2. WHY TALK ABOUT SECURITY?
• Everyone knows you filter input and escape output
• Everyone knows you use https or tls or some other magic cryptography
• Everyone knows you use prepared statements
• Everyone knows you apply security patches to your system
• Everyone knows as long as you’re PCI compliant you’re safe
• Everyone knows a firewall appliance blocks everything
• Everyone is stupid
5. LIES AND DAMN STATISTICS
• 91% increase in targeted attacks campaigns in 2013
• 62% increase in the number of breaches in 2013
• Over 552M identities were exposed via breaches in 2013
• 23 zero-day vulnerabilities discovered
• 38% of mobile users have experienced mobile cybercrime in past 12 months
• Spam volume dropped to 66% of all email traffic
• 1 in 392 emails contain a phishing attacks
• Web-based attacks are up 23%
• 1 in 8 legitimate websites have a critical vulnerability
Symantec 2014 Internet Security Threat Report, Volume 19
7. “
”
THE STATE OF BEING PROTECTED OR SAFE FROM
HARM
THINGS DONE TO MAKE PEOPLE OR PLACES SAFE
Definition of Security from merriam-webster
Both a state and a process
8. SECURITY !== …
• A feature at the end of the project
• Meeting some compliance checklist
• A single person or team’s job
• Hiring someone to do it afterward
• A tool or appliance
• A boolean
9. SECURITY === …
• An ongoing process
• A paranoid way of thinking
• The acknowledgment that you will be hacked at some point
• Habit
• Everybody’s problem
10. LAYERS OF SECURITY
• Physical
• System
• Network
• Application
• User System
• Browser
11. DEVELOPERS DEVELOPERS DEVELOPERS
• Application Security
• Knowing your threats.
• Securing the network, host and application.
• Incorporating security into your software development process
12. IT’S ALL ABOUT THE DATA
Ownership and Potential for Abuse
13. A WORD OF WARNING
Checklists do not solve all problems, but they do help those with swiss-
cheese memories (like me)
14. STEP 1: KNOW YOUR DATA
• What are you storing?
• Who does it come from?
• Who owns it?
• Does it need to have restricted access?
• Is it confidential?
• Does it need to be archived?
• Do we NEED this data?
15. STEP 2: KNOW YOUR USERS
• Are you attractive for hactivists?
• Are you attractive for ransom?
• Are you likely to be popular enough to be ddos’d?
• Will your competitors pay to have you hacked?
• Did you piss off an old dev or sysadmin who might be gunning for you?
• Do you have a lot of soccer moms?
• Do you have a lot of bored geeks?
16. STEP 3: KNOW YOUR LAWS
• http://www.csoonline.com/article/2126072/compliance/the-security-laws--
regulations-and-guidelines-directory.html
• There are a lot!!
• Basically, if you store financial information, medical information, information
about children under 13, or personal information that can be used for
identity theft – you need to do some reading up on laws.
17. STEP 4: MAKE GOOD DECISIONS
• Who has access?
• How will things be protected?
• How are you backing up?
• Do you have disaster plan?
• What happens if you get hacked?
• What happens if you derp? (Humans are so error-prone)
• What level of brokenness can you accept from a third party?
18. STEP 5: WRITE IT ALL DOWN
• Document
• Document
• Document
• Document
• Document
• Document
• Document
• Document …
19. ISN’T THIS KIND OF LIKE RISK
MANAGEMENT STUFF?
• Yes
• No
• Maybe
20. PRACTICE MAKES PERFECT
• Test your data backup and recovery plans
• Test your “you got hacked” plans
• Test your rules for data access
• Test hacking your site – it’s fun!
23. WHY CONTEXT IS IMPORTANT
• Always balance
• Sailor moon forums are not as important as a bank website
• But that’s no reason to screw the basics
• People reuse passwords, you can’t stop them
• But you can’t be responsible for all user stupidity in the world
25. THE PHYSICAL LAYER
• Usually someone else’s problem and decision
• But not always – did you get a say on the hosting provider?
• So do your research
26. THE SYSTEM LAYER
• Often someone else’s problem
• Unless you’re devops
• In which case – do your research
• Wait – in any case do your research
• Update, update, update and FIGHT for updates!!
27. THE NETWORK LAYER
• Learn how to use wireshark
• Learn about network design
• Learn about https and man-in-the-middle
• So when they ask you to talk to a database in another subnet you can tell
them “not without the proper encryption”
28. THE APPLICATION LAYER
• This is your problem
• “Just get it finished, we’ll secure it later” <- stupidest thing ever
• Good habits in coding breed secure code
• How do you create good habits?
