Rados Gateway (radosgw) is an object storage gateway that provides RESTful (Representational State Transfer) API interface to access Ceph Storage Cluster. It allows applications to store and retrieve objects in the cluster using popular S3 and Swift APIs, making it compatible with a wide range of existing applications and libraries. Radosgw also supports multi-site replication, lifecycle management, cross-origin resource sharing (CORS), and other advanced features that make it a versatile solution for building distributed object storage systems. Radosgw is a part of the Ceph distributed storage system and can be deployed as a standalone service or as part of a Ceph Storage Cluster.
Rados Gateway (radosgw) is an object storage gateway that provides RESTful (Representational State Transfer) API interface to access Ceph Storage Cluster. It allows applications to store and retrieve objects in the cluster using popular S3 and Swift APIs, making it compatible with a wide range of existing applications and libraries. Radosgw also supports multi-site replication, lifecycle management, cross-origin resource sharing (CORS), and other advanced features that make it a versatile solution for building distributed object storage systems. Radosgw is a part of the Ceph distributed storage system and can be deployed as a standalone service or as part of a Ceph Storage Cluster.
In Linux, a process is an instance of a running computer program. It's the basic unit of execution where a program is executed. Every process in Linux is assigned a unique Process ID (PID) which is used to identify the process.
Processes in Linux can be either in the foreground or background. Foreground processes are those that interact with the user, while background processes run without user intervention.
Linux processes inherit attributes and resource limits from their parent processes, and new processes can be created using the fork() system call. Child processes can further replace their memory space with a new program using the exec() system call.
Processes can be managed using various commands like ps (to display information about processes), top (to show currently running processes), kill (to terminate processes), and many others.
Linux provides a robust set of process management features, allowing for efficient multitasking and resource utilization. The Linux scheduler handles process scheduling, ensuring that CPU time is allocated effectively among running processes.
Overall, processes in Linux form the backbone of the operating system, enabling it to manage various tasks and run multiple programs concurrently.
CacheFS is a filesystem caching technology developed for UNIX-like operating systems .It is designed to cache the contents of a remote filesystem onto the local disk to improve performance by reducing the number of network requests needed to access frequently used files. CacheFS works by intercepting requests to access remote files and serving them from the local disk cache, rather than accessing them over the network every time they are needed.
CacheFS is used primarily in situations where network bandwidth is limited or where the latency of remote access is high, such as in WAN or satellite link scenarios. It is often used to speed up access to file servers, such as Network File System (NFS) servers.
some of its features have been incorporated into other caching technologies, such as the Squid web proxy cache.
MariaDB and MySQL are both popular open-source relational database management systems (RDBMS) that are used to store, organize, and manage data. They are both based on the same core software, which was originally developed by MySQL AB, but MariaDB is a fork of MySQL that was created in 2009 due to concerns about the acquisition of MySQL by Oracle Corporation.
MariaDB and MySQL have many similarities, including their architecture, syntax, and functionality. Both databases use SQL (Structured Query Language) to manage data and support a wide range of programming languages. They also offer features such as replication, clustering, and partitioning to improve performance and scalability.
However, there are also some differences between MariaDB and MySQL. MariaDB has some additional features and improvements over MySQL, such as better performance, improved security, and more storage engines. MariaDB also supports more data types than MySQL and has more built-in functions.
Overall, both MariaDB and MySQL are powerful and reliable RDBMS options for managing data, and the choice between them may depend on specific needs and preferences.
NBD (Network Block Device) and nbdkit are related technologies in the realm of virtualization and storage. They allow you to work with remote block devices and create flexible storage solutions. Here's an overview of each:
1. NBD (Network Block Device):
NBD is a protocol that allows you to access remote block devices over a network, as if they were local block devices. It provides a way to export disk images or block devices from a server to clients, enabling remote access and manipulation of these devices.
Key features of NBD include:
Block-Level Access: NBD operates at the block level, allowing you to read from and write to specific blocks on a remote device.
Flexibility: It's used in various scenarios such as diskless booting, live migration of virtual machines, and remote disk access for storage solutions.
Network Transport: NBD operates over the network and typically uses TCP/IP as the underlying transport.
Read-Only and Read-Write Modes: You can access remote devices in both read-only and read-write modes.
2. nbdkit:
nbdkit is a pluggable NBD server, providing a flexible and extensible way to serve remote block devices. It acts as an NBD server that can be extended using various plugins, allowing you to create custom storage solutions tailored to your needs.
OpenStack Designate is a DNS as a Service (DNSaaS) solution that is part of the OpenStack cloud computing platform. It provides a scalable, reliable, and highly available DNS infrastructure for cloud-based applications and services.
Designate enables users to manage their domain names and DNS records through a RESTful API or a web-based dashboard. It supports various record types, including A, AAAA, CNAME, MX, NS, PTR, SRV, and TXT. Users can also create and manage zones, which are collections of DNS records that define a domain name's authoritative name servers.
Designate integrates with other OpenStack services such as Keystone, Nova, Neutron, and Horizon. It also supports integration with external DNS providers, allowing users to easily switch between providers or use multiple providers for redundancy.
Designate is designed to be highly scalable and fault-tolerant. It uses a distributed architecture that allows it to handle millions of DNS queries per second and ensures high availability even in the event of node failures.
