I know this reply is hopelessly late, but I still want to clarify a few things (see inline for that) and provide some background on the thinking that led to this proposal and where we ultimately landed for the benefit of folks that come across this thread in the future.
The team working on tracing had asked me to provide input on the security angle. We generally follow principle of least privilege / attack surface minimization principles, and so the conclusion "kernel tracing not needed" -> let's turn it off so we have one less thing to potentially worry about was an easy one. What I hadn't been aware of is that (a) no such config option exists in the kernel and (b) the approach that the kernel is taking is to limit access to tracing data to privileged users (via perf_event_paranoid sysctl, CAP_PERFMON). Same for leaking kernel code pointers (note that kernel tracing trivially defeats KASLR), privileged userspace can already read /proc/kallsysms. While I would still like the kernel to give us a build time option to disable kernel tracing, we can work with the current state of affairs.
On Wed, Mar 10, 2021 at 4:17 PM Sai Prakash Ranjan saiprakash.ranjan@codeaurora.org wrote:
Hi Andi,
On 2021-03-09 20:14, Andi Kleen wrote:
The disk encryption is just one example
The intention behind that example was to illustrate the point that there are some data items that the kernel should hide to all of userspace, including privileged processes. I know this has been controversial in the past, but I hope we all agree that the kernel (if configured appropriately) is aiming to do so.
and there might be others
which we might not be aware of yet and we are not suspecting there is something wrong with the crypto code that needs to be fixed.
Then you don't have any leaks relating to branch tracing.
restrict an external(in the sense that its not related to crypto or any other security related component) entity such as hardware assisted tracing like ARM coresight and so on. I don't see why or how the crypto code needs to be fixed for something that is not related to it although it is affected.
It's just a general property that if some code that is handling secrets is data dependent it already leaks.
Timing side channels have been a constant source of grief in crypto implementations for decades now. Things have become better in the most popular implementations, but bugs continue to be found. I happened to chat about this topic with David Benjamin (boringssl maintainer) recently, and his take was that timing side channels are a well understood problem meanwhile, but in practice few implementations get the details right. And the thing with high-resolution timestamps in traces is that it gives you a tool to observe timing differences closer to the source (so less noise) than if you just measure syscall latency from userspace. So, in theory you are right - data-dependent branches should not exist in crypto code, and if they do we should just fix them, since they're potentially exploitable already. In practice, timestamp information in tracing data can act as a magnifying glass that may well make a difference between whether a timing side channel is problematic in practice or not.
The analogy would be like of the victims and a perpetrator. Lets take coresight as an example for perpetrator and crypto as the victim here. Now we can try
There's no victim with branch tracing, unless it is already leaky.
If we just know one victim (lets say crypto code here), what happens to the others which we haven't identified yet? Do we just wait for someone to write an exploit based on this and then scramble to fix it?
For a useful security mitigation you need a threat model first I would say.
So you need to have at least some idea how an attack with branch tracing would work.
Initial change was to restrict this only to HW assisted instruction tracing [1]
I don't think it's needed for instruction tracing.
From what I know, newer ARM A-profile cores doesn't allow data tracing. And you are saying that just the instruction tracing cannot be used to infer any important data.
There are few security folks in CC who probably can give us more details on how branch tracing can be used for an exploit. @mnissler?
Thanks, Sai
-- QUALCOMM INDIA, on behalf of Qualcomm Innovation Center, Inc. is a member of Code Aurora Forum, hosted by The Linux Foundation