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1. Before You Begin
2. Introduction
3. Functional Description
4. Interface Overview
5. Parameters (H-Tile)
6. Parameters (P-Tile) (F-Tile) (R-Tile)
7. Designing with the IP Core
8. Software Programming Model
9. Registers
10. Troubleshooting/Debugging
11. Multi Channel DMA Intel FPGA IP for PCI Express User Guide Archives
12. Revision History for Multi Channel DMA Intel FPGA IP for PCI Express User Guide
3.1. Multi Channel DMA
3.2. Bursting Avalon-MM Master (BAM)
3.3. Bursting Avalon-MM Slave (BAS)
3.4. MSI Interrupt
3.5. Config Slave (CS)
3.6. Root Port Address Translation Table Enablement
3.7. Hard IP Reconfiguration Interface
3.8. Config TL Interface
3.9. Configuration Intercept Interface (EP Only)
3.10. Data Mover Only
4.1. Port List
4.2. Clocks
4.3. Resets
4.4. Multi Channel DMA
4.5. Bursting Avalon-MM Master (BAM) Interface
4.6. Bursting Avalon-MM Slave (BAS) Interface
4.7. MSI Interface
4.8. Config Slave Interface (RP only)
4.9. Hard IP Reconfiguration Interface
4.10. Config TL Interface
4.11. Configuration Intercept Interface (EP Only)
4.12. Data Mover Interface
4.13. Hard IP Status Interface
8.1.6.1. ifc_api_start
8.1.6.2. ifc_mcdma_port_by_name
8.1.6.3. ifc_qdma_device_get
8.1.6.4. ifc_num_channels_get
8.1.6.5. ifc_qdma_channel_get
8.1.6.6. ifc_qdma_acquire_channels
8.1.6.7. ifc_qdma_release_all_channels
8.1.6.8. ifc_qdma_device_put
8.1.6.9. ifc_qdma_channel_put
8.1.6.10. ifc_qdma_completion_poll
8.1.6.11. ifc_qdma_request_start
8.1.6.12. ifc_qdma_request_prepare
8.1.6.13. ifc_qdma_descq_queue_batch_load
8.1.6.14. ifc_qdma_request_submit
8.1.6.15. ifc_qdma_pio_read32
8.1.6.16. ifc_qdma_pio_write32
8.1.6.17. ifc_qdma_pio_read64
8.1.6.18. ifc_qdma_pio_write64
8.1.6.19. ifc_qdma_pio_read128
8.1.6.20. ifc_qdma_pio_write128
8.1.6.21. ifc_qdma_pio_read256
8.1.6.22. ifc_qdma_pio_write256
8.1.6.23. ifc_request_malloc
8.1.6.24. ifc_request_free
8.1.6.25. ifc_app_stop
8.1.6.26. ifc_qdma_poll_init
8.1.6.27. ifc_qdma_poll_add
8.1.6.28. ifc_qdma_poll_wait
8.1.6.29. ifc_mcdma_port_by_name
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8.2.2.3. User MSI-X
Each DMA queue is allocated with 2 interrupts:
- For reporting Descriptor completion status.
- For User MSI-X: If some event or error happens, user logic generates the User MSI-X.
Application is responsible to poll for a set of registered interrupt addresses and if User MSI-X is triggered, the corresponding registered interrupt callback gets called. Currently, this callback address is being sent in private pointers of queue config registers.
For D2H queue
int rte_eth_rx_queue_setup(uint16_t port_id, uint16_t rx_queue_id, uint16_t nb_rx_desc, unsigned int socket_id, const struct rte_eth_rxconf *rx_conf, struct rte_mempool *mp) struct rte_eth_rxconf { struct rte_eth_thresh rx_thresh; /**< RX ring threshold registers. */ uint16_t rx_free_thresh; /**< Drives the freeing of RX descriptors. */ uint64_t offloads; … uint64_t reserved_64s[2]; /**< Reserved for future fields */ void *reserved_ptrs[2]; reserved_ptrs[0] should be populated with user MSIX callback };
For H2D queue
Int rte_eth_tx_queue_setup(uint16_t port_id, uint16_t tx_queue_id, uint16_t nb_tx_desc, unsigned int socket_id, const struct rte_eth_rxconf *tx_conf) struct rte_eth_txconf { struct rte_eth_thresh tx_thresh; /**< TX ring threshold registers. */ uint16_t tx_rs_thresh; /**< Drives the setting of RS bit on TXDs. */ uint16_t tx_free_thresh; … uint64_t reserved_64s[2]; /**< Reserved for future fields */ void *reserved_ptrs[2]; reserved_ptrs[0] should be populated with user MSIX callback };