I agree that using cookies is better for web sessions but I absolutely despise those using the boogeyman to shoo people away from stuff they don't like, instead of asking them to use their brains.
> they are not secure.
They are secure if they fit your risk profile, a blanket statement like this is just disinformation.
Necessary qualifier: for browser-based user sessions.
Plenty of good uses for JWTs for service-to-service communication.
edit: I read some of the linked stuff, e.g. https://paragonie.com/blog/2017/03/jwt-json-web-tokens-is-ba... . Please, if JWTs are such a horrifically insecure standard, go ahead and publish your means for hacking AWS STS's AssumeRoleWithWebIdentity , or don't publish and just exploit it by launching cryptominers in every Fortune 500 production AWS account. Let me know when you inevitably succeed, because JWTs are so insecure, right? /sarcasm
> Necessary qualifier: for browser-based user sessions.
> Plenty of good uses for JWTs for service-to-service communication.
This is the sensible conclusion right there. I agree JWTs are the wrong tool for the use case of user sessions in the browser.
To give some more arguments:
All the signature and encryption stuff in JWTs is complex. While common JWT libraries have now mostly got their stuff together, this has not always been the case. There were plenty of libraries accepting the "none" algorithm [1] or allowing attackers to forge tokens by using a public key as a shared secret [2]. This is the direct result of the complexity criticized in the linked blog post.
JWTs also cannot do some stuff you want for user sessions. You can't invalidate them without keeping a revocation list somewhere. But if you have to check an identifier for revocation on every request you could just use an opaque session ID and look that up on every request instead! Sure, you can use short-lived tokens and refresh them all the time, but why bother with that for a typical application that has to keep some state anyway?
All that being said, I wholeheartedly agree that there are use cases in distributed systems and machine-to-machine communication where signed tokens can be useful. Just please don't confuse the two cases.
> While common JWT libraries have now mostly got their stuff together, this has not always been the case. There were plenty of libraries accepting the "none" algorithm [1] or allowing attackers to forge tokens by using a public key as a shared secret [2]. This is the direct result of the complexity criticized in the linked blog post.
I'm a bit surprised at this. These are extremely simple to solve - the first time I ever did a JWT-reading implementation I specified the right defaults, which are very simple, even for a mid-level backend person I would say, and they haven't needed changing in 8 years or whatever it's been. It really isn't very complex.
> if you have to check an identifier for revocation on every request you could just use an opaque session ID and look that up on every request instead!
One reason could be the size. A revocation list only needs to keep session IDs of recently logged-out sessions, for which the token's TTL hasn't yet expired. It may be a much smaller list than a list of every active session.
Also, a JWT (or a Macaroon, etc) can store a large amount of details about the session in a cryptographically secure, unforgeable way. This rids you of the necessity to store all that in your active session database, again cutting the size.
As someone who operates a PostgreSQL database containing 27 billion SSL certificates, each 1-2kb each, with a bunch of secondary indexes that get inserted in random order, I find it pretty incredible that people see the need to optimize their session database. At what scale does the size of the session database actually matter?
Those stateless tokens may be "unforgeable", but they are replayable, and if you're not mindful of that you can have security vulnerabilities.
You should do some basic optimizations. Fixed length table and indexes on the unique string for fast lookups. I also like to do a rolling delete for old sessions after 30 days unless mobile session that is logged in. Those get to live forever.
The cost of the stateless token is basically the CPU usage for signing the message and checking the signature with the public key on the client. Example: Google Compute Instance asks metadata server for OIDC token (which is a JWT). The metadata server respond with the token that basically says "here's the machine service account, here's the machines ID, this token is proof that I am service account abc123 and it's valid for 20 seconds". This is one of the most common uses of JWTs in enterprise. You don't store them. They actually are free.
Lots of web devs get tricked into using them as primary session tokens and it's a huge anti pattern. I see it all the time and people get aggressive about it.
If you don't understand conceptually how to verify a signature with a public key the very first thing you should do is get that working and then work from there. It's completely unacceptable to ship without this.
If we stipulate that, we're still left wondering what the utility is of a standard that creates affordances for the insecure defaults, as opposed to just designing it right from the beginning.
I agree with your first part but your edit is a logic fallacy. I don't need to be able to hack something to say that it is insecure.
For example: I don't know how to exploit SAML but I know it is a terrible standard dur to making all of the XML parser an attack surface. I am not a security researcher so I dont know how to find exploits in XML parsers but I know having a huge attack surface is bad.
