A computer system has a first node including a first baseboard management controller (BMC) and a first host of the first BMC. The first node determines that the first node is an active node. The first node operates a first storage service at the first host. The first host is a first storage device connected to one or more storage drives. The first storage service manages a first Remote Direct Memory Access (RDMA) controller for accessing user data stored on the one or more storage drives. The first node indicates to a second node that the first node is operating normally. The first node syncs data available on the first node with the second node.

A computer system includes a BMC and a host of the BMC. The BMC receives a first message from a first remote device on an existing out-of-band management network. The BMC determines whether the first message is directed to a storage service or fabric service running on the host, the host being a storage device. The storage service provides access to user data stored on one or more storage devices connected to the host via a storage network that is isolated from the management network. When the first message is directed to the storage service or fabric service: the BMC extracts a service command from the first message; the BMC sends, through a BMC communication channel to the host, a second message containing the service command to the host. The BMC communication channel has been established for communicating baseboard management commands between the BMC and the host.

A computer system includes a first baseboard management controller (BMC) and a first host of the first BMC. The first host operates a first storage service at the first host. The first host is a first storage device connected to one or more storage drives. The first storage service managing a first Remote Direct Memory Access (RDMA) controller for accessing user data stored on the one or more storage drives through a storage network. The first BMC receives state information of the one or more storage drives. The first BMC sends notifications to a client of the first BMC, in response to receiving the state information.

A computer system includes a BMC and a host of the BMC. The BMC receives a first message from a first remote device on a management network. The BMC determines whether the first message is directed to a storage service or fabric service executed on a central processing unit of the host. The host is a storage device. The central processing unit is in commutation with a RDMA controller through an external communication channel. The RDMA controller being managed by the storage service. The BMC extracts a service management command from the first message, when the first message is directed to the storage service or fabric service. The BMC sends, through a BMC communication channel to the host, a second message containing the service management command to the host. The BMC communication channel has been established for communicating baseboard management commands between the BMC and the host.

In an aspect of the disclosure, a method, a computer-readable medium, and a computer system are provided. The computer system includes a baseboard management controller (BMC). The BMC receives a first message from a first remote device on a management network. The BMC determines whether the first message is directed to a storage service or fabric service running on a host of the BMC. The host is a storage device. The BMC extracts a service management command from the first message, when the first message is directed to the storage service or fabric service. The BMC sends, through a BMC communication channel to the host, a second message containing the service management command to the host. The BMC communication channel established for communicating baseboard management commands between the BMC and the host.

A computer system includes a BMC and a host of the BMC. The BMC receives a first message from a first remote device on a management network. The BMC determines whether the first message is directed to a storage service or fabric service executed on a main processor of a storage controller of the host. The host is a storage device. The storage controller includes an RDMA controller in communication with the main processor through an internal communication channel of the storage controller. The RDMA controller is managed by the storage service. The BMC extracts a service management command from the first message, when the first message is directed to the storage service or fabric service. The BMC sends, through a BMC communication channel established for communicating baseboard management commands between the BMC and the host, a second message containing the service management command to the host.

A method for execution by a dispersed storage and task (DST) processing unit includes obtaining audit records for an audit object and determining when the audit object is complete. When the audit object is complete, aggregating the audit records of the audit object within the audit object by generating the audit object to include the audit records; generating identifier (ID) information and generating integrity information. Fields of the audit object are populated with the audit records, the ID information, and the integrity information and a name of the audit object is determined for storage of the audit object and the name of the audit object in a dispersed storage network (DSN).

Exemplary methods, apparatuses, and systems include a controller that determines that a group of memory cells of a first memory device has an elevated error rate. In response to determining the elevated error rate, the controller identifies a spare group of memory cells. The group of memory cells and the spare group of memory cells span a first dimension and a second dimension that is orthogonal to the first dimension. The controller reads a portion of a logical unit from the group of memory cells along the first dimension of the group. The controller further determines that the group of memory cells and the spare group of memory cells have strong disturb effects in different dimensions and, in response to that determination, writes the portion of the logical unit to the spare group of memory cells along the second dimension of the spare group.

The disclosure provides a data processing device and method. The data processing device may include: a task configuration information storage unit and a task queue configuration unit. The task configuration information storage unit is configured to store configuration information of tasks. The task queue configuration unit is configured to configure a task queue according to the configuration information stored in the task configuration information storage unit. According to the disclosure, a task queue may be configured according to the configuration information.

An access request processing method and apparatus, and a computer device are disclosed. The computer device includes a processor, a dynamic random-access memory (DRAM), and a non-volatile memory (NVM). When receiving a write request, the processor may identify an object cache page according to the write request. The processor obtains the to-be-written data from a buffer according to a buffer pointer in the write request, the to-be-written data including a new data chunk to be written into the object cache page. The processor then inserts a new data node into a log chain of the object cache page, where the NVM stores data representing the log chain of the object cache page. The new data node includes information regarding the new data chunk of the object cache page. The computer device provided in this application can reduce system overheads while protecting data consistency.