StorageBlog101

  Veeam Backup & Replication is a critical component of enterprise data protection infrastructure. However, maximizing its capabilities requires deep technical knowledge and systematic troubleshooting methodologies. This guide examines advanced support scenarios that demand precise configuration and comprehensive understanding of Veeam's underlying architecture. Deep Dive into Advanced Veeam Backup & Replication Troubleshooting Complex backup failures often stem from layered system interactions rather than surface-level configuration errors. Advanced troubleshooting requires methodical analysis of log files, particularly veeambackup.log and vsssvc.log, combined with correlation of Windows Event Viewer entries. Performance degradation typically originates from repository bottlenecks, network latency, or source storage constraints. When addressing persistent backup failures, examine job retry settings, backup chain integrity, and synthetic full configuration. Analyze ba...

  A sophisticated supply-chain attack linked to Chinese threat actors has compromised a widely-used open-source coding application, raising critical concerns about software integrity and development security. This incident underscores the growing risks facing organizations that rely on open-source ecosystems and highlights the urgent need for enhanced vigilance in software supply chains. Attack Overview and Attribution Security researchers have identified a coordinated supply-chain attack  targeting a popular open-source development tool. The threat actors, believed to be operating from China based on infrastructure analysis and tactical patterns, successfully infiltrated the application's distribution pipeline. This compromise allowed malicious code to be embedded within legitimate software updates, potentially affecting thousands of developers and organizations worldwide. The attack demonstrates advanced persistent threat (APT) capabilities, including sophisticated obf...

  Traditional disaster recovery strategies were built for on-premises infrastructure. They relied on tape backups, offsite storage, and lengthy recovery procedures that often measured downtime in hours or days. Cloud computing has fundamentally altered this paradigm. Organizations now have access to distributed, resilient architectures that enable recovery objectives previously unattainable with legacy systems. This article examines advanced disaster recovery strategies in cloud environments, focusing on technical implementation patterns, recovery time objectives (RTO) and recovery point objectives (RPO) optimization, and the infrastructure design principles that enable resilient cloud ecosystems. RTO and RPO in Cloud Architectures Recovery time objective (RTO) defines the maximum acceptable downtime following a disaster event. Recovery point objective (RPO) specifies the maximum acceptable data loss measured in time. Cloud architectures enable significantly reduced RTO and R...

  Enterprise IT infrastructure faces persistent threats—from hardware failures and cyberattacks to natural disasters and human error. For organizations managing mission-critical workloads, the question is not whether a disruption will occur, but when. Cloud backup and disaster recovery (DR) offers a modern approach to business continuity, enabling rapid recovery with reduced capital expenditure compared to traditional on-premises solutions. This guide examines the technical foundations of cloud backup and disaster recovery, exploring architecture models, recovery objectives, implementation strategies, security protocols, and compliance considerations for enterprise environments. Cloud DR Architecture: Public, Private, and Hybrid Models Selecting the appropriate cloud architecture requires careful evaluation of performance requirements, data sensitivity, and regulatory constraints. Public Cloud DR leverages shared infrastructure from providers such as AWS, Microsoft Azure,...

  Microsoft's shared responsibility model places data protection squarely on your shoulders. While Microsoft 365 ensures platform availability and infrastructure resilience, your organization remains accountable for safeguarding mailbox data, SharePoint sites, OneDrive files, and Teams content against accidental deletion, ransomware, and retention gaps. Veeam Backup for Microsoft 365 (VB365) addresses this critical need through a per-user subscription licensing model. Understanding the pricing structure—and the variables that impact total cost of ownership—requires evaluating not just license costs, but also storage architecture, deployment models, and feature sets across editions. Per-User Subscription Licensing Architecture VB365 operates on a straightforward per-user licensing model. Each user in your Microsoft 365 tenant who requires backup coverage consumes one license, regardless of how many services they use (Exchange Online, SharePoint, OneDrive, Teams). This applies ...