In sessions vs. JWT revocation lists, there is an argument in favor of JWT revocation lists. JWTs have a limited expiry timestamp, so you only ever need to maintain a revocation list for tokens not expired yet. Given that you probably only have a fraction of JWTs revoked compare to valid JWTs in circulation, you only need to query a very small dataset for each request.
When using sessions, your list of valid sessions is probably orders of magnitudes higher that the revocation list - thus the data lookup costs and the storage cost of that statefulness is higher.
Plus, the article mentions JWTs are stateless but that is usually not true. You mostly not only validate the JWT, but also obtain a matching identity object (i.e. user details) for each request to see if the user is still enabled/authorized to do whatever he does. You can leverage stuff such as per-user revocation lists, or a minimum_issued_at that will validate any JWT iat field. This allows the "Logout from all devices" pattern, where that action will simply set a user's minimum_issued_at field to $NOW. All previous tokens will thus be revoked, without individuall revocation list checks.
It definitely violates DRY but if you keep passing the JWT down the call chain, you can do redundant permission checking in your business layer.
Now the reasonable response to the above is that this should be happening in a dedicated authn/z concern - and that is correct! But when paranoia is called for, it's not unreasonable to have redundant checks in logic where authz is critical.
Depends on the system. If you use JWTs for authentication only, they still serve a purpose. Sessions also only serve as authentication, not authorization. Authorization is independent of the both systems, and it depends how you implement that.
There are systems where the authorization is done in the JWT too (i.e. scopes/permissions in the token) - in that case you are right.
I agree. The storage space, however, is a different story. Your session DB can grow huge, depending on your session lifetime and your users logout behaviour. Plus, it is a concern in a distributed system (i.e. a token can be validated on every node, vs. a session lookup must be globally in sync)
What if you have two servers, one in japan and one in central europe? Where do the sessions live?
With JWTs, you would only need to replicate your revocation list of the last X hours (X being your JWT default lifetime) and probably be in the megabytes for the total list. Easy to replicate that ever 5-10seconds to all your locations.
Yeah of course, but how does that relate to my point? With JWTs you don'T have a list of valid tokens as state, but only a list of invalid ones (revoked). But the list of revoked tokens in the last X hours (where X is your token lifetime) is always going to be smaller than the list of active sessions given a large enough user base. Hence my original point stands, that the lookup and storage costs are lower than on sessions. Whether or not sessions have session lifetimes does not change the fact at all.
isn't it that you must have a revocation list in many cases? if you cannot get from N to 1 or 1 to 0 states, if you're just going from N to N-1>1, you haven't materially decreased your statefulness
JWTs are insecure... even when using trusted, rsa/ppk based signing methods? not shared secrets.
JWTs are too long lived... Nothing is stopping you from limiting the JWT lifetime and having a refresh model against an authentication authority... I mean, even if you use cookie based sessions, you're storing somewhere... you can have a jwt valid for 5-15min. 15minutes is roughly the cache timing for many authorization systems including Entra... and even a 5min token with a refresh system can be used fine from a browser.
Lastly, I prefer to have identity/auth separated from the application/api services... it externalizes context and JWT per request is easier to deal with than some shared cache/state system that may intermittently fail as opposed to a signed token that you can verify the signature against known authorities.
You can make a JWT invalid after 30 seconds or even 1 second. You should set an aud (audience) when creating the JWT. Otherwise the signature is crypto-graphically sound. Validate every single JWT every single time with a short lifetime.
If your talking about a browser context, where the authority is separate from the requesting body, then expiring even at 30s is excessive for user context, let alone every 1s or every request... you're effectively then inflating every single API request into 2 requests... one for a new token, then another to the API being called. This is irresponsible for not much gain in a user-facing context.
You should not be using them for user contexts at all. The cookie should be the session token and the sessions should be stored on the server side where you can simply delete them and the user's login becomes invalid. Using JWTs for this use case is just plain wrong.
This links to some other blog post for the bulk of it's 'why', and that blog post mostly seems to be annoyed about "You cannot invalidate individual JWT tokens". Which every time I've implemented, the general guideline is to check for invalidated nonces somewhere. Which resolves that random blog posts second point too.
>The JWT specification itself is not trusted by security experts.
This feels like it needs more evidence than just one blog post. And that blog post seems to just largely blame bad implementations? Something that will plague any standard.
Overall, I don't know what I expected clicking a random gist link.
