On 3/13/18 1:50 PM, Tejun Heo wrote:
Hello, Matt.
cc'ing Roman and Alexei.
On Tue, Mar 06, 2018 at 03:46:55PM -0800, Matt Roper wrote:
There are cases where other parts of the kernel may wish to store data
associated with individual cgroups without building a full cgroup
controller. Let's add interfaces to allow them to register and lookup
this private data for individual cgroups.
A kernel system (e.g., a driver) that wishes to register private data
for a cgroup will do so by subclassing the 'struct cgroup_priv'
structure to describe the necessary data to store. Before registering a
private data structure to a cgroup, the caller should fill in the 'key'
and 'free' fields of the base cgroup_priv structure.
* 'key' should be a unique void* that will act as a key for future
privdata lookups/removals. Note that this allows drivers to store
per-device private data for a cgroup by using a device pointer as a key.
* 'free' should be a function pointer to a function that may be used
to destroy the private data. This function will be called
automatically if the underlying cgroup is destroyed.
This feature turned out to have more users than I originally
anticipated and bpf also wants something like this to track network
states. The requirements are pretty similar but not quite the same.
The extra requirements are...
* Lookup must be really cheap. Probably using pointer hash or walking
list isn't great, so maybe idr based lookup + RCU protected index
table per cgroup?
* It should support both regular memory and percpu pointers. Given
that what cgroup does is pretty much cgroup:key -> pointer lookup,
it's mostly about getting the interface right so that it's not too
error-prone.
from bpf side there should be _zero_ lookups.
If bpf do a lookup it can equally use its own map to do that.
From bpf program point of view it will look like:
struct my_data {
u64 a;
u32 b;
} *ptr;
ptr = bpf_get_cgroup_buf(skb, sizeof(struct my_data));
bpf_get_cgroup_buf() is lookup-free. Worst case it will do pointer
dereferences
skb->sk->sk_cgrp_data->val to get to cgroup and from cgroup to get
pointer to the buffer.
In good case it may be optimized (inlined) by the verifier into absolute
address of that cgroup scratch buffer at attach time.
sizeof(struct my_data) will be seen by verifier and it will propagate it
into prog->aux.
Later at prog attach time the kernel will request allocation via
cgroup_malloc(cgrp)
This scratch memory will be available per-cgroup and can be further
divided by the bpf program.
The bound checks will be done statically by the verifier similar to map
values.
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