains two default scopes. Each scope represents the IP space for a single network. The private scope is intended for all private space. The public scope is intended for all public space. Scopes enable you to reuse IP addresses across multiple unconnected networks without causing IP address overlap or conflict. Within a scope, you create IPAM pools.
- A pool is a collection of contiguous IP address ranges (or CIDRs). IPAM pools enable you to organize your IP addresses according to your routing and security needs. You can have multiple pools within a top-level pool. For example, if you have separate routing and security needs for development and production applications, you can create a pool for each. Within IPAM pools, you allocate CIDRs to AWS resources.
- An allocation is a CIDR assignment from an IPAM pool to another resource or IPAM pool. When you create a VPC and choose an IPAM pool for the VPC’s CIDR, the CIDR is allocated from the CIDR provisioned to the IPAM pool. You can monitor and manage the allocation with IPAM.
Does IPAM support Bring Your Own IPs (BYOIPs)?
Yes. IPAM supports both BYOIPv4 and BYOIPv6 addresses. BYOIP is an EC2 feature that allows you to bring IP addresses owned by you to AWS. With IPAM, you can directly provision and share their IP address blocks across accounts and organization. Existing BYOIP customers using IPv4 can migrate their pools into IPAM to simplify IP management.
Does Amazon Provide Contiguous CIDR Blocks and how do they work with IPAM?
Can you use Amazon Provided Contiguous IPv6 CIDR blocks without IPAM?
Can I share my IPAM pools with other accounts?
Topology
Can I specify which subnet will use which gateway as its default?
Security and Filtering
How do I secure Amazon EC2 instances running within my VPC?
Amazon EC2 security groups can be used to help secure instances within an Amazon VPC. Security groups in a VPC enable you to specify both inbound and outbound network traffic that is allowed to or from each Amazon EC2 instance. Traffic which is not explicitly allowed to or from an instance is automatically denied.
In addition to security groups, network traffic entering and exiting each subnet can be allowed or denied via network Access Control Lists (ACLs).
What are the differences between security groups in a VPC and network ACLs in a VPC?
What is the difference between stateful and stateless filtering?
Stateful filtering tracks the origin of a request and can automatically allow the reply to the request to be returned to the originating computer. For example, a stateful filter that allows inbound traffic to TCP port 80 on a webserver will allow the return traffic, usually on a high numbered port (e.g., destination TCP port 63, 912) to pass through the stateful filter between the client and the webserver. The filtering device maintains a state table that tracks the origin and destination port numbers and IP addresses. Only one rule is required on the filtering device: Allow traffic inbound to the web server on TCP port 80.
Stateless filtering, on the other hand, only examines the source or destination IP address and the destination port, ignoring whether the traffic is a new request or a reply to a request. In the above example, two rules would need to be implemented on the filtering device: one rule to allow traffic inbound to the web server on TCP port 80, and another rule to allow outbound traffic from the webserver (TCP port range 49, 152 through 65, 535).
Can Amazon EC2 instances within a VPC communicate with Amazon EC2 instances not within a VPC?
Can Amazon EC2 instances within a VPC in one region communicate with Amazon EC2 instances within a VPC in another region?
Can Amazon EC2 instances within a VPC communicate with Amazon S3?
Can I monitor the network traffic in my VPC?
What is Amazon VPC flow logs?
VPC flow logs is a feature that enables you to capture information about the IP traffic going to and from network interfaces in your VPC. Flow logs data can be published to either Amazon CloudWatch Logs or Amazon S3. You can monitor your VPC flow logs to gain operational visibility about your network dependencies and traffic patterns, detect anomalies and prevent data leakage, or troubleshoot network connectivity and configuration issues. The enriched metadata in flow logs help you gain additional insights about who initiated your TCP connections, and the actual packet-level source and destination for traffic flowing through intermediate layers such as the NAT Gateway. You can also archive your flow logs to meet compliance requirements. To learn more about Amazon VPC flow logs, please refer to the documentation.
How can I use VPC flow logs?
Do VPC flow logs support AWS Transit Gateway?
Yes, you can create VPC flow log for a Transit Gateway or for an individual Transit Gateway attachment. With this feature Transit Gateway can export detailed information such as source/destination IPs, ports, protocol, traffic counters, timestamps and various metadata for network flows traversing via the Transit Gateway. To learn more about Amazon VPC flow logs support for Transit Gateway, please refer to the documentation.
Does using Flow Logs impact my network latency or performance?
How much VPC flow logs cost?
Data ingestion and archival charges for vended logs apply when you publish flow logs to CloudWatch Logs or to Amazon S3. For more information and examples, see Amazon CloudWatch Pricing. You can also track charges from publishing flow logs using cost allocation tags.
VPC Traffic Mirroring
What is Amazon VPC traffic mirroring?
Which resources can be monitored with Amazon VPC traffic mirroring ?