Yeah... some early implementations just allowed for any authority to be set in the header and trusted it... that's of course wrong from the start... if you only allow for trusted or "known" authorities a lot of the contextual concerns become non-concerns.
Beyond this, you can make shorter lived JWTs just fine in the browser and have the agents self-update. If you use Azure Entra or a number of other providers it works this way in practice... you keep your JWTs relatively short lived (5-15m) and can even check for jti revokation.
JWTs are incredibly useful for separating/reusing an access authority from your applications/api systems. You shift the attack surface and do it in a way that can be trusted. We use PPK for lots of things, including SSH all over the world. No, I wouldn't use shared secrets and I wouldn't use long lived tokens... but short lived, ppk signed tokens from verified/known sources are generally fine.
For that matter, it's often API keys that are really problematic. Just had to implement them... for me, the API key presents as a Bearer token as well, but there's a short "sak." prefix then an identity part (base64url uuid bytes) followed by a secret as base64url bytes... in the database is the uuid and a passphrase level salt+hash from the secret.. so the api key generated should be treated as a secret and is one-way to the database, so a db breach doesn't breach auth.
Even then, an API key leak is far mroe likely than a problem with a well implemented JWT solution.
> "You cannot invalidate individual JWT tokens". Which every time I've implemented, the general guideline is to check for invalidated nonces somewhere. Which resolves that random blog posts second point too.
100% agree. This is common sense to me and I'm always surprised to re-learn people don't do this
A user wants to access a read-only resource with an invalid JWT? Envoy bounces it without passing the request through to the backend. Valid JWT? Let the request through without having to look up any session information. No DB, no cache, no session server hit. Fast.
A user wants to change a password, email address, or add an authenticator? First, require a password, second, require a second factor. If all of that checks out, look for the JWT access token in a revocation list that is only accessed during sensitive, infrequent, requests like these. If the token has been revoked, 403.
Tokens are dropped from the revocation list once the original access token's TTL has passed. Which should be low. I use 5 minutes. Most sessions on my site last 4-10 minutes.
Worst case scenario, a malicious user is able to access certain read-only resources for a few minutes.
I'm right now adding rabbitmq for notification pushing to a website. Using JWT authentication to control where and what clients are allowed to read, with short lifetimes and regular token refresh.
I don't see another setup that comes close to the ease of setting this up - add an endpoint that provides jwt tokens to valid sessions, done. With user-individual permissions.
HN is full of people who don't actually fully understand the subject matter speaking confidentiality. And lots of arguing even when they are clearly wrong.
One of the articles that TFA links to [0] contains the following paragraphs:
> And there are more security problems. Unlike sessions - which can be invalidated by the server whenever it feels like it - individual stateless JWT tokens cannot be invalidated. By design, they will be valid until they expire, no matter what happens. This means that you cannot, for example, invalidate the session of an attacker after detecting a compromise. You also cannot invalidate old sessions when a user changes their password.
> You are essentially powerless, and cannot 'kill' a session without building complex (and stateful!) infrastructure to explicitly detect and reject them, defeating the entire point of using stateless JWT tokens to begin with.
I'm not sure that this is entirely true. Typically, the total number of non-expired issued tokens is much higher than the number of invalidated unexpired tokens. Therefore, if you store only invalidated tokens and delete them when they get expired, you can significantly reduce the amount of required storage and the cost of lookup.
Although, in any real application the performance gains will be minuscule (compared to the cost of, you know, everything else. Auth is just a small part) and probably not worth the extra complexity.
>> You are essentially powerless, and cannot 'kill' a session without building complex (and stateful!) infrastructure to explicitly detect and reject them, defeating the entire point of using stateless JWT tokens to begin with.
> I'm not sure that this is entirely true.
You can be sure it is not true, because it is utter BS. JWTs have an "iat" timestamp field (issued at) and in the described case that an attacker has a leaked token, your validation logic simply should refuse any token with iat < $NOW for that identity.
I have JWTs implemented for a site and in my case, users cannot individually revoke tokens - but they have a "Signout from all devices" option. That will basically just set a field "minimum_issued_at" to $NOW in the database for their user, and any tokens will always be validated against the minimum iat timestamp. That is a good compromise in security and simplicity.
Revocation lists have their purpose, though, in systems with heightened security requirements.
> your validation logic simply should refuse any token before $NOW.