29. STEP 1: BECOME PARANOID
• Yes, they are trying to hack you
• No, it doesn’t matter how small you are
• All users are evil… cats
• (or stupid cats, same result)
31. OWASP TOP TEN
• Injection
• Broken Authentication and Session Management
• Cross-Site Scripting (XSS)
• Insecure Direct Object References
• Security Misconfiguration
• Sensitive Data Exposure
• Missing Function Level Access Control
• Cross-Site Request Forgery (CSRF)
• Using Components with Known Vulnerabilities
• Unvalidated Redirects and Forwards
32. INPUT VALIDATION
• Validate Input, Escape Output
• OWASP: Injection, XSS, Unvalidated Redirects and Forwards
• Make sure you get what you expected, always
• Do not assume anything
• Always be aware of context
33. BEST PRACTICES
• Force escaping – echo in templates is #1 place to find this
• Use a good library (see frameworks or packagist)
• Use prepared statements
• Remember other places sql can be injected! (Like statements, etc)
• NoSQL is vulnerable too! (hint: mongodb and $in)
• Force validation
• do not let people touch superglobals or other user data “raw”
34. AUTHENTICATION
• Proper session handling and password management
• OWASP: Broken Authentication and Session Management, CSRF
• Sessions are hard, learn how to do them right
• HTTP(s) is stateless, remember that!!
• Remember outsourcing to third parties brings additional issues
35. BEST PRACTICES
• Use a good session library
• Takes care of session fixation
• Takes care of timeouts
• Encrypted connections
• Http only cookies
• Session regeneration
• Use php’s password hashing tools or the library to replace for old versions
• DO NOT ROLL YOUR OWN
• Protect against brute force attacks
36. AUTHORIZATION
• What is your allowed access?
• OWASP: Insecure Direct Object References, Missing Function Level Access
Control
• Make sure you are locking down all paths to restricted data
• Whitelist instead of blacklisting access
37. BEST PRACTICES
• Use a library
• Test your code, both by hand and with testing frameworks
• Audit access to sensitive information
• Audit logins
• Make sure authentication is correct! Bad Authentication == bad
authorization!
38. CONFIGURATION MANAGEMENT,
SENSITIVE INFORMATION
SYSTEM SECURITY
• Access to information or system information
• OWASP: Security Misconfiguration, Sensitive Data Exposure
• Make sure you don’t let people see everything about your system and setup
39. BEST PRACTICES
• Automate all the things!
• Use “environment” setups for settings, but ALWAYS DEFAULT TO PRODUCTION
• Turn off PHP information, apache information, phpinfo()
• Turn off PHP errors
• Make system updates a part of the process!
40. CRYPTOGRAPHY
• Using the wrong tool for the job
• OWASP: Security Misconfiguration, Using Components with Known
Vulnerabilities
• Cryptography is hard
• Are you a math major with specialization in cryptography?
41. BEST PRACTICES
• Do not roll your own
• Use PHP libraries
• Use PHP password tools
• Keep those libraries up to date!
• Heartbleed
42. PARAMETER MANIPULATION
• Evil Cat Users will muck with anything they can
• Headers
• Query params
• Post data
• Cookies
• OWASP: All of them
• Be prepared for everything
43. BEST PRACTICES
• Validate everything explicitly
• Whitelist, don’t blacklist
• Do not ever sanitize, instead escape output
44. EXCEPTION/ERROR MANAGEMENT
• Showing sensitive information or exploiting errors to tie up resources
• OWASP: Sensitive Data Exposure
• Make sure the USER doesn’t see the problem, that’s for the developer and
sysadmin
46. AUDITING AND LOGGING
• Do it
• Test it
• People will try REALLY hard to bypass it, so watch for patterns!
47. THE USER SYSTEM LAYER
• Encrypt anything you store on a user’s system
• Don’t trust anything from a user’s system
• Cross your fingers
48. THE BROWSER LAYER
• Use a good library for cross-browser abstraction
• Make sure to be aware of browser bugs and exploits
• Use the flags browser provide
• Remember that xss and all the other attacks occur in javascript too!
• http://www.slideshare.net/michael_coates/enabling-browser-security-in-
web-applications <- read up on mitigation
49. HOW CAN YOU HELP?
• Wish #1 – an open source PHP penetration test tool
• Wish #2 – an open source PHP static analysis tool
53. GO FORTH AND CONTACT
• auroraeosrose@gmail.com
• http://emsmith.net
• http://omniti.com/seeds/security-is-not-a-feature-its-a-state-of-mind
• https://joind.in/10619
Notes de l'éditeur
So this talk actually started because I noticed fewer security talks, both for beginners and advanced users, popping up at conferences.