Traffic mirroring supports network packet captures at the Elastic Network Interface (ENI) level for EC2 instances. Refer to the Traffic Mirroring documentation for the EC2 instances that support Amazon VPC Traffic Mirroring.
What type of appliances are supported with Amazon VPC traffic mirroring?
How is Amazon VPC traffic mirroring different from Amazon VPC flow logs?
Amazon VPC flow logs allow customers to collect, store, and analyze network flow logs. The information captured in flow logs includes information about allowed and denied traffic, source and destination IP addresses, ports, protocol number, packet and byte counts, and an action (accept or reject). You can use this feature to troubleshoot connectivity and security issues and to make sure that the network access rules are working as expected.
Amazon VPC traffic mirroring, provides deeper insight into network traffic by allowing you to analyze actual traffic content, including payload, and is targeted for use-cases when you need to analyze the actual packets to determine the root cause a performance issue, reverse-engineer a sophisticated network attack, or detect and stop insider abuse or compromised workloads.
Amazon VPC and EC2
Within which Amazon EC2 region(s) is Amazon VPC available?
Amazon VPC is currently available in multiple Availability Zones in all Amazon EC2 regions.
Can a VPC span multiple Availability Zones?
Can a subnet span Availability Zones?
How do I specify which Availability Zone my Amazon EC2 instances are launched in?
How do I determine which Availability Zone my subnets are located in?
Am I charged for network bandwidth between instances in different subnets?
When I call DescribeInstances(), do I see all of my Amazon EC2 instances, including those in EC2-Classic and EC2-VPC?
When I call DescribeVolumes(), do I see all of my Amazon EBS volumes, including those in EC2-Classic and EC2-VPC?
How many Amazon EC2 instances can I use within a VPC?
For instances that require IPv4 addressing, you can run any number of Amazon EC2 instances within a VPC, so long as your VPC is appropriately sized to have an IPv4 address assigned to each instance. You are initially limited to launching 20 Amazon EC2 instances at any one time and a maximum VPC size of /16 (65,536 IPs). If you would like to increase these limits, please complete the following form. For IPv6 only instances, the VPC size of /56 provides you the ability to launch virtually unlimited number of Amazon EC2 instances.
Can I use my existing AMIs in Amazon VPC?
You can use AMIs in Amazon VPC that are registered within the same region as your VPC. For example, you can use AMIs registered in us-east-1 with a VPC in us-east-1. More information is available in the Amazon EC2 Region and Availability Zone FAQ.
Can I use my existing Amazon EBS snapshots?
Yes, you may use Amazon EBS snapshots if they are located in the same region as your VPC. More details are available in the Amazon EC2 Region and Availability Zone FAQ.
Can I boot an Amazon EC2 instance from an Amazon EBS volume within Amazon VPC?
Can I employ Amazon CloudWatch within Amazon VPC?
Can I employ Auto Scaling within Amazon VPC?
Can I launch Amazon EC2 Cluster Instances in a VPC?
What are instance hostnames?
Can I change the instance hostname of my Amazon EC2 instance?
Can I use the instance hostnames as DNS hostnames?
Default VPCs
What is a default VPC?
What are the benefits of a default VPC?
What accounts are enabled for default VPC?
If your AWS account was created after March 18, 2013 your account may be able to launch resources in a default VPC. See this Forum Announcement to determine which regions have been enabled for the default VPC feature set. Also, accounts created prior to the listed dates may utilize default VPCs in any default VPC enabled region in which you’ve not previously launched EC2 instances or provisioned Amazon Elastic Load Balancing, Amazon RDS, Amazon ElastiCache, or Amazon Redshift resources.
Will I need to know anything about Amazon VPC in order to use a default VPC?
What are the differences between instances launched in EC2-Classic and EC2-VPC?
See Differences between EC2-Classic and EC2-VPC in the EC2 User Guide.
Do I need to have a VPN connection to use a default VPC?
Can I create other VPCs and use them in addition to my default VPC?
Can I create additional subnets in my default VPC, such as private subnets?
How many default VPCs can I have?
How many default subnets are in a default VPC?
Can I specify which VPC is my default VPC?
Can I specify which subnets are my default subnets?
Can I delete a default VPC?
Can I delete a default subnet?
I have an existing EC2-Classic account. Can I get a default VPC?
I really want a default VPC for my existing EC2 account. Is that possible?
Yes, however, we can only enable an existing account for a default VPC if you have no EC2-Classic resources for that account in that region. Additionally, you must terminate all non-VPC provisioned Elastic Load Balancers, Amazon RDS, Amazon ElastiCache, and Amazon Redshift resources in that region. After your account has been configured for a default VPC, all future resource launches, including instances launched via Auto Scaling, will be placed in your default VPC. To request your existing account be setup with a default VPC, please go to Account and Billing -> Service: Account -> Category: Convert EC2 Classic to VPC and raise a request. We will review your request, your existing AWS services and EC2-Classic presence and guide you through the next steps.