Well, this approach throws out a lot of babies with the bathwater. You invalidate tons of legitimate tokens along with the one that you wanted to invalidate and get a thundering herd [0] of clients wishing to re-authenticate.
This is probably not good in case of a really high load.
And if you don't have a really high load, then there is no good reason not to have a stateful session storage.
I edited my comment after I posted it to clearify you do this on a per-identity basis. I.e. every user/identity has a minimum_issued_at field. A user can "sign out from all devices", and that will simply update minimum_issued_at with $NOW.
You are not throwing out a lot of babies with the bathwater if you would do it in a case of a known attack. You would invalidate ALL tokens of a user, which is a sane default especially since usually you wouldn't be able to rule out what other tokens were compromised. And yes, if it later turned out ALL your users and all their token were possibly compromised because you had some kind of security flaw, setting a global minimum_issued_at is exactly what you would do after you fixed the flaw. And yes, that means all your users must reauthenticate.
Please, keep using JWTs, they do their job well: giving you an access or ID token that you can pass between applications and trust based on cryptographic signatures from an identity provider.
No need to stop. The XSS argument also applies when using cookies.
JWTs are just tokens like session data but in JSON format. What format you choose to go with doesn't matter.
You can keep storing JWTs in local storage and still be secure. Discord removes it on page load and restores it when the tab is closed.
Also if your website is susceptible to XSS, skill issue, exactly like in the case of SQL injections. That wouldn't have happened had people used the right tools and not played with fire.
I think anything can be abused, and too many people don't have a security-first mindset.
One of the advantages of JWTs is that you don't have to check your database or filesystem to make sure the the user is valid and logged in. All that data is in the JWT. If it's just a static page, it doesn't need to hit any data.
The problem then comes that some developers think that makes it secure, and don't check the database for revocation before doing anything with the account. Especially not for giving out private data. They might check before changing any data.
I think it's a really neat idea that is far too easy to mishandle and create a bad situation. It can save a lot of bandwidth and CPU cycles if you have a lot of non-interactive pages and all you need to know is whether to show that the user is logged in or not. But for actually doing anything, it's practically no better than a session cookie, and it's got a lot of foot-guns.
with cookies you can restrict them to HttpOnly so that they are not exposed to client-side scripts. This reduces the chances of XSS to access the long-lived access tokens (JWT or session ids).
The Fifa hack had nothing to do with JWTs, it was because FIFA was doing auth on the client side. They would have had the same issue if they used cookie auth.
h4ckernews also accessed an Azure Function App that provided direct download URLs for internal FIFA files, including transfer reports and board level data, due to a lack of RBAC access checks.
> they are not secure.
They are secure if they fit your risk profile, a blanket statement like this is just disinformation.
Don't treat your peers like idiots.
Plenty of good uses for JWTs for service-to-service communication.
edit: I read some of the linked stuff, e.g. https://paragonie.com/blog/2017/03/jwt-json-web-tokens-is-ba... . Please, if JWTs are such a horrifically insecure standard, go ahead and publish your means for hacking AWS STS's AssumeRoleWithWebIdentity , or don't publish and just exploit it by launching cryptominers in every Fortune 500 production AWS account. Let me know when you inevitably succeed, because JWTs are so insecure, right? /sarcasm
> Plenty of good uses for JWTs for service-to-service communication.
This is the sensible conclusion right there. I agree JWTs are the wrong tool for the use case of user sessions in the browser.
To give some more arguments:
All the signature and encryption stuff in JWTs is complex. While common JWT libraries have now mostly got their stuff together, this has not always been the case. There were plenty of libraries accepting the "none" algorithm [1] or allowing attackers to forge tokens by using a public key as a shared secret [2]. This is the direct result of the complexity criticized in the linked blog post.
JWTs also cannot do some stuff you want for user sessions. You can't invalidate them without keeping a revocation list somewhere. But if you have to check an identifier for revocation on every request you could just use an opaque session ID and look that up on every request instead! Sure, you can use short-lived tokens and refresh them all the time, but why bother with that for a typical application that has to keep some state anyway?
All that being said, I wholeheartedly agree that there are use cases in distributed systems and machine-to-machine communication where signed tokens can be useful. Just please don't confuse the two cases.
[1] https://nvd.nist.gov/vuln/detail/cve-2022-23540
[2] https://nvd.nist.gov/vuln/detail/CVE-2024-54150 (just a random example from googling, I don't know what library made this one infamous)
I'm a bit surprised at this. These are extremely simple to solve - the first time I ever did a JWT-reading implementation I specified the right defaults, which are very simple, even for a mid-level backend person I would say, and they haven't needed changing in 8 years or whatever it's been. It really isn't very complex.
