OPS345 Lab 2

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THIS PAGE IS A DRAFT, NOT A REAL COURSE PAGE

The current schedule for OPS345 is here: OPS335_Weekly_Schedule

Basic AWS networking components

The fundamentals you've learned about networking in your previous courses apply to AWS as well. The only difference from what you may be used to is that most of it is virtual in AWS. There are obviously still wires and cables and switches and routers, but their infrastructure has a layer of software on top to allow it to be more dynamic to deploy, configure, and use.

This diagram is a very simple overview of the parts of AWS networking you're going to use in this course:

AWSVPCComponents.png

Security

You're working on the real inetnet now! In many previous courses you were working in VMs on your virtual machines, on private networks, where attackers couldn't get to your servers even if they were super-dedicated and qualified. That is not the case in this course. Now an attacker doesn't even need to know who you are and they can take over your server.

The VMs and networks you create in this course are likely to be accessible by anyone on the planet. That means you have to think of security.

If you imagine that noone will attack your servers because you have nothing worth attacking: you're wrong. Every CPU connected to the internet is worth something. A most common scenario is an attacker (or organisation) finds a great number of vulnerable servers online, and make those part of a bot net. Then they will use the bot net they created (effectively a supercomputer) to launch attacks on targets that matter to them. They won't spend the time to attack your servers individually, but they have automation that exploits the most common security holes that lazy administrators leave open.

This is not a security course, but you should be able to understand that different parts of your system are susceptible to different types of attacks. The more components you configure with security in mind: the less likely you are to become a victim of an attack.

VPC

The general idea of cloud is that your servers and services are not physically located on the premises of your business, but somewhere else. Typically wherever you can rent cheaper computers. Cloud providers have the advantage of economies of scale and the great flexibility of resource assignment. When you're not using some component: someone else will pay to use it. So hardware isn't sitting idle getting old and wasting electricity.

VPC stands for Virtual Private Cloud. That means the resources you're using are not dedicated to you, but they are separated from other users by software configuration. For all but the most high-value targets that's secure enough.

Inside your private cloud you can have networks, file storage, compute (processing VMs), databases, etc.

Access to your resources from the outside is available through an Internet Gateway, which does port forwarding. It is used even if your VMs have public IP addresses. That is done in order to simplify securing your resources.

If your software uses any resources from outside your AWS VPC: those will also connect via the Internet Gateway.

Subnets

Your VPC can have any number of private subnets, as long as they fit in the allocated private subnet ranges. In this course we'll use a part of the 10.0.0.0/16 subnet to make two smaller ones. Your VMs will be in 10.3.45.0/25 (not 24).

Your machines on your subnets can automatically connect to each other. They do not have access to the internet automatically.

Public IPs

AWS automatically assigns a public IP to oyur VMs from its pool of addresses. These are dynamic. Every time you shut down your VM and turn it back on: it will get a new public IP.

Note if you look inside a VM: the public IP isn't actually configured as the IP on that interface. The IP is assigned to your VPC, and incoming connections to it are port-forwarded to the VM which you assigned the IP to. This is very different from what you saw in your previous courses.

AWSIPs.png

You may have configured port forwarding on your router at home at some point to enable some game or service which requires an open port on your public IP address. This is the same idea. On AWS this port forwarding is done via the Internet Gateway.

Static IPs

Private IPs don't cost any money, so they are static by default. AWS has a DHCP system where you can reserve a static address from your private pool for your VM. If you do: the VM will automatically get that static IP from an AWS-configured DHCP server. If you don't: the VM will get an unused IP from the same subnet, and will continue using that dynamically-assigned address even after it reboots.

You can also assign a static public IP to one of your VMs. You could use your own but since you don't own any: your only option here is to use an Elastic IP. This comes from the same pool of addresses as the dynamic AWS public IPs.

Interestingly Elastic IPs are free when you use them, but cost money if you don't use them. That's because there's a limited pool of public IPv4 addresses, and once you request one of these addresses: noone else can use it. So you better use it, or pay for keeping it from other users. Since our VMs are going to be shut down most of the time: this is one of the costs that will come out of your 100$ credit.

Your Network Setup

You need lots of practice to get used to these concepts. It's not enough to just read about them.

  • In the AWS Management Console you've looked at EC2 so far. Now open the VPC Management Console. As most things in AWS: this interface is overwhelming at first. Once you go through it several times you'll get more comfortable with it.

VPC

  • Click "Your VPCs". Note that there is a default one there which was created automatically with your account. Click Create VPC.
    • Set the name to vpc-ops345
    • Set the CIDR block to 10.3.45.0/24 (larger than the subnet you will create later)
    • No IPv6
AWSvpc-ops345.png

Subnet

  • Now create a subnet in your new VPC: click on Subnets (note all the default ones, make sure you dont forget to name yours or else you'll quickly get confused). Click Create subnet.
    • Pick vpc-ops345
    • Set the name to subnet-ops345
    • Availability zone must be us-east-1a, in your environment that's a limitation that comes with using AWS Academy.
    • Set the CIDR block to 10.3.45.0/25 (to fit inside the VPC but leave room for other subnets later)
    • Under "Actions" click "Edit subnet settings" and check "Enable auto-assign public IPv4 address". Don't forget to click Save.
AWSsubnet-ops345.png

Internet gateway

The machines in your private subnet won't have internet access, even if they have public IP addresses. An internet gateway is required.

