Completion Queue - 2.0 English

Versal Adaptive SoC DMA and Bridge Subsystem for PCI Express Product Guide (PG344)

Document ID
PG344
Release Date
2024-11-22
Version
2.0 English

The Completion (CMPT) queue is a ring located in host memory. The consumer is software, and the producer is the CMPT engine. The software maintains the consumer index (CIDX) and a copy of hardware producer index (HW PIDX) to avoid reading unwritten completions. The CMPT engine also maintains PIDX and a copy of software consumer index (SW CIDX) to make sure that the engine does not overwrite unread completions. The last entry in the queue is dedicated for the status descriptor which is where the engine writes the hardware producer index (HW PIDX) and other status.

The engine maintains a total of 2048 CMPT contexts in local memory. The context stores properties of the queue, such as base address, SW CIDX, PIDX, and depth of the queue.

Figure 1. Simple Completion Queue Flow

C2H stream is expected to use the CMPT queue for completions to host, but it can also be used for other types of completions or for sending messages to the driver. The message through the CMPT is guaranteed to not bypass the corresponding C2H stream packet DMA.

The simple flow of DMA CMPT queue operation with respect to the numbering above follows:

  1. The CMPT engine receives the completion message through the CMPT interface, but the QID for the completion message comes from the C2H stream interface. The engine reads the QID index of CMPT context RAM.
  2. The DMA writes the CMPT entry to address BASE+PIDX.
  3. If all conditions are met, optionally writes PIDX to the status descriptor of the CMPT queue with color bit.
  4. If interrupt mode is enabled, the CMPT engine generates the interrupt event message to the interrupt module.
  5. The driver can be in polling or interrupt mode. Either way, the driver identifies the new CMPT entry either by matching the color bit or by comparing the PIDX value in the status descriptor against its current software CIDX value.
  6. The driver updates CIDX for that queue. This allows the hardware to reuse the descriptors again. After the software finishes processing the CMPT, that is, before it stops polling or leaving the interrupt handler, the driver issues a write to CIDX update register for the associated queue.