One reason could be the size. A revocation list only needs to keep session IDs of recently logged-out sessions, for which the token's TTL hasn't yet expired. It may be a much smaller list than a list of every active session.
Also, a JWT (or a Macaroon, etc) can store a large amount of details about the session in a cryptographically secure, unforgeable way. This rids you of the necessity to store all that in your active session database, again cutting the size.
Those stateless tokens may be "unforgeable", but they are replayable, and if you're not mindful of that you can have security vulnerabilities.
Lots of web devs get tricked into using them as primary session tokens and it's a huge anti pattern. I see it all the time and people get aggressive about it.
Since most of the common libraries across all languages have gotten more sane defaults, it actually is pretty secure nowadays.
For example: I don't know how to exploit SAML but I know it is a terrible standard dur to making all of the XML parser an attack surface. I am not a security researcher so I dont know how to find exploits in XML parsers but I know having a huge attack surface is bad.
When using sessions, your list of valid sessions is probably orders of magnitudes higher that the revocation list - thus the data lookup costs and the storage cost of that statefulness is higher.
Plus, the article mentions JWTs are stateless but that is usually not true. You mostly not only validate the JWT, but also obtain a matching identity object (i.e. user details) for each request to see if the user is still enabled/authorized to do whatever he does. You can leverage stuff such as per-user revocation lists, or a minimum_issued_at that will validate any JWT iat field. This allows the "Logout from all devices" pattern, where that action will simply set a user's minimum_issued_at field to $NOW. All previous tokens will thus be revoked, without individuall revocation list checks.
Now the reasonable response to the above is that this should be happening in a dedicated authn/z concern - and that is correct! But when paranoia is called for, it's not unreasonable to have redundant checks in logic where authz is critical.
There are systems where the authorization is done in the JWT too (i.e. scopes/permissions in the token) - in that case you are right.
With JWTs, you would only need to replicate your revocation list of the last X hours (X being your JWT default lifetime) and probably be in the megabytes for the total list. Easy to replicate that ever 5-10seconds to all your locations.
Sessions have expiration timestamps too, and you can configure them however you like.
JWTs are too long lived... Nothing is stopping you from limiting the JWT lifetime and having a refresh model against an authentication authority... I mean, even if you use cookie based sessions, you're storing somewhere... you can have a jwt valid for 5-15min. 15minutes is roughly the cache timing for many authorization systems including Entra... and even a 5min token with a refresh system can be used fine from a browser.
Lastly, I prefer to have identity/auth separated from the application/api services... it externalizes context and JWT per request is easier to deal with than some shared cache/state system that may intermittently fail as opposed to a signed token that you can verify the signature against known authorities.
OIDC tokens are all JWTs btw.
>The JWT specification itself is not trusted by security experts.
This feels like it needs more evidence than just one blog post. And that blog post seems to just largely blame bad implementations? Something that will plague any standard.
Overall, I don't know what I expected clicking a random gist link.
Beyond this, you can make shorter lived JWTs just fine in the browser and have the agents self-update. If you use Azure Entra or a number of other providers it works this way in practice... you keep your JWTs relatively short lived (5-15m) and can even check for jti revokation.
JWTs are incredibly useful for separating/reusing an access authority from your applications/api systems. You shift the attack surface and do it in a way that can be trusted. We use PPK for lots of things, including SSH all over the world. No, I wouldn't use shared secrets and I wouldn't use long lived tokens... but short lived, ppk signed tokens from verified/known sources are generally fine.
For that matter, it's often API keys that are really problematic. Just had to implement them... for me, the API key presents as a Bearer token as well, but there's a short "sak." prefix then an identity part (base64url uuid bytes) followed by a secret as base64url bytes... in the database is the uuid and a passphrase level salt+hash from the secret.. so the api key generated should be treated as a secret and is one-way to the database, so a db breach doesn't breach auth.
Even then, an API key leak is far mroe likely than a problem with a well implemented JWT solution.
100% agree. This is common sense to me and I'm always surprised to re-learn people don't do this
A user wants to access a read-only resource with an invalid JWT? Envoy bounces it without passing the request through to the backend. Valid JWT? Let the request through without having to look up any session information. No DB, no cache, no session server hit. Fast.