  • Click Internet Gateways, then Create internet gateway
    • Set the name to ops345-internet-gateway.
    • Attach it to your new VPC.
    • AWSAttachInternetGateway.png

Route table

Finally: create a route table to connect your subnet to your VPC's internet gateway. We could modify the existing one, but we'll make a new one instead.

  • Click Route Tables, then Create route table.
    • Name it ops345-route-table
    • Set the VPC to vpc-ops345
    • Add a route for destination 0.0.0.0/0 through ops345-internet-gateway
    • AWSCreateRouteTable.png

Router VM

We'll make a VM named router. It won't do much routing, but it will give us more practice with basics.

Security group

Your network environment is now done, but before you create your next VM: make a security group for it. Just like you did in the previous lab.

  • The Security groups are back in the EC2 Management Console
    • Call it ops345routersg
    • Since a description is required, give it something like "Security group for router instance"
    • It will be in the vpc-ops345 VPC.
    • Only the SSH server port (TCP 22) is to be open for inbound connections, from anywhere in the world.

Create & configure VM

  • Create a new VM (instance) named "router". The process is almost identical to the "ops435-first" VM from the last lab.
    • In your new VPC and subnet
    • With primary IP 10.3.45.10 (first 4 addresses on AWS subnet are not usable)
    • Default storage options
    • With security group ops345routersg
    • Using your existing key ops345-first-key, unless you lost that already.
  • Follow the instructions in lab 1 to set up your user
  • Note that "Auto-assign Public IP" is enabled by default, but don't change it.
  • After router starts: go to "Elastic IPs" and associate a new elastic IP named router_public_ip with the router instance.
    • This is now your static public IP for router. You will use it a lot, so write it down somewhere.
  • Name the network interface router-nic, so when you look at the list of your network interfaces in the future you know at least which this one is. The link to it is in router's Networking tab near the bottom:
AWSNetworkInterfaceLink.png

Firewalls

  • The purpose of a firewall on a server on the internet
  • AWS Security Groups and iptables

iptables setup

  • Install iptables-services, then enable and start the service (same as you did in OPS245).
  • iptables fundamentals
  • Securing services that need to be publicly accessible

Port forwarding SSH

  • Create another VM the same way as "router" but without the elastic IP. Call it www. Name the network interface www-nic and set a secondary private IP to 10.3.45.11
    • We won't set it up as a web server in this lab, we just need something to forward SSH requests to.
  • firewall:
    • iptables diagram source: https://documentation.suse.com/sles/15-SP1/html/SLES-all/cha-security-firewall.html
    • forward incoming tcp port 2211 packets to port 22 on www
      iptables -t nat -A PREROUTING -p tcp --dport 2211 -j DNAT --to 10.3.45.11:22
    • allow forwarding to www (or just remove default reject rule)
      iptables -D FORWARD 1
    • perform ip masquerading
      iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
    • trubleshooting
      iptables -I FORWARD -j LOG
      tail -f /var/log/messages
    • resulting firewall looks like this:
      [root@router ~]# iptables -L -n
      Chain INPUT (policy ACCEPT)
      target     prot opt source               destination         
      ACCEPT     all  --  0.0.0.0/0            0.0.0.0/0            state RELATED,ESTABLISHED
      ACCEPT     icmp --  0.0.0.0/0            0.0.0.0/0           
      ACCEPT     all  --  0.0.0.0/0            0.0.0.0/0           
      ACCEPT     tcp  --  0.0.0.0/0            0.0.0.0/0            state NEW tcp dpt:22
      REJECT     all  --  0.0.0.0/0            0.0.0.0/0            reject-with icmp-host-prohibited
      
      Chain FORWARD (policy ACCEPT)
      target     prot opt source               destination         
      
      Chain OUTPUT (policy ACCEPT)
      target     prot opt source               destination         
      [root@router ~]# 
      [root@router ~]# iptables -L -n -t nat
      Chain PREROUTING (policy ACCEPT)
      target     prot opt source               destination         
      DNAT       tcp  --  0.0.0.0/0            0.0.0.0/0            tcp dpt:2211 to:10.3.45.11:22
      
      Chain INPUT (policy ACCEPT)
      target     prot opt source               destination         
      
      Chain OUTPUT (policy ACCEPT)
      target     prot opt source               destination         
      
      Chain POSTROUTING (policy ACCEPT)
      target     prot opt source               destination         
      MASQUERADE  all  --  0.0.0.0/0            0.0.0.0/0
  • kernel:
    vi /etc/sysctl.conf # add to the end: net.ipv4.ip_forward = 1
    sysctl -p
    cat /proc/sys/net/ipv4/ip_forward
  • test:
    tcpdump -n -i eth0 port 2211
  • aws:
    • allow access to port 2211 in security group
    • disable source/dest check for router in aws console (might not be necessary)
  • Save the iptables rules when it looks like they're working.

~. will break out of locked up ssh session

Private security group

  • Create a new security group "ops345sgprivate" to be used later for all VMs except the router.
  • Add an inbound rule for ssh from ops345sg only