Intel® Arria® 10 Hard Processor System Technical Reference Manual

ID 683711
Date 8/28/2023
Public
Document Table of Contents

16.4.3. SPI Legacy Mode

SPI legacy mode allows software to access the internal TX FIFO and RX FIFO buffers directly, thus bypassing the direct, indirect and STIG controllers. Software accesses the TX FIFO and RX FIFO buffers by writing any value to any address through the data slave while legacy mode is enabled. You can enable legacy mode with the legacy IP mode enable bit (enlegacyip) of the cfg register.

Legacy mode allows the user to issue any flash instruction to the flash device, but imposes a heavy software overhead in order to manage the fill levels of the FIFO buffers effectively. The legacy SPI mode is bidirectional in nature, with data continuously being transferred both directions while the chip select is enabled. If the driver only needs to read data from the flash device, dummy data must be written to ensure the chip select stays active, and vice versa for write transactions.

For example, to perform a basic read of four bytes to a flash device that has three address bytes, software must write a total of eight bytes to the TX FIFO buffer. The first byte would be the instruction opcode, the next three bytes are the address, and the final four bytes would be dummy data to ensure the chip select stays active while the read data is returned. Similarly, because eight bytes were written to the TX FIFO buffer, software should expect eight bytes to be returned in the RX FIFO buffer. The first four bytes of this would be discarded, leaving the final four bytes holding the data read from the device.

Because the TX FIFO and RX FIFO buffers are four bytes deep each, software must maintain the FIFO buffer levels to ensure the TX FIFO buffer does not underflow and the RX FIFO buffer does not overflow. Interrupts are provided to indicate when the fill levels pass the watermark levels, which are configurable through the TX threshold register (txtresh) and RX threshold register (rxtresh).