DevOps & SRE notes

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Helpful articles and tools for DevOps&SRE WhatsApp: https://whatsapp.com/channel/0029Vb79nmmHVvTUnc4tfp2F For paid consultation (RU/EN), contact: @tutunak All ways to support https://telegra.ph/How-support-the-channel-02-19

📈 نظرة تحليلية على قناة تيليجرام DevOps & SRE notes

تُعد قناة DevOps & SRE notes (@devops_sre_notes) في القطاع اللغوي الإنكليزية لاعباً نشطاً. يضم المجتمع حالياً 12 681 مشتركاً، محتلاً المرتبة 10 048 في فئة التكنولوجيات والتطبيقات والمرتبة 2 966 في منطقة الولايات المتحدة.

📊 مؤشرات الجمهور والحراك

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بحسب آخر البيانات بتاريخ 14 يونيو, 2026، تحافظ القناة على نشاط مستقر. خلال آخر 30 يوماً تغيّر عدد الأعضاء بمقدار 228، وفي آخر 24 ساعة بمقدار 6، مع بقاء الوصول العام مرتفعاً.

حالة التحقق: غير موثّقة
معدل التفاعل (ER): يبلغ متوسط تفاعل الجمهور 15.90‎%. وخلال أول 24 ساعة من النشر يحصد المحتوى عادةً 4.81‎% من ردود الفعل نسبةً إلى إجمالي المشتركين.
وصول المنشورات: يحصل كل منشور على متوسط 2 016 مشاهدة. وخلال اليوم الأول يجمع عادةً 610 مشاهدة.
التفاعلات والاستجابة: يتفاعل الجمهور بانتظام؛ متوسط التفاعلات لكل منشور يبلغ 5.
الاهتمامات الموضوعية: يركز المحتوى على مواضيع رئيسية مثل kubernete, cluster, author, engineering, monitoring.

📝 الوصف وسياسة المحتوى

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“Helpful articles and tools for DevOps&SRE WhatsApp: https://whatsapp.com/channel/0029Vb79nmmHVvTUnc4tfp2F For paid consultation (RU/EN), contact: @tutunak All ways to support https://telegra.ph/How-support-the-channel-02-19”

بفضل وتيرة التحديث المرتفعة (أحدث البيانات بتاريخ 15 يونيو, 2026) تحافظ القناة على حداثتها ومستوى وصول مرتفع. وتُظهر التحليلات تفاعلاً نشطاً من الجمهور، ما يجعلها نقطة تأثير مهمة ضمن فئة التكنولوجيات والتطبيقات.

12 681

المشتركون

+624 ساعات

+517 أيام

+22830 أيام

2 016

عرض المشاهدات

~ 61024 ساعات

~ 76448 ساعات

15.90%

معدل المشاركة

لا توجد بيانات

المشاركات في اليوم

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أرشيف المشاركات

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https://www.stackhawk.com/blog/stackhawk-github-dev-first-security-testing-across-the-github-universe/

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Logging operator for Kubernetes https://github.com/kube-logging/logging-operator

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Tools for building Kubernetes disk images https://github.com/kubernetes-sigs/image-builder

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In this article, you'll explore the complexities of Kubernetes network management, iptables, and port forwarding and discover how Kubernetes hides service ports from traditional tools like netstat. https://journal.hexmos.com/kube-network/

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🦭 Run and operate MariaDB in a cloud native way https://github.com/mariadb-operator/mariadb-operator

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Open-source observability for microservices. Thanks to eBPF you can gain comprehensive insights into your system within minutes. https://github.com/coroot/coroot

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https://adityaoo7.hashnode.dev/secure-secret-management-in-kubernetes-exploring-different-approaches

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The article by Luca Cavallin titled "barco: Linux Containers From Scratch in C" is a comprehensive guide on creating a simple container runtime in C. It focuses on utilizing Linux kernel features like namespaces, seccomp, capabilities, and cgroups. The project, named 'barco', serves as a learning tool for understanding containerization in Linux and is not intended for production use. The article also details the development process, including the environment setup and the structure of the C project. https://www.lucavall.in/barco-linux-containers-from-scratch-in-c

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Self-hosted Jira - RIP. Support for Server products ended on Feb. 15, 2024 Server products and apps no longer receive technical support, security updates, and bug fixes for vulnerabilities. https://www.atlassian.com/migration/assess/journey-to-cloud

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This driver allows Kubernetes to access NFS server on Linux node. https://github.com/kubernetes-csi/csi-driver-nfs

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m9sweeper is a free and easy kubernetes security platform. https://github.com/m9sweeper/m9sweeper

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Watches k8s cluster events and logs them to stdout in JSON https://github.com/max-rocket-internet/k8s-event-logger

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https://nateb.xyz/a/self-managed-kubernetes The article by Nate Buckareff on "Self-Managed Kubernetes" is a detailed tutorial on setting up a self-managed Kubernetes cluster using QEMU, a Linux virtual machine environment. It covers steps like setting up a local test environment, creating virtual network interfaces, bootstrapping nodes, and installing Kubernetes with k0s. The guide also addresses network configurations using dnsmasq and iptables, and emphasizes the importance of understanding Kubernetes intricacies for successful self-management.

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🦥 Easy and simple Prometheus SLO (service level objectives) generator https://github.com/slok/sloth

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zot - A production-ready vendor-neutral OCI-native container image registry (purely based on OCI Distribution Specification) https://github.com/project-zot/zot

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Define sleep & wake up cycles for your Kubernetes resources. Automatically schedule to shutdown Deployments, CronJobs, StatefulSets and HorizontalPodAutoscalers that occupy resources in your cluster and wake them up only when you need them, reducing that way the overall power consumption. https://github.com/rekuberate-io/sleepcycles

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https://povilasv.me/how-to-monitor-kubelet/ The article on Povilas Versockas' blog provides a comprehensive guide on monitoring Kubelet, a key component in Kubernetes. It explains Kubelet's role in managing pods and nodes, details its operation, and discusses how to monitor it effectively using methods like the RED approach. The article also outlines the Kubernetes Service Level Objectives for Kubelet and introduces the Kubernetes Monitoring Mixin, which includes a dashboard and alerts for monitoring Kubelet. This resource is particularly useful for those looking to understand and improve their monitoring of Kubelet in a Kubernetes environment.

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A new AI AWS event. February 22 https://aws.amazon.com/events/aws-innovate/apj/aiml-data/?trkCampaign=innovate-aiml-apj&trk=043be770-1620-4f29-9326-74dd01925d5c

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A kubectl plugin to visualize network policies rules. https://github.com/runoncloud/kubectl-np-viewer

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Kepler (Kubernetes-based Efficient Power Level Exporter) uses eBPF to probe performance counters and other system stats, use ML models to estimate workload energy consumption based on these stats, and exports them as Prometheus metrics https://github.com/sustainable-computing-io/kepler