Chaining dma control and status registers, Chaining dma control and status registers –10 – Altera Arria V Hard IP for PCI Express User Manual

17–10

Chapter 17: Testbench and Design Example

Chaining DMA Design Examples

Arria V Hard IP for PCI Express

December 2013

Altera Corporation

User Guide

Chaining DMA Control and Status Registers

The software application programs the chaining DMA control register located in the
Endpoint application.

Table 17–2

describes the control registers which consists of four

dwords for the DMA write and four dwords for the DMA read. The DMA control
registers are read/write.

Table 17–3

describes the control fields of the of the DMA read and DMA write control

registers.

32-bit BAR4

32-bit BAR5
64-bit BAR5:4

Maps to 32 KByte target memory block. Use the rc_slave module to bypass the chaining DMA.

Expansion ROM BAR

Not implemented by design example; behavior is unpredictable.

I/O Space BAR (any)

Not implemented by design example; behavior is unpredictable.

Table 17–1. Design Example BAR Map

Table 17–2. Chaining DMA Control Register Definitions

(1)

Addr

(2)

Register Name

3124

2316

150

0x0

DMA Wr Cntl DW0

Control Field (refer to

Table 17–3

)

Number of descriptors in descriptor table

0x4

DMA Wr Cntl DW1

Base Address of the Write Descriptor Table (BDT) in the RC Memory–Upper DWORD

0x8

DMA Wr Cntl DW2

Base Address of the Write Descriptor Table (BDT) in the RC Memory–Lower DWORD

0xC

DMA Wr Cntl DW3

Reserved

RCLAST–Idx of last descriptor to process

0x10

DMA Rd Cntl DW0

Control Field (refer to

Table 17–3

)

Number of descriptors in descriptor table

0x14

DMA Rd Cntl DW1

Base Address of the Read Descriptor Table (BDT) in the RC Memory–Upper DWORD

0x18

DMA Rd Cntl DW2

Base Address of the Read Descriptor Table (BDT) in the RC Memory–Lower DWORD

0x1C

DMA Rd Cntl DW3

Reserved

RCLAST–Idx of the last descriptor to process

Note to

Table 17–2

:

(1) Refer to

Figure 17–2 on page 17–6

for a block diagram of the chaining DMA design example that shows these registers.

(2) This is the Endpoint byte address offset from BAR2 or BAR3.

Table 17–3. Bit Definitions for the Control Field in the DMA Write Control Register and DMA Read Control Register

Bit

Field

Description

16

Reserved

—

17

MSI_ENA

Enables interrupts of all descriptors. When 1, the Endpoint DMA module issues an
interrupt using MSI to the RC when each descriptor is completed. Your software
application or BFM driver can use this interrupt to monitor the DMA transfer status.

18

EPLAST_ENA

Enables the Endpoint DMA module to write the number of each descriptor back to
the EPLAST field in the descriptor table.

Table 17–7

describes the descriptor table.

[24:20]

MSI Number

When your RC reads the MSI capabilities of the Endpoint, these register bits map
to the back-end MSI signals

app_msi_num

[4:0]. If there is more than one MSI, the

default mapping if all the MSIs are available, is:

■

MSI 0 = Read

■

MSI 1 = Write