From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: (majordomo@vger.kernel.org) by vger.kernel.org via listexpand id S1760954AbaGYTaS (ORCPT ); Fri, 25 Jul 2014 15:30:18 -0400 Received: from mail-oa0-f42.google.com ([209.85.219.42]:38429 "EHLO mail-oa0-f42.google.com" rhost-flags-OK-OK-OK-OK) by vger.kernel.org with ESMTP id S1760793AbaGYTaO convert rfc822-to-8bit (ORCPT ); Fri, 25 Jul 2014 15:30:14 -0400 MIME-Version: 1.0 In-Reply-To: <20140724163628.GN26600@ubuntumail> References: <1405626731-12220-1-git-send-email-adityakali@google.com> <20140724163628.GN26600@ubuntumail> From: Aditya Kali Date: Fri, 25 Jul 2014 12:29:52 -0700 Message-ID: Subject: Re: [PATCH 0/5] RFC: CGroup Namespaces To: Serge Hallyn Cc: Tejun Heo , Li Zefan , cgroups@vger.kernel.org, "linux-kernel@vger.kernel.org" , Linux API , Ingo Molnar , Linux Containers , Andy Lutomirski Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8BIT Sender: linux-kernel-owner@vger.kernel.org List-ID: X-Mailing-List: linux-kernel@vger.kernel.org Thank you for your review. I have tried to respond to both your emails here. On Thu, Jul 24, 2014 at 9:36 AM, Serge Hallyn wrote: > Quoting Aditya Kali (adityakali@google.com): >> Background >> Cgroups and Namespaces are used together to create “virtual” >> containers that isolates the host environment from the processes >> running in container. But since cgroups themselves are not >> “virtualized”, the task is always able to see global cgroups view >> through cgroupfs mount and via /proc/self/cgroup file. >> > Hi, > > A few questions/comments: > > 1. Based on this description, am I to understand that after doing a > cgroupns unshare, 'mount -t cgroup cgroup /mnt' by default will > still mount the global root cgroup? Any plans on "changing" that? This is suggested in the "Possible Extensions of CGROUPNS" section. More details below. > Will attempts to change settings of a cgroup which is not under > our current ns be rejected? (That should be easy to do given your > patch 1/5). Sorry if it's done in the set, I'm jumping around... > Currently, only 'cgroup_attach_task', 'cgroup_mkdir' and 'cgroup_rmdir' of cgroups outside of cgroupns-root are prevented. The read/write of actual cgroup properties are not prevented. Usual permission checks continue to apply for those. I was hoping that should be enough, but see more comments towards the end. > 2. What would be the reprecussions of allowing cgroupns unshare so > long as you have ns_capable(CAP_SYS_ADMIN) to the user_ns which > created your current ns cgroup? It'd be a shame if that wasn't > on the roadmap. > Its certainly on the roadmap, just that some logistics were not clear at this time. As pointed out by Andy Lutomirski on [PATCH 5/5] of this series, if we allow cgroupns creation to ns_capable(CAP_SYS_ADMIN) processes, we may need some kind of explicit permission from the cgroup subsystem to allow this. One approach could be an explicit cgroup.may_unshare setting. Alternatively, the cgroup directory (which is going to become the cgroupns-root) ownership could also be used here. i.e., the process is ns_capable(CAP_SYS_ADMIN) && it owns the cgroup directory. There seems to be already a function that allows similar thing and might be sufficient: /** * capable_wrt_inode_uidgid - Check nsown_capable and uid and gid mapped * @inode: The inode in question * @cap: The capability in question * * Return true if the current task has the given capability targeted at * its own user namespace and that the given inode's uid and gid are * mapped into the current user namespace. */ bool capable_wrt_inode_uidgid(const struct inode *inode, int cap) What do you think? We can enable this for non-init userns once this is decided on. > 3. The un-namespaced view of /proc/self/cgroup from a sibling cgroupns > makes me wonder whether it wouldn't be more appropriate to leave > /proc/self/cgroup always un-filtered, and use /proc/self/nscgroup > (or somesuch) to provide the namespaced view. /proc/self/nscgroup > would simply be empty (or say (invalid) or (unreachable)) from a > sibling ns. That will give criu and admin tools like lxc/docker all > they need to do simple cgroup setup. > It may work for lxc/docker and new applications that use the new interface. But its difficult to change numerous existing user applications and libraries that depend on /proc/self/cgroup. Moreover, even with the new interface, /proc/self/cgroup will continue to leak system level cgroup information. And fixing this leak is critical to make the container migratable. Its easy to correctly handle the read of /proc//cgroup from a sibling cgroupns. Instead of showing unfiltered view, we could just not show anything (same behavior when the cgroup hierarchy is not mounted). Will that be more acceptable? I can make that change in the next version of this series. >> $ cat /proc/self/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1 >> >> This exposure of cgroup names to the processes running inside a >> container results in some problems: >> (1) The container names are typically host-container-management-agent >> (systemd, docker/libcontainer, etc.) data and leaking its name (or >> leaking the hierarchy) reveals too much information about the host >> system. >> (2) It makes the container migration across machines (CRIU) more >> difficult as the container names need to be unique across the >> machines in the migration domain. >> (3) It makes it difficult to run container management tools (like >> docker/libcontainer, lmctfy, etc.) within virtual containers >> without adding dependency on some state/agent present outside the >> container. >> >> Note that the feature proposed here is completely different than the >> “ns cgroup” feature which existed in the linux kernel until recently. >> The ns cgroup also attempted to connect cgroups and namespaces by >> creating a new cgroup every time a new namespace was created. It did >> not solve any of the above mentioned problems and was later dropped >> from the kernel. >> >> Introducing CGroup Namespaces >> With unified cgroup hierarchy >> (Documentation/cgroups/unified-hierarchy.txt), the containers can now >> have a much more coherent cgroup view and its easy to associate a >> container with a single cgroup. This also allows us to virtualize the >> cgroup view for tasks inside the container. >> >> The new CGroup Namespace allows a process to “unshare” its cgroup >> hierarchy starting from the cgroup its currently in. >> For Ex: >> $ cat /proc/self/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1 >> $ ls -l /proc/self/ns/cgroup >> lrwxrwxrwx 1 root root 0 2014-07-15 10:37 /proc/self/ns/cgroup -> cgroup:[4026531835] >> $ ~/unshare -c # calls unshare(CLONE_NEWCGROUP) and exec’s /bin/bash >> [ns]$ ls -l /proc/self/ns/cgroup >> lrwxrwxrwx 1 root root 0 2014-07-15 10:35 /proc/self/ns/cgroup -> cgroup:[4026532183] >> # From within new cgroupns, process sees that its in the root cgroup >> [ns]$ cat /proc/self/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/ >> >> # From global cgroupns: >> $ cat /proc//cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1 >> >> The virtualization of /proc/self/cgroup file combined with restricting >> the view of cgroup hierarchy by bind-mounting for the >> $CGROUP_MOUNT/batchjobs/c_job_id1/ directory to >> $CONTAINER_CHROOT/sys/fs/cgroup/) should provide a completely isolated >> cgroup view inside the container. >> >> In its current simplistic form, the cgroup namespaces provide >> following behavior: >> >> (1) The “root” cgroup for a cgroup namespace is the cgroup in which >> the process calling unshare is running. >> For ex. if a process in /batchjobs/c_job_id1 cgroup calls unshare, >> cgroup /batchjobs/c_job_id1 becomes the cgroupns-root. >> For the init_cgroup_ns, this is the real root (“/”) cgroup >> (identified in code as cgrp_dfl_root.cgrp). >> >> (2) The cgroupns-root cgroup does not change even if the namespace >> creator process later moves to a different cgroup. >> $ ~/unshare -c # unshare cgroupns in some cgroup >> [ns]$ cat /proc/self/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/ >> [ns]$ mkdir sub_cgrp_1 >> [ns]$ echo 0 > sub_cgrp_1/cgroup.procs >> [ns]$ cat /proc/self/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/sub_cgrp_1 >> >> (3) Each process gets its CGROUPNS specific view of >> /proc//cgroup. >> (a) Processes running inside the cgroup namespace will be able to see >> cgroup paths (in /proc/self/cgroup) only inside their root cgroup >> [ns]$ sleep 100000 & # From within unshared cgroupns >> [1] 7353 >> [ns]$ echo 7353 > sub_cgrp_1/cgroup.procs >> [ns]$ cat /proc/7353/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/sub_cgrp_1 >> >> (b) From global cgroupns, the real cgroup path will be visible: >> $ cat /proc/7353/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1/sub_cgrp_1 >> >> (c) From a sibling cgroupns, the real path will be visible: >> [ns2]$ cat /proc/7353/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1/sub_cgrp_1 >> (In correct container setup though, it should not be possible to >> access PIDs in another container in the first place. This can be >> detected changed if desired.) >> >> (4) Processes inside a cgroupns are not allowed to move out of the >> cgroupns-root. This is true even if a privileged process in global >> cgroupns tries to move the process out of its cgroupns-root. >> >> # From