Re: [PATCH 0/2] capability: Introduce CAP_BLOCK_ADMIN

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On 5/23/23 3:13 AM, Casey Schaufler wrote:
On 5/21/2023 7:53 PM, Tianjia Zhang wrote:
Hi Casey,

On 5/18/23 8:01 AM, Casey Schaufler wrote:
On 5/16/2023 5:05 AM, Tianjia Zhang wrote:
Hi Casey,

On 5/12/23 12:17 AM, Casey Schaufler wrote:
On 5/11/2023 12:05 AM, Tianjia Zhang wrote:
Separated fine-grained capability CAP_BLOCK_ADMIN from CAP_SYS_ADMIN.
For backward compatibility, the CAP_BLOCK_ADMIN capability is
included
within CAP_SYS_ADMIN.

Some database products rely on shared storage to complete the
write-once-read-multiple and write-multiple-read-multiple functions.
When HA occurs, they rely on the PR (Persistent Reservations)
protocol
provided by the storage layer to manage block device permissions to
ensure data correctness.

CAP_SYS_ADMIN is required in the PR protocol implementation of
existing
block devices in the Linux kernel, which has too many sensitive
permissions, which may lead to risks such as container escape. The
kernel needs to provide more fine-grained permission management like
CAP_NET_ADMIN to avoid online products directly relying on root to
run.

CAP_BLOCK_ADMIN can also provide support for other block device
operations that require CAP_SYS_ADMIN capabilities in the future,
ensuring that applications run with least privilege.

Can you demonstrate that there are cases where a program that needs
CAP_BLOCK_ADMIN does not also require CAP_SYS_ADMIN for other
operations?
How much of what's allowed by CAP_SYS_ADMIN would be allowed by
CAP_BLOCK_ADMIN? If use of a new capability is rare it's difficult to
justify.


For the previous non-container scenarios, the block device is a shared
device, because the business-system generally operates the file system
on the block. Therefore, directly operating the block device has a high
probability of affecting other processes on the same host, and it is a
reasonable requirement to need the CAP_SYS_ADMIN capability.

But for a database running in a container scenario, especially a
container scenario on the cloud, it is likely that a container
exclusively occupies a block device. That is to say, for a container,
its access to the block device will not affect other process, there is
no need to obtain a higher CAP_SYS_ADMIN capability.

If I understand correctly, you're saying that the process that requires
CAP_BLOCK_ADMIN in the container won't also require CAP_SYS_ADMIN for
other operations.

That's good, but it isn't clear how a process on bare metal would
require CAP_SYS_ADMIN while the same process in a container wouldn't.


For a file system similar to distributed write-once-read-many, it is
necessary to ensure the correctness of recovery, then when recovery
occurs, it is necessary to ensure that no inflighting-io is completed
after recovery.

This can be guaranteed by performing operations such as SCSI/NVME
Persistent Reservations on block devices on the distributed file
system.

Does your cloud based system always run "real" devices? My
understanding is that cloud based deployment usually uses
virtual machines and virtio or other simulated devices.
A container deployment in the cloud seems unlikely to be able
to take advantage of block administration. But I can't say
I know the specifics of your environment.

Therefore, at present, it is only necessary to have the relevant
permission support of the control command of such container-exclusive
block devices.

This looks like an extremely special case in which breaking out
block management would make sense.

Our scenario is like this. In simply terms, a distributed database has
a read-write instance and one or more read-only instances. Each instance
runs in an isolated container. All containers share the same block
device.

In addition to the database instance, there is also a control program
running on the control plane in the container. The database ensures
the correctness of the data through the PR (Persistent Reservations)
of the block device. This operation is also the only operation in the
container that requires CAP_SYS_ADMIN privileges.

This system as a whole, whether it is running on VM or bare metal, the
difference is not big.

In order to support the PR of block devices, we need to grant
CAP_SYS_ADMIN permissions to the container, which not only greatly
increases the risk of container escape, but also makes us have to
carefully configure the permissions of the container. Many container
escapes that have occurred are also caused by these reasons.

This is essentially a problem of permission isolation. We hope to
share the smallest possible permissions from CAP_SYS_ADMIN to support
necessary operations, and avoid providing CAP_SYS_ADMIN permissions
to containers as much as possible.

Your use case is interesting, but not compelling. While you may have
come up with a specific case where you can completely break CAP_BLOCK_ADMIN
out from CAP_SYS_ADMIN, it's hardly general.


It sounds a pity, thanks for your reply, we try to provide support
through self-developed patches first.

Kind regards,
Tianjia




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