I pitch on average one security talk to every conference so I know it can’t possibly be for that reason
However this is the most broad I’ve spoken about and might get a little ranty
Why I like security – my very first conference was at php|tek in 2007 where Chris Schiflett spoke on security
In fact, he opened up a website and hacked amazon
That really opened my eyes to the fact that the things you’re doing can be used in bad ways
I believe these are some of the reasons you DON’T see as many security talks as you used to
Part of it has to do with the PHP community growing up – and forgetting that for every advanced dev there are still 2 jr. devs
Part of it is the boredom factor of having the same kinds of talks year after year… and yet people still need that same information every time
Part of it is the advent of people selling security, as though the magic bullet fixes all the things
Part of it is over reliance on other people’s solutions to security without a good solid look at what they’re peddling
However, forgetting about security and failing to realize that security can totally screw you over leads not only to huge data breaches, but small ones as well
Even php.net was hacked this year
And often the attack vector is not what you think – there are literally thousands of ways to be up a creek without a paddle, hundreds of ways that things can totally break
IN addition to people trying to hack systems for glory and money and anything else, remember there are also governments undermining the worlds
And so much of what you did is built by volunteers
Best thing you can really do? Learn some C and help out with your stack
These stats should scare you – the amount of attacks going on right now is unprecented – for example name 3 big attacks from the last year
Who remembers how they occurred?
Mention – heartbleed (simple bounds check missing), target (guy stole the hvac password who had COMPLETE ACCESS to the system) adobe – the list goes on
“is our site secure”
“ok it’s time to add security”
“let’s run that through the analyzer to make it secure”
What – like toggle the security flag?
you can never protect anything perfectly all the time. So the question should be, "Is our site secure enough?"
So there are multiple definitions of security – we’re going to take two
One defines security as a state – a Boolean one or zero – but as you know the only things that are really 1s and 0s in computing are the bits flowing in the machine
So that’s a horrible thing to view as security
So the other thing is to view security as a process
But like a process, security is never done
So there is no “we are secure”
The minute you allow your brain to see security as Boolean on or off, you fail
Your site will be hacked, and you will be an unhappy camper – or your boss will be and you’ll be fired
Any time you let someone else “worry about security” you’re also screwed
Don’t let people sell you security!! They’re going to waste your money!
So if all these things are NOT security – what IS security?
Evil monkey’s talk –
Imagine all your users are evil cats – because I’ve been told evil monkeys is “speciest”
Wait– these look pretty damn similar don’t’ they?
The OWASP Top Ten represents a broad consensus about what the most critical web application security flaws are. Project members include a variety of security experts from around the world who have shared their expertise to produce this list.
We urge all companies to adopt this awareness document within their organization and start the process of ensuring that their web applications do not contain these flaws. Adopting the OWASP Top Ten is perhaps the most effective first step towards changing the software development culture within your organization into one that produces secure code
Open Web Application Security Project
Buffer overflow; cross-site scripting; SQL injection; canonicalization
However I’m going to say don’t “filter” naything – that’s a poorly overloaded word and attempting to “sanitize” or “clean” data is always fail
Wrap echo up in something so you’re sure that data coming out is always sanitized
ZF2 and the autoescape in templates issue (and my take on the whole thing)
Be aware of things like mongodb! Theres a page on injection security at php.net AND at the mongodb site – READ AND LEARN
Network eavesdropping ; Brute force attack; dictionary attacks; cookie replay; credential theft
Session hijacking; session replay; man in the middle
Credentials can be guessed or overwritten through weak account management functions (e.g., account creation, change password, recover password, weak session IDs).
Session IDs are exposed in the URL (e.g., URL rewriting).
Session IDs are vulnerable to session fixation attacks.
Session IDs don’t timeout, or user sessions or authentication tokens, particularly single sign-on (SSO) tokens, aren’t properly invalidated during logout.
Session IDs aren’t rotated after successful login.
Passwords, session IDs, and other credentials are sent over unencrypted connections. See A6.
Elevation of privilege; disclosure of confidential data; data tampering; luring attacks
Unauthorized access to administration interfaces; unauthorized access to configuration stores; retrieval of clear text configuration data; lack of individual accountability; over-privileged process and service accounts
Access sensitive data in storage; network eavesdropping; data tampering