How are IAM accounts impacted by default VPC?
EC2 Classic
What is EC2-Classic?
What’s changing?
How is my account impacted by the retirement of EC2-Classic?
You are affected by this change only if you have EC2-Classic enabled on your account in any of the AWS regions. You can use the console or the describe-account-attributes command to check whether you have EC2-Classic enabled for an AWS region; please refer to this document for more details.
If you do not have any active AWS resources running on EC2-Classic in any region, we request you to turn off EC2-Classic from your account for that region. Turning off EC2-Classic in a region allows you to launch Default VPC there. To do so go to the AWS Support Center at console.aws.amazon.com/support, choose “Create case” and then “Account and billing support”, for “Type” choose “Account”, for “Category” choose “Convert EC2 Classic to VPC”, fill in the other details as required, and choose “Submit”.
We will automatically turn off EC2-Classic from your account on October 30, 2021 for any AWS region where you have not had any AWS resources (EC2 Instances, Amazon Relational Database, AWS Elastic Beanstalk, Amazon Redshift, AWS Data Pipeline, Amazon EMR, AWS OpsWorks) on EC2-Classic since January 1, 2021.
On the other hand, if you have AWS resources running on EC2-Classic, we request you to plan their migration to Amazon VPC as soon as possible. You will not be able to launch any instances or AWS services on EC2-Classic platform beyond August 15, 2022. Any workloads or services in running state will gradually loose access to all AWS services on EC2-Classic as we retire them beginning August 16, 2022.
You can find the migration guides for your AWS resources in subsequent question.
What are the benefits of moving from EC2-Classic to Amazon VPC?
Amazon VPC gives you complete control over your virtual network environment on AWS, logically isolated to your AWS account. In the EC2-Classic environment, your workloads are sharing a single flat network with other customers. The Amazon VPC environment offers many other advantages over the EC2-Classic environment including the ability to select your own IP address space, public and private subnet configuration, and management of route tables and network gateways. All services and instances currently available in EC2-Classic have comparable services available in the Amazon VPC environment. Amazon VPC also offers a much wider and latest generation of instances than EC2-Classic. Further information about Amazon VPC is available in this link.
How do I migrate from EC2-Classic to VPC?
To help you migrate your resources, we have published playbooks and built solutions that you will find below. To migrate, you must recreate your EC2-Classic resources in your VPC. First, you can use this script to identify all resources provisioned in EC2-Classic across all regions in an account. You can then use the migration guide for the relevant AWS resources from below:
- Instances and Security Groups
- Classic Load Balancer
- Amazon Relational Database Service
- AWS Elastic Beanstalk
- Amazon Redshift for migration of DC1 Clusters and for other node types
- AWS Data Pipeline
- Amazon EMR
- AWS OpsWorks
Besides the above migration guides, we are also offering a highly automated lift-and-shift (rehost) solution, AWS Application Migration Service (AWS MGN), that simplifies, expedites, and reduces the cost of migrating applications. You can find relevant resources about AWS MGN here:
- Getting started with AWS Application Migration Service
- AWS Application Migration Service on-demand technical training
- Documentation to dive deep into AWS Application Migration Service Features and Functionalities
- Service Architecture and Network Architecture video
For simple individual EC2 instance migrations from EC2-Classic to VPC, besides AWS MGN or the Instances Migration Guide, you can also use the “AWSSupport-MigrateEC2 ClassicToVPC“ runbook from ”AWS Systems Manager > Automation“. This runbooks automates the steps that are required to migrate an instance from EC2-Classic to VPC by creating an AMI of the instance in EC2-Classic, creating a new instance from the AMI in VPC, and optionally terminating the EC2-Classic instance.
If you have any questions or concerns, you can contact the AWS Support Team via AWS Premium Support.
Please Note: If you have AWS resources running on EC2-Classic in multiple AWS regions, we recommend that you turn off EC2-Classic for each of those regions as soon as you have migrated all your resources to VPC in them.
What are the important dates I should be aware of?
We will take the following two actions ahead of the August 15, 2022 retirement date:
- We will stop issuing 3-year reserved instances (RI) and 1-year RI for the EC2-Classic environment on Oct 30, 2021. RIs already in place on the EC2-Classic environment will not be affected at this time. RIs that are set to expire after 8/15/2022 will need to be modified to use the Amazon VPC environment for the remaining period of the lease. For information on how to modify your RIs, please visit our document.
- On Aug 15, 2022, we will no longer allow the creation of new instances (Spot or on-demand) or other AWS services in the EC2-Classic environment. Any workloads or services in running state will gradually loose access to all AWS services on EC2-Classic as we retire them beginning August 16, 2022.