A user wants to change a password, email address, or add an authenticator? First, require a password, second, require a second factor. If all of that checks out, look for the JWT access token in a revocation list that is only accessed during sensitive, infrequent, requests like these. If the token has been revoked, 403.
Tokens are dropped from the revocation list once the original access token's TTL has passed. Which should be low. I use 5 minutes. Most sessions on my site last 4-10 minutes.
Worst case scenario, a malicious user is able to access certain read-only resources for a few minutes.
I don't see another setup that comes close to the ease of setting this up - add an endpoint that provides jwt tokens to valid sessions, done. With user-individual permissions.
Using them as the primary source of truth is an anti-pattern like the blog post is actually saying.
> And there are more security problems. Unlike sessions - which can be invalidated by the server whenever it feels like it - individual stateless JWT tokens cannot be invalidated. By design, they will be valid until they expire, no matter what happens. This means that you cannot, for example, invalidate the session of an attacker after detecting a compromise. You also cannot invalidate old sessions when a user changes their password.
> You are essentially powerless, and cannot 'kill' a session without building complex (and stateful!) infrastructure to explicitly detect and reject them, defeating the entire point of using stateless JWT tokens to begin with.
I'm not sure that this is entirely true. Typically, the total number of non-expired issued tokens is much higher than the number of invalidated unexpired tokens. Therefore, if you store only invalidated tokens and delete them when they get expired, you can significantly reduce the amount of required storage and the cost of lookup.
Although, in any real application the performance gains will be minuscule (compared to the cost of, you know, everything else. Auth is just a small part) and probably not worth the extra complexity.
[0] "Stop using JWT for sessions" - http://cryto.net/~joepie91/blog/2016/06/13/stop-using-jwt-fo...
> I'm not sure that this is entirely true.
You can be sure it is not true, because it is utter BS. JWTs have an "iat" timestamp field (issued at) and in the described case that an attacker has a leaked token, your validation logic simply should refuse any token with iat < $NOW for that identity.
I have JWTs implemented for a site and in my case, users cannot individually revoke tokens - but they have a "Signout from all devices" option. That will basically just set a field "minimum_issued_at" to $NOW in the database for their user, and any tokens will always be validated against the minimum iat timestamp. That is a good compromise in security and simplicity.
Revocation lists have their purpose, though, in systems with heightened security requirements.
Well, this approach throws out a lot of babies with the bathwater. You invalidate tons of legitimate tokens along with the one that you wanted to invalidate and get a thundering herd [0] of clients wishing to re-authenticate.
This is probably not good in case of a really high load.
And if you don't have a really high load, then there is no good reason not to have a stateful session storage.
[0] https://en.wikipedia.org/wiki/Thundering_herd_problem
You are not throwing out a lot of babies with the bathwater if you would do it in a case of a known attack. You would invalidate ALL tokens of a user, which is a sane default especially since usually you wouldn't be able to rule out what other tokens were compromised. And yes, if it later turned out ALL your users and all their token were possibly compromised because you had some kind of security flaw, setting a global minimum_issued_at is exactly what you would do after you fixed the flaw. And yes, that means all your users must reauthenticate.
Does anyone have an example of how they built a JWT revocation service?
If you want to be more fancy and fast, you can use bloom filters to check if a token is in a revocation list.
The post is not descriptive enough
It should explain how to not store JWT instead of just saying JWT is bad.
Please, keep using JWTs, they do their job well: giving you an access or ID token that you can pass between applications and trust based on cryptographic signatures from an identity provider.
JWTs are just tokens like session data but in JSON format. What format you choose to go with doesn't matter.
You can keep storing JWTs in local storage and still be secure. Discord removes it on page load and restores it when the tab is closed.
Also if your website is susceptible to XSS, skill issue, exactly like in the case of SQL injections. That wouldn't have happened had people used the right tools and not played with fire.
One of the advantages of JWTs is that you don't have to check your database or filesystem to make sure the the user is valid and logged in. All that data is in the JWT. If it's just a static page, it doesn't need to hit any data.
The problem then comes that some developers think that makes it secure, and don't check the database for revocation before doing anything with the account. Especially not for giving out private data. They might check before changing any data.
I think it's a really neat idea that is far too easy to mishandle and create a bad situation. It can save a lot of bandwidth and CPU cycles if you have a lot of non-interactive pages and all you need to know is whether to show that the user is logged in or not. But for actually doing anything, it's practically no better than a session cookie, and it's got a lot of foot-guns.