Difference between revisions of "Architecture and design principles"

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*2. Design Principles
 
*2. Design Principles
 
*3. Architectural Patterns   
 
*3. Architectural Patterns   
*4. Secure Mobile Development Guidelines
+
*4. Secure Mobile Development/Coding Guidelines
  
 
==1. Top Risks/Vulnerabilities==
 
==1. Top Risks/Vulnerabilities==

Revision as of 10:48, 14 May 2011

The following is a merge of ENISA, OWASP and Veracode top 10. Note that there is a mixture of threats and vulnerabilities here - we should decide whether to use risks (threats with impact on assets which occur with probability) and vulnerabilities (system flaws which increase the probability of a threat occurring). I have cut those risks/vulnerabilities which cannot be addressed in any way by developers. We should decide whether to include recommendations in the style of "code of practice"- e.g. activity monitoring should only be used in circumstances xyz... (feel free to restructure)

My recommendation would be to separate out the design principles from the Risks/Vulnerabilities.

Mobile Security

  • 1. Threats, Risks and Vulnerabilities
  • 2. Design Principles
  • 3. Architectural Patterns
  • 4. Secure Mobile Development/Coding Guidelines

1. Top Risks/Vulnerabilities

  • Unsafe sensitive data storage
    • Consider the whole data lifecycle in writing your application (collection over the wire, temporary storage, caching, backup, deletion etc...)
    • Automatically delete data which is not required (how to know when it's not required?).
    • Securely delete data using standard shredding techniques.
    • Store a minimum of data on the client side device.
    • Securely wipe removable media.
    • Be aware of caches and temporary storage as a possible leakage channel.
    • Implement key and password storage best practice.
    • In the design phase analyse what data needs to be protected most and what doesn't and apply controls at appropriate places.
  • Unintentional disclosure of data: The smartphone user unintentionally discloses data on the smartphone.
    • Apply the principle of minimal disclosure - only collect and disclose data which is required for the application (how to know what this is?)
    • Use non-persistent identifiers wherever possible - e.g. do not use the EMEI number as an identifier unless there is a good reason to do so.
    • Apply techniques for the detection of covert channels - e.g. covert flow trees to discover information which may flow through shared resources such as file systems, resource use etc...
    • Carefully control what data which is stored in public stores such as address book, media gallery etc... including metadata.
    • Obtain user explicit user consent according to best practice (see implementation guidelines) for collection of personal data.
  • Attacks on decommissioned smartphones: The smartphone is decommissioned improperly allowing an attacker access to the data on the device.
    • See first risk
    • Provide a convenient way of resetting access credentials which does not require the device (consider an automated timeout on access credentials).
    • Consider using SIM card as default storage for small but sensitive data such as keys.
  • Phishing attacks: An attacker collects user credentials (such as passwords and credit card numbers) by means of fake apps or (SMS, email) messages that seem genuine.
    • Provide appropriate trust cues for linking to unknown third party applications.
    • Do not train users to follow untrusted paths.
    • Provide a reporting channel for phishing from apps (e.g. if you are a browser plugin developer).
  • Spyware: Spyware covers untargeted collection of personal information as opposed to targeted surveillance.
  • Network Spoofing Attacks: An attacker deploys a rogue network access point (WiFi or GSM) and users connect to it. The attacker subsequently intercepts (or tampers with) the user communication to carry out further attacks such as phishing.
    • Use the GSM encryption-on indicator to detect and signal downgrade attacks.
  • Surveillance attacks: An attacker keeps a specific user under surveillance through the target user’s smartphone.
    • Don't use 3rd party code without carefully verifying
  • Diallerware attacks: An attacker steals money from the user by means of malware that makes hidden use of premium SMS services or numbers.
  • Financial malware attacks The smartphone is infected with malware specifically designed for stealing credit card numbers, online banking credentials or subverting online banking or ecommerce transactions.
  • Network congestion Network resource overload due to smartphone usage leading to network unavailability for the end-user.
    • Note that this relies a lot on smart developers because a lot of the congestion is due to signalling overload. Could we make some recommendations on detecting idle/focus so that the app knows when it really needs to be connected to the network?
  • Unauthorized network connectivity (exfiltration or command & control)
  • UI Impersonation
  • System modification (rootkit, APN proxy config)
    • Validate updates and input data from untrusted sources.
  • Logic or Time bomb (including runtime interpreter)
    • Define clearly who should be responsible for updating the application Extensions or plugins e.g. Angry birds Add-ons and installations
  • Unsafe sensitive data transmission
  • Hardcoded password/keys
  • Lack of data protection in transit
    • Don't allow SSL downgrade.
    • Don't trust network infrastructure
    • See Network Spoofing.
  • Client-side injection
  • Client-side DOS
  • Malicious third-party code
    • Follow security best practice for implementation of runtime interpreters (be careful when implementing anything which turns user input into executable code).
  • Client-side buffer overflow
  • Failure to properly handle inbound SMS messages
    • Remove test code from software
  • Failure to properly handle outbound SMS messages
  • Failure to disable insecure platform features in application (caching of keystrokes, screen data)
    • Least privilege. Be aware of privileges granted by default by API's and disable them.