global cgroupns >> $ cat /proc/7353/cgroup >> 0:cpuset,cpu,cpuacct,memory,devices,freezer,hugetlb:/batchjobs/c_job_id1/sub_cgrp_1 >> # cgroupns-root for 7353 is /batchjobs/c_job_id1 >> $ echo 7353 > batchjobs/c_job_id2/cgroup.procs >> -bash: echo: write error: Operation not permitted >> >> (5) setns() is not supported for cgroup namespace in the initial >> version. > > This combined with the full-path reporting for peer ns cgroups could make > for fun antics when attaching to an existing container (since we'd have > to unshare into a new ns cgroup with the same roto as the container). > I understand you are implying this will be fixed soon though. > I am thinking the setns() will be only allowed if target_cgrpns->cgroupns_root is_descendant_of current_cgrpns->cgroupns_root. i.e., you will only be setns to a cgroup namespace which is rooted deeper in hierarchy than your own (in addition to checking capable_wrt_inode_uidgid(target_cgrpns_inode)). In addition to this, we need to decide whether its OK for setns() to also change the cgroup of the task. Consider following example: [A] ----> [B] ----> C ----> D [A] and [B] are cgroupns-roots. Now, if a task in Cgroup D (which is under cgroupns [A]) attempts to setns() to cgroupns [B], then its cgroup should change from /A/D to /A/B. I am concerned about the side-effects this might cause. Though otherwise, this is a very useful feature for containers. One could argue that this is similar to setns() to a mount-namespace which is pivot_root'd somewhere else (in which case, the attaching task's root "/" moves implicitly with setns). Alternatively, we could only allow setns() if target_cgrpns->cgroupns_root == current->cgroup . I.e., taking above example again, if process in Cgroup D wants to setns() to cgroupns [B], then it will first need to move to Cgroup B, and only then the setns() will succeed. This makes sure that there is no implicit cgroup move. WDYT? I haven't prototyped this yet, but will send out a patch after this series is accepted. >> (6) When some thread from a multi-threaded process unshares its >> cgroup-namespace, the new cgroupns gets applied to the entire >> process (all the threads). This should be OK since >> unified-hierarchy only allows process-level containerization. So >> all the threads in the process will have the same cgroup. And both >> - changing cgroups and unsharing namespaces - are protected under >> threadgroup_lock(task). >> >> (7) The cgroup namespace is alive as long as there is atleast 1 >> process inside it. When the last process exits, the cgroup >> namespace is destroyed. The cgroupns-root and the actual cgroups >> remain though. >> >> Implementation >> The current patch-set is based on top of Tejun's cgroup tree (for-next >> branch). Its fairly non-intrusive and provides above mentioned >> features. >> >> Possible extensions of CGROUPNS: >> (1) The Documentation/cgroups/unified-hierarchy.txt mentions use of >> capabilities to restrict cgroups to administrative users. CGroup >> namespaces could be of help here. With cgroup namespaces, it might >> be possible to delegate administration of sub-cgroups under a >> cgroupns-root to the cgroupns owner. > > That would be nice. > >> (2) Provide a cgroupns specific cgroupfs mount. i.e., the following >> command when ran from inside a cgroupns should only mount the >> hierarchy from cgroupns-root cgroup: >> $ mount -t cgroup cgroup >> # -o __DEVEL__sane_behavior should be implicit >> >> This is similar to how procfs can be mounted for every PIDNS. This >> may have some usecases. > > Sorry - I see this answers the first part of a question in my previous email. > However, the question of whether changes to limits in cgroups which are not > under our cgroup-ns-root are allowed. > > Admittedly the current case with cgmanager is the same - in that it depends > on proper setup of the container - but cgmanager is geared to recommend > not mounting the cgroups in the container at all (and we can reject such > mounts in the contaienr altogether with no loss in functionality) whereas > you are here encouraging such mounts. Which is fine - so long as you then > fully address the potential issues. It will be nice to have this, but frankly, it may add a bit of complexity in the cgroup/kernfs code (I will have to prototype and see). Also same behavior can be obtained simply by bind-mounting cgroupns-root inside the container. So I am currently inclining towards rejecting such mounts in favor of simplicity. Regarding disallowing writes to cgroup files outside of your cgroupns-root, I think it should possible implement it easily. I will include it in the next revision of this series. Thanks, -- Aditya