Overall, OpenStack Designate provides a flexible and powerful DNSaaS solution that simplifies the management of domain names and DNS records in cloud-based environments.
In Linux, a process is an instance of a running computer program. It's the basic unit of execution where a program is executed. Every process in Linux is assigned a unique Process ID (PID) which is used to identify the process.
Processes in Linux can be either in the foreground or background. Foreground processes are those that interact with the user, while background processes run without user intervention.
Linux processes inherit attributes and resource limits from their parent processes, and new processes can be created using the fork() system call. Child processes can further replace their memory space with a new program using the exec() system call.
Processes can be managed using various commands like ps (to display information about processes), top (to show currently running processes), kill (to terminate processes), and many others.
Linux provides a robust set of process management features, allowing for efficient multitasking and resource utilization. The Linux scheduler handles process scheduling, ensuring that CPU time is allocated effectively among running processes.
Overall, processes in Linux form the backbone of the operating system, enabling it to manage various tasks and run multiple programs concurrently.
CacheFS is a filesystem caching technology developed for UNIX-like operating systems .It is designed to cache the contents of a remote filesystem onto the local disk to improve performance by reducing the number of network requests needed to access frequently used files. CacheFS works by intercepting requests to access remote files and serving them from the local disk cache, rather than accessing them over the network every time they are needed.
CacheFS is used primarily in situations where network bandwidth is limited or where the latency of remote access is high, such as in WAN or satellite link scenarios. It is often used to speed up access to file servers, such as Network File System (NFS) servers.
some of its features have been incorporated into other caching technologies, such as the Squid web proxy cache.
MariaDB and MySQL are both popular open-source relational database management systems (RDBMS) that are used to store, organize, and manage data. They are both based on the same core software, which was originally developed by MySQL AB, but MariaDB is a fork of MySQL that was created in 2009 due to concerns about the acquisition of MySQL by Oracle Corporation.
MariaDB and MySQL have many similarities, including their architecture, syntax, and functionality. Both databases use SQL (Structured Query Language) to manage data and support a wide range of programming languages. They also offer features such as replication, clustering, and partitioning to improve performance and scalability.
However, there are also some differences between MariaDB and MySQL. MariaDB has some additional features and improvements over MySQL, such as better performance, improved security, and more storage engines. MariaDB also supports more data types than MySQL and has more built-in functions.
Overall, both MariaDB and MySQL are powerful and reliable RDBMS options for managing data, and the choice between them may depend on specific needs and preferences.
NBD (Network Block Device) and nbdkit are related technologies in the realm of virtualization and storage. They allow you to work with remote block devices and create flexible storage solutions. Here's an overview of each:
1. NBD (Network Block Device):
NBD is a protocol that allows you to access remote block devices over a network, as if they were local block devices. It provides a way to export disk images or block devices from a server to clients, enabling remote access and manipulation of these devices.
Key features of NBD include:
Block-Level Access: NBD operates at the block level, allowing you to read from and write to specific blocks on a remote device.
Flexibility: It's used in various scenarios such as diskless booting, live migration of virtual machines, and remote disk access for storage solutions.
Network Transport: NBD operates over the network and typically uses TCP/IP as the underlying transport.
Read-Only and Read-Write Modes: You can access remote devices in both read-only and read-write modes.
2. nbdkit:
nbdkit is a pluggable NBD server, providing a flexible and extensible way to serve remote block devices. It acts as an NBD server that can be extended using various plugins, allowing you to create custom storage solutions tailored to your needs.
OpenStack Designate is a DNS as a Service (DNSaaS) solution that is part of the OpenStack cloud computing platform. It provides a scalable, reliable, and highly available DNS infrastructure for cloud-based applications and services.
Designate enables users to manage their domain names and DNS records through a RESTful API or a web-based dashboard. It supports various record types, including A, AAAA, CNAME, MX, NS, PTR, SRV, and TXT. Users can also create and manage zones, which are collections of DNS records that define a domain name's authoritative name servers.
Designate integrates with other OpenStack services such as Keystone, Nova, Neutron, and Horizon. It also supports integration with external DNS providers, allowing users to easily switch between providers or use multiple providers for redundancy.
Designate is designed to be highly scalable and fault-tolerant. It uses a distributed architecture that allows it to handle millions of DNS queries per second and ensures high availability even in the event of node failures.
Overall, OpenStack Designate provides a flexible and powerful DNSaaS solution that simplifies the management of domain names and DNS records in cloud-based environments.
2. اطالعات فناوری دنیای در آن جایگاه و آن سرگذشت ،لینوکس عامل سیستم
• MINIX, Unix
• Richard Stallman
• It is mostly about GNU not Linux
• GPL
• Open-source
• Distributions
• What if there were no GNU/Linux
11. لینوکس بدون دنیایی
•IBM, Google, Amazon, NASA
•دنیا های ابرکامپیوتر
•لینوکسی های سرور بیشمار تعدادمانند معروف های سرور وب وNginx, Apache
•اکثر و ها دیتاسنترDNSها سرور
•کم استفاده ی هزینه و موجود های معماری اکثر با سازگاری
You cannot hate this guy, can you?
12. RESOURCES
• Torvalds, Linus. & Diamond, David. (2001). Just for Fun:The Story of an Accidental Revolutionary.
NewYork: HarperCollins Publishers.
• community.nethserver.org
• gnu.org