Elastic Network Interfaces
Can I attach or detach one or more network interfaces to an EC2 instance while it’s running?
Can I attach a network interface in one Availability Zone to an instance in another Availability Zone?
Can I attach a network interface in one VPC to an instance in another VPC?
Network interfaces can only be attached to instances in VPCs in the same account.
Can I use Elastic Network Interfaces as a way to host multiple websites requiring separate IP addresses on a single instance?
Can I detach the primary interface (eth0) on my EC2 instance?
Peering Connections
Can I create a peering connection to a VPC in a different region?
Can I peer my VPC with a VPC belonging to another AWS account?
How much do VPC peering connections cost?
There is no charge for creating VPC peering connections, however, data transfer across peering connections is charged. See the Data Transfer section of the EC2 Pricing page for data transfer rates.
Do I need an Internet Gateway to use peering connections?
Is VPC peering traffic within the region encrypted?
If I delete my side of a peering connection, will the other side still have access to my VPC?
If I peer VPC A to VPC B and I peer VPC B to VPC C, does that mean VPCs A and C are peered?
What if my peering connection goes down?
AWS uses the existing infrastructure of a VPC to create a VPC peering connection; it is neither a gateway nor a VPN connection, and does not rely on a separate piece of physical hardware. There is no single point of failure for communication or a bandwidth bottleneck.
Inter-Region VPC Peering operates on the same horizontally scaled, redundant, and highly available technology that powers VPC today. Inter-Region VPC Peering traffic goes over the AWS backbone that has in-built redundancy and dynamic bandwidth allocation. There is no single point of failure for communication.
If an Inter-Region peering connection does go down, the traffic will not be routed over the internet.
Are there any bandwidth limitations for peering connections?
Bandwidth between instances in peered VPCs is no different than bandwidth between instances in the same VPC. Note: A placement group can span peered VPCs; however, you will not get full-bisection bandwidth between instances in peered VPCs. Read more about Placement Groups.
Is Inter-Region VPC Peering traffic encrypted?
How do DNS translations work with Inter-Region VPC Peering?
Can I reference security groups across an Inter-Region VPC Peering connection?
Does Inter-Region VPC Peering support IPv6?
Can Inter-Region VPC Peering be used with EC2-Classic Link?
ClassicLink
What is ClassicLink?
What does ClassicLink cost?
There is no additional charge for using ClassicLink; however, existing cross Availability Zone data transfer charges will apply. For more information, consult the EC2 pricing page.
How do I use ClassicLink?
Does the EC2-Classic instance become a member of the VPC?
Can I use EC2 public DNS hostnames from my EC2-Classic and EC2-VPC instances to address each other, in order to communicate using private IP?
Are there any VPCs for which I cannot enable ClassicLink?
Can traffic from an EC2-Classic instance travel through the Amazon VPC and egress through the Internet gateway, virtual private gateway, or to peered VPCs?
Does ClassicLink affect the access control between the EC2-Classic instance, and other instances that are in the EC2-Classic platform?
Will ClassicLink settings on my EC2-Classic instance persist through stop/start cycles?
Does ClassicLink allow EC2-Classic Security Group rules to reference VPC Security Groups, or vice versa?
AWS PrivateLink
What is AWS PrivateLink?
How can I use AWS PrivateLink?
As a service user, you will need to create interface type VPC endpoints for services that are powered by PrivateLink. These service endpoints will appear as Elastic Network Interfaces (ENIs) with private IPs in your VPCs. Once these endpoints are created, any traffic destined to these IPs will get privately routed to the corresponding AWS services.
As a service owner, you can onboard your service to AWS PrivateLink by establishing a Network Load Balancer (NLB) to front your service and create a PrivateLink service to register with the NLB. Your customers will be able to establish endpoints within their VPC to connect to your service after you whitelisted their accounts and IAM roles.
Which services are currently available on AWS PrivateLink?
The following AWS services support this feature: Amazon Elastic Compute Cloud (EC2), Elastic Load Balancing (ELB), Kinesis Streams, Service Catalog, EC2 Systems Manager, Amazon SNS, and AWS DataSync. Many SaaS solutions support this feature as well. Please visit AWS Marketplace for more SaaS products powered by AWS PrivateLink.
Can I privately access services powered by AWS PrivateLink over AWS Direct Connect?
Additional Questions
Can I use the AWS Management Console to control and manage Amazon VPC?
How many VPCs, subnets, Elastic IP addresses, and internet gateways can I create?
See the Amazon VPC user guide for information on VPC limits.
Can I obtain AWS support with Amazon VPC?
Yes. Click here for more information on AWS support.
Can I use ElasticFox with Amazon VPC?
ElasticFox is no longer officially supported for managing your Amazon VPC. Amazon VPC support is available via the AWS APIs, command line tools, and the AWS Management Console, as well as a variety of third-party utilities.